diff options
author | Akinori Ito <aito@eie.yz.yamagata-u.ac.jp> | 2001-11-08 05:14:08 +0000 |
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committer | Akinori Ito <aito@eie.yz.yamagata-u.ac.jp> | 2001-11-08 05:14:08 +0000 |
commit | 68a07bf03b7624c9924065cce9ffa45497225834 (patch) | |
tree | c2adb06a909a8594445e4a3f8587c4bad46e3ecd /gc | |
download | w3m-68a07bf03b7624c9924065cce9ffa45497225834.tar.gz w3m-68a07bf03b7624c9924065cce9ffa45497225834.zip |
Initial revision
Diffstat (limited to '')
133 files changed, 42798 insertions, 0 deletions
diff --git a/gc/BCC_MAKEFILE b/gc/BCC_MAKEFILE new file mode 100644 index 0000000..225a1ed --- /dev/null +++ b/gc/BCC_MAKEFILE @@ -0,0 +1,82 @@ +# Makefile for Borland C++ 4.5 on NT
+# For Borland 5.0, replace bc45 by bc5.
+# If you have the Borland assembler, remove "-DUSE_GENERIC"
+#
+bc= c:\bc45
+bcbin= $(bc)\bin
+bclib= $(bc)\lib
+bcinclude= $(bc)\include
+
+cc= $(bcbin)\bcc32
+rc= $(bcbin)\brc32
+lib= $(bcbin)\tlib
+link= $(bcbin)\tlink32
+cflags= -R -v -vi -H -H=gc.csm -I$(bcinclude);cord -L$(bclib) \
+ -w-pro -w-aus -w-par -w-ccc -w-rch -a4 -D__STDC__=0
+#defines= -DSILENT
+defines= -DSMALL_CONFIG -DSILENT -DALL_INTERIOR_POINTERS -DUSE_GENERIC
+
+.c.obj:
+ $(cc) @&&|
+ $(cdebug) $(cflags) $(cvars) $(defines) -o$* -c $*.c
+|
+
+.cpp.obj:
+ $(cc) @&&|
+ $(cdebug) $(cflags) $(cvars) $(defines) -o$* -c $*.cpp
+|
+
+.rc.res:
+ $(rc) -i$(bcinclude) -r -fo$* $*.rc
+
+XXXOBJS= XXXalloc.obj XXXreclaim.obj XXXallchblk.obj XXXmisc.obj \
+ XXXmach_dep.obj XXXos_dep.obj XXXmark_rts.obj XXXheaders.obj XXXmark.obj \
+ XXXobj_map.obj XXXblacklst.obj XXXfinalize.obj XXXnew_hblk.obj \
+ XXXdbg_mlc.obj XXXmalloc.obj XXXstubborn.obj XXXdyn_load.obj \
+ XXXtypd_mlc.obj XXXptr_chck.obj XXXgc_cpp.obj XXXmallocx.obj
+
+OBJS= $(XXXOBJS:XXX=)
+
+all: gctest.exe cord\de.exe test_cpp.exe
+
+$(OBJS) test.obj: gc_priv.h gc_hdrs.h gc.h gcconfig.h MAKEFILE
+
+gc.lib: $(OBJS)
+ -del gc.lib
+ tlib $* @&&|
+ $(XXXOBJS:XXX=+)
+|
+
+gctest.exe: test.obj gc.lib
+ $(cc) @&&|
+ $(cflags) -W -e$* test.obj gc.lib
+|
+
+cord\de.obj cord\de_win.obj: cord\cord.h cord\private\cord_pos.h cord\de_win.h \
+ cord\de_cmds.h
+
+cord\de.exe: cord\cordbscs.obj cord\cordxtra.obj cord\de.obj cord\de_win.obj \
+ cord\de_win.res gc.lib
+ $(cc) @&&|
+ $(cflags) -W -e$* cord\cordbscs.obj cord\cordxtra.obj \
+ cord\de.obj cord\de_win.obj gc.lib
+|
+ $(rc) cord\de_win.res cord\de.exe
+
+gc_cpp.obj: gc_cpp.h gc.h
+
+gc_cpp.cpp: gc_cpp.cc
+ copy gc_cpp.cc gc_cpp.cpp
+
+test_cpp.cpp: test_cpp.cc
+ copy test_cpp.cc test_cpp.cpp
+
+test_cpp.exe: test_cpp.obj gc_cpp.h gc.h gc.lib
+ $(cc) @&&|
+ $(cflags) -W -e$* test_cpp.obj gc.lib
+|
+
+scratch:
+ -del *.obj *.res *.exe *.csm cord\*.obj cord\*.res cord\*.exe cord\*.csm
+
+
diff --git a/gc/EMX_MAKEFILE b/gc/EMX_MAKEFILE new file mode 100644 index 0000000..54a06ce --- /dev/null +++ b/gc/EMX_MAKEFILE @@ -0,0 +1,141 @@ +# +# OS/2 specific Makefile for the EMX environment +# +# You need GNU Make 3.71, gcc 2.5.7, emx 0.8h and GNU fileutils 3.9 +# or similar tools. C++ interface and de.exe weren't tested. +# +# Rename this file "Makefile". +# + +# Primary targets: +# gc.a - builds basic library +# c++ - adds C++ interface to library and include directory +# cords - adds cords (heavyweight strings) to library and include directory +# test - prints porting information, then builds basic version of gc.a, and runs +# some tests of collector and cords. Does not add cords or c++ interface to gc.a +# cord/de.exe - builds dumb editor based on cords. +CC= gcc +CXX=g++ +# Needed only for "make c++", which adds the c++ interface + +CFLAGS= -O -DALL_INTERIOR_POINTERS -DSILENT +# Setjmp_test may yield overly optimistic results when compiled +# without optimization. +# -DSILENT disables statistics printing, and improves performance. +# -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly +# altered stubborn objects, at substantial performance cost. +# -DFIND_LEAK causes the collector to assume that all inaccessible +# objects should have been explicitly deallocated, and reports exceptions +# -DSOLARIS_THREADS enables support for Solaris (thr_) threads. +# (Clients should also define SOLARIS_THREADS and then include +# gc.h before performing thr_ or GC_ operations.) +# -DALL_INTERIOR_POINTERS allows all pointers to the interior +# of objects to be recognized. (See gc_private.h for consequences.) +# -DSMALL_CONFIG tries to tune the collector for small heap sizes, +# usually causing it to use less space in such situations. +# Incremental collection no longer works in this case. +# -DDONT_ADD_BYTE_AT_END is meaningful only with +# -DALL_INTERIOR_POINTERS. Normally -DALL_INTERIOR_POINTERS +# causes all objects to be padded so that pointers just past the end of +# an object can be recognized. This can be expensive. (The padding +# is normally more than one byte due to alignment constraints.) +# -DDONT_ADD_BYTE_AT_END disables the padding. + +AR= ar +RANLIB= ar s + +# Redefining srcdir allows object code for the nonPCR version of the collector +# to be generated in different directories +srcdir = . +VPATH = $(srcdir) + +OBJS= alloc.o reclaim.o allchblk.o misc.o mach_dep.o os_dep.o mark_rts.o headers.o mark.o obj_map.o blacklst.o finalize.o new_hblk.o dyn_load.o dbg_mlc.o malloc.o stubborn.o checksums.o typd_mlc.o ptr_chck.o mallocx.o + +CORD_OBJS= cord/cordbscs.o cord/cordxtra.o cord/cordprnt.o + +CORD_INCLUDE_FILES= $(srcdir)/gc.h $(srcdir)/cord/cord.h $(srcdir)/cord/ec.h \ + $(srcdir)/cord/cord_pos.h + +# Libraries needed for curses applications. Only needed for de. +CURSES= -lcurses -ltermlib + +# The following is irrelevant on most systems. But a few +# versions of make otherwise fork the shell specified in +# the SHELL environment variable. +SHELL= bash + +SPECIALCFLAGS = +# Alternative flags to the C compiler for mach_dep.c. +# Mach_dep.c often doesn't like optimization, and it's +# not time-critical anyway. + +all: gc.a gctest.exe + +$(OBJS) test.o: $(srcdir)/gc_priv.h $(srcdir)/gc_hdrs.h $(srcdir)/gc.h \ + $(srcdir)/gcconfig.h $(srcdir)/gc_typed.h +# The dependency on Makefile is needed. Changing +# options such as -DSILENT affects the size of GC_arrays, +# invalidating all .o files that rely on gc_priv.h + +mark.o typd_mlc.o finalize.o: $(srcdir)/gc_mark.h + +gc.a: $(OBJS) + $(AR) ru gc.a $(OBJS) + $(RANLIB) gc.a + +cords: $(CORD_OBJS) cord/cordtest.exe + $(AR) ru gc.a $(CORD_OBJS) + $(RANLIB) gc.a + cp $(srcdir)/cord/cord.h include/cord.h + cp $(srcdir)/cord/ec.h include/ec.h + cp $(srcdir)/cord/cord_pos.h include/cord_pos.h + +gc_cpp.o: $(srcdir)/gc_cpp.cc $(srcdir)/gc_cpp.h + $(CXX) -c -O $(srcdir)/gc_cpp.cc + +c++: gc_cpp.o $(srcdir)/gc_cpp.h + $(AR) ru gc.a gc_cpp.o + $(RANLIB) gc.a + cp $(srcdir)/gc_cpp.h include/gc_cpp.h + +mach_dep.o: $(srcdir)/mach_dep.c + $(CC) -o mach_dep.o -c $(SPECIALCFLAGS) $(srcdir)/mach_dep.c + +mark_rts.o: $(srcdir)/mark_rts.c + $(CC) -o mark_rts.o -c $(CFLAGS) $(srcdir)/mark_rts.c + +cord/cordbscs.o: $(srcdir)/cord/cordbscs.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c $(srcdir)/cord/cordbscs.c -o cord/cordbscs.o + +cord/cordxtra.o: $(srcdir)/cord/cordxtra.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c $(srcdir)/cord/cordxtra.c -o cord/cordxtra.o + +cord/cordprnt.o: $(srcdir)/cord/cordprnt.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c $(srcdir)/cord/cordprnt.c -o cord/cordprnt.o + +cord/cordtest.exe: $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a + $(CC) $(CFLAGS) -o cord/cordtest.exe $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a + +cord/de.exe: $(srcdir)/cord/de.c $(srcdir)/cord/cordbscs.o $(srcdir)/cord/cordxtra.o gc.a + $(CC) $(CFLAGS) -o cord/de.exe $(srcdir)/cord/de.c $(srcdir)/cord/cordbscs.o $(srcdir)/cord/cordxtra.o gc.a $(CURSES) + +clean: + rm -f gc.a test.o gctest.exe output-local output-diff $(OBJS) \ + setjmp_test mon.out gmon.out a.out core \ + $(CORD_OBJS) cord/cordtest.exe cord/de.exe + -rm -f *~ + +gctest.exe: test.o gc.a + $(CC) $(CFLAGS) -o gctest.exe test.o gc.a + +# If an optimized setjmp_test generates a segmentation fault, +# odds are your compiler is broken. Gctest may still work. +# Try compiling setjmp_t.c unoptimized. +setjmp_test.exe: $(srcdir)/setjmp_t.c $(srcdir)/gc.h + $(CC) $(CFLAGS) -o setjmp_test.exe $(srcdir)/setjmp_t.c + +test: setjmp_test.exe gctest.exe + ./setjmp_test + ./gctest + make cord/cordtest.exe + cord/cordtest diff --git a/gc/MacOS.c b/gc/MacOS.c new file mode 100644 index 0000000..cc12cd1 --- /dev/null +++ b/gc/MacOS.c @@ -0,0 +1,154 @@ +/* + MacOS.c + + Some routines for the Macintosh OS port of the Hans-J. Boehm, Alan J. Demers + garbage collector. + + <Revision History> + + 11/22/94 pcb StripAddress the temporary memory handle for 24-bit mode. + 11/30/94 pcb Tracking all memory usage so we can deallocate it all at once. + 02/10/96 pcb Added routine to perform a final collection when +unloading shared library. + + by Patrick C. Beard. + */ +/* Boehm, February 15, 1996 2:55 pm PST */ + +#include <Resources.h> +#include <Memory.h> +#include <LowMem.h> +#include <stdio.h> +#include <stdlib.h> +#include <string.h> + +#include "gc.h" +#include "gc_priv.h" + +// use 'CODE' resource 0 to get exact location of the beginning of global space. + +typedef struct { + unsigned long aboveA5; + unsigned long belowA5; + unsigned long JTSize; + unsigned long JTOffset; +} *CodeZeroPtr, **CodeZeroHandle; + +void* GC_MacGetDataStart() +{ + CodeZeroHandle code0 = (CodeZeroHandle)GetResource('CODE', 0); + if (code0) { + long belowA5Size = (**code0).belowA5; + ReleaseResource((Handle)code0); + return (LMGetCurrentA5() - belowA5Size); + } + fprintf(stderr, "Couldn't load the jump table."); + exit(-1); + return 0; +} + +/* track the use of temporary memory so it can be freed all at once. */ + +typedef struct TemporaryMemoryBlock TemporaryMemoryBlock, **TemporaryMemoryHandle; + +struct TemporaryMemoryBlock { + TemporaryMemoryHandle nextBlock; + char data[]; +}; + +static TemporaryMemoryHandle theTemporaryMemory = NULL; +static Boolean firstTime = true; + +void GC_MacFreeTemporaryMemory(void); + +Ptr GC_MacTemporaryNewPtr(size_t size, Boolean clearMemory) +{ + static Boolean firstTime = true; + OSErr result; + TemporaryMemoryHandle tempMemBlock; + Ptr tempPtr = nil; + + tempMemBlock = (TemporaryMemoryHandle)TempNewHandle(size + sizeof(TemporaryMemoryBlock), &result); + if (tempMemBlock && result == noErr) { + HLockHi((Handle)tempMemBlock); + tempPtr = (**tempMemBlock).data; + if (clearMemory) memset(tempPtr, 0, size); + tempPtr = StripAddress(tempPtr); + + // keep track of the allocated blocks. + (**tempMemBlock).nextBlock = theTemporaryMemory; + theTemporaryMemory = tempMemBlock; + } + +# if !defined(SHARED_LIBRARY_BUILD) + // install an exit routine to clean up the memory used at the end. + if (firstTime) { + atexit(&GC_MacFreeTemporaryMemory); + firstTime = false; + } +# endif + + return tempPtr; +} + +extern word GC_fo_entries; + +static void perform_final_collection() +{ + unsigned i; + word last_fo_entries = 0; + + /* adjust the stack bottom, because CFM calls us from another stack + location. */ + GC_stackbottom = (ptr_t)&i; + + /* try to collect and finalize everything in sight */ + for (i = 0; i < 2 || GC_fo_entries < last_fo_entries; i++) { + last_fo_entries = GC_fo_entries; + GC_gcollect(); + } +} + + +void GC_MacFreeTemporaryMemory() +{ +# if defined(SHARED_LIBRARY_BUILD) + /* if possible, collect all memory, and invoke all finalizers. */ + perform_final_collection(); +# endif + + if (theTemporaryMemory != NULL) { + long totalMemoryUsed = 0; + TemporaryMemoryHandle tempMemBlock = theTemporaryMemory; + while (tempMemBlock != NULL) { + TemporaryMemoryHandle nextBlock = (**tempMemBlock).nextBlock; + totalMemoryUsed += GetHandleSize((Handle)tempMemBlock); + DisposeHandle((Handle)tempMemBlock); + tempMemBlock = nextBlock; + } + theTemporaryMemory = NULL; + +# if !defined(SILENT) && !defined(SHARED_LIBRARY_BUILD) + fprintf(stdout, "[total memory used: %ld bytes.]\n", + totalMemoryUsed); + fprintf(stdout, "[total collections: %ld.]\n", GC_gc_no); +# endif + } +} + +#if __option(far_data) + + void* GC_MacGetDataEnd() + { + CodeZeroHandle code0 = (CodeZeroHandle)GetResource('CODE', 0); + if (code0) { + long aboveA5Size = (**code0).aboveA5; + ReleaseResource((Handle)code0); + return (LMGetCurrentA5() + aboveA5Size); + } + fprintf(stderr, "Couldn't load the jump table."); + exit(-1); + return 0; + } + +#endif /* __option(far_data) */ diff --git a/gc/MacProjects.sit.hqx b/gc/MacProjects.sit.hqx new file mode 100644 index 0000000..99dff88 --- /dev/null +++ b/gc/MacProjects.sit.hqx @@ -0,0 +1,886 @@ +(This file must be converted with BinHex 4.0) + +:$deKBe"bEfTPBh4c,R0TG!"6594%8dP8)3#3"&)e!!!"4UiT8dP8)3!(!!"50A* + +-BA8#ZJ#3!aB"#3d0#'GM,MBi5bkjBf038%-ZZ3#3%)Zi!*!8"@`!N!6rN!4069" + +568e$3`%!UbqAD+X`19S!!!Ba!!!,*J!!!F%!!!-PfTmj1`#3"PET)d31)LTH6H4 + 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+!N!06594%8dP8)3#3"P0*9%46593K!*!BUc!jI3!!8M8!!!&'"1"2l'mDG@6JrHc + +K@5U#NI*HN@GK!Z"2kQ`FG&2UN!"S!!,L@5[48(adA`CdC!EJ6qj[8hJS!!EJEHl + +LEe5!)D$!FJC1ANl!*IrX51FI-#D`jL63G!*&0K!+1Li!&Ri!)VX-S"lbUKQJ(Z` + +3!+SDI!$!#3ZT8,aIE!!!Q$!'8!6"aG!!N!-3!#X!"3%B!J#3"`-!N!-"!*!$!43 + +!N!-8!*!$-J$j(l!@#J#3!a`!-J!!8f9dC`#3!`S!!2rr!*!&q@G%'@B: + diff --git a/gc/Mac_files/MacOS_Test_config.h b/gc/Mac_files/MacOS_Test_config.h new file mode 100644 index 0000000..c95f4bb --- /dev/null +++ b/gc/Mac_files/MacOS_Test_config.h @@ -0,0 +1,91 @@ +/* + MacOS_Test_config.h + + Configuration flags for Macintosh development systems. + + Test version. + + <Revision History> + + 11/16/95 pcb Updated compilation flags to reflect latest 4.6 Makefile. + + by Patrick C. Beard. + */ +/* Boehm, November 17, 1995 12:05 pm PST */ + +#ifdef __MWERKS__ + +// for CodeWarrior Pro with Metrowerks Standard Library (MSL). +// #define MSL_USE_PRECOMPILED_HEADERS 0 +#include <ansi_prefix.mac.h> +#ifndef __STDC__ +#define __STDC__ 0 +#endif + +#endif + +// these are defined again in gc_priv.h. +#undef TRUE +#undef FALSE + +#define ALL_INTERIOR_POINTERS // follows interior pointers. +//#define SILENT // want collection messages. +//#define DONT_ADD_BYTE_AT_END // no padding. +//#define SMALL_CONFIG // whether to a smaller heap. +#define NO_SIGNALS // signals aren't real on the Macintosh. +#define USE_TEMPORARY_MEMORY // use Macintosh temporary memory. + +// CFLAGS= -O -DNO_SIGNALS -DALL_INTERIOR_POINTERS -DSILENT +// +//LIBGC_CFLAGS= -O -DNO_SIGNALS -DSILENT \ +// -DREDIRECT_MALLOC=GC_malloc_uncollectable \ +// -DDONT_ADD_BYTE_AT_END -DALL_INTERIOR_POINTERS +// Flags for building libgc.a -- the last two are required. +// +// Setjmp_test may yield overly optimistic results when compiled +// without optimization. +// -DSILENT disables statistics printing, and improves performance. +// -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly +// altered stubborn objects, at substantial performance cost. +// Use only for incremental collector debugging. +// -DFIND_LEAK causes the collector to assume that all inaccessible +// objects should have been explicitly deallocated, and reports exceptions. +// Finalization and the test program are not usable in this mode. +// -DSOLARIS_THREADS enables support for Solaris (thr_) threads. +// (Clients should also define SOLARIS_THREADS and then include +// gc.h before performing thr_ or GC_ operations.) +// This is broken on nonSPARC machines. +// -DALL_INTERIOR_POINTERS allows all pointers to the interior +// of objects to be recognized. (See gc_priv.h for consequences.) +// -DSMALL_CONFIG tries to tune the collector for small heap sizes, +// usually causing it to use less space in such situations. +// Incremental collection no longer works in this case. +// -DLARGE_CONFIG tunes the collector for unusually large heaps. +// Necessary for heaps larger than about 500 MB on most machines. +// Recommended for heaps larger than about 64 MB. +// -DDONT_ADD_BYTE_AT_END is meaningful only with +// -DALL_INTERIOR_POINTERS. Normally -DALL_INTERIOR_POINTERS +// causes all objects to be padded so that pointers just past the end of +// an object can be recognized. This can be expensive. (The padding +// is normally more than one byte due to alignment constraints.) +// -DDONT_ADD_BYTE_AT_END disables the padding. +// -DNO_SIGNALS does not disable signals during critical parts of +// the GC process. This is no less correct than many malloc +// implementations, and it sometimes has a significant performance +// impact. However, it is dangerous for many not-quite-ANSI C +// programs that call things like printf in asynchronous signal handlers. +// -DOPERATOR_NEW_ARRAY declares that the C++ compiler supports the +// new syntax "operator new[]" for allocating and deleting arrays. +// See gc_cpp.h for details. No effect on the C part of the collector. +// This is defined implicitly in a few environments. +// -DREDIRECT_MALLOC=X causes malloc, realloc, and free to be defined +// as aliases for X, GC_realloc, and GC_free, respectively. +// Calloc is redefined in terms of the new malloc. X should +// be either GC_malloc or GC_malloc_uncollectable. +// The former is occasionally useful for working around leaks in code +// you don't want to (or can't) look at. It may not work for +// existing code, but it often does. Neither works on all platforms, +// since some ports use malloc or calloc to obtain system memory. +// (Probably works for UNIX, and win32.) +// -DNO_DEBUG removes GC_dump and the debugging routines it calls. +// Reduces code size slightly at the expense of debuggability. diff --git a/gc/Mac_files/MacOS_config.h b/gc/Mac_files/MacOS_config.h new file mode 100644 index 0000000..93c3c97 --- /dev/null +++ b/gc/Mac_files/MacOS_config.h @@ -0,0 +1,89 @@ +/* + MacOS_config.h + + Configuration flags for Macintosh development systems. + + <Revision History> + + 11/16/95 pcb Updated compilation flags to reflect latest 4.6 Makefile. + + by Patrick C. Beard. + */ +/* Boehm, November 17, 1995 12:10 pm PST */ + +#ifdef __MWERKS__ + +// for CodeWarrior Pro with Metrowerks Standard Library (MSL). +// #define MSL_USE_PRECOMPILED_HEADERS 0 +#include <ansi_prefix.mac.h> +#ifndef __STDC__ +#define __STDC__ 0 +#endif + +#endif /* __MWERKS__ */ + +// these are defined again in gc_priv.h. +#undef TRUE +#undef FALSE + +#define ALL_INTERIOR_POINTERS // follows interior pointers. +#define SILENT // no collection messages. +//#define DONT_ADD_BYTE_AT_END // no padding. +//#define SMALL_CONFIG // whether to use a smaller heap. +#define NO_SIGNALS // signals aren't real on the Macintosh. +#define USE_TEMPORARY_MEMORY // use Macintosh temporary memory. + +// CFLAGS= -O -DNO_SIGNALS -DSILENT -DALL_INTERIOR_POINTERS +// +//LIBGC_CFLAGS= -O -DNO_SIGNALS -DSILENT \ +// -DREDIRECT_MALLOC=GC_malloc_uncollectable \ +// -DDONT_ADD_BYTE_AT_END -DALL_INTERIOR_POINTERS +// Flags for building libgc.a -- the last two are required. +// +// Setjmp_test may yield overly optimistic results when compiled +// without optimization. +// -DSILENT disables statistics printing, and improves performance. +// -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly +// altered stubborn objects, at substantial performance cost. +// Use only for incremental collector debugging. +// -DFIND_LEAK causes the collector to assume that all inaccessible +// objects should have been explicitly deallocated, and reports exceptions. +// Finalization and the test program are not usable in this mode. +// -DSOLARIS_THREADS enables support for Solaris (thr_) threads. +// (Clients should also define SOLARIS_THREADS and then include +// gc.h before performing thr_ or GC_ operations.) +// This is broken on nonSPARC machines. +// -DALL_INTERIOR_POINTERS allows all pointers to the interior +// of objects to be recognized. (See gc_priv.h for consequences.) +// -DSMALL_CONFIG tries to tune the collector for small heap sizes, +// usually causing it to use less space in such situations. +// Incremental collection no longer works in this case. +// -DLARGE_CONFIG tunes the collector for unusually large heaps. +// Necessary for heaps larger than about 500 MB on most machines. +// Recommended for heaps larger than about 64 MB. +// -DDONT_ADD_BYTE_AT_END is meaningful only with +// -DALL_INTERIOR_POINTERS. Normally -DALL_INTERIOR_POINTERS +// causes all objects to be padded so that pointers just past the end of +// an object can be recognized. This can be expensive. (The padding +// is normally more than one byte due to alignment constraints.) +// -DDONT_ADD_BYTE_AT_END disables the padding. +// -DNO_SIGNALS does not disable signals during critical parts of +// the GC process. This is no less correct than many malloc +// implementations, and it sometimes has a significant performance +// impact. However, it is dangerous for many not-quite-ANSI C +// programs that call things like printf in asynchronous signal handlers. +// -DOPERATOR_NEW_ARRAY declares that the C++ compiler supports the +// new syntax "operator new[]" for allocating and deleting arrays. +// See gc_cpp.h for details. No effect on the C part of the collector. +// This is defined implicitly in a few environments. +// -DREDIRECT_MALLOC=X causes malloc, realloc, and free to be defined +// as aliases for X, GC_realloc, and GC_free, respectively. +// Calloc is redefined in terms of the new malloc. X should +// be either GC_malloc or GC_malloc_uncollectable. +// The former is occasionally useful for working around leaks in code +// you don't want to (or can't) look at. It may not work for +// existing code, but it often does. Neither works on all platforms, +// since some ports use malloc or calloc to obtain system memory. +// (Probably works for UNIX, and win32.) +// -DNO_DEBUG removes GC_dump and the debugging routines it calls. +// Reduces code size slightly at the expense of debuggability.
\ No newline at end of file diff --git a/gc/Mac_files/dataend.c b/gc/Mac_files/dataend.c new file mode 100644 index 0000000..a3e3fe8 --- /dev/null +++ b/gc/Mac_files/dataend.c @@ -0,0 +1,9 @@ +/* + dataend.c + + A hack to get the extent of global data for the Macintosh. + + by Patrick C. Beard. + */ + +long __dataend; diff --git a/gc/Mac_files/datastart.c b/gc/Mac_files/datastart.c new file mode 100644 index 0000000..a9e0dd5 --- /dev/null +++ b/gc/Mac_files/datastart.c @@ -0,0 +1,9 @@ +/* + datastart.c + + A hack to get the extent of global data for the Macintosh. + + by Patrick C. Beard. + */ + +long __datastart; diff --git a/gc/Makefile b/gc/Makefile new file mode 100644 index 0000000..cfbfc45 --- /dev/null +++ b/gc/Makefile @@ -0,0 +1,445 @@ +# Primary targets: +# gc.a - builds basic library +# libgc.a - builds library for use with g++ "-fgc-keyword" extension +# c++ - adds C++ interface to library +# cords - adds cords (heavyweight strings) to library +# test - prints porting information, then builds basic version of gc.a, +# and runs some tests of collector and cords. Does not add cords or +# c++ interface to gc.a +# cord/de - builds dumb editor based on cords. +ABI_FLAG= +CC=cc $(ABI_FLAG) +CXX=CC $(ABI_FLAG) +AS=as $(ABI_FLAG) +# The above doesn't work with gas, which doesn't run cpp. +# Define AS as `gcc -c -x assembler-with-cpp' instead. +# Under Irix 6, you will have to specify the ABI (-o32, -n32, or -64) +# if you use something other than the default ABI on your machine. + +CFLAGS= -O -DATOMIC_UNCOLLECTABLE -DNO_SIGNALS -DNO_EXECUTE_PERMISSION -DALL_INTERIOR_POINTERS -DSILENT + +# For dynamic library builds, it may be necessary to add flags to generate +# PIC code, e.g. -fPIC on Linux. + +# Setjmp_test may yield overly optimistic results when compiled +# without optimization. +# -DSILENT disables statistics printing, and improves performance. +# -DFIND_LEAK causes GC_find_leak to be initially set. +# This causes the collector to assume that all inaccessible +# objects should have been explicitly deallocated, and reports exceptions. +# Finalization and the test program are not usable in this mode. +# -DSOLARIS_THREADS enables support for Solaris (thr_) threads. +# (Clients should also define SOLARIS_THREADS and then include +# gc.h before performing thr_ or dl* or GC_ operations.) +# Must also define -D_REENTRANT. +# -D_SOLARIS_PTHREADS enables support for Solaris pthreads. +# Define SOLARIS_THREADS as well. +# -DIRIX_THREADS enables support for Irix pthreads. See README.irix. +# -DLINUX_THREADS enables support for Xavier Leroy's Linux threads. +# see README.linux. -D_REENTRANT may also be required. +# -DALL_INTERIOR_POINTERS allows all pointers to the interior +# of objects to be recognized. (See gc_priv.h for consequences.) +# -DSMALL_CONFIG tries to tune the collector for small heap sizes, +# usually causing it to use less space in such situations. +# Incremental collection no longer works in this case. +# -DLARGE_CONFIG tunes the collector for unusually large heaps. +# Necessary for heaps larger than about 500 MB on most machines. +# Recommended for heaps larger than about 64 MB. +# -DDONT_ADD_BYTE_AT_END is meaningful only with +# -DALL_INTERIOR_POINTERS. Normally -DALL_INTERIOR_POINTERS +# causes all objects to be padded so that pointers just past the end of +# an object can be recognized. This can be expensive. (The padding +# is normally more than one byte due to alignment constraints.) +# -DDONT_ADD_BYTE_AT_END disables the padding. +# -DNO_SIGNALS does not disable signals during critical parts of +# the GC process. This is no less correct than many malloc +# implementations, and it sometimes has a significant performance +# impact. However, it is dangerous for many not-quite-ANSI C +# programs that call things like printf in asynchronous signal handlers. +# -DNO_EXECUTE_PERMISSION may cause some or all of the heap to not +# have execute permission, i.e. it may be impossible to execute +# code from the heap. Currently this only affects the incremental +# collector on UNIX machines. It may greatly improve its performance, +# since this may avoid some expensive cache synchronization. +# -DOPERATOR_NEW_ARRAY declares that the C++ compiler supports the +# new syntax "operator new[]" for allocating and deleting arrays. +# See gc_cpp.h for details. No effect on the C part of the collector. +# This is defined implicitly in a few environments. +# -DREDIRECT_MALLOC=X causes malloc, realloc, and free to be defined +# as aliases for X, GC_realloc, and GC_free, respectively. +# Calloc is redefined in terms of the new malloc. X should +# be either GC_malloc or GC_malloc_uncollectable. +# The former is occasionally useful for working around leaks in code +# you don't want to (or can't) look at. It may not work for +# existing code, but it often does. Neither works on all platforms, +# since some ports use malloc or calloc to obtain system memory. +# (Probably works for UNIX, and win32.) +# -DIGNORE_FREE turns calls to free into a noop. Only useful with +# -DREDIRECT_MALLOC. +# -DNO_DEBUGGING removes GC_dump and the debugging routines it calls. +# Reduces code size slightly at the expense of debuggability. +# -DJAVA_FINALIZATION makes it somewhat safer to finalize objects out of +# order by specifying a nonstandard finalization mark procedure (see +# finalize.c). Objects reachable from finalizable objects will be marked +# in a sepearte postpass, and hence their memory won't be reclaimed. +# Not recommended unless you are implementing a language that specifies +# these semantics. Since 5.0, determines only only the initial value +# of GC_java_finalization variable. +# -DFINALIZE_ON_DEMAND causes finalizers to be run only in response +# to explicit GC_invoke_finalizers() calls. +# In 5.0 this became runtime adjustable, and this only determines the +# initial value of GC_finalize_on_demand. +# -DATOMIC_UNCOLLECTABLE includes code for GC_malloc_atomic_uncollectable. +# This is useful if either the vendor malloc implementation is poor, +# or if REDIRECT_MALLOC is used. +# -DHBLKSIZE=ddd, where ddd is a power of 2 between 512 and 16384, explicitly +# sets the heap block size. Each heap block is devoted to a single size and +# kind of object. For the incremental collector it makes sense to match +# the most likely page size. Otherwise large values result in more +# fragmentation, but generally better performance for large heaps. +# -DUSE_MMAP use MMAP instead of sbrk to get new memory. +# Works for Solaris and Irix. +# -DUSE_MUNMAP causes memory to be returned to the OS under the right +# circumstances. This currently disables VM-based incremental collection. +# This is currently experimental, and works only under some Unix and +# Linux versions. +# -DMMAP_STACKS (for Solaris threads) Use mmap from /dev/zero rather than +# GC_scratch_alloc() to get stack memory. +# -DPRINT_BLACK_LIST Whenever a black list entry is added, i.e. whenever +# the garbage collector detects a value that looks almost, but not quite, +# like a pointer, print both the address containing the value, and the +# value of the near-bogus-pointer. Can be used to identifiy regions of +# memory that are likely to contribute misidentified pointers. +# -DOLD_BLOCK_ALLOC Use the old, possibly faster, large block +# allocation strategy. The new strategy tries harder to minimize +# fragmentation, sometimes at the expense of spending more time in the +# large block allocator and/or collecting more frequently. +# If you expect the allocator to promptly use an explicitly expanded +# heap, this is highly recommended. +# -DKEEP_BACK_PTRS Add code to save back pointers in debugging headers +# for objects allocated with the debugging allocator. If all objects +# through GC_MALLOC with GC_DEBUG defined, this allows the client +# to determine how particular or randomly chosen objects are reachable +# for debugging/profiling purposes. The backptr.h interface is +# implemented only if this is defined. +# -DGC_ASSERTIONS Enable some internal GC assertion checking. Currently +# this facility is only used in a few places. It is intended primarily +# for debugging of the garbage collector itself, but could also +# occasionally be useful for debugging of client code. Slows down the +# collector somewhat, but not drastically. +# -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly +# altered stubborn objects, at substantial performance cost. +# Use only for debugging of the incremental collector. +# + + +LIBGC_CFLAGS= -O -DNO_SIGNALS -DSILENT \ + -DREDIRECT_MALLOC=GC_malloc_uncollectable \ + -DDONT_ADD_BYTE_AT_END -DALL_INTERIOR_POINTERS +# Flags for building libgc.a -- the last two are required. + +CXXFLAGS= $(CFLAGS) +AR= ar +RANLIB= ranlib + + +# Redefining srcdir allows object code for the nonPCR version of the collector +# to be generated in different directories. In this case, the destination directory +# should contain a copy of the original include directory. +srcdir = . +VPATH = $(srcdir) + +OBJS= alloc.o reclaim.o allchblk.o misc.o mach_dep.o os_dep.o mark_rts.o headers.o mark.o obj_map.o blacklst.o finalize.o new_hblk.o dbg_mlc.o malloc.o stubborn.o checksums.o solaris_threads.o irix_threads.o linux_threads.o typd_mlc.o ptr_chck.o mallocx.o solaris_pthreads.o + +CSRCS= reclaim.c allchblk.c misc.c alloc.c mach_dep.c os_dep.c mark_rts.c headers.c mark.c obj_map.c pcr_interface.c blacklst.c finalize.c new_hblk.c real_malloc.c dyn_load.c dbg_mlc.c malloc.c stubborn.c checksums.c solaris_threads.c irix_threads.c linux_threads.c typd_mlc.c ptr_chck.c mallocx.c solaris_pthreads.c + +CORD_SRCS= cord/cordbscs.c cord/cordxtra.c cord/cordprnt.c cord/de.c cord/cordtest.c cord/cord.h cord/ec.h cord/private/cord_pos.h cord/de_win.c cord/de_win.h cord/de_cmds.h cord/de_win.ICO cord/de_win.RC cord/SCOPTIONS.amiga cord/SMakefile.amiga + +CORD_OBJS= cord/cordbscs.o cord/cordxtra.o cord/cordprnt.o + +SRCS= $(CSRCS) mips_sgi_mach_dep.s rs6000_mach_dep.s alpha_mach_dep.s \ + sparc_mach_dep.s gc.h gc_typed.h gc_hdrs.h gc_priv.h gc_private.h \ + gcconfig.h gc_mark.h include/gc_inl.h include/gc_inline.h gc.man \ + threadlibs.c if_mach.c if_not_there.c gc_cpp.cc gc_cpp.h weakpointer.h \ + gcc_support.c mips_ultrix_mach_dep.s include/gc_alloc.h gc_alloc.h \ + include/new_gc_alloc.h include/javaxfc.h sparc_sunos4_mach_dep.s \ + solaris_threads.h backptr.h $(CORD_SRCS) + +OTHER_FILES= Makefile PCR-Makefile OS2_MAKEFILE NT_MAKEFILE BCC_MAKEFILE \ + README test.c test_cpp.cc setjmp_t.c SMakefile.amiga \ + SCoptions.amiga README.amiga README.win32 cord/README \ + cord/gc.h include/gc.h include/gc_typed.h include/cord.h \ + include/ec.h include/private/cord_pos.h include/private/gcconfig.h \ + include/private/gc_hdrs.h include/private/gc_priv.h \ + include/gc_cpp.h README.rs6000 include/backptr.h \ + include/weakpointer.h README.QUICK callprocs pc_excludes \ + barrett_diagram README.OS2 README.Mac MacProjects.sit.hqx \ + MacOS.c EMX_MAKEFILE makefile.depend README.debugging \ + include/gc_cpp.h Mac_files/datastart.c Mac_files/dataend.c \ + Mac_files/MacOS_config.h Mac_files/MacOS_Test_config.h \ + add_gc_prefix.c README.solaris2 README.sgi README.hp README.uts \ + win32_threads.c NT_THREADS_MAKEFILE gc.mak README.dj Makefile.dj \ + README.alpha README.linux version.h Makefile.DLLs \ + WCC_MAKEFILE nursery.c nursery.h gc_copy_descr.h \ + include/leak_detector.h + +CORD_INCLUDE_FILES= $(srcdir)/gc.h $(srcdir)/cord/cord.h $(srcdir)/cord/ec.h \ + $(srcdir)/cord/private/cord_pos.h + +UTILS= if_mach if_not_there threadlibs + +# Libraries needed for curses applications. Only needed for de. +CURSES= -lcurses -ltermlib + +# The following is irrelevant on most systems. But a few +# versions of make otherwise fork the shell specified in +# the SHELL environment variable. +SHELL= /bin/sh + +SPECIALCFLAGS = +# Alternative flags to the C compiler for mach_dep.c. +# Mach_dep.c often doesn't like optimization, and it's +# not time-critical anyway. +# Set SPECIALCFLAGS to -q nodirect_code on Encore. + +all: gc.a gctest + +pcr: PCR-Makefile gc_private.h gc_hdrs.h gc.h gcconfig.h mach_dep.o $(SRCS) + make -f PCR-Makefile depend + make -f PCR-Makefile + +$(OBJS) test.o dyn_load.o dyn_load_sunos53.o: $(srcdir)/gc_priv.h $(srcdir)/gc_hdrs.h $(srcdir)/gc.h \ + $(srcdir)/gcconfig.h $(srcdir)/gc_typed.h Makefile +# The dependency on Makefile is needed. Changing +# options such as -DSILENT affects the size of GC_arrays, +# invalidating all .o files that rely on gc_priv.h + +mark.o typd_mlc.o finalize.o: $(srcdir)/gc_mark.h + +base_lib gc.a: $(OBJS) dyn_load.o $(UTILS) + echo > base_lib + rm -f dont_ar_1 + ./if_mach SPARC SUNOS5 touch dont_ar_1 + ./if_mach SPARC SUNOS5 $(AR) rus gc.a $(OBJS) dyn_load.o + ./if_mach M68K AMIGA touch dont_ar_1 + ./if_mach M68K AMIGA $(AR) -vrus gc.a $(OBJS) dyn_load.o + ./if_not_there dont_ar_1 $(AR) ru gc.a $(OBJS) dyn_load.o + ./if_not_there dont_ar_1 $(RANLIB) gc.a || cat /dev/null +# ignore ranlib failure; that usually means it doesn't exist, and isn't needed + +cords: $(CORD_OBJS) cord/cordtest $(UTILS) + rm -f dont_ar_3 + ./if_mach SPARC SUNOS5 touch dont_ar_3 + ./if_mach SPARC SUNOS5 $(AR) rus gc.a $(CORD_OBJS) + ./if_mach M68K AMIGA touch dont_ar_3 + ./if_mach M68K AMIGA $(AR) -vrus gc.a $(CORD_OBJS) + ./if_not_there dont_ar_3 $(AR) ru gc.a $(CORD_OBJS) + ./if_not_there dont_ar_3 $(RANLIB) gc.a || cat /dev/null + +gc_cpp.o: $(srcdir)/gc_cpp.cc $(srcdir)/gc_cpp.h $(srcdir)/gc.h Makefile + $(CXX) -c $(CXXFLAGS) $(srcdir)/gc_cpp.cc + +test_cpp: $(srcdir)/test_cpp.cc $(srcdir)/gc_cpp.h gc_cpp.o $(srcdir)/gc.h \ +base_lib $(UTILS) + rm -f test_cpp + ./if_mach HP_PA "" $(CXX) $(CXXFLAGS) -o test_cpp $(srcdir)/test_cpp.cc gc_cpp.o gc.a -ldld + ./if_not_there test_cpp $(CXX) $(CXXFLAGS) -o test_cpp $(srcdir)/test_cpp.cc gc_cpp.o gc.a `./threadlibs` + +c++: gc_cpp.o $(srcdir)/gc_cpp.h test_cpp + rm -f dont_ar_4 + ./if_mach SPARC SUNOS5 touch dont_ar_4 + ./if_mach SPARC SUNOS5 $(AR) rus gc.a gc_cpp.o + ./if_mach M68K AMIGA touch dont_ar_4 + ./if_mach M68K AMIGA $(AR) -vrus gc.a gc_cpp.o + ./if_not_there dont_ar_4 $(AR) ru gc.a gc_cpp.o + ./if_not_there dont_ar_4 $(RANLIB) gc.a || cat /dev/null + ./test_cpp 1 + echo > c++ + +dyn_load_sunos53.o: dyn_load.c + $(CC) $(CFLAGS) -DSUNOS53_SHARED_LIB -c $(srcdir)/dyn_load.c -o $@ + +# SunOS5 shared library version of the collector +sunos5gc.so: $(OBJS) dyn_load_sunos53.o + $(CC) -G -o sunos5gc.so $(OBJS) dyn_load_sunos53.o -ldl + ln sunos5gc.so libgc.so + +# Alpha/OSF shared library version of the collector +libalphagc.so: $(OBJS) + ld -shared -o libalphagc.so $(OBJS) dyn_load.o -lc + ln libalphagc.so libgc.so + +# IRIX shared library version of the collector +libirixgc.so: $(OBJS) dyn_load.o + ld -shared $(ABI_FLAG) -o libirixgc.so $(OBJS) dyn_load.o -lc + ln libirixgc.so libgc.so + +# Linux shared library version of the collector +liblinuxgc.so: $(OBJS) dyn_load.o + gcc -shared -o liblinuxgc.so $(OBJS) dyn_load.o -lo + ln liblinuxgc.so libgc.so + +# Alternative Linux rule. This is preferable, but is likely to break the +# Makefile for some non-linux platforms. +# LIBOBJS= $(patsubst %.o, %.lo, $(OBJS)) +# +#.SUFFIXES: .lo $(SUFFIXES) +# +#.c.lo: +# $(CC) $(CFLAGS) $(CPPFLAGS) -fPIC -c $< -o $@ +# +# liblinuxgc.so: $(LIBOBJS) dyn_load.lo +# gcc -shared -Wl,-soname=libgc.so.0 -o libgc.so.0 $(LIBOBJS) dyn_load.lo +# touch liblinuxgc.so + +mach_dep.o: $(srcdir)/mach_dep.c $(srcdir)/mips_sgi_mach_dep.s $(srcdir)/mips_ultrix_mach_dep.s $(srcdir)/rs6000_mach_dep.s $(UTILS) + rm -f mach_dep.o + ./if_mach MIPS IRIX5 $(AS) -o mach_dep.o $(srcdir)/mips_sgi_mach_dep.s + ./if_mach MIPS RISCOS $(AS) -o mach_dep.o $(srcdir)/mips_ultrix_mach_dep.s + ./if_mach MIPS ULTRIX $(AS) -o mach_dep.o $(srcdir)/mips_ultrix_mach_dep.s + ./if_mach RS6000 "" $(AS) -o mach_dep.o $(srcdir)/rs6000_mach_dep.s + ./if_mach ALPHA "" $(AS) -o mach_dep.o $(srcdir)/alpha_mach_dep.s + ./if_mach SPARC SUNOS5 $(AS) -o mach_dep.o $(srcdir)/sparc_mach_dep.s + ./if_mach SPARC SUNOS4 $(AS) -o mach_dep.o $(srcdir)/sparc_sunos4_mach_dep.s + ./if_mach SPARC OPENBSD $(AS) -o mach_dep.o $(srcdir)/sparc_sunos4_mach_dep.s + ./if_not_there mach_dep.o $(CC) -c $(SPECIALCFLAGS) $(srcdir)/mach_dep.c + +mark_rts.o: $(srcdir)/mark_rts.c if_mach if_not_there $(UTILS) + rm -f mark_rts.o + -./if_mach ALPHA OSF1 $(CC) -c $(CFLAGS) -Wo,-notail $(srcdir)/mark_rts.c + ./if_not_there mark_rts.o $(CC) -c $(CFLAGS) $(srcdir)/mark_rts.c +# Work-around for DEC optimizer tail recursion elimination bug. +# The ALPHA-specific line should be removed if gcc is used. + +alloc.o: version.h + +cord/cordbscs.o: $(srcdir)/cord/cordbscs.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c -I$(srcdir) $(srcdir)/cord/cordbscs.c + mv cordbscs.o cord/cordbscs.o +# not all compilers understand -o filename + +cord/cordxtra.o: $(srcdir)/cord/cordxtra.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c -I$(srcdir) $(srcdir)/cord/cordxtra.c + mv cordxtra.o cord/cordxtra.o + +cord/cordprnt.o: $(srcdir)/cord/cordprnt.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c -I$(srcdir) $(srcdir)/cord/cordprnt.c + mv cordprnt.o cord/cordprnt.o + +cord/cordtest: $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a $(UTILS) + rm -f cord/cordtest + ./if_mach SPARC DRSNX $(CC) $(CFLAGS) -o cord/cordtest $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a -lucb + ./if_mach HP_PA "" $(CC) $(CFLAGS) -o cord/cordtest $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a -ldld + ./if_not_there cord/cordtest $(CC) $(CFLAGS) -o cord/cordtest $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a `./threadlibs` + +cord/de: $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(UTILS) + rm -f cord/de + ./if_mach SPARC DRSNX $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(CURSES) -lucb `./threadlibs` + ./if_mach HP_PA "" $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(CURSES) -ldld + ./if_mach RS6000 "" $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses + ./if_mach I386 LINUX $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses `./threadlibs` + ./if_mach ALPHA LINUX $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses + ./if_mach M68K AMIGA $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses + ./if_not_there cord/de $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(CURSES) `./threadlibs` + +if_mach: $(srcdir)/if_mach.c $(srcdir)/gcconfig.h + $(CC) $(CFLAGS) -o if_mach $(srcdir)/if_mach.c + +threadlibs: $(srcdir)/threadlibs.c $(srcdir)/gcconfig.h Makefile + $(CC) $(CFLAGS) -o threadlibs $(srcdir)/threadlibs.c + +if_not_there: $(srcdir)/if_not_there.c + $(CC) $(CFLAGS) -o if_not_there $(srcdir)/if_not_there.c + +clean: + rm -f gc.a *.o gctest gctest_dyn_link test_cpp \ + setjmp_test mon.out gmon.out a.out core if_not_there if_mach \ + threadlibs $(CORD_OBJS) cord/cordtest cord/de + -rm -f *~ + +gctest: test.o gc.a if_mach if_not_there + rm -f gctest + ./if_mach SPARC DRSNX $(CC) $(CFLAGS) -o gctest test.o gc.a -lucb + ./if_mach HP_PA "" $(CC) $(CFLAGS) -o gctest test.o gc.a -ldld + ./if_not_there gctest $(CC) $(CFLAGS) -o gctest test.o gc.a `./threadlibs` + +# If an optimized setjmp_test generates a segmentation fault, +# odds are your compiler is broken. Gctest may still work. +# Try compiling setjmp_t.c unoptimized. +setjmp_test: $(srcdir)/setjmp_t.c $(srcdir)/gc.h if_mach if_not_there + $(CC) $(CFLAGS) -o setjmp_test $(srcdir)/setjmp_t.c + +test: KandRtest cord/cordtest + cord/cordtest + +# Those tests that work even with a K&R C compiler: +KandRtest: setjmp_test gctest + ./setjmp_test + ./gctest + +add_gc_prefix: add_gc_prefix.c + $(CC) -o add_gc_prefix $(srcdir)/add_gc_prefix.c + +gc.tar: $(SRCS) $(OTHER_FILES) add_gc_prefix + ./add_gc_prefix $(SRCS) $(OTHER_FILES) > /tmp/gc.tar-files + (cd $(srcdir)/.. ; tar cvfh - `cat /tmp/gc.tar-files`) > gc.tar + +pc_gc.tar: $(SRCS) $(OTHER_FILES) + tar cvfX pc_gc.tar pc_excludes $(SRCS) $(OTHER_FILES) + +floppy: pc_gc.tar + -mmd a:/cord + -mmd a:/cord/private + -mmd a:/include + -mmd a:/include/private + mkdir /tmp/pc_gc + cat pc_gc.tar | (cd /tmp/pc_gc; tar xvf -) + -mcopy -tmn /tmp/pc_gc/* a: + -mcopy -tmn /tmp/pc_gc/cord/* a:/cord + -mcopy -mn /tmp/pc_gc/cord/de_win.ICO a:/cord + -mcopy -tmn /tmp/pc_gc/cord/private/* a:/cord/private + -mcopy -tmn /tmp/pc_gc/include/* a:/include + -mcopy -tmn /tmp/pc_gc/include/private/* a:/include/private + rm -r /tmp/pc_gc + +gc.tar.Z: gc.tar + compress gc.tar + +gc.tar.gz: gc.tar + gzip gc.tar + +lint: $(CSRCS) test.c + lint -DLINT $(CSRCS) test.c | egrep -v "possible pointer alignment problem|abort|exit|sbrk|mprotect|syscall|change in ANSI|improper alignment" + +# BTL: added to test shared library version of collector. +# Currently works only under SunOS5. Requires GC_INIT call from statically +# loaded client code. +ABSDIR = `pwd` +gctest_dyn_link: test.o libgc.so + $(CC) -L$(ABSDIR) -R$(ABSDIR) -o gctest_dyn_link test.o -lgc -ldl -lthread + +gctest_irix_dyn_link: test.o libirixgc.so + $(CC) -L$(ABSDIR) -o gctest_irix_dyn_link test.o -lirixgc + +test_dll.o: test.c libgc_globals.h + $(CC) $(CFLAGS) -DGC_USE_DLL -c test.c -o test_dll.o + +test_dll: test_dll.o libgc_dll.a libgc.dll + $(CC) test_dll.o -L$(ABSDIR) -lgc_dll -o test_dll + +SYM_PREFIX-libgc=GC + +# Uncomment the following line to build a GNU win32 DLL +# include Makefile.DLLs + +reserved_namespace: $(SRCS) + for file in $(SRCS) test.c test_cpp.cc; do \ + sed s/GC_/_GC_/g < $$file > tmp; \ + cp tmp $$file; \ + done + +user_namespace: $(SRCS) + for file in $(SRCS) test.c test_cpp.cc; do \ + sed s/_GC_/GC_/g < $$file > tmp; \ + cp tmp $$file; \ + done diff --git a/gc/Makefile.DLLs b/gc/Makefile.DLLs new file mode 100644 index 0000000..011f49d --- /dev/null +++ b/gc/Makefile.DLLs @@ -0,0 +1,107 @@ +#-----------------------------------------------------------------------------# + +# Makefile.DLLs, version 0.4. + +# Contributed by Fergus Henderson. + +# This Makefile contains rules for creating DLLs on Windows using gnu-win32. + +#-----------------------------------------------------------------------------# + +# This rule creates a `.def' file, which lists the symbols that are exported +# from the DLL. We use `nm' to get a list of all the exported text (`T') +# symbols and data symbols -- including uninitialized data (`B'), +# initialized data (`D'), read-only data (`R'), and common blocks (`C'). +%.def: %.a + echo EXPORTS > $@ + nm $< | grep '^........ [BCDRT] _' | sed 's/[^_]*_//' >> $@ + +# We need to use macros to access global data: +# the user of the DLL must refer to `foo' as `(*__imp_foo)'. +# This rule creates a `_globals.h' file, which contains macros +# for doing this. + +SYM_PREFIX = $(firstword $(SYM_PREFIX-$*) $*) +DLL_MACRO = $(SYM_PREFIX)_USE_DLL +IMP_MACRO = $(SYM_PREFIX)_IMP +GLOBAL_MACRO = $(SYM_PREFIX)_GLOBAL + +%_globals.h: %.a + echo "/* automatically generated by Makefile.DLLs */" > $@ + echo "#if defined(__GNUC__) && defined(_WIN32) \\" >> $@ + echo " && defined($(DLL_MACRO))" >> $@ + echo "# define $(IMP_MACRO)(name) __imp_##name" >> $@ + echo "# define $(GLOBAL_MACRO)(name) (*$(IMP_MACRO)(name))" >> $@ + echo "#else" >> $@ + echo "# define $(GLOBAL_MACRO)(name) name" >> $@ + echo "#endif" >> $@ + echo "" >> $@ + for sym in `nm $< | grep '^........ [BCDR] _' | sed 's/[^_]*_//'`; do \ + echo "#define $$sym $(GLOBAL_MACRO)($$sym)" >> $@; \ + done + +# This rule creates the export object file (`foo.exp') which contains the +# jump table array; this export object file becomes part of the DLL. +# This rule also creates the import library (`foo_dll.a') which contains small +# stubs for all the functions exported by the DLL which jump to them via the +# jump table. Executables that will use the DLL must be linked against this +# stub library. +%.exp %_dll.a : %.def + dlltool $(DLLTOOLFLAGS) $(DLLTOOLFLAGS-$*) \ + --def $< \ + --dllname $*.dll \ + --output-exp $*.exp \ + --output-lib $*_dll.a + +# The `sed' commands below are to convert DOS-style `C:\foo\bar' +# pathnames into Unix-style `//c/foo/bar' pathnames. +CYGWIN32_LIBS = $(shell echo \ + -L`dirname \`gcc -print-file-name=libgcc.a | \ + sed -e 's@^\\\\([A-Za-z]\\\\):@//\\\\1@g' -e 's@\\\\\\\\@/@g' \` ` \ + -L`dirname \`gcc -print-file-name=libcygwin.a | \ + sed -e 's@^\\\\([A-Za-z]\\\\):@//\\\\1@g' -e 's@\\\\\\\\@/@g' \` ` \ + -L`dirname \`gcc -print-file-name=libkernel32.a | \ + sed -e 's@^\\\\([A-Za-z]\\\\):@//\\\\1@g' -e 's@\\\\\\\\@/@g' \` ` \ + -lgcc -lcygwin -lkernel32 -lgcc) + +RELOCATABLE=yes + +ifeq "$(strip $(RELOCATABLE))" "yes" + +# to create relocatable DLLs, we need to do two passes +%.dll: %.exp %.a dll_fixup.o dll_init.o + $(LD) $(LDFLAGS) $(LDFLAGS-$*) --dll -o $*.base \ + -e _dll_entry@12 dll_init.o \ + dll_fixup.o $*.exp $*.a \ + $(LDLIBS) $(LDLIBS-$*) \ + $(CYGWIN32_LIBS) + $(LD) $(LDFLAGS) $(LDFLAGS-$*) --dll --base-file $*.base -o $@ \ + -e _dll_entry@12 dll_init.o \ + dll_fixup.o $*.exp $*.a \ + $(LDLIBS) $(LDLIBS-$*) \ + $(CYGWIN32_LIBS) + rm -f $*.base +else + +%.dll: %.exp %.a dll_fixup.o dll_init.o + $(LD) $(LDFLAGS) $(LDFLAGS-$*) --dll -o $@ \ + -e _dll_entry@12 dll_init.o \ + dll_fixup.o $*.exp $*.a \ + $(LDLIBS) $(LDLIBS-$*) \ + $(CYGWIN32_LIBS) + +endif + +# This black magic piece of assembler needs to be linked in in order to +# properly terminate the list of imported DLLs. +dll_fixup.s: + echo '.section .idata$$3' > dll_fixup.s + echo '.long 0,0,0,0, 0,0,0,0' >> dll_fixup.s + +# This bit is necessary to provide an initialization function for the DLL. +dll_init.c: + echo '__attribute__((stdcall))' > dll_init.c + echo 'int dll_entry(int handle, int reason, void *ptr)' >> dll_init.c + echo '{return 1; }' >> dll_init.c + +dont_throw_away: dll_fixup.o dll_init.o diff --git a/gc/Makefile.dj b/gc/Makefile.dj new file mode 100644 index 0000000..54f77db --- /dev/null +++ b/gc/Makefile.dj @@ -0,0 +1,436 @@ +# Primary targets: +# gc.a - builds basic library +# libgc.a - builds library for use with g++ "-fgc-keyword" extension +# c++ - adds C++ interface to library +# cords - adds cords (heavyweight strings) to library +# test - prints porting information, then builds basic version of gc.a, +# and runs some tests of collector and cords. Does not add cords or +# c++ interface to gc.a +# cord/de$(EXE_SUFFIX) - builds dumb editor based on cords. +ABI_FLAG= +CC=gcc $(ABI_FLAG) +CXX=gxx $(ABI_FLAG) +AS=gcc -c -x assembler-with-cpp $(ABI_FLAG) +# The above doesn't work with gas, which doesn't run cpp. +# Define AS as `gcc -c -x assembler-with-cpp' instead. +# Under Irix 6, you will have to specify the ABI (-o32, -n32, or -64) +# if you use something other than the default ABI on your machine. + +# special defines for DJGPP +CXXLD=gxx $(ABI_FLAG) +EXE_SUFFIX=.exe + +CFLAGS= -O -DATOMIC_UNCOLLECTABLE -DNO_SIGNALS -DALL_INTERIOR_POINTERS -DNO_EXECUTE_PERMISSION -DSILENT + +# For dynamic library builds, it may be necessary to add flags to generate +# PIC code, e.g. -fPIC on Linux. + +# Setjmp_test may yield overly optimistic results when compiled +# without optimization. +# -DSILENT disables statistics printing, and improves performance. +# -DCHECKSUMS reports on erroneously clear dirty bits, and unexpectedly +# altered stubborn objects, at substantial performance cost. +# Use only for incremental collector debugging. +# -DFIND_LEAK causes the collector to assume that all inaccessible +# objects should have been explicitly deallocated, and reports exceptions. +# Finalization and the test program are not usable in this mode. +# -DSOLARIS_THREADS enables support for Solaris (thr_) threads. +# (Clients should also define SOLARIS_THREADS and then include +# gc.h before performing thr_ or dl* or GC_ operations.) +# Must also define -D_REENTRANT. +# -D_SOLARIS_PTHREADS enables support for Solaris pthreads. +# Define SOLARIS_THREADS as well. +# -DIRIX_THREADS enables support for Irix pthreads. See README.irix. +# -DLINUX_THREADS enables support for Xavier Leroy's Linux threads. +# see README.linux. -D_REENTRANT may also be required. +# -DALL_INTERIOR_POINTERS allows all pointers to the interior +# of objects to be recognized. (See gc_priv.h for consequences.) +# -DSMALL_CONFIG tries to tune the collector for small heap sizes, +# usually causing it to use less space in such situations. +# Incremental collection no longer works in this case. +# -DLARGE_CONFIG tunes the collector for unusually large heaps. +# Necessary for heaps larger than about 500 MB on most machines. +# Recommended for heaps larger than about 64 MB. +# -DDONT_ADD_BYTE_AT_END is meaningful only with +# -DALL_INTERIOR_POINTERS. Normally -DALL_INTERIOR_POINTERS +# causes all objects to be padded so that pointers just past the end of +# an object can be recognized. This can be expensive. (The padding +# is normally more than one byte due to alignment constraints.) +# -DDONT_ADD_BYTE_AT_END disables the padding. +# -DNO_SIGNALS does not disable signals during critical parts of +# the GC process. This is no less correct than many malloc +# implementations, and it sometimes has a significant performance +# impact. However, it is dangerous for many not-quite-ANSI C +# programs that call things like printf in asynchronous signal handlers. +# -DNO_EXECUTE_PERMISSION may cause some or all of the heap to not +# have execute permission, i.e. it may be impossible to execute +# code from the heap. Currently this only affects the incremental +# collector on UNIX machines. It may greatly improve its performance, +# since this may avoid some expensive cache synchronization. +# -DOPERATOR_NEW_ARRAY declares that the C++ compiler supports the +# new syntax "operator new[]" for allocating and deleting arrays. +# See gc_cpp.h for details. No effect on the C part of the collector. +# This is defined implicitly in a few environments. +# -DREDIRECT_MALLOC=X causes malloc, realloc, and free to be defined +# as aliases for X, GC_realloc, and GC_free, respectively. +# Calloc is redefined in terms of the new malloc. X should +# be either GC_malloc or GC_malloc_uncollectable. +# The former is occasionally useful for working around leaks in code +# you don't want to (or can't) look at. It may not work for +# existing code, but it often does. Neither works on all platforms, +# since some ports use malloc or calloc to obtain system memory. +# (Probably works for UNIX, and win32.) +# -DIGNORE_FREE turns calls to free into a noop. Only useful with +# -DREDIRECT_MALLOC. +# -DNO_DEBUGGING removes GC_dump and the debugging routines it calls. +# Reduces code size slightly at the expense of debuggability. +# -DJAVA_FINALIZATION makes it somewhat safer to finalize objects out of +# order by specifying a nonstandard finalization mark procedure (see +# finalize.c). Objects reachable from finalizable objects will be marked +# in a sepearte postpass, and hence their memory won't be reclaimed. +# Not recommended unless you are implementing a language that specifies +# these semantics. +# -DFINALIZE_ON_DEMAND causes finalizers to be run only in response +# to explicit GC_invoke_finalizers() calls. +# -DATOMIC_UNCOLLECTABLE includes code for GC_malloc_atomic_uncollectable. +# This is useful if either the vendor malloc implementation is poor, +# or if REDIRECT_MALLOC is used. +# -DHBLKSIZE=ddd, where ddd is a power of 2 between 512 and 16384, explicitly +# sets the heap block size. Each heap block is devoted to a single size and +# kind of object. For the incremental collector it makes sense to match +# the most likely page size. Otherwise large values result in more +# fragmentation, but generally better performance for large heaps. +# -DUSE_MMAP use MMAP instead of sbrk to get new memory. +# Works for Solaris and Irix. +# -DMMAP_STACKS (for Solaris threads) Use mmap from /dev/zero rather than +# GC_scratch_alloc() to get stack memory. +# -DPRINT_BLACK_LIST Whenever a black list entry is added, i.e. whenever +# the garbage collector detects a value that looks almost, but not quite, +# like a pointer, print both the address containing the value, and the +# value of the near-bogus-pointer. Can be used to identifiy regions of +# memory that are likely to contribute misidentified pointers. +# -DOLD_BLOCK_ALLOC Use the old, possibly faster, large block +# allocation strategy. The new strategy tries harder to minimize +# fragmentation, sometimes at the expense of spending more time in the +# large block allocator and/or collecting more frequently. +# If you expect the allocator to promtly use an explicitly expanded +# heap, this is highly recommended. +# + + + +LIBGC_CFLAGS= -O -DNO_SIGNALS -DSILENT \ + -DREDIRECT_MALLOC=GC_malloc_uncollectable \ + -DDONT_ADD_BYTE_AT_END -DALL_INTERIOR_POINTERS +# Flags for building libgc.a -- the last two are required. + +CXXFLAGS= $(CFLAGS) -DOPERATOR_NEW_ARRAY +AR= ar +RANLIB= ranlib + + +# Redefining srcdir allows object code for the nonPCR version of the collector +# to be generated in different directories. In this case, the destination directory +# should contain a copy of the original include directory. +srcdir = . +VPATH = $(srcdir) + +OBJS= alloc.o reclaim.o allchblk.o misc.o mach_dep.o os_dep.o mark_rts.o headers.o mark.o obj_map.o blacklst.o finalize.o new_hblk.o dbg_mlc.o malloc.o stubborn.o checksums.o solaris_threads.o irix_threads.o linux_threads.o typd_mlc.o ptr_chck.o mallocx.o solaris_pthreads.o + +CSRCS= reclaim.c allchblk.c misc.c alloc.c mach_dep.c os_dep.c mark_rts.c headers.c mark.c obj_map.c pcr_interface.c blacklst.c finalize.c new_hblk.c real_malloc.c dyn_load.c dbg_mlc.c malloc.c stubborn.c checksums.c solaris_threads.c irix_threads.c linux_threads.c typd_mlc.c ptr_chck.c mallocx.c solaris_pthreads.c + +CORD_SRCS= cord/cordbscs.c cord/cordxtra.c cord/cordprnt.c cord/de.c cord/cordtest.c cord/cord.h cord/ec.h cord/private/cord_pos.h cord/de_win.c cord/de_win.h cord/de_cmds.h cord/de_win.ICO cord/de_win.RC cord/SCOPTIONS.amiga cord/SMakefile.amiga + +CORD_OBJS= cord/cordbscs.o cord/cordxtra.o cord/cordprnt.o + +SRCS= $(CSRCS) mips_sgi_mach_dep.s rs6000_mach_dep.s alpha_mach_dep.s \ + sparc_mach_dep.s gc.h gc_typed.h gc_hdrs.h gc_priv.h gc_private.h \ + gcconfig.h gc_mark.h include/gc_inl.h include/gc_inline.h gc.man \ + threadlibs.c if_mach.c if_not_there.c gc_cpp.cc gc_cpp.h weakpointer.h \ + gcc_support.c mips_ultrix_mach_dep.s include/gc_alloc.h gc_alloc.h \ + include/new_gc_alloc.h include/javaxfc.h sparc_sunos4_mach_dep.s \ + solaris_threads.h $(CORD_SRCS) + +OTHER_FILES= Makefile PCR-Makefile OS2_MAKEFILE NT_MAKEFILE BCC_MAKEFILE \ + README test.c test_cpp.cc setjmp_t.c SMakefile.amiga \ + SCoptions.amiga README.amiga README.win32 cord/README \ + cord/gc.h include/gc.h include/gc_typed.h include/cord.h \ + include/ec.h include/private/cord_pos.h include/private/gcconfig.h \ + include/private/gc_hdrs.h include/private/gc_priv.h \ + include/gc_cpp.h README.rs6000 \ + include/weakpointer.h README.QUICK callprocs pc_excludes \ + barrett_diagram README.OS2 README.Mac MacProjects.sit.hqx \ + MacOS.c EMX_MAKEFILE makefile.depend README.debugging \ + include/gc_cpp.h Mac_files/datastart.c Mac_files/dataend.c \ + Mac_files/MacOS_config.h Mac_files/MacOS_Test_config.h \ + add_gc_prefix.c README.solaris2 README.sgi README.hp README.uts \ + win32_threads.c NT_THREADS_MAKEFILE gc.mak README.dj Makefile.dj \ + README.alpha README.linux version.h Makefile.DLLs \ + WCC_MAKEFILE + +CORD_INCLUDE_FILES= $(srcdir)/gc.h $(srcdir)/cord/cord.h $(srcdir)/cord/ec.h \ + $(srcdir)/cord/private/cord_pos.h + +UTILS= if_mach$(EXE_SUFFIX) if_not_there$(EXE_SUFFIX) + +# Libraries needed for curses applications. Only needed for de. +CURSES= -lcurses -ltermlib + +# The following is irrelevant on most systems. But a few +# versions of make otherwise fork the shell specified in +# the SHELL environment variable. +SHELL= /bin/sh + +SPECIALCFLAGS = +# Alternative flags to the C compiler for mach_dep.c. +# Mach_dep.c often doesn't like optimization, and it's +# not time-critical anyway. +# Set SPECIALCFLAGS to -q nodirect_code on Encore. + +all: gc.a gctest$(EXE_SUFFIX) + +pcr: PCR-Makefile gc_private.h gc_hdrs.h gc.h gcconfig.h mach_dep.o $(SRCS) + make -f PCR-Makefile depend + make -f PCR-Makefile + +$(OBJS) test.o dyn_load.o dyn_load_sunos53.o: $(srcdir)/gc_priv.h $(srcdir)/gc_hdrs.h $(srcdir)/gc.h \ + $(srcdir)/gcconfig.h $(srcdir)/gc_typed.h Makefile +# The dependency on Makefile is needed. Changing +# options such as -DSILENT affects the size of GC_arrays, +# invalidating all .o files that rely on gc_priv.h + +mark.o typd_mlc.o finalize.o: $(srcdir)/gc_mark.h + +base_lib gc.a: $(OBJS) dyn_load.o $(UTILS) + echo > base_lib + rm -f on_sparc_sunos5_1 + ./if_mach SPARC SUNOS5 touch on_sparc_sunos5_1 + ./if_mach SPARC SUNOS5 $(AR) rus gc.a $(OBJS) dyn_load.o + ./if_not_there on_sparc_sunos5_1 $(AR) ru gc.a $(OBJS) dyn_load.o + -./if_not_there on_sparc_sunos5_1 $(RANLIB) gc.a +# ignore ranlib failure; that usually means it doesn't exist, and isn't needed + +cords: $(CORD_OBJS) cord/cordtest$(EXE_SUFFIX) $(UTILS) + rm -f on_sparc_sunos5_3 + ./if_mach SPARC SUNOS5 touch on_sparc_sunos5_3 + ./if_mach SPARC SUNOS5 $(AR) rus gc.a $(CORD_OBJS) + ./if_not_there on_sparc_sunos5_3 $(AR) ru gc.a $(CORD_OBJS) + -./if_not_there on_sparc_sunos5_3 $(RANLIB) gc.a + +gc_cpp.o: $(srcdir)/gc_cpp.cc $(srcdir)/gc_cpp.h $(srcdir)/gc.h Makefile + $(CXX) -c $(CXXFLAGS) $(srcdir)/gc_cpp.cc + +test_cpp$(EXE_SUFFIX): $(srcdir)/test_cpp.cc $(srcdir)/gc_cpp.h gc_cpp.o $(srcdir)/gc.h \ +base_lib $(UTILS) + rm -f test_cpp test_cpp$(EXE_SUFFIX) + ./if_mach HP_PA "" $(CXX) $(CXXFLAGS) -o test_cpp $(srcdir)/test_cpp.cc gc_cpp.o gc.a -ldld + ./if_not_there test_cpp$(EXE_SUFFIX) $(CXXLD) $(CXXFLAGS) -o test_cpp$(EXE_SUFFIX) $(srcdir)/test_cpp.cc gc_cpp.o gc.a + rm -f test_cpp + +c++: gc_cpp.o $(srcdir)/gc_cpp.h test_cpp$(EXE_SUFFIX) + rm -f on_sparc_sunos5_4 + ./if_mach SPARC SUNOS5 touch on_sparc_sunos5_4 + ./if_mach SPARC SUNOS5 $(AR) rus gc.a gc_cpp.o + ./if_not_there on_sparc_sunos5_4 $(AR) ru gc.a gc_cpp.o + -./if_not_there on_sparc_sunos5_4 $(RANLIB) gc.a + ./test_cpp$(EXE_SUFFIX) 1 + echo > c++ + +dyn_load_sunos53.o: dyn_load.c + $(CC) $(CFLAGS) -DSUNOS53_SHARED_LIB -c $(srcdir)/dyn_load.c -o $@ + +# SunOS5 shared library version of the collector +sunos5gc.so: $(OBJS) dyn_load_sunos53.o + $(CC) -G -o sunos5gc.so $(OBJS) dyn_load_sunos53.o -ldl + ln sunos5gc.so libgc.so + +# Alpha/OSF shared library version of the collector +libalphagc.so: $(OBJS) + ld -shared -o libalphagc.so $(OBJS) dyn_load.o -lc + ln libalphagc.so libgc.so + +# IRIX shared library version of the collector +libirixgc.so: $(OBJS) dyn_load.o + ld -shared $(ABI_FLAG) -o libirixgc.so $(OBJS) dyn_load.o -lc + ln libirixgc.so libgc.so + +# Linux shared library version of the collector +liblinuxgc.so: $(OBJS) dyn_load.o + gcc -shared -o liblinuxgc.so $(OBJS) dyn_load.o -lo + ln liblinuxgc.so libgc.so + +mach_dep.o: $(srcdir)/mach_dep.c $(srcdir)/mips_sgi_mach_dep.s $(srcdir)/mips_ultrix_mach_dep.s $(srcdir)/rs6000_mach_dep.s $(UTILS) + rm -f mach_dep.o + ./if_mach MIPS IRIX5 $(AS) -o mach_dep.o $(srcdir)/mips_sgi_mach_dep.s + ./if_mach MIPS RISCOS $(AS) -o mach_dep.o $(srcdir)/mips_ultrix_mach_dep.s + ./if_mach MIPS ULTRIX $(AS) -o mach_dep.o $(srcdir)/mips_ultrix_mach_dep.s + ./if_mach RS6000 "" $(AS) -o mach_dep.o $(srcdir)/rs6000_mach_dep.s + ./if_mach ALPHA "" $(AS) -o mach_dep.o $(srcdir)/alpha_mach_dep.s + ./if_mach SPARC SUNOS5 $(AS) -o mach_dep.o $(srcdir)/sparc_mach_dep.s + ./if_mach SPARC SUNOS4 $(AS) -o mach_dep.o $(srcdir)/sparc_sunos4_mach_dep.s + ./if_not_there mach_dep.o $(CC) -c $(SPECIALCFLAGS) $(srcdir)/mach_dep.c + +mark_rts.o: $(srcdir)/mark_rts.c if_mach if_not_there $(UTILS) + rm -f mark_rts.o + -./if_mach ALPHA OSF1 $(CC) -c $(CFLAGS) -Wo,-notail $(srcdir)/mark_rts.c + ./if_not_there mark_rts.o $(CC) -c $(CFLAGS) $(srcdir)/mark_rts.c +# Work-around for DEC optimizer tail recursion elimination bug. +# The ALPHA-specific line should be removed if gcc is used. + +alloc.o: version.h + +cord/cordbscs.o: $(srcdir)/cord/cordbscs.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c -I$(srcdir) $(srcdir)/cord/cordbscs.c + mv cordbscs.o cord/cordbscs.o +# not all compilers understand -o filename + +cord/cordxtra.o: $(srcdir)/cord/cordxtra.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c -I$(srcdir) $(srcdir)/cord/cordxtra.c + mv cordxtra.o cord/cordxtra.o + +cord/cordprnt.o: $(srcdir)/cord/cordprnt.c $(CORD_INCLUDE_FILES) + $(CC) $(CFLAGS) -c -I$(srcdir) $(srcdir)/cord/cordprnt.c + mv cordprnt.o cord/cordprnt.o + +cord/cordtest$(EXE_SUFFIX): $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a $(UTILS) /tmp + rm -f cord/cordtest$(EXE_SUFFIX) + ./if_mach SPARC DRSNX $(CC) $(CFLAGS) -o cord/cordtest$(EXE_SUFFIX) $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a -lucb + ./if_mach HP_PA "" $(CC) $(CFLAGS) -o cord/cordtest$(EXE_SUFFIX) $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a -ldld + ./if_not_there cord/cordtest$(EXE_SUFFIX) $(CC) $(CFLAGS) -o cord/cordtest $(srcdir)/cord/cordtest.c $(CORD_OBJS) gc.a + rm -f cord/cordtest cordtest + -mv cordtest$(EXE_SUFFIX) cord/ + +/tmp: $(UTILS) + ./if_not_there /tmp mkdir /tmp + +cord/de$(EXE_SUFFIX): $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(UTILS) + rm -f cord/de cord/de$(EXE_SUFFIX) + ./if_mach SPARC DRSNX $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(CURSES) -lucb `./threadlibs` + ./if_mach HP_PA "" $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(CURSES) -ldld + ./if_mach RS6000 "" $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses + ./if_mach I386 LINUX $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses `./threadlibs` + ./if_mach ALPHA LINUX $(CC) $(CFLAGS) -o cord/de $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a -lcurses + ./if_not_there cord/de$(EXE_SUFFIX) $(CC) $(CFLAGS) -o cord/de$(EXE_SUFFIX) $(srcdir)/cord/de.c cord/cordbscs.o cord/cordxtra.o gc.a $(CURSES) + +if_mach$(EXE_SUFFIX): $(srcdir)/if_mach.c $(srcdir)/gcconfig.h + rm -f if_mach if_mach$(EXE_SUFFIX) + $(CC) $(CFLAGS) -o if_mach $(srcdir)/if_mach.c + rm -f if_mach + +threadlibs$(EXE_SUFFIX): $(srcdir)/threadlibs.c $(srcdir)/gcconfig.h Makefile + rm -f threadlibs threadlibs$(EXE_SUFFIX) + $(CC) $(CFLAGS) -o threadlibs $(srcdir)/threadlibs.c + rm -f threadlibs + +if_not_there$(EXE_SUFFIX): $(srcdir)/if_not_there.c + rm -f if_not_there if_not_there$(EXE_SUFFIX) + $(CC) $(CFLAGS) -o if_not_there $(srcdir)/if_not_there.c + rm -f if_not_there + +# Clean removes *.o several times, +# because as the first one doesn't seem to get them all! +clean: + rm -f gc.a *.o + rm -f *.o + rm -f *.o + rm -f cord/*.o + rm -f gctest gctest_dyn_link test_cpp + rm -f setjmp_test mon.out gmon.out a.out core if_not_there if_mach + rm -f threadlibs $(CORD_OBJS) cordtest cord/cordtest de cord/de + rm -f gctest$(EXE_SUFFIX) gctest_dyn_link$(EXE_SUFFIX) test_cpp$(EXE_SUFFIX) + rm -f setjmp_test$(EXE_SUFFIX) if_not_there$(EXE_SUFFIX) if_mach$(EXE_SUFFIX) + rm -f threadlibs$(EXE_SUFFIX) cord/cordtest$(EXE_SUFFIX) + -rm -f *~ + +gctest$(EXE_SUFFIX): test.o gc.a if_mach$(EXE_SUFFIX) if_not_there$(EXE_SUFFIX) + rm -f gctest gctest$(EXE_SUFFIX) + ./if_mach SPARC DRSNX $(CC) $(CFLAGS) -o gctest test.o gc.a -lucb + ./if_mach HP_PA "" $(CC) $(CFLAGS) -o gctest test.o gc.a -ldld + ./if_not_there gctest$(EXE_SUFFIX) $(CC) $(CFLAGS) -o gctest$(EXE_SUFFIX) test.o gc.a + rm -f gctest + +# If an optimized setjmp_test generates a segmentation fault, +# odds are your compiler is broken. Gctest may still work. +# Try compiling setjmp_t.c unoptimized. +setjmp_test$(EXE_SUFFIX): $(srcdir)/setjmp_t.c $(srcdir)/gc.h \ + if_mach$(EXE_SUFFIX) if_not_there$(EXE_SUFFIX) + rm -f setjmp_test$(EXE_SUFFIX) + $(CC) $(CFLAGS) -o setjmp_test $(srcdir)/setjmp_t.c + rm -f setjmp_test + +test: KandRtest cord/cordtest$(EXE_SUFFIX) + ./cord/cordtest$(EXE_SUFFIX) + +# Those tests that work even with a K&R C compiler: +KandRtest: setjmp_test$(EXE_SUFFIX) gctest$(EXE_SUFFIX) + ./setjmp_test$(EXE_SUFFIX) + ./gctest$(EXE_SUFFIX) + +add_gc_prefix$(EXE_SUFFIX): add_gc_prefix.c + $(CC) -o add_gc_prefix$(EXE_SUFFIX) $(srcdir)/add_gc_prefix.c + rm -f add_gc_prefix + +gc.tar: $(SRCS) $(OTHER_FILES) add_gc_prefix + ./add_gc_prefix$(EXE_SUFFIX) $(SRCS) $(OTHER_FILES) > /tmp/gc.tar-files + (cd $(srcdir)/.. ; tar cvfh - `cat /tmp/gc.tar-files`) > gc.tar + +pc_gc.tar: $(SRCS) $(OTHER_FILES) + tar cvfX pc_gc.tar pc_excludes $(SRCS) $(OTHER_FILES) + +floppy: pc_gc.tar + -mmd a:/cord + -mmd a:/cord/private + -mmd a:/include + -mmd a:/include/private + mkdir /tmp/pc_gc + cat pc_gc.tar | (cd /tmp/pc_gc; tar xvf -) + -mcopy -tmn /tmp/pc_gc/* a: + -mcopy -tmn /tmp/pc_gc/cord/* a:/cord + -mcopy -mn /tmp/pc_gc/cord/de_win.ICO a:/cord + -mcopy -tmn /tmp/pc_gc/cord/private/* a:/cord/private + -mcopy -tmn /tmp/pc_gc/include/* a:/include + -mcopy -tmn /tmp/pc_gc/include/private/* a:/include/private + rm -r /tmp/pc_gc + +gc.tar.Z: gc.tar + compress gc.tar + +gc.tar.gz: gc.tar + gzip gc.tar + +lint: $(CSRCS) test.c + lint -DLINT $(CSRCS) test.c | egrep -v "possible pointer alignment problem|abort|exit|sbrk|mprotect|syscall" + +# BTL: added to test shared library version of collector. +# Currently works only under SunOS5. Requires GC_INIT call from statically +# loaded client code. +ABSDIR = `pwd` +gctest_dyn_link: test.o libgc.so + $(CC) -L$(ABSDIR) -R$(ABSDIR) -o gctest_dyn_link test.o -lgc -ldl -lthread + +gctest_irix_dyn_link: test.o libirixgc.so + $(CC) -L$(ABSDIR) -o gctest_irix_dyn_link test.o -lirixgc + +test_dll.o: test.c libgc_globals.h + $(CC) $(CFLAGS) -DGC_USE_DLL -c test.c -o test_dll.o + +test_dll: test_dll.o libgc_dll.a libgc.dll + $(CC) test_dll.o -L$(ABSDIR) -lgc_dll -o test_dll + +SYM_PREFIX-libgc=GC + +# Uncomment the following line to build a GNU win32 DLL +# include Makefile.DLLs + +reserved_namespace: $(SRCS) + for file in $(SRCS) test.c test_cpp.cc; do \ + sed s/GC_/_GC_/g < $$file > tmp; \ + cp tmp $$file; \ + done + +user_namespace: $(SRCS) + for file in $(SRCS) test.c test_cpp.cc; do \ + sed s/_GC_/GC_/g < $$file > tmp; \ + cp tmp $$file; \ + done + diff --git a/gc/NT_MAKEFILE b/gc/NT_MAKEFILE new file mode 100644 index 0000000..52f6f4a --- /dev/null +++ b/gc/NT_MAKEFILE @@ -0,0 +1,59 @@ +# Makefile for Windows NT. Assumes Microsoft compiler, and a single thread. +# DLLs are included in the root set under NT, but not under win32S. +# Use "nmake nodebug=1 all" for optimized versions of library, gctest and editor. + +CPU= i386 +!include <ntwin32.mak> + +OBJS= alloc.obj reclaim.obj allchblk.obj misc.obj mach_dep.obj os_dep.obj mark_rts.obj headers.obj mark.obj obj_map.obj blacklst.obj finalize.obj new_hblk.obj dbg_mlc.obj malloc.obj stubborn.obj dyn_load.obj typd_mlc.obj ptr_chck.obj gc_cpp.obj mallocx.obj + +all: gctest.exe cord\de.exe test_cpp.exe + +.c.obj: + $(cc) $(cdebug) $(cflags) $(cvars) -DSMALL_CONFIG -DSILENT -DALL_INTERIOR_POINTERS -D__STDC__ $*.c /Fo$*.obj + +.cpp.obj: + $(cc) $(cdebug) $(cflags) $(cvars) -DSMALL_CONFIG -DSILENT -DALL_INTERIOR_POINTERS $*.CPP /Fo$*.obj + +$(OBJS) test.obj: gc_priv.h gc_hdrs.h gc.h + +gc.lib: $(OBJS) + lib /MACHINE:i386 /out:gc.lib $(OBJS) +# The original NT SDK used lib32 instead of lib + +gctest.exe: test.obj gc.lib +# The following works for win32 debugging. For win32s debugging use debugtype:coff +# and add mapsympe line. +# This produces a "GUI" applications that opens no windows and writes to the log file +# "gc.log". This is done to make the result runnable under win32s. + $(link) -debug:full -debugtype:cv $(guiflags) -stack:131072 -out:$*.exe test.obj $(guilibs) gc.lib +# mapsympe -n -o gctest.sym gctest.exe + +cord\de_win.rbj: cord\de_win.res + cvtres -$(CPU) cord\de_win.res -o cord\de_win.rbj + +cord\de.obj cord\de_win.obj: cord\cord.h cord\private\cord_pos.h cord\de_win.h cord\de_cmds.h + +cord\de_win.res: cord\de_win.rc cord\de_win.h cord\de_cmds.h + $(rc) $(rcvars) -r -fo cord\de_win.res $(cvars) cord\de_win.rc + +# Cord/de is a real win32 gui application. +cord\de.exe: cord\cordbscs.obj cord\cordxtra.obj cord\de.obj cord\de_win.obj cord\de_win.rbj gc.lib + $(link) -debug:full -debugtype:cv $(guiflags) -stack:16384 -out:cord\de.exe cord\cordbscs.obj cord\cordxtra.obj cord\de.obj cord\de_win.obj cord\de_win.rbj gc.lib $(guilibs) + +gc_cpp.obj: gc_cpp.h gc.h + +gc_cpp.cpp: gc_cpp.cc + copy gc_cpp.cc gc_cpp.cpp + +test_cpp.cpp: test_cpp.cc + copy test_cpp.cc test_cpp.cpp + +# This generates the C++ test executable. The executable expects +# a single numeric argument, which is the number of iterations. +# The output appears in the file "gc.log". +test_cpp.exe: test_cpp.obj gc_cpp.h gc.h gc.lib + $(link) -debug:full -debugtype:cv $(guiflags) -stack:16384 -out:test_cpp.exe test_cpp.obj gc.lib $(guilibs) + + + diff --git a/gc/OS2_MAKEFILE b/gc/OS2_MAKEFILE new file mode 100644 index 0000000..7b81621 --- /dev/null +++ b/gc/OS2_MAKEFILE @@ -0,0 +1,45 @@ +# Makefile for OS/2. Assumes IBM's compiler, static linking, and a single thread. +# Adding dynamic linking support seems easy, but takes a little bit of work. +# Adding thread support may be nontrivial, since we haven't yet figured out how to +# look at another thread's registers. + +# Significantly revised for GC version 4.4 by Mark Boulter (Jan 1994). + +OBJS= alloc.obj reclaim.obj allchblk.obj misc.obj mach_dep.obj os_dep.obj mark_rts.obj headers.obj mark.obj obj_map.obj blacklst.obj finalize.obj new_hblk.obj dbg_mlc.obj malloc.obj stubborn.obj typd_mlc.obj ptr_chck.obj mallocx.obj + +CORDOBJS= cord\cordbscs.obj cord\cordxtra.obj cord\cordprnt.obj + +CC= icc +CFLAGS= /O /Q /DSILENT /DSMALL_CONFIG /DALL_INTERIOR_POINTERS +# Use /Ti instead of /O for debugging +# Setjmp_test may yield overly optimistic results when compiled +# without optimization. + +all: $(OBJS) gctest.exe cord\cordtest.exe + +$(OBJS) test.obj: gc_priv.h gc_hdrs.h gc.h + +## ERASE THE LIB FIRST - if it is already there then this command will fail +## (make sure its there or erase will fail!) +gc.lib: $(OBJS) + echo . > gc.lib + erase gc.lib + LIB gc.lib $(OBJS), gc.lst + +mach_dep.obj: mach_dep.c + $(CC) $(CFLAGS) /C mach_dep.c + +gctest.exe: test.obj gc.lib + $(CC) $(CFLAGS) /B"/STACK:524288" /Fegctest test.obj gc.lib + +cord\cordbscs.obj: cord\cordbscs.c cord\cord.h cord\private\cord_pos.h + $(CC) $(CFLAGS) /C /Focord\cordbscs cord\cordbscs.c + +cord\cordxtra.obj: cord\cordxtra.c cord\cord.h cord\private\cord_pos.h cord\ec.h + $(CC) $(CFLAGS) /C /Focord\cordxtra cord\cordxtra.c + +cord\cordprnt.obj: cord\cordprnt.c cord\cord.h cord\private\cord_pos.h cord\ec.h + $(CC) $(CFLAGS) /C /Focord\cordprnt cord\cordprnt.c + +cord\cordtest.exe: cord\cordtest.c cord\cord.h cord\private\cord_pos.h cord\ec.h $(CORDOBJS) gc.lib + $(CC) $(CFLAGS) /B"/STACK:65536" /Fecord\cordtest cord\cordtest.c gc.lib $(CORDOBJS) diff --git a/gc/PCR-Makefile b/gc/PCR-Makefile new file mode 100644 index 0000000..1eae367 --- /dev/null +++ b/gc/PCR-Makefile @@ -0,0 +1,68 @@ +# +# Default target +# + +default: gc.o + +include ../config/common.mk + +# +# compilation flags, etc. +# + + +CPPFLAGS = $(INCLUDE) $(CONFIG_CPPFLAGS) \ + -DPCR_NO_RENAME -DPCR_NO_HOSTDEP_ERR +#CFLAGS = -DPCR -DSILENT $(CONFIG_CFLAGS) +CFLAGS = -DPCR $(CONFIG_CFLAGS) +SPECIALCFLAGS = # For code involving asm's + +ASPPFLAGS = $(INCLUDE) $(CONFIG_ASPPFLAGS) \ + -DPCR_NO_RENAME -DPCR_NO_HOSTDEP_ERR -DASM + +ASFLAGS = $(CONFIG_ASFLAGS) + +LDRFLAGS = $(CONFIG_LDRFLAGS) + +LDFLAGS = $(CONFIG_LDFLAGS) + +# +# +# +# +# BEGIN PACKAGE-SPECIFIC PART +# +# +# +# + +# Fix to point to local pcr installation directory. +PCRDIR= .. + +COBJ= alloc.o reclaim.o allchblk.o misc.o os_dep.o mark_rts.o headers.o mark.o obj_map.o pcr_interface.o blacklst.o finalize.o new_hblk.o real_malloc.o dyn_load.o dbg_mlc.o malloc.o stubborn.o checksums.o solaris_threads.o typd_mlc.o ptr_chck.o mallocx.o + +CSRC= reclaim.c allchblk.c misc.c alloc.c mach_dep.c os_dep.c mark_rts.c headers.c mark.c obj_map.c pcr_interface.c blacklst.c finalize.c new_hblk.c real_malloc.c dyn_load.c dbg_mlc.c malloc.c stubborn.c checksums.c solaris_threads.c typd_mlc.c ptr_chck.c mallocx.c + +SHELL= /bin/sh + +default: gc.o + +gc.o: $(COBJ) mach_dep.o + $(LDR) $(CONFIG_LDRFLAGS) -o gc.o $(COBJ) mach_dep.o + + +mach_dep.o: mach_dep.c mips_mach_dep.s rs6000_mach_dep.s if_mach if_not_there + rm -f mach_dep.o + ./if_mach MIPS "" as -o mach_dep.o mips_mach_dep.s + ./if_mach RS6000 "" as -o mach_dep.o rs6000_mach_dep.s + ./if_mach ALPHA "" as -o mach_dep.o alpha_mach_dep.s + ./if_mach SPARC SUNOS5 as -o mach_dep.o sparc_mach_dep.s + ./if_not_there mach_dep.o $(CC) -c $(SPECIALCFLAGS) mach_dep.c + +if_mach: if_mach.c gcconfig.h + $(CC) $(CFLAGS) -o if_mach if_mach.c + +if_not_there: if_not_there.c + $(CC) $(CFLAGS) -o if_not_there if_not_there.c + + diff --git a/gc/README b/gc/README new file mode 100644 index 0000000..80cb26a --- /dev/null +++ b/gc/README @@ -0,0 +1,1517 @@ +Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers +Copyright (c) 1991-1996 by Xerox Corporation. All rights reserved. +Copyright (c) 1996-1999 by Silicon Graphics. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + +Permission is hereby granted to use or copy this program +for any purpose, provided the above notices are retained on all copies. +Permission to modify the code and to distribute modified code is granted, +provided the above notices are retained, and a notice that the code was +modified is included with the above copyright notice. + +This is version 5.0alpha3 of a conservative garbage collector for C and C++. + +You might find a more recent version of this at + +http://www.hpl.hp.com/personal/Hans_Boehm/gc + +HISTORY - + + Early versions of this collector were developed as a part of research +projects supported in part by the National Science Foundation +and the Defense Advance Research Projects Agency. +Much of the code was rewritten by Hans-J. Boehm (boehm@acm.org) at Xerox PARC +and at SGI. + +Some other contributors: + +More recent contributors are mentioned in the modification history at the +end of this file. My apologies for any omissions. + +The SPARC specific code was contributed by Mark Weiser +(weiser@parc.xerox.com). The Encore Multimax modifications were supplied by +Kevin Kenny (kenny@m.cs.uiuc.edu). The adaptation to the RT is largely due +to Vernon Lee (scorpion@rice.edu), on machines made available by IBM. +Much of the HP specific code and a number of good suggestions for improving the +generic code are due to Walter Underwood (wunder@hp-ses.sde.hp.com). +Robert Brazile (brazile@diamond.bbn.com) originally supplied the ULTRIX code. +Al Dosser (dosser@src.dec.com) and Regis Cridlig (Regis.Cridlig@cl.cam.ac.uk) +subsequently provided updates and information on variation between ULTRIX +systems. Parag Patel (parag@netcom.com) supplied the A/UX code. +Jesper Peterson(jep@mtiame.mtia.oz.au), Michel Schinz, and +Martin Tauchmann (martintauchmann@bigfoot.com) supplied the Amiga port. +Thomas Funke (thf@zelator.in-berlin.de(?)) and +Brian D.Carlstrom (bdc@clark.lcs.mit.edu) supplied the NeXT ports. +Douglas Steel (doug@wg.icl.co.uk) provided ICL DRS6000 code. +Bill Janssen (janssen@parc.xerox.com) supplied the SunOS dynamic loader +specific code. Manuel Serrano (serrano@cornas.inria.fr) supplied linux and +Sony News specific code. Al Dosser provided Alpha/OSF/1 code. He and +Dave Detlefs(detlefs@src.dec.com) also provided several generic bug fixes. +Alistair G. Crooks(agc@uts.amdahl.com) supplied the NetBSD and 386BSD ports. +Jeffrey Hsu (hsu@soda.berkeley.edu) provided the FreeBSD port. +Brent Benson (brent@jade.ssd.csd.harris.com) ported the collector to +a Motorola 88K processor running CX/UX (Harris NightHawk). +Ari Huttunen (Ari.Huttunen@hut.fi) generalized the OS/2 port to +nonIBM development environments (a nontrivial task). +Patrick Beard (beard@cs.ucdavis.edu) provided the initial MacOS port. +David Chase, then at Olivetti Research, suggested several improvements. +Scott Schwartz (schwartz@groucho.cse.psu.edu) supplied some of the +code to save and print call stacks for leak detection on a SPARC. +Jesse Hull and John Ellis supplied the C++ interface code. +Zhong Shao performed much of the experimentation that led to the +current typed allocation facility. (His dynamic type inference code hasn't +made it into the released version of the collector, yet.) +(Blame for misinstallation of these modifications goes to the first author, +however.) + +OVERVIEW + + This is intended to be a general purpose, garbage collecting storage +allocator. The algorithms used are described in: + +Boehm, H., and M. Weiser, "Garbage Collection in an Uncooperative Environment", +Software Practice & Experience, September 1988, pp. 807-820. + +Boehm, H., A. Demers, and S. Shenker, "Mostly Parallel Garbage Collection", +Proceedings of the ACM SIGPLAN '91 Conference on Programming Language Design +and Implementation, SIGPLAN Notices 26, 6 (June 1991), pp. 157-164. + +Boehm, H., "Space Efficient Conservative Garbage Collection", Proceedings +of the ACM SIGPLAN '91 Conference on Programming Language Design and +Implementation, SIGPLAN Notices 28, 6 (June 1993), pp. 197-206. + + Possible interactions between the collector and optimizing compilers are +discussed in + +Boehm, H., and D. Chase, "A Proposal for GC-safe C Compilation", +The Journal of C Language Translation 4, 2 (December 1992). + +and + +Boehm H., "Simple GC-safe Compilation", Proceedings +of the ACM SIGPLAN '96 Conference on Programming Language Design and +Implementation. + +(Both are also available from +http://reality.sgi.com/boehm/papers/, among other places.) + + Unlike the collector described in the second reference, this collector +operates either with the mutator stopped during the entire collection +(default) or incrementally during allocations. (The latter is supported +on only a few machines.) It does not rely on threads, but is intended +to be thread-safe. + + Some of the ideas underlying the collector have previously been explored +by others. (Doug McIlroy wrote a vaguely similar collector that is part of +version 8 UNIX (tm).) However none of this work appears to have been widely +disseminated. + + Rudimentary tools for use of the collector as a leak detector are included, as +is a fairly sophisticated string package "cord" that makes use of the collector. +(See cord/README.) + + +GENERAL DESCRIPTION + + This is a garbage collecting storage allocator that is intended to be +used as a plug-in replacement for C's malloc. + + Since the collector does not require pointers to be tagged, it does not +attempt to ensure that all inaccessible storage is reclaimed. However, +in our experience, it is typically more successful at reclaiming unused +memory than most C programs using explicit deallocation. Unlike manually +introduced leaks, the amount of unreclaimed memory typically stays +bounded. + + In the following, an "object" is defined to be a region of memory allocated +by the routines described below. + + Any objects not intended to be collected must be pointed to either +from other such accessible objects, or from the registers, +stack, data, or statically allocated bss segments. Pointers from +the stack or registers may point to anywhere inside an object. +The same is true for heap pointers if the collector is compiled with + ALL_INTERIOR_POINTERS defined, as is now the default. + +Compiling without ALL_INTERIOR_POINTERS may reduce accidental retention +of garbage objects, by requiring pointers from the heap to to the beginning +of an object. But this no longer appears to be a significant +issue for most programs. + +There are a number of routines which modify the pointer recognition +algorithm. GC_register_displacement allows certain interior pointers +to be recognized even if ALL_INTERIOR_POINTERS is nor defined. +GC_malloc_ignore_off_page allows some pointers into the middle of large objects +to be disregarded, greatly reducing the probablility of accidental +retention of large objects. For most purposes it seems best to compile +with ALL_INTERIOR_POINTERS and to use GC_malloc_ignore_off_page if +you get collector warnings from allocations of very large objects. +See README.debugging for details. + + Note that pointers inside memory allocated by the standard "malloc" are not +seen by the garbage collector. Thus objects pointed to only from such a +region may be prematurely deallocated. It is thus suggested that the +standard "malloc" be used only for memory regions, such as I/O buffers, that +are guaranteed not to contain pointers to garbage collectable memory. +Pointers in C language automatic, static, or register variables, +are correctly recognized. (Note that GC_malloc_uncollectable has semantics +similar to standard malloc, but allocates objects that are traced by the +collector.) + + The collector does not always know how to find pointers in data +areas that are associated with dynamic libraries. This is easy to +remedy IF you know how to find those data areas on your operating +system (see GC_add_roots). Code for doing this under SunOS, IRIX 5.X and 6.X, +HP/UX, Alpha OSF/1, Linux, and win32 is included and used by default. (See +README.win32 for win32 details.) On other systems pointers from dynamic +library data areas may not be considered by the collector. + + Note that the garbage collector does not need to be informed of shared +read-only data. However if the shared library mechanism can introduce +discontiguous data areas that may contain pointers, then the collector does +need to be informed. + + Signal processing for most signals may be deferred during collection, +and during uninterruptible parts of the allocation process. Unlike +standard ANSI C mallocs, it can be safe to invoke malloc +from a signal handler while another malloc is in progress, provided +the original malloc is not restarted. (Empirically, many UNIX +applications already assume this.) To obtain this level of signal +safety, remove the definition of -DNO_SIGNALS in Makefile. This incurs +a minor performance penalty, and hence is no longer the default. + + The allocator/collector can also be configured for thread-safe operation. +(Full signal safety can also be achieved, but only at the cost of two system +calls per malloc, which is usually unacceptable.) + +INSTALLATION AND PORTABILITY + + As distributed, the macro SILENT is defined in Makefile. +In the event of problems, this can be removed to obtain a moderate +amount of descriptive output for each collection. +(The given statistics exhibit a few peculiarities. +Things don't appear to add up for a variety of reasons, most notably +fragmentation losses. These are probably much more significant for the +contrived program "test.c" than for your application.) + + Note that typing "make test" will automatically build the collector +and then run setjmp_test and gctest. Setjmp_test will give you information +about configuring the collector, which is useful primarily if you have +a machine that's not already supported. Gctest is a somewhat superficial +test of collector functionality. Failure is indicated by a core dump or +a message to the effect that the collector is broken. Gctest takes about +35 seconds to run on a SPARCstation 2. On a slower machine, +expect it to take a while. It may use up to 8 MB of memory. (The +multi-threaded version will use more.) "Make test" will also, as +its last step, attempt to build and test the "cord" string library. +This will fail without an ANSI C compiler. + + The Makefile will generate a library gc.a which you should link against. +Typing "make cords" will add the cord library to gc.a. +Note that this requires an ANSI C compiler. + + It is suggested that if you need to replace a piece of the collector +(e.g. GC_mark_rts.c) you simply list your version ahead of gc.a on the + work.) +ld command line, rather than replacing the one in gc.a. (This will +generate numerous warnings under some versions of AIX, but it still +works.) + + All include files that need to be used by clients will be put in the +include subdirectory. (Normally this is just gc.h. "Make cords" adds +"cord.h" and "ec.h".) + + The collector currently is designed to run essentially unmodified on +machines that use a flat 32-bit or 64-bit address space. +That includes the vast majority of Workstations and X86 (X >= 3) PCs. +(The list here was deleted because it was getting too long and constantly +out of date.) + It does NOT run under plain 16-bit DOS or Windows 3.X. There are however +various packages (e.g. win32s, djgpp) that allow flat 32-bit address +applications to run under those systemsif the have at least an 80386 processor, +and several of those are compatible with the collector. + + In a few cases (Amiga, OS/2, Win32, MacOS) a separate makefile +or equivalent is supplied. Many of these have separate README.system +files. + + Dynamic libraries are completely supported only under SunOS +(and even that support is not functional on the last Sun 3 release), +IRIX 5&6, HP-PA, Win32 (not Win32S) and OSF/1 on DEC AXP machines. +On other machines we recommend that you do one of the following: + + 1) Add dynamic library support (and send us the code). + 2) Use static versions of the libraries. + 3) Arrange for dynamic libraries to use the standard malloc. + This is still dangerous if the library stores a pointer to a + garbage collected object. But nearly all standard interfaces + prohibit this, because they deal correctly with pointers + to stack allocated objects. (Strtok is an exception. Don't + use it.) + + In all cases we assume that pointer alignment is consistent with that +enforced by the standard C compilers. If you use a nonstandard compiler +you may have to adjust the alignment parameters defined in gc_priv.h. + + A port to a machine that is not byte addressed, or does not use 32 bit +or 64 bit addresses will require a major effort. A port to plain MSDOS +or win16 is hard. + + For machines not already mentioned, or for nonstandard compilers, the +following are likely to require change: + +1. The parameters in gcconfig.h. + The parameters that will usually require adjustment are + STACKBOTTOM, ALIGNMENT and DATASTART. Setjmp_test + prints its guesses of the first two. + DATASTART should be an expression for computing the + address of the beginning of the data segment. This can often be + &etext. But some memory management units require that there be + some unmapped space between the text and the data segment. Thus + it may be more complicated. On UNIX systems, this is rarely + documented. But the adb "$m" command may be helpful. (Note + that DATASTART will usually be a function of &etext. Thus a + single experiment is usually insufficient.) + STACKBOTTOM is used to initialize GC_stackbottom, which + should be a sufficient approximation to the coldest stack address. + On some machines, it is difficult to obtain such a value that is + valid across a variety of MMUs, OS releases, etc. A number of + alternatives exist for using the collector in spite of this. See the + discussion in gcconfig.h immediately preceding the various + definitions of STACKBOTTOM. + +2. mach_dep.c. + The most important routine here is one to mark from registers. + The distributed file includes a generic hack (based on setjmp) that + happens to work on many machines, and may work on yours. Try + compiling and running setjmp_t.c to see whether it has a chance of + working. (This is not correct C, so don't blame your compiler if it + doesn't work. Based on limited experience, register window machines + are likely to cause trouble. If your version of setjmp claims that + all accessible variables, including registers, have the value they + had at the time of the longjmp, it also will not work. Vanilla 4.2 BSD + on Vaxen makes such a claim. SunOS does not.) + If your compiler does not allow in-line assembly code, or if you prefer + not to use such a facility, mach_dep.c may be replaced by a .s file + (as we did for the MIPS machine and the PC/RT). + At this point enough architectures are supported by mach_dep.c + that you will rarely need to do more than adjust for assembler + syntax. + +3. os_dep.c (and gc_priv.h). + Several kinds of operating system dependent routines reside here. + Many are optional. Several are invoked only through corresponding + macros in gc_priv.h, which may also be redefined as appropriate. + The routine GC_register_data_segments is crucial. It registers static + data areas that must be traversed by the collector. (User calls to + GC_add_roots may sometimes be used for similar effect.) + Routines to obtain memory from the OS also reside here. + Alternatively this can be done entirely by the macro GET_MEM + defined in gc_priv.h. Routines to disable and reenable signals + also reside here if they are need by the macros DISABLE_SIGNALS + and ENABLE_SIGNALS defined in gc_priv.h. + In a multithreaded environment, the macros LOCK and UNLOCK + in gc_priv.h will need to be suitably redefined. + The incremental collector requires page dirty information, which + is acquired through routines defined in os_dep.c. Unless directed + otherwise by gcconfig.h, these are implemented as stubs that simply + treat all pages as dirty. (This of course makes the incremental + collector much less useful.) + +4. dyn_load.c + This provides a routine that allows the collector to scan data + segments associated with dynamic libraries. Often it is not + necessary to provide this routine unless user-written dynamic + libraries are used. + + For a different version of UN*X or different machines using the +Motorola 68000, Vax, SPARC, 80386, NS 32000, PC/RT, or MIPS architecture, +it should frequently suffice to change definitions in gcconfig.h. + + +THE C INTERFACE TO THE ALLOCATOR + + The following routines are intended to be directly called by the user. +Note that usually only GC_malloc is necessary. GC_clear_roots and GC_add_roots +calls may be required if the collector has to trace from nonstandard places +(e.g. from dynamic library data areas on a machine on which the +collector doesn't already understand them.) On some machines, it may +be desirable to set GC_stacktop to a good approximation of the stack base. +(This enhances code portability on HP PA machines, since there is no +good way for the collector to compute this value.) Client code may include +"gc.h", which defines all of the following, plus many others. + +1) GC_malloc(nbytes) + - allocate an object of size nbytes. Unlike malloc, the object is + cleared before being returned to the user. Gc_malloc will + invoke the garbage collector when it determines this to be appropriate. + GC_malloc may return 0 if it is unable to acquire sufficient + space from the operating system. This is the most probable + consequence of running out of space. Other possible consequences + are that a function call will fail due to lack of stack space, + or that the collector will fail in other ways because it cannot + maintain its internal data structures, or that a crucial system + process will fail and take down the machine. Most of these + possibilities are independent of the malloc implementation. + +2) GC_malloc_atomic(nbytes) + - allocate an object of size nbytes that is guaranteed not to contain any + pointers. The returned object is not guaranteed to be cleared. + (Can always be replaced by GC_malloc, but results in faster collection + times. The collector will probably run faster if large character + arrays, etc. are allocated with GC_malloc_atomic than if they are + statically allocated.) + +3) GC_realloc(object, new_size) + - change the size of object to be new_size. Returns a pointer to the + new object, which may, or may not, be the same as the pointer to + the old object. The new object is taken to be atomic iff the old one + was. If the new object is composite and larger than the original object, + then the newly added bytes are cleared (we hope). This is very likely + to allocate a new object, unless MERGE_SIZES is defined in gc_priv.h. + Even then, it is likely to recycle the old object only if the object + is grown in small additive increments (which, we claim, is generally bad + coding practice.) + +4) GC_free(object) + - explicitly deallocate an object returned by GC_malloc or + GC_malloc_atomic. Not necessary, but can be used to minimize + collections if performance is critical. Probably a performance + loss for very small objects (<= 8 bytes). + +5) GC_expand_hp(bytes) + - Explicitly increase the heap size. (This is normally done automatically + if a garbage collection failed to GC_reclaim enough memory. Explicit + calls to GC_expand_hp may prevent unnecessarily frequent collections at + program startup.) + +6) GC_malloc_ignore_off_page(bytes) + - identical to GC_malloc, but the client promises to keep a pointer to + the somewhere within the first 256 bytes of the object while it is + live. (This pointer should nortmally be declared volatile to prevent + interference from compiler optimizations.) This is the recommended + way to allocate anything that is likely to be larger than 100Kbytes + or so. (GC_malloc may result in failure to reclaim such objects.) + +7) GC_set_warn_proc(proc) + - Can be used to redirect warnings from the collector. Such warnings + should be rare, and should not be ignored during code development. + +8) GC_enable_incremental() + - Enables generational and incremental collection. Useful for large + heaps on machines that provide access to page dirty information. + Some dirty bit implementations may interfere with debugging + (by catching address faults) and place restrictions on heap arguments + to system calls (since write faults inside a system call may not be + handled well). + +9) Several routines to allow for registration of finalization code. + User supplied finalization code may be invoked when an object becomes + unreachable. To call (*f)(obj, x) when obj becomes inaccessible, use + GC_register_finalizer(obj, f, x, 0, 0); + For more sophisticated uses, and for finalization ordering issues, + see gc.h. + + The global variable GC_free_space_divisor may be adjusted up from its +default value of 4 to use less space and more collection time, or down for +the opposite effect. Setting it to 1 or 0 will effectively disable collections +and cause all allocations to simply grow the heap. + + The variable GC_non_gc_bytes, which is normally 0, may be changed to reflect +the amount of memory allocated by the above routines that should not be +considered as a candidate for collection. Careless use may, of course, result +in excessive memory consumption. + + Some additional tuning is possible through the parameters defined +near the top of gc_priv.h. + + If only GC_malloc is intended to be used, it might be appropriate to define: + +#define malloc(n) GC_malloc(n) +#define calloc(m,n) GC_malloc((m)*(n)) + + For small pieces of VERY allocation intensive code, gc_inl.h +includes some allocation macros that may be used in place of GC_malloc +and friends. + + All externally visible names in the garbage collector start with "GC_". +To avoid name conflicts, client code should avoid this prefix, except when +accessing garbage collector routines or variables. + + There are provisions for allocation with explicit type information. +This is rarely necessary. Details can be found in gc_typed.h. + +THE C++ INTERFACE TO THE ALLOCATOR: + + The Ellis-Hull C++ interface to the collector is included in +the collector distribution. If you intend to use this, type +"make c++" after the initial build of the collector is complete. +See gc_cpp.h for the definition of the interface. This interface +tries to approximate the Ellis-Detlefs C++ garbage collection +proposal without compiler changes. + +Cautions: +1. Arrays allocated without new placement syntax are +allocated as uncollectable objects. They are traced by the +collector, but will not be reclaimed. + +2. Failure to use "make c++" in combination with (1) will +result in arrays allocated using the default new operator. +This is likely to result in disaster without linker warnings. + +3. If your compiler supports an overloaded new[] operator, +then gc_cpp.cc and gc_cpp.h should be suitably modified. + +4. Many current C++ compilers have deficiencies that +break some of the functionality. See the comments in gc_cpp.h +for suggested workarounds. + +USE AS LEAK DETECTOR: + + The collector may be used to track down leaks in C programs that are +intended to run with malloc/free (e.g. code with extreme real-time or +portability constraints). To do so define FIND_LEAK in Makefile +This will cause the collector to invoke the report_leak +routine defined near the top of reclaim.c whenever an inaccessible +object is found that has not been explicitly freed. The collector will +no longer reclaim inaccessible memory; in this form it is purely a +debugging tool. + Productive use of this facility normally involves redefining report_leak +to do something more intelligent. This typically requires annotating +objects with additional information (e.g. creation time stack trace) that +identifies their origin. Such code is typically not very portable, and is +not included here, except on SPARC machines. + If all objects are allocated with GC_DEBUG_MALLOC (see next section), +then the default version of report_leak will report the source file +and line number at which the leaked object was allocated. This may +sometimes be sufficient. (On SPARC/SUNOS4 machines, it will also report +a cryptic stack trace. This can often be turned into a sympolic stack +trace by invoking program "foo" with "callprocs foo". Callprocs is +a short shell script that invokes adb to expand program counter values +to symbolic addresses. It was largely supplied by Scott Schwartz.) + Note that the debugging facilities described in the next section can +sometimes be slightly LESS effective in leak finding mode, since in +leak finding mode, GC_debug_free actually results in reuse of the object. +(Otherwise the object is simply marked invalid.) Also note that the test +program is not designed to run meaningfully in FIND_LEAK mode. +Use "make gc.a" to build the collector. + +DEBUGGING FACILITIES: + + The routines GC_debug_malloc, GC_debug_malloc_atomic, GC_debug_realloc, +and GC_debug_free provide an alternate interface to the collector, which +provides some help with memory overwrite errors, and the like. +Objects allocated in this way are annotated with additional +information. Some of this information is checked during garbage +collections, and detected inconsistencies are reported to stderr. + + Simple cases of writing past the end of an allocated object should +be caught if the object is explicitly deallocated, or if the +collector is invoked while the object is live. The first deallocation +of an object will clear the debugging info associated with an +object, so accidentally repeated calls to GC_debug_free will report the +deallocation of an object without debugging information. Out of +memory errors will be reported to stderr, in addition to returning +NIL. + + GC_debug_malloc checking during garbage collection is enabled +with the first call to GC_debug_malloc. This will result in some +slowdown during collections. If frequent heap checks are desired, +this can be achieved by explicitly invoking GC_gcollect, e.g. from +the debugger. + + GC_debug_malloc allocated objects should not be passed to GC_realloc +or GC_free, and conversely. It is however acceptable to allocate only +some objects with GC_debug_malloc, and to use GC_malloc for other objects, +provided the two pools are kept distinct. In this case, there is a very +low probablility that GC_malloc allocated objects may be misidentified as +having been overwritten. This should happen with probability at most +one in 2**32. This probability is zero if GC_debug_malloc is never called. + + GC_debug_malloc, GC_malloc_atomic, and GC_debug_realloc take two +additional trailing arguments, a string and an integer. These are not +interpreted by the allocator. They are stored in the object (the string is +not copied). If an error involving the object is detected, they are printed. + + The macros GC_MALLOC, GC_MALLOC_ATOMIC, GC_REALLOC, GC_FREE, and +GC_REGISTER_FINALIZER are also provided. These require the same arguments +as the corresponding (nondebugging) routines. If gc.h is included +with GC_DEBUG defined, they call the debugging versions of these +functions, passing the current file name and line number as the two +extra arguments, where appropriate. If gc.h is included without GC_DEBUG +defined, then all these macros will instead be defined to their nondebugging +equivalents. (GC_REGISTER_FINALIZER is necessary, since pointers to +objects with debugging information are really pointers to a displacement +of 16 bytes form the object beginning, and some translation is necessary +when finalization routines are invoked. For details, about what's stored +in the header, see the definition of the type oh in debug_malloc.c) + +INCREMENTAL/GENERATIONAL COLLECTION: + +The collector normally interrupts client code for the duration of +a garbage collection mark phase. This may be unacceptable if interactive +response is needed for programs with large heaps. The collector +can also run in a "generational" mode, in which it usually attempts to +collect only objects allocated since the last garbage collection. +Furthermore, in this mode, garbage collections run mostly incrementally, +with a small amount of work performed in response to each of a large number of +GC_malloc requests. + +This mode is enabled by a call to GC_enable_incremental(). + +Incremental and generational collection is effective in reducing +pause times only if the collector has some way to tell which objects +or pages have been recently modified. The collector uses two sources +of information: + +1. Information provided by the VM system. This may be provided in +one of several forms. Under Solaris 2.X (and potentially under other +similar systems) information on dirty pages can be read from the +/proc file system. Under other systems (currently SunOS4.X) it is +possible to write-protect the heap, and catch the resulting faults. +On these systems we require that system calls writing to the heap +(other than read) be handled specially by client code. +See os_dep.c for details. + +2. Information supplied by the programmer. We define "stubborn" +objects to be objects that are rarely changed. Such an object +can be allocated (and enabled for writing) with GC_malloc_stubborn. +Once it has been initialized, the collector should be informed with +a call to GC_end_stubborn_change. Subsequent writes that store +pointers into the object must be preceded by a call to +GC_change_stubborn. + +This mechanism performs best for objects that are written only for +initialization, and such that only one stubborn object is writable +at once. It is typically not worth using for short-lived +objects. Stubborn objects are treated less efficiently than pointerfree +(atomic) objects. + +A rough rule of thumb is that, in the absence of VM information, garbage +collection pauses are proportional to the amount of pointerful storage +plus the amount of modified "stubborn" storage that is reachable during +the collection. + +Initial allocation of stubborn objects takes longer than allocation +of other objects, since other data structures need to be maintained. + +We recommend against random use of stubborn objects in client +code, since bugs caused by inappropriate writes to stubborn objects +are likely to be very infrequently observed and hard to trace. +However, their use may be appropriate in a few carefully written +library routines that do not make the objects themselves available +for writing by client code. + + +BUGS: + + Any memory that does not have a recognizable pointer to it will be +reclaimed. Exclusive-or'ing forward and backward links in a list +doesn't cut it. + Some C optimizers may lose the last undisguised pointer to a memory +object as a consequence of clever optimizations. This has almost +never been observed in practice. Send mail to boehm@acm.org +for suggestions on how to fix your compiler. + This is not a real-time collector. In the standard configuration, +percentage of time required for collection should be constant across +heap sizes. But collection pauses will increase for larger heaps. +(On SPARCstation 2s collection times will be on the order of 300 msecs +per MB of accessible memory that needs to be scanned. Your mileage +may vary.) The incremental/generational collection facility helps, +but is portable only if "stubborn" allocation is used. + Please address bug reports to boehm@acm.org. If you are +contemplating a major addition, you might also send mail to ask whether +it's already been done (or whether we tried and discarded it). + +RECENT VERSIONS: + + Version 1.3 and immediately preceding versions contained spurious +assembly language assignments to TMP_SP. Only the assignment in the PC/RT +code is necessary. On other machines, with certain compiler options, +the assignments can lead to an unsaved register being overwritten. +Known to cause problems under SunOS 3.5 WITHOUT the -O option. (With +-O the compiler recognizes it as dead code. It probably shouldn't, +but that's another story.) + + Version 1.4 and earlier versions used compile time determined values +for the stack base. This no longer works on Sun 3s, since Sun 3/80s use +a different stack base. We now use a straightforward heuristic on all +machines on which it is known to work (incl. Sun 3s) and compile-time +determined values for the rest. There should really be library calls +to determine such values. + + Version 1.5 and earlier did not ensure 8 byte alignment for objects +allocated on a sparc based machine. + + Version 1.8 added ULTRIX support in gc_private.h. + + Version 1.9 fixed a major bug in gc_realloc. + + Version 2.0 introduced a consistent naming convention for collector +routines and added support for registering dynamic library data segments +in the standard mark_roots.c. Most of the data structures were revamped. +The treatment of interior pointers was completely changed. Finalization +was added. Support for locking was added. Object kinds were added. +We added a black listing facility to avoid allocating at addresses known +to occur as integers somewhere in the address space. Much of this +was accomplished by adapting ideas and code from the PCR collector. +The test program was changed and expanded. + + Version 2.1 was the first stable version since 1.9, and added support +for PPCR. + + Version 2.2 added debugging allocation, and fixed various bugs. Among them: +- GC_realloc could fail to extend the size of the object for certain large object sizes. +- A blatant subscript range error in GC_printf, which unfortunately + wasn't exercised on machines with sufficient stack alignment constraints. +- GC_register_displacement did the wrong thing if it was called after + any allocation had taken place. +- The leak finding code would eventually break after 2048 byte + byte objects leaked. +- interface.c didn't compile. +- The heap size remained much too small for large stacks. +- The stack clearing code behaved badly for large stacks, and perhaps + on HP/PA machines. + + Version 2.3 added ALL_INTERIOR_POINTERS and fixed the following bugs: +- Missing declaration of etext in the A/UX version. +- Some PCR root-finding problems. +- Blacklisting was not 100% effective, because the plausible future + heap bounds were being miscalculated. +- GC_realloc didn't handle out-of-memory correctly. +- GC_base could return a nonzero value for addresses inside free blocks. +- test.c wasn't really thread safe, and could erroneously report failure + in a multithreaded environment. (The locking primitives need to be + replaced for other threads packages.) +- GC_CONS was thoroughly broken. +- On a SPARC with dynamic linking, signals stayed diabled while the + client code was running. + (Thanks to Manuel Serrano at INRIA for reporting the last two.) + + Version 2.4 added GC_free_space_divisor as a tuning knob, added + support for OS/2 and linux, and fixed the following bugs: +- On machines with unaligned pointers (e.g. Sun 3), every 128th word could + fail to be considered for marking. +- Dynamic_load.c erroneously added 4 bytes to the length of the data and + bss sections of the dynamic library. This could result in a bad memory + reference if the actual length was a multiple of a page. (Observed on + Sun 3. Can probably also happen on a Sun 4.) + (Thanks to Robert Brazile for pointing out that the Sun 3 version + was broken. Dynamic library handling is still broken on Sun 3s + under 4.1.1U1, but apparently not 4.1.1. If you have such a machine, + use -Bstatic.) + + Version 2.5 fixed the following bugs: +- Removed an explicit call to exit(1) +- Fixed calls to GC_printf and GC_err_printf, so the correct number of + arguments are always supplied. The OS/2 C compiler gets confused if + the number of actuals and the number of formals differ. (ANSI C + doesn't require this to work. The ANSI sanctioned way of doing things + causes too many compatibility problems.) + + Version 3.0 added generational/incremental collection and stubborn + objects. + + Version 3.1 added the following features: +- A workaround for a SunOS 4.X SPARC C compiler + misfeature that caused problems when the collector was turned into + a dynamic library. +- A fix for a bug in GC_base that could result in a memory fault. +- A fix for a performance bug (and several other misfeatures) pointed + out by Dave Detlefs and Al Dosser. +- Use of dirty bit information for static data under Solaris 2.X. +- DEC Alpha/OSF1 support (thanks to Al Dosser). +- Incremental collection on more platforms. +- A more refined heap expansion policy. Less space usage by default. +- Various minor enhancements to reduce space usage, and to reduce + the amount of memory scanned by the collector. +- Uncollectable allocation without per object overhead. +- More conscientious handling of out-of-memory conditions. +- Fixed a bug in debugging stubborn allocation. +- Fixed a bug that resulted in occasional erroneous reporting of smashed + objects with debugging allocation. +- Fixed bogus leak reports of size 4096 blocks with FIND_LEAK. + + Version 3.2 fixed a serious and not entirely repeatable bug in + the incremental collector. It appeared only when dirty bit info + on the roots was available, which is normally only under Solaris. + It also added GC_general_register_disappearing_link, and some + testing code. Interface.c disappeared. + + Version 3.3 fixes several bugs and adds new ports: +- PCR-specific bugs. +- Missing locking in GC_free, redundant FASTUNLOCK + in GC_malloc_stubborn, and 2 bugs in + GC_unregister_disappearing_link. + All of the above were pointed out by Neil Sharman + (neil@cs.mu.oz.au). +- Common symbols allocated by the SunOS4.X dynamic loader + were not included in the root set. +- Bug in GC_finalize (reported by Brian Beuning and Al Dosser) +- Merged Amiga port from Jesper Peterson (untested) +- Merged NeXT port from Thomas Funke (significantly + modified and untested) + + Version 3.4: +- Fixed a performance bug in GC_realloc. +- Updated the amiga port. +- Added NetBSD and 386BSD ports. +- Added cord library. +- Added trivial performance enhancement for + ALL_INTERIOR_POINTERS. (Don't scan last word.) + + Version 3.5 +- Minor collections now mark from roots only once, if that + doesn't cause an excessive pause. +- The stack clearing heuristic was refined to prevent anomalies + with very heavily recursive programs and sparse stacks. +- Fixed a bug that prevented mark stack growth in some cases. + GC_objects_are_marked should be set to TRUE after a call + to GC_push_roots and as part of GC_push_marked, since + both can now set mark bits. I think this is only a performance + bug, but I wouldn't bet on it. It's certainly very hard to argue + that the old version was correct. +- Fixed an incremental collection bug that prevented it from + working at all when HBLKSIZE != getpagesize() +- Changed dynamic_loading.c to include gc_priv.h before testing + DYNAMIC_LOADING. SunOS dynamic library scanning + must have been broken in 3.4. +- Object size rounding now adapts to program behavior. +- Added a workaround (provided by Manuel Serrano and + colleagues) to a long-standing SunOS 4.X (and 3.X?) ld bug + that I had incorrectly assumed to have been squished. + The collector was broken if the text segment size was within + 32 bytes of a multiple of 8K bytes, and if the beginning of + the data segment contained interesting roots. The workaround + assumes a demand-loadable executable. The original may have + have "worked" in some other cases. +- Added dynamic library support under IRIX5. +- Added support for EMX under OS/2 (thanks to Ari Huttunen). + +Version 3.6: +- fixed a bug in the mark stack growth code that was introduced + in 3.4. +- fixed Makefile to work around DEC AXP compiler tail recursion + bug. + +Version 3.7: +- Added a workaround for an HP/UX compiler bug. +- Fixed another stack clearing performance bug. Reworked + that code once more. + +Version 4.0: +- Added support for Solaris threads (which was possible + only by reimplementing some fraction of Solaris threads, + since Sun doesn't currently make the thread debugging + interface available). +- Added non-threads win32 and win32S support. +- (Grudgingly, with suitable muttering of obscenities) renamed + files so that the collector distribution could live on a FAT + file system. Files that are guaranteed to be useless on + a PC still have long names. Gc_inline.h and gc_private.h + still exist, but now just include gc_inl.h and gc_priv.h. +- Fixed a really obscure bug in finalization that could cause + undetected mark stack overflows. (I would be surprised if + any real code ever tickled this one.) +- Changed finalization code to dynamically resize the hash + tables it maintains. (This probably does not matter for well- + -written code. It no doubt does for C++ code that overuses + destructors.) +- Added typed allocation primitives. Rewrote the marker to + accommodate them with more reasonable efficiency. This + change should also speed up marking for GC_malloc allocated + objects a little. See gc_typed.h for new primitives. +- Improved debugging facilities slightly. Allocation time + stack traces are now kept by default on SPARC/SUNOS4. + (Thanks to Scott Schwartz.) +- Added better support for small heap applications. +- Significantly extended cord package. Fixed a bug in the + implementation of lazily read files. Printf and friends now + have cord variants. Cord traversals are a bit faster. +- Made ALL_INTERIOR_POINTERS recognition the default. +- Fixed de so that it can run in constant space, independent + of file size. Added simple string searching to cords and de. +- Added the Hull-Ellis C++ interface. +- Added dynamic library support for OSF/1. + (Thanks to Al Dosser and Tim Bingham at DEC.) +- Changed argument to GC_expand_hp to be expressed + in units of bytes instead of heap blocks. (Necessary + since the heap block size now varies depending on + configuration. The old version was never very clean.) +- Added GC_get_heap_size(). The previous "equivalent" + was broken. +- Restructured the Makefile a bit. + +Since version 4.0: +- Changed finalization implementation to guarantee that + finalization procedures are called outside of the allocation + lock, making direct use of the interface a little less dangerous. + MAY BREAK EXISTING CLIENTS that assume finalizers + are protected by a lock. Since there seem to be few multithreaded + clients that use finalization, this is hopefully not much of + a problem. +- Fixed a gross bug in CORD_prev. +- Fixed a bug in blacklst.c that could result in unbounded + heap growth during startup on machines that do not clear + memory obtained from the OS (e.g. win32S). +- Ported de editor to win32/win32S. (This is now the only + version with a mouse-sensitive UI.) +- Added GC_malloc_ignore_off_page to allocate large arrays + in the presence of ALL_INTERIOR_POINTERS. +- Changed GC_call_with_alloc_lock to not disable signals in + the single-threaded case. +- Reduced retry count in GC_collect_or_expand for garbage + collecting when out of memory. +- Made uncollectable allocations bypass black-listing, as they + should. +- Fixed a bug in typed_test in test.c that could cause (legitimate) + GC crashes. +- Fixed some potential synchronization problems in finalize.c +- Fixed a real locking problem in typd_mlc.c. +- Worked around an AIX 3.2 compiler feature that results in + out of bounds memory references. +- Partially worked around an IRIX5.2 beta problem (which may + or may not persist to the final release). +- Fixed a bug in the heap integrity checking code that could + result in explicitly deallocated objects being identified as + smashed. Fixed a bug in the dbg_mlc stack saving code + that caused old argument pointers to be considered live. +- Fixed a bug in CORD_ncmp (and hence CORD_str). +- Repaired the OS2 port, which had suffered from bit rot + in 4.0. Worked around what appears to be CSet/2 V1.0 + optimizer bug. +- Fixed a Makefile bug for target "c++". + +Since version 4.1: +- Multiple bug fixes/workarounds in the Solaris threads version. + (It occasionally failed to locate some register contents for + marking. It also turns out that thr_suspend and friends are + unreliable in Solaris 2.3. Dirty bit reads appear + to be unreliable under some weird + circumstances. My stack marking code + contained a serious performance bug. The new code is + extremely defensive, and has not failed in several cpu + hours of testing. But no guarantees ...) +- Added MacOS support (thanks to Patrick Beard.) +- Fixed several syntactic bugs in gc_c++.h and friends. (These + didn't bother g++, but did bother most other compilers.) + Fixed gc_c++.h finalization interface. (It didn't.) +- 64 bit alignment for allocated objects was not guaranteed in a + few cases in which it should have been. +- Added GC_malloc_atomic_ignore_off_page. +- Added GC_collect_a_little. +- Added some prototypes to gc.h. +- Some other minor bug fixes (notably in Makefile). +- Fixed OS/2 / EMX port (thanks to Ari Huttunen). +- Fixed AmigaDOS port. (thanks to Michel Schinz). +- Fixed the DATASTART definition under Solaris. There + was a 1 in 16K chance of the collector missing the first + 64K of static data (and thus crashing). +- Fixed some blatant anachronisms in the README file. +- Fixed PCR-Makefile for upcoming PPCR release. + +Since version 4.2: +- Fixed SPARC alignment problem with GC_DEBUG. +- Fixed Solaris threads /proc workaround. The real + problem was an interaction with mprotect. +- Incorporated fix from Patrick Beard for gc_c++.h (now gc_cpp.h). +- Slightly improved allocator space utilization by + fixing the GC_size_map mechanism. +- Integrated some Sony News and MIPS RISCos 4.51 + patches. (Thanks to Nobuyuki Hikichi of + Software Research Associates, Inc. Japan) +- Fixed HP_PA alignment problem. (Thanks to + xjam@cork.cs.berkeley.edu.) +- Added GC_same_obj and friends. Changed GC_base + to return 0 for pointers past the end of large objects. + Improved GC_base performance with ALL_INTERIOR_POINTERS + on machines with a slow integer mod operation. + Added GC_PTR_ADD, GC_PTR_STORE, etc. to prepare + for preprocessor. +- changed the default on most UNIX machines to be that + signals are not disabled during critical GC operations. + This is still ANSI-conforming, though somewhat dangerous + in the presence of signal handlers. But the performance + cost of the alternative is sometimes problematic. + Can be changed back with a minor Makefile edit. +- renamed IS_STRING in gc.h, to CORD_IS_STRING, thus + following my own naming convention. Added the function + CORD_to_const_char_star. +- Fixed a gross bug in GC_finalize. Symptom: occasional + address faults in that function. (Thanks to Anselm + Baird-Smith (Anselm.BairdSmith@inria.fr) +- Added port to ICL DRS6000 running DRS/NX. Restructured + things a bit to factor out common code, and remove obsolete + code. Collector should now run under SUNOS5 with either + mprotect or /proc dirty bits. (Thanks to Douglas Steel + (doug@wg.icl.co.uk)). +- More bug fixes and workarounds for Solaris 2.X. (These were + mostly related to putting the collector in a dynamic library, + which didn't really work before. Also SOLARIS_THREADS + didn't interact well with dl_open.) Thanks to btlewis@eng.sun.com. +- Fixed a serious performance bug on the DEC Alpha. The text + segment was getting registered as part of the root set. + (Amazingly, the result was still fast enough that the bug + was not conspicuous.) The fix works on OSF/1, version 1.3. + Hopefully it also works on other versions of OSF/1 ... +- Fixed a bug in GC_clear_roots. +- Fixed a bug in GC_generic_malloc_words_small that broke + gc_inl.h. (Reported by Antoine de Maricourt. I broke it + in trying to tweak the Mac port.) +- Fixed some problems with cord/de under Linux. +- Fixed some cord problems, notably with CORD_riter4. +- Added DG/UX port. + Thanks to Ben A. Mesander (ben@piglet.cr.usgs.gov) +- Added finalization registration routines with weaker ordering + constraints. (This is necessary for C++ finalization with + multiple inheritance, since the compiler often adds self-cycles.) +- Filled the holes in the SCO port. (Thanks to Michael Arnoldus + <chime@proinf.dk>.) +- John Ellis' additions to the C++ support: From John: + +* I completely rewrote the documentation in the interface gc_c++.h +(later renamed gc_cpp.h). I've tried to make it both clearer and more +precise. + +* The definition of accessibility now ignores pointers from an +finalizable object (an object with a clean-up function) to itself. +This allows objects with virtual base classes to be finalizable by the +collector. Compilers typically implement virtual base classes using +pointers from an object to itself, which under the old definition of +accessibility prevented objects with virtual base classes from ever +being collected or finalized. + +* gc_cleanup now includes gc as a virtual base. This was enabled by +the change in the definition of accessibility. + +* I added support for operator new[]. Since most (all?) compilers +don't yet support operator new[], it is conditionalized on +-DOPERATOR_NEW_ARRAY. The code is untested, but its trivial and looks +correct. + +* The test program test_gc_c++ (later renamed test_cpp.cc) +tries to test for the C++-specific functionality not tested by the +other programs. +- Added <unistd.h> include to misc.c. (Needed for ppcr.) +- Added PowerMac port. (Thanks to Patrick Beard again.) +- Fixed "srcdir"-related Makefile problems. Changed things so + that all externally visible include files always appear in the + include subdirectory of the source. Made gc.h directly + includable from C++ code. (These were at Per + Bothner's suggestion.) +- Changed Intel code to also mark from ebp (Kevin Warne's + suggestion). +- Renamed C++ related files so they could live in a FAT + file system. (Charles Fiterman's suggestion.) +- Changed Windows NT Makefile to include C++ support in + gc.lib. Added C++ test as Makefile target. + +Since version 4.3: + - ASM_CLEAR_CODE was erroneously defined for HP + PA machines, resulting in a compile error. + - Fixed OS/2 Makefile to create a library. (Thanks to + Mark Boulter (mboulter@vnet.ibm.com)). + - Gc_cleanup objects didn't work if they were created on + the stack. Fixed. + - One copy of Gc_cpp.h in the distribution was out of + synch, and failed to document some known compiler + problems with explicit destructor invocation. Partially + fixed. There are probably other compilers on which + gc_cleanup is miscompiled. + - Fixed Makefile to pass C compiler flags to C++ compiler. + - Added Mac fixes. + - Fixed os_dep.c to work around what appears to be + a new and different VirtualQuery bug under newer + versions of win32S. + - GC_non_gc_bytes was not correctly maintained by + GC_free. Fixed. Thanks to James Clark (jjc@jclark.com). + - Added GC_set_max_heap_size. + - Changed allocation code to ignore blacklisting if it is preventing + use of a very large block of memory. This has the advantage + that naive code allocating very large objects is much more + likely to work. The downside is you might no + longer find out that such code should really use + GC_malloc_ignore_off_page. + - Changed GC_printf under win32 to close and reopen the file + between calls. FAT file systems otherwise make the log file + useless for debugging. + - Added GC_try_to_collect and GC_get_bytes_since_gc. These + allow starting an abortable collection during idle times. + This facility does not require special OS support. (Thanks to + Michael Spertus of Geodesic Systems for suggesting this. It was + actually an easy addition. Kumar Srikantan previously added a similar + facility to a now ancient version of the collector. At the time + this was much harder, and the result was less convincing.) + - Added some support for the Borland development environment. (Thanks + to John Ellis and Michael Spertus.) + - Removed a misfeature from checksums.c that caused unexpected + heap growth. (Thanks to Scott Schwartz.) + - Changed finalize.c to call WARN if it encounters a finalization cycle. + WARN is defined in gc_priv.h to write a message, usually to stdout. + In many environments, this may be inappropriate. + - Renamed NO_PARAMS in gc.h to GC_NO_PARAMS, thus adhering to my own + naming convention. + - Added GC_set_warn_proc to intercept warnings. + - Fixed Amiga port. (Thanks to Michel Schinz (schinz@alphanet.ch).) + - Fixed a bug in mark.c that could result in an access to unmapped + memory from GC_mark_from_mark_stack on machines with unaligned + pointers. + - Fixed a win32 specific performance bug that could result in scanning of + objects allocated with the system malloc. + - Added REDIRECT_MALLOC. + +Since version 4.4: + - Fixed many minor and one major README bugs. (Thanks to Franklin Chen + (chen@adi.com) for pointing out many of them.) + - Fixed ALPHA/OSF/1 dynamic library support. (Thanks to Jonathan Bachrach + (jonathan@harlequin.com)). + - Added incremental GC support (MPROTECT_VDB) for Linux (with some + help from Bruno Haible). + - Altered SPARC recognition tests in gc.h and config.h (mostly as + suggested by Fergus Henderson). + - Added basic incremental GC support for win32, as implemented by + Windows NT and Windows 95. GC_enable_incremental is a noop + under win32s, which doesn't implement enough of the VM interface. + - Added -DLARGE_CONFIG. + - Fixed GC_..._ignore_off_page to also function without + -DALL_INTERIOR_POINTERS. + - (Hopefully) fixed RS/6000 port. (Only the test was broken.) + - Fixed a performance bug in the nonincremental collector running + on machines supporting incremental collection with MPROTECT_VDB + (e.g. SunOS 4, DEC AXP). This turned into a correctness bug under + win32s with win32 incremental collection. (Not all memory protection + was disabled.) + - Fixed some ppcr related bit rot. + - Caused dynamic libraries to be unregistered before reregistering. + The old way turned out to be a performance bug on some machines. + - GC_root_size was not properly maintained under MSWIN32. + - Added -DNO_DEBUGGING and GC_dump. + - Fixed a couple of bugs arising with SOLARIS_THREADS + + REDIRECT_MALLOC. + - Added NetBSD/M68K port. (Thanks to Peter Seebach + <seebs@taniemarie.solon.com>.) + - Fixed a serious realloc bug. For certain object sizes, the collector + wouldn't scan the expanded part of the object. (Thanks to Clay Spence + (cds@peanut.sarnoff.com) for noticing the problem, and helping me to + track it down.) + +Since version 4.5: + - Added Linux ELF support. (Thanks to Arrigo Triulzi <arrigo@ic.ac.uk>.) + - GC_base crashed if it was called before any other GC_ routines. + This could happen if a gc_cleanup object was allocated outside the heap + before any heap allocation. + - The heap expansion heuristic was not stable if all objects had finalization + enabled. Fixed finalize.c to count memory in finalization queue and + avoid explicit deallocation. Changed alloc.c to also consider this count. + (This is still not recommended. It's expensive if nothing else.) Thanks + to John Ellis for pointing this out. + - GC_malloc_uncollectable(0) was broken. Thanks to Phong Vo for pointing + this out. + - The collector didn't compile under Linux 1.3.X. (Thanks to Fred Gilham for + pointing this out.) The current workaround is ugly, but expected to be + temporary. + - Fixed a formatting problem for SPARC stack traces. + - Fixed some '=='s in os_dep.c that should have been assignments. + Fortunately these were in code that should never be executed anyway. + (Thanks to Fergus Henderson.) + - Fixed the heap block allocator to only drop blacklisted blocks in small + chunks. Made BL_LIMIT self adjusting. (Both of these were in response + to heap growth observed by Paul Graham.) + - Fixed the Metrowerks/68K Mac code to also mark from a6. (Thanks + to Patrick Beard.) + - Significantly updated README.debugging. + - Fixed some problems with longjmps out of signal handlers, especially under + Solaris. Added a workaround for the fact that siglongjmp doesn't appear to + do the right thing with -lthread under Solaris. + - Added MSDOS/djgpp port. (Thanks to Mitch Harris (maharri@uiuc.edu).) + - Added "make reserved_namespace" and "make user_namespace". The + first renames ALL "GC_xxx" identifiers as "_GC_xxx". The second is the + inverse transformation. Note that doing this is guaranteed to break all + clients written for the other names. + - descriptor field for kind NORMAL in GC_obj_kinds with ADD_BYTE_AT_END + defined should be -ALIGNMENT not WORDS_TO_BYTES(-1). This is + a serious bug on machines with pointer alignment of less than a word. + - GC_ignore_self_finalize_mark_proc didn't handle pointers to very near the + end of the object correctly. Caused failures of the C++ test on a DEC Alpha + with g++. + - gc_inl.h still had problems. Partially fixed. Added warnings at the + beginning to hopefully specify the remaining dangers. + - Added DATAEND definition to config.h. + - Fixed some of the .h file organization. Fixed "make floppy". + +Since version 4.6: + - Fixed some compilation problems with -DCHECKSUMS (thanks to Ian Searle) + - Updated some Mac specific files to synchronize with Patrick Beard. + - Fixed a serious bug for machines with non-word-aligned pointers. + (Thanks to Patrick Beard for pointing out the problem. The collector + should fail almost any conceivable test immediately on such machines.) + +Since version 4.7: + - Changed a "comment" in a MacOS specific part of mach-dep.c that caused + gcc to fail on other platforms. + +Since version 4.8 + - More README.debugging fixes. + - Objects ready for finalization, but not finalized in the same GC + cycle, could be prematurely collected. This occasionally happened + in test_cpp. + - Too little memory was obtained from the system for very large + objects. That could cause a heap explosion if these objects were + not contiguous (e.g. under PCR), and too much of them was blacklisted. + - Due to an improper initialization, the collector was too hesitant to + allocate blacklisted objects immediately after system startup. + - Moved GC_arrays from the data into the bss segment by not explicitly + initializing it to zero. This significantly + reduces the size of executables, and probably avoids some disk accesses + on program startup. It's conceivable that it might break a port that I + didn't test. + - Fixed EMX_MAKEFILE to reflect the gc_c++.h to gc_cpp.h renaming which + occurred a while ago. + +Since 4.9: + - Fixed a typo around a call to GC_collect_or_expand in alloc.c. It broke + handling of out of memory. (Thanks to Patrick Beard for noticing.) + +Since 4.10: + - Rationalized (hopefully) GC_try_to_collect in an incremental collection + environment. It appeared to not handle a call while a collection was in + progress, and was otherwise too conservative. + - Merged GC_reclaim_or_delete_all into GC_reclaim_all to get rid of some + code. + - Added Patrick Beard's Mac fixes, with substantial completely untested + modifications. + - Fixed the MPROTECT_VDB code to deal with large pages and imprecise + fault addresses (as on an UltraSPARC running Solaris 2.5). Note that this + was not a problem in the default configuration, which uses PROC_VDB. + - The DEC Alpha assembly code needed to restore $gp between calls. + Thanks to Fergus Henderson for tracking this down and supplying a + patch. + - The write command for "de" was completely broken for large files. + I used the easiest portable fix, which involved changing the semantics + so that f.new is written instead of overwriting f. That's safer anyway. + - Added README.solaris2 with a discussion of the possible problems of + mixing the collector's sbrk allocation with malloc/realloc. + - Changed the data segment starting address for SGI machines. The + old code failed under IRIX6. + - Required double word alignment for MIPS. + - Various minor fixes to remove warnings. + - Attempted to fix some Solaris threads problems reported by Zhiying Chen. + In particular, the collector could try to fork a thread with the + world stopped as part of GC_thr_init. It also failed to deal with + the case in which the original thread terminated before the whole + process did. + - Added -DNO_EXECUTE_PERMISSION. This has a major performance impact + on the incremental collector under Irix, and perhaps under other + operating systems. + - Added some code to support allocating the heap with mmap. This may + be preferable under some circumstances. + - Integrated dynamic library support for HP. + (Thanks to Knut Tvedten <knuttv@ifi.uio.no>.) + - Integrated James Clark's win32 threads support, and made a number + of changes to it, many of which were suggested by Pontus Rydin. + This is still not 100% solid. + - Integrated Alistair Crooks' support for UTS4 running on an Amdahl + 370-class machine. + - Fixed a serious bug in explicitly typed allocation. Objects requiring + large descriptors where handled in a way that usually resulted in + a segmentation fault in the marker. (Thanks to Jeremy Fitzhardinge + for helping to track this down.) + - Added partial support for GNU win32 development. (Thanks to Fergus + Henderson.) + - Added optional support for Java-style finalization semantics. (Thanks + to Patrick Bridges.) This is recommended only for Java implementations. + - GC_malloc_uncollectable faulted instead of returning 0 when out of + memory. (Thanks to dan@math.uiuc.edu for noticing.) + - Calls to GC_base before the collector was initialized failed on a + DEC Alpha. (Thanks to Matthew Flatt.) + - Added base pointer checking to GC_REGISTER_FINALIZER in debugging + mode, at the suggestion of Jeremy Fitzhardinge. + - GC_debug_realloc failed for uncollectable objects. (Thanks to + Jeremy Fitzhardinge.) + - Explicitly typed allocation could crash if it ran out of memory. + (Thanks to Jeremy Fitzhardinge.) + - Added minimal support for a DEC Alpha running Linux. + - Fixed a problem with allocation of objects whose size overflowed + ptrdiff_t. (This now fails unconditionally, as it should.) + - Added the beginning of Irix pthread support. + - Integrated Xiaokun Zhu's fixes for djgpp 2.01. + - Added SGI-style STL allocator support (gc_alloc.h). + - Fixed a serious bug in README.solaris2. Multithreaded programs must include + gc.h with SOLARIS_THREADS defined. + - Changed GC_free so it actually deallocates uncollectable objects. + (Thanks to Peter Chubb for pointing out the problem.) + - Added Linux ELF support for dynamic libararies. (Thanks again to + Patrick Bridges.) + - Changed the Borland cc configuration so that the assembler is not + required. + - Fixed a bug in the C++ test that caused it to fail in 64-bit + environments. + +Since 4.11: + - Fixed ElfW definition in dyn_load.c. (Thanks to Fergus Henderson.) + This prevented the dynamic library support from compiling on some + older ELF Linux systems. + - Fixed UTS4 port (which I apparently mangled during the integration) + (Thanks to again to Alistair Crooks.) + - "Make C++" failed on Suns with SC4.0, due to a problem with "bool". + Fixed in gc_priv.h. + - Added more pieces for GNU win32. (Thanks to Timothy N. Newsham.) + The current state of things should suffice for at least some + applications. + - Changed the out of memory retry count handling as suggested by + Kenjiro Taura. (This matters only if GC_max_retries > 0, which + is no longer the default.) + - If a /proc read failed repeatedly, GC_written_pages was not updated + correctly. (Thanks to Peter Chubb for diagnosing this.) + - Under unlikely circumstances, the allocator could infinite loop in + an out of memory situation. (Thanks again to Kenjiro Taura for + identifying the problem and supplying a fix.) + - Fixed a syntactic error in the DJGPP code. (Thanks to Fergus + Henderson for finding this by inspection.) Also fixed a test program + problem with DJGPP (Thanks to Peter Monks.) + - Atomic uncollectable objects were not treated correctly by the + incremental collector. This resulted in weird log statistics and + occasional performance problems. (Thanks to Peter Chubb for pointing + this out.) + - Fixed some problems resulting from compilers that dont define + __STDC__. In this case void * and char * were used inconsistently + in some cases. (Void * should not have been used at all. If + you have an ANSI superset compiler that does not define __STDC__, + please compile with -D__STDC__=0. Thanks to Manuel Serrano and others + for pointing out the problem.) + - Fixed a compilation problem on Irix with -n32 and -DIRIX_THREADS. + Also fixed some other IRIX_THREADS problems which may or may not have + had observable symptoms. + - Fixed an HP PA compilation problem in dyn_load.c. (Thanks to + Philippe Queinnec.) + - SEGV fault handlers sometimes did not get reset correctly. (Thanks + to David Pickens.) + - Added a fix for SOLARIS_THREADS on Intel. (Thanks again to David + Pickens.) This probably needs more work to become functional. + - Fixed struct sigcontext_struct in os_dep.c for compilation under + Linux 2.1.X. (Thanks to Fergus Henderson.) + - Changed the DJGPP STACKBOTTOM and DATASTART values to those suggested + by Kristian Kristensen. These may still not be right, but it is + it is likely to work more often than what was there before. They may + even be exactly right. + - Added a #include <string.h> to test_cpp.cc. This appears to help + with HP/UX and gcc. (Thanks to assar@sics.se.) + - Version 4.11 failed to run in incremental mode on recent 64-bit Irix + kernels. This was a problem related to page unaligned heap segments. + Changed the code to page align heap sections on all platforms. + (I had mistakenly identified this as a kernel problem earlier. + It was not.) + - Version 4.11 did not make allocated storage executable, except on + one or two platforms, due to a bug in a #if test. (Thanks to Dave + Grove for pointing this out.) + - Added sparc_sunos4_mach_dep.s to support Sun's compilers under SunOS4. + - Added GC_exclude_static_roots. + - Fixed the object size mapping algorithm. This shouldn't matter, + but the old code was ugly. + - Heap checking code could die if one of the allocated objects was + larger than its base address. (Unsigned underflow problem. Thanks + to Clay Spence for isolating the problem.) + - Added RS6000 (AIX) dynamic library support and fixed STACK_BOTTOM. + (Thanks to Fred Stearns.) + - Added Fergus Henderson's patches for improved robustness with large + heaps and lots of blacklisting. + - Added Peter Chubb's changes to support Solaris Pthreads, to support + MMAP allocation in Solaris, to allow Solaris to find dynamic libraries + through /proc, to add malloc_typed_ignore_off_page, and a few other + minor features and bug fixes. + - The Solaris 2 port should not use sbrk. I received confirmation from + Sun that the use of sbrk and malloc in the same program is not + supported. The collector now defines USE_MMAP by default on Solaris. + - Replaced the djgpp makefile with Gary Leavens' version. + - Fixed MSWIN32 detection test. + - Added Fergus Henderson's patches to allow putting the collector into + a DLL under GNU win32. + - Added Ivan V. Demakov's port to Watcom C on X86. + - Added Ian Piumarta's Linux/PowerPC port. + - On Brian Burton's suggestion added PointerFreeGC to the placement + options in gc_cpp.h. This is of course unsafe, and may be controversial. + On the other hand, it seems to be needed often enough that it's worth + adding as a standard facility. + +Since 4.12: + - Fixed a crucial bug in the Watcom port. There was a redundant decl + of GC_push_one in gc_priv.h. + - Added FINALIZE_ON_DEMAND. + - Fixed some pre-ANSI cc problems in test.c. + - Removed getpagesize() use for Solaris. It seems to be missing in one + or two versions. + - Fixed bool handling for SPARCCompiler version 4.2. + - Fixed some files in include that had gotten unlinked from the main + copy. + - Some RS/6000 fixes (missing casts). Thanks to Toralf Foerster. + - Fixed several problems in GC_debug_realloc, affecting mostly the + FIND_LEAK case. + - GC_exclude_static_roots contained a buggy unsigned comparison to + terminate a loop. (Thanks to Wilson Ho.) + - CORD_str failed if the substring occurred at the last possible position. + (Only affects cord users.) + - Fixed Linux code to deal with RedHat 5.0 and integrated Peter Bigot's + os_dep.c code for dealing with various Linux versions. + - Added workaround for Irix pthreads sigaction bug and possible signal + misdirection problems. +Since alpha1: + - Changed RS6000 STACKBOTTOM. + - Integrated Patrick Beard's Mac changes. + - Alpha1 didn't compile on Irix m.n, m < 6. + - Replaced Makefile.dj with a new one from Gary Leavens. + - Added Andrew Stitcher's changes to support SCO OpenServer. + - Added PRINT_BLACK_LIST, to allow debugging of high densities of false + pointers. + - Added code to debug allocator to keep track of return address + in GC_malloc caller, thus giving a bit more context. + - Changed default behavior of large block allocator to more + aggressively avoid fragmentation. This is likely to slow down the + collector when it succeeds at reducing space cost. + - Integrated Fergus Henderson's CYGWIN32 changes. They are untested, + but needed for newer versions. + - USE_MMAP had some serious bugs. This caused the collector to fail + consistently on Solaris with -DSMALL_CONFIG. + - Added Linux threads support, thanks largely to Fergus Henderson. +Since alpha2: + - Fixed more Linux threads problems. + - Changed default GC_free_space_divisor to 3 with new large block allocation. + (Thanks to Matthew Flatt for some measurements that suggest the old + value sometimes favors space too much over time.) + - More CYGWIN32 fixes. + - Integrated Tyson-Dowd's Linux-M68K port. + - Minor HP PA and DEC UNIX fixes from Fergus Henderson. + - Integrated Christoffe Raffali's Linux-SPARC changes. + - Allowed for one more GC fixup iteration after a full GC in incremental + mode. Some quick measurements suggested that this significantly + reduces pause times even with smaller GC_RATE values. + - Moved some more GC data structures into GC_arrays. This decreases + pause times and GC overhead, but makes debugging slightly less convenient. + - Fixed namespace pollution problem ("excl_table"). + - Made GC_incremental a constant for -DSMALL_CONFIG, hopefully shrinking + that slightly. + - Added some win32 threads fixes. + - Integrated Ivan Demakov and David Stes' Watcom fixes. + - Various other minor fixes contributed by many people. + - Renamed config.h to gcconfig.h, since config.h tends to be used for + many other things. + - Integrated Matthew Flatt's support for 68K MacOS "far globals". + - Fixed up some of the dynamic library Makefile targets for consistency + across platforms. + - Fixed a USE_MMAP typo that caused out-of-memory handling to fail + on Solaris. + - Added code to test.c to test thread creation a bit more. + - Integrated GC_win32_free_heap, as suggested by Ivan Demakov. + - Fixed Solaris 2.7 stack base finding problem. (This may actually + have been done in an earlier alpha release.) +Since alpha3: + - Fixed MSWIN32 recognition test, which interfered with cygwin. + - Removed unnecessary gc_watcom.asm from distribution. Removed + some obsolete README.win32 text. + - Added Alpha Linux incremental GC support. (Thanks to Philipp Tomsich + for code for retrieving the fault address in a signal handler.) + Changed Linux signal handler context argument to be a pointer. + - Took care of some new warnings generated by the 7.3 SGI compiler. + - Integrated Phillip Musumeci's FreeBSD/ELF fixes. + - -DIRIX_THREADS was broken with the -o32 ABI (typo in gc_priv.h> + +Since 4.13: + - Fixed GC_print_source_ptr to not use a prototype. + - generalized CYGWIN test. + - gc::new did the wrong thing with PointerFreeGC placement. + (Thanks to Rauli Ruohonen.) + - In the ALL_INTERIOR_POINTERS (default) case, some callee-save register + values could fail to be scanned if the register was saved and + reused in a GC frame. This showed up in verbose mode with gctest + compiled with an unreleased SGI compiler. I vaguely recall an old + bug report that may have been related. The bug was probably quite old. + (The problem was that the stack scanning could be deferred until + after the relevant frame was overwritten, and the new save location + might be outside the scanned area. Fixed by more eager stack scanning.) + - PRINT_BLACK_LIST had some problems. A few source addresses were garbage. + - Replaced Makefile.dj and added -I flags to cord make targets. + (Thanks to Gary Leavens.) + - GC_try_to_collect was broken with the nonincremental collector. + - gc_cleanup destructors could pass the wrong address to + GC_register_finalizer_ignore_self in the presence of multiple + inheritance. (Thanks to Darrell Schiebel.) + - Changed PowerPC Linux stack finding code. + +Since 4.14alpha1 + - -DSMALL_CONFIG did not work reliably with large (> 4K) pages. + Recycling the mark stack during expansion could result in a size + zero heap segment, which confused things. (This was probably also an + issue with the normal config and huge pages.) + - Did more work to make sure that callee-save registers were scanned + completely, even with the setjmp-based code. Added USE_GENERIC_PUSH_REGS + macro to facilitate testing on machines I have access to. + - Added code to explicitly push register contents for win32 threads. + This seems to be necessary. (Thanks to Pierre de Rop.) + +Since 4.14alpha2 + - changed STACKBOTTOM for DJGPP (Thanks to Salvador Eduardo Tropea). + +Since 4.14 + - Reworked large block allocator. Now uses multiple doubly linked free + lists to approximate best fit. + - Changed heap expansion heuristic. Entirely free blocks are no longer + counted towards the heap size. This seems to have a major impact on + heap size stability; the old version could expand the heap way too + much in the presence of large block fragmentation. + - added -DGC_ASSERTIONS and some simple assertions inside the collector. + This is mainlyt for collector debugging. + - added -DUSE_MUNMAP to allow the heap to shrink. Suupported on only + a few UNIX-like platforms for now. + - added GC_dump_regions() for debugging of fragmentation issues. + - Changed PowerPC pointer alignment under Linux to 4. (This needs + checking by someone who has one. The suggestions came to me via a + rather circuitous path.) + - Changed the Linux/Alpha port to walk the data segment backwards until + it encounters a SIGSEGV. The old way to find the start of the data + segment broke with a recent release. + - cordxtra.c needed to call GC_REGISTER_FINALIZER instead of + GC_register_finalizer, so that it would continue to work with GC_DEBUG. + - allochblk sometimes cleared the wrong block for debugging purposes + when it dropped blacklisted blocks. This could result in spurious + error reports with GC_DEBUG. + - added MACOS X Server support. (Thanks to Andrew Stone.) + - Changed the Solaris threads code to ignore stack limits > 8 MB with + a warning. Empirically, it is not safe to access arbitrary pages + in such large stacks. And the dirty bit implementation does not + guarantee that none of them will be accessed. + - Integrated Martin Tauchmann's Amiga changes. + - Integrated James Dominy's OpenBSD/SPARC port. + +Since 5.0alpha1 + - Fixed bugs introduced in alpha1 (OpenBSD & large block initialization). + - Added -DKEEP_BACK_PTRS and backptr.h interface. (The implementation + idea came from Al Demers.) + +Since 5.0alpha2 + - Added some highly incomplete code to support a copied young generation. + Comments on nursery.h are appreciated. + - Changed -DFIND_LEAK, -DJAVA_FINALIZATION, and -DFINALIZE_ON_DEMAND, + so the same effect could be obtained with a runtime switch. This is + a step towards standardizing on a single dynamic GC library. + - Significantly changed the way leak detection is handled, as a consequence + of the above. + +To do: + - Very large root set sizes (> 16 MB or so) could cause the collector + to abort with an unexpected mark stack overflow. (Thanks again to + Peter Chubb.) NOT YET FIXED. Workaround is to increase the initial + size. + - The SGI version of the collector marks from mmapped pages, even + if they are not part of dynamic library static data areas. This + causes performance problems with some SGI libraries that use mmap + as a bitmap allocator. NOT YET FIXED. It may be possible to turn + off DYNAMIC_LOADING in the collector as a workaround. It may also + be possible to conditionally intercept mmap and use GC_exclude_static_roots. + The real fix is to walk rld data structures, which looks possible. + - Integrate MIT and DEC pthreads ports. + - Deal with very uneven black-listing distributions. If all the black listed + blocks reside in the newly allocated heap section, the heuristic for + temporarily ignoring black-listing fails, and the heap grows too much. + (This was observed in only one case, and could be worked around, but ...) + - Some platform specific updates are waiting for 4.15alpha1. diff --git a/gc/README.Mac b/gc/README.Mac new file mode 100644 index 0000000..04f4682 --- /dev/null +++ b/gc/README.Mac @@ -0,0 +1,385 @@ +Patrick Beard's Notes for building GC v4.12 with CodeWarrior Pro 2: +---------------------------------------------------------------------------- +The current build environment for the collector is CodeWarrior Pro 2. +Projects for CodeWarrior Pro 2 (and for quite a few older versions) +are distributed in the file Mac_projects.sit.hqx. The project file +:Mac_projects:gc.prj builds static library versions of the collector. +:Mac_projects:gctest.prj builds the GC test suite. + +Configuring the collector is still done by editing the files +:Mac_files:MacOS_config.h and :Mac_files:MacOS_Test_config.h. + +Lars Farm's suggestions on building the collector: +---------------------------------------------------------------------------- +Garbage Collection on MacOS - a manual 'MakeFile' +------------------------------------------------- + +Project files and IDE's are great on the Macintosh, but they do have +problems when used as distribution media. This note tries to provide +porting instructions in pure TEXT form to avoid those problems. A manual +'makefile' if you like. + + GC version: 4.12a2 + Codewarrior: CWPro1 + date: 18 July 1997 + +The notes may or may not apply to earlier or later versions of the +GC/CWPro. Actually, they do apply to earlier versions of both except that +until recently a project could only build one target so each target was a +separate project. The notes will most likely apply to future versions too. +Possibly with minor tweaks. + +This is just to record my experiences. These notes do not mean I now +provide a supported port of the GC to MacOS. It works for me. If it works +for you, great. If it doesn't, sorry, try again...;-) Still, if you find +errors, please let me know. + + mailto: lars.farm@ite.mh.se + + address: Lars Farm + Krönvägen 33b + 856 44 Sundsvall + Sweden + +Porting to MacOS is a bit more complex than it first seems. Which MacOS? +68K/PowerPC? Which compiler? Each supports both 68K and PowerPC and offer a +large number of (unique to each environment) compiler settings. Each +combination of compiler/68K/PPC/settings require a unique combination of +standard libraries. And the IDE's does not select them for you. They don't +even check that the library is built with compatible setting and this is +the major source of problems when porting the GC (and otherwise too). + +You will have to make choices when you configure the GC. I've made some +choices here, but there are other combinations of settings and #defines +that work too. + +As for target settings the major obstacles may be: +- 68K Processor: check "4-byte Ints". +- PPC Processor: uncheck "Store Static Data in TOC". + +What you need to do: +=================== + +1) Build the GC as a library +2) Test that the library works with 'test.c'. +3) Test that the C++ interface 'gc_cpp.cc/h' works with 'test_cpp.cc'. + +1) The Libraries: +================= +I made one project with four targets (68K/PPC tempmem or appheap). One target +will suffice if you're able to decide which one you want. I wasn't... + +Codewarrior allows a large number of compiler/linker settings. I used these: + +Settings shared by all targets: +------------------------------ +o Access Paths: + - User Paths: the GC folder + - System Paths: {Compiler}:Metrowerks Standard Library: + {Compiler}:MacOS Support:Headers: + {Compiler}:MacOS Support:MacHeaders: +o C/C++ language: + - inlining: normal + - direct to SOM: off + - enable/check: exceptions, RTTI, bool (and if you like pool strings) + +PowerPC target settings +----------------------- +o Target Settings: + - name of target + - MacOS PPC Linker +o PPC Target + - name of library +o C/C++ language + - prefix file as described below +o PPC Processor + - Struct Alignment: PowerPC + - uncheck "Store Static Data in TOC" -- important! + I don't think the others matter, I use full optimization and its ok +o PPC Linker + - Factory Settings (SYM file with full paths, faster linking, dead-strip + static init, Main: __start) + + +68K target settings +------------------- +o Target Settings: + - name of target + - MacOS 68K Linker +o 68K Target + - name of library + - A5 relative data +o C/C++ language + - prefix file as described below +o 68K Processor + - Code model: smart + - Struct alignment: 68K + - FP: SANE + - enable 4-Byte Ints -- important! + I don't think the others matter. I selected... + - enable: 68020 + - enable: global register allocation +o IR Optimizer + - enable: Optimize Space, Optimize Speed + I suppose the others would work too, but haven't tried... +o 68K Linker + - Factory Settings (New Style MacsBug,SYM file with full paths, + A6 Frames, fast link, Merge compiler glue into segment 1, + dead-strip static init) + +Prefix Files to configure the GC sources +---------------------------------------- +The Codewarrior equivalent of commandline compilers -DNAME=X is to use +prefix-files. A TEXT file that is automatically #included before the first byte +of every source file. I used these: + +---- ( cut here ) ---- gc_prefix_tempmem.h -- 68K and PPC ----- + #include "gc_prefix_common.h" + #undef USE_TEMPORARY_MEMORY + #define USE_TEMPORARY_MEMORY +---- ( cut here ) ---- gc_prefix_appmem.h -- 68K and PPC ----- + #include "gc_prefix_common.h" + #undef USE_TEMPORARY_MEMORY +// #define USE_TEMPORARY_MEMORY + +---- ( cut here ) ---- gc_prefix_common.h -------------------- +// gc_prefix_common.h +// ------------------ +// Codewarrior prefix file to configure the GC libraries +// +// prefix files are the Codewarrior equivalent of the +// command line option -Dname=x frequently seen in makefiles + +#if !__MWERKS__ + #error only tried this with Codewarrior +#endif + +#if macintosh + #define MSL_USE_PRECOMPILED_HEADERS 0 + #include <ansi_prefix.mac.h> + #ifndef __STDC__ + #define __STDC__ 0 + #endif + + // See list of #defines to configure the library in: 'MakeFile' + // see also README + + #define SILENT // no collection messages. In case + // of trouble you might want this off + #define ALL_INTERIOR_POINTERS // follows interior pointers. +//#define DONT_ADD_BYTE_AT_END // disables the padding if defined. +//#define SMALL_CONFIG // whether to use a smaller heap. + #define NO_SIGNALS // signals aren't real on the Macintosh. + #define ATOMIC_UNCOLLECTABLE // GC_malloc_atomic_uncollectable() + + // define either or none as per personal preference + // used in malloc.c + #define REDIRECT_MALLOC GC_malloc +//#define REDIRECT_MALLOC GC_malloc_uncollectable + // if REDIRECT_MALLOC is #defined make sure that the GC library + // is listed before the ANSI/ISO libs in the Codewarrior + // 'Link order' panel +//#define IGNORE_FREE + + // mac specific configs +//#define USE_TEMPORARY_MEMORY // use Macintosh temporary memory. +//#define SHARED_LIBRARY_BUILD // build for use in a shared library. + +#else + // could build Win32 here too, or in the future + // Rhapsody PPC-mach, Rhapsody PPC-MacOS, + // Rhapsody Intel-mach, Rhapsody Intel-Win32,... + // ... ugh this will get messy ... +#endif + +// make sure ints are at least 32-bit +// ( could be set to 16-bit by compiler settings (68K) ) + +struct gc_private_assert_intsize_{ char x[ sizeof(int)>=4 ? 1 : 0 ]; }; + +#if __powerc + #if __option(toc_data) + #error turn off "store static data in TOC" when using GC + // ... or find a way to add TOC to the root set...(?) + #endif +#endif +---- ( cut here ) ---- end of gc_prefix_common.h ----------------- + +Files to build the GC libraries: +-------------------------------- + allchblk.c + alloc.c + blacklst.c + checksums.c + dbg_mlc.c + finalize.c + headers.c + mach_dep.c + MacOS.c -- contains MacOS code + malloc.c + mallocx.c + mark.c + mark_rts.c + misc.c + new_hblk.c + obj_map.c + os_dep.c -- contains MacOS code + ptr_chck.c + reclaim.c + stubborn.c + typd_mlc.c + gc++.cc -- this is 'gc_cpp.cc' with less 'inline' and + -- throw std::bad_alloc when out of memory + -- gc_cpp.cc works just fine too + +2) Test that the library works with 'test.c'. +============================================= + +The test app is just an ordinary ANSI-C console app. Make sure settings +match the library you're testing. + +Files +----- + test.c + the GC library to test -- link order before ANSI libs + suitable Mac+ANSI libraries + +prefix: +------ +---- ( cut here ) ---- gc_prefix_testlib.h -- all libs ----- +#define MSL_USE_PRECOMPILED_HEADERS 0 +#include <ansi_prefix.mac.h> +#undef NDEBUG + +#define ALL_INTERIOR_POINTERS /* for GC_priv.h */ +---- ( cut here ) ---- + +3) Test that the C++ interface 'gc_cpp.cc/h' works with 'test_cpp.cc'. + +The test app is just an ordinary ANSI-C console app. Make sure settings match +the library you're testing. + +Files +----- + test_cpp.cc + the GC library to test -- link order before ANSI libs + suitable Mac+ANSI libraries + +prefix: +------ +same as for test.c + +For convenience I used one test-project with several targets so that all +test apps are build at once. Two for each library to test: test.c and +gc_app.cc. When I was satisfied that the libraries were ok. I put the +libraries + gc.h + the c++ interface-file in a folder that I then put into +the MSL hierarchy so that I don't have to alter access-paths in projects +that use the GC. + +After that, just add the proper GC library to your project and the GC is in +action! malloc will call GC_malloc and free GC_free, new/delete too. You +don't have to call free or delete. You may have to be a bit cautious about +delete if you're freeing other resources than RAM. See gc_cpp.h. You can +also keep coding as always with delete/free. That works too. If you want, +"include <gc.h> and tweak it's use a bit. + +Symantec SPM +============ +It has been a while since I tried the GC in SPM, but I think that the above +instructions should be sufficient to guide you through in SPM too. SPM +needs to know where the global data is. Use the files 'datastart.c' and +'dataend.c'. Put 'datastart.c' at the top of your project and 'dataend.c' +at the bottom of your project so that all data is surrounded. This is not +needed in Codewarrior because it provides intrinsic variables +__datastart__, __data_end__ that wraps all globals. + +Source Changes (GC 4.12a2) +========================== +Very few. Just one tiny in the GC, not strictly needed. +- MacOS.c line 131 in routine GC_MacFreeTemporaryMemory() + change # if !defined(SHARED_LIBRARY_BUILD) + to # if !defined(SILENT) && !defined(SHARED_LIBRARY_BUILD) + To turn off a message when the application quits (actually, I faked + this change by #defining SHARED_LIBRARY_BUILD in a statically linked + library for more than a year without ill effects but perhaps this is + better). + +- test_cpp.cc + made the first lines of main() look like this: + ------------ + int main( int argc, char* argv[] ) { + #endif + #if macintosh // MacOS + char* argv_[] = {"test_cpp","10"}; // doesn't + argv=argv_; // have a + argc = sizeof(argv_)/sizeof(argv_[0]); // commandline + #endif // + + int i, iters, n; + # ifndef __GNUC__ + alloc dummy_to_fool_the_compiler_into_doing_things_it_currently_cant_handle; + ------------ + +- config.h [now gcconfig.h] + __MWERKS__ does not have to mean MACOS. You can use Codewarrior to + build a Win32 or BeOS library and soon a Rhapsody library. You may + have to change that #if... + + + + It worked for me, hope it works for you. + + Lars Farm + 18 July 1997 +---------------------------------------------------------------------------- + + +Patrick Beard's instructions (may be dated): + +v4.3 of the collector now runs under Symantec C++/THINK C v7.0.4, and +Metrowerks C/C++ v4.5 both 68K and PowerPC. Project files are provided +to build and test the collector under both development systems. + +Configuration +------------- + +To configure the collector, under both development systems, a prefix file +is used to set preprocessor directives. This file is called "MacOS_config.h". +Also to test the collector, "MacOS_Test_config.h" is provided. + +Testing +------- + +To test the collector (always a good idea), build one of the gctest projects, +gctest.¹ (Symantec C++/THINK C), mw/gctest.68K.¹, or mw/gctest.PPC.¹. The +test will ask you how many times to run; 1 should be sufficient. + +Building +-------- + +For your convenience project files for the major Macintosh development +systems are provided. + +For Symantec C++/THINK C, you must build the two projects gclib-1.¹ and +gclib-2.¹. It has to be split up because the collector has more than 32k +of static data and no library can have more than this in the Symantec +environment. (Future versions will probably fix this.) + +For Metrowerks C/C++ 4.5 you build gc.68K.¹/gc.PPC.¹ and the result will +be a library called gc.68K.lib/gc.PPC.lib. + +Using +----- + +Under Symantec C++/THINK C, you can just add the gclib-1.¹ and gclib-2.¹ +projects to your own project. Under Metrowerks, you add gc.68K.lib or +gc.PPC.lib and two additional files. You add the files called datastart.c +and dataend.c to your project, bracketing all files that use the collector. +See mw/gctest.¹ for an example. + +Include the projects/libraries you built above into your own project, +#include "gc.h", and call GC_malloc. You don't have to call GC_free. + + +Patrick C. Beard +January 4, 1995 diff --git a/gc/README.OS2 b/gc/README.OS2 new file mode 100644 index 0000000..5345bbd --- /dev/null +++ b/gc/README.OS2 @@ -0,0 +1,6 @@ +The code assumes static linking, and a single thread. The editor de has +not been ported. The cord test program has. The supplied OS2_MAKEFILE +assumes the IBM C Set/2 environment, but the code shouldn't. + +Since we haven't figured out hoe to do perform partial links or to build static +libraries, clients currently need to link against a long list of executables. diff --git a/gc/README.QUICK b/gc/README.QUICK new file mode 100644 index 0000000..3273c8b --- /dev/null +++ b/gc/README.QUICK @@ -0,0 +1,41 @@ +Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers +Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + +Permission is hereby granted to use or copy this program +for any purpose, provided the above notices are retained on all copies. +Permission to modify the code and to distribute modified code is granted, +provided the above notices are retained, and a notice that the code was +modified is included with the above copyright notice. + + +For more details and the names of other contributors, see the +README file and gc.h. This file describes typical use of +the collector on a machine that is already supported. + +INSTALLATION: +Under UN*X, type "make test". Under OS/2 or Windows NT, copy the +appropriate makefile to MAKEFILE, read it, and type "nmake test". +Read the machine specific README if one exists. The only way to +develop code with the collector for Windows 3.1 is to develop under +Windows NT, and then to use win32S. + +If you wish to use the cord (structured string) library type +"make cords". (This requires an ANSI C compiler. You may need +to redefine CC in the Makefile.) + +If you wish to use the collector from C++, type +"make c++". These add further files to gc.a and to the include +subdirectory. See cord/cord.h and gc_c++.h. + +TYPICAL USE: +Include "gc.h" from this directory. Link against the appropriate library +("gc.a" under UN*X). Replace calls to malloc by calls to GC_MALLOC, +and calls to realloc by calls to GC_REALLOC. If the object is known +to never contain pointers, use GC_MALLOC_ATOMIC instead of +GC_MALLOC. + +Define GC_DEBUG before including gc.h for additional checking. + diff --git a/gc/README.alpha b/gc/README.alpha new file mode 100644 index 0000000..213a13e --- /dev/null +++ b/gc/README.alpha @@ -0,0 +1,22 @@ +Should work under OSF/1 and Linux. Currently no VMS or NT support, though +the latter shouldn't be hard. + +Incremental gc not yet supported under Linux because signal handler +for SIGSEGV can't get a hold of fault address. Dynamic library support +is also missing from Linux/alpha, probably for no good reason. + +Currently there is no thread support in the standard distribution. There +exists a separate port to DEC Unix pthreads. It should be possible to +port the X86 Linux threads support to Alpha without much trouble. + +If you get asssembler errors, be sure to read the first few lines of the +Makefile. + +From Philippe Queinnec: + +System: DEC/Alpha OSF1 v3.2, vendor cc +Problem: can't link if libgc has been compiled with "cc -std1". + It works if the library has been compiled with either gcc or "cc" + alone. The problem is because the variable "end" is not defined if + compiling in std1 mode (see man ld). +Proposed fix: none. Don't use cc -std1 ! diff --git a/gc/README.amiga b/gc/README.amiga new file mode 100644 index 0000000..47b1588 --- /dev/null +++ b/gc/README.amiga @@ -0,0 +1,180 @@ +=========================================================================== + Martin Tauchmann's notes (1-Apr-99) +=========================================================================== + +Works now, also with the GNU-C compiler V2.7.2.1. <ftp://ftp.unina.it/pub/amiga/geekgadgets/amiga/m68k/snapshots/971125/amiga-bin/> +Modify the `Makefile` +CC=cc $(ABI_FLAG) +to +CC=gcc $(ABI_FLAG) + +TECHNICAL NOTES + +- `GC_get_stack_base()`, `GC_register_data_segments()` works now with every + C compiler; also Workbench. + +- Removed AMIGA_SKIP_SEG, but the Code-Segment must not be scanned by GC. + + +PROBLEMS +- When the Linker, does`t merge all Code-Segments to an single one. LD of GCC + do it always. + +- With ixemul.library V47.3, when an GC program launched from another program + (example: `Make` or `if_mach M68K AMIGA gctest`), `GC_register_data_segments()` + found the Segment-List of the caller program. + Can be fixed, if the run-time initialization code (for C programs, usually *crt0*) + support `__data` and `__bss`. + +- PowerPC Amiga currently not supported. + +- Dynamic libraries (dyn_load.c) not supported. + + +TESTED WITH SOFTWARE + +`Optimized Oberon 2 C` (oo2c) <http://cognac.informatik.uni-kl.de/download/index.html> + + +TESTED WITH HARDWARE + +MC68030 + + +CONTACT + +Please, contact me at <martintauchmann@bigfoot.com>, when you change the +Amiga port. <http://martintauchmann.home.pages.de> + +=========================================================================== + Michel Schinz's notes +=========================================================================== +WHO DID WHAT + +The original Amiga port was made by Jesper Peterson. I (Michel Schinz) +modified it slightly to reflect the changes made in the new official +distributions, and to take advantage of the new SAS/C 6.x features. I also +created a makefile to compile the "cord" package (see the cord +subdirectory). + +TECHNICAL NOTES + +In addition to Jesper's notes, I have the following to say: + +- Starting with version 4.3, gctest checks to see if the code segment is + added to the root set or not, and complains if it is. Previous versions + of this Amiga port added the code segment to the root set, so I tried to + fix that. The only problem is that, as far as I know, it is impossible to + know which segments are code segments and which are data segments (there + are indeed solutions to this problem, like scanning the program on disk + or patch the LoadSeg functions, but they are rather complicated). The + solution I have chosen (see os_dep.c) is to test whether the program + counter is in the segment we are about to add to the root set, and if it + is, to skip the segment. The problems are that this solution is rather + awkward and that it works only for one code segment. This means that if + your program has more than one code segment, all of them but one will be + added to the root set. This isn't a big problem in fact, since the + collector will continue to work correctly, but it may be slower. + + Anyway, the code which decides whether to skip a segment or not can be + removed simply by not defining AMIGA_SKIP_SEG. But notice that if you do + so, gctest will complain (it will say that "GC_is_visible produced wrong + failure indication"). However, it may be useful if you happen to have + pointers stored in a code segment (you really shouldn't). + + If anyone has a good solution to the problem of finding, when a program + is loaded in memory, whether a segment is a code or a data segment, + please let me know. + +PROBLEMS + +If you have any problem with this version, please contact me at +schinz@alphanet.ch (but do *not* send long files, since we pay for +every mail!). + +=========================================================================== + Jesper Peterson's notes +=========================================================================== + +ADDITIONAL NOTES FOR AMIGA PORT + +These notes assume some familiarity with Amiga internals. + +WHY I PORTED TO THE AMIGA + +The sole reason why I made this port was as a first step in getting +the Sather(*) language on the Amiga. A port of this language will +be done as soon as the Sather 1.0 sources are made available to me. +Given this motivation, the garbage collection (GC) port is rather +minimal. + +(*) For information on Sather read the comp.lang.sather newsgroup. + +LIMITATIONS + +This port assumes that the startup code linked with target programs +is that supplied with SAS/C versions 6.0 or later. This allows +assumptions to be made about where to find the stack base pointer +and data segments when programs are run from WorkBench, as opposed +to running from the CLI. The compiler dependent code is all in the +GC_get_stack_base() and GC_register_data_segments() functions, but +may spread as I add Amiga specific features. + +Given that SAS/C was assumed, the port is set up to be built with +"smake" using the "SMakefile". Compiler options in "SCoptions" can +be set with "scopts" program. Both "smake" and "scopts" are part of +the SAS/C commercial development system. + +In keeping with the porting philosophy outlined above, this port +will not behave well with Amiga specific code. Especially not inter- +process comms via messages, and setting up public structures like +Intuition objects or anything else in the system lists. For the +time being the use of this library is limited to single threaded +ANSI/POSIX compliant or near-complient code. (ie. Stick to stdio +for now). Given this limitation there is currently no mechanism for +allocating "CHIP" or "PUBLIC" memory under the garbage collector. +I'll add this after giving it considerable thought. The major +problem is the entire physical address space may have to me scanned, +since there is no telling who we may have passed memory to. + +If you allocate your own stack in client code, you will have to +assign the pointer plus stack size to GC_stackbottom. + +The initial stack size of the target program can be compiled in by +setting the __stack symbol (see SAS documentaion). It can be over- +ridden from the CLI by running the AmigaDOS "stack" program, or from +the WorkBench by setting the stack size in the tool types window. + +SAS/C COMPILER OPTIONS (SCoptions) + +You may wish to check the "CPU" code option is appropriate for your +intended target system. + +Under no circumstances set the "StackExtend" code option in either +compiling the library or *ANY* client code. + +All benign compiler warnings have been suppressed. These mainly +involve lack of prototypes in the code, and dead assignments +detected by the optimizer. + +THE GOOD NEWS + +The library as it stands is compatible with the GigaMem commercial +virtual memory software, and probably similar PD software. + +The performance of "gctest" on an Amiga 2630 (68030 @ 25Mhz) +compares favourably with an HP9000 with similar architecture (a 325 +with a 68030 I think). + +----------------------------------------------------------------------- + +The Amiga port has been brought to you by: + +Jesper Peterson. + +jep@mtiame.mtia.oz.au (preferred, but 1 week turnaround) +jep@orca1.vic.design.telecom.au (that's orca<one>, 1 day turnaround) + +At least one of these addresses should be around for a while, even +though I don't work for either of the companies involved. + diff --git a/gc/README.debugging b/gc/README.debugging new file mode 100644 index 0000000..80635c2 --- /dev/null +++ b/gc/README.debugging @@ -0,0 +1,58 @@ +Debugging suggestions: + +****If you get a segmentation fault or bus error while debugging with a debugger: +If the fault occurred in GC_find_limit, or with incremental collection enabled, this is probably normal. The collector installs handlers to take care of these. You will not see these unless you are using a debugger. Your debugger should allow you to continue. It's preferable to tell the debugger to ignore SIGBUS and SIGSEGV ("handle" in gdb, "ignore" in most versions of dbx) and set a breakpoint in abort. The collector will call abort if the signal had another cause, and there was not other handler previously installed. I recommend debugging without incremental collection if possible. (This applies directly to UNIX systems. Debugging with incremental collection under win32 is worse. See README.win32.) + +****If you get warning messages informing you that the collector needed to allocate blacklisted blocks: + +0) Ignore these warnings while you are using GC_DEBUG. Some of the routines mentioned below don't have debugging equivalents. (Alternatively, write the missing routines and send them to me.) + +1) Replace allocator calls that request large blocks with calls to GC_malloc_ignore_off_page or GC_malloc_atomic_ignore_off_page. You may want to set a breakpoint in GC_default_warn_proc to help you identify such calls. Make sure that a pointer to somewhere near the beginning of the resulting block is maintained in a (preferably volatile) variable as long as the block is needed. + +2) If the large blocks are allocated with realloc, I suggest instead allocating them with something like the following. Note that the realloc size increment should be fairly large (e.g. a factor of 3/2) for this to exhibit reasonable performance. But we all know we should do that anyway. + +void * big_realloc(void *p, size_t new_size) +{ + size_t old_size = GC_size(p); + void * result; + + if (new_size <= 10000) return(GC_realloc(p, new_size)); + if (new_size <= old_size) return(p); + result = GC_malloc_ignore_off_page(new_size); + if (result == 0) return(0); + memcpy(result,p,old_size); + GC_free(p); + return(result); +} + +3) In the unlikely case that even relatively small object (<20KB) allocations are triggering these warnings, then your address space contains lots of "bogus pointers", i.e. values that appear to be pointers but aren't. Usually this can be solved by using GC_malloc_atomic or the routines in gc_typed.h to allocate large pointerfree regions of bitmaps, etc. Sometimes the problem can be solved with trivial changes of encoding in certain values. It is possible, though not pleasant, to identify the source of the bogus pointers by setting a breakpoint in GC_add_to_black_list_stack, and looking at the value of current_p in the GC_mark_from_mark_stack frame. Current_p contains the address of the bogus pointer. + +4) If you get only a fixed number of these warnings, you are probably only introducing a bounded leak by ignoring them. If the data structures being allocated are intended to be permanent, then it is also safe to ignore them. The warnings can be turned off by calling GC_set_warn_proc with a procedure that ignores these warnings (e.g. by doing absolutely nothing). + + +****If the collector dies in GC_malloc while trying to remove a free list element: + +1) With > 99% probability, you wrote past the end of an allocated object. Try setting GC_DEBUG and using the debugging facilities in gc.h. + + +****If the heap grows too much: + +1) Consider using GC_malloc_atomic for objects containing nonpointers. This is especially important for large arrays containg compressed data, pseudo-random numbers, and the like. (This isn't all that likely to solve your problem, but it's a useful and easy optimization anyway, and this is a good time to try it.) If you allocate large objects containg only one or two pointers at the beginning, either try the typed allocation primitives is gc.h, or separate out the pointerfree component. +2) If you are using the collector in its default mode, with interior pointer recognition enabled, consider using GC_malloc_ignore_off_page to allocate large objects. (See gc.h and above for details. Large means > 100K in most environments.) +3) GC_print_block_list() will print a list of all currently allocated heap blocks and what size objects they contain. GC_print_hblkfreelist() will print a list of free heap blocks, and whether they are blacklisted. GC_dump calls both of these, and also prints information about heap sections, and root segments. +4) Write a tool that traces back references to the appropriate root. Send me the code. (I have code that does this for old PCR.) + + +****If the collector appears to be losing objects: + +1) Replace all calls to GC_malloc_atomic and typed allocation by GC_malloc calls. If this fixes the problem, gradually reinsert your optimizations. +2) You may also want to try the safe(r) pointer manipulation primitives in gc.h. But those are hard to use until the preprocessor becomes available. +3) Try using the GC_DEBUG facilities. This is less likely to be successful here than if the collector crashes. +[The rest of these are primarily for wizards. You shouldn't need them unless you're doing something really strange, or debugging a collector port.] +4) Don't turn on incremental collection. If that fixes the problem, suspect a bug in the dirty bit implementation. Try compiling with -DCHECKSUMS to check for modified, but supposedly clean, pages. +5) On a SPARC, in a single-threaded environment, GC_print_callers(GC_arrays._last_stack) prints a cryptic stack trace as of the time of the last collection. (You will need a debugger to decipher the result.) The question to ask then is "why should this object have been accessible at the time of the last collection? Where was a pointer to it stored?". This facility should be easy to add for some other collector ports (namely if it's easy to traverse stack frames), but will be hard for others. +6) "print *GC_find_header(p)" in dbx or gdb will print the garbage collector block header information associated with the object p (e.g. object size, etc.) +7) GC_is_marked(p) determines whether p is the base address of a marked object. Note that objects allocated since the last collection should not be marked, and that unmarked objects are reclaimed incrementally. It's usually most interesting to set a breakpoint in GC_finish_collection and then to determine how much of the damaged data structure is marked at that point. +8) Look at the tracing facility in mark.c. (Ignore this suggestion unless you are very familiar with collector internals.) + + diff --git a/gc/README.dj b/gc/README.dj new file mode 100644 index 0000000..613bc42 --- /dev/null +++ b/gc/README.dj @@ -0,0 +1,12 @@ +[Original version supplied by Xiaokun Zhu <xiaokun@aero.gla.ac.uk>] +[This version came mostly from Gary Leavens. ] + +Look first at Makefile.dj, and possibly change the definitions of +RM and MV if you don't have rm and mv installed. +Then use Makefile.dj to compile the garbage collector. +For example, you can do: + + make -f Makefile.dj test + +All the tests should work fine. + diff --git a/gc/README.hp b/gc/README.hp new file mode 100644 index 0000000..b290590 --- /dev/null +++ b/gc/README.hp @@ -0,0 +1,11 @@ +Dynamic loading support requires that executables be linked with -ldld. +The alternative is to build the collector without defining DYNAMIC_LOADING +in gcconfig.h and ensuring that all garbage collectable objects are +accessible without considering statically allocated variables in dynamic +libraries. + +The collector should compile with either plain cc or cc -Ae. CC -Aa +fails to define _HPUX_SOURCE and thus will not configure the collector +correctly. + +There is currently no thread support. diff --git a/gc/README.linux b/gc/README.linux new file mode 100644 index 0000000..b4f136a --- /dev/null +++ b/gc/README.linux @@ -0,0 +1,50 @@ +See README.alpha for Linux on DEC AXP info. + +This file applies mostly to Linux/Intel IA32. Ports to Linux on an M68K +and PowerPC are also integrated. They should behave similarly, except that +the PowerPC port lacks incremental GC support, and it is unknown to what +extent the Linux threads code is functional. + +Incremental GC is supported on Intel IA32 and M68K. + +Dynamic libraries are supported on an ELF system. A static executable +should be linked with the gcc option "-Wl,-defsym,_DYNAMIC=0". + +The collector appears to work with Linux threads. We have seen +intermittent hangs in sem_wait. So far we have been unable to reproduce +these unless the process was being debugged or traced. Thus it's +possible that the only real issue is that the debugger loses +signals on rare occasions. + +The garbage collector uses SIGPWR and SIGXCPU if it is used with +Linux threads. These should not be touched by the client program. + +To use threads, you need to abide by the following requirements: + +1) You need to use LinuxThreads (which are included in libc6). + + The collector relies on some implementation details of the LinuxThreads + package. It is unlikely that this code will work on other + pthread implementations (in particular it will *not* work with + MIT pthreads). + +2) You must compile the collector with -DLINUX_THREADS and -D_REENTRANT + specified in the Makefile. + +3) Every file that makes thread calls should define LINUX_THREADS and + _REENTRANT and then include gc.h. Gc.h redefines some of the + pthread primitives as macros which also provide the collector with + information it requires. + +4) Currently dlopen() is probably not safe. The collector must traverse + the list of libraries maintained by the runtime loader. That can + probably be an inconsistent state when a thread calling the loader is + is stopped for GC. (It's possible that this is fixable in the + same way it is handled for SOLARIS_THREADS, with GC_dlopen.) + +5) The combination of LINUX_THREADS, REDIRECT_MALLOC, and incremental + collection fails in seemingly random places. This hasn't been tracked + down yet, but is perhaps not completely astonishing. The thread package + uses malloc, and thus can presumably get SIGSEGVs while inside the + package. There is no real guarantee that signals are handled properly + at that point. diff --git a/gc/README.rs6000 b/gc/README.rs6000 new file mode 100644 index 0000000..f5630b2 --- /dev/null +++ b/gc/README.rs6000 @@ -0,0 +1,9 @@ +We have so far failed to find a good way to determine the stack base. +It is highly recommended that GC_stackbottom be set explicitly on program +startup. The supplied value sometimes causes failure under AIX 4.1, though +it appears to work under 3.X. HEURISTIC2 seems to work under 4.1, but +involves a substantial performance penalty, and will fail if there is +no limit on stack size. + +There is no thread support. (I assume recent versions of AIX provide +pthreads? I no longer have access to a machine ...) diff --git a/gc/README.sgi b/gc/README.sgi new file mode 100644 index 0000000..e67124b --- /dev/null +++ b/gc/README.sgi @@ -0,0 +1,41 @@ +Performance of the incremental collector can be greatly enhanced with +-DNO_EXECUTE_PERMISSION. + +The collector should run with all of the -32, -n32 and -64 ABIs. Remember to +define the AS macro in the Makefile to be "as -64", or "as -n32". + +If you use -DREDIRECT_MALLOC=GC_malloc with C++ code, your code should make +at least one explicit call to malloc instead of new to ensure that the proper +version of malloc is linked in. + +Sproc threads are not supported in this version, though there may exist other +ports. + +Pthreads support is provided. This requires that: + +1) You compile the collector with -DIRIX_THREADS specified in the Makefile. + +2) You have the latest pthreads patches installed. + +(Though the collector makes only documented pthread calls, +it relies on signal/threads interactions working just right in ways +that are not required by the standard. It is unlikely that this code +will run on other pthreads platforms. But please tell me if it does.) + +3) Every file that makes thread calls should define IRIX_THREADS and then +include gc.h. Gc.h redefines some of the pthread primitives as macros which +also provide the collector with information it requires. + +4) pthread_cond_wait and pthread_cond_timed_wait should be prepared for +premature wakeups. (I believe the pthreads and realted standards require this +anyway. Irix pthreads often terminate a wait if a signal arrives. +The garbage collector uses signals to stop threads.) + +5) It is expensive to stop a thread waiting in IO at the time the request is +initiated. Applications with many such threads may not exhibit acceptable +performance with the collector. (Increasing the heap size may help.) + +6) The collector should not be compiled with -DREDIRECT_MALLOC. This +confuses some library calls made by the pthreads implementation, which +expect the standard malloc. + diff --git a/gc/README.solaris2 b/gc/README.solaris2 new file mode 100644 index 0000000..e593513 --- /dev/null +++ b/gc/README.solaris2 @@ -0,0 +1,65 @@ +The collector supports both incremental collection and threads under +Solaris 2. The incremental collector normally retrieves page dirty information +through the appropriate /proc calls. But it can also be configured +(by defining MPROTECT_VDB instead of PROC_VDB in gcconfig.h) to use mprotect +and signals. This may result in shorter pause times, but it is no longer +safe to issue arbitrary system calls that write to the heap. + +Under other UNIX versions, +the collector normally obtains memory through sbrk. There is some reason +to expect that this is not safe if the client program also calls the system +malloc, or especially realloc. The sbrk man page strongly suggests this is +not safe: "Many library routines use malloc() internally, so use brk() +and sbrk() only when you know that malloc() definitely will not be used by +any library routine." This doesn't make a lot of sense to me, since there +seems to be no documentation as to which routines can transitively call malloc. +Nonetheless, under Solaris2, the collector now (since 4.12) allocates +memory using mmap by default. (It defines USE_MMAP in gcconfig.h.) +You may want to reverse this decisions if you use -DREDIRECT_MALLOC=... + + +SOLARIS THREADS: + +The collector must be compiled with -DSOLARIS_THREADS to be thread safe. +It is also essential that gc.h be included in files that call thr_create, +thr_join, thr_suspend, thr_continue, or dlopen. Gc.h macro defines +these to also do GC bookkeeping, etc. Gc.h must be included with +SOLARIS_THREADS defined, otherwise these replacements are not visible. +A collector built in this way way only be used by programs that are +linked with the threads library. + +If you are using the Pthreads interface, also define _SOLARIS_PTHREADS. + +In this mode, the collector contains various workarounds for older Solaris +bugs. Mostly, these should not be noticeable unless you look at system +call traces. However, it cannot protect a guard page at the end of +a thread stack. If you know that you will only be running Solaris2.5 +or later, it should be possible to fix this by compiling the collector +with -DSOLARIS23_MPROTECT_BUG_FIXED. + +Jeremy Fitzhardinge points out that there is a problem with the dlopen +replacement, in that startup code in the library is run while the allocation +lock is held. This appears to be difficult to fix, since the collector does +look at data structures maintained by dlopen, and hence some locking is needed +around the dlopen call. Defining USE_PROC_FOR_LIBRARIES will get address +space layout information from /proc avoiding the dlopen lock. But this has +other disadvanatages, e.g. mmapped files may be scanned. + +If solaris_threads are used on an X86 processor with malloc redirected to +GC_malloc, it is necessary to call GC_thr_init explicitly before forking the +first thread. (This avoids a deadlock arising from calling GC_thr_init +with the allocation lock held.) + +It appears that there is a problem in using gc_cpp.h in conjunction with +Solaris threads and Sun's C++ runtime. Apparently the overloaded new operator +is invoked by some iostream initialization code before threads are correctly +initialized. As a result, call to thr_self() in garbage collector +initialization segfaults. Currently the only known workaround is to not +invoke the garbage collector from a user defined global operator new, or to +have it invoke the garbage-collector's allocators only after main has started. +(Note that the latter requires a moderately expensive test in operator +delete.) + +Hans-J. Boehm +(The above contains my personal opinions, which are probably not shared +by anyone else.) diff --git a/gc/README.uts b/gc/README.uts new file mode 100644 index 0000000..6be4966 --- /dev/null +++ b/gc/README.uts @@ -0,0 +1,2 @@ +Alistair Crooks supplied the port. He used Lexa C version 2.1.3 with +-Xa to compile. diff --git a/gc/README.win32 b/gc/README.win32 new file mode 100644 index 0000000..d78816b --- /dev/null +++ b/gc/README.win32 @@ -0,0 +1,149 @@ +The collector has only been compiled under Windows NT, with the +original Microsoft SDK, with Visual C++ 2.0 and later, with +the GNU win32 environment, with Borland 4.5, and recently with +Watcom C. + +It runs under both win32s and win32, but with different semantics. +Under win32, all writable pages outside of the heaps and stack are +scanned for roots. Thus the collector sees pointers in DLL data +segments. Under win32s, only the main data segment is scanned. +(The main data segment should always be scanned. Under some +versions of win32s, other regions may also be scanned.) +Thus all accessible objects should be accessible from local variables +or variables in the main data segment. Alternatively, other data +segments (e.g. in DLLs) may be registered with the collector by +calling GC_init() and then GC_register_root_section(a), where +a is the address of some variable inside the data segment. (Duplicate +registrations are ignored, but not terribly quickly.) + +(There are two reasons for this. We didn't want to see many 16:16 +pointers. And the VirtualQuery call has different semantics under +the two systems, and under different versions of win32s.) + +The collector test program "gctest" is linked as a GUI application, +but does not open any windows. Its output appears in the file +"gc.log". It may be started from the file manager. The hour glass +cursor will appear as long as it's running. If it is started from the +command line, it will usually run in the background. Wait a few +minutes (a few seconds on a modern machine) before you check the output. +You should see either a failure indication or a "Collector appears to +work" message. + +The cord test program has not been ported (but should port +easily). A toy editor (cord/de.exe) based on cords (heavyweight +strings represented as trees) has been ported and is included. +It runs fine under either win32 or win32S. It serves as an example +of a true Windows application, except that it was written by a +nonexpert Windows programmer. (There are some peculiarities +in the way files are displayed. The <cr> is displayed explicitly +for standard DOS text files. As in the UNIX version, control +characters are displayed explicitly, but in this case as red text. +This may be suboptimal for some tastes and/or sets of default +window colors.) + +For Microsoft development tools, rename NT_MAKEFILE as +MAKEFILE. (Make sure that the CPU environment variable is defined +to be i386.) + +For GNU-win32, use the regular makefile, possibly after uncommenting +the line "include Makefile.DLLs". The latter should be necessary only +if you want to package the collector as a DLL. The GNU-win32 port is +believed to work only for b18, not b19, probably dues to linker changes +in b19. This is probably fixable with a different definition of +DATASTART and DATAEND in gcconfig.h. + +For Borland tools, use BCC_MAKEFILE. Note that +Borland's compiler defaults to 1 byte alignment in structures (-a1), +whereas Visual C++ appears to default to 8 byte alignment (/Zp8). +The garbage collector in its default configuration EXPECTS AT +LEAST 4 BYTE ALIGNMENT. Thus the BORLAND DEFAULT MUST +BE OVERRIDDEN. (In my opinion, it should usually be anyway. +I expect that -a1 introduces major performance penalties on a +486 or Pentium.) Note that this changes structure layouts. (As a last +resort, gcconfig.h can be changed to allow 1 byte alignment. But +this has significant negative performance implications.) +The Makefile is set up to assume Borland 4.5. If you have another +version, change the line near the top. By default, it does not +require the assembler. If you do have the assembler, I recommend +removing the -DUSE_GENERIC. + +Incremental collection support was recently added. This is +currently pretty simpleminded. Pages are protected. Protection +faults are caught by a handler installed at the bottom of the handler +stack. This is both slow and interacts poorly with a debugger. +Whenever possible, I recommend adding a call to +GC_enable_incremental at the last possible moment, after most +debugging is complete. Unlike the UNIX versions, no system +calls are wrapped by the collector itself. It may be necessary +to wrap ReadFile calls that use a buffer in the heap, so that the +call does not encounter a protection fault while it's running. +(As usual, none of this is an issue unless GC_enable_incremental +is called.) + +Note that incremental collection is disabled with -DSMALL_CONFIG, +which is the default for win32. If you need incremental collection, +undefine SMALL_CONFIG. + +Incremental collection is not supported under win32s, and it may not +be possible to do so. However, win32 applications that attempt to use +incremental collection should continue to run, since the +collector detects if it's running under win32s and turns calls to +GC_enable_incremental() into noops. + +James Clark has contributed the necessary code to support win32 threads. +This code is known to exhibit some problems with incremental collection +enabled. Use NT_THREADS_MAKEFILE (a.k.a gc.mak) instead of NT_MAKEFILE +to build this version. Note that this requires some files whose names +are more than 8 + 3 characters long. Thus you should unpack the tar file +so that long file names are preserved. To build the garbage collector +test with VC++ from the command line, use + +nmake /F ".\gc.mak" CFG="gctest - Win32 Release" + +This requires that the subdirectory gctest\Release exist. +The test program and DLL will reside in the Release directory. + +This version relies on the collector residing in a dll. + +This version currently supports incremental collection only if it is +enabled before any additional threads are created. +Version 4.13 attempts to fix some of the earlier problems, but there +may be other issues. If you need solid support for win32 threads, you +might check with Geodesic Systems. Their collector must be licensed, +but they have invested far more time in win32-specific issues. + +Hans + +Ivan V. Demakov's README for the Watcom port: + +The collector has been compiled with Watcom C 10.6 and 11.0. +It runs under win32, win32s, and even under msdos with dos4gw +dos-extender. It should also run under OS/2, though this isn't +tested. Under win32 the collector can be built either as dll +or as static library. + +Note that all compilations were done under Windows 95 or NT. +For unknown reason compiling under Windows 3.11 for NT (one +attempt has been made) leads to broken executables. + +Incremental collection is not supported. + +cord is not ported. + +Before compiling you may need to edit WCC_MAKEFILE to set target +platform, library type (dynamic or static), calling conventions, and +optimization options. + +To compile the collector and testing programs use the command: + wmake -f WCC_MAKEFILE + +All programs using gc should be compiled with 4-byte alignment. +For further explanations on this see comments about Borland. + +If gc compiled as dll, the macro ``GC_DLL'' should be defined before +including "gc.h" (for example, with -DGC_DLL compiler option). It's +important, otherwise resulting programs will not run. + +Ivan Demakov (email: ivan@tgrad.nsk.su) + + diff --git a/gc/SCoptions.amiga b/gc/SCoptions.amiga new file mode 100644 index 0000000..a61e0cb --- /dev/null +++ b/gc/SCoptions.amiga @@ -0,0 +1,16 @@ +CPU=68030 +NOSTACKCHECK +OPTIMIZE +VERBOSE +MAPHUNK +NOVERSION +NOICONS +OPTIMIZERTIME +DEFINE SILENT +DEFINE AMIGA_SKIP_SEG +IGNORE=85 +IGNORE=154 +IGNORE=161 +IGNORE=100 +OPTIMIZERCOMPLEXITY=4 +OPTIMIZERDEPTH=3 diff --git a/gc/SMakefile.amiga b/gc/SMakefile.amiga new file mode 100644 index 0000000..e9602c0 --- /dev/null +++ b/gc/SMakefile.amiga @@ -0,0 +1,48 @@ +OBJS= alloc.o reclaim.o allchblk.o misc.o mach_dep.o os_dep.o mark_rts.o headers.o mark.o obj_map.o blacklst.o finalize.o new_hblk.o real_malloc.o dyn_load.o dbg_mlc.o malloc.o stubborn.o checksums.o typd_mlc.o ptr_chck.o + +INC= gc_private.h gc_hdrs.h gc.h gcconfig.h + +all: gctest setjmp_t + +alloc.o : alloc.c $(INC) +reclaim.o : reclaim.c $(INC) +allchblk.o : allchblk.c $(INC) +misc.o : misc.c $(INC) +os_dep.o : os_dep.c $(INC) +mark_rts.o : mark_rts.c $(INC) +headers.o : headers.c $(INC) +mark.o : mark.c $(INC) +obj_map.o : obj_map.c $(INC) +blacklst.o : blacklst.c $(INC) +finalize.o : finalize.c $(INC) + sc noopt finalize.c # There seems to be a bug in the optimizer (V6.51). + # gctest won't work if you remove this... +new_hblk.o : new_hblk.c $(INC) +real_malloc.o : real_malloc.c $(INC) +dyn_load.o : dyn_load.c $(INC) +dbg_mlc.o : dbg_mlc.c $(INC) +malloc.o : malloc.c $(INC) +mallocx.o : malloc.c $(INC) +stubborn.o : stubborn.c $(INC) +checksums.o : checksums.c $(INC) +typd_mlc.o: typd_mlc.c $(INC) +mach_dep.o : mach_dep.c $(INC) +ptr_chck.o: ptr_chck.c $(INC) +test.o : test.c $(INC) + +gc.lib: $(OBJS) + oml gc.lib r $(OBJS) + +clean: + delete gc.lib gctest setjmp_t \#?.o + +gctest: gc.lib test.o + slink LIB:c.o test.o to $@ lib gc.lib LIB:sc.lib LIB:scm.lib + +setjmp_t: setjmp_t.c gc.h + sc setjmp_t.c + slink LIB:c.o $@.o to $@ lib LIB:sc.lib + +test: setjmp_t gctest + setjmp_t + gctest diff --git a/gc/WCC_MAKEFILE b/gc/WCC_MAKEFILE new file mode 100644 index 0000000..087ff6a --- /dev/null +++ b/gc/WCC_MAKEFILE @@ -0,0 +1,196 @@ +# Makefile for Watcom C/C++ 10.5, 10.6, 11.0 on NT, OS2 and DOS4GW. +# May work with Watcom 10.0. + +# Uncoment one of the lines below for cross compilation. +SYSTEM=MSWIN32 +#SYSTEM=DOS4GW +#SYSTEM=OS2 + +# The collector can be built either as dynamic or as static library. +# Select the library type you need. +#MAKE_AS_DLL=1 +MAKE_AS_LIB=1 + +# Select calling conventions. +# Possible choices are r and s. +CALLING=s + +# Select target CPU. +# Possible choices are 3, 4, 5, and 6. +# The last choice available only since version 11.0. +CPU=5 + +# Set optimization options. +# Watcom before 11.0 does not support option "-oh". +OPTIM=-oneatx -s +#OPTIM=-ohneatx -s + +DEFS=-DALL_INTERIOR_POINTERS -DSILENT -DNO_SIGNALS #-DSMALL_CONFIG #-DGC_DEBUG + + +##### + +!ifndef SYSTEM +!ifdef __MSDOS__ +SYSTEM=DOS4GW +!else ifdef __NT__ +SYSTEM=MSWIN32 +!else ifdef __OS2__ +SYSTEM=OS2 +!else +SYSTEM=Unknown +!endif +!endif + +!define $(SYSTEM) + +!ifdef DOS4GW +SYSFLAG=-DDOS4GW -bt=dos +!else ifdef MSWIN32 +SYSFLAG=-DMSWIN32 -bt=nt +!else ifdef OS2 +SYSFLAG=-DOS2 -bt=os2 +!else +!error undefined or unsupported target platform: $(SYSTEM) +!endif +!ifdef MAKE_AS_DLL +DLLFLAG=-bd -DGC_DLL +TEST_DLLFLAG=-DGC_DLL +!else ifdef MAKE_AS_LIB +DLLFLAG= +TEST_DLLFLAG= +!else +!error Either MAKE_AS_LIB or MAKE_AS_DLL should be defined +!endif + +CC=wcc386 +CXX=wpp386 + +# -DUSE_GENERIC is required ! +CFLAGS=-$(CPU)$(CALLING) $(OPTIM) -zp4 -zc $(SYSFLAG) $(DLLFLAG) -DGC_BUILD -DUSE_GENERIC $(DEFS) +CXXFLAGS= $(CFLAGS) +TEST_CFLAGS=-$(CPU)$(CALLING) $(OPTIM) -zp4 -zc $(SYSFLAG) $(TEST_DLLFLAG) $(DEFS) +TEST_CXXFLAGS= $(TEST_CFLAGS) + +OBJS= alloc.obj reclaim.obj allchblk.obj misc.obj & + mach_dep.obj os_dep.obj mark_rts.obj headers.obj mark.obj & + obj_map.obj blacklst.obj finalize.obj new_hblk.obj & + dbg_mlc.obj malloc.obj stubborn.obj dyn_load.obj & + typd_mlc.obj ptr_chck.obj mallocx.obj + +all: gc.lib gctest.exe test_cpp.exe + +!ifdef MAKE_AS_DLL + +gc.lib: gc.dll gc_cpp.obj + *wlib -b -c -n -p=512 $@ +gc.dll +gc_cpp.obj + +gc.dll: $(OBJS) .AUTODEPEND + @%create $*.lnk +!ifdef DOS4GW + @%append $*.lnk sys os2v2_dll +!else ifdef MSWIN32 + @%append $*.lnk sys nt_dll +!else ifdef OS2 + @%append $*.lnk sys os2v2_dll +!endif + @%append $*.lnk name $* + @for %i in ($(OBJS)) do @%append $*.lnk file '%i' +!ifeq CALLING s + @%append $*.lnk export GC_is_marked + @%append $*.lnk export GC_incr_words_allocd + @%append $*.lnk export GC_incr_mem_freed + @%append $*.lnk export GC_generic_malloc_words_small +!else + @%append $*.lnk export GC_is_marked_ + @%append $*.lnk export GC_incr_words_allocd_ + @%append $*.lnk export GC_incr_mem_freed_ + @%append $*.lnk export GC_generic_malloc_words_small_ +!endif + *wlink @$*.lnk +!else +gc.lib: $(OBJS) gc_cpp.obj + @%create $*.lb1 + @for %i in ($(OBJS)) do @%append $*.lb1 +'%i' + @%append $*.lb1 +'gc_cpp.obj' + *wlib -b -c -n -p=512 $@ @$*.lb1 + +!endif + + +gctest.exe: test.obj gc.lib + %create $*.lnk +!ifdef DOS4GW + @%append $*.lnk sys dos4g +!else ifdef MSWIN32 + @%append $*.lnk sys nt +!else ifdef OS2 + @%append $*.lnk sys os2v2 +!endif + @%append $*.lnk op case + @%append $*.lnk op stack=256K + @%append $*.lnk name $* + @%append $*.lnk file test.obj + @%append $*.lnk library gc.lib +!ifdef MAKE_AS_DLL +!ifeq CALLING s + @%append $*.lnk import GC_is_marked gc +!else + @%append $*.lnk import GC_is_marked_ gc +!endif +!endif + *wlink @$*.lnk +test_cpp.exe: test_cpp.obj gc.lib + %create $*.lnk +!ifdef DOS4GW + @%append $*.lnk sys dos4g +!else ifdef MSWIN32 + @%append $*.lnk sys nt +!else ifdef OS2 + @%append $*.lnk sys os2v2 +!endif + @%append $*.lnk op case + @%append $*.lnk op stack=256K + @%append $*.lnk name $* + @%append $*.lnk file test_cpp.obj + @%append $*.lnk library gc.lib +!ifdef MAKE_AS_DLL +!ifeq CALLING s + @%append $*.lnk import GC_incr_words_allocd gc + @%append $*.lnk import GC_incr_mem_freed gc + @%append $*.lnk import GC_generic_malloc_words_small gc +!else + @%append $*.lnk import GC_incr_words_allocd_ gc + @%append $*.lnk import GC_incr_mem_freed_ gc + @%append $*.lnk import GC_generic_malloc_words_small_ gc +!endif +!endif + *wlink @$*.lnk + +gc_cpp.obj: gc_cpp.cc .AUTODEPEND + $(CXX) $(TEST_CXXFLAGS) -iinclude $*.cc +test.obj: test.c .AUTODEPEND + $(CC) $(TEST_CFLAGS) $*.c +test_cpp.obj: test_cpp.cc .AUTODEPEND + $(CXX) $(TEST_CXXFLAGS) -iinclude $*.cc + + +.c.obj: .AUTODEPEND + $(CC) $(CFLAGS) $*.c + +.cc.obj: .AUTODEPEND + $(CXX) $(CXXFLAGS) $*.cc + +clean : .SYMBOLIC + @if exist *.obj del *.obj + @if exist *.map del *.map + @if exist *.lnk del *.lnk + @if exist *.lb1 del *.lb1 + @if exist *.sym del *.sym + @if exist *.err del *.err + @if exist *.tmp del *.tmp + @if exist *.lst del *.lst + @if exist *.exe del *.exe + @if exist *.log del *.log + @if exist *.lib del *.lib + @if exist *.dll del *.dll diff --git a/gc/add_gc_prefix.c b/gc/add_gc_prefix.c new file mode 100644 index 0000000..0d1ab6d --- /dev/null +++ b/gc/add_gc_prefix.c @@ -0,0 +1,14 @@ +# include <stdio.h> + +int main(argc, argv, envp) +int argc; +char ** argv; +char ** envp; +{ + int i; + + for (i = 1; i < argc; i++) { + printf("gc/%s ", argv[i]); + } + return(0); +} diff --git a/gc/allchblk.c b/gc/allchblk.c new file mode 100644 index 0000000..d8d0afd --- /dev/null +++ b/gc/allchblk.c @@ -0,0 +1,726 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1998-1999 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +#define DEBUG +#undef DEBUG +#include <stdio.h> +#include "gc_priv.h" + + +/* + * Free heap blocks are kept on one of several free lists, + * depending on the size of the block. Each free list is doubly linked. + * Adjacent free blocks are coalesced. + */ + + +# define MAX_BLACK_LIST_ALLOC (2*HBLKSIZE) + /* largest block we will allocate starting on a black */ + /* listed block. Must be >= HBLKSIZE. */ + + +# define UNIQUE_THRESHOLD 32 + /* Sizes up to this many HBLKs each have their own free list */ +# define HUGE_THRESHOLD 256 + /* Sizes of at least this many heap blocks are mapped to a */ + /* single free list. */ +# define FL_COMPRESSION 8 + /* In between sizes map this many distinct sizes to a single */ + /* bin. */ + +# define N_HBLK_FLS (HUGE_THRESHOLD - UNIQUE_THRESHOLD)/FL_COMPRESSION \ + + UNIQUE_THRESHOLD + +struct hblk * GC_hblkfreelist[N_HBLK_FLS+1] = { 0 }; + +/* Map a number of blocks to the appropriate large block free list index. */ +int GC_hblk_fl_from_blocks(blocks_needed) +word blocks_needed; +{ + if (blocks_needed <= UNIQUE_THRESHOLD) return blocks_needed; + if (blocks_needed >= HUGE_THRESHOLD) return N_HBLK_FLS; + return (blocks_needed - UNIQUE_THRESHOLD)/FL_COMPRESSION + + UNIQUE_THRESHOLD; + +} + +# define HBLK_IS_FREE(hdr) ((hdr) -> hb_map == GC_invalid_map) +# define PHDR(hhdr) HDR(hhdr -> hb_prev) +# define NHDR(hhdr) HDR(hhdr -> hb_next) + +# ifdef USE_MUNMAP +# define IS_MAPPED(hhdr) (((hhdr) -> hb_flags & WAS_UNMAPPED) == 0) +# else /* !USE_MMAP */ +# define IS_MAPPED(hhdr) 1 +# endif /* USE_MUNMAP */ + +# if !defined(NO_DEBUGGING) +void GC_print_hblkfreelist() +{ + struct hblk * h; + word total_free = 0; + hdr * hhdr; + word sz; + int i; + + for (i = 0; i <= N_HBLK_FLS; ++i) { + h = GC_hblkfreelist[i]; + if (0 != h) GC_printf1("Free list %ld:\n", (unsigned long)i); + while (h != 0) { + hhdr = HDR(h); + sz = hhdr -> hb_sz; + GC_printf2("\t0x%lx size %lu ", (unsigned long)h, (unsigned long)sz); + total_free += sz; + if (GC_is_black_listed(h, HBLKSIZE) != 0) { + GC_printf0("start black listed\n"); + } else if (GC_is_black_listed(h, hhdr -> hb_sz) != 0) { + GC_printf0("partially black listed\n"); + } else { + GC_printf0("not black listed\n"); + } + h = hhdr -> hb_next; + } + } + if (total_free != GC_large_free_bytes) { + GC_printf1("GC_large_free_bytes = %lu (INCONSISTENT!!)\n", + (unsigned long) GC_large_free_bytes); + } + GC_printf1("Total of %lu bytes on free list\n", (unsigned long)total_free); +} + +/* Return the free list index on which the block described by the header */ +/* appears, or -1 if it appears nowhere. */ +int free_list_index_of(wanted) +hdr * wanted; +{ + struct hblk * h; + hdr * hhdr; + int i; + + for (i = 0; i <= N_HBLK_FLS; ++i) { + h = GC_hblkfreelist[i]; + while (h != 0) { + hhdr = HDR(h); + if (hhdr == wanted) return i; + h = hhdr -> hb_next; + } + } + return -1; +} + +void GC_dump_regions() +{ + int i; + ptr_t start, end; + ptr_t p; + size_t bytes; + hdr *hhdr; + for (i = 0; i < GC_n_heap_sects; ++i) { + start = GC_heap_sects[i].hs_start; + bytes = GC_heap_sects[i].hs_bytes; + end = start + bytes; + /* Merge in contiguous sections. */ + while (i+1 < GC_n_heap_sects && GC_heap_sects[i+1].hs_start == end) { + ++i; + end = GC_heap_sects[i].hs_start + GC_heap_sects[i].hs_bytes; + } + GC_printf2("***Section from 0x%lx to 0x%lx\n", start, end); + for (p = start; p < end;) { + hhdr = HDR(p); + GC_printf1("\t0x%lx ", (unsigned long)p); + if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + GC_printf1("Missing header!!\n", hhdr); + p += HBLKSIZE; + continue; + } + if (HBLK_IS_FREE(hhdr)) { + int correct_index = GC_hblk_fl_from_blocks( + divHBLKSZ(hhdr -> hb_sz)); + int actual_index; + + GC_printf1("\tfree block of size 0x%lx bytes", + (unsigned long)(hhdr -> hb_sz)); + if (IS_MAPPED(hhdr)) { + GC_printf0("\n"); + } else { + GC_printf0("(unmapped)\n"); + } + actual_index = free_list_index_of(hhdr); + if (-1 == actual_index) { + GC_printf1("\t\tBlock not on free list %ld!!\n", + correct_index); + } else if (correct_index != actual_index) { + GC_printf2("\t\tBlock on list %ld, should be on %ld!!\n", + actual_index, correct_index); + } + p += hhdr -> hb_sz; + } else { + GC_printf1("\tused for blocks of size 0x%lx bytes\n", + (unsigned long)WORDS_TO_BYTES(hhdr -> hb_sz)); + p += HBLKSIZE * OBJ_SZ_TO_BLOCKS(hhdr -> hb_sz); + } + } + } +} + +# endif /* NO_DEBUGGING */ + +/* Initialize hdr for a block containing the indicated size and */ +/* kind of objects. */ +/* Return FALSE on failure. */ +static GC_bool setup_header(hhdr, sz, kind, flags) +register hdr * hhdr; +word sz; /* object size in words */ +int kind; +unsigned char flags; +{ + register word descr; + + /* Add description of valid object pointers */ + if (!GC_add_map_entry(sz)) return(FALSE); + hhdr -> hb_map = GC_obj_map[sz > MAXOBJSZ? 0 : sz]; + + /* Set size, kind and mark proc fields */ + hhdr -> hb_sz = sz; + hhdr -> hb_obj_kind = kind; + hhdr -> hb_flags = flags; + descr = GC_obj_kinds[kind].ok_descriptor; + if (GC_obj_kinds[kind].ok_relocate_descr) descr += WORDS_TO_BYTES(sz); + hhdr -> hb_descr = descr; + + /* Clear mark bits */ + GC_clear_hdr_marks(hhdr); + + hhdr -> hb_last_reclaimed = (unsigned short)GC_gc_no; + return(TRUE); +} + +#define FL_UNKNOWN -1 +/* + * Remove hhdr from the appropriate free list. + * We assume it is on the nth free list, or on the size + * appropriate free list if n is FL_UNKNOWN. + */ +void GC_remove_from_fl(hhdr, n) +hdr * hhdr; +int n; +{ + GC_ASSERT(((hhdr -> hb_sz) & (HBLKSIZE-1)) == 0); + if (hhdr -> hb_prev == 0) { + int index; + if (FL_UNKNOWN == n) { + index = GC_hblk_fl_from_blocks(divHBLKSZ(hhdr -> hb_sz)); + } else { + index = n; + } + GC_ASSERT(HDR(GC_hblkfreelist[index]) == hhdr); + GC_hblkfreelist[index] = hhdr -> hb_next; + } else { + PHDR(hhdr) -> hb_next = hhdr -> hb_next; + } + if (0 != hhdr -> hb_next) { + GC_ASSERT(!IS_FORWARDING_ADDR_OR_NIL(NHDR(hhdr))); + NHDR(hhdr) -> hb_prev = hhdr -> hb_prev; + } +} + +/* + * Return a pointer to the free block ending just before h, if any. + */ +struct hblk * GC_free_block_ending_at(h) +struct hblk *h; +{ + struct hblk * p = h - 1; + hdr * phdr = HDR(p); + + while (0 != phdr && IS_FORWARDING_ADDR_OR_NIL(phdr)) { + p = FORWARDED_ADDR(p,phdr); + phdr = HDR(p); + } + if (0 != phdr && HBLK_IS_FREE(phdr)) return p; + p = GC_prev_block(h - 1); + if (0 != p) { + phdr = HDR(p); + if (HBLK_IS_FREE(phdr) && (ptr_t)p + phdr -> hb_sz == (ptr_t)h) { + return p; + } + } + return 0; +} + +/* + * Add hhdr to the appropriate free list. + * We maintain individual free lists sorted by address. + */ +void GC_add_to_fl(h, hhdr) +struct hblk *h; +hdr * hhdr; +{ + int index = GC_hblk_fl_from_blocks(divHBLKSZ(hhdr -> hb_sz)); + struct hblk *second = GC_hblkfreelist[index]; +# ifdef GC_ASSERTIONS + struct hblk *next = (struct hblk *)((word)h + hhdr -> hb_sz); + hdr * nexthdr = HDR(next); + struct hblk *prev = GC_free_block_ending_at(h); + hdr * prevhdr = HDR(prev); + GC_ASSERT(nexthdr == 0 || !HBLK_IS_FREE(nexthdr) || !IS_MAPPED(nexthdr)); + GC_ASSERT(prev == 0 || !HBLK_IS_FREE(prevhdr) || !IS_MAPPED(prevhdr)); +# endif + GC_ASSERT(((hhdr -> hb_sz) & (HBLKSIZE-1)) == 0); + GC_hblkfreelist[index] = h; + hhdr -> hb_next = second; + hhdr -> hb_prev = 0; + if (0 != second) HDR(second) -> hb_prev = h; + GC_invalidate_map(hhdr); +} + +#ifdef USE_MUNMAP + +/* Unmap blocks that haven't been recently touched. This is the only way */ +/* way blocks are ever unmapped. */ +void GC_unmap_old(void) +{ + struct hblk * h; + hdr * hhdr; + word sz; + unsigned short last_rec, threshold; + int i; +# define UNMAP_THRESHOLD 6 + + for (i = 0; i <= N_HBLK_FLS; ++i) { + for (h = GC_hblkfreelist[i]; 0 != h; h = hhdr -> hb_next) { + hhdr = HDR(h); + if (!IS_MAPPED(hhdr)) continue; + threshold = (unsigned short)(GC_gc_no - UNMAP_THRESHOLD); + last_rec = hhdr -> hb_last_reclaimed; + if (last_rec > GC_gc_no + || last_rec < threshold && threshold < GC_gc_no + /* not recently wrapped */) { + sz = hhdr -> hb_sz; + GC_unmap((ptr_t)h, sz); + hhdr -> hb_flags |= WAS_UNMAPPED; + } + } + } +} + +/* Merge all unmapped blocks that are adjacent to other free */ +/* blocks. This may involve remapping, since all blocks are either */ +/* fully mapped or fully unmapped. */ +void GC_merge_unmapped(void) +{ + struct hblk * h, *next; + hdr * hhdr, *nexthdr; + word size, nextsize; + int i; + + for (i = 0; i <= N_HBLK_FLS; ++i) { + h = GC_hblkfreelist[i]; + while (h != 0) { + hhdr = HDR(h); + size = hhdr->hb_sz; + next = (struct hblk *)((word)h + size); + nexthdr = HDR(next); + /* Coalesce with successor, if possible */ + if (0 != nexthdr && HBLK_IS_FREE(nexthdr)) { + nextsize = nexthdr -> hb_sz; + if (IS_MAPPED(hhdr)) { + GC_ASSERT(!IS_MAPPED(nexthdr)); + /* make both consistent, so that we can merge */ + if (size > nextsize) { + GC_remap((ptr_t)next, nextsize); + } else { + GC_unmap((ptr_t)h, size); + hhdr -> hb_flags |= WAS_UNMAPPED; + } + } else if (IS_MAPPED(nexthdr)) { + GC_ASSERT(!IS_MAPPED(hhdr)); + if (size > nextsize) { + GC_unmap((ptr_t)next, nextsize); + } else { + GC_remap((ptr_t)h, size); + hhdr -> hb_flags &= ~WAS_UNMAPPED; + } + } else { + /* Unmap any gap in the middle */ + GC_unmap_gap((ptr_t)h, size, (ptr_t)next, nexthdr -> hb_sz); + } + /* If they are both unmapped, we merge, but leave unmapped. */ + GC_remove_from_fl(hhdr, i); + GC_remove_from_fl(nexthdr, FL_UNKNOWN); + hhdr -> hb_sz += nexthdr -> hb_sz; + GC_remove_header(next); + GC_add_to_fl(h, hhdr); + /* Start over at beginning of list */ + h = GC_hblkfreelist[i]; + } else /* not mergable with successor */ { + h = hhdr -> hb_next; + } + } /* while (h != 0) ... */ + } /* for ... */ +} + +#endif /* USE_MUNMAP */ + +/* + * Return a pointer to a block starting at h of length bytes. + * Memory for the block is mapped. + * Remove the block from its free list, and return the remainder (if any) + * to its appropriate free list. + * May fail by returning 0. + * The header for the returned block must be set up by the caller. + * If the return value is not 0, then hhdr is the header for it. + */ +struct hblk * GC_get_first_part(h, hhdr, bytes, index) +struct hblk *h; +hdr * hhdr; +word bytes; +int index; +{ + word total_size = hhdr -> hb_sz; + struct hblk * rest; + hdr * rest_hdr; + + GC_ASSERT((total_size & (HBLKSIZE-1)) == 0); + GC_remove_from_fl(hhdr, index); + if (total_size == bytes) return h; + rest = (struct hblk *)((word)h + bytes); + if (!GC_install_header(rest)) return(0); + rest_hdr = HDR(rest); + rest_hdr -> hb_sz = total_size - bytes; + rest_hdr -> hb_flags = 0; +# ifdef GC_ASSERTIONS + // Mark h not free, to avoid assertion about adjacent free blocks. + hhdr -> hb_map = 0; +# endif + GC_add_to_fl(rest, rest_hdr); + return h; +} + +/* + * H is a free block. N points at an address inside it. + * A new header for n has already been set up. Fix up h's header + * to reflect the fact that it is being split, move it to the + * appropriate free list. + * N replaces h in the original free list. + * + * Nhdr is not completely filled in, since it is about to allocated. + * It may in fact end up on the wrong free list for its size. + * (Hence adding it to a free list is silly. But this path is hopefully + * rare enough that it doesn't matter. The code is cleaner this way.) + */ +void GC_split_block(h, hhdr, n, nhdr, index) +struct hblk *h; +hdr * hhdr; +struct hblk *n; +hdr * nhdr; +int index; /* Index of free list */ +{ + word total_size = hhdr -> hb_sz; + word h_size = (word)n - (word)h; + struct hblk *prev = hhdr -> hb_prev; + struct hblk *next = hhdr -> hb_next; + + /* Replace h with n on its freelist */ + nhdr -> hb_prev = prev; + nhdr -> hb_next = next; + nhdr -> hb_sz = total_size - h_size; + nhdr -> hb_flags = 0; + if (0 != prev) { + HDR(prev) -> hb_next = n; + } else { + GC_hblkfreelist[index] = n; + } + if (0 != next) { + HDR(next) -> hb_prev = n; + } +# ifdef GC_ASSERTIONS + nhdr -> hb_map = 0; /* Don't fail test for consecutive */ + /* free blocks in GC_add_to_fl. */ +# endif +# ifdef USE_MUNMAP + hhdr -> hb_last_reclaimed = GC_gc_no; +# endif + hhdr -> hb_sz = h_size; + GC_add_to_fl(h, hhdr); + GC_invalidate_map(nhdr); +} + +struct hblk * GC_allochblk_nth(); + +/* + * Allocate (and return pointer to) a heap block + * for objects of size sz words, searching the nth free list. + * + * NOTE: We set obj_map field in header correctly. + * Caller is responsible for building an object freelist in block. + * + * We clear the block if it is destined for large objects, and if + * kind requires that newly allocated objects be cleared. + */ +struct hblk * +GC_allochblk(sz, kind, flags) +word sz; +int kind; +unsigned char flags; /* IGNORE_OFF_PAGE or 0 */ +{ + int start_list = GC_hblk_fl_from_blocks(OBJ_SZ_TO_BLOCKS(sz)); + int i; + for (i = start_list; i <= N_HBLK_FLS; ++i) { + struct hblk * result = GC_allochblk_nth(sz, kind, flags, i); + if (0 != result) return result; + } + return 0; +} +/* + * The same, but with search restricted to nth free list. + */ +struct hblk * +GC_allochblk_nth(sz, kind, flags, n) +word sz; +int kind; +unsigned char flags; /* IGNORE_OFF_PAGE or 0 */ +int n; +{ + register struct hblk *hbp; + register hdr * hhdr; /* Header corr. to hbp */ + register struct hblk *thishbp; + register hdr * thishdr; /* Header corr. to hbp */ + signed_word size_needed; /* number of bytes in requested objects */ + signed_word size_avail; /* bytes available in this block */ + + size_needed = HBLKSIZE * OBJ_SZ_TO_BLOCKS(sz); + + /* search for a big enough block in free list */ + hbp = GC_hblkfreelist[n]; + hhdr = HDR(hbp); + for(; 0 != hbp; hbp = hhdr -> hb_next, hhdr = HDR(hbp)) { + size_avail = hhdr->hb_sz; + if (size_avail < size_needed) continue; +# ifdef PRESERVE_LAST + if (size_avail != size_needed + && !GC_incremental && GC_should_collect()) { + continue; + } +# endif + /* If the next heap block is obviously better, go on. */ + /* This prevents us from disassembling a single large block */ + /* to get tiny blocks. */ + { + signed_word next_size; + + thishbp = hhdr -> hb_next; + if (thishbp != 0) { + thishdr = HDR(thishbp); + next_size = (signed_word)(thishdr -> hb_sz); + if (next_size < size_avail + && next_size >= size_needed + && !GC_is_black_listed(thishbp, (word)size_needed)) { + continue; + } + } + } + if ( !IS_UNCOLLECTABLE(kind) && + (kind != PTRFREE || size_needed > MAX_BLACK_LIST_ALLOC)) { + struct hblk * lasthbp = hbp; + ptr_t search_end = (ptr_t)hbp + size_avail - size_needed; + signed_word orig_avail = size_avail; + signed_word eff_size_needed = ((flags & IGNORE_OFF_PAGE)? + HBLKSIZE + : size_needed); + + + while ((ptr_t)lasthbp <= search_end + && (thishbp = GC_is_black_listed(lasthbp, + (word)eff_size_needed))) { + lasthbp = thishbp; + } + size_avail -= (ptr_t)lasthbp - (ptr_t)hbp; + thishbp = lasthbp; + if (size_avail >= size_needed) { + if (thishbp != hbp && GC_install_header(thishbp)) { + /* Make sure it's mapped before we mangle it. */ +# ifdef USE_MUNMAP + if (!IS_MAPPED(hhdr)) { + GC_remap((ptr_t)hbp, size_avail); + hhdr -> hb_flags &= ~WAS_UNMAPPED; + } +# endif + /* Split the block at thishbp */ + thishdr = HDR(thishbp); + GC_split_block(hbp, hhdr, thishbp, thishdr, n); + /* Advance to thishbp */ + hbp = thishbp; + hhdr = thishdr; + /* We must now allocate thishbp, since it may */ + /* be on the wrong free list. */ + } + } else if (size_needed > (signed_word)BL_LIMIT + && orig_avail - size_needed + > (signed_word)BL_LIMIT) { + /* Punt, since anything else risks unreasonable heap growth. */ + WARN("Needed to allocate blacklisted block at 0x%lx\n", + (word)hbp); + size_avail = orig_avail; + } else if (size_avail == 0 && size_needed == HBLKSIZE + && IS_MAPPED(hhdr)) { + if (!GC_find_leak) { + static unsigned count = 0; + + /* The block is completely blacklisted. We need */ + /* to drop some such blocks, since otherwise we spend */ + /* all our time traversing them if pointerfree */ + /* blocks are unpopular. */ + /* A dropped block will be reconsidered at next GC. */ + if ((++count & 3) == 0) { + /* Allocate and drop the block in small chunks, to */ + /* maximize the chance that we will recover some */ + /* later. */ + word total_size = hhdr -> hb_sz; + struct hblk * limit = hbp + divHBLKSZ(total_size); + struct hblk * h; + struct hblk * prev = hhdr -> hb_prev; + + GC_words_wasted += total_size; + GC_large_free_bytes -= total_size; + GC_remove_from_fl(hhdr, n); + for (h = hbp; h < limit; h++) { + if (h == hbp || GC_install_header(h)) { + hhdr = HDR(h); + (void) setup_header( + hhdr, + BYTES_TO_WORDS(HBLKSIZE - HDR_BYTES), + PTRFREE, 0); /* Cant fail */ + if (GC_debugging_started) { + BZERO(h + HDR_BYTES, HBLKSIZE - HDR_BYTES); + } + } + } + /* Restore hbp to point at free block */ + hbp = prev; + if (0 == hbp) { + return GC_allochblk_nth(sz, kind, flags, n); + } + hhdr = HDR(hbp); + } + } + } + } + if( size_avail >= size_needed ) { +# ifdef USE_MUNMAP + if (!IS_MAPPED(hhdr)) { + GC_remap((ptr_t)hbp, size_avail); + hhdr -> hb_flags &= ~WAS_UNMAPPED; + } +# endif + /* hbp may be on the wrong freelist; the parameter n */ + /* is important. */ + hbp = GC_get_first_part(hbp, hhdr, size_needed, n); + break; + } + } + + if (0 == hbp) return 0; + + /* Notify virtual dirty bit implementation that we are about to write. */ + GC_write_hint(hbp); + + /* Add it to map of valid blocks */ + if (!GC_install_counts(hbp, (word)size_needed)) return(0); + /* This leaks memory under very rare conditions. */ + + /* Set up header */ + if (!setup_header(hhdr, sz, kind, flags)) { + GC_remove_counts(hbp, (word)size_needed); + return(0); /* ditto */ + } + + /* Clear block if necessary */ + if (GC_debugging_started + || sz > MAXOBJSZ && GC_obj_kinds[kind].ok_init) { + BZERO(hbp + HDR_BYTES, size_needed - HDR_BYTES); + } + + /* We just successfully allocated a block. Restart count of */ + /* consecutive failures. */ + { + extern unsigned GC_fail_count; + + GC_fail_count = 0; + } + + GC_large_free_bytes -= size_needed; + + GC_ASSERT(IS_MAPPED(hhdr)); + return( hbp ); +} + +struct hblk * GC_freehblk_ptr = 0; /* Search position hint for GC_freehblk */ + +/* + * Free a heap block. + * + * Coalesce the block with its neighbors if possible. + * + * All mark words are assumed to be cleared. + */ +void +GC_freehblk(hbp) +struct hblk *hbp; +{ +struct hblk *next, *prev; +hdr *hhdr, *prevhdr, *nexthdr; +signed_word size; + + + hhdr = HDR(hbp); + size = hhdr->hb_sz; + size = HBLKSIZE * OBJ_SZ_TO_BLOCKS(size); + GC_remove_counts(hbp, (word)size); + hhdr->hb_sz = size; + + /* Check for duplicate deallocation in the easy case */ + if (HBLK_IS_FREE(hhdr)) { + GC_printf1("Duplicate large block deallocation of 0x%lx\n", + (unsigned long) hbp); + } + + GC_ASSERT(IS_MAPPED(hhdr)); + GC_invalidate_map(hhdr); + next = (struct hblk *)((word)hbp + size); + nexthdr = HDR(next); + prev = GC_free_block_ending_at(hbp); + /* Coalesce with successor, if possible */ + if(0 != nexthdr && HBLK_IS_FREE(nexthdr) && IS_MAPPED(nexthdr)) { + GC_remove_from_fl(nexthdr, FL_UNKNOWN); + hhdr -> hb_sz += nexthdr -> hb_sz; + GC_remove_header(next); + } + /* Coalesce with predecessor, if possible. */ + if (0 != prev) { + prevhdr = HDR(prev); + if (IS_MAPPED(prevhdr)) { + GC_remove_from_fl(prevhdr, FL_UNKNOWN); + prevhdr -> hb_sz += hhdr -> hb_sz; + GC_remove_header(hbp); + hbp = prev; + hhdr = prevhdr; + } + } + + GC_large_free_bytes += size; + GC_add_to_fl(hbp, hhdr); +} + diff --git a/gc/alloc.c b/gc/alloc.c new file mode 100644 index 0000000..1c57951 --- /dev/null +++ b/gc/alloc.c @@ -0,0 +1,884 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1998 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + */ + + +# include "gc_priv.h" + +# include <stdio.h> +# ifndef MACOS +# include <signal.h> +# include <sys/types.h> +# endif + +/* + * Separate free lists are maintained for different sized objects + * up to MAXOBJSZ. + * The call GC_allocobj(i,k) ensures that the freelist for + * kind k objects of size i points to a non-empty + * free list. It returns a pointer to the first entry on the free list. + * In a single-threaded world, GC_allocobj may be called to allocate + * an object of (small) size i as follows: + * + * opp = &(GC_objfreelist[i]); + * if (*opp == 0) GC_allocobj(i, NORMAL); + * ptr = *opp; + * *opp = obj_link(ptr); + * + * Note that this is very fast if the free list is non-empty; it should + * only involve the execution of 4 or 5 simple instructions. + * All composite objects on freelists are cleared, except for + * their first word. + */ + +/* + * The allocator uses GC_allochblk to allocate large chunks of objects. + * These chunks all start on addresses which are multiples of + * HBLKSZ. Each allocated chunk has an associated header, + * which can be located quickly based on the address of the chunk. + * (See headers.c for details.) + * This makes it possible to check quickly whether an + * arbitrary address corresponds to an object administered by the + * allocator. + */ + +word GC_non_gc_bytes = 0; /* Number of bytes not intended to be collected */ + +word GC_gc_no = 0; + +#ifndef SMALL_CONFIG + int GC_incremental = 0; /* By default, stop the world. */ +#endif + +int GC_full_freq = 4; /* Every 5th collection is a full */ + /* collection. */ + +char * GC_copyright[] = +{"Copyright 1988,1989 Hans-J. Boehm and Alan J. Demers ", +"Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. ", +"Copyright (c) 1996-1998 by Silicon Graphics. All rights reserved. ", +"THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY", +" EXPRESSED OR IMPLIED. ANY USE IS AT YOUR OWN RISK.", +"See source code for details." }; + +# include "version.h" + +/* some more variables */ + +extern signed_word GC_mem_found; /* Number of reclaimed longwords */ + /* after garbage collection */ + +GC_bool GC_dont_expand = 0; + +word GC_free_space_divisor = 3; + +extern GC_bool GC_collection_in_progress(); + /* Collection is in progress, or was abandoned. */ + +int GC_never_stop_func GC_PROTO((void)) { return(0); } + +CLOCK_TYPE GC_start_time; /* Time at which we stopped world. */ + /* used only in GC_timeout_stop_func. */ + +int GC_n_attempts = 0; /* Number of attempts at finishing */ + /* collection within TIME_LIMIT */ + +#ifdef SMALL_CONFIG +# define GC_timeout_stop_func GC_never_stop_func +#else + int GC_timeout_stop_func GC_PROTO((void)) + { + CLOCK_TYPE current_time; + static unsigned count = 0; + unsigned long time_diff; + + if ((count++ & 3) != 0) return(0); + GET_TIME(current_time); + time_diff = MS_TIME_DIFF(current_time,GC_start_time); + if (time_diff >= TIME_LIMIT) { +# ifdef PRINTSTATS + GC_printf0("Abandoning stopped marking after "); + GC_printf1("%lu msecs", (unsigned long)time_diff); + GC_printf1("(attempt %d)\n", (unsigned long) GC_n_attempts); +# endif + return(1); + } + return(0); + } +#endif /* !SMALL_CONFIG */ + +/* Return the minimum number of words that must be allocated between */ +/* collections to amortize the collection cost. */ +static word min_words_allocd() +{ +# ifdef THREADS + /* We punt, for now. */ + register signed_word stack_size = 10000; +# else + int dummy; + register signed_word stack_size = (ptr_t)(&dummy) - GC_stackbottom; +# endif + word total_root_size; /* includes double stack size, */ + /* since the stack is expensive */ + /* to scan. */ + word scan_size; /* Estimate of memory to be scanned */ + /* during normal GC. */ + + if (stack_size < 0) stack_size = -stack_size; + total_root_size = 2 * stack_size + GC_root_size; + scan_size = BYTES_TO_WORDS(GC_heapsize - GC_large_free_bytes + + (GC_large_free_bytes >> 2) + /* use a bit more of large empty heap */ + + total_root_size); + if (GC_incremental) { + return scan_size / (2 * GC_free_space_divisor); + } else { + return scan_size / GC_free_space_divisor; + } +} + +/* Return the number of words allocated, adjusted for explicit storage */ +/* management, etc.. This number is used in deciding when to trigger */ +/* collections. */ +word GC_adj_words_allocd() +{ + register signed_word result; + register signed_word expl_managed = + BYTES_TO_WORDS((long)GC_non_gc_bytes + - (long)GC_non_gc_bytes_at_gc); + + /* Don't count what was explicitly freed, or newly allocated for */ + /* explicit management. Note that deallocating an explicitly */ + /* managed object should not alter result, assuming the client */ + /* is playing by the rules. */ + result = (signed_word)GC_words_allocd + - (signed_word)GC_mem_freed - expl_managed; + if (result > (signed_word)GC_words_allocd) { + result = GC_words_allocd; + /* probably client bug or unfortunate scheduling */ + } + result += GC_words_finalized; + /* We count objects enqueued for finalization as though they */ + /* had been reallocated this round. Finalization is user */ + /* visible progress. And if we don't count this, we have */ + /* stability problems for programs that finalize all objects. */ + result += GC_words_wasted; + /* This doesn't reflect useful work. But if there is lots of */ + /* new fragmentation, the same is probably true of the heap, */ + /* and the collection will be correspondingly cheaper. */ + if (result < (signed_word)(GC_words_allocd >> 3)) { + /* Always count at least 1/8 of the allocations. We don't want */ + /* to collect too infrequently, since that would inhibit */ + /* coalescing of free storage blocks. */ + /* This also makes us partially robust against client bugs. */ + return(GC_words_allocd >> 3); + } else { + return(result); + } +} + + +/* Clear up a few frames worth of garbage left at the top of the stack. */ +/* This is used to prevent us from accidentally treating garbade left */ +/* on the stack by other parts of the collector as roots. This */ +/* differs from the code in misc.c, which actually tries to keep the */ +/* stack clear of long-lived, client-generated garbage. */ +void GC_clear_a_few_frames() +{ +# define NWORDS 64 + word frames[NWORDS]; + register int i; + + for (i = 0; i < NWORDS; i++) frames[i] = 0; +} + +/* Have we allocated enough to amortize a collection? */ +GC_bool GC_should_collect() +{ + return(GC_adj_words_allocd() >= min_words_allocd()); +} + +void GC_notify_full_gc() +{ + if (GC_start_call_back != (void (*)())0) { + (*GC_start_call_back)(); + } +} + +/* + * Initiate a garbage collection if appropriate. + * Choose judiciously + * between partial, full, and stop-world collections. + * Assumes lock held, signals disabled. + */ +void GC_maybe_gc() +{ + static int n_partial_gcs = 0; + GC_bool is_full_gc = FALSE; + + if (GC_should_collect()) { + if (!GC_incremental) { + GC_notify_full_gc(); + GC_gcollect_inner(); + n_partial_gcs = 0; + return; + } else if (n_partial_gcs >= GC_full_freq) { +# ifdef PRINTSTATS + GC_printf2( + "***>Full mark for collection %lu after %ld allocd bytes\n", + (unsigned long) GC_gc_no+1, + (long)WORDS_TO_BYTES(GC_words_allocd)); +# endif + GC_promote_black_lists(); + (void)GC_reclaim_all((GC_stop_func)0, TRUE); + GC_clear_marks(); + n_partial_gcs = 0; + GC_notify_full_gc(); + is_full_gc = TRUE; + } else { + n_partial_gcs++; + } + /* We try to mark with the world stopped. */ + /* If we run out of time, this turns into */ + /* incremental marking. */ + GET_TIME(GC_start_time); + if (GC_stopped_mark(GC_timeout_stop_func)) { +# ifdef SAVE_CALL_CHAIN + GC_save_callers(GC_last_stack); +# endif + GC_finish_collection(); + } else { + if (!is_full_gc) { + /* Count this as the first attempt */ + GC_n_attempts++; + } + } + } +} + + +/* + * Stop the world garbage collection. Assumes lock held, signals disabled. + * If stop_func is not GC_never_stop_func, then abort if stop_func returns TRUE. + */ +GC_bool GC_try_to_collect_inner(stop_func) +GC_stop_func stop_func; +{ + if (GC_incremental && GC_collection_in_progress()) { +# ifdef PRINTSTATS + GC_printf0( + "GC_try_to_collect_inner: finishing collection in progress\n"); +# endif /* PRINTSTATS */ + /* Just finish collection already in progress. */ + while(GC_collection_in_progress()) { + if (stop_func()) return(FALSE); + GC_collect_a_little_inner(1); + } + } +# ifdef PRINTSTATS + GC_printf2( + "Initiating full world-stop collection %lu after %ld allocd bytes\n", + (unsigned long) GC_gc_no+1, + (long)WORDS_TO_BYTES(GC_words_allocd)); +# endif + GC_promote_black_lists(); + /* Make sure all blocks have been reclaimed, so sweep routines */ + /* don't see cleared mark bits. */ + /* If we're guaranteed to finish, then this is unnecessary. */ + if (stop_func != GC_never_stop_func + && !GC_reclaim_all(stop_func, FALSE)) { + /* Aborted. So far everything is still consistent. */ + return(FALSE); + } + GC_invalidate_mark_state(); /* Flush mark stack. */ + GC_clear_marks(); +# ifdef SAVE_CALL_CHAIN + GC_save_callers(GC_last_stack); +# endif + if (!GC_stopped_mark(stop_func)) { + if (!GC_incremental) { + /* We're partially done and have no way to complete or use */ + /* current work. Reestablish invariants as cheaply as */ + /* possible. */ + GC_invalidate_mark_state(); + GC_unpromote_black_lists(); + } /* else we claim the world is already still consistent. We'll */ + /* finish incrementally. */ + return(FALSE); + } + GC_finish_collection(); + return(TRUE); +} + + + +/* + * Perform n units of garbage collection work. A unit is intended to touch + * roughly GC_RATE pages. Every once in a while, we do more than that. + * This needa to be a fairly large number with our current incremental + * GC strategy, since otherwise we allocate too much during GC, and the + * cleanup gets expensive. + */ +# define GC_RATE 10 +# define MAX_PRIOR_ATTEMPTS 1 + /* Maximum number of prior attempts at world stop marking */ + /* A value of 1 means that we finish the seconf time, no matter */ + /* how long it takes. Doesn't count the initial root scan */ + /* for a full GC. */ + +int GC_deficit = 0; /* The number of extra calls to GC_mark_some */ + /* that we have made. */ + +void GC_collect_a_little_inner(n) +int n; +{ + register int i; + + if (GC_incremental && GC_collection_in_progress()) { + for (i = GC_deficit; i < GC_RATE*n; i++) { + if (GC_mark_some((ptr_t)0)) { + /* Need to finish a collection */ +# ifdef SAVE_CALL_CHAIN + GC_save_callers(GC_last_stack); +# endif + if (GC_n_attempts < MAX_PRIOR_ATTEMPTS) { + GET_TIME(GC_start_time); + if (!GC_stopped_mark(GC_timeout_stop_func)) { + GC_n_attempts++; + break; + } + } else { + (void)GC_stopped_mark(GC_never_stop_func); + } + GC_finish_collection(); + break; + } + } + if (GC_deficit > 0) GC_deficit -= GC_RATE*n; + if (GC_deficit < 0) GC_deficit = 0; + } else { + GC_maybe_gc(); + } +} + +int GC_collect_a_little GC_PROTO(()) +{ + int result; + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + GC_collect_a_little_inner(1); + result = (int)GC_collection_in_progress(); + UNLOCK(); + ENABLE_SIGNALS(); + return(result); +} + +/* + * Assumes lock is held, signals are disabled. + * We stop the world. + * If stop_func() ever returns TRUE, we may fail and return FALSE. + * Increment GC_gc_no if we succeed. + */ +GC_bool GC_stopped_mark(stop_func) +GC_stop_func stop_func; +{ + register int i; + int dummy; +# ifdef PRINTSTATS + CLOCK_TYPE start_time, current_time; +# endif + + STOP_WORLD(); +# ifdef PRINTSTATS + GET_TIME(start_time); + GC_printf1("--> Marking for collection %lu ", + (unsigned long) GC_gc_no + 1); + GC_printf2("after %lu allocd bytes + %lu wasted bytes\n", + (unsigned long) WORDS_TO_BYTES(GC_words_allocd), + (unsigned long) WORDS_TO_BYTES(GC_words_wasted)); +# endif + + /* Mark from all roots. */ + /* Minimize junk left in my registers and on the stack */ + GC_clear_a_few_frames(); + GC_noop(0,0,0,0,0,0); + GC_initiate_gc(); + for(i = 0;;i++) { + if ((*stop_func)()) { +# ifdef PRINTSTATS + GC_printf0("Abandoned stopped marking after "); + GC_printf1("%lu iterations\n", + (unsigned long)i); +# endif + GC_deficit = i; /* Give the mutator a chance. */ + START_WORLD(); + return(FALSE); + } + if (GC_mark_some((ptr_t)(&dummy))) break; + } + + GC_gc_no++; +# ifdef PRINTSTATS + GC_printf2("Collection %lu reclaimed %ld bytes", + (unsigned long) GC_gc_no - 1, + (long)WORDS_TO_BYTES(GC_mem_found)); + GC_printf1(" ---> heapsize = %lu bytes\n", + (unsigned long) GC_heapsize); + /* Printf arguments may be pushed in funny places. Clear the */ + /* space. */ + GC_printf0(""); +# endif + + /* Check all debugged objects for consistency */ + if (GC_debugging_started) { + (*GC_check_heap)(); + } + +# ifdef PRINTTIMES + GET_TIME(current_time); + GC_printf1("World-stopped marking took %lu msecs\n", + MS_TIME_DIFF(current_time,start_time)); +# endif + START_WORLD(); + return(TRUE); +} + + +/* Finish up a collection. Assumes lock is held, signals are disabled, */ +/* but the world is otherwise running. */ +void GC_finish_collection() +{ +# ifdef PRINTTIMES + CLOCK_TYPE start_time; + CLOCK_TYPE finalize_time; + CLOCK_TYPE done_time; + + GET_TIME(start_time); + finalize_time = start_time; +# endif + +# ifdef GATHERSTATS + GC_mem_found = 0; +# endif + if (GC_find_leak) { + /* Mark all objects on the free list. All objects should be */ + /* marked when we're done. */ + { + register word size; /* current object size */ + register ptr_t p; /* pointer to current object */ + register struct hblk * h; /* pointer to block containing *p */ + register hdr * hhdr; + register int word_no; /* "index" of *p in *q */ + int kind; + + for (kind = 0; kind < GC_n_kinds; kind++) { + for (size = 1; size <= MAXOBJSZ; size++) { + for (p= GC_obj_kinds[kind].ok_freelist[size]; + p != 0; p=obj_link(p)){ + h = HBLKPTR(p); + hhdr = HDR(h); + word_no = (((word *)p) - ((word *)h)); + set_mark_bit_from_hdr(hhdr, word_no); + } + } + } + } + GC_start_reclaim(TRUE); + /* The above just checks; it doesn't really reclaim anything. */ + } + + GC_finalize(); +# ifdef STUBBORN_ALLOC + GC_clean_changing_list(); +# endif + +# ifdef PRINTTIMES + GET_TIME(finalize_time); +# endif + + /* Clear free list mark bits, in case they got accidentally marked */ + /* Note: HBLKPTR(p) == pointer to head of block containing *p */ + /* (or GC_find_leak is set and they were intentionally marked.) */ + /* Also subtract memory remaining from GC_mem_found count. */ + /* Note that composite objects on free list are cleared. */ + /* Thus accidentally marking a free list is not a problem; only */ + /* objects on the list itself will be marked, and that's fixed here. */ + { + register word size; /* current object size */ + register ptr_t p; /* pointer to current object */ + register struct hblk * h; /* pointer to block containing *p */ + register hdr * hhdr; + register int word_no; /* "index" of *p in *q */ + int kind; + + for (kind = 0; kind < GC_n_kinds; kind++) { + for (size = 1; size <= MAXOBJSZ; size++) { + for (p= GC_obj_kinds[kind].ok_freelist[size]; + p != 0; p=obj_link(p)){ + h = HBLKPTR(p); + hhdr = HDR(h); + word_no = (((word *)p) - ((word *)h)); + clear_mark_bit_from_hdr(hhdr, word_no); +# ifdef GATHERSTATS + GC_mem_found -= size; +# endif + } + } + } + } + + +# ifdef PRINTSTATS + GC_printf1("Bytes recovered before sweep - f.l. count = %ld\n", + (long)WORDS_TO_BYTES(GC_mem_found)); +# endif + /* Reconstruct free lists to contain everything not marked */ + GC_start_reclaim(FALSE); + +# ifdef PRINTSTATS + GC_printf2( + "Immediately reclaimed %ld bytes in heap of size %lu bytes", + (long)WORDS_TO_BYTES(GC_mem_found), + (unsigned long)GC_heapsize); +# ifdef USE_MUNMAP + GC_printf1("(%lu unmapped)", GC_unmapped_bytes); +# endif + GC_printf2( + "\n%lu (atomic) + %lu (composite) collectable bytes in use\n", + (unsigned long)WORDS_TO_BYTES(GC_atomic_in_use), + (unsigned long)WORDS_TO_BYTES(GC_composite_in_use)); +# endif + + GC_n_attempts = 0; + /* Reset or increment counters for next cycle */ + GC_words_allocd_before_gc += GC_words_allocd; + GC_non_gc_bytes_at_gc = GC_non_gc_bytes; + GC_words_allocd = 0; + GC_words_wasted = 0; + GC_mem_freed = 0; + +# ifdef USE_MUNMAP + GC_unmap_old(); +# endif +# ifdef PRINTTIMES + GET_TIME(done_time); + GC_printf2("Finalize + initiate sweep took %lu + %lu msecs\n", + MS_TIME_DIFF(finalize_time,start_time), + MS_TIME_DIFF(done_time,finalize_time)); +# endif +} + +/* Externally callable routine to invoke full, stop-world collection */ +# if defined(__STDC__) || defined(__cplusplus) + int GC_try_to_collect(GC_stop_func stop_func) +# else + int GC_try_to_collect(stop_func) + GC_stop_func stop_func; +# endif +{ + int result; + DCL_LOCK_STATE; + + GC_INVOKE_FINALIZERS(); + DISABLE_SIGNALS(); + LOCK(); + ENTER_GC(); + if (!GC_is_initialized) GC_init_inner(); + /* Minimize junk left in my registers */ + GC_noop(0,0,0,0,0,0); + result = (int)GC_try_to_collect_inner(stop_func); + EXIT_GC(); + UNLOCK(); + ENABLE_SIGNALS(); + if(result) GC_INVOKE_FINALIZERS(); + return(result); +} + +void GC_gcollect GC_PROTO(()) +{ + GC_notify_full_gc(); + (void)GC_try_to_collect(GC_never_stop_func); +} + +word GC_n_heap_sects = 0; /* Number of sections currently in heap. */ + +/* + * Use the chunk of memory starting at p of size bytes as part of the heap. + * Assumes p is HBLKSIZE aligned, and bytes is a multiple of HBLKSIZE. + */ +void GC_add_to_heap(p, bytes) +struct hblk *p; +word bytes; +{ + word words; + hdr * phdr; + + if (GC_n_heap_sects >= MAX_HEAP_SECTS) { + ABORT("Too many heap sections: Increase MAXHINCR or MAX_HEAP_SECTS"); + } + if (!GC_install_header(p)) { + /* This is extremely unlikely. Can't add it. This will */ + /* almost certainly result in a 0 return from the allocator, */ + /* which is entirely appropriate. */ + return; + } + GC_heap_sects[GC_n_heap_sects].hs_start = (ptr_t)p; + GC_heap_sects[GC_n_heap_sects].hs_bytes = bytes; + GC_n_heap_sects++; + words = BYTES_TO_WORDS(bytes - HDR_BYTES); + phdr = HDR(p); + phdr -> hb_sz = words; + phdr -> hb_map = (char *)1; /* A value != GC_invalid_map */ + phdr -> hb_flags = 0; + GC_freehblk(p); + GC_heapsize += bytes; + if ((ptr_t)p <= GC_least_plausible_heap_addr + || GC_least_plausible_heap_addr == 0) { + GC_least_plausible_heap_addr = (ptr_t)p - sizeof(word); + /* Making it a little smaller than necessary prevents */ + /* us from getting a false hit from the variable */ + /* itself. There's some unintentional reflection */ + /* here. */ + } + if ((ptr_t)p + bytes >= GC_greatest_plausible_heap_addr) { + GC_greatest_plausible_heap_addr = (ptr_t)p + bytes; + } +} + +# if !defined(NO_DEBUGGING) +void GC_print_heap_sects() +{ + register unsigned i; + + GC_printf1("Total heap size: %lu\n", (unsigned long) GC_heapsize); + for (i = 0; i < GC_n_heap_sects; i++) { + unsigned long start = (unsigned long) GC_heap_sects[i].hs_start; + unsigned long len = (unsigned long) GC_heap_sects[i].hs_bytes; + struct hblk *h; + unsigned nbl = 0; + + GC_printf3("Section %ld from 0x%lx to 0x%lx ", (unsigned long)i, + start, (unsigned long)(start + len)); + for (h = (struct hblk *)start; h < (struct hblk *)(start + len); h++) { + if (GC_is_black_listed(h, HBLKSIZE)) nbl++; + } + GC_printf2("%lu/%lu blacklisted\n", (unsigned long)nbl, + (unsigned long)(len/HBLKSIZE)); + } +} +# endif + +ptr_t GC_least_plausible_heap_addr = (ptr_t)ONES; +ptr_t GC_greatest_plausible_heap_addr = 0; + +ptr_t GC_max(x,y) +ptr_t x, y; +{ + return(x > y? x : y); +} + +ptr_t GC_min(x,y) +ptr_t x, y; +{ + return(x < y? x : y); +} + +# if defined(__STDC__) || defined(__cplusplus) + void GC_set_max_heap_size(GC_word n) +# else + void GC_set_max_heap_size(n) + GC_word n; +# endif +{ + GC_max_heapsize = n; +} + +GC_word GC_max_retries = 0; + +/* + * this explicitly increases the size of the heap. It is used + * internally, but may also be invoked from GC_expand_hp by the user. + * The argument is in units of HBLKSIZE. + * Tiny values of n are rounded up. + * Returns FALSE on failure. + */ +GC_bool GC_expand_hp_inner(n) +word n; +{ + word bytes; + struct hblk * space; + word expansion_slop; /* Number of bytes by which we expect the */ + /* heap to expand soon. */ + + if (n < MINHINCR) n = MINHINCR; + bytes = n * HBLKSIZE; + /* Make sure bytes is a multiple of GC_page_size */ + { + word mask = GC_page_size - 1; + bytes += mask; + bytes &= ~mask; + } + + if (GC_max_heapsize != 0 && GC_heapsize + bytes > GC_max_heapsize) { + /* Exceeded self-imposed limit */ + return(FALSE); + } + space = GET_MEM(bytes); + if( space == 0 ) { + return(FALSE); + } +# ifdef PRINTSTATS + GC_printf2("Increasing heap size by %lu after %lu allocated bytes\n", + (unsigned long)bytes, + (unsigned long)WORDS_TO_BYTES(GC_words_allocd)); +# ifdef UNDEFINED + GC_printf1("Root size = %lu\n", GC_root_size); + GC_print_block_list(); GC_print_hblkfreelist(); + GC_printf0("\n"); +# endif +# endif + expansion_slop = 8 * WORDS_TO_BYTES(min_words_allocd()); + if (5 * HBLKSIZE * MAXHINCR > expansion_slop) { + expansion_slop = 5 * HBLKSIZE * MAXHINCR; + } + if (GC_last_heap_addr == 0 && !((word)space & SIGNB) + || GC_last_heap_addr != 0 && GC_last_heap_addr < (ptr_t)space) { + /* Assume the heap is growing up */ + GC_greatest_plausible_heap_addr = + GC_max(GC_greatest_plausible_heap_addr, + (ptr_t)space + bytes + expansion_slop); + } else { + /* Heap is growing down */ + GC_least_plausible_heap_addr = + GC_min(GC_least_plausible_heap_addr, + (ptr_t)space - expansion_slop); + } + GC_prev_heap_addr = GC_last_heap_addr; + GC_last_heap_addr = (ptr_t)space; + GC_add_to_heap(space, bytes); + return(TRUE); +} + +/* Really returns a bool, but it's externally visible, so that's clumsy. */ +/* Arguments is in bytes. */ +# if defined(__STDC__) || defined(__cplusplus) + int GC_expand_hp(size_t bytes) +# else + int GC_expand_hp(bytes) + size_t bytes; +# endif +{ + int result; + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + if (!GC_is_initialized) GC_init_inner(); + result = (int)GC_expand_hp_inner(divHBLKSZ((word)bytes)); + UNLOCK(); + ENABLE_SIGNALS(); + return(result); +} + +unsigned GC_fail_count = 0; + /* How many consecutive GC/expansion failures? */ + /* Reset by GC_allochblk. */ + +GC_bool GC_collect_or_expand(needed_blocks, ignore_off_page) +word needed_blocks; +GC_bool ignore_off_page; +{ + if (!GC_incremental && !GC_dont_gc && GC_should_collect()) { + GC_notify_full_gc(); + GC_gcollect_inner(); + } else { + word blocks_to_get = GC_heapsize/(HBLKSIZE*GC_free_space_divisor) + + needed_blocks; + + if (blocks_to_get > MAXHINCR) { + word slop; + + if (ignore_off_page) { + slop = 4; + } else { + slop = 2*divHBLKSZ(BL_LIMIT); + if (slop > needed_blocks) slop = needed_blocks; + } + if (needed_blocks + slop > MAXHINCR) { + blocks_to_get = needed_blocks + slop; + } else { + blocks_to_get = MAXHINCR; + } + } + if (!GC_expand_hp_inner(blocks_to_get) + && !GC_expand_hp_inner(needed_blocks)) { + if (GC_fail_count++ < GC_max_retries) { + WARN("Out of Memory! Trying to continue ...\n", 0); + GC_notify_full_gc(); + GC_gcollect_inner(); + } else { + WARN("Out of Memory! Returning NIL!\n", 0); + return(FALSE); + } + } else { +# ifdef PRINTSTATS + if (GC_fail_count) { + GC_printf0("Memory available again ...\n"); + } +# endif + } + } + return(TRUE); +} + +/* + * Make sure the object free list for sz is not empty. + * Return a pointer to the first object on the free list. + * The object MUST BE REMOVED FROM THE FREE LIST BY THE CALLER. + * Assumes we hold the allocator lock and signals are disabled. + * + */ +ptr_t GC_allocobj(sz, kind) +word sz; +int kind; +{ + register ptr_t * flh = &(GC_obj_kinds[kind].ok_freelist[sz]); + + if (sz == 0) return(0); + + while (*flh == 0) { + ENTER_GC(); + /* Do our share of marking work */ + if(GC_incremental && !GC_dont_gc) GC_collect_a_little_inner(1); + /* Sweep blocks for objects of this size */ + GC_continue_reclaim(sz, kind); + EXIT_GC(); + if (*flh == 0) { + GC_new_hblk(sz, kind); + } + if (*flh == 0) { + ENTER_GC(); + if (!GC_collect_or_expand((word)1,FALSE)) { + EXIT_GC(); + return(0); + } + EXIT_GC(); + } + } + + return(*flh); +} diff --git a/gc/alpha_mach_dep.s b/gc/alpha_mach_dep.s new file mode 100644 index 0000000..0aaa97b --- /dev/null +++ b/gc/alpha_mach_dep.s @@ -0,0 +1,60 @@ + # $Id: alpha_mach_dep.s,v 1.1 2001/11/08 05:17:06 a-ito Exp $ + +# define call_push(x) \ + lda $16, 0(x); /* copy x to first argument register */ \ + jsr $26, GC_push_one; /* call GC_push_one, ret addr in $26 */ \ + ldgp $gp, 0($26) /* restore $gp register from $ra */ + + .text + .align 4 + .globl GC_push_regs + .ent GC_push_regs 2 +GC_push_regs: + ldgp $gp, 0($27) # set gp from the procedure value reg + lda $sp, -32($sp) # make stack frame + stq $26, 8($sp) # save return address + .mask 0x04000000, -8 + .frame $sp, 16, $26, 0 + + # call_push($0) # expression eval and int func result + + # call_push($1) # temp regs - not preserved cross calls + # call_push($2) + # call_push($3) + # call_push($4) + # call_push($5) + # call_push($6) + # call_push($7) + # call_push($8) + + call_push($9) # Saved regs + call_push($10) + call_push($11) + call_push($12) + call_push($13) + call_push($14) + + call_push($15) # frame ptr or saved reg + + # call_push($16) # argument regs - not preserved cross calls + # call_push($17) + # call_push($18) + # call_push($19) + # call_push($20) + # call_push($21) + + # call_push($22) # temp regs - not preserved cross calls + # call_push($23) + # call_push($24) + # call_push($25) + + # call_push($26) # return address - expression eval + # call_push($27) # procedure value or temporary reg + # call_push($28) # assembler temp - not presrved + call_push($29) # Global Pointer + # call_push($30) # Stack Pointer + + ldq $26, 8($sp) # restore return address + lda $sp, 32($sp) # pop stack frame + ret $31, ($26), 1 # return ($31 == hardwired zero) + .end GC_push_regs diff --git a/gc/backptr.h b/gc/backptr.h new file mode 100644 index 0000000..d34224e --- /dev/null +++ b/gc/backptr.h @@ -0,0 +1,56 @@ +/* + * This is a simple API to implement pointer back tracing, i.e. + * to answer questions such as "who is pointing to this" or + * "why is this object being retained by the collector" + * + * This API assumes that we have an ANSI C compiler. + * + * Most of these calls yield useful information on only after + * a garbage collection. Usually the client will first force + * a full collection and then gather information, preferably + * before much intervening allocation. + * + * The implementation of the interface is only about 99.9999% + * correct. It is intended to be good enough for profiling, + * but is not intended to be used with production code. + * + * Results are likely to be much more useful if all allocation is + * accomplished through the debugging allocators. + * + * The implementation idea is due to A. Demers. + */ + +/* Store information about the object referencing dest in *base_p */ +/* and *offset_p. */ +/* If multiple objects or roots point to dest, the one reported */ +/* will be the last on used by the garbage collector to trace the */ +/* object. */ +/* source is root ==> *base_p = address, *offset_p = 0 */ +/* source is heap object ==> *base_p != 0, *offset_p = offset */ +/* Returns 1 on success, 0 if source couldn't be determined. */ +/* Dest can be any address within a heap object. */ +typedef enum { GC_UNREFERENCED, /* No refence info available. */ + GC_NO_SPACE, /* Dest not allocated with debug alloc */ + GC_REFD_FROM_ROOT, /* Referenced directly by root *base_p */ + GC_REFD_FROM_HEAP, /* Referenced from another heap obj. */ + GC_FINALIZER_REFD /* Finalizable and hence accessible. */ +} GC_ref_kind; + +GC_ref_kind GC_get_back_ptr_info(void *dest, void **base_p, size_t *offset_p); + +/* Generate a random heap address. */ +/* The resulting address is in the heap, but */ +/* not necessarily inside a valid object. */ +void * GC_generate_random_heap_address(void); + +/* Generate a random address inside a valid marked heap object. */ +void * GC_generate_random_valid_address(void); + +/* Force a garbage collection and generate a backtrace from a */ +/* random heap address. */ +/* This uses the GC logging mechanism (GC_printf) to produce */ +/* output. It can often be called from a debugger. The */ +/* source in dbg_mlc.c also serves as a sample client. */ +void GC_generate_random_backtrace(void); + + diff --git a/gc/barrett_diagram b/gc/barrett_diagram new file mode 100644 index 0000000..27e80dc --- /dev/null +++ b/gc/barrett_diagram @@ -0,0 +1,106 @@ +This is an ASCII diagram of the data structure used to check pointer +validity. It was provided by Dave Barrett <barrett@asgard.cs.colorado.edu>, +and should be of use to others attempting to understand the code. +The data structure in GC4.X is essentially the same. -HB + + + + + Data Structure used by GC_base in gc3.7: + 21-Apr-94 + + + + + 63 LOG_TOP_SZ[11] LOG_BOTTOM_SZ[10] LOG_HBLKSIZE[13] + +------------------+----------------+------------------+------------------+ + p:| | TL_HASH(hi) | | HBLKDISPL(p) | + +------------------+----------------+------------------+------------------+ + \-----------------------HBLKPTR(p)-------------------/ + \------------hi-------------------/ + \______ ________/ \________ _______/ \________ _______/ + V V V + | | | + GC_top_index[] | | | + --- +--------------+ | | | + ^ | | | | | + | | | | | | + TOP +--------------+<--+ | | + _SZ +-<| [] | * | | +(items)| +--------------+ if 0 < bi< HBLKSIZE | | + | | | | then large object | | + | | | | starts at the bi'th | | + v | | | HBLK before p. | i | + --- | +--------------+ | (word- | + v | aligned) | + bi= |GET_BI(p){->hash_link}->key==hi | | + v | | + | (bottom_index) \ scratch_alloc'd | | + | ( struct bi ) / by get_index() | | + --- +->+--------------+ | | + ^ | | | | + ^ | | | | + BOTTOM | | ha=GET_HDR_ADDR(p) | | +_SZ(items)+--------------+<----------------------+ +-------+ + | +--<| index[] | | + | | +--------------+ GC_obj_map: v + | | | | from / +-+-+-----+-+-+-+-+ --- + v | | | GC_add < 0| | | | | | | | ^ + --- | +--------------+ _map_entry \ +-+-+-----+-+-+-+-+ | + | | asc_link | +-+-+-----+-+-+-+-+ MAXOBJSZ + | +--------------+ +-->| | | j | | | | | +1 + | | key | | +-+-+-----+-+-+-+-+ | + | +--------------+ | +-+-+-----+-+-+-+-+ | + | | hash_link | | | | | | | | | | v + | +--------------+ | +-+-+-----+-+-+-+-+ --- + | | |<--MAX_OFFSET--->| + | | (bytes) +HDR(p)| GC_find_header(p) | |<--MAP_ENTRIES-->| + | \ from | =HBLKSIZE/WORDSZ + | (hdr) (struct hblkhdr) / alloc_hdr() | (1024 on Alpha) + +-->+----------------------+ | (8/16 bits each) +GET_HDR(p)| word hb_sz (words) | | + +----------------------+ | + | struct hblk *hb_next | | + +----------------------+ | + |mark_proc hb_mark_proc| | + +----------------------+ | + | char * hb_map |>-------------+ + +----------------------+ + | ushort hb_obj_kind | + +----------------------+ + | hb_last_reclaimed | + --- +----------------------+ + ^ | | + MARK_BITS| hb_marks[] | *if hdr is free, hb_sz + DISCARD_WORDS +_SZ(words)| | is the size of a heap chunk (struct hblk) + v | | of at least MININCR*HBLKSIZE bytes (below), + --- +----------------------+ otherwise, size of each object in chunk. + +Dynamic data structures above are interleaved throughout the heap in blocks of +size MININCR * HBLKSIZE bytes as done by gc_scratch_alloc which cannot be +freed; free lists are used (e.g. alloc_hdr). HBLKs's below are collected. + + (struct hblk) + --- +----------------------+ < HBLKSIZE --- --- DISCARD_ + ^ |garbage[DISCARD_WORDS]| aligned ^ ^ HDR_BYTES WORDS + | | | | v (bytes) (words) + | +-----hb_body----------+ < WORDSZ | --- --- + | | | aligned | ^ ^ + | | Object 0 | | hb_sz | + | | | i |(word- (words)| + | | | (bytes)|aligned) v | + | + - - - - - - - - - - -+ --- | --- | + | | | ^ | ^ | + n * | | j (words) | hb_sz BODY_SZ + HBLKSIZE | Object 1 | v v | (words) + (bytes) | |--------------- v MAX_OFFSET + | + - - - - - - - - - - -+ --- (bytes) + | | | !All_INTERIOR_PTRS ^ | + | | | sets j only for hb_sz | + | | Object N | valid object offsets. | | + v | | All objects WORDSZ v v + --- +----------------------+ aligned. --- --- + +DISCARD_WORDS is normally zero. Indeed the collector has not been tested +with another value in ages. diff --git a/gc/base_lib b/gc/base_lib new file mode 100644 index 0000000..8b13789 --- /dev/null +++ b/gc/base_lib @@ -0,0 +1 @@ + diff --git a/gc/blacklst.c b/gc/blacklst.c new file mode 100644 index 0000000..0d623c0 --- /dev/null +++ b/gc/blacklst.c @@ -0,0 +1,291 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, August 9, 1995 6:09 pm PDT */ +# include "gc_priv.h" + +/* + * We maintain several hash tables of hblks that have had false hits. + * Each contains one bit per hash bucket; If any page in the bucket + * has had a false hit, we assume that all of them have. + * See the definition of page_hash_table in gc_private.h. + * False hits from the stack(s) are much more dangerous than false hits + * from elsewhere, since the former can pin a large object that spans the + * block, eventhough it does not start on the dangerous block. + */ + +/* + * Externally callable routines are: + + * GC_add_to_black_list_normal + * GC_add_to_black_list_stack + * GC_promote_black_lists + * GC_is_black_listed + * + * All require that the allocator lock is held. + */ + +/* Pointers to individual tables. We replace one table by another by */ +/* switching these pointers. */ +word * GC_old_normal_bl; + /* Nonstack false references seen at last full */ + /* collection. */ +word * GC_incomplete_normal_bl; + /* Nonstack false references seen since last */ + /* full collection. */ +word * GC_old_stack_bl; +word * GC_incomplete_stack_bl; + +word GC_total_stack_black_listed; + +word GC_black_list_spacing = MINHINCR*HBLKSIZE; /* Initial rough guess */ + +void GC_clear_bl(); + +void GC_default_print_heap_obj_proc(p) +ptr_t p; +{ + ptr_t base = GC_base(p); + + GC_err_printf2("start: 0x%lx, appr. length: %ld", base, GC_size(base)); +} + +void (*GC_print_heap_obj)(/* char * s, ptr_t p */) = + GC_default_print_heap_obj_proc; + +void GC_print_source_ptr(p) +ptr_t p; +{ + ptr_t base = GC_base(p); + if (0 == base) { + if (0 == p) { + GC_err_printf0("in register"); + } else { + GC_err_printf0("in root set"); + } + } else { + GC_err_printf0("in object at "); + (*GC_print_heap_obj)(base); + } +} + +void GC_bl_init() +{ +# ifndef ALL_INTERIOR_POINTERS + GC_old_normal_bl = (word *) + GC_scratch_alloc((word)(sizeof (page_hash_table))); + GC_incomplete_normal_bl = (word *)GC_scratch_alloc + ((word)(sizeof(page_hash_table))); + if (GC_old_normal_bl == 0 || GC_incomplete_normal_bl == 0) { + GC_err_printf0("Insufficient memory for black list\n"); + EXIT(); + } + GC_clear_bl(GC_old_normal_bl); + GC_clear_bl(GC_incomplete_normal_bl); +# endif + GC_old_stack_bl = (word *)GC_scratch_alloc((word)(sizeof(page_hash_table))); + GC_incomplete_stack_bl = (word *)GC_scratch_alloc + ((word)(sizeof(page_hash_table))); + if (GC_old_stack_bl == 0 || GC_incomplete_stack_bl == 0) { + GC_err_printf0("Insufficient memory for black list\n"); + EXIT(); + } + GC_clear_bl(GC_old_stack_bl); + GC_clear_bl(GC_incomplete_stack_bl); +} + +void GC_clear_bl(doomed) +word *doomed; +{ + BZERO(doomed, sizeof(page_hash_table)); +} + +void GC_copy_bl(old, new) +word *new, *old; +{ + BCOPY(old, new, sizeof(page_hash_table)); +} + +static word total_stack_black_listed(); + +/* Signal the completion of a collection. Turn the incomplete black */ +/* lists into new black lists, etc. */ +void GC_promote_black_lists() +{ + word * very_old_normal_bl = GC_old_normal_bl; + word * very_old_stack_bl = GC_old_stack_bl; + + GC_old_normal_bl = GC_incomplete_normal_bl; + GC_old_stack_bl = GC_incomplete_stack_bl; +# ifndef ALL_INTERIOR_POINTERS + GC_clear_bl(very_old_normal_bl); +# endif + GC_clear_bl(very_old_stack_bl); + GC_incomplete_normal_bl = very_old_normal_bl; + GC_incomplete_stack_bl = very_old_stack_bl; + GC_total_stack_black_listed = total_stack_black_listed(); +# ifdef PRINTSTATS + GC_printf1("%ld bytes in heap blacklisted for interior pointers\n", + (unsigned long)GC_total_stack_black_listed); +# endif + if (GC_total_stack_black_listed != 0) { + GC_black_list_spacing = + HBLKSIZE*(GC_heapsize/GC_total_stack_black_listed); + } + if (GC_black_list_spacing < 3 * HBLKSIZE) { + GC_black_list_spacing = 3 * HBLKSIZE; + } +} + +void GC_unpromote_black_lists() +{ +# ifndef ALL_INTERIOR_POINTERS + GC_copy_bl(GC_old_normal_bl, GC_incomplete_normal_bl); +# endif + GC_copy_bl(GC_old_stack_bl, GC_incomplete_stack_bl); +} + +# ifndef ALL_INTERIOR_POINTERS +/* P is not a valid pointer reference, but it falls inside */ +/* the plausible heap bounds. */ +/* Add it to the normal incomplete black list if appropriate. */ +#ifdef PRINT_BLACK_LIST + void GC_add_to_black_list_normal(p, source) + ptr_t source; +#else + void GC_add_to_black_list_normal(p) +#endif +word p; +{ + if (!(GC_modws_valid_offsets[p & (sizeof(word)-1)])) return; + { + register int index = PHT_HASH(p); + + if (HDR(p) == 0 || get_pht_entry_from_index(GC_old_normal_bl, index)) { +# ifdef PRINT_BLACK_LIST + if (!get_pht_entry_from_index(GC_incomplete_normal_bl, index)) { + GC_err_printf2( + "Black listing (normal) 0x%lx referenced from 0x%lx ", + (unsigned long) p, (unsigned long) source); + GC_print_source_ptr(source); + GC_err_puts("\n"); + } +# endif + set_pht_entry_from_index(GC_incomplete_normal_bl, index); + } /* else this is probably just an interior pointer to an allocated */ + /* object, and isn't worth black listing. */ + } +} +# endif + +/* And the same for false pointers from the stack. */ +#ifdef PRINT_BLACK_LIST + void GC_add_to_black_list_stack(p, source) + ptr_t source; +#else + void GC_add_to_black_list_stack(p) +#endif +word p; +{ + register int index = PHT_HASH(p); + + if (HDR(p) == 0 || get_pht_entry_from_index(GC_old_stack_bl, index)) { +# ifdef PRINT_BLACK_LIST + if (!get_pht_entry_from_index(GC_incomplete_stack_bl, index)) { + GC_err_printf2( + "Black listing (stack) 0x%lx referenced from 0x%lx ", + (unsigned long)p, (unsigned long)source); + GC_print_source_ptr(source); + GC_err_puts("\n"); + } +# endif + set_pht_entry_from_index(GC_incomplete_stack_bl, index); + } +} + +/* + * Is the block starting at h of size len bytes black listed? If so, + * return the address of the next plausible r such that (r, len) might not + * be black listed. (R may not actually be in the heap. We guarantee only + * that every smaller value of r after h is also black listed.) + * If (h,len) is not black listed, return 0. + * Knows about the structure of the black list hash tables. + */ +struct hblk * GC_is_black_listed(h, len) +struct hblk * h; +word len; +{ + register int index = PHT_HASH((word)h); + register word i; + word nblocks = divHBLKSZ(len); + +# ifndef ALL_INTERIOR_POINTERS + if (get_pht_entry_from_index(GC_old_normal_bl, index) + || get_pht_entry_from_index(GC_incomplete_normal_bl, index)) { + return(h+1); + } +# endif + + for (i = 0; ; ) { + if (GC_old_stack_bl[divWORDSZ(index)] == 0 + && GC_incomplete_stack_bl[divWORDSZ(index)] == 0) { + /* An easy case */ + i += WORDSZ - modWORDSZ(index); + } else { + if (get_pht_entry_from_index(GC_old_stack_bl, index) + || get_pht_entry_from_index(GC_incomplete_stack_bl, index)) { + return(h+i+1); + } + i++; + } + if (i >= nblocks) break; + index = PHT_HASH((word)(h+i)); + } + return(0); +} + + +/* Return the number of blacklisted blocks in a given range. */ +/* Used only for statistical purposes. */ +/* Looks only at the GC_incomplete_stack_bl. */ +word GC_number_stack_black_listed(start, endp1) +struct hblk *start, *endp1; +{ + register struct hblk * h; + word result = 0; + + for (h = start; h < endp1; h++) { + register int index = PHT_HASH((word)h); + + if (get_pht_entry_from_index(GC_old_stack_bl, index)) result++; + } + return(result); +} + + +/* Return the total number of (stack) black-listed bytes. */ +static word total_stack_black_listed() +{ + register unsigned i; + word total = 0; + + for (i = 0; i < GC_n_heap_sects; i++) { + struct hblk * start = (struct hblk *) GC_heap_sects[i].hs_start; + word len = (word) GC_heap_sects[i].hs_bytes; + struct hblk * endp1 = start + len/HBLKSIZE; + + total += GC_number_stack_black_listed(start, endp1); + } + return(total * HBLKSIZE); +} + diff --git a/gc/callprocs b/gc/callprocs new file mode 100755 index 0000000..a8793f0 --- /dev/null +++ b/gc/callprocs @@ -0,0 +1,4 @@ +#!/bin/sh +GC_DEBUG=1 +export GC_DEBUG +$* 2>&1 | awk '{print "0x3e=c\""$0"\""};/^\t##PC##=/ {if ($2 != 0) {print $2"?i"}}' | adb $1 | sed "s/^ >/>/" diff --git a/gc/checksums.c b/gc/checksums.c new file mode 100644 index 0000000..212655f --- /dev/null +++ b/gc/checksums.c @@ -0,0 +1,201 @@ +/* + * Copyright (c) 1992-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, March 29, 1995 12:51 pm PST */ +# ifdef CHECKSUMS + +# include "gc_priv.h" + +/* This is debugging code intended to verify the results of dirty bit */ +/* computations. Works only in a single threaded environment. */ +/* We assume that stubborn objects are changed only when they are */ +/* enabled for writing. (Certain kinds of writing are actually */ +/* safe under other conditions.) */ +# define NSUMS 2000 + +# define OFFSET 0x10000 + +typedef struct { + GC_bool new_valid; + word old_sum; + word new_sum; + struct hblk * block; /* Block to which this refers + OFFSET */ + /* to hide it from colector. */ +} page_entry; + +page_entry GC_sums [NSUMS]; + +word GC_checksum(h) +struct hblk *h; +{ + register word *p = (word *)h; + register word *lim = (word *)(h+1); + register word result = 0; + + while (p < lim) { + result += *p++; + } + return(result | 0x80000000 /* doesn't look like pointer */); +} + +# ifdef STUBBORN_ALLOC +/* Check whether a stubborn object from the given block appears on */ +/* the appropriate free list. */ +GC_bool GC_on_free_list(h) +struct hblk *h; +{ + register hdr * hhdr = HDR(h); + register int sz = hhdr -> hb_sz; + ptr_t p; + + if (sz > MAXOBJSZ) return(FALSE); + for (p = GC_sobjfreelist[sz]; p != 0; p = obj_link(p)) { + if (HBLKPTR(p) == h) return(TRUE); + } + return(FALSE); +} +# endif + +int GC_n_dirty_errors; +int GC_n_changed_errors; +int GC_n_clean; +int GC_n_dirty; + +void GC_update_check_page(h, index) +struct hblk *h; +int index; +{ + page_entry *pe = GC_sums + index; + register hdr * hhdr = HDR(h); + + if (pe -> block != 0 && pe -> block != h + OFFSET) ABORT("goofed"); + pe -> old_sum = pe -> new_sum; + pe -> new_sum = GC_checksum(h); +# ifndef MSWIN32 + if (pe -> new_sum != 0 && !GC_page_was_ever_dirty(h)) { + GC_printf1("GC_page_was_ever_dirty(0x%lx) is wrong\n", + (unsigned long)h); + } +# endif + if (GC_page_was_dirty(h)) { + GC_n_dirty++; + } else { + GC_n_clean++; + } + if (pe -> new_valid && pe -> old_sum != pe -> new_sum) { + if (!GC_page_was_dirty(h) || !GC_page_was_ever_dirty(h)) { + /* Set breakpoint here */GC_n_dirty_errors++; + } +# ifdef STUBBORN_ALLOC + if (!IS_FORWARDING_ADDR_OR_NIL(hhdr) + && hhdr -> hb_map != GC_invalid_map + && hhdr -> hb_obj_kind == STUBBORN + && !GC_page_was_changed(h) + && !GC_on_free_list(h)) { + /* if GC_on_free_list(h) then reclaim may have touched it */ + /* without any allocations taking place. */ + /* Set breakpoint here */GC_n_changed_errors++; + } +# endif + } + pe -> new_valid = TRUE; + pe -> block = h + OFFSET; +} + +word GC_bytes_in_used_blocks; + +void GC_add_block(h, dummy) +struct hblk *h; +word dummy; +{ + register hdr * hhdr = HDR(h); + register bytes = WORDS_TO_BYTES(hhdr -> hb_sz); + + bytes += HDR_BYTES + HBLKSIZE-1; + bytes &= ~(HBLKSIZE-1); + GC_bytes_in_used_blocks += bytes; +} + +void GC_check_blocks() +{ + word bytes_in_free_blocks = 0; + struct hblk * h = GC_hblkfreelist; + hdr * hhdr = HDR(h); + word sz; + + GC_bytes_in_used_blocks = 0; + GC_apply_to_all_blocks(GC_add_block, (word)0); + while (h != 0) { + sz = hhdr -> hb_sz; + bytes_in_free_blocks += sz; + h = hhdr -> hb_next; + hhdr = HDR(h); + } + GC_printf2("GC_bytes_in_used_blocks = %ld, bytes_in_free_blocks = %ld ", + GC_bytes_in_used_blocks, bytes_in_free_blocks); + GC_printf1("GC_heapsize = %ld\n", GC_heapsize); + if (GC_bytes_in_used_blocks + bytes_in_free_blocks != GC_heapsize) { + GC_printf0("LOST SOME BLOCKS!!\n"); + } +} + +/* Should be called immediately after GC_read_dirty and GC_read_changed. */ +void GC_check_dirty() +{ + register int index; + register unsigned i; + register struct hblk *h; + register ptr_t start; + + GC_check_blocks(); + + GC_n_dirty_errors = 0; + GC_n_changed_errors = 0; + GC_n_clean = 0; + GC_n_dirty = 0; + + index = 0; + for (i = 0; i < GC_n_heap_sects; i++) { + start = GC_heap_sects[i].hs_start; + for (h = (struct hblk *)start; + h < (struct hblk *)(start + GC_heap_sects[i].hs_bytes); + h++) { + GC_update_check_page(h, index); + index++; + if (index >= NSUMS) goto out; + } + } +out: + GC_printf2("Checked %lu clean and %lu dirty pages\n", + (unsigned long) GC_n_clean, (unsigned long) GC_n_dirty); + if (GC_n_dirty_errors > 0) { + GC_printf1("Found %lu dirty bit errors\n", + (unsigned long)GC_n_dirty_errors); + } + if (GC_n_changed_errors > 0) { + GC_printf1("Found %lu changed bit errors\n", + (unsigned long)GC_n_changed_errors); + GC_printf0("These may be benign (provoked by nonpointer changes)\n"); +# ifdef THREADS + GC_printf0( + "Also expect 1 per thread currently allocating a stubborn obj.\n"); +# endif + } +} + +# else + +extern int GC_quiet; + /* ANSI C doesn't allow translation units to be empty. */ + /* So we guarantee this one is nonempty. */ + +# endif /* CHECKSUMS */ diff --git a/gc/cord/README b/gc/cord/README new file mode 100644 index 0000000..6210145 --- /dev/null +++ b/gc/cord/README @@ -0,0 +1,31 @@ +Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + +Permission is hereby granted to use or copy this program +for any purpose, provided the above notices are retained on all copies. +Permission to modify the code and to distribute modified code is granted, +provided the above notices are retained, and a notice that the code was +modified is included with the above copyright notice. + +Please send bug reports to Hans-J. Boehm (boehm@sgi.com). + +This is a string packages that uses a tree-based representation. +See cord.h for a description of the functions provided. Ec.h describes +"extensible cords", which are essentially output streams that write +to a cord. These allow for efficient construction of cords without +requiring a bound on the size of a cord. + +de.c is a very dumb text editor that illustrates the use of cords. +It maintains a list of file versions. Each version is simply a +cord representing the file contents. Nonetheless, standard +editing operations are efficient, even on very large files. +(Its 3 line "user manual" can be obtained by invoking it without +arguments. Note that ^R^N and ^R^P move the cursor by +almost a screen. It does not understand tabs, which will show +up as highlighred "I"s. Use the UNIX "expand" program first.) +To build the editor, type "make cord/de" in the gc directory. + +This package assumes an ANSI C compiler such as gcc. It will +not compile with an old-style K&R compiler. diff --git a/gc/cord/SCOPTIONS.amiga b/gc/cord/SCOPTIONS.amiga new file mode 100755 index 0000000..2a09197 --- /dev/null +++ b/gc/cord/SCOPTIONS.amiga @@ -0,0 +1,14 @@ +MATH=STANDARD +CPU=68030 +NOSTACKCHECK +OPTIMIZE +VERBOSE +NOVERSION +NOICONS +OPTIMIZERTIME +INCLUDEDIR=/ +DEFINE AMIGA +LIBRARY=cord.lib +LIBRARY=/gc.lib +IGNORE=100 +IGNORE=161 diff --git a/gc/cord/SMakefile.amiga b/gc/cord/SMakefile.amiga new file mode 100644 index 0000000..5aef131 --- /dev/null +++ b/gc/cord/SMakefile.amiga @@ -0,0 +1,20 @@ +# Makefile for cord.lib +# Michel Schinz 1994/07/20 + +OBJS = cordbscs.o cordprnt.o cordxtra.o + +all: cord.lib cordtest + +cordbscs.o: cordbscs.c +cordprnt.o: cordprnt.c +cordxtra.o: cordxtra.c +cordtest.o: cordtest.c + +cord.lib: $(OBJS) + oml cord.lib r $(OBJS) + +cordtest: cordtest.o cord.lib + sc cordtest.o link + +clean: + delete cord.lib cordtest \#?.o \#?.lnk diff --git a/gc/cord/cord.h b/gc/cord/cord.h new file mode 100644 index 0000000..584112f --- /dev/null +++ b/gc/cord/cord.h @@ -0,0 +1,327 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * Author: Hans-J. Boehm (boehm@parc.xerox.com) + */ +/* Boehm, October 5, 1995 4:20 pm PDT */ + +/* + * Cords are immutable character strings. A number of operations + * on long cords are much more efficient than their strings.h counterpart. + * In particular, concatenation takes constant time independent of the length + * of the arguments. (Cords are represented as trees, with internal + * nodes representing concatenation and leaves consisting of either C + * strings or a functional description of the string.) + * + * The following are reasonable applications of cords. They would perform + * unacceptably if C strings were used: + * - A compiler that produces assembly language output by repeatedly + * concatenating instructions onto a cord representing the output file. + * - A text editor that converts the input file to a cord, and then + * performs editing operations by producing a new cord representing + * the file after echa character change (and keeping the old ones in an + * edit history) + * + * For optimal performance, cords should be built by + * concatenating short sections. + * This interface is designed for maximum compatibility with C strings. + * ASCII NUL characters may be embedded in cords using CORD_from_fn. + * This is handled correctly, but CORD_to_char_star will produce a string + * with embedded NULs when given such a cord. + * + * This interface is fairly big, largely for performance reasons. + * The most basic constants and functions: + * + * CORD - the type fo a cord; + * CORD_EMPTY - empty cord; + * CORD_len(cord) - length of a cord; + * CORD_cat(cord1,cord2) - concatenation of two cords; + * CORD_substr(cord, start, len) - substring (or subcord); + * CORD_pos i; CORD_FOR(i, cord) { ... CORD_pos_fetch(i) ... } - + * examine each character in a cord. CORD_pos_fetch(i) is the char. + * CORD_fetch(int i) - Retrieve i'th character (slowly). + * CORD_cmp(cord1, cord2) - compare two cords. + * CORD_from_file(FILE * f) - turn a read-only file into a cord. + * CORD_to_char_star(cord) - convert to C string. + * (Non-NULL C constant strings are cords.) + * CORD_printf (etc.) - cord version of printf. Use %r for cords. + */ +# ifndef CORD_H + +# define CORD_H +# include <stddef.h> +# include <stdio.h> +/* Cords have type const char *. This is cheating quite a bit, and not */ +/* 100% portable. But it means that nonempty character string */ +/* constants may be used as cords directly, provided the string is */ +/* never modified in place. The empty cord is represented by, and */ +/* can be written as, 0. */ + +typedef const char * CORD; + +/* An empty cord is always represented as nil */ +# define CORD_EMPTY 0 + +/* Is a nonempty cord represented as a C string? */ +#define CORD_IS_STRING(s) (*(s) != '\0') + +/* Concatenate two cords. If the arguments are C strings, they may */ +/* not be subsequently altered. */ +CORD CORD_cat(CORD x, CORD y); + +/* Concatenate a cord and a C string with known length. Except for the */ +/* empty string case, this is a special case of CORD_cat. Since the */ +/* length is known, it can be faster. */ +/* The string y is shared with the resulting CORD. Hence it should */ +/* not be altered by the caller. */ +CORD CORD_cat_char_star(CORD x, const char * y, size_t leny); + +/* Compute the length of a cord */ +size_t CORD_len(CORD x); + +/* Cords may be represented by functions defining the ith character */ +typedef char (* CORD_fn)(size_t i, void * client_data); + +/* Turn a functional description into a cord. */ +CORD CORD_from_fn(CORD_fn fn, void * client_data, size_t len); + +/* Return the substring (subcord really) of x with length at most n, */ +/* starting at position i. (The initial character has position 0.) */ +CORD CORD_substr(CORD x, size_t i, size_t n); + +/* Return the argument, but rebalanced to allow more efficient */ +/* character retrieval, substring operations, and comparisons. */ +/* This is useful only for cords that were built using repeated */ +/* concatenation. Guarantees log time access to the result, unless */ +/* x was obtained through a large number of repeated substring ops */ +/* or the embedded functional descriptions take longer to evaluate. */ +/* May reallocate significant parts of the cord. The argument is not */ +/* modified; only the result is balanced. */ +CORD CORD_balance(CORD x); + +/* The following traverse a cord by applying a function to each */ +/* character. This is occasionally appropriate, especially where */ +/* speed is crucial. But, since C doesn't have nested functions, */ +/* clients of this sort of traversal are clumsy to write. Consider */ +/* the functions that operate on cord positions instead. */ + +/* Function to iteratively apply to individual characters in cord. */ +typedef int (* CORD_iter_fn)(char c, void * client_data); + +/* Function to apply to substrings of a cord. Each substring is a */ +/* a C character string, not a general cord. */ +typedef int (* CORD_batched_iter_fn)(const char * s, void * client_data); +# define CORD_NO_FN ((CORD_batched_iter_fn)0) + +/* Apply f1 to each character in the cord, in ascending order, */ +/* starting at position i. If */ +/* f2 is not CORD_NO_FN, then multiple calls to f1 may be replaced by */ +/* a single call to f2. The parameter f2 is provided only to allow */ +/* some optimization by the client. This terminates when the right */ +/* end of this string is reached, or when f1 or f2 return != 0. In the */ +/* latter case CORD_iter returns != 0. Otherwise it returns 0. */ +/* The specified value of i must be < CORD_len(x). */ +int CORD_iter5(CORD x, size_t i, CORD_iter_fn f1, + CORD_batched_iter_fn f2, void * client_data); + +/* A simpler version that starts at 0, and without f2: */ +int CORD_iter(CORD x, CORD_iter_fn f1, void * client_data); +# define CORD_iter(x, f1, cd) CORD_iter5(x, 0, f1, CORD_NO_FN, cd) + +/* Similar to CORD_iter5, but end-to-beginning. No provisions for */ +/* CORD_batched_iter_fn. */ +int CORD_riter4(CORD x, size_t i, CORD_iter_fn f1, void * client_data); + +/* A simpler version that starts at the end: */ +int CORD_riter(CORD x, CORD_iter_fn f1, void * client_data); + +/* Functions that operate on cord positions. The easy way to traverse */ +/* cords. A cord position is logically a pair consisting of a cord */ +/* and an index into that cord. But it is much faster to retrieve a */ +/* charcter based on a position than on an index. Unfortunately, */ +/* positions are big (order of a few 100 bytes), so allocate them with */ +/* caution. */ +/* Things in cord_pos.h should be treated as opaque, except as */ +/* described below. Also note that */ +/* CORD_pos_fetch, CORD_next and CORD_prev have both macro and function */ +/* definitions. The former may evaluate their argument more than once. */ +# include "private/cord_pos.h" + +/* + Visible definitions from above: + + typedef <OPAQUE but fairly big> CORD_pos[1]; + + * Extract the cord from a position: + CORD CORD_pos_to_cord(CORD_pos p); + + * Extract the current index from a position: + size_t CORD_pos_to_index(CORD_pos p); + + * Fetch the character located at the given position: + char CORD_pos_fetch(CORD_pos p); + + * Initialize the position to refer to the given cord and index. + * Note that this is the most expensive function on positions: + void CORD_set_pos(CORD_pos p, CORD x, size_t i); + + * Advance the position to the next character. + * P must be initialized and valid. + * Invalidates p if past end: + void CORD_next(CORD_pos p); + + * Move the position to the preceding character. + * P must be initialized and valid. + * Invalidates p if past beginning: + void CORD_prev(CORD_pos p); + + * Is the position valid, i.e. inside the cord? + int CORD_pos_valid(CORD_pos p); +*/ +# define CORD_FOR(pos, cord) \ + for (CORD_set_pos(pos, cord, 0); CORD_pos_valid(pos); CORD_next(pos)) + + +/* An out of memory handler to call. May be supplied by client. */ +/* Must not return. */ +extern void (* CORD_oom_fn)(void); + +/* Dump the representation of x to stdout in an implementation defined */ +/* manner. Intended for debugging only. */ +void CORD_dump(CORD x); + +/* The following could easily be implemented by the client. They are */ +/* provided in cordxtra.c for convenience. */ + +/* Concatenate a character to the end of a cord. */ +CORD CORD_cat_char(CORD x, char c); + +/* Concatenate n cords. */ +CORD CORD_catn(int n, /* CORD */ ...); + +/* Return the character in CORD_substr(x, i, 1) */ +char CORD_fetch(CORD x, size_t i); + +/* Return < 0, 0, or > 0, depending on whether x < y, x = y, x > y */ +int CORD_cmp(CORD x, CORD y); + +/* A generalization that takes both starting positions for the */ +/* comparison, and a limit on the number of characters to be compared. */ +int CORD_ncmp(CORD x, size_t x_start, CORD y, size_t y_start, size_t len); + +/* Find the first occurrence of s in x at position start or later. */ +/* Return the position of the first character of s in x, or */ +/* CORD_NOT_FOUND if there is none. */ +size_t CORD_str(CORD x, size_t start, CORD s); + +/* Return a cord consisting of i copies of (possibly NUL) c. Dangerous */ +/* in conjunction with CORD_to_char_star. */ +/* The resulting representation takes constant space, independent of i. */ +CORD CORD_chars(char c, size_t i); +# define CORD_nul(i) CORD_chars('\0', (i)) + +/* Turn a file into cord. The file must be seekable. Its contents */ +/* must remain constant. The file may be accessed as an immediate */ +/* result of this call and/or as a result of subsequent accesses to */ +/* the cord. Short files are likely to be immediately read, but */ +/* long files are likely to be read on demand, possibly relying on */ +/* stdio for buffering. */ +/* We must have exclusive access to the descriptor f, i.e. we may */ +/* read it at any time, and expect the file pointer to be */ +/* where we left it. Normally this should be invoked as */ +/* CORD_from_file(fopen(...)) */ +/* CORD_from_file arranges to close the file descriptor when it is no */ +/* longer needed (e.g. when the result becomes inaccessible). */ +/* The file f must be such that ftell reflects the actual character */ +/* position in the file, i.e. the number of characters that can be */ +/* or were read with fread. On UNIX systems this is always true. On */ +/* MS Windows systems, f must be opened in binary mode. */ +CORD CORD_from_file(FILE * f); + +/* Equivalent to the above, except that the entire file will be read */ +/* and the file pointer will be closed immediately. */ +/* The binary mode restriction from above does not apply. */ +CORD CORD_from_file_eager(FILE * f); + +/* Equivalent to the above, except that the file will be read on demand.*/ +/* The binary mode restriction applies. */ +CORD CORD_from_file_lazy(FILE * f); + +/* Turn a cord into a C string. The result shares no structure with */ +/* x, and is thus modifiable. */ +char * CORD_to_char_star(CORD x); + +/* Turn a C string into a CORD. The C string is copied, and so may */ +/* subsequently be modified. */ +CORD CORD_from_char_star(const char *s); + +/* Identical to the above, but the result may share structure with */ +/* the argument and is thus not modifiable. */ +const char * CORD_to_const_char_star(CORD x); + +/* Write a cord to a file, starting at the current position. No */ +/* trailing NULs are newlines are added. */ +/* Returns EOF if a write error occurs, 1 otherwise. */ +int CORD_put(CORD x, FILE * f); + +/* "Not found" result for the following two functions. */ +# define CORD_NOT_FOUND ((size_t)(-1)) + +/* A vague analog of strchr. Returns the position (an integer, not */ +/* a pointer) of the first occurrence of (char) c inside x at position */ +/* i or later. The value i must be < CORD_len(x). */ +size_t CORD_chr(CORD x, size_t i, int c); + +/* A vague analog of strrchr. Returns index of the last occurrence */ +/* of (char) c inside x at position i or earlier. The value i */ +/* must be < CORD_len(x). */ +size_t CORD_rchr(CORD x, size_t i, int c); + + +/* The following are also not primitive, but are implemented in */ +/* cordprnt.c. They provide functionality similar to the ANSI C */ +/* functions with corresponding names, but with the following */ +/* additions and changes: */ +/* 1. A %r conversion specification specifies a CORD argument. Field */ +/* width, precision, etc. have the same semantics as for %s. */ +/* (Note that %c,%C, and %S were already taken.) */ +/* 2. The format string is represented as a CORD. */ +/* 3. CORD_sprintf and CORD_vsprintf assign the result through the 1st */ /* argument. Unlike their ANSI C versions, there is no need to guess */ +/* the correct buffer size. */ +/* 4. Most of the conversions are implement through the native */ +/* vsprintf. Hence they are usually no faster, and */ +/* idiosyncracies of the native printf are preserved. However, */ +/* CORD arguments to CORD_sprintf and CORD_vsprintf are NOT copied; */ +/* the result shares the original structure. This may make them */ +/* very efficient in some unusual applications. */ +/* The format string is copied. */ +/* All functions return the number of characters generated or -1 on */ +/* error. This complies with the ANSI standard, but is inconsistent */ +/* with some older implementations of sprintf. */ + +/* The implementation of these is probably less portable than the rest */ +/* of this package. */ + +#ifndef CORD_NO_IO + +#include <stdarg.h> + +int CORD_sprintf(CORD * out, CORD format, ...); +int CORD_vsprintf(CORD * out, CORD format, va_list args); +int CORD_fprintf(FILE * f, CORD format, ...); +int CORD_vfprintf(FILE * f, CORD format, va_list args); +int CORD_printf(CORD format, ...); +int CORD_vprintf(CORD format, va_list args); + +#endif /* CORD_NO_IO */ + +# endif /* CORD_H */ diff --git a/gc/cord/cordbscs.c b/gc/cord/cordbscs.c new file mode 100644 index 0000000..9fc894d --- /dev/null +++ b/gc/cord/cordbscs.c @@ -0,0 +1,915 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * Author: Hans-J. Boehm (boehm@parc.xerox.com) + */ +/* Boehm, October 3, 1994 5:19 pm PDT */ +# include "gc.h" +# include "cord.h" +# include <stdlib.h> +# include <stdio.h> +# include <string.h> + +/* An implementation of the cord primitives. These are the only */ +/* Functions that understand the representation. We perform only */ +/* minimal checks on arguments to these functions. Out of bounds */ +/* arguments to the iteration functions may result in client functions */ +/* invoked on garbage data. In most cases, client functions should be */ +/* programmed defensively enough that this does not result in memory */ +/* smashes. */ + +typedef void (* oom_fn)(void); + +oom_fn CORD_oom_fn = (oom_fn) 0; + +# define OUT_OF_MEMORY { if (CORD_oom_fn != (oom_fn) 0) (*CORD_oom_fn)(); \ + ABORT("Out of memory\n"); } +# define ABORT(msg) { fprintf(stderr, "%s\n", msg); abort(); } + +typedef unsigned long word; + +typedef union { + struct Concatenation { + char null; + char header; + char depth; /* concatenation nesting depth. */ + unsigned char left_len; + /* Length of left child if it is sufficiently */ + /* short; 0 otherwise. */ +# define MAX_LEFT_LEN 255 + word len; + CORD left; /* length(left) > 0 */ + CORD right; /* length(right) > 0 */ + } concatenation; + struct Function { + char null; + char header; + char depth; /* always 0 */ + char left_len; /* always 0 */ + word len; + CORD_fn fn; + void * client_data; + } function; + struct Generic { + char null; + char header; + char depth; + char left_len; + word len; + } generic; + char string[1]; +} CordRep; + +# define CONCAT_HDR 1 + +# define FN_HDR 4 +# define SUBSTR_HDR 6 + /* Substring nodes are a special case of function nodes. */ + /* The client_data field is known to point to a substr_args */ + /* structure, and the function is either CORD_apply_access_fn */ + /* or CORD_index_access_fn. */ + +/* The following may be applied only to function and concatenation nodes: */ +#define IS_CONCATENATION(s) (((CordRep *)s)->generic.header == CONCAT_HDR) + +#define IS_FUNCTION(s) ((((CordRep *)s)->generic.header & FN_HDR) != 0) + +#define IS_SUBSTR(s) (((CordRep *)s)->generic.header == SUBSTR_HDR) + +#define LEN(s) (((CordRep *)s) -> generic.len) +#define DEPTH(s) (((CordRep *)s) -> generic.depth) +#define GEN_LEN(s) (CORD_IS_STRING(s) ? strlen(s) : LEN(s)) + +#define LEFT_LEN(c) ((c) -> left_len != 0? \ + (c) -> left_len \ + : (CORD_IS_STRING((c) -> left) ? \ + (c) -> len - GEN_LEN((c) -> right) \ + : LEN((c) -> left))) + +#define SHORT_LIMIT (sizeof(CordRep) - 1) + /* Cords shorter than this are C strings */ + + +/* Dump the internal representation of x to stdout, with initial */ +/* indentation level n. */ +void CORD_dump_inner(CORD x, unsigned n) +{ + register size_t i; + + for (i = 0; i < (size_t)n; i++) { + fputs(" ", stdout); + } + if (x == 0) { + fputs("NIL\n", stdout); + } else if (CORD_IS_STRING(x)) { + for (i = 0; i <= SHORT_LIMIT; i++) { + if (x[i] == '\0') break; + putchar(x[i]); + } + if (x[i] != '\0') fputs("...", stdout); + putchar('\n'); + } else if (IS_CONCATENATION(x)) { + register struct Concatenation * conc = + &(((CordRep *)x) -> concatenation); + printf("Concatenation: %p (len: %d, depth: %d)\n", + x, (int)(conc -> len), (int)(conc -> depth)); + CORD_dump_inner(conc -> left, n+1); + CORD_dump_inner(conc -> right, n+1); + } else /* function */{ + register struct Function * func = + &(((CordRep *)x) -> function); + if (IS_SUBSTR(x)) printf("(Substring) "); + printf("Function: %p (len: %d): ", x, (int)(func -> len)); + for (i = 0; i < 20 && i < func -> len; i++) { + putchar((*(func -> fn))(i, func -> client_data)); + } + if (i < func -> len) fputs("...", stdout); + putchar('\n'); + } +} + +/* Dump the internal representation of x to stdout */ +void CORD_dump(CORD x) +{ + CORD_dump_inner(x, 0); + fflush(stdout); +} + +CORD CORD_cat_char_star(CORD x, const char * y, size_t leny) +{ + register size_t result_len; + register size_t lenx; + register int depth; + + if (x == CORD_EMPTY) return(y); + if (leny == 0) return(x); + if (CORD_IS_STRING(x)) { + lenx = strlen(x); + result_len = lenx + leny; + if (result_len <= SHORT_LIMIT) { + register char * result = GC_MALLOC_ATOMIC(result_len+1); + + if (result == 0) OUT_OF_MEMORY; + memcpy(result, x, lenx); + memcpy(result + lenx, y, leny); + result[result_len] = '\0'; + return((CORD) result); + } else { + depth = 1; + } + } else { + register CORD right; + register CORD left; + register char * new_right; + register size_t right_len; + + lenx = LEN(x); + + if (leny <= SHORT_LIMIT/2 + && IS_CONCATENATION(x) + && CORD_IS_STRING(right = ((CordRep *)x) -> concatenation.right)) { + /* Merge y into right part of x. */ + if (!CORD_IS_STRING(left = ((CordRep *)x) -> concatenation.left)) { + right_len = lenx - LEN(left); + } else if (((CordRep *)x) -> concatenation.left_len != 0) { + right_len = lenx - ((CordRep *)x) -> concatenation.left_len; + } else { + right_len = strlen(right); + } + result_len = right_len + leny; /* length of new_right */ + if (result_len <= SHORT_LIMIT) { + new_right = GC_MALLOC_ATOMIC(result_len + 1); + memcpy(new_right, right, right_len); + memcpy(new_right + right_len, y, leny); + new_right[result_len] = '\0'; + y = new_right; + leny = result_len; + x = left; + lenx -= right_len; + /* Now fall through to concatenate the two pieces: */ + } + if (CORD_IS_STRING(x)) { + depth = 1; + } else { + depth = DEPTH(x) + 1; + } + } else { + depth = DEPTH(x) + 1; + } + result_len = lenx + leny; + } + { + /* The general case; lenx, result_len is known: */ + register struct Concatenation * result; + + result = GC_NEW(struct Concatenation); + if (result == 0) OUT_OF_MEMORY; + result->header = CONCAT_HDR; + result->depth = depth; + if (lenx <= MAX_LEFT_LEN) result->left_len = lenx; + result->len = result_len; + result->left = x; + result->right = y; + if (depth > MAX_DEPTH) { + return(CORD_balance((CORD)result)); + } else { + return((CORD) result); + } + } +} + + +CORD CORD_cat(CORD x, CORD y) +{ + register size_t result_len; + register int depth; + register size_t lenx; + + if (x == CORD_EMPTY) return(y); + if (y == CORD_EMPTY) return(x); + if (CORD_IS_STRING(y)) { + return(CORD_cat_char_star(x, y, strlen(y))); + } else if (CORD_IS_STRING(x)) { + lenx = strlen(x); + depth = DEPTH(y) + 1; + } else { + register int depthy = DEPTH(y); + + lenx = LEN(x); + depth = DEPTH(x) + 1; + if (depthy >= depth) depth = depthy + 1; + } + result_len = lenx + LEN(y); + { + register struct Concatenation * result; + + result = GC_NEW(struct Concatenation); + if (result == 0) OUT_OF_MEMORY; + result->header = CONCAT_HDR; + result->depth = depth; + if (lenx <= MAX_LEFT_LEN) result->left_len = lenx; + result->len = result_len; + result->left = x; + result->right = y; + return((CORD) result); + } +} + + + +CORD CORD_from_fn(CORD_fn fn, void * client_data, size_t len) +{ + if (len <= 0) return(0); + if (len <= SHORT_LIMIT) { + register char * result; + register size_t i; + char buf[SHORT_LIMIT+1]; + register char c; + + for (i = 0; i < len; i++) { + c = (*fn)(i, client_data); + if (c == '\0') goto gen_case; + buf[i] = c; + } + buf[i] = '\0'; + result = GC_MALLOC_ATOMIC(len+1); + if (result == 0) OUT_OF_MEMORY; + strcpy(result, buf); + result[len] = '\0'; + return((CORD) result); + } + gen_case: + { + register struct Function * result; + + result = GC_NEW(struct Function); + if (result == 0) OUT_OF_MEMORY; + result->header = FN_HDR; + /* depth is already 0 */ + result->len = len; + result->fn = fn; + result->client_data = client_data; + return((CORD) result); + } +} + +size_t CORD_len(CORD x) +{ + if (x == 0) { + return(0); + } else { + return(GEN_LEN(x)); + } +} + +struct substr_args { + CordRep * sa_cord; + size_t sa_index; +}; + +char CORD_index_access_fn(size_t i, void * client_data) +{ + register struct substr_args *descr = (struct substr_args *)client_data; + + return(((char *)(descr->sa_cord))[i + descr->sa_index]); +} + +char CORD_apply_access_fn(size_t i, void * client_data) +{ + register struct substr_args *descr = (struct substr_args *)client_data; + register struct Function * fn_cord = &(descr->sa_cord->function); + + return((*(fn_cord->fn))(i + descr->sa_index, fn_cord->client_data)); +} + +/* A version of CORD_substr that simply returns a function node, thus */ +/* postponing its work. The fourth argument is a function that may */ +/* be used for efficient access to the ith character. */ +/* Assumes i >= 0 and i + n < length(x). */ +CORD CORD_substr_closure(CORD x, size_t i, size_t n, CORD_fn f) +{ + register struct substr_args * sa = GC_NEW(struct substr_args); + CORD result; + + if (sa == 0) OUT_OF_MEMORY; + sa->sa_cord = (CordRep *)x; + sa->sa_index = i; + result = CORD_from_fn(f, (void *)sa, n); + ((CordRep *)result) -> function.header = SUBSTR_HDR; + return (result); +} + +# define SUBSTR_LIMIT (10 * SHORT_LIMIT) + /* Substrings of function nodes and flat strings shorter than */ + /* this are flat strings. Othewise we use a functional */ + /* representation, which is significantly slower to access. */ + +/* A version of CORD_substr that assumes i >= 0, n > 0, and i + n < length(x).*/ +CORD CORD_substr_checked(CORD x, size_t i, size_t n) +{ + if (CORD_IS_STRING(x)) { + if (n > SUBSTR_LIMIT) { + return(CORD_substr_closure(x, i, n, CORD_index_access_fn)); + } else { + register char * result = GC_MALLOC_ATOMIC(n+1); + + if (result == 0) OUT_OF_MEMORY; + strncpy(result, x+i, n); + result[n] = '\0'; + return(result); + } + } else if (IS_CONCATENATION(x)) { + register struct Concatenation * conc + = &(((CordRep *)x) -> concatenation); + register size_t left_len; + register size_t right_len; + + left_len = LEFT_LEN(conc); + right_len = conc -> len - left_len; + if (i >= left_len) { + if (n == right_len) return(conc -> right); + return(CORD_substr_checked(conc -> right, i - left_len, n)); + } else if (i+n <= left_len) { + if (n == left_len) return(conc -> left); + return(CORD_substr_checked(conc -> left, i, n)); + } else { + /* Need at least one character from each side. */ + register CORD left_part; + register CORD right_part; + register size_t left_part_len = left_len - i; + + if (i == 0) { + left_part = conc -> left; + } else { + left_part = CORD_substr_checked(conc -> left, i, left_part_len); + } + if (i + n == right_len + left_len) { + right_part = conc -> right; + } else { + right_part = CORD_substr_checked(conc -> right, 0, + n - left_part_len); + } + return(CORD_cat(left_part, right_part)); + } + } else /* function */ { + if (n > SUBSTR_LIMIT) { + if (IS_SUBSTR(x)) { + /* Avoid nesting substring nodes. */ + register struct Function * f = &(((CordRep *)x) -> function); + register struct substr_args *descr = + (struct substr_args *)(f -> client_data); + + return(CORD_substr_closure((CORD)descr->sa_cord, + i + descr->sa_index, + n, f -> fn)); + } else { + return(CORD_substr_closure(x, i, n, CORD_apply_access_fn)); + } + } else { + char * result; + register struct Function * f = &(((CordRep *)x) -> function); + char buf[SUBSTR_LIMIT+1]; + register char * p = buf; + register char c; + register int j; + register int lim = i + n; + + for (j = i; j < lim; j++) { + c = (*(f -> fn))(j, f -> client_data); + if (c == '\0') { + return(CORD_substr_closure(x, i, n, CORD_apply_access_fn)); + } + *p++ = c; + } + *p = '\0'; + result = GC_MALLOC_ATOMIC(n+1); + if (result == 0) OUT_OF_MEMORY; + strcpy(result, buf); + return(result); + } + } +} + +CORD CORD_substr(CORD x, size_t i, size_t n) +{ + register size_t len = CORD_len(x); + + if (i >= len || n <= 0) return(0); + /* n < 0 is impossible in a correct C implementation, but */ + /* quite possible under SunOS 4.X. */ + if (i + n > len) n = len - i; +# ifndef __STDC__ + if (i < 0) ABORT("CORD_substr: second arg. negative"); + /* Possible only if both client and C implementation are buggy. */ + /* But empirically this happens frequently. */ +# endif + return(CORD_substr_checked(x, i, n)); +} + +/* See cord.h for definition. We assume i is in range. */ +int CORD_iter5(CORD x, size_t i, CORD_iter_fn f1, + CORD_batched_iter_fn f2, void * client_data) +{ + if (x == 0) return(0); + if (CORD_IS_STRING(x)) { + register const char *p = x+i; + + if (*p == '\0') ABORT("2nd arg to CORD_iter5 too big"); + if (f2 != CORD_NO_FN) { + return((*f2)(p, client_data)); + } else { + while (*p) { + if ((*f1)(*p, client_data)) return(1); + p++; + } + return(0); + } + } else if (IS_CONCATENATION(x)) { + register struct Concatenation * conc + = &(((CordRep *)x) -> concatenation); + + + if (i > 0) { + register size_t left_len = LEFT_LEN(conc); + + if (i >= left_len) { + return(CORD_iter5(conc -> right, i - left_len, f1, f2, + client_data)); + } + } + if (CORD_iter5(conc -> left, i, f1, f2, client_data)) { + return(1); + } + return(CORD_iter5(conc -> right, 0, f1, f2, client_data)); + } else /* function */ { + register struct Function * f = &(((CordRep *)x) -> function); + register size_t j; + register size_t lim = f -> len; + + for (j = i; j < lim; j++) { + if ((*f1)((*(f -> fn))(j, f -> client_data), client_data)) { + return(1); + } + } + return(0); + } +} + +#undef CORD_iter +int CORD_iter(CORD x, CORD_iter_fn f1, void * client_data) +{ + return(CORD_iter5(x, 0, f1, CORD_NO_FN, client_data)); +} + +int CORD_riter4(CORD x, size_t i, CORD_iter_fn f1, void * client_data) +{ + if (x == 0) return(0); + if (CORD_IS_STRING(x)) { + register const char *p = x + i; + register char c; + + for(;;) { + c = *p; + if (c == '\0') ABORT("2nd arg to CORD_riter4 too big"); + if ((*f1)(c, client_data)) return(1); + if (p == x) break; + p--; + } + return(0); + } else if (IS_CONCATENATION(x)) { + register struct Concatenation * conc + = &(((CordRep *)x) -> concatenation); + register CORD left_part = conc -> left; + register size_t left_len; + + left_len = LEFT_LEN(conc); + if (i >= left_len) { + if (CORD_riter4(conc -> right, i - left_len, f1, client_data)) { + return(1); + } + return(CORD_riter4(left_part, left_len - 1, f1, client_data)); + } else { + return(CORD_riter4(left_part, i, f1, client_data)); + } + } else /* function */ { + register struct Function * f = &(((CordRep *)x) -> function); + register size_t j; + + for (j = i; ; j--) { + if ((*f1)((*(f -> fn))(j, f -> client_data), client_data)) { + return(1); + } + if (j == 0) return(0); + } + } +} + +int CORD_riter(CORD x, CORD_iter_fn f1, void * client_data) +{ + return(CORD_riter4(x, CORD_len(x) - 1, f1, client_data)); +} + +/* + * The following functions are concerned with balancing cords. + * Strategy: + * Scan the cord from left to right, keeping the cord scanned so far + * as a forest of balanced trees of exponentialy decreasing length. + * When a new subtree needs to be added to the forest, we concatenate all + * shorter ones to the new tree in the appropriate order, and then insert + * the result into the forest. + * Crucial invariants: + * 1. The concatenation of the forest (in decreasing order) with the + * unscanned part of the rope is equal to the rope being balanced. + * 2. All trees in the forest are balanced. + * 3. forest[i] has depth at most i. + */ + +typedef struct { + CORD c; + size_t len; /* Actual length of c */ +} ForestElement; + +static size_t min_len [ MAX_DEPTH ]; + +static int min_len_init = 0; + +int CORD_max_len; + +typedef ForestElement Forest [ MAX_DEPTH ]; + /* forest[i].len >= fib(i+1) */ + /* The string is the concatenation */ + /* of the forest in order of DECREASING */ + /* indices. */ + +void CORD_init_min_len() +{ + register int i; + register size_t last, previous, current; + + min_len[0] = previous = 1; + min_len[1] = last = 2; + for (i = 2; i < MAX_DEPTH; i++) { + current = last + previous; + if (current < last) /* overflow */ current = last; + min_len[i] = current; + previous = last; + last = current; + } + CORD_max_len = last - 1; + min_len_init = 1; +} + + +void CORD_init_forest(ForestElement * forest, size_t max_len) +{ + register int i; + + for (i = 0; i < MAX_DEPTH; i++) { + forest[i].c = 0; + if (min_len[i] > max_len) return; + } + ABORT("Cord too long"); +} + +/* Add a leaf to the appropriate level in the forest, cleaning */ +/* out lower levels as necessary. */ +/* Also works if x is a balanced tree of concatenations; however */ +/* in this case an extra concatenation node may be inserted above x; */ +/* This node should not be counted in the statement of the invariants. */ +void CORD_add_forest(ForestElement * forest, CORD x, size_t len) +{ + register int i = 0; + register CORD sum = CORD_EMPTY; + register size_t sum_len = 0; + + while (len > min_len[i + 1]) { + if (forest[i].c != 0) { + sum = CORD_cat(forest[i].c, sum); + sum_len += forest[i].len; + forest[i].c = 0; + } + i++; + } + /* Sum has depth at most 1 greter than what would be required */ + /* for balance. */ + sum = CORD_cat(sum, x); + sum_len += len; + /* If x was a leaf, then sum is now balanced. To see this */ + /* consider the two cases in which forest[i-1] either is or is */ + /* not empty. */ + while (sum_len >= min_len[i]) { + if (forest[i].c != 0) { + sum = CORD_cat(forest[i].c, sum); + sum_len += forest[i].len; + /* This is again balanced, since sum was balanced, and has */ + /* allowable depth that differs from i by at most 1. */ + forest[i].c = 0; + } + i++; + } + i--; + forest[i].c = sum; + forest[i].len = sum_len; +} + +CORD CORD_concat_forest(ForestElement * forest, size_t expected_len) +{ + register int i = 0; + CORD sum = 0; + size_t sum_len = 0; + + while (sum_len != expected_len) { + if (forest[i].c != 0) { + sum = CORD_cat(forest[i].c, sum); + sum_len += forest[i].len; + } + i++; + } + return(sum); +} + +/* Insert the frontier of x into forest. Balanced subtrees are */ +/* treated as leaves. This potentially adds one to the depth */ +/* of the final tree. */ +void CORD_balance_insert(CORD x, size_t len, ForestElement * forest) +{ + register int depth; + + if (CORD_IS_STRING(x)) { + CORD_add_forest(forest, x, len); + } else if (IS_CONCATENATION(x) + && ((depth = DEPTH(x)) >= MAX_DEPTH + || len < min_len[depth])) { + register struct Concatenation * conc + = &(((CordRep *)x) -> concatenation); + size_t left_len = LEFT_LEN(conc); + + CORD_balance_insert(conc -> left, left_len, forest); + CORD_balance_insert(conc -> right, len - left_len, forest); + } else /* function or balanced */ { + CORD_add_forest(forest, x, len); + } +} + + +CORD CORD_balance(CORD x) +{ + Forest forest; + register size_t len; + + if (x == 0) return(0); + if (CORD_IS_STRING(x)) return(x); + if (!min_len_init) CORD_init_min_len(); + len = LEN(x); + CORD_init_forest(forest, len); + CORD_balance_insert(x, len, forest); + return(CORD_concat_forest(forest, len)); +} + + +/* Position primitives */ + +/* Private routines to deal with the hard cases only: */ + +/* P contains a prefix of the path to cur_pos. Extend it to a full */ +/* path and set up leaf info. */ +/* Return 0 if past the end of cord, 1 o.w. */ +void CORD__extend_path(register CORD_pos p) +{ + register struct CORD_pe * current_pe = &(p[0].path[p[0].path_len]); + register CORD top = current_pe -> pe_cord; + register size_t pos = p[0].cur_pos; + register size_t top_pos = current_pe -> pe_start_pos; + register size_t top_len = GEN_LEN(top); + + /* Fill in the rest of the path. */ + while(!CORD_IS_STRING(top) && IS_CONCATENATION(top)) { + register struct Concatenation * conc = + &(((CordRep *)top) -> concatenation); + register size_t left_len; + + left_len = LEFT_LEN(conc); + current_pe++; + if (pos >= top_pos + left_len) { + current_pe -> pe_cord = top = conc -> right; + current_pe -> pe_start_pos = top_pos = top_pos + left_len; + top_len -= left_len; + } else { + current_pe -> pe_cord = top = conc -> left; + current_pe -> pe_start_pos = top_pos; + top_len = left_len; + } + p[0].path_len++; + } + /* Fill in leaf description for fast access. */ + if (CORD_IS_STRING(top)) { + p[0].cur_leaf = top; + p[0].cur_start = top_pos; + p[0].cur_end = top_pos + top_len; + } else { + p[0].cur_end = 0; + } + if (pos >= top_pos + top_len) p[0].path_len = CORD_POS_INVALID; +} + +char CORD__pos_fetch(register CORD_pos p) +{ + /* Leaf is a function node */ + struct CORD_pe * pe = &((p)[0].path[(p)[0].path_len]); + CORD leaf = pe -> pe_cord; + register struct Function * f = &(((CordRep *)leaf) -> function); + + if (!IS_FUNCTION(leaf)) ABORT("CORD_pos_fetch: bad leaf"); + return ((*(f -> fn))(p[0].cur_pos - pe -> pe_start_pos, f -> client_data)); +} + +void CORD__next(register CORD_pos p) +{ + register size_t cur_pos = p[0].cur_pos + 1; + register struct CORD_pe * current_pe = &((p)[0].path[(p)[0].path_len]); + register CORD leaf = current_pe -> pe_cord; + + /* Leaf is not a string or we're at end of leaf */ + p[0].cur_pos = cur_pos; + if (!CORD_IS_STRING(leaf)) { + /* Function leaf */ + register struct Function * f = &(((CordRep *)leaf) -> function); + register size_t start_pos = current_pe -> pe_start_pos; + register size_t end_pos = start_pos + f -> len; + + if (cur_pos < end_pos) { + /* Fill cache and return. */ + register size_t i; + register size_t limit = cur_pos + FUNCTION_BUF_SZ; + register CORD_fn fn = f -> fn; + register void * client_data = f -> client_data; + + if (limit > end_pos) { + limit = end_pos; + } + for (i = cur_pos; i < limit; i++) { + p[0].function_buf[i - cur_pos] = + (*fn)(i - start_pos, client_data); + } + p[0].cur_start = cur_pos; + p[0].cur_leaf = p[0].function_buf; + p[0].cur_end = limit; + return; + } + } + /* End of leaf */ + /* Pop the stack until we find two concatenation nodes with the */ + /* same start position: this implies we were in left part. */ + { + while (p[0].path_len > 0 + && current_pe[0].pe_start_pos != current_pe[-1].pe_start_pos) { + p[0].path_len--; + current_pe--; + } + if (p[0].path_len == 0) { + p[0].path_len = CORD_POS_INVALID; + return; + } + } + p[0].path_len--; + CORD__extend_path(p); +} + +void CORD__prev(register CORD_pos p) +{ + register struct CORD_pe * pe = &(p[0].path[p[0].path_len]); + + if (p[0].cur_pos == 0) { + p[0].path_len = CORD_POS_INVALID; + return; + } + p[0].cur_pos--; + if (p[0].cur_pos >= pe -> pe_start_pos) return; + + /* Beginning of leaf */ + + /* Pop the stack until we find two concatenation nodes with the */ + /* different start position: this implies we were in right part. */ + { + register struct CORD_pe * current_pe = &((p)[0].path[(p)[0].path_len]); + + while (p[0].path_len > 0 + && current_pe[0].pe_start_pos == current_pe[-1].pe_start_pos) { + p[0].path_len--; + current_pe--; + } + } + p[0].path_len--; + CORD__extend_path(p); +} + +#undef CORD_pos_fetch +#undef CORD_next +#undef CORD_prev +#undef CORD_pos_to_index +#undef CORD_pos_to_cord +#undef CORD_pos_valid + +char CORD_pos_fetch(register CORD_pos p) +{ + if (p[0].cur_start <= p[0].cur_pos && p[0].cur_pos < p[0].cur_end) { + return(p[0].cur_leaf[p[0].cur_pos - p[0].cur_start]); + } else { + return(CORD__pos_fetch(p)); + } +} + +void CORD_next(CORD_pos p) +{ + if (p[0].cur_pos < p[0].cur_end - 1) { + p[0].cur_pos++; + } else { + CORD__next(p); + } +} + +void CORD_prev(CORD_pos p) +{ + if (p[0].cur_end != 0 && p[0].cur_pos > p[0].cur_start) { + p[0].cur_pos--; + } else { + CORD__prev(p); + } +} + +size_t CORD_pos_to_index(CORD_pos p) +{ + return(p[0].cur_pos); +} + +CORD CORD_pos_to_cord(CORD_pos p) +{ + return(p[0].path[0].pe_cord); +} + +int CORD_pos_valid(CORD_pos p) +{ + return(p[0].path_len != CORD_POS_INVALID); +} + +void CORD_set_pos(CORD_pos p, CORD x, size_t i) +{ + if (x == CORD_EMPTY) { + p[0].path_len = CORD_POS_INVALID; + return; + } + p[0].path[0].pe_cord = x; + p[0].path[0].pe_start_pos = 0; + p[0].path_len = 0; + p[0].cur_pos = i; + CORD__extend_path(p); +} diff --git a/gc/cord/cordprnt.c b/gc/cord/cordprnt.c new file mode 100644 index 0000000..9c8cc87 --- /dev/null +++ b/gc/cord/cordprnt.c @@ -0,0 +1,390 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* An sprintf implementation that understands cords. This is probably */ +/* not terribly portable. It assumes an ANSI stdarg.h. It further */ +/* assumes that I can make copies of va_list variables, and read */ +/* arguments repeatedly by applyting va_arg to the copies. This */ +/* could be avoided at some performance cost. */ +/* We also assume that unsigned and signed integers of various kinds */ +/* have the same sizes, and can be cast back and forth. */ +/* We assume that void * and char * have the same size. */ +/* All this cruft is needed because we want to rely on the underlying */ +/* sprintf implementation whenever possible. */ +/* Boehm, September 21, 1995 6:00 pm PDT */ + +#include "cord.h" +#include "ec.h" +#include <stdio.h> +#include <stdarg.h> +#include <string.h> +#include "gc.h" + +#define CONV_SPEC_LEN 50 /* Maximum length of a single */ + /* conversion specification. */ +#define CONV_RESULT_LEN 50 /* Maximum length of any */ + /* conversion with default */ + /* width and prec. */ + + +static int ec_len(CORD_ec x) +{ + return(CORD_len(x[0].ec_cord) + (x[0].ec_bufptr - x[0].ec_buf)); +} + +/* Possible nonumeric precision values. */ +# define NONE -1 +# define VARIABLE -2 +/* Copy the conversion specification from CORD_pos into the buffer buf */ +/* Return negative on error. */ +/* Source initially points one past the leading %. */ +/* It is left pointing at the conversion type. */ +/* Assign field width and precision to *width and *prec. */ +/* If width or prec is *, VARIABLE is assigned. */ +/* Set *left to 1 if left adjustment flag is present. */ +/* Set *long_arg to 1 if long flag ('l' or 'L') is present, or to */ +/* -1 if 'h' is present. */ +static int extract_conv_spec(CORD_pos source, char *buf, + int * width, int *prec, int *left, int * long_arg) +{ + register int result = 0; + register int current_number = 0; + register int saw_period = 0; + register int saw_number; + register int chars_so_far = 0; + register char current; + + *width = NONE; + buf[chars_so_far++] = '%'; + while(CORD_pos_valid(source)) { + if (chars_so_far >= CONV_SPEC_LEN) return(-1); + current = CORD_pos_fetch(source); + buf[chars_so_far++] = current; + switch(current) { + case '*': + saw_number = 1; + current_number = VARIABLE; + break; + case '0': + if (!saw_number) { + /* Zero fill flag; ignore */ + break; + } /* otherwise fall through: */ + case '1': + case '2': + case '3': + case '4': + case '5': + case '6': + case '7': + case '8': + case '9': + saw_number = 1; + current_number *= 10; + current_number += current - '0'; + break; + case '.': + saw_period = 1; + if(saw_number) { + *width = current_number; + saw_number = 0; + } + current_number = 0; + break; + case 'l': + case 'L': + *long_arg = 1; + current_number = 0; + break; + case 'h': + *long_arg = -1; + current_number = 0; + break; + case ' ': + case '+': + case '#': + current_number = 0; + break; + case '-': + *left = 1; + current_number = 0; + break; + case 'd': + case 'i': + case 'o': + case 'u': + case 'x': + case 'X': + case 'f': + case 'e': + case 'E': + case 'g': + case 'G': + case 'c': + case 'C': + case 's': + case 'S': + case 'p': + case 'n': + case 'r': + goto done; + default: + return(-1); + } + CORD_next(source); + } + return(-1); + done: + if (saw_number) { + if (saw_period) { + *prec = current_number; + } else { + *prec = NONE; + *width = current_number; + } + } else { + *prec = NONE; + } + buf[chars_so_far] = '\0'; + return(result); +} + +int CORD_vsprintf(CORD * out, CORD format, va_list args) +{ + CORD_ec result; + register int count; + register char current; + CORD_pos pos; + char conv_spec[CONV_SPEC_LEN + 1]; + + CORD_ec_init(result); + for (CORD_set_pos(pos, format, 0); CORD_pos_valid(pos); CORD_next(pos)) { + current = CORD_pos_fetch(pos); + if (current == '%') { + CORD_next(pos); + if (!CORD_pos_valid(pos)) return(-1); + current = CORD_pos_fetch(pos); + if (current == '%') { + CORD_ec_append(result, current); + } else { + int width, prec; + int left_adj = 0; + int long_arg = 0; + CORD arg; + size_t len; + + if (extract_conv_spec(pos, conv_spec, + &width, &prec, + &left_adj, &long_arg) < 0) { + return(-1); + } + current = CORD_pos_fetch(pos); + switch(current) { + case 'n': + /* Assign length to next arg */ + if (long_arg == 0) { + int * pos_ptr; + pos_ptr = va_arg(args, int *); + *pos_ptr = ec_len(result); + } else if (long_arg > 0) { + long * pos_ptr; + pos_ptr = va_arg(args, long *); + *pos_ptr = ec_len(result); + } else { + short * pos_ptr; + pos_ptr = va_arg(args, short *); + *pos_ptr = ec_len(result); + } + goto done; + case 'r': + /* Append cord and any padding */ + if (width == VARIABLE) width = va_arg(args, int); + if (prec == VARIABLE) prec = va_arg(args, int); + arg = va_arg(args, CORD); + len = CORD_len(arg); + if (prec != NONE && len > prec) { + if (prec < 0) return(-1); + arg = CORD_substr(arg, 0, prec); + len = prec; + } + if (width != NONE && len < width) { + char * blanks = GC_MALLOC_ATOMIC(width-len+1); + + memset(blanks, ' ', width-len); + blanks[width-len] = '\0'; + if (left_adj) { + arg = CORD_cat(arg, blanks); + } else { + arg = CORD_cat(blanks, arg); + } + } + CORD_ec_append_cord(result, arg); + goto done; + case 'c': + if (width == NONE && prec == NONE) { + register char c; + + c = va_arg(args, char); + CORD_ec_append(result, c); + goto done; + } + break; + case 's': + if (width == NONE && prec == NONE) { + char * str = va_arg(args, char *); + register char c; + + while (c = *str++) { + CORD_ec_append(result, c); + } + goto done; + } + break; + default: + break; + } + /* Use standard sprintf to perform conversion */ + { + register char * buf; + va_list vsprintf_args = args; + /* The above does not appear to be sanctioned */ + /* by the ANSI C standard. */ + int max_size = 0; + int res; + + if (width == VARIABLE) width = va_arg(args, int); + if (prec == VARIABLE) prec = va_arg(args, int); + if (width != NONE) max_size = width; + if (prec != NONE && prec > max_size) max_size = prec; + max_size += CONV_RESULT_LEN; + if (max_size >= CORD_BUFSZ) { + buf = GC_MALLOC_ATOMIC(max_size + 1); + } else { + if (CORD_BUFSZ - (result[0].ec_bufptr-result[0].ec_buf) + < max_size) { + CORD_ec_flush_buf(result); + } + buf = result[0].ec_bufptr; + } + switch(current) { + case 'd': + case 'i': + case 'o': + case 'u': + case 'x': + case 'X': + case 'c': + if (long_arg <= 0) { + (void) va_arg(args, int); + } else if (long_arg > 0) { + (void) va_arg(args, long); + } + break; + case 's': + case 'p': + (void) va_arg(args, char *); + break; + case 'f': + case 'e': + case 'E': + case 'g': + case 'G': + (void) va_arg(args, double); + break; + default: + return(-1); + } + res = vsprintf(buf, conv_spec, vsprintf_args); + len = (size_t)res; + if ((char *)(GC_word)res == buf) { + /* old style vsprintf */ + len = strlen(buf); + } else if (res < 0) { + return(-1); + } + if (buf != result[0].ec_bufptr) { + register char c; + + while (c = *buf++) { + CORD_ec_append(result, c); + } + } else { + result[0].ec_bufptr = buf + len; + } + } + done:; + } + } else { + CORD_ec_append(result, current); + } + } + count = ec_len(result); + *out = CORD_balance(CORD_ec_to_cord(result)); + return(count); +} + +int CORD_sprintf(CORD * out, CORD format, ...) +{ + va_list args; + int result; + + va_start(args, format); + result = CORD_vsprintf(out, format, args); + va_end(args); + return(result); +} + +int CORD_fprintf(FILE * f, CORD format, ...) +{ + va_list args; + int result; + CORD out; + + va_start(args, format); + result = CORD_vsprintf(&out, format, args); + va_end(args); + if (result > 0) CORD_put(out, f); + return(result); +} + +int CORD_vfprintf(FILE * f, CORD format, va_list args) +{ + int result; + CORD out; + + result = CORD_vsprintf(&out, format, args); + if (result > 0) CORD_put(out, f); + return(result); +} + +int CORD_printf(CORD format, ...) +{ + va_list args; + int result; + CORD out; + + va_start(args, format); + result = CORD_vsprintf(&out, format, args); + va_end(args); + if (result > 0) CORD_put(out, stdout); + return(result); +} + +int CORD_vprintf(CORD format, va_list args) +{ + int result; + CORD out; + + result = CORD_vsprintf(&out, format, args); + if (result > 0) CORD_put(out, stdout); + return(result); +} diff --git a/gc/cord/cordtest.c b/gc/cord/cordtest.c new file mode 100644 index 0000000..d11d7dd --- /dev/null +++ b/gc/cord/cordtest.c @@ -0,0 +1,228 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, August 24, 1994 11:58 am PDT */ +# include "cord.h" +# include <string.h> +# include <stdio.h> +/* This is a very incomplete test of the cord package. It knows about */ +/* a few internals of the package (e.g. when C strings are returned) */ +/* that real clients shouldn't rely on. */ + +# define ABORT(string) \ +{ int x = 0; fprintf(stderr, "FAILED: %s\n", string); x = 1 / x; abort(); } + +int count; + +int test_fn(char c, void * client_data) +{ + if (client_data != (void *)13) ABORT("bad client data"); + if (count < 64*1024+1) { + if ((count & 1) == 0) { + if (c != 'b') ABORT("bad char"); + } else { + if (c != 'a') ABORT("bad char"); + } + count++; + return(0); + } else { + if (c != 'c') ABORT("bad char"); + count++; + return(1); + } +} + +char id_cord_fn(size_t i, void * client_data) +{ + return((char)i); +} + +void test_basics() +{ + CORD x = CORD_from_char_star("ab"); + register int i; + char c; + CORD y; + CORD_pos p; + + x = CORD_cat(x,x); + if (!CORD_IS_STRING(x)) ABORT("short cord should usually be a string"); + if (strcmp(x, "abab") != 0) ABORT("bad CORD_cat result"); + + for (i = 1; i < 16; i++) { + x = CORD_cat(x,x); + } + x = CORD_cat(x,"c"); + if (CORD_len(x) != 128*1024+1) ABORT("bad length"); + + count = 0; + if (CORD_iter5(x, 64*1024-1, test_fn, CORD_NO_FN, (void *)13) == 0) { + ABORT("CORD_iter5 failed"); + } + if (count != 64*1024 + 2) ABORT("CORD_iter5 failed"); + + count = 0; + CORD_set_pos(p, x, 64*1024-1); + while(CORD_pos_valid(p)) { + (void) test_fn(CORD_pos_fetch(p), (void *)13); + CORD_next(p); + } + if (count != 64*1024 + 2) ABORT("Position based iteration failed"); + + y = CORD_substr(x, 1023, 5); + if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); + if (strcmp(y, "babab") != 0) ABORT("bad CORD_substr result"); + + y = CORD_substr(x, 1024, 8); + if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); + if (strcmp(y, "abababab") != 0) ABORT("bad CORD_substr result"); + + y = CORD_substr(x, 128*1024-1, 8); + if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); + if (strcmp(y, "bc") != 0) ABORT("bad CORD_substr result"); + + x = CORD_balance(x); + if (CORD_len(x) != 128*1024+1) ABORT("bad length"); + + count = 0; + if (CORD_iter5(x, 64*1024-1, test_fn, CORD_NO_FN, (void *)13) == 0) { + ABORT("CORD_iter5 failed"); + } + if (count != 64*1024 + 2) ABORT("CORD_iter5 failed"); + + y = CORD_substr(x, 1023, 5); + if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); + if (strcmp(y, "babab") != 0) ABORT("bad CORD_substr result"); + y = CORD_from_fn(id_cord_fn, 0, 13); + i = 0; + CORD_set_pos(p, y, i); + while(CORD_pos_valid(p)) { + c = CORD_pos_fetch(p); + if(c != i) ABORT("Traversal of function node failed"); + CORD_next(p); i++; + } + if (i != 13) ABORT("Bad apparent length for function node"); +} + +void test_extras() +{ +# if defined(__OS2__) +# define FNAME1 "tmp1" +# define FNAME2 "tmp2" +# elif defined(AMIGA) +# define FNAME1 "T:tmp1" +# define FNAME2 "T:tmp2" +# else +# define FNAME1 "/tmp/cord_test" +# define FNAME2 "/tmp/cord_test2" +# endif + register int i; + CORD y = "abcdefghijklmnopqrstuvwxyz0123456789"; + CORD x = "{}"; + CORD w, z; + FILE *f; + FILE *f1a, *f1b, *f2; + + w = CORD_cat(CORD_cat(y,y),y); + z = CORD_catn(3,y,y,y); + if (CORD_cmp(w,z) != 0) ABORT("CORD_catn comparison wrong"); + for (i = 1; i < 100; i++) { + x = CORD_cat(x, y); + } + z = CORD_balance(x); + if (CORD_cmp(x,z) != 0) ABORT("balanced string comparison wrong"); + if (CORD_cmp(x,CORD_cat(z, CORD_nul(13))) >= 0) ABORT("comparison 2"); + if (CORD_cmp(CORD_cat(x, CORD_nul(13)), z) <= 0) ABORT("comparison 3"); + if (CORD_cmp(x,CORD_cat(z, "13")) >= 0) ABORT("comparison 4"); + if ((f = fopen(FNAME1, "w")) == 0) ABORT("open failed"); + if (CORD_put(z,f) == EOF) ABORT("CORD_put failed"); + if (fclose(f) == EOF) ABORT("fclose failed"); + w = CORD_from_file(f1a = fopen(FNAME1, "rb")); + if (CORD_len(w) != CORD_len(z)) ABORT("file length wrong"); + if (CORD_cmp(w,z) != 0) ABORT("file comparison wrong"); + if (CORD_cmp(CORD_substr(w, 50*36+2, 36), y) != 0) + ABORT("file substr wrong"); + z = CORD_from_file_lazy(f1b = fopen(FNAME1, "rb")); + if (CORD_cmp(w,z) != 0) ABORT("File conversions differ"); + if (CORD_chr(w, 0, '9') != 37) ABORT("CORD_chr failed 1"); + if (CORD_chr(w, 3, 'a') != 38) ABORT("CORD_chr failed 2"); + if (CORD_rchr(w, CORD_len(w) - 1, '}') != 1) ABORT("CORD_rchr failed"); + x = y; + for (i = 1; i < 14; i++) { + x = CORD_cat(x,x); + } + if ((f = fopen(FNAME2, "w")) == 0) ABORT("2nd open failed"); + if (CORD_put(x,f) == EOF) ABORT("CORD_put failed"); + if (fclose(f) == EOF) ABORT("fclose failed"); + w = CORD_from_file(f2 = fopen(FNAME2, "rb")); + if (CORD_len(w) != CORD_len(x)) ABORT("file length wrong"); + if (CORD_cmp(w,x) != 0) ABORT("file comparison wrong"); + if (CORD_cmp(CORD_substr(w, 1000*36, 36), y) != 0) + ABORT("file substr wrong"); + if (strcmp(CORD_to_char_star(CORD_substr(w, 1000*36, 36)), y) != 0) + ABORT("char * file substr wrong"); + if (strcmp(CORD_substr(w, 1000*36, 2), "ab") != 0) + ABORT("short file substr wrong"); + if (CORD_str(x,1,"9a") != 35) ABORT("CORD_str failed 1"); + if (CORD_str(x,0,"9abcdefghijk") != 35) ABORT("CORD_str failed 2"); + if (CORD_str(x,0,"9abcdefghijx") != CORD_NOT_FOUND) + ABORT("CORD_str failed 3"); + if (CORD_str(x,0,"9>") != CORD_NOT_FOUND) ABORT("CORD_str failed 4"); + if (remove(FNAME1) != 0) { + /* On some systems, e.g. OS2, this may fail if f1 is still open. */ + if ((fclose(f1a) == EOF) & (fclose(f1b) == EOF)) + ABORT("fclose(f1) failed"); + if (remove(FNAME1) != 0) ABORT("remove 1 failed"); + } + if (remove(FNAME2) != 0) { + if (fclose(f2) == EOF) ABORT("fclose(f2) failed"); + if (remove(FNAME2) != 0) ABORT("remove 2 failed"); + } +} + +void test_printf() +{ + CORD result; + char result2[200]; + long l; + short s; + CORD x; + + if (CORD_sprintf(&result, "%7.2f%ln", 3.14159F, &l) != 7) + ABORT("CORD_sprintf failed 1"); + if (CORD_cmp(result, " 3.14") != 0)ABORT("CORD_sprintf goofed 1"); + if (l != 7) ABORT("CORD_sprintf goofed 2"); + if (CORD_sprintf(&result, "%-7.2s%hn%c%s", "abcd", &s, 'x', "yz") != 10) + ABORT("CORD_sprintf failed 2"); + if (CORD_cmp(result, "ab xyz") != 0)ABORT("CORD_sprintf goofed 3"); + if (s != 7) ABORT("CORD_sprintf goofed 4"); + x = "abcdefghij"; + x = CORD_cat(x,x); + x = CORD_cat(x,x); + x = CORD_cat(x,x); + if (CORD_sprintf(&result, "->%-120.78r!\n", x) != 124) + ABORT("CORD_sprintf failed 3"); + (void) sprintf(result2, "->%-120.78s!\n", CORD_to_char_star(x)); + if (CORD_cmp(result, result2) != 0)ABORT("CORD_sprintf goofed 5"); +} + +main() +{ +# ifdef THINK_C + printf("cordtest:\n"); +# endif + test_basics(); + test_extras(); + test_printf(); + CORD_fprintf(stderr, "SUCCEEDED\n"); + return(0); +} diff --git a/gc/cord/cordxtra.c b/gc/cord/cordxtra.c new file mode 100644 index 0000000..a5be10d --- /dev/null +++ b/gc/cord/cordxtra.c @@ -0,0 +1,621 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * Author: Hans-J. Boehm (boehm@parc.xerox.com) + */ +/* + * These are functions on cords that do not need to understand their + * implementation. They serve also serve as example client code for + * cord_basics. + */ +/* Boehm, December 8, 1995 1:53 pm PST */ +# include <stdio.h> +# include <string.h> +# include <stdlib.h> +# include <stdarg.h> +# include "cord.h" +# include "ec.h" +# define I_HIDE_POINTERS /* So we get access to allocation lock. */ + /* We use this for lazy file reading, */ + /* so that we remain independent */ + /* of the threads primitives. */ +# include "gc.h" + +/* For now we assume that pointer reads and writes are atomic, */ +/* i.e. another thread always sees the state before or after */ +/* a write. This might be false on a Motorola M68K with */ +/* pointers that are not 32-bit aligned. But there probably */ +/* aren't too many threads packages running on those. */ +# define ATOMIC_WRITE(x,y) (x) = (y) +# define ATOMIC_READ(x) (*(x)) + +/* The standard says these are in stdio.h, but they aren't always: */ +# ifndef SEEK_SET +# define SEEK_SET 0 +# endif +# ifndef SEEK_END +# define SEEK_END 2 +# endif + +# define BUFSZ 2048 /* Size of stack allocated buffers when */ + /* we want large buffers. */ + +typedef void (* oom_fn)(void); + +# define OUT_OF_MEMORY { if (CORD_oom_fn != (oom_fn) 0) (*CORD_oom_fn)(); \ + ABORT("Out of memory\n"); } +# define ABORT(msg) { fprintf(stderr, "%s\n", msg); abort(); } + +CORD CORD_cat_char(CORD x, char c) +{ + register char * string; + + if (c == '\0') return(CORD_cat(x, CORD_nul(1))); + string = GC_MALLOC_ATOMIC(2); + if (string == 0) OUT_OF_MEMORY; + string[0] = c; + string[1] = '\0'; + return(CORD_cat_char_star(x, string, 1)); +} + +CORD CORD_catn(int nargs, ...) +{ + register CORD result = CORD_EMPTY; + va_list args; + register int i; + + va_start(args, nargs); + for (i = 0; i < nargs; i++) { + register CORD next = va_arg(args, CORD); + result = CORD_cat(result, next); + } + va_end(args); + return(result); +} + +typedef struct { + size_t len; + size_t count; + char * buf; +} CORD_fill_data; + +int CORD_fill_proc(char c, void * client_data) +{ + register CORD_fill_data * d = (CORD_fill_data *)client_data; + register size_t count = d -> count; + + (d -> buf)[count] = c; + d -> count = ++count; + if (count >= d -> len) { + return(1); + } else { + return(0); + } +} + +int CORD_batched_fill_proc(const char * s, void * client_data) +{ + register CORD_fill_data * d = (CORD_fill_data *)client_data; + register size_t count = d -> count; + register size_t max = d -> len; + register char * buf = d -> buf; + register const char * t = s; + + while((buf[count] = *t++) != '\0') { + count++; + if (count >= max) { + d -> count = count; + return(1); + } + } + d -> count = count; + return(0); +} + +/* Fill buf with len characters starting at i. */ +/* Assumes len characters are available. */ +void CORD_fill_buf(CORD x, size_t i, size_t len, char * buf) +{ + CORD_fill_data fd; + + fd.len = len; + fd.buf = buf; + fd.count = 0; + (void)CORD_iter5(x, i, CORD_fill_proc, CORD_batched_fill_proc, &fd); +} + +int CORD_cmp(CORD x, CORD y) +{ + CORD_pos xpos; + CORD_pos ypos; + register size_t avail, yavail; + + if (y == CORD_EMPTY) return(x != CORD_EMPTY); + if (x == CORD_EMPTY) return(-1); + if (CORD_IS_STRING(y) && CORD_IS_STRING(x)) return(strcmp(x,y)); + CORD_set_pos(xpos, x, 0); + CORD_set_pos(ypos, y, 0); + for(;;) { + if (!CORD_pos_valid(xpos)) { + if (CORD_pos_valid(ypos)) { + return(-1); + } else { + return(0); + } + } + if (!CORD_pos_valid(ypos)) { + return(1); + } + if ((avail = CORD_pos_chars_left(xpos)) <= 0 + || (yavail = CORD_pos_chars_left(ypos)) <= 0) { + register char xcurrent = CORD_pos_fetch(xpos); + register char ycurrent = CORD_pos_fetch(ypos); + if (xcurrent != ycurrent) return(xcurrent - ycurrent); + CORD_next(xpos); + CORD_next(ypos); + } else { + /* process as many characters as we can */ + register int result; + + if (avail > yavail) avail = yavail; + result = strncmp(CORD_pos_cur_char_addr(xpos), + CORD_pos_cur_char_addr(ypos), avail); + if (result != 0) return(result); + CORD_pos_advance(xpos, avail); + CORD_pos_advance(ypos, avail); + } + } +} + +int CORD_ncmp(CORD x, size_t x_start, CORD y, size_t y_start, size_t len) +{ + CORD_pos xpos; + CORD_pos ypos; + register size_t count; + register long avail, yavail; + + CORD_set_pos(xpos, x, x_start); + CORD_set_pos(ypos, y, y_start); + for(count = 0; count < len;) { + if (!CORD_pos_valid(xpos)) { + if (CORD_pos_valid(ypos)) { + return(-1); + } else { + return(0); + } + } + if (!CORD_pos_valid(ypos)) { + return(1); + } + if ((avail = CORD_pos_chars_left(xpos)) <= 0 + || (yavail = CORD_pos_chars_left(ypos)) <= 0) { + register char xcurrent = CORD_pos_fetch(xpos); + register char ycurrent = CORD_pos_fetch(ypos); + if (xcurrent != ycurrent) return(xcurrent - ycurrent); + CORD_next(xpos); + CORD_next(ypos); + count++; + } else { + /* process as many characters as we can */ + register int result; + + if (avail > yavail) avail = yavail; + count += avail; + if (count > len) avail -= (count - len); + result = strncmp(CORD_pos_cur_char_addr(xpos), + CORD_pos_cur_char_addr(ypos), (size_t)avail); + if (result != 0) return(result); + CORD_pos_advance(xpos, (size_t)avail); + CORD_pos_advance(ypos, (size_t)avail); + } + } + return(0); +} + +char * CORD_to_char_star(CORD x) +{ + register size_t len = CORD_len(x); + char * result = GC_MALLOC_ATOMIC(len + 1); + + if (result == 0) OUT_OF_MEMORY; + CORD_fill_buf(x, 0, len, result); + result[len] = '\0'; + return(result); +} + +CORD CORD_from_char_star(const char *s) +{ + char * result; + size_t len = strlen(s); + + if (0 == len) return(CORD_EMPTY); + result = GC_MALLOC_ATOMIC(len + 1); + if (result == 0) OUT_OF_MEMORY; + memcpy(result, s, len+1); + return(result); +} + +const char * CORD_to_const_char_star(CORD x) +{ + if (x == 0) return(""); + if (CORD_IS_STRING(x)) return((const char *)x); + return(CORD_to_char_star(x)); +} + +char CORD_fetch(CORD x, size_t i) +{ + CORD_pos xpos; + + CORD_set_pos(xpos, x, i); + if (!CORD_pos_valid(xpos)) ABORT("bad index?"); + return(CORD_pos_fetch(xpos)); +} + + +int CORD_put_proc(char c, void * client_data) +{ + register FILE * f = (FILE *)client_data; + + return(putc(c, f) == EOF); +} + +int CORD_batched_put_proc(const char * s, void * client_data) +{ + register FILE * f = (FILE *)client_data; + + return(fputs(s, f) == EOF); +} + + +int CORD_put(CORD x, FILE * f) +{ + if (CORD_iter5(x, 0, CORD_put_proc, CORD_batched_put_proc, f)) { + return(EOF); + } else { + return(1); + } +} + +typedef struct { + size_t pos; /* Current position in the cord */ + char target; /* Character we're looking for */ +} chr_data; + +int CORD_chr_proc(char c, void * client_data) +{ + register chr_data * d = (chr_data *)client_data; + + if (c == d -> target) return(1); + (d -> pos) ++; + return(0); +} + +int CORD_rchr_proc(char c, void * client_data) +{ + register chr_data * d = (chr_data *)client_data; + + if (c == d -> target) return(1); + (d -> pos) --; + return(0); +} + +int CORD_batched_chr_proc(const char *s, void * client_data) +{ + register chr_data * d = (chr_data *)client_data; + register char * occ = strchr(s, d -> target); + + if (occ == 0) { + d -> pos += strlen(s); + return(0); + } else { + d -> pos += occ - s; + return(1); + } +} + +size_t CORD_chr(CORD x, size_t i, int c) +{ + chr_data d; + + d.pos = i; + d.target = c; + if (CORD_iter5(x, i, CORD_chr_proc, CORD_batched_chr_proc, &d)) { + return(d.pos); + } else { + return(CORD_NOT_FOUND); + } +} + +size_t CORD_rchr(CORD x, size_t i, int c) +{ + chr_data d; + + d.pos = i; + d.target = c; + if (CORD_riter4(x, i, CORD_rchr_proc, &d)) { + return(d.pos); + } else { + return(CORD_NOT_FOUND); + } +} + +/* Find the first occurrence of s in x at position start or later. */ +/* This uses an asymptotically poor algorithm, which should typically */ +/* perform acceptably. We compare the first few characters directly, */ +/* and call CORD_ncmp whenever there is a partial match. */ +/* This has the advantage that we allocate very little, or not at all. */ +/* It's very fast if there are few close misses. */ +size_t CORD_str(CORD x, size_t start, CORD s) +{ + CORD_pos xpos; + size_t xlen = CORD_len(x); + size_t slen; + register size_t start_len; + const char * s_start; + unsigned long s_buf = 0; /* The first few characters of s */ + unsigned long x_buf = 0; /* Start of candidate substring. */ + /* Initialized only to make compilers */ + /* happy. */ + unsigned long mask = 0; + register size_t i; + register size_t match_pos; + + if (s == CORD_EMPTY) return(start); + if (CORD_IS_STRING(s)) { + s_start = s; + slen = strlen(s); + } else { + s_start = CORD_to_char_star(CORD_substr(s, 0, sizeof(unsigned long))); + slen = CORD_len(s); + } + if (xlen < start || xlen - start < slen) return(CORD_NOT_FOUND); + start_len = slen; + if (start_len > sizeof(unsigned long)) start_len = sizeof(unsigned long); + CORD_set_pos(xpos, x, start); + for (i = 0; i < start_len; i++) { + mask <<= 8; + mask |= 0xff; + s_buf <<= 8; + s_buf |= s_start[i]; + x_buf <<= 8; + x_buf |= CORD_pos_fetch(xpos); + CORD_next(xpos); + } + for (match_pos = start; ; match_pos++) { + if ((x_buf & mask) == s_buf) { + if (slen == start_len || + CORD_ncmp(x, match_pos + start_len, + s, start_len, slen - start_len) == 0) { + return(match_pos); + } + } + if ( match_pos == xlen - slen ) { + return(CORD_NOT_FOUND); + } + x_buf <<= 8; + x_buf |= CORD_pos_fetch(xpos); + CORD_next(xpos); + } +} + +void CORD_ec_flush_buf(CORD_ec x) +{ + register size_t len = x[0].ec_bufptr - x[0].ec_buf; + char * s; + + if (len == 0) return; + s = GC_MALLOC_ATOMIC(len+1); + memcpy(s, x[0].ec_buf, len); + s[len] = '\0'; + x[0].ec_cord = CORD_cat_char_star(x[0].ec_cord, s, len); + x[0].ec_bufptr = x[0].ec_buf; +} + +void CORD_ec_append_cord(CORD_ec x, CORD s) +{ + CORD_ec_flush_buf(x); + x[0].ec_cord = CORD_cat(x[0].ec_cord, s); +} + +/*ARGSUSED*/ +char CORD_nul_func(size_t i, void * client_data) +{ + return((char)(unsigned long)client_data); +} + + +CORD CORD_chars(char c, size_t i) +{ + return(CORD_from_fn(CORD_nul_func, (void *)(unsigned long)c, i)); +} + +CORD CORD_from_file_eager(FILE * f) +{ + register int c; + CORD_ec ecord; + + CORD_ec_init(ecord); + for(;;) { + c = getc(f); + if (c == 0) { + /* Append the right number of NULs */ + /* Note that any string of NULs is rpresented in 4 words, */ + /* independent of its length. */ + register size_t count = 1; + + CORD_ec_flush_buf(ecord); + while ((c = getc(f)) == 0) count++; + ecord[0].ec_cord = CORD_cat(ecord[0].ec_cord, CORD_nul(count)); + } + if (c == EOF) break; + CORD_ec_append(ecord, c); + } + (void) fclose(f); + return(CORD_balance(CORD_ec_to_cord(ecord))); +} + +/* The state maintained for a lazily read file consists primarily */ +/* of a large direct-mapped cache of previously read values. */ +/* We could rely more on stdio buffering. That would have 2 */ +/* disadvantages: */ +/* 1) Empirically, not all fseek implementations preserve the */ +/* buffer whenever they could. */ +/* 2) It would fail if 2 different sections of a long cord */ +/* were being read alternately. */ +/* We do use the stdio buffer for read ahead. */ +/* To guarantee thread safety in the presence of atomic pointer */ +/* writes, cache lines are always replaced, and never modified in */ +/* place. */ + +# define LOG_CACHE_SZ 14 +# define CACHE_SZ (1 << LOG_CACHE_SZ) +# define LOG_LINE_SZ 9 +# define LINE_SZ (1 << LOG_LINE_SZ) + +typedef struct { + size_t tag; + char data[LINE_SZ]; + /* data[i%LINE_SZ] = ith char in file if tag = i/LINE_SZ */ +} cache_line; + +typedef struct { + FILE * lf_file; + size_t lf_current; /* Current file pointer value */ + cache_line * volatile lf_cache[CACHE_SZ/LINE_SZ]; +} lf_state; + +# define MOD_CACHE_SZ(n) ((n) & (CACHE_SZ - 1)) +# define DIV_CACHE_SZ(n) ((n) >> LOG_CACHE_SZ) +# define MOD_LINE_SZ(n) ((n) & (LINE_SZ - 1)) +# define DIV_LINE_SZ(n) ((n) >> LOG_LINE_SZ) +# define LINE_START(n) ((n) & ~(LINE_SZ - 1)) + +typedef struct { + lf_state * state; + size_t file_pos; /* Position of needed character. */ + cache_line * new_cache; +} refill_data; + +/* Executed with allocation lock. */ +static char refill_cache(client_data) +refill_data * client_data; +{ + register lf_state * state = client_data -> state; + register size_t file_pos = client_data -> file_pos; + FILE *f = state -> lf_file; + size_t line_start = LINE_START(file_pos); + size_t line_no = DIV_LINE_SZ(MOD_CACHE_SZ(file_pos)); + cache_line * new_cache = client_data -> new_cache; + + if (line_start != state -> lf_current + && fseek(f, line_start, SEEK_SET) != 0) { + ABORT("fseek failed"); + } + if (fread(new_cache -> data, sizeof(char), LINE_SZ, f) + <= file_pos - line_start) { + ABORT("fread failed"); + } + new_cache -> tag = DIV_LINE_SZ(file_pos); + /* Store barrier goes here. */ + ATOMIC_WRITE(state -> lf_cache[line_no], new_cache); + state -> lf_current = line_start + LINE_SZ; + return(new_cache->data[MOD_LINE_SZ(file_pos)]); +} + +char CORD_lf_func(size_t i, void * client_data) +{ + register lf_state * state = (lf_state *)client_data; + register cache_line * volatile * cl_addr = + &(state -> lf_cache[DIV_LINE_SZ(MOD_CACHE_SZ(i))]); + register cache_line * cl = (cache_line *)ATOMIC_READ(cl_addr); + + if (cl == 0 || cl -> tag != DIV_LINE_SZ(i)) { + /* Cache miss */ + refill_data rd; + + rd.state = state; + rd.file_pos = i; + rd.new_cache = GC_NEW_ATOMIC(cache_line); + if (rd.new_cache == 0) OUT_OF_MEMORY; + return((char)(GC_word) + GC_call_with_alloc_lock((GC_fn_type) refill_cache, &rd)); + } + return(cl -> data[MOD_LINE_SZ(i)]); +} + +/*ARGSUSED*/ +void CORD_lf_close_proc(void * obj, void * client_data) +{ + if (fclose(((lf_state *)obj) -> lf_file) != 0) { + ABORT("CORD_lf_close_proc: fclose failed"); + } +} + +CORD CORD_from_file_lazy_inner(FILE * f, size_t len) +{ + register lf_state * state = GC_NEW(lf_state); + register int i; + + if (state == 0) OUT_OF_MEMORY; + if (len != 0) { + /* Dummy read to force buffer allocation. */ + /* This greatly increases the probability */ + /* of avoiding deadlock if buffer allocation */ + /* is redirected to GC_malloc and the */ + /* world is multithreaded. */ + char buf[1]; + + (void) fread(buf, 1, 1, f); + rewind(f); + } + state -> lf_file = f; + for (i = 0; i < CACHE_SZ/LINE_SZ; i++) { + state -> lf_cache[i] = 0; + } + state -> lf_current = 0; + GC_REGISTER_FINALIZER(state, CORD_lf_close_proc, 0, 0, 0); + return(CORD_from_fn(CORD_lf_func, state, len)); +} + +CORD CORD_from_file_lazy(FILE * f) +{ + register long len; + + if (fseek(f, 0l, SEEK_END) != 0) { + ABORT("Bad fd argument - fseek failed"); + } + if ((len = ftell(f)) < 0) { + ABORT("Bad fd argument - ftell failed"); + } + rewind(f); + return(CORD_from_file_lazy_inner(f, (size_t)len)); +} + +# define LAZY_THRESHOLD (128*1024 + 1) + +CORD CORD_from_file(FILE * f) +{ + register long len; + + if (fseek(f, 0l, SEEK_END) != 0) { + ABORT("Bad fd argument - fseek failed"); + } + if ((len = ftell(f)) < 0) { + ABORT("Bad fd argument - ftell failed"); + } + rewind(f); + if (len < LAZY_THRESHOLD) { + return(CORD_from_file_eager(f)); + } else { + return(CORD_from_file_lazy_inner(f, (size_t)len)); + } +} diff --git a/gc/cord/de.c b/gc/cord/de.c new file mode 100644 index 0000000..fda7142 --- /dev/null +++ b/gc/cord/de.c @@ -0,0 +1,603 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * Author: Hans-J. Boehm (boehm@parc.xerox.com) + */ +/* + * A really simple-minded text editor based on cords. + * Things it does right: + * No size bounds. + * Inbounded undo. + * Shouldn't crash no matter what file you invoke it on (e.g. /vmunix) + * (Make sure /vmunix is not writable before you try this.) + * Scrolls horizontally. + * Things it does wrong: + * It doesn't handle tabs reasonably (use "expand" first). + * The command set is MUCH too small. + * The redisplay algorithm doesn't let curses do the scrolling. + * The rule for moving the window over the file is suboptimal. + */ +/* Boehm, February 6, 1995 12:27 pm PST */ + +/* Boehm, May 19, 1994 2:20 pm PDT */ +#include <stdio.h> +#include "gc.h" +#include "cord.h" + +#ifdef THINK_C +#define MACINTOSH +#include <ctype.h> +#endif + +#if defined(__BORLANDC__) && !defined(WIN32) + /* If this is DOS or win16, we'll fail anyway. */ + /* Might as well assume win32. */ +# define WIN32 +#endif + +#if defined(WIN32) +# include <windows.h> +# include "de_win.h" +#elif defined(MACINTOSH) +# include <console.h> +/* curses emulation. */ +# define initscr() +# define endwin() +# define nonl() +# define noecho() csetmode(C_NOECHO, stdout) +# define cbreak() csetmode(C_CBREAK, stdout) +# define refresh() +# define addch(c) putchar(c) +# define standout() cinverse(1, stdout) +# define standend() cinverse(0, stdout) +# define move(line,col) cgotoxy(col + 1, line + 1, stdout) +# define clrtoeol() ccleol(stdout) +# define de_error(s) { fprintf(stderr, s); getchar(); } +# define LINES 25 +# define COLS 80 +#else +# include <curses.h> +# define de_error(s) { fprintf(stderr, s); sleep(2); } +#endif +#include "de_cmds.h" + +/* List of line number to position mappings, in descending order. */ +/* There may be holes. */ +typedef struct LineMapRep { + int line; + size_t pos; + struct LineMapRep * previous; +} * line_map; + +/* List of file versions, one per edit operation */ +typedef struct HistoryRep { + CORD file_contents; + struct HistoryRep * previous; + line_map map; /* Invalid for first record "now" */ +} * history; + +history now = 0; +CORD current; /* == now -> file_contents. */ +size_t current_len; /* Current file length. */ +line_map current_map = 0; /* Current line no. to pos. map */ +size_t current_map_size = 0; /* Number of current_map entries. */ + /* Not always accurate, but reset */ + /* by prune_map. */ +# define MAX_MAP_SIZE 3000 + +/* Current display position */ +int dis_line = 0; +int dis_col = 0; + +# define ALL -1 +# define NONE - 2 +int need_redisplay = 0; /* Line that needs to be redisplayed. */ + + +/* Current cursor position. Always within file. */ +int line = 0; +int col = 0; +size_t file_pos = 0; /* Character position corresponding to cursor. */ + +/* Invalidate line map for lines > i */ +void invalidate_map(int i) +{ + while(current_map -> line > i) { + current_map = current_map -> previous; + current_map_size--; + } +} + +/* Reduce the number of map entries to save space for huge files. */ +/* This also affects maps in histories. */ +void prune_map() +{ + line_map map = current_map; + int start_line = map -> line; + + current_map_size = 0; + for(; map != 0; map = map -> previous) { + current_map_size++; + if (map -> line < start_line - LINES && map -> previous != 0) { + map -> previous = map -> previous -> previous; + } + } +} +/* Add mapping entry */ +void add_map(int line, size_t pos) +{ + line_map new_map = GC_NEW(struct LineMapRep); + + if (current_map_size >= MAX_MAP_SIZE) prune_map(); + new_map -> line = line; + new_map -> pos = pos; + new_map -> previous = current_map; + current_map = new_map; + current_map_size++; +} + + + +/* Return position of column *c of ith line in */ +/* current file. Adjust *c to be within the line.*/ +/* A 0 pointer is taken as 0 column. */ +/* Returns CORD_NOT_FOUND if i is too big. */ +/* Assumes i > dis_line. */ +size_t line_pos(int i, int *c) +{ + int j; + size_t cur; + size_t next; + line_map map = current_map; + + while (map -> line > i) map = map -> previous; + if (map -> line < i - 2) /* rebuild */ invalidate_map(i); + for (j = map -> line, cur = map -> pos; j < i;) { + cur = CORD_chr(current, cur, '\n'); + if (cur == current_len-1) return(CORD_NOT_FOUND); + cur++; + if (++j > current_map -> line) add_map(j, cur); + } + if (c != 0) { + next = CORD_chr(current, cur, '\n'); + if (next == CORD_NOT_FOUND) next = current_len - 1; + if (next < cur + *c) { + *c = next - cur; + } + cur += *c; + } + return(cur); +} + +void add_hist(CORD s) +{ + history new_file = GC_NEW(struct HistoryRep); + + new_file -> file_contents = current = s; + current_len = CORD_len(s); + new_file -> previous = now; + if (now != 0) now -> map = current_map; + now = new_file; +} + +void del_hist(void) +{ + now = now -> previous; + current = now -> file_contents; + current_map = now -> map; + current_len = CORD_len(current); +} + +/* Current screen_contents; a dynamically allocated array of CORDs */ +CORD * screen = 0; +int screen_size = 0; + +# ifndef WIN32 +/* Replace a line in the curses stdscr. All control characters are */ +/* displayed as upper case characters in standout mode. This isn't */ +/* terribly appropriate for tabs. */ +void replace_line(int i, CORD s) +{ + register int c; + CORD_pos p; + size_t len = CORD_len(s); + + if (screen == 0 || LINES > screen_size) { + screen_size = LINES; + screen = (CORD *)GC_MALLOC(screen_size * sizeof(CORD)); + } +# if !defined(MACINTOSH) + /* A gross workaround for an apparent curses bug: */ + if (i == LINES-1 && len == COLS) { + s = CORD_substr(s, 0, CORD_len(s) - 1); + } +# endif + if (CORD_cmp(screen[i], s) != 0) { + move(i, 0); clrtoeol(); move(i,0); + + CORD_FOR (p, s) { + c = CORD_pos_fetch(p) & 0x7f; + if (iscntrl(c)) { + standout(); addch(c + 0x40); standend(); + } else { + addch(c); + } + } + screen[i] = s; + } +} +#else +# define replace_line(i,s) invalidate_line(i) +#endif + +/* Return up to COLS characters of the line of s starting at pos, */ +/* returning only characters after the given column. */ +CORD retrieve_line(CORD s, size_t pos, unsigned column) +{ + CORD candidate = CORD_substr(s, pos, column + COLS); + /* avoids scanning very long lines */ + int eol = CORD_chr(candidate, 0, '\n'); + int len; + + if (eol == CORD_NOT_FOUND) eol = CORD_len(candidate); + len = (int)eol - (int)column; + if (len < 0) len = 0; + return(CORD_substr(s, pos + column, len)); +} + +# ifdef WIN32 +# define refresh(); + + CORD retrieve_screen_line(int i) + { + register size_t pos; + + invalidate_map(dis_line + LINES); /* Prune search */ + pos = line_pos(dis_line + i, 0); + if (pos == CORD_NOT_FOUND) return(CORD_EMPTY); + return(retrieve_line(current, pos, dis_col)); + } +# endif + +/* Display the visible section of the current file */ +void redisplay(void) +{ + register int i; + + invalidate_map(dis_line + LINES); /* Prune search */ + for (i = 0; i < LINES; i++) { + if (need_redisplay == ALL || need_redisplay == i) { + register size_t pos = line_pos(dis_line + i, 0); + + if (pos == CORD_NOT_FOUND) break; + replace_line(i, retrieve_line(current, pos, dis_col)); + if (need_redisplay == i) goto done; + } + } + for (; i < LINES; i++) replace_line(i, CORD_EMPTY); +done: + refresh(); + need_redisplay = NONE; +} + +int dis_granularity; + +/* Update dis_line, dis_col, and dis_pos to make cursor visible. */ +/* Assumes line, col, dis_line, dis_pos are in bounds. */ +void normalize_display() +{ + int old_line = dis_line; + int old_col = dis_col; + + dis_granularity = 1; + if (LINES > 15 && COLS > 15) dis_granularity = 2; + while (dis_line > line) dis_line -= dis_granularity; + while (dis_col > col) dis_col -= dis_granularity; + while (line >= dis_line + LINES) dis_line += dis_granularity; + while (col >= dis_col + COLS) dis_col += dis_granularity; + if (old_line != dis_line || old_col != dis_col) { + need_redisplay = ALL; + } +} + +# if defined(WIN32) +# elif defined(MACINTOSH) +# define move_cursor(x,y) cgotoxy(x + 1, y + 1, stdout) +# else +# define move_cursor(x,y) move(y,x) +# endif + +/* Adjust display so that cursor is visible; move cursor into position */ +/* Update screen if necessary. */ +void fix_cursor(void) +{ + normalize_display(); + if (need_redisplay != NONE) redisplay(); + move_cursor(col - dis_col, line - dis_line); + refresh(); +# ifndef WIN32 + fflush(stdout); +# endif +} + +/* Make sure line, col, and dis_pos are somewhere inside file. */ +/* Recompute file_pos. Assumes dis_pos is accurate or past eof */ +void fix_pos() +{ + int my_col = col; + + if ((size_t)line > current_len) line = current_len; + file_pos = line_pos(line, &my_col); + if (file_pos == CORD_NOT_FOUND) { + for (line = current_map -> line, file_pos = current_map -> pos; + file_pos < current_len; + line++, file_pos = CORD_chr(current, file_pos, '\n') + 1); + line--; + file_pos = line_pos(line, &col); + } else { + col = my_col; + } +} + +#if defined(WIN32) +# define beep() Beep(1000 /* Hz */, 300 /* msecs */) +#elif defined(MACINTOSH) +# define beep() SysBeep(1) +#else +/* + * beep() is part of some curses packages and not others. + * We try to match the type of the builtin one, if any. + */ +#ifdef __STDC__ + int beep(void) +#else + int beep() +#endif +{ + putc('\007', stderr); + return(0); +} +#endif + +# define NO_PREFIX -1 +# define BARE_PREFIX -2 +int repeat_count = NO_PREFIX; /* Current command prefix. */ + +int locate_mode = 0; /* Currently between 2 ^Ls */ +CORD locate_string = CORD_EMPTY; /* Current search string. */ + +char * arg_file_name; + +#ifdef WIN32 +/* Change the current position to whatever is currently displayed at */ +/* the given SCREEN coordinates. */ +void set_position(int c, int l) +{ + line = l + dis_line; + col = c + dis_col; + fix_pos(); + move_cursor(col - dis_col, line - dis_line); +} +#endif /* WIN32 */ + +/* Perform the command associated with character c. C may be an */ +/* integer > 256 denoting a windows command, one of the above control */ +/* characters, or another ASCII character to be used as either a */ +/* character to be inserted, a repeat count, or a search string, */ +/* depending on the current state. */ +void do_command(int c) +{ + int i; + int need_fix_pos; + FILE * out; + + if ( c == '\r') c = '\n'; + if (locate_mode) { + size_t new_pos; + + if (c == LOCATE) { + locate_mode = 0; + locate_string = CORD_EMPTY; + return; + } + locate_string = CORD_cat_char(locate_string, (char)c); + new_pos = CORD_str(current, file_pos - CORD_len(locate_string) + 1, + locate_string); + if (new_pos != CORD_NOT_FOUND) { + need_redisplay = ALL; + new_pos += CORD_len(locate_string); + for (;;) { + file_pos = line_pos(line + 1, 0); + if (file_pos > new_pos) break; + line++; + } + col = new_pos - line_pos(line, 0); + file_pos = new_pos; + fix_cursor(); + } else { + locate_string = CORD_substr(locate_string, 0, + CORD_len(locate_string) - 1); + beep(); + } + return; + } + if (c == REPEAT) { + repeat_count = BARE_PREFIX; return; + } else if (c < 0x100 && isdigit(c)){ + if (repeat_count == BARE_PREFIX) { + repeat_count = c - '0'; return; + } else if (repeat_count != NO_PREFIX) { + repeat_count = 10 * repeat_count + c - '0'; return; + } + } + if (repeat_count == NO_PREFIX) repeat_count = 1; + if (repeat_count == BARE_PREFIX && (c == UP || c == DOWN)) { + repeat_count = LINES - dis_granularity; + } + if (repeat_count == BARE_PREFIX) repeat_count = 8; + need_fix_pos = 0; + for (i = 0; i < repeat_count; i++) { + switch(c) { + case LOCATE: + locate_mode = 1; + break; + case TOP: + line = col = file_pos = 0; + break; + case UP: + if (line != 0) { + line--; + need_fix_pos = 1; + } + break; + case DOWN: + line++; + need_fix_pos = 1; + break; + case LEFT: + if (col != 0) { + col--; file_pos--; + } + break; + case RIGHT: + if (CORD_fetch(current, file_pos) == '\n') break; + col++; file_pos++; + break; + case UNDO: + del_hist(); + need_redisplay = ALL; need_fix_pos = 1; + break; + case BS: + if (col == 0) { + beep(); + break; + } + col--; file_pos--; + /* fall through: */ + case DEL: + if (file_pos == current_len-1) break; + /* Can't delete trailing newline */ + if (CORD_fetch(current, file_pos) == '\n') { + need_redisplay = ALL; need_fix_pos = 1; + } else { + need_redisplay = line - dis_line; + } + add_hist(CORD_cat( + CORD_substr(current, 0, file_pos), + CORD_substr(current, file_pos+1, current_len))); + invalidate_map(line); + break; + case WRITE: + { + CORD name = CORD_cat(CORD_from_char_star(arg_file_name), + ".new"); + + if ((out = fopen(CORD_to_const_char_star(name), "wb")) == NULL + || CORD_put(current, out) == EOF) { + de_error("Write failed\n"); + need_redisplay = ALL; + } else { + fclose(out); + } + } + break; + default: + { + CORD left_part = CORD_substr(current, 0, file_pos); + CORD right_part = CORD_substr(current, file_pos, current_len); + + add_hist(CORD_cat(CORD_cat_char(left_part, (char)c), + right_part)); + invalidate_map(line); + if (c == '\n') { + col = 0; line++; file_pos++; + need_redisplay = ALL; + } else { + col++; file_pos++; + need_redisplay = line - dis_line; + } + break; + } + } + } + if (need_fix_pos) fix_pos(); + fix_cursor(); + repeat_count = NO_PREFIX; +} + +/* OS independent initialization */ + +void generic_init(void) +{ + FILE * f; + CORD initial; + + if ((f = fopen(arg_file_name, "rb")) == NULL) { + initial = "\n"; + } else { + initial = CORD_from_file(f); + if (initial == CORD_EMPTY + || CORD_fetch(initial, CORD_len(initial)-1) != '\n') { + initial = CORD_cat(initial, "\n"); + } + } + add_map(0,0); + add_hist(initial); + now -> map = current_map; + now -> previous = now; /* Can't back up further: beginning of the world */ + need_redisplay = ALL; + fix_cursor(); +} + +#ifndef WIN32 + +main(argc, argv) +int argc; +char ** argv; +{ + int c; + +#if defined(MACINTOSH) + console_options.title = "\pDumb Editor"; + cshow(stdout); + GC_init(); + argc = ccommand(&argv); +#endif + + if (argc != 2) goto usage; + arg_file_name = argv[1]; + setvbuf(stdout, GC_MALLOC_ATOMIC(8192), _IOFBF, 8192); + initscr(); + noecho(); nonl(); cbreak(); + generic_init(); + while ((c = getchar()) != QUIT) { + if (c == EOF) break; + do_command(c); + } +done: + move(LINES-1, 0); + clrtoeol(); + refresh(); + nl(); + echo(); + endwin(); + exit(0); +usage: + fprintf(stderr, "Usage: %s file\n", argv[0]); + fprintf(stderr, "Cursor keys: ^B(left) ^F(right) ^P(up) ^N(down)\n"); + fprintf(stderr, "Undo: ^U Write to <file>.new: ^W"); + fprintf(stderr, "Quit:^D Repeat count: ^R[n]\n"); + fprintf(stderr, "Top: ^T Locate (search, find): ^L text ^L\n"); + exit(1); +} + +#endif /* !WIN32 */ diff --git a/gc/cord/de_cmds.h b/gc/cord/de_cmds.h new file mode 100644 index 0000000..f42ddcf --- /dev/null +++ b/gc/cord/de_cmds.h @@ -0,0 +1,33 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, May 19, 1994 2:24 pm PDT */ + +#ifndef DE_CMDS_H + +# define DE_CMDS_H + +# define UP 16 /* ^P */ +# define DOWN 14 /* ^N */ +# define LEFT 2 /* ^B */ +# define RIGHT 6 /* ^F */ +# define DEL 127 /* ^? */ +# define BS 8 /* ^H */ +# define UNDO 21 /* ^U */ +# define WRITE 23 /* ^W */ +# define QUIT 4 /* ^D */ +# define REPEAT 18 /* ^R */ +# define LOCATE 12 /* ^L */ +# define TOP 20 /* ^T */ + +#endif + diff --git a/gc/cord/de_win.ICO b/gc/cord/de_win.ICO Binary files differnew file mode 100755 index 0000000..b20ac3e --- /dev/null +++ b/gc/cord/de_win.ICO diff --git a/gc/cord/de_win.RC b/gc/cord/de_win.RC new file mode 100644 index 0000000..554a300 --- /dev/null +++ b/gc/cord/de_win.RC @@ -0,0 +1,78 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to copy this garbage collector for any purpose, + * provided the above notices are retained on all copies. + */ +/* Boehm, May 13, 1994 9:50 am PDT */ + +#include "windows.h" +#include "de_cmds.h" +#include "de_win.h" + + + +ABOUTBOX DIALOG 19, 21, 163, 47 +STYLE DS_MODALFRAME | WS_POPUP | WS_CAPTION | WS_SYSMENU +CAPTION "About Demonstration Text Editor" +BEGIN + ICON "DE", -1, 8, 8, 13, 13, WS_CHILD | WS_VISIBLE + LTEXT "Demonstration Text Editor", -1, 44, 8, 118, 8, WS_CHILD | WS_VISIBLE | WS_GROUP + LTEXT "Version 4.1", -1, 44, 16, 60, 8, WS_CHILD | WS_VISIBLE | WS_GROUP + PUSHBUTTON "OK", IDOK, 118, 27, 24, 14, WS_CHILD | WS_VISIBLE | WS_TABSTOP +END + + +DE MENU +BEGIN + POPUP "&File" + BEGIN + MENUITEM "&Save\t^W", IDM_FILESAVE + MENUITEM "E&xit\t^D", IDM_FILEEXIT + END + + POPUP "&Edit" + BEGIN + MENUITEM "Page &Down\t^R^N", IDM_EDITPDOWN + MENUITEM "Page &Up\t^R^P", IDM_EDITPUP + MENUITEM "U&ndo\t^U", IDM_EDITUNDO + MENUITEM "&Locate\t^L ... ^L", IDM_EDITLOCATE + MENUITEM "D&own\t^N", IDM_EDITDOWN + MENUITEM "U&p\t^P", IDM_EDITUP + MENUITEM "Le&ft\t^B", IDM_EDITLEFT + MENUITEM "&Right\t^F", IDM_EDITRIGHT + MENUITEM "Delete &Backward\tBS", IDM_EDITBS + MENUITEM "Delete F&orward\tDEL", IDM_EDITDEL + MENUITEM "&Top\t^T", IDM_EDITTOP + END + + POPUP "&Help" + BEGIN + MENUITEM "&Contents", IDM_HELPCONTENTS + MENUITEM "&About...", IDM_HELPABOUT + END + + MENUITEM "Page_&Down", IDM_EDITPDOWN + MENUITEM "Page_&Up", IDM_EDITPUP +END + + +DE ACCELERATORS +BEGIN + "^R", IDM_EDITREPEAT + "^N", IDM_EDITDOWN + "^P", IDM_EDITUP + "^L", IDM_EDITLOCATE + "^B", IDM_EDITLEFT + "^F", IDM_EDITRIGHT + "^T", IDM_EDITTOP + VK_DELETE, IDM_EDITDEL, VIRTKEY + VK_BACK, IDM_EDITBS, VIRTKEY +END + + +DE ICON cord\de_win.ICO + diff --git a/gc/cord/de_win.c b/gc/cord/de_win.c new file mode 100644 index 0000000..fedbfbe --- /dev/null +++ b/gc/cord/de_win.c @@ -0,0 +1,366 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 6, 1995 12:29 pm PST */ + +/* + * The MS Windows specific part of de. + * This started as the generic Windows application template + * made available by Rob Haack (rhaack@polaris.unm.edu), but + * significant parts didn't survive to the final version. + * + * This was written by a nonexpert windows programmer. + */ + + +#include "windows.h" +#include "gc.h" +#include "cord.h" +#include "de_cmds.h" +#include "de_win.h" + +int LINES = 0; +int COLS = 0; + +char szAppName[] = "DE"; +char FullAppName[] = "Demonstration Editor"; + +HWND hwnd; + +void de_error(char *s) +{ + MessageBox( hwnd, (LPSTR) s, + (LPSTR) FullAppName, + MB_ICONINFORMATION | MB_OK ); + InvalidateRect(hwnd, NULL, TRUE); +} + +int APIENTRY WinMain (HINSTANCE hInstance, HINSTANCE hPrevInstance, + LPSTR command_line, int nCmdShow) +{ + MSG msg; + WNDCLASS wndclass; + HANDLE hAccel; + + if (!hPrevInstance) + { + wndclass.style = CS_HREDRAW | CS_VREDRAW; + wndclass.lpfnWndProc = WndProc; + wndclass.cbClsExtra = 0; + wndclass.cbWndExtra = DLGWINDOWEXTRA; + wndclass.hInstance = hInstance; + wndclass.hIcon = LoadIcon (hInstance, szAppName); + wndclass.hCursor = LoadCursor (NULL, IDC_ARROW); + wndclass.hbrBackground = GetStockObject(WHITE_BRUSH); + wndclass.lpszMenuName = "DE"; + wndclass.lpszClassName = szAppName; + + if (RegisterClass (&wndclass) == 0) { + char buf[50]; + + sprintf(buf, "RegisterClass: error code: 0x%X", GetLastError()); + de_error(buf); + return(0); + } + } + + /* Empirically, the command line does not include the command name ... + if (command_line != 0) { + while (isspace(*command_line)) command_line++; + while (*command_line != 0 && !isspace(*command_line)) command_line++; + while (isspace(*command_line)) command_line++; + } */ + + if (command_line == 0 || *command_line == 0) { + de_error("File name argument required"); + return( 0 ); + } else { + char *p = command_line; + + while (*p != 0 && !isspace(*p)) p++; + arg_file_name = CORD_to_char_star( + CORD_substr(command_line, 0, p - command_line)); + } + + hwnd = CreateWindow (szAppName, + FullAppName, + WS_OVERLAPPEDWINDOW | WS_CAPTION, /* Window style */ + CW_USEDEFAULT, 0, /* default pos. */ + CW_USEDEFAULT, 0, /* default width, height */ + NULL, /* No parent */ + NULL, /* Window class menu */ + hInstance, NULL); + if (hwnd == NULL) { + char buf[50]; + + sprintf(buf, "CreateWindow: error code: 0x%X", GetLastError()); + de_error(buf); + return(0); + } + + ShowWindow (hwnd, nCmdShow); + + hAccel = LoadAccelerators( hInstance, szAppName ); + + while (GetMessage (&msg, NULL, 0, 0)) + { + if( !TranslateAccelerator( hwnd, hAccel, &msg ) ) + { + TranslateMessage (&msg); + DispatchMessage (&msg); + } + } + return msg.wParam; +} + +/* Return the argument with all control characters replaced by blanks. */ +char * plain_chars(char * text, size_t len) +{ + char * result = GC_MALLOC_ATOMIC(len + 1); + register size_t i; + + for (i = 0; i < len; i++) { + if (iscntrl(text[i])) { + result[i] = ' '; + } else { + result[i] = text[i]; + } + } + result[len] = '\0'; + return(result); +} + +/* Return the argument with all non-control-characters replaced by */ +/* blank, and all control characters c replaced by c + 32. */ +char * control_chars(char * text, size_t len) +{ + char * result = GC_MALLOC_ATOMIC(len + 1); + register size_t i; + + for (i = 0; i < len; i++) { + if (iscntrl(text[i])) { + result[i] = text[i] + 0x40; + } else { + result[i] = ' '; + } + } + result[len] = '\0'; + return(result); +} + +int char_width; +int char_height; + +void get_line_rect(int line, int win_width, RECT * rectp) +{ + rectp -> top = line * char_height; + rectp -> bottom = rectp->top + char_height; + rectp -> left = 0; + rectp -> right = win_width; +} + +int caret_visible = 0; /* Caret is currently visible. */ + +int screen_was_painted = 0;/* Screen has been painted at least once. */ + +void update_cursor(void); + +LRESULT CALLBACK WndProc (HWND hwnd, UINT message, + WPARAM wParam, LPARAM lParam) +{ + static FARPROC lpfnAboutBox; + static HANDLE hInstance; + HDC dc; + PAINTSTRUCT ps; + RECT client_area; + RECT this_line; + RECT dummy; + TEXTMETRIC tm; + register int i; + int id; + + switch (message) + { + case WM_CREATE: + hInstance = ( (LPCREATESTRUCT) lParam)->hInstance; + lpfnAboutBox = MakeProcInstance( (FARPROC) AboutBox, hInstance ); + dc = GetDC(hwnd); + SelectObject(dc, GetStockObject(SYSTEM_FIXED_FONT)); + GetTextMetrics(dc, &tm); + ReleaseDC(hwnd, dc); + char_width = tm.tmAveCharWidth; + char_height = tm.tmHeight + tm.tmExternalLeading; + GetClientRect(hwnd, &client_area); + COLS = (client_area.right - client_area.left)/char_width; + LINES = (client_area.bottom - client_area.top)/char_height; + generic_init(); + return(0); + + case WM_CHAR: + if (wParam == QUIT) { + SendMessage( hwnd, WM_CLOSE, 0, 0L ); + } else { + do_command(wParam); + } + return(0); + + case WM_SETFOCUS: + CreateCaret(hwnd, NULL, char_width, char_height); + ShowCaret(hwnd); + caret_visible = 1; + update_cursor(); + return(0); + + case WM_KILLFOCUS: + HideCaret(hwnd); + DestroyCaret(); + caret_visible = 0; + return(0); + + case WM_LBUTTONUP: + { + unsigned xpos = LOWORD(lParam); /* From left */ + unsigned ypos = HIWORD(lParam); /* from top */ + + set_position( xpos/char_width, ypos/char_height ); + return(0); + } + + case WM_COMMAND: + id = LOWORD(wParam); + if (id & EDIT_CMD_FLAG) { + if (id & REPEAT_FLAG) do_command(REPEAT); + do_command(CHAR_CMD(id)); + return( 0 ); + } else { + switch(id) { + case IDM_FILEEXIT: + SendMessage( hwnd, WM_CLOSE, 0, 0L ); + return( 0 ); + + case IDM_HELPABOUT: + if( DialogBox( hInstance, "ABOUTBOX", + hwnd, lpfnAboutBox ) ); + InvalidateRect( hwnd, NULL, TRUE ); + return( 0 ); + case IDM_HELPCONTENTS: + de_error( + "Cursor keys: ^B(left) ^F(right) ^P(up) ^N(down)\n" + "Undo: ^U Write: ^W Quit:^D Repeat count: ^R[n]\n" + "Top: ^T Locate (search, find): ^L text ^L\n"); + return( 0 ); + } + } + break; + + case WM_CLOSE: + DestroyWindow( hwnd ); + return 0; + + case WM_DESTROY: + PostQuitMessage (0); + GC_win32_free_heap(); + return 0; + + case WM_PAINT: + dc = BeginPaint(hwnd, &ps); + GetClientRect(hwnd, &client_area); + COLS = (client_area.right - client_area.left)/char_width; + LINES = (client_area.bottom - client_area.top)/char_height; + SelectObject(dc, GetStockObject(SYSTEM_FIXED_FONT)); + for (i = 0; i < LINES; i++) { + get_line_rect(i, client_area.right, &this_line); + if (IntersectRect(&dummy, &this_line, &ps.rcPaint)) { + CORD raw_line = retrieve_screen_line(i); + size_t len = CORD_len(raw_line); + char * text = CORD_to_char_star(raw_line); + /* May contain embedded NULLs */ + char * plain = plain_chars(text, len); + char * blanks = CORD_to_char_star(CORD_chars(' ', + COLS - len)); + char * control = control_chars(text, len); +# define RED RGB(255,0,0) + + SetBkMode(dc, OPAQUE); + SetTextColor(dc, GetSysColor(COLOR_WINDOWTEXT)); + + TextOut(dc, this_line.left, this_line.top, + plain, len); + TextOut(dc, this_line.left + len * char_width, this_line.top, + blanks, COLS - len); + SetBkMode(dc, TRANSPARENT); + SetTextColor(dc, RED); + TextOut(dc, this_line.left, this_line.top, + control, strlen(control)); + } + } + EndPaint(hwnd, &ps); + screen_was_painted = 1; + return 0; + } + return DefWindowProc (hwnd, message, wParam, lParam); +} + +int last_col; +int last_line; + +void move_cursor(int c, int l) +{ + last_col = c; + last_line = l; + + if (caret_visible) update_cursor(); +} + +void update_cursor(void) +{ + SetCaretPos(last_col * char_width, last_line * char_height); + ShowCaret(hwnd); +} + +void invalidate_line(int i) +{ + RECT line; + + if (!screen_was_painted) return; + /* Invalidating a rectangle before painting seems result in a */ + /* major performance problem. */ + get_line_rect(i, COLS*char_width, &line); + InvalidateRect(hwnd, &line, FALSE); +} + +LRESULT CALLBACK AboutBox( HWND hDlg, UINT message, + WPARAM wParam, LPARAM lParam ) +{ + switch( message ) + { + case WM_INITDIALOG: + SetFocus( GetDlgItem( hDlg, IDOK ) ); + break; + + case WM_COMMAND: + switch( wParam ) + { + case IDOK: + EndDialog( hDlg, TRUE ); + break; + } + break; + + case WM_CLOSE: + EndDialog( hDlg, TRUE ); + return TRUE; + + } + return FALSE; +} + diff --git a/gc/cord/de_win.h b/gc/cord/de_win.h new file mode 100644 index 0000000..57a47b4 --- /dev/null +++ b/gc/cord/de_win.h @@ -0,0 +1,103 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, May 19, 1994 2:25 pm PDT */ + +/* cord.h, de_cmds.h, and windows.h should be included before this. */ + + +# define OTHER_FLAG 0x100 +# define EDIT_CMD_FLAG 0x200 +# define REPEAT_FLAG 0x400 + +# define CHAR_CMD(i) ((i) & 0xff) + +/* MENU: DE */ +#define IDM_FILESAVE (EDIT_CMD_FLAG + WRITE) +#define IDM_FILEEXIT (OTHER_FLAG + 1) +#define IDM_HELPABOUT (OTHER_FLAG + 2) +#define IDM_HELPCONTENTS (OTHER_FLAG + 3) + +#define IDM_EDITPDOWN (REPEAT_FLAG + EDIT_CMD_FLAG + DOWN) +#define IDM_EDITPUP (REPEAT_FLAG + EDIT_CMD_FLAG + UP) +#define IDM_EDITUNDO (EDIT_CMD_FLAG + UNDO) +#define IDM_EDITLOCATE (EDIT_CMD_FLAG + LOCATE) +#define IDM_EDITDOWN (EDIT_CMD_FLAG + DOWN) +#define IDM_EDITUP (EDIT_CMD_FLAG + UP) +#define IDM_EDITLEFT (EDIT_CMD_FLAG + LEFT) +#define IDM_EDITRIGHT (EDIT_CMD_FLAG + RIGHT) +#define IDM_EDITBS (EDIT_CMD_FLAG + BS) +#define IDM_EDITDEL (EDIT_CMD_FLAG + DEL) +#define IDM_EDITREPEAT (EDIT_CMD_FLAG + REPEAT) +#define IDM_EDITTOP (EDIT_CMD_FLAG + TOP) + + + + +/* Windows UI stuff */ + +LRESULT CALLBACK WndProc (HWND hwnd, UINT message, + UINT wParam, LONG lParam); + +LRESULT CALLBACK AboutBox( HWND hDlg, UINT message, + UINT wParam, LONG lParam ); + + +/* Screen dimensions. Maintained by de_win.c. */ +extern int LINES; +extern int COLS; + +/* File being edited. */ +extern char * arg_file_name; + +/* Current display position in file. Maintained by de.c */ +extern int dis_line; +extern int dis_col; + +/* Current cursor position in file. */ +extern int line; +extern int col; + +/* + * Calls from de_win.c to de.c + */ + +CORD retrieve_screen_line(int i); + /* Get the contents of i'th screen line. */ + /* Relies on COLS. */ + +void set_position(int x, int y); + /* Set column, row. Upper left of window = (0,0). */ + +void do_command(int); + /* Execute an editor command. */ + /* Agument is a command character or one */ + /* of the IDM_ commands. */ + +void generic_init(void); + /* OS independent initialization */ + + +/* + * Calls from de.c to de_win.c + */ + +void move_cursor(int column, int line); + /* Physically move the cursor on the display, */ + /* so that it appears at */ + /* (column, line). */ + +void invalidate_line(int line); + /* Invalidate line i on the screen. */ + +void de_error(char *s); + /* Display error message. */
\ No newline at end of file diff --git a/gc/cord/ec.h b/gc/cord/ec.h new file mode 100644 index 0000000..c829b83 --- /dev/null +++ b/gc/cord/ec.h @@ -0,0 +1,70 @@ +# ifndef EC_H +# define EC_H + +# ifndef CORD_H +# include "cord.h" +# endif + +/* Extensible cords are strings that may be destructively appended to. */ +/* They allow fast construction of cords from characters that are */ +/* being read from a stream. */ +/* + * A client might look like: + * + * { + * CORD_ec x; + * CORD result; + * char c; + * FILE *f; + * + * ... + * CORD_ec_init(x); + * while(...) { + * c = getc(f); + * ... + * CORD_ec_append(x, c); + * } + * result = CORD_balance(CORD_ec_to_cord(x)); + * + * If a C string is desired as the final result, the call to CORD_balance + * may be replaced by a call to CORD_to_char_star. + */ + +# ifndef CORD_BUFSZ +# define CORD_BUFSZ 128 +# endif + +typedef struct CORD_ec_struct { + CORD ec_cord; + char * ec_bufptr; + char ec_buf[CORD_BUFSZ+1]; +} CORD_ec[1]; + +/* This structure represents the concatenation of ec_cord with */ +/* ec_buf[0 ... (ec_bufptr-ec_buf-1)] */ + +/* Flush the buffer part of the extended chord into ec_cord. */ +/* Note that this is almost the only real function, and it is */ +/* implemented in 6 lines in cordxtra.c */ +void CORD_ec_flush_buf(CORD_ec x); + +/* Convert an extensible cord to a cord. */ +# define CORD_ec_to_cord(x) (CORD_ec_flush_buf(x), (x)[0].ec_cord) + +/* Initialize an extensible cord. */ +# define CORD_ec_init(x) ((x)[0].ec_cord = 0, (x)[0].ec_bufptr = (x)[0].ec_buf) + +/* Append a character to an extensible cord. */ +# define CORD_ec_append(x, c) \ + { \ + if ((x)[0].ec_bufptr == (x)[0].ec_buf + CORD_BUFSZ) { \ + CORD_ec_flush_buf(x); \ + } \ + *((x)[0].ec_bufptr)++ = (c); \ + } + +/* Append a cord to an extensible cord. Structure remains shared with */ +/* original. */ +void CORD_ec_append_cord(CORD_ec x, CORD s); + +# endif /* EC_H */ diff --git a/gc/cord/gc.h b/gc/cord/gc.h new file mode 100644 index 0000000..3061409 --- /dev/null +++ b/gc/cord/gc.h @@ -0,0 +1,754 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * Copyright 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +/* + * Note that this defines a large number of tuning hooks, which can + * safely be ignored in nearly all cases. For normal use it suffices + * to call only GC_MALLOC and perhaps GC_REALLOC. + * For better performance, also look at GC_MALLOC_ATOMIC, and + * GC_enable_incremental. If you need an action to be performed + * immediately before an object is collected, look at GC_register_finalizer. + * If you are using Solaris threads, look at the end of this file. + * Everything else is best ignored unless you encounter performance + * problems. + */ + +#ifndef _GC_H + +# define _GC_H +# define __GC +# include <stddef.h> + +#if defined(__CYGWIN32__) && defined(GC_USE_DLL) +#include "libgc_globals.h" +#endif + +#if defined(_MSC_VER) && defined(_DLL) +# ifdef GC_BUILD +# define GC_API __declspec(dllexport) +# else +# define GC_API __declspec(dllimport) +# endif +#endif + +#if defined(__WATCOMC__) && defined(GC_DLL) +# ifdef GC_BUILD +# define GC_API extern __declspec(dllexport) +# else +# define GC_API extern __declspec(dllimport) +# endif +#endif + +#ifndef GC_API +#define GC_API extern +#endif + +# if defined(__STDC__) || defined(__cplusplus) +# define GC_PROTO(args) args + typedef void * GC_PTR; +# else +# define GC_PROTO(args) () + typedef char * GC_PTR; +# endif + +# ifdef __cplusplus + extern "C" { +# endif + + +/* Define word and signed_word to be unsigned and signed types of the */ +/* size as char * or void *. There seems to be no way to do this */ +/* even semi-portably. The following is probably no better/worse */ +/* than almost anything else. */ +/* The ANSI standard suggests that size_t and ptr_diff_t might be */ +/* better choices. But those appear to have incorrect definitions */ +/* on may systems. Notably "typedef int size_t" seems to be both */ +/* frequent and WRONG. */ +typedef unsigned long GC_word; +typedef long GC_signed_word; + +/* Public read-only variables */ + +GC_API GC_word GC_gc_no;/* Counter incremented per collection. */ + /* Includes empty GCs at startup. */ + + +/* Public R/W variables */ + +GC_API GC_PTR (*GC_oom_fn) GC_PROTO((size_t bytes_requested)); + /* When there is insufficient memory to satisfy */ + /* an allocation request, we return */ + /* (*GC_oom_fn)(). By default this just */ + /* returns 0. */ + /* If it returns, it must return 0 or a valid */ + /* pointer to a previously allocated heap */ + /* object. */ + +GC_API int GC_find_leak; + /* Do not actually garbage collect, but simply */ + /* report inaccessible memory that was not */ + /* deallocated with GC_free. Initial value */ + /* is determined by FIND_LEAK macro. */ + +GC_API int GC_quiet; /* Disable statistics output. Only matters if */ + /* collector has been compiled with statistics */ + /* enabled. This involves a performance cost, */ + /* and is thus not the default. */ + +GC_API int GC_finalize_on_demand; + /* If nonzero, finalizers will only be run in */ + /* response to an eplit GC_invoke_finalizers */ + /* call. The default is determined by whether */ + /* the FINALIZE_ON_DEMAND macro is defined */ + /* when the collector is built. */ + +GC_API int GC_java_finalization; + /* Mark objects reachable from finalizable */ + /* objects in a separate postpass. This makes */ + /* it a bit safer to use non-topologically- */ + /* ordered finalization. Default value is */ + /* determined by JAVA_FINALIZATION macro. */ + +GC_API int GC_dont_gc; /* Dont collect unless explicitly requested, e.g. */ + /* because it's not safe. */ + +GC_API int GC_dont_expand; + /* Dont expand heap unless explicitly requested */ + /* or forced to. */ + +GC_API int GC_full_freq; /* Number of partial collections between */ + /* full collections. Matters only if */ + /* GC_incremental is set. */ + +GC_API GC_word GC_non_gc_bytes; + /* Bytes not considered candidates for collection. */ + /* Used only to control scheduling of collections. */ + +GC_API GC_word GC_free_space_divisor; + /* We try to make sure that we allocate at */ + /* least N/GC_free_space_divisor bytes between */ + /* collections, where N is the heap size plus */ + /* a rough estimate of the root set size. */ + /* Initially, GC_free_space_divisor = 4. */ + /* Increasing its value will use less space */ + /* but more collection time. Decreasing it */ + /* will appreciably decrease collection time */ + /* at the expense of space. */ + /* GC_free_space_divisor = 1 will effectively */ + /* disable collections. */ + +GC_API GC_word GC_max_retries; + /* The maximum number of GCs attempted before */ + /* reporting out of memory after heap */ + /* expansion fails. Initially 0. */ + + +GC_API char *GC_stackbottom; /* Cool end of user stack. */ + /* May be set in the client prior to */ + /* calling any GC_ routines. This */ + /* avoids some overhead, and */ + /* potentially some signals that can */ + /* confuse debuggers. Otherwise the */ + /* collector attempts to set it */ + /* automatically. */ + /* For multithreaded code, this is the */ + /* cold end of the stack for the */ + /* primordial thread. */ + +/* Public procedures */ +/* + * general purpose allocation routines, with roughly malloc calling conv. + * The atomic versions promise that no relevant pointers are contained + * in the object. The nonatomic versions guarantee that the new object + * is cleared. GC_malloc_stubborn promises that no changes to the object + * will occur after GC_end_stubborn_change has been called on the + * result of GC_malloc_stubborn. GC_malloc_uncollectable allocates an object + * that is scanned for pointers to collectable objects, but is not itself + * collectable. GC_malloc_uncollectable and GC_free called on the resulting + * object implicitly update GC_non_gc_bytes appropriately. + */ +GC_API GC_PTR GC_malloc GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_atomic GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_uncollectable GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_stubborn GC_PROTO((size_t size_in_bytes)); + +/* The following is only defined if the library has been suitably */ +/* compiled: */ +GC_API GC_PTR GC_malloc_atomic_uncollectable GC_PROTO((size_t size_in_bytes)); + +/* Explicitly deallocate an object. Dangerous if used incorrectly. */ +/* Requires a pointer to the base of an object. */ +/* If the argument is stubborn, it should not be changeable when freed. */ +/* An object should not be enable for finalization when it is */ +/* explicitly deallocated. */ +/* GC_free(0) is a no-op, as required by ANSI C for free. */ +GC_API void GC_free GC_PROTO((GC_PTR object_addr)); + +/* + * Stubborn objects may be changed only if the collector is explicitly informed. + * The collector is implicitly informed of coming change when such + * an object is first allocated. The following routines inform the + * collector that an object will no longer be changed, or that it will + * once again be changed. Only nonNIL pointer stores into the object + * are considered to be changes. The argument to GC_end_stubborn_change + * must be exacly the value returned by GC_malloc_stubborn or passed to + * GC_change_stubborn. (In the second case it may be an interior pointer + * within 512 bytes of the beginning of the objects.) + * There is a performance penalty for allowing more than + * one stubborn object to be changed at once, but it is acceptable to + * do so. The same applies to dropping stubborn objects that are still + * changeable. + */ +GC_API void GC_change_stubborn GC_PROTO((GC_PTR)); +GC_API void GC_end_stubborn_change GC_PROTO((GC_PTR)); + +/* Return a pointer to the base (lowest address) of an object given */ +/* a pointer to a location within the object. */ +/* Return 0 if displaced_pointer doesn't point to within a valid */ +/* object. */ +GC_API GC_PTR GC_base GC_PROTO((GC_PTR displaced_pointer)); + +/* Given a pointer to the base of an object, return its size in bytes. */ +/* The returned size may be slightly larger than what was originally */ +/* requested. */ +GC_API size_t GC_size GC_PROTO((GC_PTR object_addr)); + +/* For compatibility with C library. This is occasionally faster than */ +/* a malloc followed by a bcopy. But if you rely on that, either here */ +/* or with the standard C library, your code is broken. In my */ +/* opinion, it shouldn't have been invented, but now we're stuck. -HB */ +/* The resulting object has the same kind as the original. */ +/* If the argument is stubborn, the result will have changes enabled. */ +/* It is an error to have changes enabled for the original object. */ +/* Follows ANSI comventions for NULL old_object. */ +GC_API GC_PTR GC_realloc + GC_PROTO((GC_PTR old_object, size_t new_size_in_bytes)); + +/* Explicitly increase the heap size. */ +/* Returns 0 on failure, 1 on success. */ +GC_API int GC_expand_hp GC_PROTO((size_t number_of_bytes)); + +/* Limit the heap size to n bytes. Useful when you're debugging, */ +/* especially on systems that don't handle running out of memory well. */ +/* n == 0 ==> unbounded. This is the default. */ +GC_API void GC_set_max_heap_size GC_PROTO((GC_word n)); + +/* Inform the collector that a certain section of statically allocated */ +/* memory contains no pointers to garbage collected memory. Thus it */ +/* need not be scanned. This is sometimes important if the application */ +/* maps large read/write files into the address space, which could be */ +/* mistaken for dynamic library data segments on some systems. */ +GC_API void GC_exclude_static_roots GC_PROTO((GC_PTR start, GC_PTR finish)); + +/* Clear the set of root segments. Wizards only. */ +GC_API void GC_clear_roots GC_PROTO((void)); + +/* Add a root segment. Wizards only. */ +GC_API void GC_add_roots GC_PROTO((char * low_address, + char * high_address_plus_1)); + +/* Add a displacement to the set of those considered valid by the */ +/* collector. GC_register_displacement(n) means that if p was returned */ +/* by GC_malloc, then (char *)p + n will be considered to be a valid */ +/* pointer to n. N must be small and less than the size of p. */ +/* (All pointers to the interior of objects from the stack are */ +/* considered valid in any case. This applies to heap objects and */ +/* static data.) */ +/* Preferably, this should be called before any other GC procedures. */ +/* Calling it later adds to the probability of excess memory */ +/* retention. */ +/* This is a no-op if the collector was compiled with recognition of */ +/* arbitrary interior pointers enabled, which is now the default. */ +GC_API void GC_register_displacement GC_PROTO((GC_word n)); + +/* The following version should be used if any debugging allocation is */ +/* being done. */ +GC_API void GC_debug_register_displacement GC_PROTO((GC_word n)); + +/* Explicitly trigger a full, world-stop collection. */ +GC_API void GC_gcollect GC_PROTO((void)); + +/* Trigger a full world-stopped collection. Abort the collection if */ +/* and when stop_func returns a nonzero value. Stop_func will be */ +/* called frequently, and should be reasonably fast. This works even */ +/* if virtual dirty bits, and hence incremental collection is not */ +/* available for this architecture. Collections can be aborted faster */ +/* than normal pause times for incremental collection. However, */ +/* aborted collections do no useful work; the next collection needs */ +/* to start from the beginning. */ +/* Return 0 if the collection was aborted, 1 if it succeeded. */ +typedef int (* GC_stop_func) GC_PROTO((void)); +GC_API int GC_try_to_collect GC_PROTO((GC_stop_func stop_func)); + +/* Return the number of bytes in the heap. Excludes collector private */ +/* data structures. Includes empty blocks and fragmentation loss. */ +/* Includes some pages that were allocated but never written. */ +GC_API size_t GC_get_heap_size GC_PROTO((void)); + +/* Return the number of bytes allocated since the last collection. */ +GC_API size_t GC_get_bytes_since_gc GC_PROTO((void)); + +/* Enable incremental/generational collection. */ +/* Not advisable unless dirty bits are */ +/* available or most heap objects are */ +/* pointerfree(atomic) or immutable. */ +/* Don't use in leak finding mode. */ +/* Ignored if GC_dont_gc is true. */ +GC_API void GC_enable_incremental GC_PROTO((void)); + +/* Perform some garbage collection work, if appropriate. */ +/* Return 0 if there is no more work to be done. */ +/* Typically performs an amount of work corresponding roughly */ +/* to marking from one page. May do more work if further */ +/* progress requires it, e.g. if incremental collection is */ +/* disabled. It is reasonable to call this in a wait loop */ +/* until it returns 0. */ +GC_API int GC_collect_a_little GC_PROTO((void)); + +/* Allocate an object of size lb bytes. The client guarantees that */ +/* as long as the object is live, it will be referenced by a pointer */ +/* that points to somewhere within the first 256 bytes of the object. */ +/* (This should normally be declared volatile to prevent the compiler */ +/* from invalidating this assertion.) This routine is only useful */ +/* if a large array is being allocated. It reduces the chance of */ +/* accidentally retaining such an array as a result of scanning an */ +/* integer that happens to be an address inside the array. (Actually, */ +/* it reduces the chance of the allocator not finding space for such */ +/* an array, since it will try hard to avoid introducing such a false */ +/* reference.) On a SunOS 4.X or MS Windows system this is recommended */ +/* for arrays likely to be larger than 100K or so. For other systems, */ +/* or if the collector is not configured to recognize all interior */ +/* pointers, the threshold is normally much higher. */ +GC_API GC_PTR GC_malloc_ignore_off_page GC_PROTO((size_t lb)); +GC_API GC_PTR GC_malloc_atomic_ignore_off_page GC_PROTO((size_t lb)); + +#if defined(__sgi) && !defined(__GNUC__) && _COMPILER_VERSION >= 720 +# define GC_ADD_CALLER +# define GC_RETURN_ADDR (GC_word)__return_address +#endif + +#ifdef GC_ADD_CALLER +# define GC_EXTRAS GC_RETURN_ADDR, __FILE__, __LINE__ +# define GC_EXTRA_PARAMS GC_word ra, char * descr_string, int descr_int +#else +# define GC_EXTRAS __FILE__, __LINE__ +# define GC_EXTRA_PARAMS char * descr_string, int descr_int +#endif + +/* Debugging (annotated) allocation. GC_gcollect will check */ +/* objects allocated in this way for overwrites, etc. */ +GC_API GC_PTR GC_debug_malloc + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_atomic + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_uncollectable + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_stubborn + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API void GC_debug_free GC_PROTO((GC_PTR object_addr)); +GC_API GC_PTR GC_debug_realloc + GC_PROTO((GC_PTR old_object, size_t new_size_in_bytes, + GC_EXTRA_PARAMS)); + +GC_API void GC_debug_change_stubborn GC_PROTO((GC_PTR)); +GC_API void GC_debug_end_stubborn_change GC_PROTO((GC_PTR)); +# ifdef GC_DEBUG +# define GC_MALLOC(sz) GC_debug_malloc(sz, GC_EXTRAS) +# define GC_MALLOC_ATOMIC(sz) GC_debug_malloc_atomic(sz, GC_EXTRAS) +# define GC_MALLOC_UNCOLLECTABLE(sz) GC_debug_malloc_uncollectable(sz, \ + GC_EXTRAS) +# define GC_REALLOC(old, sz) GC_debug_realloc(old, sz, GC_EXTRAS) +# define GC_FREE(p) GC_debug_free(p) +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_debug_register_finalizer(p, f, d, of, od) +# define GC_REGISTER_FINALIZER_IGNORE_SELF(p, f, d, of, od) \ + GC_debug_register_finalizer_ignore_self(p, f, d, of, od) +# define GC_MALLOC_STUBBORN(sz) GC_debug_malloc_stubborn(sz, GC_EXTRAS); +# define GC_CHANGE_STUBBORN(p) GC_debug_change_stubborn(p) +# define GC_END_STUBBORN_CHANGE(p) GC_debug_end_stubborn_change(p) +# define GC_GENERAL_REGISTER_DISAPPEARING_LINK(link, obj) \ + GC_general_register_disappearing_link(link, GC_base(obj)) +# define GC_REGISTER_DISPLACEMENT(n) GC_debug_register_displacement(n) +# else +# define GC_MALLOC(sz) GC_malloc(sz) +# define GC_MALLOC_ATOMIC(sz) GC_malloc_atomic(sz) +# define GC_MALLOC_UNCOLLECTABLE(sz) GC_malloc_uncollectable(sz) +# define GC_REALLOC(old, sz) GC_realloc(old, sz) +# define GC_FREE(p) GC_free(p) +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_register_finalizer(p, f, d, of, od) +# define GC_REGISTER_FINALIZER_IGNORE_SELF(p, f, d, of, od) \ + GC_register_finalizer_ignore_self(p, f, d, of, od) +# define GC_MALLOC_STUBBORN(sz) GC_malloc_stubborn(sz) +# define GC_CHANGE_STUBBORN(p) GC_change_stubborn(p) +# define GC_END_STUBBORN_CHANGE(p) GC_end_stubborn_change(p) +# define GC_GENERAL_REGISTER_DISAPPEARING_LINK(link, obj) \ + GC_general_register_disappearing_link(link, obj) +# define GC_REGISTER_DISPLACEMENT(n) GC_register_displacement(n) +# endif +/* The following are included because they are often convenient, and */ +/* reduce the chance for a misspecifed size argument. But calls may */ +/* expand to something syntactically incorrect if t is a complicated */ +/* type expression. */ +# define GC_NEW(t) (t *)GC_MALLOC(sizeof (t)) +# define GC_NEW_ATOMIC(t) (t *)GC_MALLOC_ATOMIC(sizeof (t)) +# define GC_NEW_STUBBORN(t) (t *)GC_MALLOC_STUBBORN(sizeof (t)) +# define GC_NEW_UNCOLLECTABLE(t) (t *)GC_MALLOC_UNCOLLECTABLE(sizeof (t)) + +/* Finalization. Some of these primitives are grossly unsafe. */ +/* The idea is to make them both cheap, and sufficient to build */ +/* a safer layer, closer to PCedar finalization. */ +/* The interface represents my conclusions from a long discussion */ +/* with Alan Demers, Dan Greene, Carl Hauser, Barry Hayes, */ +/* Christian Jacobi, and Russ Atkinson. It's not perfect, and */ +/* probably nobody else agrees with it. Hans-J. Boehm 3/13/92 */ +typedef void (*GC_finalization_proc) + GC_PROTO((GC_PTR obj, GC_PTR client_data)); + +GC_API void GC_register_finalizer + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); +GC_API void GC_debug_register_finalizer + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + /* When obj is no longer accessible, invoke */ + /* (*fn)(obj, cd). If a and b are inaccessible, and */ + /* a points to b (after disappearing links have been */ + /* made to disappear), then only a will be */ + /* finalized. (If this does not create any new */ + /* pointers to b, then b will be finalized after the */ + /* next collection.) Any finalizable object that */ + /* is reachable from itself by following one or more */ + /* pointers will not be finalized (or collected). */ + /* Thus cycles involving finalizable objects should */ + /* be avoided, or broken by disappearing links. */ + /* All but the last finalizer registered for an object */ + /* is ignored. */ + /* Finalization may be removed by passing 0 as fn. */ + /* Finalizers are implicitly unregistered just before */ + /* they are invoked. */ + /* The old finalizer and client data are stored in */ + /* *ofn and *ocd. */ + /* Fn is never invoked on an accessible object, */ + /* provided hidden pointers are converted to real */ + /* pointers only if the allocation lock is held, and */ + /* such conversions are not performed by finalization */ + /* routines. */ + /* If GC_register_finalizer is aborted as a result of */ + /* a signal, the object may be left with no */ + /* finalization, even if neither the old nor new */ + /* finalizer were NULL. */ + /* Obj should be the nonNULL starting address of an */ + /* object allocated by GC_malloc or friends. */ + /* Note that any garbage collectable object referenced */ + /* by cd will be considered accessible until the */ + /* finalizer is invoked. */ + +/* Another versions of the above follow. It ignores */ +/* self-cycles, i.e. pointers from a finalizable object to */ +/* itself. There is a stylistic argument that this is wrong, */ +/* but it's unavoidable for C++, since the compiler may */ +/* silently introduce these. It's also benign in that specific */ +/* case. */ +GC_API void GC_register_finalizer_ignore_self + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); +GC_API void GC_debug_register_finalizer_ignore_self + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + +/* The following routine may be used to break cycles between */ +/* finalizable objects, thus causing cyclic finalizable */ +/* objects to be finalized in the correct order. Standard */ +/* use involves calling GC_register_disappearing_link(&p), */ +/* where p is a pointer that is not followed by finalization */ +/* code, and should not be considered in determining */ +/* finalization order. */ +GC_API int GC_register_disappearing_link GC_PROTO((GC_PTR * /* link */)); + /* Link should point to a field of a heap allocated */ + /* object obj. *link will be cleared when obj is */ + /* found to be inaccessible. This happens BEFORE any */ + /* finalization code is invoked, and BEFORE any */ + /* decisions about finalization order are made. */ + /* This is useful in telling the finalizer that */ + /* some pointers are not essential for proper */ + /* finalization. This may avoid finalization cycles. */ + /* Note that obj may be resurrected by another */ + /* finalizer, and thus the clearing of *link may */ + /* be visible to non-finalization code. */ + /* There's an argument that an arbitrary action should */ + /* be allowed here, instead of just clearing a pointer. */ + /* But this causes problems if that action alters, or */ + /* examines connectivity. */ + /* Returns 1 if link was already registered, 0 */ + /* otherwise. */ + /* Only exists for backward compatibility. See below: */ + +GC_API int GC_general_register_disappearing_link + GC_PROTO((GC_PTR * /* link */, GC_PTR obj)); + /* A slight generalization of the above. *link is */ + /* cleared when obj first becomes inaccessible. This */ + /* can be used to implement weak pointers easily and */ + /* safely. Typically link will point to a location */ + /* holding a disguised pointer to obj. (A pointer */ + /* inside an "atomic" object is effectively */ + /* disguised.) In this way soft */ + /* pointers are broken before any object */ + /* reachable from them are finalized. Each link */ + /* May be registered only once, i.e. with one obj */ + /* value. This was added after a long email discussion */ + /* with John Ellis. */ + /* Obj must be a pointer to the first word of an object */ + /* we allocated. It is unsafe to explicitly deallocate */ + /* the object containing link. Explicitly deallocating */ + /* obj may or may not cause link to eventually be */ + /* cleared. */ +GC_API int GC_unregister_disappearing_link GC_PROTO((GC_PTR * /* link */)); + /* Returns 0 if link was not actually registered. */ + /* Undoes a registration by either of the above two */ + /* routines. */ + +/* Auxiliary fns to make finalization work correctly with displaced */ +/* pointers introduced by the debugging allocators. */ +GC_API GC_PTR GC_make_closure GC_PROTO((GC_finalization_proc fn, GC_PTR data)); +GC_API void GC_debug_invoke_finalizer GC_PROTO((GC_PTR obj, GC_PTR data)); + +GC_API int GC_invoke_finalizers GC_PROTO((void)); + /* Run finalizers for all objects that are ready to */ + /* be finalized. Return the number of finalizers */ + /* that were run. Normally this is also called */ + /* implicitly during some allocations. If */ + /* GC-finalize_on_demand is nonzero, it must be called */ + /* explicitly. */ + +/* GC_set_warn_proc can be used to redirect or filter warning messages. */ +/* p may not be a NULL pointer. */ +typedef void (*GC_warn_proc) GC_PROTO((char *msg, GC_word arg)); +GC_API GC_warn_proc GC_set_warn_proc GC_PROTO((GC_warn_proc p)); + /* Returns old warning procedure. */ + +/* The following is intended to be used by a higher level */ +/* (e.g. cedar-like) finalization facility. It is expected */ +/* that finalization code will arrange for hidden pointers to */ +/* disappear. Otherwise objects can be accessed after they */ +/* have been collected. */ +/* Note that putting pointers in atomic objects or in */ +/* nonpointer slots of "typed" objects is equivalent to */ +/* disguising them in this way, and may have other advantages. */ +# if defined(I_HIDE_POINTERS) || defined(GC_I_HIDE_POINTERS) + typedef GC_word GC_hidden_pointer; +# define HIDE_POINTER(p) (~(GC_hidden_pointer)(p)) +# define REVEAL_POINTER(p) ((GC_PTR)(HIDE_POINTER(p))) + /* Converting a hidden pointer to a real pointer requires verifying */ + /* that the object still exists. This involves acquiring the */ + /* allocator lock to avoid a race with the collector. */ +# endif /* I_HIDE_POINTERS */ + +typedef GC_PTR (*GC_fn_type) GC_PROTO((GC_PTR client_data)); +GC_API GC_PTR GC_call_with_alloc_lock + GC_PROTO((GC_fn_type fn, GC_PTR client_data)); + +/* Check that p and q point to the same object. */ +/* Fail conspicuously if they don't. */ +/* Returns the first argument. */ +/* Succeeds if neither p nor q points to the heap. */ +/* May succeed if both p and q point to between heap objects. */ +GC_API GC_PTR GC_same_obj GC_PROTO((GC_PTR p, GC_PTR q)); + +/* Checked pointer pre- and post- increment operations. Note that */ +/* the second argument is in units of bytes, not multiples of the */ +/* object size. This should either be invoked from a macro, or the */ +/* call should be automatically generated. */ +GC_API GC_PTR GC_pre_incr GC_PROTO((GC_PTR *p, size_t how_much)); +GC_API GC_PTR GC_post_incr GC_PROTO((GC_PTR *p, size_t how_much)); + +/* Check that p is visible */ +/* to the collector as a possibly pointer containing location. */ +/* If it isn't fail conspicuously. */ +/* Returns the argument in all cases. May erroneously succeed */ +/* in hard cases. (This is intended for debugging use with */ +/* untyped allocations. The idea is that it should be possible, though */ +/* slow, to add such a call to all indirect pointer stores.) */ +/* Currently useless for multithreaded worlds. */ +GC_API GC_PTR GC_is_visible GC_PROTO((GC_PTR p)); + +/* Check that if p is a pointer to a heap page, then it points to */ +/* a valid displacement within a heap object. */ +/* Fail conspicuously if this property does not hold. */ +/* Uninteresting with ALL_INTERIOR_POINTERS. */ +/* Always returns its argument. */ +GC_API GC_PTR GC_is_valid_displacement GC_PROTO((GC_PTR p)); + +/* Safer, but slow, pointer addition. Probably useful mainly with */ +/* a preprocessor. Useful only for heap pointers. */ +#ifdef GC_DEBUG +# define GC_PTR_ADD3(x, n, type_of_result) \ + ((type_of_result)GC_same_obj((x)+(n), (x))) +# define GC_PRE_INCR3(x, n, type_of_result) \ + ((type_of_result)GC_pre_incr(&(x), (n)*sizeof(*x)) +# define GC_POST_INCR2(x, type_of_result) \ + ((type_of_result)GC_post_incr(&(x), sizeof(*x)) +# ifdef __GNUC__ +# define GC_PTR_ADD(x, n) \ + GC_PTR_ADD3(x, n, typeof(x)) +# define GC_PRE_INCR(x, n) \ + GC_PRE_INCR3(x, n, typeof(x)) +# define GC_POST_INCR(x, n) \ + GC_POST_INCR3(x, typeof(x)) +# else + /* We can't do this right without typeof, which ANSI */ + /* decided was not sufficiently useful. Repeatedly */ + /* mentioning the arguments seems too dangerous to be */ + /* useful. So does not casting the result. */ +# define GC_PTR_ADD(x, n) ((x)+(n)) +# endif +#else /* !GC_DEBUG */ +# define GC_PTR_ADD3(x, n, type_of_result) ((x)+(n)) +# define GC_PTR_ADD(x, n) ((x)+(n)) +# define GC_PRE_INCR3(x, n, type_of_result) ((x) += (n)) +# define GC_PRE_INCR(x, n) ((x) += (n)) +# define GC_POST_INCR2(x, n, type_of_result) ((x)++) +# define GC_POST_INCR(x, n) ((x)++) +#endif + +/* Safer assignment of a pointer to a nonstack location. */ +#ifdef GC_DEBUG +# ifdef __STDC__ +# define GC_PTR_STORE(p, q) \ + (*(void **)GC_is_visible(p) = GC_is_valid_displacement(q)) +# else +# define GC_PTR_STORE(p, q) \ + (*(char **)GC_is_visible(p) = GC_is_valid_displacement(q)) +# endif +#else /* !GC_DEBUG */ +# define GC_PTR_STORE(p, q) *((p) = (q)) +#endif + +/* Fynctions called to report pointer checking errors */ +GC_API void (*GC_same_obj_print_proc) GC_PROTO((GC_PTR p, GC_PTR q)); + +GC_API void (*GC_is_valid_displacement_print_proc) + GC_PROTO((GC_PTR p)); + +GC_API void (*GC_is_visible_print_proc) + GC_PROTO((GC_PTR p)); + +#if defined(_SOLARIS_PTHREADS) && !defined(SOLARIS_THREADS) +# define SOLARIS_THREADS +#endif + +#ifdef SOLARIS_THREADS +/* We need to intercept calls to many of the threads primitives, so */ +/* that we can locate thread stacks and stop the world. */ +/* Note also that the collector cannot see thread specific data. */ +/* Thread specific data should generally consist of pointers to */ +/* uncollectable objects, which are deallocated using the destructor */ +/* facility in thr_keycreate. */ +# include <thread.h> +# include <signal.h> + int GC_thr_create(void *stack_base, size_t stack_size, + void *(*start_routine)(void *), void *arg, long flags, + thread_t *new_thread); + int GC_thr_join(thread_t wait_for, thread_t *departed, void **status); + int GC_thr_suspend(thread_t target_thread); + int GC_thr_continue(thread_t target_thread); + void * GC_dlopen(const char *path, int mode); + +# ifdef _SOLARIS_PTHREADS +# include <pthread.h> + extern int GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void * (*thread_execp)(void *), void *arg); + extern int GC_pthread_join(pthread_t wait_for, void **status); + +# undef thread_t + +# define pthread_join GC_pthread_join +# define pthread_create GC_pthread_create +#endif + +# define thr_create GC_thr_create +# define thr_join GC_thr_join +# define thr_suspend GC_thr_suspend +# define thr_continue GC_thr_continue +# define dlopen GC_dlopen + +# endif /* SOLARIS_THREADS */ + + +#if defined(IRIX_THREADS) || defined(LINUX_THREADS) +/* We treat these similarly. */ +# include <pthread.h> +# include <signal.h> + + int GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void *(*start_routine)(void *), void *arg); + int GC_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset); + int GC_pthread_join(pthread_t thread, void **retval); + +# define pthread_create GC_pthread_create +# define pthread_sigmask GC_pthread_sigmask +# define pthread_join GC_pthread_join + +#endif /* IRIX_THREADS || LINUX_THREADS */ + +# if defined(PCR) || defined(SOLARIS_THREADS) || defined(WIN32_THREADS) || \ + defined(IRIX_THREADS) || defined(LINUX_THREADS) || \ + defined(IRIX_JDK_THREADS) + /* Any flavor of threads except SRC_M3. */ +/* This returns a list of objects, linked through their first */ +/* word. Its use can greatly reduce lock contention problems, since */ +/* the allocation lock can be acquired and released many fewer times. */ +/* lb must be large enough to hold the pointer field. */ +GC_PTR GC_malloc_many(size_t lb); +#define GC_NEXT(p) (*(GC_PTR *)(p)) /* Retrieve the next element */ + /* in returned list. */ +extern void GC_thr_init(); /* Needed for Solaris/X86 */ + +#endif /* THREADS && !SRC_M3 */ + +/* + * If you are planning on putting + * the collector in a SunOS 5 dynamic library, you need to call GC_INIT() + * from the statically loaded program section. + * This circumvents a Solaris 2.X (X<=4) linker bug. + */ +#if defined(sparc) || defined(__sparc) +# define GC_INIT() { extern end, etext; \ + GC_noop(&end, &etext); } +#else +# if defined(__CYGWIN32__) && defined(GC_USE_DLL) + /* + * Similarly gnu-win32 DLLs need explicit initialization + */ +# define GC_INIT() { GC_add_roots(DATASTART, DATAEND); } +# else +# define GC_INIT() +# endif +#endif + +#if (defined(_MSDOS) || defined(_MSC_VER)) && (_M_IX86 >= 300) \ + || defined(_WIN32) + /* win32S may not free all resources on process exit. */ + /* This explicitly deallocates the heap. */ + GC_API void GC_win32_free_heap (); +#endif + +#ifdef __cplusplus + } /* end of extern "C" */ +#endif + +#endif /* _GC_H */ diff --git a/gc/cord/private/cord_pos.h b/gc/cord/private/cord_pos.h new file mode 100644 index 0000000..d2b24bb --- /dev/null +++ b/gc/cord/private/cord_pos.h @@ -0,0 +1,118 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, May 19, 1994 2:23 pm PDT */ +# ifndef CORD_POSITION_H + +/* The representation of CORD_position. This is private to the */ +/* implementation, but the size is known to clients. Also */ +/* the implementation of some exported macros relies on it. */ +/* Don't use anything defined here and not in cord.h. */ + +# define MAX_DEPTH 48 + /* The maximum depth of a balanced cord + 1. */ + /* We don't let cords get deeper than MAX_DEPTH. */ + +struct CORD_pe { + CORD pe_cord; + size_t pe_start_pos; +}; + +/* A structure describing an entry on the path from the root */ +/* to current position. */ +typedef struct CORD_Pos { + size_t cur_pos; + int path_len; +# define CORD_POS_INVALID (0x55555555) + /* path_len == INVALID <==> position invalid */ + const char *cur_leaf; /* Current leaf, if it is a string. */ + /* If the current leaf is a function, */ + /* then this may point to function_buf */ + /* containing the next few characters. */ + /* Always points to a valid string */ + /* containing the current character */ + /* unless cur_end is 0. */ + size_t cur_start; /* Start position of cur_leaf */ + size_t cur_end; /* Ending position of cur_leaf */ + /* 0 if cur_leaf is invalid. */ + struct CORD_pe path[MAX_DEPTH + 1]; + /* path[path_len] is the leaf corresponding to cur_pos */ + /* path[0].pe_cord is the cord we point to. */ +# define FUNCTION_BUF_SZ 8 + char function_buf[FUNCTION_BUF_SZ]; /* Space for next few chars */ + /* from function node. */ +} CORD_pos[1]; + +/* Extract the cord from a position: */ +CORD CORD_pos_to_cord(CORD_pos p); + +/* Extract the current index from a position: */ +size_t CORD_pos_to_index(CORD_pos p); + +/* Fetch the character located at the given position: */ +char CORD_pos_fetch(CORD_pos p); + +/* Initialize the position to refer to the give cord and index. */ +/* Note that this is the most expensive function on positions: */ +void CORD_set_pos(CORD_pos p, CORD x, size_t i); + +/* Advance the position to the next character. */ +/* P must be initialized and valid. */ +/* Invalidates p if past end: */ +void CORD_next(CORD_pos p); + +/* Move the position to the preceding character. */ +/* P must be initialized and valid. */ +/* Invalidates p if past beginning: */ +void CORD_prev(CORD_pos p); + +/* Is the position valid, i.e. inside the cord? */ +int CORD_pos_valid(CORD_pos p); + +char CORD__pos_fetch(CORD_pos); +void CORD__next(CORD_pos); +void CORD__prev(CORD_pos); + +#define CORD_pos_fetch(p) \ + (((p)[0].cur_end != 0)? \ + (p)[0].cur_leaf[(p)[0].cur_pos - (p)[0].cur_start] \ + : CORD__pos_fetch(p)) + +#define CORD_next(p) \ + (((p)[0].cur_pos + 1 < (p)[0].cur_end)? \ + (p)[0].cur_pos++ \ + : (CORD__next(p), 0)) + +#define CORD_prev(p) \ + (((p)[0].cur_end != 0 && (p)[0].cur_pos > (p)[0].cur_start)? \ + (p)[0].cur_pos-- \ + : (CORD__prev(p), 0)) + +#define CORD_pos_to_index(p) ((p)[0].cur_pos) + +#define CORD_pos_to_cord(p) ((p)[0].path[0].pe_cord) + +#define CORD_pos_valid(p) ((p)[0].path_len != CORD_POS_INVALID) + +/* Some grubby stuff for performance-critical friends: */ +#define CORD_pos_chars_left(p) ((long)((p)[0].cur_end) - (long)((p)[0].cur_pos)) + /* Number of characters in cache. <= 0 ==> none */ + +#define CORD_pos_advance(p,n) ((p)[0].cur_pos += (n) - 1, CORD_next(p)) + /* Advance position by n characters */ + /* 0 < n < CORD_pos_chars_left(p) */ + +#define CORD_pos_cur_char_addr(p) \ + (p)[0].cur_leaf + ((p)[0].cur_pos - (p)[0].cur_start) + /* address of current character in cache. */ + +#endif diff --git a/gc/dbg_mlc.c b/gc/dbg_mlc.c new file mode 100644 index 0000000..6483256 --- /dev/null +++ b/gc/dbg_mlc.c @@ -0,0 +1,799 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * Copyright (c) 1997 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +# define I_HIDE_POINTERS +# include "gc_priv.h" +# ifdef KEEP_BACK_PTRS +# include "backptr.h" +# endif + +void GC_default_print_heap_obj_proc(); +GC_API void GC_register_finalizer_no_order + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + +/* Do we want to and know how to save the call stack at the time of */ +/* an allocation? How much space do we want to use in each object? */ + +# define START_FLAG ((word)0xfedcedcb) +# define END_FLAG ((word)0xbcdecdef) + /* Stored both one past the end of user object, and one before */ + /* the end of the object as seen by the allocator. */ + + +/* Object header */ +typedef struct { +# ifdef KEEP_BACK_PTRS + ptr_t oh_back_ptr; +# define MARKED_FOR_FINALIZATION (ptr_t)(-1) + /* Object was marked because it is finalizable. */ +# ifdef ALIGN_DOUBLE + word oh_dummy; +# endif +# endif + char * oh_string; /* object descriptor string */ + word oh_int; /* object descriptor integers */ +# ifdef NEED_CALLINFO + struct callinfo oh_ci[NFRAMES]; +# endif + word oh_sz; /* Original malloc arg. */ + word oh_sf; /* start flag */ +} oh; +/* The size of the above structure is assumed not to dealign things, */ +/* and to be a multiple of the word length. */ + +#define DEBUG_BYTES (sizeof (oh) + sizeof (word)) +#undef ROUNDED_UP_WORDS +#define ROUNDED_UP_WORDS(n) BYTES_TO_WORDS((n) + WORDS_TO_BYTES(1) - 1) + + +#ifdef SAVE_CALL_CHAIN +# define ADD_CALL_CHAIN(base, ra) GC_save_callers(((oh *)(base)) -> oh_ci) +# define PRINT_CALL_CHAIN(base) GC_print_callers(((oh *)(base)) -> oh_ci) +#else +# ifdef GC_ADD_CALLER +# define ADD_CALL_CHAIN(base, ra) ((oh *)(base)) -> oh_ci[0].ci_pc = (ra) +# define PRINT_CALL_CHAIN(base) GC_print_callers(((oh *)(base)) -> oh_ci) +# else +# define ADD_CALL_CHAIN(base, ra) +# define PRINT_CALL_CHAIN(base) +# endif +#endif + +/* Check whether object with base pointer p has debugging info */ +/* p is assumed to point to a legitimate object in our part */ +/* of the heap. */ +GC_bool GC_has_debug_info(p) +ptr_t p; +{ + register oh * ohdr = (oh *)p; + register ptr_t body = (ptr_t)(ohdr + 1); + register word sz = GC_size((ptr_t) ohdr); + + if (HBLKPTR((ptr_t)ohdr) != HBLKPTR((ptr_t)body) + || sz < sizeof (oh)) { + return(FALSE); + } + if (ohdr -> oh_sz == sz) { + /* Object may have had debug info, but has been deallocated */ + return(FALSE); + } + if (ohdr -> oh_sf == (START_FLAG ^ (word)body)) return(TRUE); + if (((word *)ohdr)[BYTES_TO_WORDS(sz)-1] == (END_FLAG ^ (word)body)) { + return(TRUE); + } + return(FALSE); +} + +#ifdef KEEP_BACK_PTRS + /* Store back pointer to source in dest, if that appears to be possible. */ + /* This is not completely safe, since we may mistakenly conclude that */ + /* dest has a debugging wrapper. But the error probability is very */ + /* small, and this shouldn't be used in production code. */ + /* We assume that dest is the real base pointer. Source will usually */ + /* be a pointer to the interior of an object. */ + void GC_store_back_pointer(ptr_t source, ptr_t dest) + { + if (GC_has_debug_info(dest)) { + ((oh *)dest) -> oh_back_ptr = (ptr_t)HIDE_POINTER(source); + } + } + + void GC_marked_for_finalization(ptr_t dest) { + GC_store_back_pointer(MARKED_FOR_FINALIZATION, dest); + } + + /* Store information about the object referencing dest in *base_p */ + /* and *offset_p. */ + /* source is root ==> *base_p = 0, *offset_p = address */ + /* source is heap object ==> *base_p != 0, *offset_p = offset */ + /* Returns 1 on success, 0 if source couldn't be determined. */ + /* Dest can be any address within a heap object. */ + GC_ref_kind GC_get_back_ptr_info(void *dest, void **base_p, size_t *offset_p) + { + oh * hdr = (oh *)GC_base(dest); + ptr_t bp; + ptr_t bp_base; + if (!GC_has_debug_info((ptr_t) hdr)) return GC_NO_SPACE; + bp = hdr -> oh_back_ptr; + if (MARKED_FOR_FINALIZATION == bp) return GC_FINALIZER_REFD; + if (0 == bp) return GC_UNREFERENCED; + bp = REVEAL_POINTER(bp); + bp_base = GC_base(bp); + if (0 == bp_base) { + *base_p = bp; + *offset_p = 0; + return GC_REFD_FROM_ROOT; + } else { + if (GC_has_debug_info(bp_base)) bp_base += sizeof(oh); + *base_p = bp_base; + *offset_p = bp - bp_base; + return GC_REFD_FROM_HEAP; + } + } + + /* Generate a random heap address. */ + /* The resulting address is in the heap, but */ + /* not necessarily inside a valid object. */ + void *GC_generate_random_heap_address(void) + { + int i; + int heap_offset = random() % GC_heapsize; + for (i = 0; i < GC_n_heap_sects; ++ i) { + int size = GC_heap_sects[i].hs_bytes; + if (heap_offset < size) { + return GC_heap_sects[i].hs_start + heap_offset; + } else { + heap_offset -= size; + } + } + ABORT("GC_generate_random_heap_address: size inconsistency"); + /*NOTREACHED*/ + return 0; + } + + /* Generate a random address inside a valid marked heap object. */ + void *GC_generate_random_valid_address(void) + { + ptr_t result; + ptr_t base; + for (;;) { + result = GC_generate_random_heap_address(); + base = GC_base(result); + if (0 == base) continue; + if (!GC_is_marked(base)) continue; + return result; + } + } + + /* Force a garbage collection and generate a backtrace from a */ + /* random heap address. */ + void GC_generate_random_backtrace(void) + { + void * current; + int i; + void * base; + size_t offset; + GC_ref_kind source; + GC_gcollect(); + current = GC_generate_random_valid_address(); + GC_printf1("Chose address 0x%lx in object\n", (unsigned long)current); + GC_print_heap_obj(GC_base(current)); + GC_err_printf0("\n"); + for (i = 0; ; ++i) { + source = GC_get_back_ptr_info(current, &base, &offset); + if (GC_UNREFERENCED == source) { + GC_err_printf0("Reference could not be found\n"); + goto out; + } + if (GC_NO_SPACE == source) { + GC_err_printf0("No debug info in object: Can't find reference\n"); + goto out; + } + GC_err_printf1("Reachable via %d levels of pointers from ", + (unsigned long)i); + switch(source) { + case GC_REFD_FROM_ROOT: + GC_err_printf1("root at 0x%lx\n", (unsigned long)base); + goto out; + case GC_FINALIZER_REFD: + GC_err_printf0("list of finalizable objects\n"); + goto out; + case GC_REFD_FROM_HEAP: + GC_err_printf1("offset %ld in object:\n", (unsigned long)offset); + /* Take GC_base(base) to get real base, i.e. header. */ + GC_print_heap_obj(GC_base(base)); + GC_err_printf0("\n"); + break; + } + current = base; + } + out:; + } + +#endif /* KEEP_BACK_PTRS */ + +/* Store debugging info into p. Return displaced pointer. */ +/* Assumes we don't hold allocation lock. */ +ptr_t GC_store_debug_info(p, sz, string, integer) +register ptr_t p; /* base pointer */ +word sz; /* bytes */ +char * string; +word integer; +{ + register word * result = (word *)((oh *)p + 1); + DCL_LOCK_STATE; + + /* There is some argument that we should dissble signals here. */ + /* But that's expensive. And this way things should only appear */ + /* inconsistent while we're in the handler. */ + LOCK(); +# ifdef KEEP_BACK_PTRS + ((oh *)p) -> oh_back_ptr = 0; +# endif + ((oh *)p) -> oh_string = string; + ((oh *)p) -> oh_int = integer; + ((oh *)p) -> oh_sz = sz; + ((oh *)p) -> oh_sf = START_FLAG ^ (word)result; + ((word *)p)[BYTES_TO_WORDS(GC_size(p))-1] = + result[ROUNDED_UP_WORDS(sz)] = END_FLAG ^ (word)result; + UNLOCK(); + return((ptr_t)result); +} + +/* Check the object with debugging info at ohdr */ +/* return NIL if it's OK. Else return clobbered */ +/* address. */ +ptr_t GC_check_annotated_obj(ohdr) +register oh * ohdr; +{ + register ptr_t body = (ptr_t)(ohdr + 1); + register word gc_sz = GC_size((ptr_t)ohdr); + if (ohdr -> oh_sz + DEBUG_BYTES > gc_sz) { + return((ptr_t)(&(ohdr -> oh_sz))); + } + if (ohdr -> oh_sf != (START_FLAG ^ (word)body)) { + return((ptr_t)(&(ohdr -> oh_sf))); + } + if (((word *)ohdr)[BYTES_TO_WORDS(gc_sz)-1] != (END_FLAG ^ (word)body)) { + return((ptr_t)((word *)ohdr + BYTES_TO_WORDS(gc_sz)-1)); + } + if (((word *)body)[ROUNDED_UP_WORDS(ohdr -> oh_sz)] + != (END_FLAG ^ (word)body)) { + return((ptr_t)((word *)body + ROUNDED_UP_WORDS(ohdr -> oh_sz))); + } + return(0); +} + +void GC_print_obj(p) +ptr_t p; +{ + register oh * ohdr = (oh *)GC_base(p); + + GC_err_printf1("0x%lx (", ((unsigned long)ohdr + sizeof(oh))); + GC_err_puts(ohdr -> oh_string); + GC_err_printf2(":%ld, sz=%ld)\n", (unsigned long)(ohdr -> oh_int), + (unsigned long)(ohdr -> oh_sz)); + PRINT_CALL_CHAIN(ohdr); +} + +void GC_debug_print_heap_obj_proc(p) +ptr_t p; +{ + if (GC_has_debug_info(p)) { + GC_print_obj(p); + } else { + GC_default_print_heap_obj_proc(p); + } +} + +void GC_print_smashed_obj(p, clobbered_addr) +ptr_t p, clobbered_addr; +{ + register oh * ohdr = (oh *)GC_base(p); + + GC_err_printf2("0x%lx in object at 0x%lx(", (unsigned long)clobbered_addr, + (unsigned long)p); + if (clobbered_addr <= (ptr_t)(&(ohdr -> oh_sz)) + || ohdr -> oh_string == 0) { + GC_err_printf1("<smashed>, appr. sz = %ld)\n", + (GC_size((ptr_t)ohdr) - DEBUG_BYTES)); + } else { + if (ohdr -> oh_string[0] == '\0') { + GC_err_puts("EMPTY(smashed?)"); + } else { + GC_err_puts(ohdr -> oh_string); + } + GC_err_printf2(":%ld, sz=%ld)\n", (unsigned long)(ohdr -> oh_int), + (unsigned long)(ohdr -> oh_sz)); + PRINT_CALL_CHAIN(ohdr); + } +} + +void GC_check_heap_proc(); + +void GC_start_debugging() +{ + GC_check_heap = GC_check_heap_proc; + GC_print_heap_obj = GC_debug_print_heap_obj_proc; + GC_debugging_started = TRUE; + GC_register_displacement((word)sizeof(oh)); +} + +# if defined(__STDC__) || defined(__cplusplus) + void GC_debug_register_displacement(GC_word offset) +# else + void GC_debug_register_displacement(offset) + GC_word offset; +# endif +{ + GC_register_displacement(offset); + GC_register_displacement((word)sizeof(oh) + offset); +} + +# ifdef GC_ADD_CALLER +# define EXTRA_ARGS word ra, char * s, int i +# define OPT_RA ra, +# else +# define EXTRA_ARGS char * s, int i +# define OPT_RA +# endif + +# ifdef __STDC__ + GC_PTR GC_debug_malloc(size_t lb, EXTRA_ARGS) +# else + GC_PTR GC_debug_malloc(lb, s, i) + size_t lb; + char * s; + int i; +# ifdef GC_ADD_CALLER + --> GC_ADD_CALLER not implemented for K&R C +# endif +# endif +{ + GC_PTR result = GC_malloc(lb + DEBUG_BYTES); + + if (result == 0) { + GC_err_printf1("GC_debug_malloc(%ld) returning NIL (", + (unsigned long) lb); + GC_err_puts(s); + GC_err_printf1(":%ld)\n", (unsigned long)i); + return(0); + } + if (!GC_debugging_started) { + GC_start_debugging(); + } + ADD_CALL_CHAIN(result, ra); + return (GC_store_debug_info(result, (word)lb, s, (word)i)); +} + +#ifdef STUBBORN_ALLOC +# ifdef __STDC__ + GC_PTR GC_debug_malloc_stubborn(size_t lb, EXTRA_ARGS) +# else + GC_PTR GC_debug_malloc_stubborn(lb, s, i) + size_t lb; + char * s; + int i; +# endif +{ + GC_PTR result = GC_malloc_stubborn(lb + DEBUG_BYTES); + + if (result == 0) { + GC_err_printf1("GC_debug_malloc(%ld) returning NIL (", + (unsigned long) lb); + GC_err_puts(s); + GC_err_printf1(":%ld)\n", (unsigned long)i); + return(0); + } + if (!GC_debugging_started) { + GC_start_debugging(); + } + ADD_CALL_CHAIN(result, ra); + return (GC_store_debug_info(result, (word)lb, s, (word)i)); +} + +void GC_debug_change_stubborn(p) +GC_PTR p; +{ + register GC_PTR q = GC_base(p); + register hdr * hhdr; + + if (q == 0) { + GC_err_printf1("Bad argument: 0x%lx to GC_debug_change_stubborn\n", + (unsigned long) p); + ABORT("GC_debug_change_stubborn: bad arg"); + } + hhdr = HDR(q); + if (hhdr -> hb_obj_kind != STUBBORN) { + GC_err_printf1("GC_debug_change_stubborn arg not stubborn: 0x%lx\n", + (unsigned long) p); + ABORT("GC_debug_change_stubborn: arg not stubborn"); + } + GC_change_stubborn(q); +} + +void GC_debug_end_stubborn_change(p) +GC_PTR p; +{ + register GC_PTR q = GC_base(p); + register hdr * hhdr; + + if (q == 0) { + GC_err_printf1("Bad argument: 0x%lx to GC_debug_end_stubborn_change\n", + (unsigned long) p); + ABORT("GC_debug_end_stubborn_change: bad arg"); + } + hhdr = HDR(q); + if (hhdr -> hb_obj_kind != STUBBORN) { + GC_err_printf1("debug_end_stubborn_change arg not stubborn: 0x%lx\n", + (unsigned long) p); + ABORT("GC_debug_end_stubborn_change: arg not stubborn"); + } + GC_end_stubborn_change(q); +} + +#endif /* STUBBORN_ALLOC */ + +# ifdef __STDC__ + GC_PTR GC_debug_malloc_atomic(size_t lb, EXTRA_ARGS) +# else + GC_PTR GC_debug_malloc_atomic(lb, s, i) + size_t lb; + char * s; + int i; +# endif +{ + GC_PTR result = GC_malloc_atomic(lb + DEBUG_BYTES); + + if (result == 0) { + GC_err_printf1("GC_debug_malloc_atomic(%ld) returning NIL (", + (unsigned long) lb); + GC_err_puts(s); + GC_err_printf1(":%ld)\n", (unsigned long)i); + return(0); + } + if (!GC_debugging_started) { + GC_start_debugging(); + } + ADD_CALL_CHAIN(result, ra); + return (GC_store_debug_info(result, (word)lb, s, (word)i)); +} + +# ifdef __STDC__ + GC_PTR GC_debug_malloc_uncollectable(size_t lb, EXTRA_ARGS) +# else + GC_PTR GC_debug_malloc_uncollectable(lb, s, i) + size_t lb; + char * s; + int i; +# endif +{ + GC_PTR result = GC_malloc_uncollectable(lb + DEBUG_BYTES); + + if (result == 0) { + GC_err_printf1("GC_debug_malloc_uncollectable(%ld) returning NIL (", + (unsigned long) lb); + GC_err_puts(s); + GC_err_printf1(":%ld)\n", (unsigned long)i); + return(0); + } + if (!GC_debugging_started) { + GC_start_debugging(); + } + ADD_CALL_CHAIN(result, ra); + return (GC_store_debug_info(result, (word)lb, s, (word)i)); +} + +#ifdef ATOMIC_UNCOLLECTABLE +# ifdef __STDC__ + GC_PTR GC_debug_malloc_atomic_uncollectable(size_t lb, EXTRA_ARGS) +# else + GC_PTR GC_debug_malloc_atomic_uncollectable(lb, s, i) + size_t lb; + char * s; + int i; +# endif +{ + GC_PTR result = GC_malloc_atomic_uncollectable(lb + DEBUG_BYTES); + + if (result == 0) { + GC_err_printf1( + "GC_debug_malloc_atomic_uncollectable(%ld) returning NIL (", + (unsigned long) lb); + GC_err_puts(s); + GC_err_printf1(":%ld)\n", (unsigned long)i); + return(0); + } + if (!GC_debugging_started) { + GC_start_debugging(); + } + ADD_CALL_CHAIN(result, ra); + return (GC_store_debug_info(result, (word)lb, s, (word)i)); +} +#endif /* ATOMIC_UNCOLLECTABLE */ + +# ifdef __STDC__ + void GC_debug_free(GC_PTR p) +# else + void GC_debug_free(p) + GC_PTR p; +# endif +{ + register GC_PTR base = GC_base(p); + register ptr_t clobbered; + + if (base == 0) { + GC_err_printf1("Attempt to free invalid pointer %lx\n", + (unsigned long)p); + if (p != 0) ABORT("free(invalid pointer)"); + } + if ((ptr_t)p - (ptr_t)base != sizeof(oh)) { + GC_err_printf1( + "GC_debug_free called on pointer %lx wo debugging info\n", + (unsigned long)p); + } else { + clobbered = GC_check_annotated_obj((oh *)base); + if (clobbered != 0) { + if (((oh *)base) -> oh_sz == GC_size(base)) { + GC_err_printf0( + "GC_debug_free: found previously deallocated (?) object at "); + } else { + GC_err_printf0("GC_debug_free: found smashed location at "); + } + GC_print_smashed_obj(p, clobbered); + } + /* Invalidate size */ + ((oh *)base) -> oh_sz = GC_size(base); + } + if (GC_find_leak) { + GC_free(base); + } else { + register hdr * hhdr = HDR(p); + GC_bool uncollectable = FALSE; + + if (hhdr -> hb_obj_kind == UNCOLLECTABLE) { + uncollectable = TRUE; + } +# ifdef ATOMIC_UNCOLLECTABLE + if (hhdr -> hb_obj_kind == AUNCOLLECTABLE) { + uncollectable = TRUE; + } +# endif + if (uncollectable) GC_free(base); + } /* !GC_find_leak */ +} + +# ifdef __STDC__ + GC_PTR GC_debug_realloc(GC_PTR p, size_t lb, EXTRA_ARGS) +# else + GC_PTR GC_debug_realloc(p, lb, s, i) + GC_PTR p; + size_t lb; + char *s; + int i; +# endif +{ + register GC_PTR base = GC_base(p); + register ptr_t clobbered; + register GC_PTR result; + register size_t copy_sz = lb; + register size_t old_sz; + register hdr * hhdr; + + if (p == 0) return(GC_debug_malloc(lb, OPT_RA s, i)); + if (base == 0) { + GC_err_printf1( + "Attempt to reallocate invalid pointer %lx\n", (unsigned long)p); + ABORT("realloc(invalid pointer)"); + } + if ((ptr_t)p - (ptr_t)base != sizeof(oh)) { + GC_err_printf1( + "GC_debug_realloc called on pointer %lx wo debugging info\n", + (unsigned long)p); + return(GC_realloc(p, lb)); + } + hhdr = HDR(base); + switch (hhdr -> hb_obj_kind) { +# ifdef STUBBORN_ALLOC + case STUBBORN: + result = GC_debug_malloc_stubborn(lb, OPT_RA s, i); + break; +# endif + case NORMAL: + result = GC_debug_malloc(lb, OPT_RA s, i); + break; + case PTRFREE: + result = GC_debug_malloc_atomic(lb, OPT_RA s, i); + break; + case UNCOLLECTABLE: + result = GC_debug_malloc_uncollectable(lb, OPT_RA s, i); + break; +# ifdef ATOMIC_UNCOLLECTABLE + case AUNCOLLECTABLE: + result = GC_debug_malloc_atomic_uncollectable(lb, OPT_RA s, i); + break; +# endif + default: + GC_err_printf0("GC_debug_realloc: encountered bad kind\n"); + ABORT("bad kind"); + } + clobbered = GC_check_annotated_obj((oh *)base); + if (clobbered != 0) { + GC_err_printf0("GC_debug_realloc: found smashed location at "); + GC_print_smashed_obj(p, clobbered); + } + old_sz = ((oh *)base) -> oh_sz; + if (old_sz < copy_sz) copy_sz = old_sz; + if (result == 0) return(0); + BCOPY(p, result, copy_sz); + GC_debug_free(p); + return(result); +} + +/* Check all marked objects in the given block for validity */ +/*ARGSUSED*/ +void GC_check_heap_block(hbp, dummy) +register struct hblk *hbp; /* ptr to current heap block */ +word dummy; +{ + register struct hblkhdr * hhdr = HDR(hbp); + register word sz = hhdr -> hb_sz; + register int word_no; + register word *p, *plim; + + p = (word *)(hbp->hb_body); + word_no = HDR_WORDS; + if (sz > MAXOBJSZ) { + plim = p; + } else { + plim = (word *)((((word)hbp) + HBLKSIZE) - WORDS_TO_BYTES(sz)); + } + /* go through all words in block */ + while( p <= plim ) { + if( mark_bit_from_hdr(hhdr, word_no) + && GC_has_debug_info((ptr_t)p)) { + ptr_t clobbered = GC_check_annotated_obj((oh *)p); + + if (clobbered != 0) { + GC_err_printf0( + "GC_check_heap_block: found smashed location at "); + GC_print_smashed_obj((ptr_t)p, clobbered); + } + } + word_no += sz; + p += sz; + } +} + + +/* This assumes that all accessible objects are marked, and that */ +/* I hold the allocation lock. Normally called by collector. */ +void GC_check_heap_proc() +{ +# ifndef SMALL_CONFIG + if (sizeof(oh) & (2 * sizeof(word) - 1) != 0) { + ABORT("Alignment problem: object header has inappropriate size\n"); + } +# endif + GC_apply_to_all_blocks(GC_check_heap_block, (word)0); +} + +struct closure { + GC_finalization_proc cl_fn; + GC_PTR cl_data; +}; + +# ifdef __STDC__ + void * GC_make_closure(GC_finalization_proc fn, void * data) +# else + GC_PTR GC_make_closure(fn, data) + GC_finalization_proc fn; + GC_PTR data; +# endif +{ + struct closure * result = + (struct closure *) GC_malloc(sizeof (struct closure)); + + result -> cl_fn = fn; + result -> cl_data = data; + return((GC_PTR)result); +} + +# ifdef __STDC__ + void GC_debug_invoke_finalizer(void * obj, void * data) +# else + void GC_debug_invoke_finalizer(obj, data) + char * obj; + char * data; +# endif +{ + register struct closure * cl = (struct closure *) data; + + (*(cl -> cl_fn))((GC_PTR)((char *)obj + sizeof(oh)), cl -> cl_data); +} + + +# ifdef __STDC__ + void GC_debug_register_finalizer(GC_PTR obj, GC_finalization_proc fn, + GC_PTR cd, GC_finalization_proc *ofn, + GC_PTR *ocd) +# else + void GC_debug_register_finalizer(obj, fn, cd, ofn, ocd) + GC_PTR obj; + GC_finalization_proc fn; + GC_PTR cd; + GC_finalization_proc *ofn; + GC_PTR *ocd; +# endif +{ + ptr_t base = GC_base(obj); + if (0 == base || (ptr_t)obj - base != sizeof(oh)) { + GC_err_printf1( + "GC_register_finalizer called with non-base-pointer 0x%lx\n", + obj); + } + GC_register_finalizer(base, GC_debug_invoke_finalizer, + GC_make_closure(fn,cd), ofn, ocd); +} + +# ifdef __STDC__ + void GC_debug_register_finalizer_no_order + (GC_PTR obj, GC_finalization_proc fn, + GC_PTR cd, GC_finalization_proc *ofn, + GC_PTR *ocd) +# else + void GC_debug_register_finalizer_no_order + (obj, fn, cd, ofn, ocd) + GC_PTR obj; + GC_finalization_proc fn; + GC_PTR cd; + GC_finalization_proc *ofn; + GC_PTR *ocd; +# endif +{ + ptr_t base = GC_base(obj); + if (0 == base || (ptr_t)obj - base != sizeof(oh)) { + GC_err_printf1( + "GC_register_finalizer_no_order called with non-base-pointer 0x%lx\n", + obj); + } + GC_register_finalizer_no_order(base, GC_debug_invoke_finalizer, + GC_make_closure(fn,cd), ofn, ocd); + } + +# ifdef __STDC__ + void GC_debug_register_finalizer_ignore_self + (GC_PTR obj, GC_finalization_proc fn, + GC_PTR cd, GC_finalization_proc *ofn, + GC_PTR *ocd) +# else + void GC_debug_register_finalizer_ignore_self + (obj, fn, cd, ofn, ocd) + GC_PTR obj; + GC_finalization_proc fn; + GC_PTR cd; + GC_finalization_proc *ofn; + GC_PTR *ocd; +# endif +{ + ptr_t base = GC_base(obj); + if (0 == base || (ptr_t)obj - base != sizeof(oh)) { + GC_err_printf1( + "GC_register_finalizer_ignore_self called with non-base-pointer 0x%lx\n", + obj); + } + GC_register_finalizer_ignore_self(base, GC_debug_invoke_finalizer, + GC_make_closure(fn,cd), ofn, ocd); +} diff --git a/gc/dyn_load.c b/gc/dyn_load.c new file mode 100644 index 0000000..d3df0a0 --- /dev/null +++ b/gc/dyn_load.c @@ -0,0 +1,799 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1997 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * Original author: Bill Janssen + * Heavily modified by Hans Boehm and others + */ + +/* + * This is incredibly OS specific code for tracking down data sections in + * dynamic libraries. There appears to be no way of doing this quickly + * without groveling through undocumented data structures. We would argue + * that this is a bug in the design of the dlopen interface. THIS CODE + * MAY BREAK IN FUTURE OS RELEASES. If this matters to you, don't hesitate + * to let your vendor know ... + * + * None of this is safe with dlclose and incremental collection. + * But then not much of anything is safe in the presence of dlclose. + */ +#ifndef MACOS +# include <sys/types.h> +#endif +#include "gc_priv.h" + +/* BTL: avoid circular redefinition of dlopen if SOLARIS_THREADS defined */ +# if defined(SOLARIS_THREADS) && defined(dlopen) + /* To support threads in Solaris, gc.h interposes on dlopen by */ + /* defining "dlopen" to be "GC_dlopen", which is implemented below. */ + /* However, both GC_FirstDLOpenedLinkMap() and GC_dlopen() use the */ + /* real system dlopen() in their implementation. We first remove */ + /* gc.h's dlopen definition and restore it later, after GC_dlopen(). */ +# undef dlopen +# define GC_must_restore_redefined_dlopen +# else +# undef GC_must_restore_redefined_dlopen +# endif + +#if (defined(DYNAMIC_LOADING) || defined(MSWIN32)) && !defined(PCR) +#if !defined(SUNOS4) && !defined(SUNOS5DL) && !defined(IRIX5) && \ + !defined(MSWIN32) && !(defined(ALPHA) && defined(OSF1)) && \ + !defined(HP_PA) && !(defined(LINUX) && defined(__ELF__)) && \ + !defined(RS6000) && !defined(SCO_ELF) + --> We only know how to find data segments of dynamic libraries for the + --> above. Additional SVR4 variants might not be too + --> hard to add. +#endif + +#include <stdio.h> +#ifdef SUNOS5DL +# include <sys/elf.h> +# include <dlfcn.h> +# include <link.h> +#endif +#ifdef SUNOS4 +# include <dlfcn.h> +# include <link.h> +# include <a.out.h> + /* struct link_map field overrides */ +# define l_next lm_next +# define l_addr lm_addr +# define l_name lm_name +#endif + + +#if defined(SUNOS5DL) && !defined(USE_PROC_FOR_LIBRARIES) + +#ifdef LINT + Elf32_Dyn _DYNAMIC; +#endif + +static struct link_map * +GC_FirstDLOpenedLinkMap() +{ + extern Elf32_Dyn _DYNAMIC; + Elf32_Dyn *dp; + struct r_debug *r; + static struct link_map * cachedResult = 0; + static Elf32_Dyn *dynStructureAddr = 0; + /* BTL: added to avoid Solaris 5.3 ld.so _DYNAMIC bug */ + +# ifdef SUNOS53_SHARED_LIB + /* BTL: Avoid the Solaris 5.3 bug that _DYNAMIC isn't being set */ + /* up properly in dynamically linked .so's. This means we have */ + /* to use its value in the set of original object files loaded */ + /* at program startup. */ + if( dynStructureAddr == 0 ) { + void* startupSyms = dlopen(0, RTLD_LAZY); + dynStructureAddr = (Elf32_Dyn*)dlsym(startupSyms, "_DYNAMIC"); + } +# else + dynStructureAddr = &_DYNAMIC; +# endif + + if( dynStructureAddr == 0) { + return(0); + } + if( cachedResult == 0 ) { + int tag; + for( dp = ((Elf32_Dyn *)(&_DYNAMIC)); (tag = dp->d_tag) != 0; dp++ ) { + if( tag == DT_DEBUG ) { + struct link_map *lm + = ((struct r_debug *)(dp->d_un.d_ptr))->r_map; + if( lm != 0 ) cachedResult = lm->l_next; /* might be NIL */ + break; + } + } + } + return cachedResult; +} + +#endif /* SUNOS5DL ... */ + +#if defined(SUNOS4) && !defined(USE_PROC_FOR_LIBRARIES) + +#ifdef LINT + struct link_dynamic _DYNAMIC; +#endif + +static struct link_map * +GC_FirstDLOpenedLinkMap() +{ + extern struct link_dynamic _DYNAMIC; + + if( &_DYNAMIC == 0) { + return(0); + } + return(_DYNAMIC.ld_un.ld_1->ld_loaded); +} + +/* Return the address of the ld.so allocated common symbol */ +/* with the least address, or 0 if none. */ +static ptr_t GC_first_common() +{ + ptr_t result = 0; + extern struct link_dynamic _DYNAMIC; + struct rtc_symb * curr_symbol; + + if( &_DYNAMIC == 0) { + return(0); + } + curr_symbol = _DYNAMIC.ldd -> ldd_cp; + for (; curr_symbol != 0; curr_symbol = curr_symbol -> rtc_next) { + if (result == 0 + || (ptr_t)(curr_symbol -> rtc_sp -> n_value) < result) { + result = (ptr_t)(curr_symbol -> rtc_sp -> n_value); + } + } + return(result); +} + +#endif /* SUNOS4 ... */ + +# if defined(SUNOS4) || defined(SUNOS5DL) +/* Add dynamic library data sections to the root set. */ +# if !defined(PCR) && !defined(SOLARIS_THREADS) && defined(THREADS) +# ifndef SRC_M3 + --> fix mutual exclusion with dlopen +# endif /* We assume M3 programs don't call dlopen for now */ +# endif + +# ifdef SOLARIS_THREADS + /* Redefine dlopen to guarantee mutual exclusion with */ + /* GC_register_dynamic_libraries. */ + /* assumes that dlopen doesn't need to call GC_malloc */ + /* and friends. */ +# include <thread.h> +# include <synch.h> + +void * GC_dlopen(const char *path, int mode) +{ + void * result; + +# ifndef USE_PROC_FOR_LIBRARIES + mutex_lock(&GC_allocate_ml); +# endif + result = dlopen(path, mode); +# ifndef USE_PROC_FOR_LIBRARIES + mutex_unlock(&GC_allocate_ml); +# endif + return(result); +} +# endif /* SOLARIS_THREADS */ + +/* BTL: added to fix circular dlopen definition if SOLARIS_THREADS defined */ +# if defined(GC_must_restore_redefined_dlopen) +# define dlopen GC_dlopen +# endif + +# ifndef USE_PROC_FOR_LIBRARIES +void GC_register_dynamic_libraries() +{ + struct link_map *lm = GC_FirstDLOpenedLinkMap(); + + + for (lm = GC_FirstDLOpenedLinkMap(); + lm != (struct link_map *) 0; lm = lm->l_next) + { +# ifdef SUNOS4 + struct exec *e; + + e = (struct exec *) lm->lm_addr; + GC_add_roots_inner( + ((char *) (N_DATOFF(*e) + lm->lm_addr)), + ((char *) (N_BSSADDR(*e) + e->a_bss + lm->lm_addr)), + TRUE); +# endif +# ifdef SUNOS5DL + Elf32_Ehdr * e; + Elf32_Phdr * p; + unsigned long offset; + char * start; + register int i; + + e = (Elf32_Ehdr *) lm->l_addr; + p = ((Elf32_Phdr *)(((char *)(e)) + e->e_phoff)); + offset = ((unsigned long)(lm->l_addr)); + for( i = 0; i < (int)(e->e_phnum); ((i++),(p++)) ) { + switch( p->p_type ) { + case PT_LOAD: + { + if( !(p->p_flags & PF_W) ) break; + start = ((char *)(p->p_vaddr)) + offset; + GC_add_roots_inner( + start, + start + p->p_memsz, + TRUE + ); + } + break; + default: + break; + } + } +# endif + } +# ifdef SUNOS4 + { + static ptr_t common_start = 0; + ptr_t common_end; + extern ptr_t GC_find_limit(); + + if (common_start == 0) common_start = GC_first_common(); + if (common_start != 0) { + common_end = GC_find_limit(common_start, TRUE); + GC_add_roots_inner((char *)common_start, (char *)common_end, TRUE); + } + } +# endif +} + +# endif /* !USE_PROC ... */ +# endif /* SUNOS */ + +#if defined(LINUX) && defined(__ELF__) || defined(SCO_ELF) + +/* Dynamic loading code for Linux running ELF. Somewhat tested on + * Linux/x86, untested but hopefully should work on Linux/Alpha. + * This code was derived from the Solaris/ELF support. Thanks to + * whatever kind soul wrote that. - Patrick Bridges */ + +#include <elf.h> +#include <link.h> + +/* Newer versions of Linux/Alpha and Linux/x86 define this macro. We + * define it for those older versions that don't. */ +# ifndef ElfW +# if !defined(ELF_CLASS) || ELF_CLASS == ELFCLASS32 +# define ElfW(type) Elf32_##type +# else +# define ElfW(type) Elf64_##type +# endif +# endif + +static struct link_map * +GC_FirstDLOpenedLinkMap() +{ +# ifdef __GNUC__ +# pragma weak _DYNAMIC +# endif + extern ElfW(Dyn) _DYNAMIC[]; + ElfW(Dyn) *dp; + struct r_debug *r; + static struct link_map *cachedResult = 0; + + if( _DYNAMIC == 0) { + return(0); + } + if( cachedResult == 0 ) { + int tag; + for( dp = _DYNAMIC; (tag = dp->d_tag) != 0; dp++ ) { + if( tag == DT_DEBUG ) { + struct link_map *lm + = ((struct r_debug *)(dp->d_un.d_ptr))->r_map; + if( lm != 0 ) cachedResult = lm->l_next; /* might be NIL */ + break; + } + } + } + return cachedResult; +} + + +void GC_register_dynamic_libraries() +{ + struct link_map *lm = GC_FirstDLOpenedLinkMap(); + + + for (lm = GC_FirstDLOpenedLinkMap(); + lm != (struct link_map *) 0; lm = lm->l_next) + { + ElfW(Ehdr) * e; + ElfW(Phdr) * p; + unsigned long offset; + char * start; + register int i; + + e = (ElfW(Ehdr) *) lm->l_addr; + p = ((ElfW(Phdr) *)(((char *)(e)) + e->e_phoff)); + offset = ((unsigned long)(lm->l_addr)); + for( i = 0; i < (int)(e->e_phnum); ((i++),(p++)) ) { + switch( p->p_type ) { + case PT_LOAD: + { + if( !(p->p_flags & PF_W) ) break; + start = ((char *)(p->p_vaddr)) + offset; + GC_add_roots_inner(start, start + p->p_memsz, TRUE); + } + break; + default: + break; + } + } + } +} + +#endif + +#if defined(IRIX5) || defined(USE_PROC_FOR_LIBRARIES) + +#include <sys/procfs.h> +#include <sys/stat.h> +#include <fcntl.h> +#include <elf.h> +#include <errno.h> + +extern void * GC_roots_present(); + /* The type is a lie, since the real type doesn't make sense here, */ + /* and we only test for NULL. */ + +extern ptr_t GC_scratch_last_end_ptr; /* End of GC_scratch_alloc arena */ + +/* We use /proc to track down all parts of the address space that are */ +/* mapped by the process, and throw out regions we know we shouldn't */ +/* worry about. This may also work under other SVR4 variants. */ +void GC_register_dynamic_libraries() +{ + static int fd = -1; + char buf[30]; + static prmap_t * addr_map = 0; + static int current_sz = 0; /* Number of records currently in addr_map */ + static int needed_sz; /* Required size of addr_map */ + register int i; + register long flags; + register ptr_t start; + register ptr_t limit; + ptr_t heap_start = (ptr_t)HEAP_START; + ptr_t heap_end = heap_start; + +# ifdef SUNOS5DL +# define MA_PHYS 0 +# endif /* SUNOS5DL */ + + if (fd < 0) { + sprintf(buf, "/proc/%d", getpid()); + /* The above generates a lint complaint, since pid_t varies. */ + /* It's unclear how to improve this. */ + fd = open(buf, O_RDONLY); + if (fd < 0) { + ABORT("/proc open failed"); + } + } + if (ioctl(fd, PIOCNMAP, &needed_sz) < 0) { + GC_err_printf2("fd = %d, errno = %d\n", fd, errno); + ABORT("/proc PIOCNMAP ioctl failed"); + } + if (needed_sz >= current_sz) { + current_sz = needed_sz * 2 + 1; + /* Expansion, plus room for 0 record */ + addr_map = (prmap_t *)GC_scratch_alloc((word) + (current_sz * sizeof(prmap_t))); + } + if (ioctl(fd, PIOCMAP, addr_map) < 0) { + GC_err_printf4("fd = %d, errno = %d, needed_sz = %d, addr_map = 0x%X\n", + fd, errno, needed_sz, addr_map); + ABORT("/proc PIOCMAP ioctl failed"); + }; + if (GC_n_heap_sects > 0) { + heap_end = GC_heap_sects[GC_n_heap_sects-1].hs_start + + GC_heap_sects[GC_n_heap_sects-1].hs_bytes; + if (heap_end < GC_scratch_last_end_ptr) heap_end = GC_scratch_last_end_ptr; + } + for (i = 0; i < needed_sz; i++) { + flags = addr_map[i].pr_mflags; + if ((flags & (MA_BREAK | MA_STACK | MA_PHYS)) != 0) goto irrelevant; + if ((flags & (MA_READ | MA_WRITE)) != (MA_READ | MA_WRITE)) + goto irrelevant; + /* The latter test is empirically useless. Other than the */ + /* main data and stack segments, everything appears to be */ + /* mapped readable, writable, executable, and shared(!!). */ + /* This makes no sense to me. - HB */ + start = (ptr_t)(addr_map[i].pr_vaddr); + if (GC_roots_present(start)) goto irrelevant; + if (start < heap_end && start >= heap_start) + goto irrelevant; +# ifdef MMAP_STACKS + if (GC_is_thread_stack(start)) goto irrelevant; +# endif /* MMAP_STACKS */ + + limit = start + addr_map[i].pr_size; + if (addr_map[i].pr_off == 0 && strncmp(start, ELFMAG, 4) == 0) { + /* Discard text segments, i.e. 0-offset mappings against */ + /* executable files which appear to have ELF headers. */ + caddr_t arg; + int obj; +# define MAP_IRR_SZ 10 + static ptr_t map_irr[MAP_IRR_SZ]; + /* Known irrelevant map entries */ + static int n_irr = 0; + struct stat buf; + register int i; + + for (i = 0; i < n_irr; i++) { + if (map_irr[i] == start) goto irrelevant; + } + arg = (caddr_t)start; + obj = ioctl(fd, PIOCOPENM, &arg); + if (obj >= 0) { + fstat(obj, &buf); + close(obj); + if ((buf.st_mode & 0111) != 0) { + if (n_irr < MAP_IRR_SZ) { + map_irr[n_irr++] = start; + } + goto irrelevant; + } + } + } + GC_add_roots_inner(start, limit, TRUE); + irrelevant: ; + } + /* Dont keep cached descriptor, for now. Some kernels don't like us */ + /* to keep a /proc file descriptor around during kill -9. */ + if (close(fd) < 0) ABORT("Couldnt close /proc file"); + fd = -1; +} + +# endif /* USE_PROC || IRIX5 */ + +# ifdef MSWIN32 + +# define WIN32_LEAN_AND_MEAN +# define NOSERVICE +# include <windows.h> +# include <stdlib.h> + + /* We traverse the entire address space and register all segments */ + /* that could possibly have been written to. */ + DWORD GC_allocation_granularity; + + extern GC_bool GC_is_heap_base (ptr_t p); + +# ifdef WIN32_THREADS + extern void GC_get_next_stack(char *start, char **lo, char **hi); +# endif + + void GC_cond_add_roots(char *base, char * limit) + { + char dummy; + char * stack_top + = (char *) ((word)(&dummy) & ~(GC_allocation_granularity-1)); + if (base == limit) return; +# ifdef WIN32_THREADS + { + char * curr_base = base; + char * next_stack_lo; + char * next_stack_hi; + + for(;;) { + GC_get_next_stack(curr_base, &next_stack_lo, &next_stack_hi); + if (next_stack_lo >= limit) break; + GC_add_roots_inner(curr_base, next_stack_lo, TRUE); + curr_base = next_stack_hi; + } + if (curr_base < limit) GC_add_roots_inner(curr_base, limit, TRUE); + } +# else + if (limit > stack_top && base < GC_stackbottom) { + /* Part of the stack; ignore it. */ + return; + } + GC_add_roots_inner(base, limit, TRUE); +# endif + } + + extern GC_bool GC_win32s; + + void GC_register_dynamic_libraries() + { + MEMORY_BASIC_INFORMATION buf; + SYSTEM_INFO sysinfo; + DWORD result; + DWORD protect; + LPVOID p; + char * base; + char * limit, * new_limit; + + if (GC_win32s) return; + GetSystemInfo(&sysinfo); + base = limit = p = sysinfo.lpMinimumApplicationAddress; + GC_allocation_granularity = sysinfo.dwAllocationGranularity; + while (p < sysinfo.lpMaximumApplicationAddress) { + result = VirtualQuery(p, &buf, sizeof(buf)); + if (result != sizeof(buf)) { + ABORT("Weird VirtualQuery result"); + } + new_limit = (char *)p + buf.RegionSize; + protect = buf.Protect; + if (buf.State == MEM_COMMIT + && (protect == PAGE_EXECUTE_READWRITE + || protect == PAGE_READWRITE) + && !GC_is_heap_base(buf.AllocationBase)) { + if ((char *)p == limit) { + limit = new_limit; + } else { + GC_cond_add_roots(base, limit); + base = p; + limit = new_limit; + } + } + if (p > (LPVOID)new_limit /* overflow */) break; + p = (LPVOID)new_limit; + } + GC_cond_add_roots(base, limit); + } + +#endif /* MSWIN32 */ + +#if defined(ALPHA) && defined(OSF1) + +#include <loader.h> + +void GC_register_dynamic_libraries() +{ + int status; + ldr_process_t mypid; + + /* module */ + ldr_module_t moduleid = LDR_NULL_MODULE; + ldr_module_info_t moduleinfo; + size_t moduleinfosize = sizeof(moduleinfo); + size_t modulereturnsize; + + /* region */ + ldr_region_t region; + ldr_region_info_t regioninfo; + size_t regioninfosize = sizeof(regioninfo); + size_t regionreturnsize; + + /* Obtain id of this process */ + mypid = ldr_my_process(); + + /* For each module */ + while (TRUE) { + + /* Get the next (first) module */ + status = ldr_next_module(mypid, &moduleid); + + /* Any more modules? */ + if (moduleid == LDR_NULL_MODULE) + break; /* No more modules */ + + /* Check status AFTER checking moduleid because */ + /* of a bug in the non-shared ldr_next_module stub */ + if (status != 0 ) { + GC_printf1("dynamic_load: status = %ld\n", (long)status); + { + extern char *sys_errlist[]; + extern int sys_nerr; + extern int errno; + if (errno <= sys_nerr) { + GC_printf1("dynamic_load: %s\n", (long)sys_errlist[errno]); + } else { + GC_printf1("dynamic_load: %d\n", (long)errno); + } + } + ABORT("ldr_next_module failed"); + } + + /* Get the module information */ + status = ldr_inq_module(mypid, moduleid, &moduleinfo, + moduleinfosize, &modulereturnsize); + if (status != 0 ) + ABORT("ldr_inq_module failed"); + + /* is module for the main program (i.e. nonshared portion)? */ + if (moduleinfo.lmi_flags & LDR_MAIN) + continue; /* skip the main module */ + +# ifdef VERBOSE + GC_printf("---Module---\n"); + GC_printf("Module ID = %16ld\n", moduleinfo.lmi_modid); + GC_printf("Count of regions = %16d\n", moduleinfo.lmi_nregion); + GC_printf("flags for module = %16lx\n", moduleinfo.lmi_flags); + GC_printf("pathname of module = \"%s\"\n", moduleinfo.lmi_name); +# endif + + /* For each region in this module */ + for (region = 0; region < moduleinfo.lmi_nregion; region++) { + + /* Get the region information */ + status = ldr_inq_region(mypid, moduleid, region, ®ioninfo, + regioninfosize, ®ionreturnsize); + if (status != 0 ) + ABORT("ldr_inq_region failed"); + + /* only process writable (data) regions */ + if (! (regioninfo.lri_prot & LDR_W)) + continue; + +# ifdef VERBOSE + GC_printf("--- Region ---\n"); + GC_printf("Region number = %16ld\n", + regioninfo.lri_region_no); + GC_printf("Protection flags = %016x\n", regioninfo.lri_prot); + GC_printf("Virtual address = %16p\n", regioninfo.lri_vaddr); + GC_printf("Mapped address = %16p\n", regioninfo.lri_mapaddr); + GC_printf("Region size = %16ld\n", regioninfo.lri_size); + GC_printf("Region name = \"%s\"\n", regioninfo.lri_name); +# endif + + /* register region as a garbage collection root */ + GC_add_roots_inner ( + (char *)regioninfo.lri_mapaddr, + (char *)regioninfo.lri_mapaddr + regioninfo.lri_size, + TRUE); + + } + } +} +#endif + +#if defined(HP_PA) + +#include <errno.h> +#include <dl.h> + +extern int errno; +extern char *sys_errlist[]; +extern int sys_nerr; + +void GC_register_dynamic_libraries() +{ + int status; + int index = 1; /* Ordinal position in shared library search list */ + struct shl_descriptor *shl_desc; /* Shared library info, see dl.h */ + + /* For each dynamic library loaded */ + while (TRUE) { + + /* Get info about next shared library */ + status = shl_get(index, &shl_desc); + + /* Check if this is the end of the list or if some error occured */ + if (status != 0) { + if (errno == EINVAL) { + break; /* Moved past end of shared library list --> finished */ + } else { + if (errno <= sys_nerr) { + GC_printf1("dynamic_load: %s\n", (long) sys_errlist[errno]); + } else { + GC_printf1("dynamic_load: %d\n", (long) errno); + } + ABORT("shl_get failed"); + } + } + +# ifdef VERBOSE + GC_printf0("---Shared library---\n"); + GC_printf1("\tfilename = \"%s\"\n", shl_desc->filename); + GC_printf1("\tindex = %d\n", index); + GC_printf1("\thandle = %08x\n", + (unsigned long) shl_desc->handle); + GC_printf1("\ttext seg. start = %08x\n", shl_desc->tstart); + GC_printf1("\ttext seg. end = %08x\n", shl_desc->tend); + GC_printf1("\tdata seg. start = %08x\n", shl_desc->dstart); + GC_printf1("\tdata seg. end = %08x\n", shl_desc->dend); + GC_printf1("\tref. count = %lu\n", shl_desc->ref_count); +# endif + + /* register shared library's data segment as a garbage collection root */ + GC_add_roots_inner((char *) shl_desc->dstart, + (char *) shl_desc->dend, TRUE); + + index++; + } +} +#endif /* HP_PA */ + +#ifdef RS6000 +#pragma alloca +#include <sys/ldr.h> +#include <sys/errno.h> +void GC_register_dynamic_libraries() +{ + int len; + char *ldibuf; + int ldibuflen; + struct ld_info *ldi; + + ldibuf = alloca(ldibuflen = 8192); + + while ( (len = loadquery(L_GETINFO,ldibuf,ldibuflen)) < 0) { + if (errno != ENOMEM) { + ABORT("loadquery failed"); + } + ldibuf = alloca(ldibuflen *= 2); + } + + ldi = (struct ld_info *)ldibuf; + while (ldi) { + len = ldi->ldinfo_next; + GC_add_roots_inner( + ldi->ldinfo_dataorg, + (unsigned long)ldi->ldinfo_dataorg + + ldi->ldinfo_datasize, + TRUE); + ldi = len ? (struct ld_info *)((char *)ldi + len) : 0; + } +} +#endif /* RS6000 */ + + + +#else /* !DYNAMIC_LOADING */ + +#ifdef PCR + +# include "il/PCR_IL.h" +# include "th/PCR_ThCtl.h" +# include "mm/PCR_MM.h" + +void GC_register_dynamic_libraries() +{ + /* Add new static data areas of dynamically loaded modules. */ + { + PCR_IL_LoadedFile * p = PCR_IL_GetLastLoadedFile(); + PCR_IL_LoadedSegment * q; + + /* Skip uncommited files */ + while (p != NIL && !(p -> lf_commitPoint)) { + /* The loading of this file has not yet been committed */ + /* Hence its description could be inconsistent. */ + /* Furthermore, it hasn't yet been run. Hence its data */ + /* segments can't possibly reference heap allocated */ + /* objects. */ + p = p -> lf_prev; + } + for (; p != NIL; p = p -> lf_prev) { + for (q = p -> lf_ls; q != NIL; q = q -> ls_next) { + if ((q -> ls_flags & PCR_IL_SegFlags_Traced_MASK) + == PCR_IL_SegFlags_Traced_on) { + GC_add_roots_inner + ((char *)(q -> ls_addr), + (char *)(q -> ls_addr) + q -> ls_bytes, + TRUE); + } + } + } + } +} + + +#else /* !PCR */ + +void GC_register_dynamic_libraries(){} + +int GC_no_dynamic_loading; + +#endif /* !PCR */ +#endif /* !DYNAMIC_LOADING */ diff --git a/gc/finalize.c b/gc/finalize.c new file mode 100644 index 0000000..2ee927f --- /dev/null +++ b/gc/finalize.c @@ -0,0 +1,758 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1996 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996-1999 by Silicon Graphics. All rights reserved. + + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 1, 1996 1:19 pm PST */ +# define I_HIDE_POINTERS +# include "gc_priv.h" +# include "gc_mark.h" + +# ifdef FINALIZE_ON_DEMAND + int GC_finalize_on_demand = 1; +# else + int GC_finalize_on_demand = 0; +# endif + +# ifdef JAVA_FINALIZATION + int GC_java_finalization = 1; +# else + int GC_java_finalization = 0; +# endif + +/* Type of mark procedure used for marking from finalizable object. */ +/* This procedure normally does not mark the object, only its */ +/* descendents. */ +typedef void finalization_mark_proc(/* ptr_t finalizable_obj_ptr */); + +# define HASH3(addr,size,log_size) \ + ((((word)(addr) >> 3) ^ ((word)(addr) >> (3+(log_size)))) \ + & ((size) - 1)) +#define HASH2(addr,log_size) HASH3(addr, 1 << log_size, log_size) + +struct hash_chain_entry { + word hidden_key; + struct hash_chain_entry * next; +}; + +unsigned GC_finalization_failures = 0; + /* Number of finalization requests that failed for lack of memory. */ + +static struct disappearing_link { + struct hash_chain_entry prolog; +# define dl_hidden_link prolog.hidden_key + /* Field to be cleared. */ +# define dl_next(x) (struct disappearing_link *)((x) -> prolog.next) +# define dl_set_next(x,y) (x) -> prolog.next = (struct hash_chain_entry *)(y) + + word dl_hidden_obj; /* Pointer to object base */ +} **dl_head = 0; + +static signed_word log_dl_table_size = -1; + /* Binary log of */ + /* current size of array pointed to by dl_head. */ + /* -1 ==> size is 0. */ + +word GC_dl_entries = 0; /* Number of entries currently in disappearing */ + /* link table. */ + +static struct finalizable_object { + struct hash_chain_entry prolog; +# define fo_hidden_base prolog.hidden_key + /* Pointer to object base. */ + /* No longer hidden once object */ + /* is on finalize_now queue. */ +# define fo_next(x) (struct finalizable_object *)((x) -> prolog.next) +# define fo_set_next(x,y) (x) -> prolog.next = (struct hash_chain_entry *)(y) + GC_finalization_proc fo_fn; /* Finalizer. */ + ptr_t fo_client_data; + word fo_object_size; /* In bytes. */ + finalization_mark_proc * fo_mark_proc; /* Mark-through procedure */ +} **fo_head = 0; + +struct finalizable_object * GC_finalize_now = 0; + /* LIst of objects that should be finalized now. */ + +static signed_word log_fo_table_size = -1; + +word GC_fo_entries = 0; + +# ifdef SRC_M3 +void GC_push_finalizer_structures() +{ + GC_push_all((ptr_t)(&dl_head), (ptr_t)(&dl_head) + sizeof(word)); + GC_push_all((ptr_t)(&fo_head), (ptr_t)(&fo_head) + sizeof(word)); +} +# endif + +/* Double the size of a hash table. *size_ptr is the log of its current */ +/* size. May be a noop. */ +/* *table is a pointer to an array of hash headers. If we succeed, we */ +/* update both *table and *log_size_ptr. */ +/* Lock is held. Signals are disabled. */ +void GC_grow_table(table, log_size_ptr) +struct hash_chain_entry ***table; +signed_word * log_size_ptr; +{ + register word i; + register struct hash_chain_entry *p; + int log_old_size = *log_size_ptr; + register int log_new_size = log_old_size + 1; + word old_size = ((log_old_size == -1)? 0: (1 << log_old_size)); + register word new_size = 1 << log_new_size; + struct hash_chain_entry **new_table = (struct hash_chain_entry **) + GC_generic_malloc_inner_ignore_off_page( + (size_t)new_size * sizeof(struct hash_chain_entry *), NORMAL); + + if (new_table == 0) { + if (table == 0) { + ABORT("Insufficient space for initial table allocation"); + } else { + return; + } + } + for (i = 0; i < old_size; i++) { + p = (*table)[i]; + while (p != 0) { + register ptr_t real_key = (ptr_t)REVEAL_POINTER(p -> hidden_key); + register struct hash_chain_entry *next = p -> next; + register int new_hash = HASH3(real_key, new_size, log_new_size); + + p -> next = new_table[new_hash]; + new_table[new_hash] = p; + p = next; + } + } + *log_size_ptr = log_new_size; + *table = new_table; +} + +# if defined(__STDC__) || defined(__cplusplus) + int GC_register_disappearing_link(GC_PTR * link) +# else + int GC_register_disappearing_link(link) + GC_PTR * link; +# endif +{ + ptr_t base; + + base = (ptr_t)GC_base((GC_PTR)link); + if (base == 0) + ABORT("Bad arg to GC_register_disappearing_link"); + return(GC_general_register_disappearing_link(link, base)); +} + +# if defined(__STDC__) || defined(__cplusplus) + int GC_general_register_disappearing_link(GC_PTR * link, + GC_PTR obj) +# else + int GC_general_register_disappearing_link(link, obj) + GC_PTR * link; + GC_PTR obj; +# endif + +{ + struct disappearing_link *curr_dl; + int index; + struct disappearing_link * new_dl; + DCL_LOCK_STATE; + + if ((word)link & (ALIGNMENT-1)) + ABORT("Bad arg to GC_general_register_disappearing_link"); +# ifdef THREADS + DISABLE_SIGNALS(); + LOCK(); +# endif + if (log_dl_table_size == -1 + || GC_dl_entries > ((word)1 << log_dl_table_size)) { +# ifndef THREADS + DISABLE_SIGNALS(); +# endif + GC_grow_table((struct hash_chain_entry ***)(&dl_head), + &log_dl_table_size); +# ifdef PRINTSTATS + GC_printf1("Grew dl table to %lu entries\n", + (unsigned long)(1 << log_dl_table_size)); +# endif +# ifndef THREADS + ENABLE_SIGNALS(); +# endif + } + index = HASH2(link, log_dl_table_size); + curr_dl = dl_head[index]; + for (curr_dl = dl_head[index]; curr_dl != 0; curr_dl = dl_next(curr_dl)) { + if (curr_dl -> dl_hidden_link == HIDE_POINTER(link)) { + curr_dl -> dl_hidden_obj = HIDE_POINTER(obj); +# ifdef THREADS + UNLOCK(); + ENABLE_SIGNALS(); +# endif + return(1); + } + } +# ifdef THREADS + new_dl = (struct disappearing_link *) + GC_generic_malloc_inner(sizeof(struct disappearing_link),NORMAL); +# else + new_dl = (struct disappearing_link *) + GC_malloc(sizeof(struct disappearing_link)); +# endif + if (new_dl != 0) { + new_dl -> dl_hidden_obj = HIDE_POINTER(obj); + new_dl -> dl_hidden_link = HIDE_POINTER(link); + dl_set_next(new_dl, dl_head[index]); + dl_head[index] = new_dl; + GC_dl_entries++; + } else { + GC_finalization_failures++; + } +# ifdef THREADS + UNLOCK(); + ENABLE_SIGNALS(); +# endif + return(0); +} + +# if defined(__STDC__) || defined(__cplusplus) + int GC_unregister_disappearing_link(GC_PTR * link) +# else + int GC_unregister_disappearing_link(link) + GC_PTR * link; +# endif +{ + struct disappearing_link *curr_dl, *prev_dl; + int index; + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + index = HASH2(link, log_dl_table_size); + if (((unsigned long)link & (ALIGNMENT-1))) goto out; + prev_dl = 0; curr_dl = dl_head[index]; + while (curr_dl != 0) { + if (curr_dl -> dl_hidden_link == HIDE_POINTER(link)) { + if (prev_dl == 0) { + dl_head[index] = dl_next(curr_dl); + } else { + dl_set_next(prev_dl, dl_next(curr_dl)); + } + GC_dl_entries--; + UNLOCK(); + ENABLE_SIGNALS(); + GC_free((GC_PTR)curr_dl); + return(1); + } + prev_dl = curr_dl; + curr_dl = dl_next(curr_dl); + } +out: + UNLOCK(); + ENABLE_SIGNALS(); + return(0); +} + +/* Possible finalization_marker procedures. Note that mark stack */ +/* overflow is handled by the caller, and is not a disaster. */ +GC_API void GC_normal_finalize_mark_proc(p) +ptr_t p; +{ + hdr * hhdr = HDR(p); + + PUSH_OBJ((word *)p, hhdr, GC_mark_stack_top, + &(GC_mark_stack[GC_mark_stack_size])); +} + +/* This only pays very partial attention to the mark descriptor. */ +/* It does the right thing for normal and atomic objects, and treats */ +/* most others as normal. */ +GC_API void GC_ignore_self_finalize_mark_proc(p) +ptr_t p; +{ + hdr * hhdr = HDR(p); + word descr = hhdr -> hb_descr; + ptr_t q, r; + ptr_t scan_limit; + ptr_t target_limit = p + WORDS_TO_BYTES(hhdr -> hb_sz) - 1; + + if ((descr & DS_TAGS) == DS_LENGTH) { + scan_limit = p + descr - sizeof(word); + } else { + scan_limit = target_limit + 1 - sizeof(word); + } + for (q = p; q <= scan_limit; q += ALIGNMENT) { + r = *(ptr_t *)q; + if (r < p || r > target_limit) { + GC_PUSH_ONE_HEAP((word)r, q); + } + } +} + +/*ARGSUSED*/ +GC_API void GC_null_finalize_mark_proc(p) +ptr_t p; +{ +} + + + +/* Register a finalization function. See gc.h for details. */ +/* in the nonthreads case, we try to avoid disabling signals, */ +/* since it can be expensive. Threads packages typically */ +/* make it cheaper. */ +/* The last parameter is a procedure that determines */ +/* marking for finalization ordering. Any objects marked */ +/* by that procedure will be guaranteed to not have been */ +/* finalized when this finalizer is invoked. */ +GC_API void GC_register_finalizer_inner(obj, fn, cd, ofn, ocd, mp) +GC_PTR obj; +GC_finalization_proc fn; +GC_PTR cd; +GC_finalization_proc * ofn; +GC_PTR * ocd; +finalization_mark_proc * mp; +{ + ptr_t base; + struct finalizable_object * curr_fo, * prev_fo; + int index; + struct finalizable_object *new_fo; + DCL_LOCK_STATE; + +# ifdef THREADS + DISABLE_SIGNALS(); + LOCK(); +# endif + if (log_fo_table_size == -1 + || GC_fo_entries > ((word)1 << log_fo_table_size)) { +# ifndef THREADS + DISABLE_SIGNALS(); +# endif + GC_grow_table((struct hash_chain_entry ***)(&fo_head), + &log_fo_table_size); +# ifdef PRINTSTATS + GC_printf1("Grew fo table to %lu entries\n", + (unsigned long)(1 << log_fo_table_size)); +# endif +# ifndef THREADS + ENABLE_SIGNALS(); +# endif + } + /* in the THREADS case signals are disabled and we hold allocation */ + /* lock; otherwise neither is true. Proceed carefully. */ + base = (ptr_t)obj; + index = HASH2(base, log_fo_table_size); + prev_fo = 0; curr_fo = fo_head[index]; + while (curr_fo != 0) { + if (curr_fo -> fo_hidden_base == HIDE_POINTER(base)) { + /* Interruption by a signal in the middle of this */ + /* should be safe. The client may see only *ocd */ + /* updated, but we'll declare that to be his */ + /* problem. */ + if (ocd) *ocd = (GC_PTR) curr_fo -> fo_client_data; + if (ofn) *ofn = curr_fo -> fo_fn; + /* Delete the structure for base. */ + if (prev_fo == 0) { + fo_head[index] = fo_next(curr_fo); + } else { + fo_set_next(prev_fo, fo_next(curr_fo)); + } + if (fn == 0) { + GC_fo_entries--; + /* May not happen if we get a signal. But a high */ + /* estimate will only make the table larger than */ + /* necessary. */ +# ifndef THREADS + GC_free((GC_PTR)curr_fo); +# endif + } else { + curr_fo -> fo_fn = fn; + curr_fo -> fo_client_data = (ptr_t)cd; + curr_fo -> fo_mark_proc = mp; + /* Reinsert it. We deleted it first to maintain */ + /* consistency in the event of a signal. */ + if (prev_fo == 0) { + fo_head[index] = curr_fo; + } else { + fo_set_next(prev_fo, curr_fo); + } + } +# ifdef THREADS + UNLOCK(); + ENABLE_SIGNALS(); +# endif + return; + } + prev_fo = curr_fo; + curr_fo = fo_next(curr_fo); + } + if (ofn) *ofn = 0; + if (ocd) *ocd = 0; + if (fn == 0) { +# ifdef THREADS + UNLOCK(); + ENABLE_SIGNALS(); +# endif + return; + } +# ifdef THREADS + new_fo = (struct finalizable_object *) + GC_generic_malloc_inner(sizeof(struct finalizable_object),NORMAL); +# else + new_fo = (struct finalizable_object *) + GC_malloc(sizeof(struct finalizable_object)); +# endif + if (new_fo != 0) { + new_fo -> fo_hidden_base = (word)HIDE_POINTER(base); + new_fo -> fo_fn = fn; + new_fo -> fo_client_data = (ptr_t)cd; + new_fo -> fo_object_size = GC_size(base); + new_fo -> fo_mark_proc = mp; + fo_set_next(new_fo, fo_head[index]); + GC_fo_entries++; + fo_head[index] = new_fo; + } else { + GC_finalization_failures++; + } +# ifdef THREADS + UNLOCK(); + ENABLE_SIGNALS(); +# endif +} + +# if defined(__STDC__) + void GC_register_finalizer(void * obj, + GC_finalization_proc fn, void * cd, + GC_finalization_proc *ofn, void ** ocd) +# else + void GC_register_finalizer(obj, fn, cd, ofn, ocd) + GC_PTR obj; + GC_finalization_proc fn; + GC_PTR cd; + GC_finalization_proc * ofn; + GC_PTR * ocd; +# endif +{ + GC_register_finalizer_inner(obj, fn, cd, ofn, + ocd, GC_normal_finalize_mark_proc); +} + +# if defined(__STDC__) + void GC_register_finalizer_ignore_self(void * obj, + GC_finalization_proc fn, void * cd, + GC_finalization_proc *ofn, void ** ocd) +# else + void GC_register_finalizer_ignore_self(obj, fn, cd, ofn, ocd) + GC_PTR obj; + GC_finalization_proc fn; + GC_PTR cd; + GC_finalization_proc * ofn; + GC_PTR * ocd; +# endif +{ + GC_register_finalizer_inner(obj, fn, cd, ofn, + ocd, GC_ignore_self_finalize_mark_proc); +} + +# if defined(__STDC__) + void GC_register_finalizer_no_order(void * obj, + GC_finalization_proc fn, void * cd, + GC_finalization_proc *ofn, void ** ocd) +# else + void GC_register_finalizer_no_order(obj, fn, cd, ofn, ocd) + GC_PTR obj; + GC_finalization_proc fn; + GC_PTR cd; + GC_finalization_proc * ofn; + GC_PTR * ocd; +# endif +{ + GC_register_finalizer_inner(obj, fn, cd, ofn, + ocd, GC_null_finalize_mark_proc); +} + +/* Called with world stopped. Cause disappearing links to disappear, */ +/* and invoke finalizers. */ +void GC_finalize() +{ + struct disappearing_link * curr_dl, * prev_dl, * next_dl; + struct finalizable_object * curr_fo, * prev_fo, * next_fo; + ptr_t real_ptr, real_link; + register int i; + int dl_size = (log_dl_table_size == -1 ) ? 0 : (1 << log_dl_table_size); + int fo_size = (log_fo_table_size == -1 ) ? 0 : (1 << log_fo_table_size); + + /* Make disappearing links disappear */ + for (i = 0; i < dl_size; i++) { + curr_dl = dl_head[i]; + prev_dl = 0; + while (curr_dl != 0) { + real_ptr = (ptr_t)REVEAL_POINTER(curr_dl -> dl_hidden_obj); + real_link = (ptr_t)REVEAL_POINTER(curr_dl -> dl_hidden_link); + if (!GC_is_marked(real_ptr)) { + *(word *)real_link = 0; + next_dl = dl_next(curr_dl); + if (prev_dl == 0) { + dl_head[i] = next_dl; + } else { + dl_set_next(prev_dl, next_dl); + } + GC_clear_mark_bit((ptr_t)curr_dl); + GC_dl_entries--; + curr_dl = next_dl; + } else { + prev_dl = curr_dl; + curr_dl = dl_next(curr_dl); + } + } + } + /* Mark all objects reachable via chains of 1 or more pointers */ + /* from finalizable objects. */ +# ifdef PRINTSTATS + if (GC_mark_state != MS_NONE) ABORT("Bad mark state"); +# endif + for (i = 0; i < fo_size; i++) { + for (curr_fo = fo_head[i]; curr_fo != 0; curr_fo = fo_next(curr_fo)) { + real_ptr = (ptr_t)REVEAL_POINTER(curr_fo -> fo_hidden_base); + if (!GC_is_marked(real_ptr)) { + GC_MARKED_FOR_FINALIZATION(real_ptr); + GC_MARK_FO(real_ptr, curr_fo -> fo_mark_proc); + if (GC_is_marked(real_ptr)) { + WARN("Finalization cycle involving %lx\n", real_ptr); + } + } + } + } + /* Enqueue for finalization all objects that are still */ + /* unreachable. */ + GC_words_finalized = 0; + for (i = 0; i < fo_size; i++) { + curr_fo = fo_head[i]; + prev_fo = 0; + while (curr_fo != 0) { + real_ptr = (ptr_t)REVEAL_POINTER(curr_fo -> fo_hidden_base); + if (!GC_is_marked(real_ptr)) { + if (!GC_java_finalization) { + GC_set_mark_bit(real_ptr); + } + /* Delete from hash table */ + next_fo = fo_next(curr_fo); + if (prev_fo == 0) { + fo_head[i] = next_fo; + } else { + fo_set_next(prev_fo, next_fo); + } + GC_fo_entries--; + /* Add to list of objects awaiting finalization. */ + fo_set_next(curr_fo, GC_finalize_now); + GC_finalize_now = curr_fo; + /* unhide object pointer so any future collections will */ + /* see it. */ + curr_fo -> fo_hidden_base = + (word) REVEAL_POINTER(curr_fo -> fo_hidden_base); + GC_words_finalized += + ALIGNED_WORDS(curr_fo -> fo_object_size) + + ALIGNED_WORDS(sizeof(struct finalizable_object)); +# ifdef PRINTSTATS + if (!GC_is_marked((ptr_t)curr_fo)) { + ABORT("GC_finalize: found accessible unmarked object\n"); + } +# endif + curr_fo = next_fo; + } else { + prev_fo = curr_fo; + curr_fo = fo_next(curr_fo); + } + } + } + + if (GC_java_finalization) { + /* make sure we mark everything reachable from objects finalized + using the no_order mark_proc */ + for (curr_fo = GC_finalize_now; + curr_fo != NULL; curr_fo = fo_next(curr_fo)) { + real_ptr = (ptr_t)curr_fo -> fo_hidden_base; + if (!GC_is_marked(real_ptr)) { + if (curr_fo -> fo_mark_proc == GC_null_finalize_mark_proc) { + GC_MARK_FO(real_ptr, GC_normal_finalize_mark_proc); + } + GC_set_mark_bit(real_ptr); + } + } + } + + /* Remove dangling disappearing links. */ + for (i = 0; i < dl_size; i++) { + curr_dl = dl_head[i]; + prev_dl = 0; + while (curr_dl != 0) { + real_link = GC_base((ptr_t)REVEAL_POINTER(curr_dl -> dl_hidden_link)); + if (real_link != 0 && !GC_is_marked(real_link)) { + next_dl = dl_next(curr_dl); + if (prev_dl == 0) { + dl_head[i] = next_dl; + } else { + dl_set_next(prev_dl, next_dl); + } + GC_clear_mark_bit((ptr_t)curr_dl); + GC_dl_entries--; + curr_dl = next_dl; + } else { + prev_dl = curr_dl; + curr_dl = dl_next(curr_dl); + } + } + } +} + +#ifndef JAVA_FINALIZATION_NOT_NEEDED + +/* Enqueue all remaining finalizers to be run - Assumes lock is + * held, and signals are disabled */ +void GC_enqueue_all_finalizers() +{ + struct finalizable_object * curr_fo, * prev_fo, * next_fo; + ptr_t real_ptr, real_link; + register int i; + int fo_size; + + fo_size = (log_fo_table_size == -1 ) ? 0 : (1 << log_fo_table_size); + GC_words_finalized = 0; + for (i = 0; i < fo_size; i++) { + curr_fo = fo_head[i]; + prev_fo = 0; + while (curr_fo != 0) { + real_ptr = (ptr_t)REVEAL_POINTER(curr_fo -> fo_hidden_base); + GC_MARK_FO(real_ptr, GC_normal_finalize_mark_proc); + GC_set_mark_bit(real_ptr); + + /* Delete from hash table */ + next_fo = fo_next(curr_fo); + if (prev_fo == 0) { + fo_head[i] = next_fo; + } else { + fo_set_next(prev_fo, next_fo); + } + GC_fo_entries--; + + /* Add to list of objects awaiting finalization. */ + fo_set_next(curr_fo, GC_finalize_now); + GC_finalize_now = curr_fo; + + /* unhide object pointer so any future collections will */ + /* see it. */ + curr_fo -> fo_hidden_base = + (word) REVEAL_POINTER(curr_fo -> fo_hidden_base); + + GC_words_finalized += + ALIGNED_WORDS(curr_fo -> fo_object_size) + + ALIGNED_WORDS(sizeof(struct finalizable_object)); + curr_fo = next_fo; + } + } + + return; +} + +/* Invoke all remaining finalizers that haven't yet been run. + * This is needed for strict compliance with the Java standard, + * which can make the runtime guarantee that all finalizers are run. + * Unfortunately, the Java standard implies we have to keep running + * finalizers until there are no more left, a potential infinite loop. + * YUCK. + * Note that this is even more dangerous than the usual Java + * finalizers, in that objects reachable from static variables + * may have been finalized when these finalizers are run. + * Finalizers run at this point must be prepared to deal with a + * mostly broken world. + * This routine is externally callable, so is called without + * the allocation lock. + */ +GC_API void GC_finalize_all() +{ + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + while (GC_fo_entries > 0) { + GC_enqueue_all_finalizers(); + UNLOCK(); + ENABLE_SIGNALS(); + GC_INVOKE_FINALIZERS(); + DISABLE_SIGNALS(); + LOCK(); + } + UNLOCK(); + ENABLE_SIGNALS(); +} +#endif + +/* Invoke finalizers for all objects that are ready to be finalized. */ +/* Should be called without allocation lock. */ +int GC_invoke_finalizers() +{ + register struct finalizable_object * curr_fo; + register int count = 0; + DCL_LOCK_STATE; + + while (GC_finalize_now != 0) { +# ifdef THREADS + DISABLE_SIGNALS(); + LOCK(); +# endif + curr_fo = GC_finalize_now; +# ifdef THREADS + if (curr_fo != 0) GC_finalize_now = fo_next(curr_fo); + UNLOCK(); + ENABLE_SIGNALS(); + if (curr_fo == 0) break; +# else + GC_finalize_now = fo_next(curr_fo); +# endif + fo_set_next(curr_fo, 0); + (*(curr_fo -> fo_fn))((ptr_t)(curr_fo -> fo_hidden_base), + curr_fo -> fo_client_data); + curr_fo -> fo_client_data = 0; + ++count; +# ifdef UNDEFINED + /* This is probably a bad idea. It throws off accounting if */ + /* nearly all objects are finalizable. O.w. it shouldn't */ + /* matter. */ + GC_free((GC_PTR)curr_fo); +# endif + } + return count; +} + +# ifdef __STDC__ + GC_PTR GC_call_with_alloc_lock(GC_fn_type fn, + GC_PTR client_data) +# else + GC_PTR GC_call_with_alloc_lock(fn, client_data) + GC_fn_type fn; + GC_PTR client_data; +# endif +{ + GC_PTR result; + DCL_LOCK_STATE; + +# ifdef THREADS + DISABLE_SIGNALS(); + LOCK(); + SET_LOCK_HOLDER(); +# endif + result = (*fn)(client_data); +# ifdef THREADS + UNSET_LOCK_HOLDER(); + UNLOCK(); + ENABLE_SIGNALS(); +# endif + return(result); +} @@ -0,0 +1,754 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * Copyright 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +/* + * Note that this defines a large number of tuning hooks, which can + * safely be ignored in nearly all cases. For normal use it suffices + * to call only GC_MALLOC and perhaps GC_REALLOC. + * For better performance, also look at GC_MALLOC_ATOMIC, and + * GC_enable_incremental. If you need an action to be performed + * immediately before an object is collected, look at GC_register_finalizer. + * If you are using Solaris threads, look at the end of this file. + * Everything else is best ignored unless you encounter performance + * problems. + */ + +#ifndef _GC_H + +# define _GC_H +# define __GC +# include <stddef.h> + +#if defined(__CYGWIN32__) && defined(GC_USE_DLL) +#include "libgc_globals.h" +#endif + +#if defined(_MSC_VER) && defined(_DLL) +# ifdef GC_BUILD +# define GC_API __declspec(dllexport) +# else +# define GC_API __declspec(dllimport) +# endif +#endif + +#if defined(__WATCOMC__) && defined(GC_DLL) +# ifdef GC_BUILD +# define GC_API extern __declspec(dllexport) +# else +# define GC_API extern __declspec(dllimport) +# endif +#endif + +#ifndef GC_API +#define GC_API extern +#endif + +# if defined(__STDC__) || defined(__cplusplus) +# define GC_PROTO(args) args + typedef void * GC_PTR; +# else +# define GC_PROTO(args) () + typedef char * GC_PTR; +# endif + +# ifdef __cplusplus + extern "C" { +# endif + + +/* Define word and signed_word to be unsigned and signed types of the */ +/* size as char * or void *. There seems to be no way to do this */ +/* even semi-portably. The following is probably no better/worse */ +/* than almost anything else. */ +/* The ANSI standard suggests that size_t and ptr_diff_t might be */ +/* better choices. But those appear to have incorrect definitions */ +/* on may systems. Notably "typedef int size_t" seems to be both */ +/* frequent and WRONG. */ +typedef unsigned long GC_word; +typedef long GC_signed_word; + +/* Public read-only variables */ + +GC_API GC_word GC_gc_no;/* Counter incremented per collection. */ + /* Includes empty GCs at startup. */ + + +/* Public R/W variables */ + +GC_API GC_PTR (*GC_oom_fn) GC_PROTO((size_t bytes_requested)); + /* When there is insufficient memory to satisfy */ + /* an allocation request, we return */ + /* (*GC_oom_fn)(). By default this just */ + /* returns 0. */ + /* If it returns, it must return 0 or a valid */ + /* pointer to a previously allocated heap */ + /* object. */ + +GC_API int GC_find_leak; + /* Do not actually garbage collect, but simply */ + /* report inaccessible memory that was not */ + /* deallocated with GC_free. Initial value */ + /* is determined by FIND_LEAK macro. */ + +GC_API int GC_quiet; /* Disable statistics output. Only matters if */ + /* collector has been compiled with statistics */ + /* enabled. This involves a performance cost, */ + /* and is thus not the default. */ + +GC_API int GC_finalize_on_demand; + /* If nonzero, finalizers will only be run in */ + /* response to an eplit GC_invoke_finalizers */ + /* call. The default is determined by whether */ + /* the FINALIZE_ON_DEMAND macro is defined */ + /* when the collector is built. */ + +GC_API int GC_java_finalization; + /* Mark objects reachable from finalizable */ + /* objects in a separate postpass. This makes */ + /* it a bit safer to use non-topologically- */ + /* ordered finalization. Default value is */ + /* determined by JAVA_FINALIZATION macro. */ + +GC_API int GC_dont_gc; /* Dont collect unless explicitly requested, e.g. */ + /* because it's not safe. */ + +GC_API int GC_dont_expand; + /* Dont expand heap unless explicitly requested */ + /* or forced to. */ + +GC_API int GC_full_freq; /* Number of partial collections between */ + /* full collections. Matters only if */ + /* GC_incremental is set. */ + +GC_API GC_word GC_non_gc_bytes; + /* Bytes not considered candidates for collection. */ + /* Used only to control scheduling of collections. */ + +GC_API GC_word GC_free_space_divisor; + /* We try to make sure that we allocate at */ + /* least N/GC_free_space_divisor bytes between */ + /* collections, where N is the heap size plus */ + /* a rough estimate of the root set size. */ + /* Initially, GC_free_space_divisor = 4. */ + /* Increasing its value will use less space */ + /* but more collection time. Decreasing it */ + /* will appreciably decrease collection time */ + /* at the expense of space. */ + /* GC_free_space_divisor = 1 will effectively */ + /* disable collections. */ + +GC_API GC_word GC_max_retries; + /* The maximum number of GCs attempted before */ + /* reporting out of memory after heap */ + /* expansion fails. Initially 0. */ + + +GC_API char *GC_stackbottom; /* Cool end of user stack. */ + /* May be set in the client prior to */ + /* calling any GC_ routines. This */ + /* avoids some overhead, and */ + /* potentially some signals that can */ + /* confuse debuggers. Otherwise the */ + /* collector attempts to set it */ + /* automatically. */ + /* For multithreaded code, this is the */ + /* cold end of the stack for the */ + /* primordial thread. */ + +/* Public procedures */ +/* + * general purpose allocation routines, with roughly malloc calling conv. + * The atomic versions promise that no relevant pointers are contained + * in the object. The nonatomic versions guarantee that the new object + * is cleared. GC_malloc_stubborn promises that no changes to the object + * will occur after GC_end_stubborn_change has been called on the + * result of GC_malloc_stubborn. GC_malloc_uncollectable allocates an object + * that is scanned for pointers to collectable objects, but is not itself + * collectable. GC_malloc_uncollectable and GC_free called on the resulting + * object implicitly update GC_non_gc_bytes appropriately. + */ +GC_API GC_PTR GC_malloc GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_atomic GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_uncollectable GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_stubborn GC_PROTO((size_t size_in_bytes)); + +/* The following is only defined if the library has been suitably */ +/* compiled: */ +GC_API GC_PTR GC_malloc_atomic_uncollectable GC_PROTO((size_t size_in_bytes)); + +/* Explicitly deallocate an object. Dangerous if used incorrectly. */ +/* Requires a pointer to the base of an object. */ +/* If the argument is stubborn, it should not be changeable when freed. */ +/* An object should not be enable for finalization when it is */ +/* explicitly deallocated. */ +/* GC_free(0) is a no-op, as required by ANSI C for free. */ +GC_API void GC_free GC_PROTO((GC_PTR object_addr)); + +/* + * Stubborn objects may be changed only if the collector is explicitly informed. + * The collector is implicitly informed of coming change when such + * an object is first allocated. The following routines inform the + * collector that an object will no longer be changed, or that it will + * once again be changed. Only nonNIL pointer stores into the object + * are considered to be changes. The argument to GC_end_stubborn_change + * must be exacly the value returned by GC_malloc_stubborn or passed to + * GC_change_stubborn. (In the second case it may be an interior pointer + * within 512 bytes of the beginning of the objects.) + * There is a performance penalty for allowing more than + * one stubborn object to be changed at once, but it is acceptable to + * do so. The same applies to dropping stubborn objects that are still + * changeable. + */ +GC_API void GC_change_stubborn GC_PROTO((GC_PTR)); +GC_API void GC_end_stubborn_change GC_PROTO((GC_PTR)); + +/* Return a pointer to the base (lowest address) of an object given */ +/* a pointer to a location within the object. */ +/* Return 0 if displaced_pointer doesn't point to within a valid */ +/* object. */ +GC_API GC_PTR GC_base GC_PROTO((GC_PTR displaced_pointer)); + +/* Given a pointer to the base of an object, return its size in bytes. */ +/* The returned size may be slightly larger than what was originally */ +/* requested. */ +GC_API size_t GC_size GC_PROTO((GC_PTR object_addr)); + +/* For compatibility with C library. This is occasionally faster than */ +/* a malloc followed by a bcopy. But if you rely on that, either here */ +/* or with the standard C library, your code is broken. In my */ +/* opinion, it shouldn't have been invented, but now we're stuck. -HB */ +/* The resulting object has the same kind as the original. */ +/* If the argument is stubborn, the result will have changes enabled. */ +/* It is an error to have changes enabled for the original object. */ +/* Follows ANSI comventions for NULL old_object. */ +GC_API GC_PTR GC_realloc + GC_PROTO((GC_PTR old_object, size_t new_size_in_bytes)); + +/* Explicitly increase the heap size. */ +/* Returns 0 on failure, 1 on success. */ +GC_API int GC_expand_hp GC_PROTO((size_t number_of_bytes)); + +/* Limit the heap size to n bytes. Useful when you're debugging, */ +/* especially on systems that don't handle running out of memory well. */ +/* n == 0 ==> unbounded. This is the default. */ +GC_API void GC_set_max_heap_size GC_PROTO((GC_word n)); + +/* Inform the collector that a certain section of statically allocated */ +/* memory contains no pointers to garbage collected memory. Thus it */ +/* need not be scanned. This is sometimes important if the application */ +/* maps large read/write files into the address space, which could be */ +/* mistaken for dynamic library data segments on some systems. */ +GC_API void GC_exclude_static_roots GC_PROTO((GC_PTR start, GC_PTR finish)); + +/* Clear the set of root segments. Wizards only. */ +GC_API void GC_clear_roots GC_PROTO((void)); + +/* Add a root segment. Wizards only. */ +GC_API void GC_add_roots GC_PROTO((char * low_address, + char * high_address_plus_1)); + +/* Add a displacement to the set of those considered valid by the */ +/* collector. GC_register_displacement(n) means that if p was returned */ +/* by GC_malloc, then (char *)p + n will be considered to be a valid */ +/* pointer to n. N must be small and less than the size of p. */ +/* (All pointers to the interior of objects from the stack are */ +/* considered valid in any case. This applies to heap objects and */ +/* static data.) */ +/* Preferably, this should be called before any other GC procedures. */ +/* Calling it later adds to the probability of excess memory */ +/* retention. */ +/* This is a no-op if the collector was compiled with recognition of */ +/* arbitrary interior pointers enabled, which is now the default. */ +GC_API void GC_register_displacement GC_PROTO((GC_word n)); + +/* The following version should be used if any debugging allocation is */ +/* being done. */ +GC_API void GC_debug_register_displacement GC_PROTO((GC_word n)); + +/* Explicitly trigger a full, world-stop collection. */ +GC_API void GC_gcollect GC_PROTO((void)); + +/* Trigger a full world-stopped collection. Abort the collection if */ +/* and when stop_func returns a nonzero value. Stop_func will be */ +/* called frequently, and should be reasonably fast. This works even */ +/* if virtual dirty bits, and hence incremental collection is not */ +/* available for this architecture. Collections can be aborted faster */ +/* than normal pause times for incremental collection. However, */ +/* aborted collections do no useful work; the next collection needs */ +/* to start from the beginning. */ +/* Return 0 if the collection was aborted, 1 if it succeeded. */ +typedef int (* GC_stop_func) GC_PROTO((void)); +GC_API int GC_try_to_collect GC_PROTO((GC_stop_func stop_func)); + +/* Return the number of bytes in the heap. Excludes collector private */ +/* data structures. Includes empty blocks and fragmentation loss. */ +/* Includes some pages that were allocated but never written. */ +GC_API size_t GC_get_heap_size GC_PROTO((void)); + +/* Return the number of bytes allocated since the last collection. */ +GC_API size_t GC_get_bytes_since_gc GC_PROTO((void)); + +/* Enable incremental/generational collection. */ +/* Not advisable unless dirty bits are */ +/* available or most heap objects are */ +/* pointerfree(atomic) or immutable. */ +/* Don't use in leak finding mode. */ +/* Ignored if GC_dont_gc is true. */ +GC_API void GC_enable_incremental GC_PROTO((void)); + +/* Perform some garbage collection work, if appropriate. */ +/* Return 0 if there is no more work to be done. */ +/* Typically performs an amount of work corresponding roughly */ +/* to marking from one page. May do more work if further */ +/* progress requires it, e.g. if incremental collection is */ +/* disabled. It is reasonable to call this in a wait loop */ +/* until it returns 0. */ +GC_API int GC_collect_a_little GC_PROTO((void)); + +/* Allocate an object of size lb bytes. The client guarantees that */ +/* as long as the object is live, it will be referenced by a pointer */ +/* that points to somewhere within the first 256 bytes of the object. */ +/* (This should normally be declared volatile to prevent the compiler */ +/* from invalidating this assertion.) This routine is only useful */ +/* if a large array is being allocated. It reduces the chance of */ +/* accidentally retaining such an array as a result of scanning an */ +/* integer that happens to be an address inside the array. (Actually, */ +/* it reduces the chance of the allocator not finding space for such */ +/* an array, since it will try hard to avoid introducing such a false */ +/* reference.) On a SunOS 4.X or MS Windows system this is recommended */ +/* for arrays likely to be larger than 100K or so. For other systems, */ +/* or if the collector is not configured to recognize all interior */ +/* pointers, the threshold is normally much higher. */ +GC_API GC_PTR GC_malloc_ignore_off_page GC_PROTO((size_t lb)); +GC_API GC_PTR GC_malloc_atomic_ignore_off_page GC_PROTO((size_t lb)); + +#if defined(__sgi) && !defined(__GNUC__) && _COMPILER_VERSION >= 720 +# define GC_ADD_CALLER +# define GC_RETURN_ADDR (GC_word)__return_address +#endif + +#ifdef GC_ADD_CALLER +# define GC_EXTRAS GC_RETURN_ADDR, __FILE__, __LINE__ +# define GC_EXTRA_PARAMS GC_word ra, char * descr_string, int descr_int +#else +# define GC_EXTRAS __FILE__, __LINE__ +# define GC_EXTRA_PARAMS char * descr_string, int descr_int +#endif + +/* Debugging (annotated) allocation. GC_gcollect will check */ +/* objects allocated in this way for overwrites, etc. */ +GC_API GC_PTR GC_debug_malloc + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_atomic + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_uncollectable + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_stubborn + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API void GC_debug_free GC_PROTO((GC_PTR object_addr)); +GC_API GC_PTR GC_debug_realloc + GC_PROTO((GC_PTR old_object, size_t new_size_in_bytes, + GC_EXTRA_PARAMS)); + +GC_API void GC_debug_change_stubborn GC_PROTO((GC_PTR)); +GC_API void GC_debug_end_stubborn_change GC_PROTO((GC_PTR)); +# ifdef GC_DEBUG +# define GC_MALLOC(sz) GC_debug_malloc(sz, GC_EXTRAS) +# define GC_MALLOC_ATOMIC(sz) GC_debug_malloc_atomic(sz, GC_EXTRAS) +# define GC_MALLOC_UNCOLLECTABLE(sz) GC_debug_malloc_uncollectable(sz, \ + GC_EXTRAS) +# define GC_REALLOC(old, sz) GC_debug_realloc(old, sz, GC_EXTRAS) +# define GC_FREE(p) GC_debug_free(p) +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_debug_register_finalizer(p, f, d, of, od) +# define GC_REGISTER_FINALIZER_IGNORE_SELF(p, f, d, of, od) \ + GC_debug_register_finalizer_ignore_self(p, f, d, of, od) +# define GC_MALLOC_STUBBORN(sz) GC_debug_malloc_stubborn(sz, GC_EXTRAS); +# define GC_CHANGE_STUBBORN(p) GC_debug_change_stubborn(p) +# define GC_END_STUBBORN_CHANGE(p) GC_debug_end_stubborn_change(p) +# define GC_GENERAL_REGISTER_DISAPPEARING_LINK(link, obj) \ + GC_general_register_disappearing_link(link, GC_base(obj)) +# define GC_REGISTER_DISPLACEMENT(n) GC_debug_register_displacement(n) +# else +# define GC_MALLOC(sz) GC_malloc(sz) +# define GC_MALLOC_ATOMIC(sz) GC_malloc_atomic(sz) +# define GC_MALLOC_UNCOLLECTABLE(sz) GC_malloc_uncollectable(sz) +# define GC_REALLOC(old, sz) GC_realloc(old, sz) +# define GC_FREE(p) GC_free(p) +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_register_finalizer(p, f, d, of, od) +# define GC_REGISTER_FINALIZER_IGNORE_SELF(p, f, d, of, od) \ + GC_register_finalizer_ignore_self(p, f, d, of, od) +# define GC_MALLOC_STUBBORN(sz) GC_malloc_stubborn(sz) +# define GC_CHANGE_STUBBORN(p) GC_change_stubborn(p) +# define GC_END_STUBBORN_CHANGE(p) GC_end_stubborn_change(p) +# define GC_GENERAL_REGISTER_DISAPPEARING_LINK(link, obj) \ + GC_general_register_disappearing_link(link, obj) +# define GC_REGISTER_DISPLACEMENT(n) GC_register_displacement(n) +# endif +/* The following are included because they are often convenient, and */ +/* reduce the chance for a misspecifed size argument. But calls may */ +/* expand to something syntactically incorrect if t is a complicated */ +/* type expression. */ +# define GC_NEW(t) (t *)GC_MALLOC(sizeof (t)) +# define GC_NEW_ATOMIC(t) (t *)GC_MALLOC_ATOMIC(sizeof (t)) +# define GC_NEW_STUBBORN(t) (t *)GC_MALLOC_STUBBORN(sizeof (t)) +# define GC_NEW_UNCOLLECTABLE(t) (t *)GC_MALLOC_UNCOLLECTABLE(sizeof (t)) + +/* Finalization. Some of these primitives are grossly unsafe. */ +/* The idea is to make them both cheap, and sufficient to build */ +/* a safer layer, closer to PCedar finalization. */ +/* The interface represents my conclusions from a long discussion */ +/* with Alan Demers, Dan Greene, Carl Hauser, Barry Hayes, */ +/* Christian Jacobi, and Russ Atkinson. It's not perfect, and */ +/* probably nobody else agrees with it. Hans-J. Boehm 3/13/92 */ +typedef void (*GC_finalization_proc) + GC_PROTO((GC_PTR obj, GC_PTR client_data)); + +GC_API void GC_register_finalizer + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); +GC_API void GC_debug_register_finalizer + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + /* When obj is no longer accessible, invoke */ + /* (*fn)(obj, cd). If a and b are inaccessible, and */ + /* a points to b (after disappearing links have been */ + /* made to disappear), then only a will be */ + /* finalized. (If this does not create any new */ + /* pointers to b, then b will be finalized after the */ + /* next collection.) Any finalizable object that */ + /* is reachable from itself by following one or more */ + /* pointers will not be finalized (or collected). */ + /* Thus cycles involving finalizable objects should */ + /* be avoided, or broken by disappearing links. */ + /* All but the last finalizer registered for an object */ + /* is ignored. */ + /* Finalization may be removed by passing 0 as fn. */ + /* Finalizers are implicitly unregistered just before */ + /* they are invoked. */ + /* The old finalizer and client data are stored in */ + /* *ofn and *ocd. */ + /* Fn is never invoked on an accessible object, */ + /* provided hidden pointers are converted to real */ + /* pointers only if the allocation lock is held, and */ + /* such conversions are not performed by finalization */ + /* routines. */ + /* If GC_register_finalizer is aborted as a result of */ + /* a signal, the object may be left with no */ + /* finalization, even if neither the old nor new */ + /* finalizer were NULL. */ + /* Obj should be the nonNULL starting address of an */ + /* object allocated by GC_malloc or friends. */ + /* Note that any garbage collectable object referenced */ + /* by cd will be considered accessible until the */ + /* finalizer is invoked. */ + +/* Another versions of the above follow. It ignores */ +/* self-cycles, i.e. pointers from a finalizable object to */ +/* itself. There is a stylistic argument that this is wrong, */ +/* but it's unavoidable for C++, since the compiler may */ +/* silently introduce these. It's also benign in that specific */ +/* case. */ +GC_API void GC_register_finalizer_ignore_self + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); +GC_API void GC_debug_register_finalizer_ignore_self + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + +/* The following routine may be used to break cycles between */ +/* finalizable objects, thus causing cyclic finalizable */ +/* objects to be finalized in the correct order. Standard */ +/* use involves calling GC_register_disappearing_link(&p), */ +/* where p is a pointer that is not followed by finalization */ +/* code, and should not be considered in determining */ +/* finalization order. */ +GC_API int GC_register_disappearing_link GC_PROTO((GC_PTR * /* link */)); + /* Link should point to a field of a heap allocated */ + /* object obj. *link will be cleared when obj is */ + /* found to be inaccessible. This happens BEFORE any */ + /* finalization code is invoked, and BEFORE any */ + /* decisions about finalization order are made. */ + /* This is useful in telling the finalizer that */ + /* some pointers are not essential for proper */ + /* finalization. This may avoid finalization cycles. */ + /* Note that obj may be resurrected by another */ + /* finalizer, and thus the clearing of *link may */ + /* be visible to non-finalization code. */ + /* There's an argument that an arbitrary action should */ + /* be allowed here, instead of just clearing a pointer. */ + /* But this causes problems if that action alters, or */ + /* examines connectivity. */ + /* Returns 1 if link was already registered, 0 */ + /* otherwise. */ + /* Only exists for backward compatibility. See below: */ + +GC_API int GC_general_register_disappearing_link + GC_PROTO((GC_PTR * /* link */, GC_PTR obj)); + /* A slight generalization of the above. *link is */ + /* cleared when obj first becomes inaccessible. This */ + /* can be used to implement weak pointers easily and */ + /* safely. Typically link will point to a location */ + /* holding a disguised pointer to obj. (A pointer */ + /* inside an "atomic" object is effectively */ + /* disguised.) In this way soft */ + /* pointers are broken before any object */ + /* reachable from them are finalized. Each link */ + /* May be registered only once, i.e. with one obj */ + /* value. This was added after a long email discussion */ + /* with John Ellis. */ + /* Obj must be a pointer to the first word of an object */ + /* we allocated. It is unsafe to explicitly deallocate */ + /* the object containing link. Explicitly deallocating */ + /* obj may or may not cause link to eventually be */ + /* cleared. */ +GC_API int GC_unregister_disappearing_link GC_PROTO((GC_PTR * /* link */)); + /* Returns 0 if link was not actually registered. */ + /* Undoes a registration by either of the above two */ + /* routines. */ + +/* Auxiliary fns to make finalization work correctly with displaced */ +/* pointers introduced by the debugging allocators. */ +GC_API GC_PTR GC_make_closure GC_PROTO((GC_finalization_proc fn, GC_PTR data)); +GC_API void GC_debug_invoke_finalizer GC_PROTO((GC_PTR obj, GC_PTR data)); + +GC_API int GC_invoke_finalizers GC_PROTO((void)); + /* Run finalizers for all objects that are ready to */ + /* be finalized. Return the number of finalizers */ + /* that were run. Normally this is also called */ + /* implicitly during some allocations. If */ + /* GC-finalize_on_demand is nonzero, it must be called */ + /* explicitly. */ + +/* GC_set_warn_proc can be used to redirect or filter warning messages. */ +/* p may not be a NULL pointer. */ +typedef void (*GC_warn_proc) GC_PROTO((char *msg, GC_word arg)); +GC_API GC_warn_proc GC_set_warn_proc GC_PROTO((GC_warn_proc p)); + /* Returns old warning procedure. */ + +/* The following is intended to be used by a higher level */ +/* (e.g. cedar-like) finalization facility. It is expected */ +/* that finalization code will arrange for hidden pointers to */ +/* disappear. Otherwise objects can be accessed after they */ +/* have been collected. */ +/* Note that putting pointers in atomic objects or in */ +/* nonpointer slots of "typed" objects is equivalent to */ +/* disguising them in this way, and may have other advantages. */ +# if defined(I_HIDE_POINTERS) || defined(GC_I_HIDE_POINTERS) + typedef GC_word GC_hidden_pointer; +# define HIDE_POINTER(p) (~(GC_hidden_pointer)(p)) +# define REVEAL_POINTER(p) ((GC_PTR)(HIDE_POINTER(p))) + /* Converting a hidden pointer to a real pointer requires verifying */ + /* that the object still exists. This involves acquiring the */ + /* allocator lock to avoid a race with the collector. */ +# endif /* I_HIDE_POINTERS */ + +typedef GC_PTR (*GC_fn_type) GC_PROTO((GC_PTR client_data)); +GC_API GC_PTR GC_call_with_alloc_lock + GC_PROTO((GC_fn_type fn, GC_PTR client_data)); + +/* Check that p and q point to the same object. */ +/* Fail conspicuously if they don't. */ +/* Returns the first argument. */ +/* Succeeds if neither p nor q points to the heap. */ +/* May succeed if both p and q point to between heap objects. */ +GC_API GC_PTR GC_same_obj GC_PROTO((GC_PTR p, GC_PTR q)); + +/* Checked pointer pre- and post- increment operations. Note that */ +/* the second argument is in units of bytes, not multiples of the */ +/* object size. This should either be invoked from a macro, or the */ +/* call should be automatically generated. */ +GC_API GC_PTR GC_pre_incr GC_PROTO((GC_PTR *p, size_t how_much)); +GC_API GC_PTR GC_post_incr GC_PROTO((GC_PTR *p, size_t how_much)); + +/* Check that p is visible */ +/* to the collector as a possibly pointer containing location. */ +/* If it isn't fail conspicuously. */ +/* Returns the argument in all cases. May erroneously succeed */ +/* in hard cases. (This is intended for debugging use with */ +/* untyped allocations. The idea is that it should be possible, though */ +/* slow, to add such a call to all indirect pointer stores.) */ +/* Currently useless for multithreaded worlds. */ +GC_API GC_PTR GC_is_visible GC_PROTO((GC_PTR p)); + +/* Check that if p is a pointer to a heap page, then it points to */ +/* a valid displacement within a heap object. */ +/* Fail conspicuously if this property does not hold. */ +/* Uninteresting with ALL_INTERIOR_POINTERS. */ +/* Always returns its argument. */ +GC_API GC_PTR GC_is_valid_displacement GC_PROTO((GC_PTR p)); + +/* Safer, but slow, pointer addition. Probably useful mainly with */ +/* a preprocessor. Useful only for heap pointers. */ +#ifdef GC_DEBUG +# define GC_PTR_ADD3(x, n, type_of_result) \ + ((type_of_result)GC_same_obj((x)+(n), (x))) +# define GC_PRE_INCR3(x, n, type_of_result) \ + ((type_of_result)GC_pre_incr(&(x), (n)*sizeof(*x)) +# define GC_POST_INCR2(x, type_of_result) \ + ((type_of_result)GC_post_incr(&(x), sizeof(*x)) +# ifdef __GNUC__ +# define GC_PTR_ADD(x, n) \ + GC_PTR_ADD3(x, n, typeof(x)) +# define GC_PRE_INCR(x, n) \ + GC_PRE_INCR3(x, n, typeof(x)) +# define GC_POST_INCR(x, n) \ + GC_POST_INCR3(x, typeof(x)) +# else + /* We can't do this right without typeof, which ANSI */ + /* decided was not sufficiently useful. Repeatedly */ + /* mentioning the arguments seems too dangerous to be */ + /* useful. So does not casting the result. */ +# define GC_PTR_ADD(x, n) ((x)+(n)) +# endif +#else /* !GC_DEBUG */ +# define GC_PTR_ADD3(x, n, type_of_result) ((x)+(n)) +# define GC_PTR_ADD(x, n) ((x)+(n)) +# define GC_PRE_INCR3(x, n, type_of_result) ((x) += (n)) +# define GC_PRE_INCR(x, n) ((x) += (n)) +# define GC_POST_INCR2(x, n, type_of_result) ((x)++) +# define GC_POST_INCR(x, n) ((x)++) +#endif + +/* Safer assignment of a pointer to a nonstack location. */ +#ifdef GC_DEBUG +# ifdef __STDC__ +# define GC_PTR_STORE(p, q) \ + (*(void **)GC_is_visible(p) = GC_is_valid_displacement(q)) +# else +# define GC_PTR_STORE(p, q) \ + (*(char **)GC_is_visible(p) = GC_is_valid_displacement(q)) +# endif +#else /* !GC_DEBUG */ +# define GC_PTR_STORE(p, q) *((p) = (q)) +#endif + +/* Fynctions called to report pointer checking errors */ +GC_API void (*GC_same_obj_print_proc) GC_PROTO((GC_PTR p, GC_PTR q)); + +GC_API void (*GC_is_valid_displacement_print_proc) + GC_PROTO((GC_PTR p)); + +GC_API void (*GC_is_visible_print_proc) + GC_PROTO((GC_PTR p)); + +#if defined(_SOLARIS_PTHREADS) && !defined(SOLARIS_THREADS) +# define SOLARIS_THREADS +#endif + +#ifdef SOLARIS_THREADS +/* We need to intercept calls to many of the threads primitives, so */ +/* that we can locate thread stacks and stop the world. */ +/* Note also that the collector cannot see thread specific data. */ +/* Thread specific data should generally consist of pointers to */ +/* uncollectable objects, which are deallocated using the destructor */ +/* facility in thr_keycreate. */ +# include <thread.h> +# include <signal.h> + int GC_thr_create(void *stack_base, size_t stack_size, + void *(*start_routine)(void *), void *arg, long flags, + thread_t *new_thread); + int GC_thr_join(thread_t wait_for, thread_t *departed, void **status); + int GC_thr_suspend(thread_t target_thread); + int GC_thr_continue(thread_t target_thread); + void * GC_dlopen(const char *path, int mode); + +# ifdef _SOLARIS_PTHREADS +# include <pthread.h> + extern int GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void * (*thread_execp)(void *), void *arg); + extern int GC_pthread_join(pthread_t wait_for, void **status); + +# undef thread_t + +# define pthread_join GC_pthread_join +# define pthread_create GC_pthread_create +#endif + +# define thr_create GC_thr_create +# define thr_join GC_thr_join +# define thr_suspend GC_thr_suspend +# define thr_continue GC_thr_continue +# define dlopen GC_dlopen + +# endif /* SOLARIS_THREADS */ + + +#if defined(IRIX_THREADS) || defined(LINUX_THREADS) +/* We treat these similarly. */ +# include <pthread.h> +# include <signal.h> + + int GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void *(*start_routine)(void *), void *arg); + int GC_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset); + int GC_pthread_join(pthread_t thread, void **retval); + +# define pthread_create GC_pthread_create +# define pthread_sigmask GC_pthread_sigmask +# define pthread_join GC_pthread_join + +#endif /* IRIX_THREADS || LINUX_THREADS */ + +# if defined(PCR) || defined(SOLARIS_THREADS) || defined(WIN32_THREADS) || \ + defined(IRIX_THREADS) || defined(LINUX_THREADS) || \ + defined(IRIX_JDK_THREADS) + /* Any flavor of threads except SRC_M3. */ +/* This returns a list of objects, linked through their first */ +/* word. Its use can greatly reduce lock contention problems, since */ +/* the allocation lock can be acquired and released many fewer times. */ +/* lb must be large enough to hold the pointer field. */ +GC_PTR GC_malloc_many(size_t lb); +#define GC_NEXT(p) (*(GC_PTR *)(p)) /* Retrieve the next element */ + /* in returned list. */ +extern void GC_thr_init(); /* Needed for Solaris/X86 */ + +#endif /* THREADS && !SRC_M3 */ + +/* + * If you are planning on putting + * the collector in a SunOS 5 dynamic library, you need to call GC_INIT() + * from the statically loaded program section. + * This circumvents a Solaris 2.X (X<=4) linker bug. + */ +#if defined(sparc) || defined(__sparc) +# define GC_INIT() { extern end, etext; \ + GC_noop(&end, &etext); } +#else +# if defined(__CYGWIN32__) && defined(GC_USE_DLL) + /* + * Similarly gnu-win32 DLLs need explicit initialization + */ +# define GC_INIT() { GC_add_roots(DATASTART, DATAEND); } +# else +# define GC_INIT() +# endif +#endif + +#if (defined(_MSDOS) || defined(_MSC_VER)) && (_M_IX86 >= 300) \ + || defined(_WIN32) + /* win32S may not free all resources on process exit. */ + /* This explicitly deallocates the heap. */ + GC_API void GC_win32_free_heap (); +#endif + +#ifdef __cplusplus + } /* end of extern "C" */ +#endif + +#endif /* _GC_H */ diff --git a/gc/gc.mak b/gc/gc.mak new file mode 100644 index 0000000..0fd22b7 --- /dev/null +++ b/gc/gc.mak @@ -0,0 +1,2087 @@ +# Microsoft Developer Studio Generated NMAKE File, Format Version 4.10 +# ** DO NOT EDIT ** + +# TARGTYPE "Win32 (x86) Application" 0x0101 +# TARGTYPE "Win32 (x86) Dynamic-Link Library" 0x0102 + +!IF "$(CFG)" == "" +CFG=gctest - Win32 Release +!MESSAGE No configuration specified. Defaulting to cord - Win32 Debug. +!ENDIF + +!IF "$(CFG)" != "gc - Win32 Release" && "$(CFG)" != "gc - Win32 Debug" &&\ + "$(CFG)" != "gctest - Win32 Release" && "$(CFG)" != "gctest - Win32 Debug" &&\ + "$(CFG)" != "cord - Win32 Release" && "$(CFG)" != "cord - Win32 Debug" +!MESSAGE Invalid configuration "$(CFG)" specified. +!MESSAGE You can specify a configuration when running NMAKE on this makefile +!MESSAGE by defining the macro CFG on the command line. For example: +!MESSAGE +!MESSAGE NMAKE /f "gc.mak" CFG="cord - Win32 Debug" +!MESSAGE +!MESSAGE Possible choices for configuration are: +!MESSAGE +!MESSAGE "gc - Win32 Release" (based on "Win32 (x86) Dynamic-Link Library") +!MESSAGE "gc - Win32 Debug" (based on "Win32 (x86) Dynamic-Link Library") +!MESSAGE "gctest - Win32 Release" (based on "Win32 (x86) Application") +!MESSAGE "gctest - Win32 Debug" (based on "Win32 (x86) Application") +!MESSAGE "cord - Win32 Release" (based on "Win32 (x86) Application") +!MESSAGE "cord - Win32 Debug" (based on "Win32 (x86) Application") +!MESSAGE +!ERROR An invalid configuration is specified. +!ENDIF + +!IF "$(OS)" == "Windows_NT" +NULL= +!ELSE +NULL=nul +!ENDIF +################################################################################ +# Begin Project +# PROP Target_Last_Scanned "gctest - Win32 Debug" + +!IF "$(CFG)" == "gc - Win32 Release" + +# PROP BASE Use_MFC 0 +# PROP BASE Use_Debug_Libraries 0 +# PROP BASE Output_Dir "Release" +# PROP BASE Intermediate_Dir "Release" +# PROP BASE Target_Dir "" +# PROP Use_MFC 0 +# PROP Use_Debug_Libraries 0 +# PROP Output_Dir "Release" +# PROP Intermediate_Dir "Release" +# PROP Target_Dir "" +OUTDIR=.\Release +INTDIR=.\Release + +ALL : ".\Release\gc.dll" ".\Release\gc.bsc" + +CLEAN : + -@erase ".\Release\allchblk.obj" + -@erase ".\Release\allchblk.sbr" + -@erase ".\Release\alloc.obj" + -@erase ".\Release\alloc.sbr" + -@erase ".\Release\blacklst.obj" + -@erase ".\Release\blacklst.sbr" + -@erase ".\Release\checksums.obj" + -@erase ".\Release\checksums.sbr" + -@erase ".\Release\dbg_mlc.obj" + -@erase ".\Release\dbg_mlc.sbr" + -@erase ".\Release\dyn_load.obj" + -@erase ".\Release\dyn_load.sbr" + -@erase ".\Release\finalize.obj" + -@erase ".\Release\finalize.sbr" + -@erase ".\Release\gc.bsc" + -@erase ".\Release\gc.dll" + -@erase ".\Release\gc.exp" + -@erase ".\Release\gc.lib" + -@erase ".\Release\headers.obj" + -@erase ".\Release\headers.sbr" + -@erase ".\Release\mach_dep.obj" + -@erase 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+# ADD BASE CPP /nologo /MT /W3 /GX /O2 /D "WIN32" /D "NDEBUG" /D "_WINDOWS" /YX /c +# ADD CPP /nologo /MD /W3 /GX /O2 /D "NDEBUG" /D "SILENT" /D "GC_BUILD" /D "WIN32" /D "_WINDOWS" /D "ALL_INTERIOR_POINTERS" /D "__STDC__" /D "WIN32_THREADS" /FR /YX /c +CPP_PROJ=/nologo /MD /W3 /GX /O2 /D "NDEBUG" /D "SILENT" /D "GC_BUILD" /D\ + "WIN32" /D "_WINDOWS" /D "ALL_INTERIOR_POINTERS" /D "__STDC__" /D\ + "WIN32_THREADS" /FR"$(INTDIR)/" /Fp"$(INTDIR)/gc.pch" /YX /Fo"$(INTDIR)/" /c +CPP_OBJS=.\Release/ +CPP_SBRS=.\Release/ + +.c{$(CPP_OBJS)}.obj: + $(CPP) $(CPP_PROJ) $< + +.cpp{$(CPP_OBJS)}.obj: + $(CPP) $(CPP_PROJ) $< + +.cxx{$(CPP_OBJS)}.obj: + $(CPP) $(CPP_PROJ) $< + +.c{$(CPP_SBRS)}.sbr: + $(CPP) $(CPP_PROJ) $< + +.cpp{$(CPP_SBRS)}.sbr: + $(CPP) $(CPP_PROJ) $< + +.cxx{$(CPP_SBRS)}.sbr: + $(CPP) $(CPP_PROJ) $< + +MTL=mktyplib.exe +# ADD BASE MTL /nologo /D "NDEBUG" /win32 +# ADD MTL /nologo /D "NDEBUG" /win32 +MTL_PROJ=/nologo /D "NDEBUG" /win32 +RSC=rc.exe +# ADD BASE RSC /l 0x809 /d "NDEBUG" +# ADD RSC /l 0x809 /d "NDEBUG" +BSC32=bscmake.exe +# ADD BASE BSC32 /nologo +# ADD BSC32 /nologo +BSC32_FLAGS=/nologo /o"$(OUTDIR)/gc.bsc" +BSC32_SBRS= \ + ".\Release\allchblk.sbr" \ + ".\Release\alloc.sbr" \ + ".\Release\blacklst.sbr" \ + ".\Release\checksums.sbr" \ + ".\Release\dbg_mlc.sbr" \ + ".\Release\dyn_load.sbr" \ + ".\Release\finalize.sbr" \ + ".\Release\headers.sbr" \ + ".\Release\mach_dep.sbr" \ + ".\Release\malloc.sbr" \ + ".\Release\mallocx.sbr" \ + ".\Release\mark.sbr" \ + ".\Release\mark_rts.sbr" \ + ".\Release\misc.sbr" \ + ".\Release\new_hblk.sbr" \ + ".\Release\obj_map.sbr" \ + ".\Release\os_dep.sbr" \ + ".\Release\ptr_chck.sbr" \ + ".\Release\reclaim.sbr" \ + ".\Release\stubborn.sbr" \ + ".\Release\typd_mlc.sbr" \ + ".\Release\win32_threads.sbr" + +".\Release\gc.bsc" : "$(OUTDIR)" $(BSC32_SBRS) + $(BSC32) @<< + $(BSC32_FLAGS) $(BSC32_SBRS) +<< + +LINK32=link.exe +# ADD BASE LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:windows /dll /machine:I386 +# ADD LINK32 kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib odbccp32.lib /nologo /subsystem:windows /dll /machine:I386 +LINK32_FLAGS=kernel32.lib user32.lib gdi32.lib winspool.lib comdlg32.lib\ + advapi32.lib shell32.lib ole32.lib oleaut32.lib uuid.lib odbc32.lib\ + odbccp32.lib /nologo /subsystem:windows /dll /incremental:no\ + /pdb:"$(OUTDIR)/gc.pdb" /machine:I386 /out:"$(OUTDIR)/gc.dll"\ + /implib:"$(OUTDIR)/gc.lib" +LINK32_OBJS= \ + ".\Release\allchblk.obj" \ + ".\Release\alloc.obj" \ + ".\Release\blacklst.obj" \ + ".\Release\checksums.obj" \ + ".\Release\dbg_mlc.obj" \ + ".\Release\dyn_load.obj" \ + ".\Release\finalize.obj" \ + ".\Release\headers.obj" \ + ".\Release\mach_dep.obj" \ + ".\Release\malloc.obj" \ + ".\Release\mallocx.obj" \ + ".\Release\mark.obj" \ + ".\Release\mark_rts.obj" \ + ".\Release\misc.obj" \ + ".\Release\new_hblk.obj" \ + ".\Release\obj_map.obj" \ + ".\Release\os_dep.obj" \ + ".\Release\ptr_chck.obj" \ + ".\Release\reclaim.obj" \ + ".\Release\stubborn.obj" \ + ".\Release\typd_mlc.obj" \ + ".\Release\win32_threads.obj" + +".\Release\gc.dll" : "$(OUTDIR)" $(DEF_FILE) $(LINK32_OBJS) + $(LINK32) @<< + $(LINK32_FLAGS) $(LINK32_OBJS) +<< + +!ELSEIF "$(CFG)" == "gc - Win32 Debug" + +# PROP BASE Use_MFC 0 +# PROP BASE Use_Debug_Libraries 1 +# PROP BASE Output_Dir "Debug" +# PROP BASE Intermediate_Dir "Debug" +# PROP BASE Target_Dir "" +# PROP Use_MFC 0 +# PROP Use_Debug_Libraries 1 +# PROP Output_Dir "Debug" +# PROP Intermediate_Dir "Debug" +# PROP Target_Dir "" +OUTDIR=.\Debug +INTDIR=.\Debug + +ALL : ".\Debug\gc.dll" ".\Debug\gc.bsc" + +CLEAN : + -@erase ".\Debug\allchblk.obj" + -@erase ".\Debug\allchblk.sbr" + -@erase ".\Debug\alloc.obj" + -@erase ".\Debug\alloc.sbr" + -@erase ".\Debug\blacklst.obj" + -@erase ".\Debug\blacklst.sbr" + -@erase ".\Debug\checksums.obj" + -@erase ".\Debug\checksums.sbr" + -@erase ".\Debug\dbg_mlc.obj" + -@erase ".\Debug\dbg_mlc.sbr" + -@erase ".\Debug\dyn_load.obj" + -@erase ".\Debug\dyn_load.sbr" + -@erase ".\Debug\finalize.obj" + -@erase ".\Debug\finalize.sbr" + -@erase ".\Debug\gc.bsc" + -@erase ".\Debug\gc.dll" + -@erase ".\Debug\gc.exp" + -@erase ".\Debug\gc.lib" + -@erase ".\Debug\gc.map" + -@erase ".\Debug\gc.pdb" + -@erase ".\Debug\headers.obj" + -@erase ".\Debug\headers.sbr" + -@erase ".\Debug\mach_dep.obj" + -@erase ".\Debug\mach_dep.sbr" + -@erase ".\Debug\malloc.obj" + -@erase ".\Debug\malloc.sbr" + -@erase ".\Debug\mallocx.obj" + -@erase ".\Debug\mallocx.sbr" + -@erase ".\Debug\mark.obj" + -@erase ".\Debug\mark.sbr" + -@erase ".\Debug\mark_rts.obj" + -@erase ".\Debug\mark_rts.sbr" + -@erase ".\Debug\misc.obj" + -@erase ".\Debug\misc.sbr" + -@erase ".\Debug\new_hblk.obj" + -@erase ".\Debug\new_hblk.sbr" + -@erase ".\Debug\obj_map.obj" + -@erase ".\Debug\obj_map.sbr" + -@erase ".\Debug\os_dep.obj" + -@erase ".\Debug\os_dep.sbr" + -@erase ".\Debug\ptr_chck.obj" + -@erase ".\Debug\ptr_chck.sbr" + -@erase ".\Debug\reclaim.obj" + -@erase ".\Debug\reclaim.sbr" + -@erase ".\Debug\stubborn.obj" + -@erase ".\Debug\stubborn.sbr" + -@erase ".\Debug\typd_mlc.obj" + -@erase ".\Debug\typd_mlc.sbr" + -@erase ".\Debug\vc40.idb" + -@erase ".\Debug\vc40.pdb" + -@erase ".\Debug\win32_threads.obj" + -@erase ".\Debug\win32_threads.sbr" + +"$(OUTDIR)" : + if not exist "$(OUTDIR)/$(NULL)" mkdir "$(OUTDIR)" + +CPP=cl.exe +# ADD BASE CPP /nologo /MTd /W3 /Gm /GX /Zi /Od /D "WIN32" /D "_DEBUG" /D "_WINDOWS" /YX /c +# ADD CPP /nologo /MDd /W3 /Gm /GX /Zi /Od /D "_DEBUG" /D "SILENT" /D "GC_BUILD" /D "WIN32" /D "_WINDOWS" /D "ALL_INTERIOR_POINTERS" /D "__STDC__" /D "WIN32_THREADS" /FR /YX /c +CPP_PROJ=/nologo /MDd /W3 /Gm /GX /Zi /Od /D "_DEBUG" /D "SILENT" /D "GC_BUILD"\ + /D "WIN32" /D "_WINDOWS" /D "ALL_INTERIOR_POINTERS" /D "__STDC__" /D\ + "WIN32_THREADS" /FR"$(INTDIR)/" /Fp"$(INTDIR)/gc.pch" /YX /Fo"$(INTDIR)/"\ + /Fd"$(INTDIR)/" /c +CPP_OBJS=.\Debug/ +CPP_SBRS=.\Debug/ + +.c{$(CPP_OBJS)}.obj: + $(CPP) $(CPP_PROJ) $< + +.cpp{$(CPP_OBJS)}.obj: + $(CPP) $(CPP_PROJ) $< + +.cxx{$(CPP_OBJS)}.obj: + $(CPP) $(CPP_PROJ) $< + +.c{$(CPP_SBRS)}.sbr: + $(CPP) $(CPP_PROJ) $< + +.cpp{$(CPP_SBRS)}.sbr: + $(CPP) $(CPP_PROJ) $< + +.cxx{$(CPP_SBRS)}.sbr: + $(CPP) $(CPP_PROJ) $< + +MTL=mktyplib.exe +# ADD BASE MTL /nologo /D "_DEBUG" /win32 +# ADD MTL /nologo /D "_DEBUG" /win32 +MTL_PROJ=/nologo /D "_DEBUG" /win32 +RSC=rc.exe +# ADD BASE RSC /l 0x809 /d "_DEBUG" +# ADD RSC /l 0x809 /d "_DEBUG" +BSC32=bscmake.exe +# ADD BASE BSC32 /nologo +# ADD BSC32 /nologo +BSC32_FLAGS=/nologo /o"$(OUTDIR)/gc.bsc" +BSC32_SBRS= \ + ".\Debug\allchblk.sbr" \ + ".\Debug\alloc.sbr" \ + ".\Debug\blacklst.sbr" \ + ".\Debug\checksums.sbr" \ + ".\Debug\dbg_mlc.sbr" \ + ".\Debug\dyn_load.sbr" \ + ".\Debug\finalize.sbr" \ + ".\Debug\headers.sbr" \ + ".\Debug\mach_dep.sbr" \ + 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Release" + +!ELSEIF "$(CFG)" == "gctest - Win32 Debug" + +!ENDIF + +################################################################################ +# Begin Project Dependency + +# Project_Dep_Name "gc" + +!IF "$(CFG)" == "gctest - Win32 Release" + +"gc - Win32 Release" : + $(MAKE) /$(MAKEFLAGS) /F ".\gc.mak" CFG="gc - Win32 Release" + +!ELSEIF "$(CFG)" == "gctest - Win32 Debug" + +"gc - Win32 Debug" : + $(MAKE) /$(MAKEFLAGS) /F ".\gc.mak" CFG="gc - Win32 Debug" + +!ENDIF + +# End Project Dependency +################################################################################ +# Begin Source File + +SOURCE=.\test.c +DEP_CPP_TEST_=\ + ".\gcconfig.h"\ + ".\gc.h"\ + ".\gc_hdrs.h"\ + ".\gc_priv.h"\ + ".\gc_typed.h"\ + {$(INCLUDE)}"\sys\TYPES.H"\ + +NODEP_CPP_TEST_=\ + ".\th\PCR_Th.h"\ + ".\th\PCR_ThCrSec.h"\ + ".\th\PCR_ThCtl.h"\ + + +!IF "$(CFG)" == "gctest - Win32 Release" + + +".\gctest\Release\test.obj" : $(SOURCE) $(DEP_CPP_TEST_) "$(INTDIR)" + + +!ELSEIF "$(CFG)" == "gctest - 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+SOURCE=.\cord\de_win.c +DEP_CPP_DE_WI=\ + ".\cord\cord.h"\ + ".\cord\de_cmds.h"\ + ".\cord\de_win.h"\ + ".\cord\private\cord_pos.h"\ + +NODEP_CPP_DE_WI=\ + ".\cord\gc.h"\ + + +!IF "$(CFG)" == "cord - Win32 Release" + + +".\cord\Release\de_win.obj" : $(SOURCE) $(DEP_CPP_DE_WI) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ELSEIF "$(CFG)" == "cord - Win32 Debug" + + +".\cord\Debug\de_win.obj" : $(SOURCE) $(DEP_CPP_DE_WI) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ENDIF + +# End Source File +################################################################################ +# Begin Source File + +SOURCE=.\cord\de.c +DEP_CPP_DE_C2e=\ + ".\cord\cord.h"\ + ".\cord\de_cmds.h"\ + ".\cord\de_win.h"\ + ".\cord\private\cord_pos.h"\ + +NODEP_CPP_DE_C2e=\ + ".\cord\gc.h"\ + + +!IF "$(CFG)" == "cord - Win32 Release" + + +".\cord\Release\de.obj" : $(SOURCE) $(DEP_CPP_DE_C2e) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ELSEIF "$(CFG)" == "cord - Win32 Debug" + + +".\cord\Debug\de.obj" : $(SOURCE) $(DEP_CPP_DE_C2e) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ENDIF + +# End Source File +################################################################################ +# Begin Source File + +SOURCE=.\cord\cordxtra.c +DEP_CPP_CORDX=\ + ".\cord\cord.h"\ + ".\cord\ec.h"\ + ".\cord\private\cord_pos.h"\ + +NODEP_CPP_CORDX=\ + ".\cord\gc.h"\ + + +!IF "$(CFG)" == "cord - Win32 Release" + + +".\cord\Release\cordxtra.obj" : $(SOURCE) $(DEP_CPP_CORDX) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ELSEIF "$(CFG)" == "cord - Win32 Debug" + + +".\cord\Debug\cordxtra.obj" : $(SOURCE) $(DEP_CPP_CORDX) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ENDIF + +# End Source File +################################################################################ +# Begin Source File + +SOURCE=.\cord\cordbscs.c +DEP_CPP_CORDB=\ + ".\cord\cord.h"\ + ".\cord\private\cord_pos.h"\ + +NODEP_CPP_CORDB=\ + ".\cord\gc.h"\ + + +!IF "$(CFG)" == "cord - Win32 Release" + + +".\cord\Release\cordbscs.obj" : $(SOURCE) $(DEP_CPP_CORDB) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ELSEIF "$(CFG)" == "cord - Win32 Debug" + + +".\cord\Debug\cordbscs.obj" : $(SOURCE) $(DEP_CPP_CORDB) "$(INTDIR)" + $(CPP) $(CPP_PROJ) $(SOURCE) + + +!ENDIF + +# End Source File +################################################################################ +# Begin Source File + +SOURCE=.\cord\de_win.RC + +!IF "$(CFG)" == "cord - Win32 Release" + + +".\cord\Release\de_win.res" : $(SOURCE) "$(INTDIR)" + $(RSC) /l 0x809 /fo"$(INTDIR)/de_win.res" /i "cord" /d "NDEBUG" $(SOURCE) + + +!ELSEIF "$(CFG)" == "cord - Win32 Debug" + + +".\cord\Debug\de_win.res" : $(SOURCE) "$(INTDIR)" + $(RSC) /l 0x809 /fo"$(INTDIR)/de_win.res" /i "cord" /d "_DEBUG" $(SOURCE) + + +!ENDIF + +# End Source File +# End Target +# End Project +################################################################################ diff --git a/gc/gc.man b/gc/gc.man new file mode 100644 index 0000000..5409e70 --- /dev/null +++ b/gc/gc.man @@ -0,0 +1,80 @@ +.TH GC_MALLOC 1L "12 February 1996" +.SH NAME +GC_malloc, GC_malloc_atomic, GC_free, GC_realloc, GC_enable_incremental, GC_register_finalizer, GC_malloc_ignore_off_page, GC_malloc_atomic_ignore_off_page, GC_set_warn_proc \- Garbage collecting malloc replacement +.SH SYNOPSIS +#include "gc.h" +.br +# define malloc(n) GC_malloc(n) +.br +... malloc(...) ... +.br +.sp +cc ... gc.a +.LP +.SH DESCRIPTION +.I GC_malloc +and +.I GC_free +are plug-in replacements for standard malloc and free. However, +.I +GC_malloc +will attempt to reclaim inaccessible space automatically by invoking a conservative garbage collector at appropriate points. The collector traverses all data structures accessible by following pointers from the machines registers, stack(s), data, and bss segments. Inaccessible structures will be reclaimed. A machine word is considered to be a valid pointer if it is an address inside an object allocated by +.I +GC_malloc +or friends. +.LP +See the documentation in the include file gc_cpp.h for an alternate, C++ specific interface to the garbage collector. +.LP +Unlike the standard implementations of malloc, +.I +GC_malloc +clears the newly allocated storage. +.I +GC_malloc_atomic +does not. Furthermore, it informs the collector that the resulting object will never contain any pointers, and should therefore not be scanned by the collector. +.LP +.I +GC_free +can be used to deallocate objects, but its use is optional, and generally discouraged. +.I +GC_realloc +has the standard realloc semantics. It preserves pointer-free-ness. +.I +GC_register_finalizer +allows for registration of functions that are invoked when an object becomes inaccessible. +.LP +The garbage collector tries to avoid allocating memory at locations that already appear to be referenced before allocation. (Such apparent ``pointers'' are usually large integers and the like that just happen to look like an address.) This may make it hard to allocate very large objects. An attempt to do so may generate a warning. +.LP +.I +GC_malloc_ignore_off_page +and +.I +GC_malloc_atomic_ignore_off_page +inform the collector that the client code will always maintain a pointer to near the beginning of the object (within the first 512 bytes), and that pointers beyond that can be ignored by the collector. This makes it much easier for the collector to place large objects. These are recommended for large object allocation. (Objects expected to be larger than about 100KBytes should be allocated this way.) +.LP +It is also possible to use the collector to find storage leaks in programs destined to be run with standard malloc/free. The collector can be compiled for thread-safe operation. Unlike standard malloc, it is safe to call malloc after a previous malloc call was interrupted by a signal, provided the original malloc call is not resumed. +.LP +The collector may, on rare occasion produce warning messages. On UNIX machines these appear on stderr. Warning messages can be filtered, redirected, or ignored with +.I +GC_set_warn_proc. +This is recommended for production code. See gc.h for details. +.LP +Debugging versions of many of the above routines are provided as macros. Their names are identical to the above, but consist of all capital letters. If GC_DEBUG is defined before gc.h is included, these routines do additional checking, and allow the leak detecting version of the collector to produce slightly more useful output. Without GC_DEBUG defined, they behave exactly like the lower-case versions. +.LP +On some machines, collection will be performed incrementally after a call to +.I +GC_enable_incremental. +This may temporarily write protect pages in the heap. See the README file for more information on how this interacts with system calls that write to the heap. +.LP +Other facilities not discussed here include limited facilities to support incremental collection on machines without appropriate VM support, provisions for providing more explicit object layout information to the garbage collector, more direct support for ``weak'' pointers, support for ``abortable'' garbage collections during idle time, etc. +.LP +.SH "SEE ALSO" +The README and gc.h files in the distribution. More detailed definitions of the functions exported by the collector are given there. (The above list is not complete.) +.LP +Boehm, H., and M. Weiser, "Garbage Collection in an Uncooperative Environment", +\fISoftware Practice & Experience\fP, September 1988, pp. 807-820. +.LP +The malloc(3) man page. +.LP +.SH AUTHOR +Hans-J. Boehm (boehm@parc.xerox.com). Some of the code was written by others, most notably Alan Demers. diff --git a/gc/gc_alloc.h b/gc/gc_alloc.h new file mode 100644 index 0000000..1f1d54a --- /dev/null +++ b/gc/gc_alloc.h @@ -0,0 +1,380 @@ +/* + * Copyright (c) 1996-1998 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +// +// This is a C++ header file that is intended to replace the SGI STL +// alloc.h. This assumes SGI STL version < 3.0. +// +// This assumes the collector has been compiled with -DATOMIC_UNCOLLECTABLE +// and -DALL_INTERIOR_POINTERS. We also recommend +// -DREDIRECT_MALLOC=GC_uncollectable_malloc. +// +// Some of this could be faster in the explicit deallocation case. In particular, +// we spend too much time clearing objects on the free lists. That could be avoided. +// +// This uses template classes with static members, and hence does not work +// with g++ 2.7.2 and earlier. +// + +#include "gc.h" + +#ifndef GC_ALLOC_H + +#define GC_ALLOC_H +#define __ALLOC_H // Prevent inclusion of the default version. Ugly. +#define __SGI_STL_ALLOC_H +#define __SGI_STL_INTERNAL_ALLOC_H + +#ifndef __ALLOC +# define __ALLOC alloc +#endif + +#include <stddef.h> +#include <string.h> + +// The following is just replicated from the conventional SGI alloc.h: + +template<class T, class alloc> +class simple_alloc { + +public: + static T *allocate(size_t n) + { return 0 == n? 0 : (T*) alloc::allocate(n * sizeof (T)); } + static T *allocate(void) + { return (T*) alloc::allocate(sizeof (T)); } + static void deallocate(T *p, size_t n) + { if (0 != n) alloc::deallocate(p, n * sizeof (T)); } + static void deallocate(T *p) + { alloc::deallocate(p, sizeof (T)); } +}; + +#include "gc.h" + +// The following need to match collector data structures. +// We can't include gc_priv.h, since that pulls in way too much stuff. +// This should eventually be factored out into another include file. + +extern "C" { + extern void ** const GC_objfreelist_ptr; + extern void ** const GC_aobjfreelist_ptr; + extern void ** const GC_uobjfreelist_ptr; + extern void ** const GC_auobjfreelist_ptr; + + extern void GC_incr_words_allocd(size_t words); + extern void GC_incr_mem_freed(size_t words); + + extern char * GC_generic_malloc_words_small(size_t word, int kind); +} + +// Object kinds; must match PTRFREE, NORMAL, UNCOLLECTABLE, and +// AUNCOLLECTABLE in gc_priv.h. + +enum { GC_PTRFREE = 0, GC_NORMAL = 1, GC_UNCOLLECTABLE = 2, + GC_AUNCOLLECTABLE = 3 }; + +enum { GC_max_fast_bytes = 255 }; + +enum { GC_bytes_per_word = sizeof(char *) }; + +enum { GC_byte_alignment = 8 }; + +enum { GC_word_alignment = GC_byte_alignment/GC_bytes_per_word }; + +inline void * &GC_obj_link(void * p) +{ return *(void **)p; } + +// Compute a number of words >= n+1 bytes. +// The +1 allows for pointers one past the end. +inline size_t GC_round_up(size_t n) +{ + return ((n + GC_byte_alignment)/GC_byte_alignment)*GC_word_alignment; +} + +// The same but don't allow for extra byte. +inline size_t GC_round_up_uncollectable(size_t n) +{ + return ((n + GC_byte_alignment - 1)/GC_byte_alignment)*GC_word_alignment; +} + +template <int dummy> +class GC_aux_template { +public: + // File local count of allocated words. Occasionally this is + // added into the global count. A separate count is necessary since the + // real one must be updated with a procedure call. + static size_t GC_words_recently_allocd; + + // Same for uncollectable mmory. Not yet reflected in either + // GC_words_recently_allocd or GC_non_gc_bytes. + static size_t GC_uncollectable_words_recently_allocd; + + // Similar counter for explicitly deallocated memory. + static size_t GC_mem_recently_freed; + + // Again for uncollectable memory. + static size_t GC_uncollectable_mem_recently_freed; + + static void * GC_out_of_line_malloc(size_t nwords, int kind); +}; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_words_recently_allocd = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_uncollectable_words_recently_allocd = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_mem_recently_freed = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_uncollectable_mem_recently_freed = 0; + +template <int dummy> +void * GC_aux_template<dummy>::GC_out_of_line_malloc(size_t nwords, int kind) +{ + GC_words_recently_allocd += GC_uncollectable_words_recently_allocd; + GC_non_gc_bytes += + GC_bytes_per_word * GC_uncollectable_words_recently_allocd; + GC_uncollectable_words_recently_allocd = 0; + + GC_mem_recently_freed += GC_uncollectable_mem_recently_freed; + GC_non_gc_bytes -= + GC_bytes_per_word * GC_uncollectable_mem_recently_freed; + GC_uncollectable_mem_recently_freed = 0; + + GC_incr_words_allocd(GC_words_recently_allocd); + GC_words_recently_allocd = 0; + + GC_incr_mem_freed(GC_mem_recently_freed); + GC_mem_recently_freed = 0; + + return GC_generic_malloc_words_small(nwords, kind); +} + +typedef GC_aux_template<0> GC_aux; + +// A fast, single-threaded, garbage-collected allocator +// We assume the first word will be immediately overwritten. +// In this version, deallocation is not a noop, and explicit +// deallocation is likely to help performance. +template <int dummy> +class single_client_gc_alloc_template { + public: + static void * allocate(size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc(n); + flh = GC_objfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_NORMAL); + } + *flh = GC_obj_link(op); + GC_aux::GC_words_recently_allocd += nwords; + return op; + } + static void * ptr_free_allocate(size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_atomic(n); + flh = GC_aobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_PTRFREE); + } + *flh = GC_obj_link(op); + GC_aux::GC_words_recently_allocd += nwords; + return op; + } + static void deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_objfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + memset((char *)p + GC_bytes_per_word, 0, + GC_bytes_per_word * (nwords - 1)); + *flh = p; + GC_aux::GC_mem_recently_freed += nwords; + } + } + static void ptr_free_deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_aobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_mem_recently_freed += nwords; + } + } +}; + +typedef single_client_gc_alloc_template<0> single_client_gc_alloc; + +// Once more, for uncollectable objects. +template <int dummy> +class single_client_alloc_template { + public: + static void * allocate(size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_uncollectable(n); + flh = GC_uobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_UNCOLLECTABLE); + } + *flh = GC_obj_link(op); + GC_aux::GC_uncollectable_words_recently_allocd += nwords; + return op; + } + static void * ptr_free_allocate(size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_atomic_uncollectable(n); + flh = GC_auobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_AUNCOLLECTABLE); + } + *flh = GC_obj_link(op); + GC_aux::GC_uncollectable_words_recently_allocd += nwords; + return op; + } + static void deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_uobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_uncollectable_mem_recently_freed += nwords; + } + } + static void ptr_free_deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_auobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_uncollectable_mem_recently_freed += nwords; + } + } +}; + +typedef single_client_alloc_template<0> single_client_alloc; + +template < int dummy > +class gc_alloc_template { + public: + static void * allocate(size_t n) { return GC_malloc(n); } + static void * ptr_free_allocate(size_t n) + { return GC_malloc_atomic(n); } + static void deallocate(void *, size_t) { } + static void ptr_free_deallocate(void *, size_t) { } +}; + +typedef gc_alloc_template < 0 > gc_alloc; + +template < int dummy > +class alloc_template { + public: + static void * allocate(size_t n) { return GC_malloc_uncollectable(n); } + static void * ptr_free_allocate(size_t n) + { return GC_malloc_atomic_uncollectable(n); } + static void deallocate(void *p, size_t) { GC_free(p); } + static void ptr_free_deallocate(void *p, size_t) { GC_free(p); } +}; + +typedef alloc_template < 0 > alloc; + +#ifdef _SGI_SOURCE + +// We want to specialize simple_alloc so that it does the right thing +// for all pointerfree types. At the moment there is no portable way to +// even approximate that. The following approximation should work for +// SGI compilers, and perhaps some others. + +# define __GC_SPECIALIZE(T,alloc) \ +class simple_alloc<T, alloc> { \ +public: \ + static T *allocate(size_t n) \ + { return 0 == n? 0 : \ + (T*) alloc::ptr_free_allocate(n * sizeof (T)); } \ + static T *allocate(void) \ + { return (T*) alloc::ptr_free_allocate(sizeof (T)); } \ + static void deallocate(T *p, size_t n) \ + { if (0 != n) alloc::ptr_free_deallocate(p, n * sizeof (T)); } \ + static void deallocate(T *p) \ + { alloc::ptr_free_deallocate(p, sizeof (T)); } \ +}; + +__GC_SPECIALIZE(char, gc_alloc) +__GC_SPECIALIZE(int, gc_alloc) +__GC_SPECIALIZE(unsigned, gc_alloc) +__GC_SPECIALIZE(float, gc_alloc) +__GC_SPECIALIZE(double, gc_alloc) + +__GC_SPECIALIZE(char, alloc) +__GC_SPECIALIZE(int, alloc) +__GC_SPECIALIZE(unsigned, alloc) +__GC_SPECIALIZE(float, alloc) +__GC_SPECIALIZE(double, alloc) + +__GC_SPECIALIZE(char, single_client_gc_alloc) +__GC_SPECIALIZE(int, single_client_gc_alloc) +__GC_SPECIALIZE(unsigned, single_client_gc_alloc) +__GC_SPECIALIZE(float, single_client_gc_alloc) +__GC_SPECIALIZE(double, single_client_gc_alloc) + +__GC_SPECIALIZE(char, single_client_alloc) +__GC_SPECIALIZE(int, single_client_alloc) +__GC_SPECIALIZE(unsigned, single_client_alloc) +__GC_SPECIALIZE(float, single_client_alloc) +__GC_SPECIALIZE(double, single_client_alloc) + +#ifdef __STL_USE_STD_ALLOCATORS + +???copy stuff from stl_alloc.h or remove it to a different file ??? + +#endif /* __STL_USE_STD_ALLOCATORS */ + +#endif /* _SGI_SOURCE */ + +#endif /* GC_ALLOC_H */ diff --git a/gc/gc_copy_descr.h b/gc/gc_copy_descr.h new file mode 100644 index 0000000..212c99e --- /dev/null +++ b/gc/gc_copy_descr.h @@ -0,0 +1,26 @@ + +/* + * Copyright (c) 1999 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Descriptor for allocation request. May be redefined by client. */ +typedef struct { + GC_word bitmap; /* Bitmap describing pointer locations. */ + /* High order bit correspond to 0th */ + /* word. 2 lsbs must be 0. */ + size_t length; /* In bytes, must be multiple of word */ + /* size. Must be >0, <= 512 */ +} * GC_copy_descriptor; + +/* The collector accesses descriptors only through these two macros. */ +#define GC_SIZE_FROM_DESCRIPTOR(d) ((d) -> length) +#define GC_BIT_MAP_FROM_DESCRIPTOR(d) ((d) -> bitmap) + diff --git a/gc/gc_cpp.cc b/gc/gc_cpp.cc new file mode 100644 index 0000000..547c56f --- /dev/null +++ b/gc/gc_cpp.cc @@ -0,0 +1,60 @@ +/************************************************************************* +Copyright (c) 1994 by Xerox Corporation. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + + Last modified on Sat Nov 19 19:31:14 PST 1994 by ellis + on Sat Jun 8 15:10:00 PST 1994 by boehm + +Permission is hereby granted to copy this code for any purpose, +provided the above notices are retained on all copies. + +This implementation module for gc_c++.h provides an implementation of +the global operators "new" and "delete" that calls the Boehm +allocator. All objects allocated by this implementation will be +non-collectable but part of the root set of the collector. + +You should ensure (using implementation-dependent techniques) that the +linker finds this module before the library that defines the default +built-in "new" and "delete". + +Authors: John R. Ellis and Jesse Hull + +**************************************************************************/ +/* Boehm, December 20, 1994 7:26 pm PST */ + +#include "gc_cpp.h" + +void* operator new( size_t size ) { + return GC_MALLOC_UNCOLLECTABLE( size );} + +void operator delete( void* obj ) { + GC_FREE( obj );} + +#ifdef _MSC_VER +// This new operator is used by VC++ in case of Debug builds ! +void* operator new( size_t size, + int ,//nBlockUse, + const char * szFileName, + int nLine + ) { +# ifndef GC_DEBUG + return GC_malloc_uncollectable( size ); +# else + return GC_debug_malloc_uncollectable(size, szFileName, nLine); +# endif +} +#endif + +#ifdef OPERATOR_NEW_ARRAY + +void* operator new[]( size_t size ) { + return GC_MALLOC_UNCOLLECTABLE( size );} + +void operator delete[]( void* obj ) { + GC_FREE( obj );} + +#endif /* OPERATOR_NEW_ARRAY */ + + diff --git a/gc/gc_cpp.h b/gc/gc_cpp.h new file mode 100644 index 0000000..ad7df5d --- /dev/null +++ b/gc/gc_cpp.h @@ -0,0 +1,290 @@ +#ifndef GC_CPP_H +#define GC_CPP_H +/**************************************************************************** +Copyright (c) 1994 by Xerox Corporation. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + +Permission is hereby granted to use or copy this program for any +purpose, provided the above notices are retained on all copies. +Permission to modify the code and to distribute modified code is +granted, provided the above notices are retained, and a notice that +the code was modified is included with the above copyright notice. +**************************************************************************** + +C++ Interface to the Boehm Collector + + John R. Ellis and Jesse Hull + Last modified on Mon Jul 24 15:43:42 PDT 1995 by ellis + +This interface provides access to the Boehm collector. It provides +basic facilities similar to those described in "Safe, Efficient +Garbage Collection for C++", by John R. Elis and David L. Detlefs +(ftp.parc.xerox.com:/pub/ellis/gc). + +All heap-allocated objects are either "collectable" or +"uncollectable". Programs must explicitly delete uncollectable +objects, whereas the garbage collector will automatically delete +collectable objects when it discovers them to be inaccessible. +Collectable objects may freely point at uncollectable objects and vice +versa. + +Objects allocated with the built-in "::operator new" are uncollectable. + +Objects derived from class "gc" are collectable. For example: + + class A: public gc {...}; + A* a = new A; // a is collectable. + +Collectable instances of non-class types can be allocated using the GC +placement: + + typedef int A[ 10 ]; + A* a = new (GC) A; + +Uncollectable instances of classes derived from "gc" can be allocated +using the NoGC placement: + + class A: public gc {...}; + A* a = new (NoGC) A; // a is uncollectable. + +Both uncollectable and collectable objects can be explicitly deleted +with "delete", which invokes an object's destructors and frees its +storage immediately. + +A collectable object may have a clean-up function, which will be +invoked when the collector discovers the object to be inaccessible. +An object derived from "gc_cleanup" or containing a member derived +from "gc_cleanup" has a default clean-up function that invokes the +object's destructors. Explicit clean-up functions may be specified as +an additional placement argument: + + A* a = ::new (GC, MyCleanup) A; + +An object is considered "accessible" by the collector if it can be +reached by a path of pointers from static variables, automatic +variables of active functions, or from some object with clean-up +enabled; pointers from an object to itself are ignored. + +Thus, if objects A and B both have clean-up functions, and A points at +B, B is considered accessible. After A's clean-up is invoked and its +storage released, B will then become inaccessible and will have its +clean-up invoked. If A points at B and B points to A, forming a +cycle, then that's considered a storage leak, and neither will be +collectable. See the interface gc.h for low-level facilities for +handling such cycles of objects with clean-up. + +The collector cannot guarrantee that it will find all inaccessible +objects. In practice, it finds almost all of them. + + +Cautions: + +1. Be sure the collector has been augmented with "make c++". + +2. If your compiler supports the new "operator new[]" syntax, then +add -DOPERATOR_NEW_ARRAY to the Makefile. + +If your compiler doesn't support "operator new[]", beware that an +array of type T, where T is derived from "gc", may or may not be +allocated as a collectable object (it depends on the compiler). Use +the explicit GC placement to make the array collectable. For example: + + class A: public gc {...}; + A* a1 = new A[ 10 ]; // collectable or uncollectable? + A* a2 = new (GC) A[ 10 ]; // collectable + +3. The destructors of collectable arrays of objects derived from +"gc_cleanup" will not be invoked properly. For example: + + class A: public gc_cleanup {...}; + A* a = new (GC) A[ 10 ]; // destructors not invoked correctly + +Typically, only the destructor for the first element of the array will +be invoked when the array is garbage-collected. To get all the +destructors of any array executed, you must supply an explicit +clean-up function: + + A* a = new (GC, MyCleanUp) A[ 10 ]; + +(Implementing clean-up of arrays correctly, portably, and in a way +that preserves the correct exception semantics requires a language +extension, e.g. the "gc" keyword.) + +4. Compiler bugs: + +* Solaris 2's CC (SC3.0) doesn't implement t->~T() correctly, so the +destructors of classes derived from gc_cleanup won't be invoked. +You'll have to explicitly register a clean-up function with +new-placement syntax. + +* Evidently cfront 3.0 does not allow destructors to be explicitly +invoked using the ANSI-conforming syntax t->~T(). If you're using +cfront 3.0, you'll have to comment out the class gc_cleanup, which +uses explicit invocation. + +****************************************************************************/ + +#include "gc.h" + +#ifndef THINK_CPLUS +#define _cdecl +#endif + +#if ! defined( OPERATOR_NEW_ARRAY ) \ + && (__BORLANDC__ >= 0x450 || (__GNUC__ >= 2 && __GNUC_MINOR__ >= 6) \ + || __WATCOMC__ >= 1050) +# define OPERATOR_NEW_ARRAY +#endif + +enum GCPlacement {GC, NoGC, PointerFreeGC}; + +class gc {public: + inline void* operator new( size_t size ); + inline void* operator new( size_t size, GCPlacement gcp ); + inline void operator delete( void* obj ); + +#ifdef OPERATOR_NEW_ARRAY + inline void* operator new[]( size_t size ); + inline void* operator new[]( size_t size, GCPlacement gcp ); + inline void operator delete[]( void* obj ); +#endif /* OPERATOR_NEW_ARRAY */ + }; + /* + Instances of classes derived from "gc" will be allocated in the + collected heap by default, unless an explicit NoGC placement is + specified. */ + +class gc_cleanup: virtual public gc {public: + inline gc_cleanup(); + inline virtual ~gc_cleanup(); +private: + inline static void _cdecl cleanup( void* obj, void* clientData );}; + /* + Instances of classes derived from "gc_cleanup" will be allocated + in the collected heap by default. When the collector discovers an + inaccessible object derived from "gc_cleanup" or containing a + member derived from "gc_cleanup", its destructors will be + invoked. */ + +extern "C" {typedef void (*GCCleanUpFunc)( void* obj, void* clientData );} + +inline void* operator new( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup = 0, + void* clientData = 0 ); + /* + Allocates a collectable or uncollected object, according to the + value of "gcp". + + For collectable objects, if "cleanup" is non-null, then when the + allocated object "obj" becomes inaccessible, the collector will + invoke the function "cleanup( obj, clientData )" but will not + invoke the object's destructors. It is an error to explicitly + delete an object allocated with a non-null "cleanup". + + It is an error to specify a non-null "cleanup" with NoGC or for + classes derived from "gc_cleanup" or containing members derived + from "gc_cleanup". */ + +#ifdef OPERATOR_NEW_ARRAY + +inline void* operator new[]( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup = 0, + void* clientData = 0 ); + /* + The operator new for arrays, identical to the above. */ + +#endif /* OPERATOR_NEW_ARRAY */ + +/**************************************************************************** + +Inline implementation + +****************************************************************************/ + +inline void* gc::operator new( size_t size ) { + return GC_MALLOC( size );} + +inline void* gc::operator new( size_t size, GCPlacement gcp ) { + if (gcp == GC) + return GC_MALLOC( size ); + else if (gcp == PointerFreeGC) + return GC_MALLOC_ATOMIC( size ); + else + return GC_MALLOC_UNCOLLECTABLE( size );} + +inline void gc::operator delete( void* obj ) { + GC_FREE( obj );} + + +#ifdef OPERATOR_NEW_ARRAY + +inline void* gc::operator new[]( size_t size ) { + return gc::operator new( size );} + +inline void* gc::operator new[]( size_t size, GCPlacement gcp ) { + return gc::operator new( size, gcp );} + +inline void gc::operator delete[]( void* obj ) { + gc::operator delete( obj );} + +#endif /* OPERATOR_NEW_ARRAY */ + + +inline gc_cleanup::~gc_cleanup() { + GC_REGISTER_FINALIZER_IGNORE_SELF( GC_base(this), 0, 0, 0, 0 );} + +inline void gc_cleanup::cleanup( void* obj, void* displ ) { + ((gc_cleanup*) ((char*) obj + (ptrdiff_t) displ))->~gc_cleanup();} + +inline gc_cleanup::gc_cleanup() { + GC_finalization_proc oldProc; + void* oldData; + void* base = GC_base( (void *) this ); + if (0 == base) return; + GC_REGISTER_FINALIZER_IGNORE_SELF( + base, cleanup, (void*) ((char*) this - (char*) base), + &oldProc, &oldData ); + if (0 != oldProc) { + GC_REGISTER_FINALIZER_IGNORE_SELF( base, oldProc, oldData, 0, 0 );}} + +inline void* operator new( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup, + void* clientData ) +{ + void* obj; + + if (gcp == GC) { + obj = GC_MALLOC( size ); + if (cleanup != 0) + GC_REGISTER_FINALIZER_IGNORE_SELF( + obj, cleanup, clientData, 0, 0 );} + else if (gcp == PointerFreeGC) { + obj = GC_MALLOC_ATOMIC( size );} + else { + obj = GC_MALLOC_UNCOLLECTABLE( size );}; + return obj;} + + +#ifdef OPERATOR_NEW_ARRAY + +inline void* operator new[]( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup, + void* clientData ) +{ + return ::operator new( size, gcp, cleanup, clientData );} + +#endif /* OPERATOR_NEW_ARRAY */ + + +#endif /* GC_CPP_H */ + diff --git a/gc/gc_hdrs.h b/gc/gc_hdrs.h new file mode 100644 index 0000000..60dc2ad --- /dev/null +++ b/gc/gc_hdrs.h @@ -0,0 +1,135 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, July 11, 1995 11:54 am PDT */ +# ifndef GC_HEADERS_H +# define GC_HEADERS_H +typedef struct hblkhdr hdr; + +# if CPP_WORDSZ != 32 && CPP_WORDSZ < 36 + --> Get a real machine. +# endif + +/* + * The 2 level tree data structure that is used to find block headers. + * If there are more than 32 bits in a pointer, the top level is a hash + * table. + */ + +# if CPP_WORDSZ > 32 +# define HASH_TL +# endif + +/* Define appropriate out-degrees for each of the two tree levels */ +# ifdef SMALL_CONFIG +# define LOG_BOTTOM_SZ 11 + /* Keep top index size reasonable with smaller blocks. */ +# else +# define LOG_BOTTOM_SZ 10 +# endif +# ifndef HASH_TL +# define LOG_TOP_SZ (WORDSZ - LOG_BOTTOM_SZ - LOG_HBLKSIZE) +# else +# define LOG_TOP_SZ 11 +# endif +# define TOP_SZ (1 << LOG_TOP_SZ) +# define BOTTOM_SZ (1 << LOG_BOTTOM_SZ) + +typedef struct bi { + hdr * index[BOTTOM_SZ]; + /* + * The bottom level index contains one of three kinds of values: + * 0 means we're not responsible for this block, + * or this is a block other than the first one in a free block. + * 1 < (long)X <= MAX_JUMP means the block starts at least + * X * HBLKSIZE bytes before the current address. + * A valid pointer points to a hdr structure. (The above can't be + * valid pointers due to the GET_MEM return convention.) + */ + struct bi * asc_link; /* All indices are linked in */ + /* ascending order... */ + struct bi * desc_link; /* ... and in descending order. */ + word key; /* high order address bits. */ +# ifdef HASH_TL + struct bi * hash_link; /* Hash chain link. */ +# endif +} bottom_index; + +/* extern bottom_index GC_all_nils; - really part of GC_arrays */ + +/* extern bottom_index * GC_top_index []; - really part of GC_arrays */ + /* Each entry points to a bottom_index. */ + /* On a 32 bit machine, it points to */ + /* the index for a set of high order */ + /* bits equal to the index. For longer */ + /* addresses, we hash the high order */ + /* bits to compute the index in */ + /* GC_top_index, and each entry points */ + /* to a hash chain. */ + /* The last entry in each chain is */ + /* GC_all_nils. */ + + +# define MAX_JUMP (HBLKSIZE - 1) + +# define HDR_FROM_BI(bi, p) \ + ((bi)->index[((word)(p) >> LOG_HBLKSIZE) & (BOTTOM_SZ - 1)]) +# ifndef HASH_TL +# define BI(p) (GC_top_index \ + [(word)(p) >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE)]) +# define HDR_INNER(p) HDR_FROM_BI(BI(p),p) +# ifdef SMALL_CONFIG +# define HDR(p) GC_find_header((ptr_t)(p)) +# else +# define HDR(p) HDR_INNER(p) +# endif +# define GET_BI(p, bottom_indx) (bottom_indx) = BI(p) +# define GET_HDR(p, hhdr) (hhdr) = HDR(p) +# define SET_HDR(p, hhdr) HDR_INNER(p) = (hhdr) +# define GET_HDR_ADDR(p, ha) (ha) = &(HDR_INNER(p)) +# else /* hash */ +/* Hash function for tree top level */ +# define TL_HASH(hi) ((hi) & (TOP_SZ - 1)) +/* Set bottom_indx to point to the bottom index for address p */ +# define GET_BI(p, bottom_indx) \ + { \ + register word hi = \ + (word)(p) >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE); \ + register bottom_index * _bi = GC_top_index[TL_HASH(hi)]; \ + \ + while (_bi -> key != hi && _bi != GC_all_nils) \ + _bi = _bi -> hash_link; \ + (bottom_indx) = _bi; \ + } +# define GET_HDR_ADDR(p, ha) \ + { \ + register bottom_index * bi; \ + \ + GET_BI(p, bi); \ + (ha) = &(HDR_FROM_BI(bi, p)); \ + } +# define GET_HDR(p, hhdr) { register hdr ** _ha; GET_HDR_ADDR(p, _ha); \ + (hhdr) = *_ha; } +# define SET_HDR(p, hhdr) { register hdr ** _ha; GET_HDR_ADDR(p, _ha); \ + *_ha = (hhdr); } +# define HDR(p) GC_find_header((ptr_t)(p)) +# endif + +/* Is the result a forwarding address to someplace closer to the */ +/* beginning of the block or NIL? */ +# define IS_FORWARDING_ADDR_OR_NIL(hhdr) ((unsigned long) (hhdr) <= MAX_JUMP) + +/* Get an HBLKSIZE aligned address closer to the beginning of the block */ +/* h. Assumes hhdr == HDR(h) and IS_FORWARDING_ADDR(hhdr). */ +# define FORWARDED_ADDR(h, hhdr) ((struct hblk *)(h) - (unsigned long)(hhdr)) +# endif /* GC_HEADERS_H */ diff --git a/gc/gc_mark.h b/gc/gc_mark.h new file mode 100644 index 0000000..4628323 --- /dev/null +++ b/gc/gc_mark.h @@ -0,0 +1,280 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + */ +/* Boehm, November 7, 1994 4:56 pm PST */ + +/* + * Declarations of mark stack. Needed by marker and client supplied mark + * routines. To be included after gc_priv.h. + */ +#ifndef GC_MARK_H +# define GC_MARK_H + +/* A client supplied mark procedure. Returns new mark stack pointer. */ +/* Primary effect should be to push new entries on the mark stack. */ +/* Mark stack pointer values are passed and returned explicitly. */ +/* Global variables decribing mark stack are not necessarily valid. */ +/* (This usually saves a few cycles by keeping things in registers.) */ +/* Assumed to scan about PROC_BYTES on average. If it needs to do */ +/* much more work than that, it should do it in smaller pieces by */ +/* pushing itself back on the mark stack. */ +/* Note that it should always do some work (defined as marking some */ +/* objects) before pushing more than one entry on the mark stack. */ +/* This is required to ensure termination in the event of mark stack */ +/* overflows. */ +/* This procedure is always called with at least one empty entry on the */ +/* mark stack. */ +/* Currently we require that mark procedures look for pointers in a */ +/* subset of the places the conservative marker would. It must be safe */ +/* to invoke the normal mark procedure instead. */ +# define PROC_BYTES 100 +/* The real declarations of the following are in gc_priv.h, so that */ +/* we can avoid scanning the following table. */ +/* +typedef struct ms_entry * (*mark_proc)( word * addr, mark_stack_ptr, + mark_stack_limit, env ); + +# define LOG_MAX_MARK_PROCS 6 +# define MAX_MARK_PROCS (1 << LOG_MAX_MARK_PROCS) +extern mark_proc GC_mark_procs[MAX_MARK_PROCS]; +*/ + +extern word GC_n_mark_procs; + +/* Object descriptors on mark stack or in objects. Low order two */ +/* bits are tags distinguishing among the following 4 possibilities */ +/* for the high order 30 bits. */ +#define DS_TAG_BITS 2 +#define DS_TAGS ((1 << DS_TAG_BITS) - 1) +#define DS_LENGTH 0 /* The entire word is a length in bytes that */ + /* must be a multiple of 4. */ +#define DS_BITMAP 1 /* 30 bits are a bitmap describing pointer */ + /* fields. The msb is 1 iff the first word */ + /* is a pointer. */ + /* (This unconventional ordering sometimes */ + /* makes the marker slightly faster.) */ + /* Zeroes indicate definite nonpointers. Ones */ + /* indicate possible pointers. */ + /* Only usable if pointers are word aligned. */ +# define BITMAP_BITS (WORDSZ - DS_TAG_BITS) +#define DS_PROC 2 + /* The objects referenced by this object can be */ + /* pushed on the mark stack by invoking */ + /* PROC(descr). ENV(descr) is passed as the */ + /* last argument. */ +# define PROC(descr) \ + (GC_mark_procs[((descr) >> DS_TAG_BITS) & (MAX_MARK_PROCS-1)]) +# define ENV(descr) \ + ((descr) >> (DS_TAG_BITS + LOG_MAX_MARK_PROCS)) +# define MAX_ENV \ + (((word)1 << (WORDSZ - DS_TAG_BITS - LOG_MAX_MARK_PROCS)) - 1) +# define MAKE_PROC(proc_index, env) \ + (((((env) << LOG_MAX_MARK_PROCS) | (proc_index)) << DS_TAG_BITS) \ + | DS_PROC) +#define DS_PER_OBJECT 3 /* The real descriptor is at the */ + /* byte displacement from the beginning of the */ + /* object given by descr & ~DS_TAGS */ + +typedef struct ms_entry { + word * mse_start; /* First word of object */ + word mse_descr; /* Descriptor; low order two bits are tags, */ + /* identifying the upper 30 bits as one of the */ + /* following: */ +} mse; + +extern word GC_mark_stack_size; + +extern mse * GC_mark_stack_top; + +extern mse * GC_mark_stack; + +word GC_find_start(); + +mse * GC_signal_mark_stack_overflow(); + +# ifdef GATHERSTATS +# define ADD_TO_ATOMIC(sz) GC_atomic_in_use += (sz) +# define ADD_TO_COMPOSITE(sz) GC_composite_in_use += (sz) +# else +# define ADD_TO_ATOMIC(sz) +# define ADD_TO_COMPOSITE(sz) +# endif + +/* Push the object obj with corresponding heap block header hhdr onto */ +/* the mark stack. */ +# define PUSH_OBJ(obj, hhdr, mark_stack_top, mark_stack_limit) \ +{ \ + register word _descr = (hhdr) -> hb_descr; \ + \ + if (_descr == 0) { \ + ADD_TO_ATOMIC((hhdr) -> hb_sz); \ + } else { \ + ADD_TO_COMPOSITE((hhdr) -> hb_sz); \ + mark_stack_top++; \ + if (mark_stack_top >= mark_stack_limit) { \ + mark_stack_top = GC_signal_mark_stack_overflow(mark_stack_top); \ + } \ + mark_stack_top -> mse_start = (obj); \ + mark_stack_top -> mse_descr = _descr; \ + } \ +} + +#ifdef PRINT_BLACK_LIST +# define GC_FIND_START(current, hhdr, source) \ + GC_find_start(current, hhdr, source) +#else +# define GC_FIND_START(current, hhdr, source) \ + GC_find_start(current, hhdr) +#endif + +/* Push the contents of current onto the mark stack if it is a valid */ +/* ptr to a currently unmarked object. Mark it. */ +/* If we assumed a standard-conforming compiler, we could probably */ +/* generate the exit_label transparently. */ +# define PUSH_CONTENTS(current, mark_stack_top, mark_stack_limit, \ + source, exit_label) \ +{ \ + register int displ; /* Displacement in block; first bytes, then words */ \ + register hdr * hhdr; \ + register map_entry_type map_entry; \ + \ + GET_HDR(current,hhdr); \ + if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { \ + current = GC_FIND_START(current, hhdr, (word)source); \ + if (current == 0) goto exit_label; \ + hhdr = HDR(current); \ + } \ + displ = HBLKDISPL(current); \ + map_entry = MAP_ENTRY((hhdr -> hb_map), displ); \ + if (map_entry == OBJ_INVALID) { \ + GC_ADD_TO_BLACK_LIST_NORMAL(current, source); goto exit_label; \ + } \ + displ = BYTES_TO_WORDS(displ); \ + displ -= map_entry; \ + \ + { \ + register word * mark_word_addr = hhdr -> hb_marks + divWORDSZ(displ); \ + register word mark_word = *mark_word_addr; \ + register word mark_bit = (word)1 << modWORDSZ(displ); \ + \ + if (mark_word & mark_bit) { \ + /* Mark bit is already set */ \ + goto exit_label; \ + } \ + GC_STORE_BACK_PTR((ptr_t)source, (ptr_t)HBLKPTR(current) \ + + WORDS_TO_BYTES(displ)); \ + *mark_word_addr = mark_word | mark_bit; \ + } \ + PUSH_OBJ(((word *)(HBLKPTR(current)) + displ), hhdr, \ + mark_stack_top, mark_stack_limit) \ + exit_label: ; \ +} + +#ifdef PRINT_BLACK_LIST +# define PUSH_ONE_CHECKED(p, ip, source) \ + GC_push_one_checked(p, ip, (ptr_t)(source)) +#else +# define PUSH_ONE_CHECKED(p, ip, source) \ + GC_push_one_checked(p, ip) +#endif + +/* + * Push a single value onto mark stack. Mark from the object pointed to by p. + * P is considered valid even if it is an interior pointer. + * Previously marked objects are not pushed. Hence we make progress even + * if the mark stack overflows. + */ +# define GC_PUSH_ONE_STACK(p, source) \ + if ((ptr_t)(p) >= GC_least_plausible_heap_addr \ + && (ptr_t)(p) < GC_greatest_plausible_heap_addr) { \ + PUSH_ONE_CHECKED(p, TRUE, source); \ + } + +/* + * As above, but interior pointer recognition as for + * normal for heap pointers. + */ +# ifdef ALL_INTERIOR_POINTERS +# define AIP TRUE +# else +# define AIP FALSE +# endif +# define GC_PUSH_ONE_HEAP(p,source) \ + if ((ptr_t)(p) >= GC_least_plausible_heap_addr \ + && (ptr_t)(p) < GC_greatest_plausible_heap_addr) { \ + PUSH_ONE_CHECKED(p,AIP,source); \ + } + +/* + * Mark from one finalizable object using the specified + * mark proc. May not mark the object pointed to by + * real_ptr. That is the job of the caller, if appropriate + */ +# define GC_MARK_FO(real_ptr, mark_proc) \ +{ \ + (*(mark_proc))(real_ptr); \ + while (!GC_mark_stack_empty()) GC_mark_from_mark_stack(); \ + if (GC_mark_state != MS_NONE) { \ + GC_set_mark_bit(real_ptr); \ + while (!GC_mark_some((ptr_t)0)); \ + } \ +} + +extern GC_bool GC_mark_stack_too_small; + /* We need a larger mark stack. May be */ + /* set by client supplied mark routines.*/ + +typedef int mark_state_t; /* Current state of marking, as follows:*/ + /* Used to remember where we are during */ + /* concurrent marking. */ + + /* We say something is dirty if it was */ + /* written since the last time we */ + /* retrieved dirty bits. We say it's */ + /* grungy if it was marked dirty in the */ + /* last set of bits we retrieved. */ + + /* Invariant I: all roots and marked */ + /* objects p are either dirty, or point */ + /* to objects q that are either marked */ + /* or a pointer to q appears in a range */ + /* on the mark stack. */ + +# define MS_NONE 0 /* No marking in progress. I holds. */ + /* Mark stack is empty. */ + +# define MS_PUSH_RESCUERS 1 /* Rescuing objects are currently */ + /* being pushed. I holds, except */ + /* that grungy roots may point to */ + /* unmarked objects, as may marked */ + /* grungy objects above scan_ptr. */ + +# define MS_PUSH_UNCOLLECTABLE 2 + /* I holds, except that marked */ + /* uncollectable objects above scan_ptr */ + /* may point to unmarked objects. */ + /* Roots may point to unmarked objects */ + +# define MS_ROOTS_PUSHED 3 /* I holds, mark stack may be nonempty */ + +# define MS_PARTIALLY_INVALID 4 /* I may not hold, e.g. because of M.S. */ + /* overflow. However marked heap */ + /* objects below scan_ptr point to */ + /* marked or stacked objects. */ + +# define MS_INVALID 5 /* I may not hold. */ + +extern mark_state_t GC_mark_state; + +#endif /* GC_MARK_H */ + diff --git a/gc/gc_priv.h b/gc/gc_priv.h new file mode 100644 index 0000000..5ce52a7 --- /dev/null +++ b/gc/gc_priv.h @@ -0,0 +1,1748 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 16, 1996 2:30 pm PST */ + + +# ifndef GC_PRIVATE_H +# define GC_PRIVATE_H + +#if defined(mips) && defined(SYSTYPE_BSD) && defined(sony_news) + /* sony RISC NEWS, NEWSOS 4 */ +# define BSD_TIME +/* typedef long ptrdiff_t; -- necessary on some really old systems */ +#endif + +#if defined(mips) && defined(SYSTYPE_BSD43) + /* MIPS RISCOS 4 */ +# define BSD_TIME +#endif + +#ifdef BSD_TIME +# include <sys/types.h> +# include <sys/time.h> +# include <sys/resource.h> +#endif /* BSD_TIME */ + +# ifndef GC_H +# include "gc.h" +# endif + +typedef GC_word word; +typedef GC_signed_word signed_word; + +# ifndef CONFIG_H +# include "gcconfig.h" +# endif + +# ifndef HEADERS_H +# include "gc_hdrs.h" +# endif + +typedef int GC_bool; +# define TRUE 1 +# define FALSE 0 + +typedef char * ptr_t; /* A generic pointer to which we can add */ + /* byte displacements. */ + /* Preferably identical to caddr_t, if it */ + /* exists. */ + +#if defined(__STDC__) +# include <stdlib.h> +# if !(defined( sony_news ) ) +# include <stddef.h> +# endif +# define VOLATILE volatile +# define CONST const +#else +# ifdef MSWIN32 +# include <stdlib.h> +# endif +# define VOLATILE +# define CONST +#endif + +#if 0 /* was once defined for AMIGA */ +# define GC_FAR __far +#else +# define GC_FAR +#endif + +/*********************************/ +/* */ +/* Definitions for conservative */ +/* collector */ +/* */ +/*********************************/ + +/*********************************/ +/* */ +/* Easily changeable parameters */ +/* */ +/*********************************/ + +#define STUBBORN_ALLOC /* Define stubborn allocation primitives */ +#if defined(SRC_M3) || defined(SMALL_CONFIG) +# undef STUBBORN_ALLOC +#endif + + +/* #define ALL_INTERIOR_POINTERS */ + /* Forces all pointers into the interior of an */ + /* object to be considered valid. Also causes the */ + /* sizes of all objects to be inflated by at least */ + /* one byte. This should suffice to guarantee */ + /* that in the presence of a compiler that does */ + /* not perform garbage-collector-unsafe */ + /* optimizations, all portable, strictly ANSI */ + /* conforming C programs should be safely usable */ + /* with malloc replaced by GC_malloc and free */ + /* calls removed. There are several disadvantages: */ + /* 1. There are probably no interesting, portable, */ + /* strictly ANSI conforming C programs. */ + /* 2. This option makes it hard for the collector */ + /* to allocate space that is not ``pointed to'' */ + /* by integers, etc. Under SunOS 4.X with a */ + /* statically linked libc, we empiricaly */ + /* observed that it would be difficult to */ + /* allocate individual objects larger than 100K. */ + /* Even if only smaller objects are allocated, */ + /* more swap space is likely to be needed. */ + /* Fortunately, much of this will never be */ + /* touched. */ + /* If you can easily avoid using this option, do. */ + /* If not, try to keep individual objects small. */ + +#define PRINTSTATS /* Print garbage collection statistics */ + /* For less verbose output, undefine in reclaim.c */ + +#define PRINTTIMES /* Print the amount of time consumed by each garbage */ + /* collection. */ + +#define PRINTBLOCKS /* Print object sizes associated with heap blocks, */ + /* whether the objects are atomic or composite, and */ + /* whether or not the block was found to be empty */ + /* during the reclaim phase. Typically generates */ + /* about one screenful per garbage collection. */ +#undef PRINTBLOCKS + +#ifdef SILENT +# ifdef PRINTSTATS +# undef PRINTSTATS +# endif +# ifdef PRINTTIMES +# undef PRINTTIMES +# endif +# ifdef PRINTNBLOCKS +# undef PRINTNBLOCKS +# endif +#endif + +#if defined(PRINTSTATS) && !defined(GATHERSTATS) +# define GATHERSTATS +#endif + +#ifdef FINALIZE_ON_DEMAND +# define GC_INVOKE_FINALIZERS() +#else +# define GC_INVOKE_FINALIZERS() (void)GC_invoke_finalizers() +#endif + +#define MERGE_SIZES /* Round up some object sizes, so that fewer distinct */ + /* free lists are actually maintained. This applies */ + /* only to the top level routines in misc.c, not to */ + /* user generated code that calls GC_allocobj and */ + /* GC_allocaobj directly. */ + /* Slows down average programs slightly. May however */ + /* substantially reduce fragmentation if allocation */ + /* request sizes are widely scattered. */ + /* May save significant amounts of space for obj_map */ + /* entries. */ + +#ifndef OLD_BLOCK_ALLOC + /* Macros controlling large block allocation strategy. */ +# define EXACT_FIRST /* Make a complete pass through the large object */ + /* free list before splitting a block */ +# define PRESERVE_LAST /* Do not divide last allocated heap segment */ + /* unless we would otherwise need to expand the */ + /* heap. */ +#endif + +/* ALIGN_DOUBLE requires MERGE_SIZES at present. */ +# if defined(ALIGN_DOUBLE) && !defined(MERGE_SIZES) +# define MERGE_SIZES +# endif + +#if defined(ALL_INTERIOR_POINTERS) && !defined(DONT_ADD_BYTE_AT_END) +# define ADD_BYTE_AT_END +#endif + + +# ifndef LARGE_CONFIG +# define MINHINCR 16 /* Minimum heap increment, in blocks of HBLKSIZE */ + /* Must be multiple of largest page size. */ +# define MAXHINCR 512 /* Maximum heap increment, in blocks */ +# else +# define MINHINCR 64 +# define MAXHINCR 4096 +# endif + +# define TIME_LIMIT 50 /* We try to keep pause times from exceeding */ + /* this by much. In milliseconds. */ + +# define BL_LIMIT GC_black_list_spacing + /* If we need a block of N bytes, and we have */ + /* a block of N + BL_LIMIT bytes available, */ + /* and N > BL_LIMIT, */ + /* but all possible positions in it are */ + /* blacklisted, we just use it anyway (and */ + /* print a warning, if warnings are enabled). */ + /* This risks subsequently leaking the block */ + /* due to a false reference. But not using */ + /* the block risks unreasonable immediate */ + /* heap growth. */ + +/*********************************/ +/* */ +/* Stack saving for debugging */ +/* */ +/*********************************/ + +#ifdef SAVE_CALL_CHAIN + +/* + * Number of frames and arguments to save in objects allocated by + * debugging allocator. + */ +# define NFRAMES 6 /* Number of frames to save. Even for */ + /* alignment reasons. */ +# define NARGS 2 /* Mumber of arguments to save for each call. */ + +# define NEED_CALLINFO + +/* Fill in the pc and argument information for up to NFRAMES of my */ +/* callers. Ignore my frame and my callers frame. */ +void GC_save_callers (/* struct callinfo info[NFRAMES] */); + +void GC_print_callers (/* struct callinfo info[NFRAMES] */); + +#else + +# ifdef GC_ADD_CALLER +# define NFRAMES 1 +# define NARGS 0 +# define NEED_CALLINFO +# endif + +#endif + +#ifdef NEED_CALLINFO + struct callinfo { + word ci_pc; +# if NARGS > 0 + word ci_arg[NARGS]; /* bit-wise complement to avoid retention */ +# endif +# if defined(ALIGN_DOUBLE) && (NFRAMES * (NARGS + 1)) % 2 == 1 + /* Likely alignment problem. */ + word ci_dummy; +# endif + }; +#endif + + +/*********************************/ +/* */ +/* OS interface routines */ +/* */ +/*********************************/ + +#ifdef BSD_TIME +# undef CLOCK_TYPE +# undef GET_TIME +# undef MS_TIME_DIFF +# define CLOCK_TYPE struct timeval +# define GET_TIME(x) { struct rusage rusage; \ + getrusage (RUSAGE_SELF, &rusage); \ + x = rusage.ru_utime; } +# define MS_TIME_DIFF(a,b) ((double) (a.tv_sec - b.tv_sec) * 1000.0 \ + + (double) (a.tv_usec - b.tv_usec) / 1000.0) +#else /* !BSD_TIME */ +# include <time.h> +# if !defined(__STDC__) && defined(SPARC) && defined(SUNOS4) + clock_t clock(); /* Not in time.h, where it belongs */ +# endif +# if defined(FREEBSD) && !defined(CLOCKS_PER_SEC) +# include <machine/limits.h> +# define CLOCKS_PER_SEC CLK_TCK +# endif +# if !defined(CLOCKS_PER_SEC) +# define CLOCKS_PER_SEC 1000000 +/* + * This is technically a bug in the implementation. ANSI requires that + * CLOCKS_PER_SEC be defined. But at least under SunOS4.1.1, it isn't. + * Also note that the combination of ANSI C and POSIX is incredibly gross + * here. The type clock_t is used by both clock() and times(). But on + * some machines these use different notions of a clock tick, CLOCKS_PER_SEC + * seems to apply only to clock. Hence we use it here. On many machines, + * including SunOS, clock actually uses units of microseconds (which are + * not really clock ticks). + */ +# endif +# define CLOCK_TYPE clock_t +# define GET_TIME(x) x = clock() +# define MS_TIME_DIFF(a,b) ((unsigned long) \ + (1000.0*(double)((a)-(b))/(double)CLOCKS_PER_SEC)) +#endif /* !BSD_TIME */ + +/* We use bzero and bcopy internally. They may not be available. */ +# if defined(SPARC) && defined(SUNOS4) +# define BCOPY_EXISTS +# endif +# if defined(M68K) && defined(AMIGA) +# define BCOPY_EXISTS +# endif +# if defined(M68K) && defined(NEXT) +# define BCOPY_EXISTS +# endif +# if defined(VAX) +# define BCOPY_EXISTS +# endif +# if defined(AMIGA) +# include <string.h> +# define BCOPY_EXISTS +# endif + +# ifndef BCOPY_EXISTS +# include <string.h> +# define BCOPY(x,y,n) memcpy(y, x, (size_t)(n)) +# define BZERO(x,n) memset(x, 0, (size_t)(n)) +# else +# define BCOPY(x,y,n) bcopy((char *)(x),(char *)(y),(int)(n)) +# define BZERO(x,n) bzero((char *)(x),(int)(n)) +# endif + +/* HBLKSIZE aligned allocation. 0 is taken to mean failure */ +/* space is assumed to be cleared. */ +/* In the case os USE_MMAP, the argument must also be a */ +/* physical page size. */ +/* GET_MEM is currently not assumed to retrieve 0 filled space, */ +/* though we should perhaps take advantage of the case in which */ +/* does. */ +# ifdef PCR + char * real_malloc(); +# define GET_MEM(bytes) HBLKPTR(real_malloc((size_t)bytes + GC_page_size) \ + + GC_page_size-1) +# else +# ifdef OS2 + void * os2_alloc(size_t bytes); +# define GET_MEM(bytes) HBLKPTR((ptr_t)os2_alloc((size_t)bytes \ + + GC_page_size) \ + + GC_page_size-1) +# else +# if defined(AMIGA) || defined(NEXT) || defined(MACOSX) || defined(DOS4GW) +# define GET_MEM(bytes) HBLKPTR((size_t) \ + calloc(1, (size_t)bytes + GC_page_size) \ + + GC_page_size-1) +# else +# ifdef MSWIN32 + extern ptr_t GC_win32_get_mem(); +# define GET_MEM(bytes) (struct hblk *)GC_win32_get_mem(bytes) +# else +# ifdef MACOS +# if defined(USE_TEMPORARY_MEMORY) + extern Ptr GC_MacTemporaryNewPtr(size_t size, + Boolean clearMemory); +# define GET_MEM(bytes) HBLKPTR( \ + GC_MacTemporaryNewPtr(bytes + GC_page_size, true) \ + + GC_page_size-1) +# else +# define GET_MEM(bytes) HBLKPTR( \ + NewPtrClear(bytes + GC_page_size) + GC_page_size-1) +# endif +# else + extern ptr_t GC_unix_get_mem(); +# define GET_MEM(bytes) (struct hblk *)GC_unix_get_mem(bytes) +# endif +# endif +# endif +# endif +# endif + +/* + * Mutual exclusion between allocator/collector routines. + * Needed if there is more than one allocator thread. + * FASTLOCK() is assumed to try to acquire the lock in a cheap and + * dirty way that is acceptable for a few instructions, e.g. by + * inhibiting preemption. This is assumed to have succeeded only + * if a subsequent call to FASTLOCK_SUCCEEDED() returns TRUE. + * FASTUNLOCK() is called whether or not FASTLOCK_SUCCEEDED(). + * If signals cannot be tolerated with the FASTLOCK held, then + * FASTLOCK should disable signals. The code executed under + * FASTLOCK is otherwise immune to interruption, provided it is + * not restarted. + * DCL_LOCK_STATE declares any local variables needed by LOCK and UNLOCK + * and/or DISABLE_SIGNALS and ENABLE_SIGNALS and/or FASTLOCK. + * (There is currently no equivalent for FASTLOCK.) + */ +# ifdef THREADS +# ifdef PCR_OBSOLETE /* Faster, but broken with multiple lwp's */ +# include "th/PCR_Th.h" +# include "th/PCR_ThCrSec.h" + extern struct PCR_Th_MLRep GC_allocate_ml; +# define DCL_LOCK_STATE PCR_sigset_t GC_old_sig_mask +# define LOCK() PCR_Th_ML_Acquire(&GC_allocate_ml) +# define UNLOCK() PCR_Th_ML_Release(&GC_allocate_ml) +# define FASTLOCK() PCR_ThCrSec_EnterSys() + /* Here we cheat (a lot): */ +# define FASTLOCK_SUCCEEDED() (*(int *)(&GC_allocate_ml) == 0) + /* TRUE if nobody currently holds the lock */ +# define FASTUNLOCK() PCR_ThCrSec_ExitSys() +# endif +# ifdef PCR +# include <base/PCR_Base.h> +# include <th/PCR_Th.h> + extern PCR_Th_ML GC_allocate_ml; +# define DCL_LOCK_STATE \ + PCR_ERes GC_fastLockRes; PCR_sigset_t GC_old_sig_mask +# define LOCK() PCR_Th_ML_Acquire(&GC_allocate_ml) +# define UNLOCK() PCR_Th_ML_Release(&GC_allocate_ml) +# define FASTLOCK() (GC_fastLockRes = PCR_Th_ML_Try(&GC_allocate_ml)) +# define FASTLOCK_SUCCEEDED() (GC_fastLockRes == PCR_ERes_okay) +# define FASTUNLOCK() {\ + if( FASTLOCK_SUCCEEDED() ) PCR_Th_ML_Release(&GC_allocate_ml); } +# endif +# ifdef SRC_M3 + extern word RT0u__inCritical; +# define LOCK() RT0u__inCritical++ +# define UNLOCK() RT0u__inCritical-- +# endif +# ifdef SOLARIS_THREADS +# include <thread.h> +# include <signal.h> + extern mutex_t GC_allocate_ml; +# define LOCK() mutex_lock(&GC_allocate_ml); +# define UNLOCK() mutex_unlock(&GC_allocate_ml); +# endif +# ifdef LINUX_THREADS +# include <pthread.h> +# ifdef __i386__ + inline static int GC_test_and_set(volatile unsigned int *addr) { + int oldval; + /* Note: the "xchg" instruction does not need a "lock" prefix */ + __asm__ __volatile__("xchgl %0, %1" + : "=r"(oldval), "=m"(*(addr)) + : "0"(1), "m"(*(addr))); + return oldval; + } +# else + -- > Need implementation of GC_test_and_set() +# endif +# define GC_clear(addr) (*(addr) = 0) + + extern volatile unsigned int GC_allocate_lock; + /* This is not a mutex because mutexes that obey the (optional) */ + /* POSIX scheduling rules are subject to convoys in high contention */ + /* applications. This is basically a spin lock. */ + extern pthread_t GC_lock_holder; + extern void GC_lock(void); + /* Allocation lock holder. Only set if acquired by client through */ + /* GC_call_with_alloc_lock. */ +# define SET_LOCK_HOLDER() GC_lock_holder = pthread_self() +# define NO_THREAD (pthread_t)(-1) +# define UNSET_LOCK_HOLDER() GC_lock_holder = NO_THREAD +# define I_HOLD_LOCK() (pthread_equal(GC_lock_holder, pthread_self())) +# ifdef UNDEFINED +# define LOCK() pthread_mutex_lock(&GC_allocate_ml) +# define UNLOCK() pthread_mutex_unlock(&GC_allocate_ml) +# else +# define LOCK() \ + { if (GC_test_and_set(&GC_allocate_lock)) GC_lock(); } +# define UNLOCK() \ + GC_clear(&GC_allocate_lock) +# endif + extern GC_bool GC_collecting; +# define ENTER_GC() \ + { \ + GC_collecting = 1; \ + } +# define EXIT_GC() GC_collecting = 0; +# endif /* LINUX_THREADS */ +# if defined(IRIX_THREADS) || defined(IRIX_JDK_THREADS) +# include <pthread.h> +# include <mutex.h> + +# if __mips < 3 || !(defined (_ABIN32) || defined(_ABI64)) \ + || !defined(_COMPILER_VERSION) || _COMPILER_VERSION < 700 +# define GC_test_and_set(addr, v) test_and_set(addr,v) +# else +# define GC_test_and_set(addr, v) __test_and_set(addr,v) +# endif + extern unsigned long GC_allocate_lock; + /* This is not a mutex because mutexes that obey the (optional) */ + /* POSIX scheduling rules are subject to convoys in high contention */ + /* applications. This is basically a spin lock. */ + extern pthread_t GC_lock_holder; + extern void GC_lock(void); + /* Allocation lock holder. Only set if acquired by client through */ + /* GC_call_with_alloc_lock. */ +# define SET_LOCK_HOLDER() GC_lock_holder = pthread_self() +# define NO_THREAD (pthread_t)(-1) +# define UNSET_LOCK_HOLDER() GC_lock_holder = NO_THREAD +# define I_HOLD_LOCK() (pthread_equal(GC_lock_holder, pthread_self())) +# ifdef UNDEFINED +# define LOCK() pthread_mutex_lock(&GC_allocate_ml) +# define UNLOCK() pthread_mutex_unlock(&GC_allocate_ml) +# else +# define LOCK() { if (GC_test_and_set(&GC_allocate_lock, 1)) GC_lock(); } +# if __mips >= 3 && (defined (_ABIN32) || defined(_ABI64)) \ + && defined(_COMPILER_VERSION) && _COMPILER_VERSION >= 700 +# define UNLOCK() __lock_release(&GC_allocate_lock) +# else + /* The function call in the following should prevent the */ + /* compiler from moving assignments to below the UNLOCK. */ + /* This is probably not necessary for ucode or gcc 2.8. */ + /* It may be necessary for Ragnarok and future gcc */ + /* versions. */ +# define UNLOCK() { GC_noop1(&GC_allocate_lock); \ + *(volatile unsigned long *)(&GC_allocate_lock) = 0; } +# endif +# endif + extern GC_bool GC_collecting; +# define ENTER_GC() \ + { \ + GC_collecting = 1; \ + } +# define EXIT_GC() GC_collecting = 0; +# endif /* IRIX_THREADS || IRIX_JDK_THREADS */ +# ifdef WIN32_THREADS +# include <windows.h> + GC_API CRITICAL_SECTION GC_allocate_ml; +# define LOCK() EnterCriticalSection(&GC_allocate_ml); +# define UNLOCK() LeaveCriticalSection(&GC_allocate_ml); +# endif +# ifndef SET_LOCK_HOLDER +# define SET_LOCK_HOLDER() +# define UNSET_LOCK_HOLDER() +# define I_HOLD_LOCK() FALSE + /* Used on platforms were locks can be reacquired, */ + /* so it doesn't matter if we lie. */ +# endif +# else +# define LOCK() +# define UNLOCK() +# endif +# ifndef SET_LOCK_HOLDER +# define SET_LOCK_HOLDER() +# define UNSET_LOCK_HOLDER() +# define I_HOLD_LOCK() FALSE + /* Used on platforms were locks can be reacquired, */ + /* so it doesn't matter if we lie. */ +# endif +# ifndef ENTER_GC +# define ENTER_GC() +# define EXIT_GC() +# endif + +# ifndef DCL_LOCK_STATE +# define DCL_LOCK_STATE +# endif +# ifndef FASTLOCK +# define FASTLOCK() LOCK() +# define FASTLOCK_SUCCEEDED() TRUE +# define FASTUNLOCK() UNLOCK() +# endif + +/* Delay any interrupts or signals that may abort this thread. Data */ +/* structures are in a consistent state outside this pair of calls. */ +/* ANSI C allows both to be empty (though the standard isn't very */ +/* clear on that point). Standard malloc implementations are usually */ +/* neither interruptable nor thread-safe, and thus correspond to */ +/* empty definitions. */ +# ifdef PCR +# define DISABLE_SIGNALS() \ + PCR_Th_SetSigMask(PCR_allSigsBlocked,&GC_old_sig_mask) +# define ENABLE_SIGNALS() \ + PCR_Th_SetSigMask(&GC_old_sig_mask, NIL) +# else +# if defined(SRC_M3) || defined(AMIGA) || defined(SOLARIS_THREADS) \ + || defined(MSWIN32) || defined(MACOS) || defined(DJGPP) \ + || defined(NO_SIGNALS) || defined(IRIX_THREADS) \ + || defined(IRIX_JDK_THREADS) || defined(LINUX_THREADS) + /* Also useful for debugging. */ + /* Should probably use thr_sigsetmask for SOLARIS_THREADS. */ +# define DISABLE_SIGNALS() +# define ENABLE_SIGNALS() +# else +# define DISABLE_SIGNALS() GC_disable_signals() + void GC_disable_signals(); +# define ENABLE_SIGNALS() GC_enable_signals() + void GC_enable_signals(); +# endif +# endif + +/* + * Stop and restart mutator threads. + */ +# ifdef PCR +# include "th/PCR_ThCtl.h" +# define STOP_WORLD() \ + PCR_ThCtl_SetExclusiveMode(PCR_ThCtl_ExclusiveMode_stopNormal, \ + PCR_allSigsBlocked, \ + PCR_waitForever) +# define START_WORLD() \ + PCR_ThCtl_SetExclusiveMode(PCR_ThCtl_ExclusiveMode_null, \ + PCR_allSigsBlocked, \ + PCR_waitForever); +# else +# if defined(SOLARIS_THREADS) || defined(WIN32_THREADS) \ + || defined(IRIX_THREADS) || defined(LINUX_THREADS) \ + || defined(IRIX_JDK_THREADS) + void GC_stop_world(); + void GC_start_world(); +# define STOP_WORLD() GC_stop_world() +# define START_WORLD() GC_start_world() +# else +# define STOP_WORLD() +# define START_WORLD() +# endif +# endif + +/* Abandon ship */ +# ifdef PCR +# define ABORT(s) PCR_Base_Panic(s) +# else +# ifdef SMALL_CONFIG +# define ABORT(msg) abort(); +# else + GC_API void GC_abort(); +# define ABORT(msg) GC_abort(msg); +# endif +# endif + +/* Exit abnormally, but without making a mess (e.g. out of memory) */ +# ifdef PCR +# define EXIT() PCR_Base_Exit(1,PCR_waitForever) +# else +# define EXIT() (void)exit(1) +# endif + +/* Print warning message, e.g. almost out of memory. */ +# define WARN(msg,arg) (*GC_current_warn_proc)(msg, (GC_word)(arg)) +extern GC_warn_proc GC_current_warn_proc; + +/*********************************/ +/* */ +/* Word-size-dependent defines */ +/* */ +/*********************************/ + +#if CPP_WORDSZ == 32 +# define WORDS_TO_BYTES(x) ((x)<<2) +# define BYTES_TO_WORDS(x) ((x)>>2) +# define LOGWL ((word)5) /* log[2] of CPP_WORDSZ */ +# define modWORDSZ(n) ((n) & 0x1f) /* n mod size of word */ +# if ALIGNMENT != 4 +# define UNALIGNED +# endif +#endif + +#if CPP_WORDSZ == 64 +# define WORDS_TO_BYTES(x) ((x)<<3) +# define BYTES_TO_WORDS(x) ((x)>>3) +# define LOGWL ((word)6) /* log[2] of CPP_WORDSZ */ +# define modWORDSZ(n) ((n) & 0x3f) /* n mod size of word */ +# if ALIGNMENT != 8 +# define UNALIGNED +# endif +#endif + +#define WORDSZ ((word)CPP_WORDSZ) +#define SIGNB ((word)1 << (WORDSZ-1)) +#define BYTES_PER_WORD ((word)(sizeof (word))) +#define ONES ((word)(-1)) +#define divWORDSZ(n) ((n) >> LOGWL) /* divide n by size of word */ + +/*********************/ +/* */ +/* Size Parameters */ +/* */ +/*********************/ + +/* heap block size, bytes. Should be power of 2 */ + +#ifndef HBLKSIZE +# ifdef SMALL_CONFIG +# define CPP_LOG_HBLKSIZE 10 +# else +# if CPP_WORDSZ == 32 +# define CPP_LOG_HBLKSIZE 12 +# else +# define CPP_LOG_HBLKSIZE 13 +# endif +# endif +#else +# if HBLKSIZE == 512 +# define CPP_LOG_HBLKSIZE 9 +# endif +# if HBLKSIZE == 1024 +# define CPP_LOG_HBLKSIZE 10 +# endif +# if HBLKSIZE == 2048 +# define CPP_LOG_HBLKSIZE 11 +# endif +# if HBLKSIZE == 4096 +# define CPP_LOG_HBLKSIZE 12 +# endif +# if HBLKSIZE == 8192 +# define CPP_LOG_HBLKSIZE 13 +# endif +# if HBLKSIZE == 16384 +# define CPP_LOG_HBLKSIZE 14 +# endif +# ifndef CPP_LOG_HBLKSIZE + --> fix HBLKSIZE +# endif +# undef HBLKSIZE +#endif +# define CPP_HBLKSIZE (1 << CPP_LOG_HBLKSIZE) +# define LOG_HBLKSIZE ((word)CPP_LOG_HBLKSIZE) +# define HBLKSIZE ((word)CPP_HBLKSIZE) + + +/* max size objects supported by freelist (larger objects may be */ +/* allocated, but less efficiently) */ + +#define CPP_MAXOBJSZ BYTES_TO_WORDS(CPP_HBLKSIZE/2) +#define MAXOBJSZ ((word)CPP_MAXOBJSZ) + +# define divHBLKSZ(n) ((n) >> LOG_HBLKSIZE) + +# define HBLK_PTR_DIFF(p,q) divHBLKSZ((ptr_t)p - (ptr_t)q) + /* Equivalent to subtracting 2 hblk pointers. */ + /* We do it this way because a compiler should */ + /* find it hard to use an integer division */ + /* instead of a shift. The bundled SunOS 4.1 */ + /* o.w. sometimes pessimizes the subtraction to */ + /* involve a call to .div. */ + +# define modHBLKSZ(n) ((n) & (HBLKSIZE-1)) + +# define HBLKPTR(objptr) ((struct hblk *)(((word) (objptr)) & ~(HBLKSIZE-1))) + +# define HBLKDISPL(objptr) (((word) (objptr)) & (HBLKSIZE-1)) + +/* Round up byte allocation requests to integral number of words, etc. */ +# ifdef ADD_BYTE_AT_END +# define ROUNDED_UP_WORDS(n) BYTES_TO_WORDS((n) + WORDS_TO_BYTES(1)) +# ifdef ALIGN_DOUBLE +# define ALIGNED_WORDS(n) (BYTES_TO_WORDS((n) + WORDS_TO_BYTES(2)) & ~1) +# else +# define ALIGNED_WORDS(n) ROUNDED_UP_WORDS(n) +# endif +# define SMALL_OBJ(bytes) ((bytes) < WORDS_TO_BYTES(MAXOBJSZ)) +# define ADD_SLOP(bytes) ((bytes)+1) +# else +# define ROUNDED_UP_WORDS(n) BYTES_TO_WORDS((n) + (WORDS_TO_BYTES(1) - 1)) +# ifdef ALIGN_DOUBLE +# define ALIGNED_WORDS(n) \ + (BYTES_TO_WORDS((n) + WORDS_TO_BYTES(2) - 1) & ~1) +# else +# define ALIGNED_WORDS(n) ROUNDED_UP_WORDS(n) +# endif +# define SMALL_OBJ(bytes) ((bytes) <= WORDS_TO_BYTES(MAXOBJSZ)) +# define ADD_SLOP(bytes) (bytes) +# endif + + +/* + * Hash table representation of sets of pages. This assumes it is + * OK to add spurious entries to sets. + * Used by black-listing code, and perhaps by dirty bit maintenance code. + */ + +# ifdef LARGE_CONFIG +# define LOG_PHT_ENTRIES 17 +# else +# define LOG_PHT_ENTRIES 14 /* Collisions are likely if heap grows */ + /* to more than 16K hblks = 64MB. */ + /* Each hash table occupies 2K bytes. */ +# endif +# define PHT_ENTRIES ((word)1 << LOG_PHT_ENTRIES) +# define PHT_SIZE (PHT_ENTRIES >> LOGWL) +typedef word page_hash_table[PHT_SIZE]; + +# define PHT_HASH(addr) ((((word)(addr)) >> LOG_HBLKSIZE) & (PHT_ENTRIES - 1)) + +# define get_pht_entry_from_index(bl, index) \ + (((bl)[divWORDSZ(index)] >> modWORDSZ(index)) & 1) +# define set_pht_entry_from_index(bl, index) \ + (bl)[divWORDSZ(index)] |= (word)1 << modWORDSZ(index) +# define clear_pht_entry_from_index(bl, index) \ + (bl)[divWORDSZ(index)] &= ~((word)1 << modWORDSZ(index)) + + + +/********************************************/ +/* */ +/* H e a p B l o c k s */ +/* */ +/********************************************/ + +/* heap block header */ +#define HBLKMASK (HBLKSIZE-1) + +#define BITS_PER_HBLK (HBLKSIZE * 8) + +#define MARK_BITS_PER_HBLK (BITS_PER_HBLK/CPP_WORDSZ) + /* upper bound */ + /* We allocate 1 bit/word. Only the first word */ + /* in each object is actually marked. */ + +# ifdef ALIGN_DOUBLE +# define MARK_BITS_SZ (((MARK_BITS_PER_HBLK + 2*CPP_WORDSZ - 1) \ + / (2*CPP_WORDSZ))*2) +# else +# define MARK_BITS_SZ ((MARK_BITS_PER_HBLK + CPP_WORDSZ - 1)/CPP_WORDSZ) +# endif + /* Upper bound on number of mark words per heap block */ + +struct hblkhdr { + word hb_sz; /* If in use, size in words, of objects in the block. */ + /* if free, the size in bytes of the whole block */ + struct hblk * hb_next; /* Link field for hblk free list */ + /* and for lists of chunks waiting to be */ + /* reclaimed. */ + struct hblk * hb_prev; /* Backwards link for free list. */ + word hb_descr; /* object descriptor for marking. See */ + /* mark.h. */ + char* hb_map; /* A pointer to a pointer validity map of the block. */ + /* See GC_obj_map. */ + /* Valid for all blocks with headers. */ + /* Free blocks point to GC_invalid_map. */ + unsigned char hb_obj_kind; + /* Kind of objects in the block. Each kind */ + /* identifies a mark procedure and a set of */ + /* list headers. Sometimes called regions. */ + unsigned char hb_flags; +# define IGNORE_OFF_PAGE 1 /* Ignore pointers that do not */ + /* point to the first page of */ + /* this object. */ +# define WAS_UNMAPPED 2 /* This is a free block, which has */ + /* been unmapped from the address */ + /* space. */ + /* GC_remap must be invoked on it */ + /* before it can be reallocated. */ + /* Only set with USE_MUNMAP. */ + unsigned short hb_last_reclaimed; + /* Value of GC_gc_no when block was */ + /* last allocated or swept. May wrap. */ + /* For a free block, this is maintained */ + /* unly for USE_MUNMAP, and indicates */ + /* when the header was allocated, or */ + /* when the size of the block last */ + /* changed. */ + word hb_marks[MARK_BITS_SZ]; + /* Bit i in the array refers to the */ + /* object starting at the ith word (header */ + /* INCLUDED) in the heap block. */ + /* The lsb of word 0 is numbered 0. */ +}; + +/* heap block body */ + +# define DISCARD_WORDS 0 + /* Number of words to be dropped at the beginning of each block */ + /* Must be a multiple of WORDSZ. May reasonably be nonzero */ + /* on machines that don't guarantee longword alignment of */ + /* pointers, so that the number of false hits is minimized. */ + /* 0 and WORDSZ are probably the only reasonable values. */ + +# define BODY_SZ ((HBLKSIZE-WORDS_TO_BYTES(DISCARD_WORDS))/sizeof(word)) + +struct hblk { +# if (DISCARD_WORDS != 0) + word garbage[DISCARD_WORDS]; +# endif + word hb_body[BODY_SZ]; +}; + +# define HDR_WORDS ((word)DISCARD_WORDS) +# define HDR_BYTES ((word)WORDS_TO_BYTES(DISCARD_WORDS)) + +# define OBJ_SZ_TO_BLOCKS(sz) \ + divHBLKSZ(HDR_BYTES + WORDS_TO_BYTES(sz) + HBLKSIZE-1) + /* Size of block (in units of HBLKSIZE) needed to hold objects of */ + /* given sz (in words). */ + +/* Object free list link */ +# define obj_link(p) (*(ptr_t *)(p)) + +/* The type of mark procedures. This really belongs in gc_mark.h. */ +/* But we put it here, so that we can avoid scanning the mark proc */ +/* table. */ +typedef struct ms_entry * (*mark_proc)(/* word * addr, mark_stack_ptr, + mark_stack_limit, env */); +# define LOG_MAX_MARK_PROCS 6 +# define MAX_MARK_PROCS (1 << LOG_MAX_MARK_PROCS) + +/* Root sets. Logically private to mark_rts.c. But we don't want the */ +/* tables scanned, so we put them here. */ +/* MAX_ROOT_SETS is the maximum number of ranges that can be */ +/* registered as static roots. */ +# ifdef LARGE_CONFIG +# define MAX_ROOT_SETS 4096 +# else +# ifdef PCR +# define MAX_ROOT_SETS 1024 +# else +# ifdef MSWIN32 +# define MAX_ROOT_SETS 512 + /* Under NT, we add only written pages, which can result */ + /* in many small root sets. */ +# else +# define MAX_ROOT_SETS 64 +# endif +# endif +# endif + +# define MAX_EXCLUSIONS (MAX_ROOT_SETS/4) +/* Maximum number of segments that can be excluded from root sets. */ + +/* + * Data structure for excluded static roots. + */ +struct exclusion { + ptr_t e_start; + ptr_t e_end; +}; + +/* Data structure for list of root sets. */ +/* We keep a hash table, so that we can filter out duplicate additions. */ +/* Under Win32, we need to do a better job of filtering overlaps, so */ +/* we resort to sequential search, and pay the price. */ +struct roots { + ptr_t r_start; + ptr_t r_end; +# ifndef MSWIN32 + struct roots * r_next; +# endif + GC_bool r_tmp; + /* Delete before registering new dynamic libraries */ +}; + +#ifndef MSWIN32 + /* Size of hash table index to roots. */ +# define LOG_RT_SIZE 6 +# define RT_SIZE (1 << LOG_RT_SIZE) /* Power of 2, may be != MAX_ROOT_SETS */ +#endif + +/* Lists of all heap blocks and free lists */ +/* as well as other random data structures */ +/* that should not be scanned by the */ +/* collector. */ +/* These are grouped together in a struct */ +/* so that they can be easily skipped by the */ +/* GC_mark routine. */ +/* The ordering is weird to make GC_malloc */ +/* faster by keeping the important fields */ +/* sufficiently close together that a */ +/* single load of a base register will do. */ +/* Scalars that could easily appear to */ +/* be pointers are also put here. */ +/* The main fields should precede any */ +/* conditionally included fields, so that */ +/* gc_inl.h will work even if a different set */ +/* of macros is defined when the client is */ +/* compiled. */ + +struct _GC_arrays { + word _heapsize; + word _max_heapsize; + ptr_t _last_heap_addr; + ptr_t _prev_heap_addr; + word _large_free_bytes; + /* Total bytes contained in blocks on large object free */ + /* list. */ + word _words_allocd_before_gc; + /* Number of words allocated before this */ + /* collection cycle. */ + word _words_allocd; + /* Number of words allocated during this collection cycle */ + word _words_wasted; + /* Number of words wasted due to internal fragmentation */ + /* in large objects, or due to dropping blacklisted */ + /* blocks, since last gc. Approximate. */ + word _words_finalized; + /* Approximate number of words in objects (and headers) */ + /* That became ready for finalization in the last */ + /* collection. */ + word _non_gc_bytes_at_gc; + /* Number of explicitly managed bytes of storage */ + /* at last collection. */ + word _mem_freed; + /* Number of explicitly deallocated words of memory */ + /* since last collection. */ + mark_proc _mark_procs[MAX_MARK_PROCS]; + /* Table of user-defined mark procedures. There is */ + /* a small number of these, which can be referenced */ + /* by DS_PROC mark descriptors. See gc_mark.h. */ + ptr_t _objfreelist[MAXOBJSZ+1]; + /* free list for objects */ + ptr_t _aobjfreelist[MAXOBJSZ+1]; + /* free list for atomic objs */ + + ptr_t _uobjfreelist[MAXOBJSZ+1]; + /* uncollectable but traced objs */ + /* objects on this and auobjfreelist */ + /* are always marked, except during */ + /* garbage collections. */ +# ifdef ATOMIC_UNCOLLECTABLE + ptr_t _auobjfreelist[MAXOBJSZ+1]; +# endif + /* uncollectable but traced objs */ + +# ifdef GATHERSTATS + word _composite_in_use; + /* Number of words in accessible composite */ + /* objects. */ + word _atomic_in_use; + /* Number of words in accessible atomic */ + /* objects. */ +# endif +# ifdef USE_MUNMAP + word _unmapped_bytes; +# endif +# ifdef MERGE_SIZES + unsigned _size_map[WORDS_TO_BYTES(MAXOBJSZ+1)]; + /* Number of words to allocate for a given allocation request in */ + /* bytes. */ +# endif + +# ifdef STUBBORN_ALLOC + ptr_t _sobjfreelist[MAXOBJSZ+1]; +# endif + /* free list for immutable objects */ + ptr_t _obj_map[MAXOBJSZ+1]; + /* If not NIL, then a pointer to a map of valid */ + /* object addresses. _obj_map[sz][i] is j if the */ + /* address block_start+i is a valid pointer */ + /* to an object at */ + /* block_start+i&~3 - WORDS_TO_BYTES(j). */ + /* (If ALL_INTERIOR_POINTERS is defined, then */ + /* instead ((short *)(hb_map[sz])[i] is j if */ + /* block_start+WORDS_TO_BYTES(i) is in the */ + /* interior of an object starting at */ + /* block_start+WORDS_TO_BYTES(i-j)). */ + /* It is OBJ_INVALID if */ + /* block_start+WORDS_TO_BYTES(i) is not */ + /* valid as a pointer to an object. */ + /* We assume all values of j <= OBJ_INVALID. */ + /* The zeroth entry corresponds to large objects.*/ +# ifdef ALL_INTERIOR_POINTERS +# define map_entry_type short +# define OBJ_INVALID 0x7fff +# define MAP_ENTRY(map, bytes) \ + (((map_entry_type *)(map))[BYTES_TO_WORDS(bytes)]) +# define MAP_ENTRIES BYTES_TO_WORDS(HBLKSIZE) +# define MAP_SIZE (MAP_ENTRIES * sizeof(map_entry_type)) +# define OFFSET_VALID(displ) TRUE +# define CPP_MAX_OFFSET (HBLKSIZE - HDR_BYTES - 1) +# define MAX_OFFSET ((word)CPP_MAX_OFFSET) +# else +# define map_entry_type char +# define OBJ_INVALID 0x7f +# define MAP_ENTRY(map, bytes) \ + (map)[bytes] +# define MAP_ENTRIES HBLKSIZE +# define MAP_SIZE MAP_ENTRIES +# define CPP_MAX_OFFSET (WORDS_TO_BYTES(OBJ_INVALID) - 1) +# define MAX_OFFSET ((word)CPP_MAX_OFFSET) +# define VALID_OFFSET_SZ \ + (CPP_MAX_OFFSET > WORDS_TO_BYTES(CPP_MAXOBJSZ)? \ + CPP_MAX_OFFSET+1 \ + : WORDS_TO_BYTES(CPP_MAXOBJSZ)+1) + char _valid_offsets[VALID_OFFSET_SZ]; + /* GC_valid_offsets[i] == TRUE ==> i */ + /* is registered as a displacement. */ +# define OFFSET_VALID(displ) GC_valid_offsets[displ] + char _modws_valid_offsets[sizeof(word)]; + /* GC_valid_offsets[i] ==> */ + /* GC_modws_valid_offsets[i%sizeof(word)] */ +# endif +# ifdef STUBBORN_ALLOC + page_hash_table _changed_pages; + /* Stubborn object pages that were changes since last call to */ + /* GC_read_changed. */ + page_hash_table _prev_changed_pages; + /* Stubborn object pages that were changes before last call to */ + /* GC_read_changed. */ +# endif +# if defined(PROC_VDB) || defined(MPROTECT_VDB) + page_hash_table _grungy_pages; /* Pages that were dirty at last */ + /* GC_read_dirty. */ +# endif +# ifdef MPROTECT_VDB + VOLATILE page_hash_table _dirty_pages; + /* Pages dirtied since last GC_read_dirty. */ +# endif +# ifdef PROC_VDB + page_hash_table _written_pages; /* Pages ever dirtied */ +# endif +# ifdef LARGE_CONFIG +# if CPP_WORDSZ > 32 +# define MAX_HEAP_SECTS 4096 /* overflows at roughly 64 GB */ +# else +# define MAX_HEAP_SECTS 768 /* Separately added heap sections. */ +# endif +# else +# define MAX_HEAP_SECTS 256 +# endif + struct HeapSect { + ptr_t hs_start; word hs_bytes; + } _heap_sects[MAX_HEAP_SECTS]; +# ifdef MSWIN32 + ptr_t _heap_bases[MAX_HEAP_SECTS]; + /* Start address of memory regions obtained from kernel. */ +# endif + struct roots _static_roots[MAX_ROOT_SETS]; +# ifndef MSWIN32 + struct roots * _root_index[RT_SIZE]; +# endif + struct exclusion _excl_table[MAX_EXCLUSIONS]; + /* Block header index; see gc_headers.h */ + bottom_index * _all_nils; + bottom_index * _top_index [TOP_SZ]; +#ifdef SAVE_CALL_CHAIN + struct callinfo _last_stack[NFRAMES]; /* Stack at last garbage collection.*/ + /* Useful for debugging mysterious */ + /* object disappearances. */ + /* In the multithreaded case, we */ + /* currently only save the calling */ + /* stack. */ +#endif +}; + +GC_API GC_FAR struct _GC_arrays GC_arrays; + +# define GC_objfreelist GC_arrays._objfreelist +# define GC_aobjfreelist GC_arrays._aobjfreelist +# define GC_uobjfreelist GC_arrays._uobjfreelist +# ifdef ATOMIC_UNCOLLECTABLE +# define GC_auobjfreelist GC_arrays._auobjfreelist +# endif +# define GC_sobjfreelist GC_arrays._sobjfreelist +# define GC_valid_offsets GC_arrays._valid_offsets +# define GC_modws_valid_offsets GC_arrays._modws_valid_offsets +# ifdef STUBBORN_ALLOC +# define GC_changed_pages GC_arrays._changed_pages +# define GC_prev_changed_pages GC_arrays._prev_changed_pages +# endif +# define GC_obj_map GC_arrays._obj_map +# define GC_last_heap_addr GC_arrays._last_heap_addr +# define GC_prev_heap_addr GC_arrays._prev_heap_addr +# define GC_words_allocd GC_arrays._words_allocd +# define GC_words_wasted GC_arrays._words_wasted +# define GC_large_free_bytes GC_arrays._large_free_bytes +# define GC_words_finalized GC_arrays._words_finalized +# define GC_non_gc_bytes_at_gc GC_arrays._non_gc_bytes_at_gc +# define GC_mem_freed GC_arrays._mem_freed +# define GC_mark_procs GC_arrays._mark_procs +# define GC_heapsize GC_arrays._heapsize +# define GC_max_heapsize GC_arrays._max_heapsize +# define GC_words_allocd_before_gc GC_arrays._words_allocd_before_gc +# define GC_heap_sects GC_arrays._heap_sects +# define GC_last_stack GC_arrays._last_stack +# ifdef USE_MUNMAP +# define GC_unmapped_bytes GC_arrays._unmapped_bytes +# endif +# ifdef MSWIN32 +# define GC_heap_bases GC_arrays._heap_bases +# endif +# define GC_static_roots GC_arrays._static_roots +# define GC_root_index GC_arrays._root_index +# define GC_excl_table GC_arrays._excl_table +# define GC_all_nils GC_arrays._all_nils +# define GC_top_index GC_arrays._top_index +# if defined(PROC_VDB) || defined(MPROTECT_VDB) +# define GC_grungy_pages GC_arrays._grungy_pages +# endif +# ifdef MPROTECT_VDB +# define GC_dirty_pages GC_arrays._dirty_pages +# endif +# ifdef PROC_VDB +# define GC_written_pages GC_arrays._written_pages +# endif +# ifdef GATHERSTATS +# define GC_composite_in_use GC_arrays._composite_in_use +# define GC_atomic_in_use GC_arrays._atomic_in_use +# endif +# ifdef MERGE_SIZES +# define GC_size_map GC_arrays._size_map +# endif + +# define beginGC_arrays ((ptr_t)(&GC_arrays)) +# define endGC_arrays (((ptr_t)(&GC_arrays)) + (sizeof GC_arrays)) + +/* Object kinds: */ +# define MAXOBJKINDS 16 + +extern struct obj_kind { + ptr_t *ok_freelist; /* Array of free listheaders for this kind of object */ + /* Point either to GC_arrays or to storage allocated */ + /* with GC_scratch_alloc. */ + struct hblk **ok_reclaim_list; + /* List headers for lists of blocks waiting to be */ + /* swept. */ + word ok_descriptor; /* Descriptor template for objects in this */ + /* block. */ + GC_bool ok_relocate_descr; + /* Add object size in bytes to descriptor */ + /* template to obtain descriptor. Otherwise */ + /* template is used as is. */ + GC_bool ok_init; /* Clear objects before putting them on the free list. */ +} GC_obj_kinds[MAXOBJKINDS]; + +# define endGC_obj_kinds (((ptr_t)(&GC_obj_kinds)) + (sizeof GC_obj_kinds)) + +# define end_gc_area ((ptr_t)endGC_arrays == (ptr_t)(&GC_obj_kinds) ? \ + endGC_obj_kinds : endGC_arrays) + +/* Predefined kinds: */ +# define PTRFREE 0 +# define NORMAL 1 +# define UNCOLLECTABLE 2 +# ifdef ATOMIC_UNCOLLECTABLE +# define AUNCOLLECTABLE 3 +# define STUBBORN 4 +# define IS_UNCOLLECTABLE(k) (((k) & ~1) == UNCOLLECTABLE) +# else +# define STUBBORN 3 +# define IS_UNCOLLECTABLE(k) ((k) == UNCOLLECTABLE) +# endif + +extern int GC_n_kinds; + +GC_API word GC_fo_entries; + +extern word GC_n_heap_sects; /* Number of separately added heap */ + /* sections. */ + +extern word GC_page_size; + +# ifdef MSWIN32 +extern word GC_n_heap_bases; /* See GC_heap_bases. */ +# endif + +extern word GC_total_stack_black_listed; + /* Number of bytes on stack blacklist. */ + +extern word GC_black_list_spacing; + /* Average number of bytes between blacklisted */ + /* blocks. Approximate. */ + /* Counts only blocks that are */ + /* "stack-blacklisted", i.e. that are */ + /* problematic in the interior of an object. */ + +extern char * GC_invalid_map; + /* Pointer to the nowhere valid hblk map */ + /* Blocks pointing to this map are free. */ + +extern struct hblk * GC_hblkfreelist[]; + /* List of completely empty heap blocks */ + /* Linked through hb_next field of */ + /* header structure associated with */ + /* block. */ + +extern GC_bool GC_is_initialized; /* GC_init() has been run. */ + +extern GC_bool GC_objects_are_marked; /* There are marked objects in */ + /* the heap. */ + +#ifndef SMALL_CONFIG + extern GC_bool GC_incremental; + /* Using incremental/generational collection. */ +#else +# define GC_incremental TRUE + /* Hopefully allow optimizer to remove some code. */ +#endif + +extern GC_bool GC_dirty_maintained; + /* Dirty bits are being maintained, */ + /* either for incremental collection, */ + /* or to limit the root set. */ + +extern word GC_root_size; /* Total size of registered root sections */ + +extern GC_bool GC_debugging_started; /* GC_debug_malloc has been called. */ + +extern ptr_t GC_least_plausible_heap_addr; +extern ptr_t GC_greatest_plausible_heap_addr; + /* Bounds on the heap. Guaranteed valid */ + /* Likely to include future heap expansion. */ + +/* Operations */ +# ifndef abs +# define abs(x) ((x) < 0? (-(x)) : (x)) +# endif + + +/* Marks are in a reserved area in */ +/* each heap block. Each word has one mark bit associated */ +/* with it. Only those corresponding to the beginning of an */ +/* object are used. */ + + +/* Mark bit operations */ + +/* + * Retrieve, set, clear the mark bit corresponding + * to the nth word in a given heap block. + * + * (Recall that bit n corresponds to object beginning at word n + * relative to the beginning of the block, including unused words) + */ + +# define mark_bit_from_hdr(hhdr,n) (((hhdr)->hb_marks[divWORDSZ(n)] \ + >> (modWORDSZ(n))) & (word)1) +# define set_mark_bit_from_hdr(hhdr,n) (hhdr)->hb_marks[divWORDSZ(n)] \ + |= (word)1 << modWORDSZ(n) + +# define clear_mark_bit_from_hdr(hhdr,n) (hhdr)->hb_marks[divWORDSZ(n)] \ + &= ~((word)1 << modWORDSZ(n)) + +/* Important internal collector routines */ + +ptr_t GC_approx_sp(); + +GC_bool GC_should_collect(); +#ifdef PRESERVE_LAST + GC_bool GC_in_last_heap_sect(/* ptr_t */); + /* In last added heap section? If so, avoid breaking up. */ +#endif +void GC_apply_to_all_blocks(/*fn, client_data*/); + /* Invoke fn(hbp, client_data) for each */ + /* allocated heap block. */ +struct hblk * GC_next_used_block(/* struct hblk * h */); + /* Return first in-use block >= h */ +struct hblk * GC_prev_block(/* struct hblk * h */); + /* Return last block <= h. Returned block */ + /* is managed by GC, but may or may not be in */ + /* use. */ +void GC_mark_init(); +void GC_clear_marks(); /* Clear mark bits for all heap objects. */ +void GC_invalidate_mark_state(); /* Tell the marker that marked */ + /* objects may point to unmarked */ + /* ones, and roots may point to */ + /* unmarked objects. */ + /* Reset mark stack. */ +void GC_mark_from_mark_stack(); /* Mark from everything on the mark stack. */ + /* Return after about one pages worth of */ + /* work. */ +GC_bool GC_mark_stack_empty(); +GC_bool GC_mark_some(/* cold_gc_frame */); + /* Perform about one pages worth of marking */ + /* work of whatever kind is needed. Returns */ + /* quickly if no collection is in progress. */ + /* Return TRUE if mark phase finished. */ +void GC_initiate_gc(); /* initiate collection. */ + /* If the mark state is invalid, this */ + /* becomes full colleection. Otherwise */ + /* it's partial. */ +void GC_push_all(/*b,t*/); /* Push everything in a range */ + /* onto mark stack. */ +void GC_push_dirty(/*b,t*/); /* Push all possibly changed */ + /* subintervals of [b,t) onto */ + /* mark stack. */ +#ifndef SMALL_CONFIG + void GC_push_conditional(/* ptr_t b, ptr_t t, GC_bool all*/); +#else +# define GC_push_conditional(b, t, all) GC_push_all(b, t) +#endif + /* Do either of the above, depending */ + /* on the third arg. */ +void GC_push_all_stack(/*b,t*/); /* As above, but consider */ + /* interior pointers as valid */ +void GC_push_all_eager(/*b,t*/); /* Same as GC_push_all_stack, but */ + /* ensures that stack is scanned */ + /* immediately, not just scheduled */ + /* for scanning. */ +#ifndef THREADS + void GC_push_all_stack_partially_eager(/* bottom, top, cold_gc_frame */); + /* Similar to GC_push_all_eager, but only the */ + /* part hotter than cold_gc_frame is scanned */ + /* immediately. Needed to endure that callee- */ + /* save registers are not missed. */ +#else + /* In the threads case, we push part of the current thread stack */ + /* with GC_push_all_eager when we push the registers. This gets the */ + /* callee-save registers that may disappear. The remainder of the */ + /* stacks are scheduled for scanning in *GC_push_other_roots, which */ + /* is thread-package-specific. */ +#endif +void GC_push_current_stack(/* ptr_t cold_gc_frame */); + /* Push enough of the current stack eagerly to */ + /* ensure that callee-save registers saved in */ + /* GC frames are scanned. */ + /* In the non-threads case, schedule entire */ + /* stack for scanning. */ +void GC_push_roots(/* GC_bool all, ptr_t cold_gc_frame */); + /* Push all or dirty roots. */ +extern void (*GC_push_other_roots)(); + /* Push system or application specific roots */ + /* onto the mark stack. In some environments */ + /* (e.g. threads environments) this is */ + /* predfined to be non-zero. A client supplied */ + /* replacement should also call the original */ + /* function. */ +extern void (*GC_start_call_back)(/* void */); + /* Called at start of full collections. */ + /* Not called if 0. Called with allocation */ + /* lock held. */ + /* 0 by default. */ +void GC_push_regs(); /* Push register contents onto mark stack. */ +void GC_remark(); /* Mark from all marked objects. Used */ + /* only if we had to drop something. */ +# if defined(MSWIN32) + void __cdecl GC_push_one(); +# else + void GC_push_one(/*p*/); /* If p points to an object, mark it */ + /* and push contents on the mark stack */ +# endif +void GC_push_one_checked(/*p*/); /* Ditto, omits plausibility test */ +void GC_push_marked(/* struct hblk h, hdr * hhdr */); + /* Push contents of all marked objects in h onto */ + /* mark stack. */ +#ifdef SMALL_CONFIG +# define GC_push_next_marked_dirty(h) GC_push_next_marked(h) +#else + struct hblk * GC_push_next_marked_dirty(/* h */); + /* Invoke GC_push_marked on next dirty block above h. */ + /* Return a pointer just past the end of this block. */ +#endif /* !SMALL_CONFIG */ +struct hblk * GC_push_next_marked(/* h */); + /* Ditto, but also mark from clean pages. */ +struct hblk * GC_push_next_marked_uncollectable(/* h */); + /* Ditto, but mark only from uncollectable pages. */ +GC_bool GC_stopped_mark(); /* Stop world and mark from all roots */ + /* and rescuers. */ +void GC_clear_hdr_marks(/* hhdr */); /* Clear the mark bits in a header */ +void GC_set_hdr_marks(/* hhdr */); /* Set the mark bits in a header */ +void GC_add_roots_inner(); +GC_bool GC_is_static_root(/* ptr_t p */); + /* Is the address p in one of the registered static */ + /* root sections? */ +void GC_register_dynamic_libraries(); + /* Add dynamic library data sections to the root set. */ + +/* Machine dependent startup routines */ +ptr_t GC_get_stack_base(); +void GC_register_data_segments(); + +/* Black listing: */ +void GC_bl_init(); +# ifndef ALL_INTERIOR_POINTERS + void GC_add_to_black_list_normal(/* bits, maybe source */); + /* Register bits as a possible future false */ + /* reference from the heap or static data */ +# ifdef PRINT_BLACK_LIST +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_normal(bits, source) +# else +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_normal(bits) +# endif +# else +# ifdef PRINT_BLACK_LIST +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_stack(bits, source) +# else +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_stack(bits) +# endif +# endif + +void GC_add_to_black_list_stack(/* bits, maybe source */); +struct hblk * GC_is_black_listed(/* h, len */); + /* If there are likely to be false references */ + /* to a block starting at h of the indicated */ + /* length, then return the next plausible */ + /* starting location for h that might avoid */ + /* these false references. */ +void GC_promote_black_lists(); + /* Declare an end to a black listing phase. */ +void GC_unpromote_black_lists(); + /* Approximately undo the effect of the above. */ + /* This actually loses some information, but */ + /* only in a reasonably safe way. */ +word GC_number_stack_black_listed(/*struct hblk *start, struct hblk *endp1 */); + /* Return the number of (stack) blacklisted */ + /* blocks in the range for statistical */ + /* purposes. */ + +ptr_t GC_scratch_alloc(/*bytes*/); + /* GC internal memory allocation for */ + /* small objects. Deallocation is not */ + /* possible. */ + +/* Heap block layout maps: */ +void GC_invalidate_map(/* hdr */); + /* Remove the object map associated */ + /* with the block. This identifies */ + /* the block as invalid to the mark */ + /* routines. */ +GC_bool GC_add_map_entry(/*sz*/); + /* Add a heap block map for objects of */ + /* size sz to obj_map. */ + /* Return FALSE on failure. */ +void GC_register_displacement_inner(/*offset*/); + /* Version of GC_register_displacement */ + /* that assumes lock is already held */ + /* and signals are already disabled. */ + +/* hblk allocation: */ +void GC_new_hblk(/*size_in_words, kind*/); + /* Allocate a new heap block, and build */ + /* a free list in it. */ +struct hblk * GC_allochblk(/*size_in_words, kind*/); + /* Allocate a heap block, clear it if */ + /* for composite objects, inform */ + /* the marker that block is valid */ + /* for objects of indicated size. */ + /* sz < 0 ==> atomic. */ +void GC_freehblk(); /* Deallocate a heap block and mark it */ + /* as invalid. */ + +/* Misc GC: */ +void GC_init_inner(); +GC_bool GC_expand_hp_inner(); +void GC_start_reclaim(/*abort_if_found*/); + /* Restore unmarked objects to free */ + /* lists, or (if abort_if_found is */ + /* TRUE) report them. */ + /* Sweeping of small object pages is */ + /* largely deferred. */ +void GC_continue_reclaim(/*size, kind*/); + /* Sweep pages of the given size and */ + /* kind, as long as possible, and */ + /* as long as the corr. free list is */ + /* empty. */ +void GC_reclaim_or_delete_all(); + /* Arrange for all reclaim lists to be */ + /* empty. Judiciously choose between */ + /* sweeping and discarding each page. */ +GC_bool GC_reclaim_all(/* GC_stop_func f*/); + /* Reclaim all blocks. Abort (in a */ + /* consistent state) if f returns TRUE. */ +GC_bool GC_block_empty(/* hhdr */); /* Block completely unmarked? */ +GC_bool GC_never_stop_func(); /* Returns FALSE. */ +GC_bool GC_try_to_collect_inner(/* GC_stop_func f */); + /* Collect; caller must have acquired */ + /* lock and disabled signals. */ + /* Collection is aborted if f returns */ + /* TRUE. Returns TRUE if it completes */ + /* successfully. */ +# define GC_gcollect_inner() \ + (void) GC_try_to_collect_inner(GC_never_stop_func) +void GC_finish_collection(); /* Finish collection. Mark bits are */ + /* consistent and lock is still held. */ +GC_bool GC_collect_or_expand(/* needed_blocks */); + /* Collect or expand heap in an attempt */ + /* make the indicated number of free */ + /* blocks available. Should be called */ + /* until the blocks are available or */ + /* until it fails by returning FALSE. */ +GC_API void GC_init(); /* Initialize collector. */ +void GC_collect_a_little_inner(/* int n */); + /* Do n units worth of garbage */ + /* collection work, if appropriate. */ + /* A unit is an amount appropriate for */ + /* HBLKSIZE bytes of allocation. */ +ptr_t GC_generic_malloc(/* bytes, kind */); + /* Allocate an object of the given */ + /* kind. By default, there are only */ + /* a few kinds: composite(pointerfree), */ + /* atomic, uncollectable, etc. */ + /* We claim it's possible for clever */ + /* client code that understands GC */ + /* internals to add more, e.g. to */ + /* communicate object layout info */ + /* to the collector. */ +ptr_t GC_generic_malloc_ignore_off_page(/* bytes, kind */); + /* As above, but pointers past the */ + /* first page of the resulting object */ + /* are ignored. */ +ptr_t GC_generic_malloc_inner(/* bytes, kind */); + /* Ditto, but I already hold lock, etc. */ +ptr_t GC_generic_malloc_words_small GC_PROTO((size_t words, int kind)); + /* As above, but size in units of words */ + /* Bypasses MERGE_SIZES. Assumes */ + /* words <= MAXOBJSZ. */ +ptr_t GC_generic_malloc_inner_ignore_off_page(/* bytes, kind */); + /* Allocate an object, where */ + /* the client guarantees that there */ + /* will always be a pointer to the */ + /* beginning of the object while the */ + /* object is live. */ +ptr_t GC_allocobj(/* sz_inn_words, kind */); + /* Make the indicated */ + /* free list nonempty, and return its */ + /* head. */ + +void GC_init_headers(); +GC_bool GC_install_header(/*h*/); + /* Install a header for block h. */ + /* Return FALSE on failure. */ +GC_bool GC_install_counts(/*h, sz*/); + /* Set up forwarding counts for block */ + /* h of size sz. */ + /* Return FALSE on failure. */ +void GC_remove_header(/*h*/); + /* Remove the header for block h. */ +void GC_remove_counts(/*h, sz*/); + /* Remove forwarding counts for h. */ +hdr * GC_find_header(/*p*/); /* Debugging only. */ + +void GC_finalize(); /* Perform all indicated finalization actions */ + /* on unmarked objects. */ + /* Unreachable finalizable objects are enqueued */ + /* for processing by GC_invoke_finalizers. */ + /* Invoked with lock. */ + +void GC_add_to_heap(/*p, bytes*/); + /* Add a HBLKSIZE aligned chunk to the heap. */ + +void GC_print_obj(/* ptr_t p */); + /* P points to somewhere inside an object with */ + /* debugging info. Print a human readable */ + /* description of the object to stderr. */ +extern void (*GC_check_heap)(); + /* Check that all objects in the heap with */ + /* debugging info are intact. Print */ + /* descriptions of any that are not. */ +extern void (*GC_print_heap_obj)(/* ptr_t p */); + /* If possible print s followed by a more */ + /* detailed description of the object */ + /* referred to by p. */ + +/* Memory unmapping: */ +#ifdef USE_MUNMAP + void GC_unmap_old(void); + void GC_merge_unmapped(void); + void GC_unmap(ptr_t start, word bytes); + void GC_remap(ptr_t start, word bytes); + void GC_unmap_gap(ptr_t start1, word bytes1, ptr_t start2, word bytes2); +#endif + +/* Virtual dirty bit implementation: */ +/* Each implementation exports the following: */ +void GC_read_dirty(); /* Retrieve dirty bits. */ +GC_bool GC_page_was_dirty(/* struct hblk * h */); + /* Read retrieved dirty bits. */ +GC_bool GC_page_was_ever_dirty(/* struct hblk * h */); + /* Could the page contain valid heap pointers? */ +void GC_is_fresh(/* struct hblk * h, word number_of_blocks */); + /* Assert the region currently contains no */ + /* valid pointers. */ +void GC_write_hint(/* struct hblk * h */); + /* h is about to be written. */ +void GC_dirty_init(); + +/* Slow/general mark bit manipulation: */ +GC_API GC_bool GC_is_marked(); +void GC_clear_mark_bit(); +void GC_set_mark_bit(); + +/* Stubborn objects: */ +void GC_read_changed(); /* Analogous to GC_read_dirty */ +GC_bool GC_page_was_changed(/* h */); /* Analogous to GC_page_was_dirty */ +void GC_clean_changing_list(); /* Collect obsolete changing list entries */ +void GC_stubborn_init(); + +/* Debugging print routines: */ +void GC_print_block_list(); +void GC_print_hblkfreelist(); +void GC_print_heap_sects(); +void GC_print_static_roots(); +void GC_dump(); + +#ifdef KEEP_BACK_PTRS + void GC_store_back_pointer(ptr_t source, ptr_t dest); + void GC_marked_for_finalization(ptr_t dest); +# define GC_STORE_BACK_PTR(source, dest) GC_store_back_pointer(source, dest) +# define GC_MARKED_FOR_FINALIZATION(dest) GC_marked_for_finalization(dest) +#else +# define GC_STORE_BACK_PTR(source, dest) +# define GC_MARKED_FOR_FINALIZATION(dest) +#endif + +/* Make arguments appear live to compiler */ +# ifdef __WATCOMC__ + void GC_noop(void*, ...); +# else + GC_API void GC_noop(); +# endif + +void GC_noop1(/* word arg */); + +/* Logging and diagnostic output: */ +GC_API void GC_printf GC_PROTO((char * format, long, long, long, long, long, long)); + /* A version of printf that doesn't allocate, */ + /* is restricted to long arguments, and */ + /* (unfortunately) doesn't use varargs for */ + /* portability. Restricted to 6 args and */ + /* 1K total output length. */ + /* (We use sprintf. Hopefully that doesn't */ + /* allocate for long arguments.) */ +# define GC_printf0(f) GC_printf(f, 0l, 0l, 0l, 0l, 0l, 0l) +# define GC_printf1(f,a) GC_printf(f, (long)a, 0l, 0l, 0l, 0l, 0l) +# define GC_printf2(f,a,b) GC_printf(f, (long)a, (long)b, 0l, 0l, 0l, 0l) +# define GC_printf3(f,a,b,c) GC_printf(f, (long)a, (long)b, (long)c, 0l, 0l, 0l) +# define GC_printf4(f,a,b,c,d) GC_printf(f, (long)a, (long)b, (long)c, \ + (long)d, 0l, 0l) +# define GC_printf5(f,a,b,c,d,e) GC_printf(f, (long)a, (long)b, (long)c, \ + (long)d, (long)e, 0l) +# define GC_printf6(f,a,b,c,d,e,g) GC_printf(f, (long)a, (long)b, (long)c, \ + (long)d, (long)e, (long)g) + +void GC_err_printf(/* format, a, b, c, d, e, f */); +# define GC_err_printf0(f) GC_err_puts(f) +# define GC_err_printf1(f,a) GC_err_printf(f, (long)a, 0l, 0l, 0l, 0l, 0l) +# define GC_err_printf2(f,a,b) GC_err_printf(f, (long)a, (long)b, 0l, 0l, 0l, 0l) +# define GC_err_printf3(f,a,b,c) GC_err_printf(f, (long)a, (long)b, (long)c, \ + 0l, 0l, 0l) +# define GC_err_printf4(f,a,b,c,d) GC_err_printf(f, (long)a, (long)b, \ + (long)c, (long)d, 0l, 0l) +# define GC_err_printf5(f,a,b,c,d,e) GC_err_printf(f, (long)a, (long)b, \ + (long)c, (long)d, \ + (long)e, 0l) +# define GC_err_printf6(f,a,b,c,d,e,g) GC_err_printf(f, (long)a, (long)b, \ + (long)c, (long)d, \ + (long)e, (long)g) + /* Ditto, writes to stderr. */ + +void GC_err_puts(/* char *s */); + /* Write s to stderr, don't buffer, don't add */ + /* newlines, don't ... */ + + +# ifdef GC_ASSERTIONS +# define GC_ASSERT(expr) if(!(expr)) {\ + GC_err_printf2("Assertion failure: %s:%ld\n", \ + __FILE__, (unsigned long)__LINE__); \ + ABORT("assertion failure"); } +# else +# define GC_ASSERT(expr) +# endif + +# endif /* GC_PRIVATE_H */ diff --git a/gc/gc_private.h b/gc/gc_private.h new file mode 100644 index 0000000..3dd7c85 --- /dev/null +++ b/gc/gc_private.h @@ -0,0 +1 @@ +# include "gc_priv.h" diff --git a/gc/gc_typed.h b/gc/gc_typed.h new file mode 100644 index 0000000..e4a6b94 --- /dev/null +++ b/gc/gc_typed.h @@ -0,0 +1,91 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright 1996 Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* + * Some simple primitives for allocation with explicit type information. + * Facilities for dynamic type inference may be added later. + * Should be used only for extremely performance critical applications, + * or if conservative collector leakage is otherwise a problem (unlikely). + * Note that this is implemented completely separately from the rest + * of the collector, and is not linked in unless referenced. + * This does not currently support GC_DEBUG in any interesting way. + */ +/* Boehm, May 19, 1994 2:13 pm PDT */ + +#ifndef _GC_TYPED_H +# define _GC_TYPED_H +# ifndef _GC_H +# include "gc.h" +# endif + +typedef GC_word * GC_bitmap; + /* The least significant bit of the first word is one if */ + /* the first word in the object may be a pointer. */ + +# define GC_get_bit(bm, index) \ + (((bm)[divWORDSZ(index)] >> modWORDSZ(index)) & 1) +# define GC_set_bit(bm, index) \ + (bm)[divWORDSZ(index)] |= (word)1 << modWORDSZ(index) + +typedef GC_word GC_descr; + +GC_API GC_descr GC_make_descriptor GC_PROTO((GC_bitmap bm, size_t len)); + /* Return a type descriptor for the object whose layout */ + /* is described by the argument. */ + /* The least significant bit of the first word is one */ + /* if the first word in the object may be a pointer. */ + /* The second argument specifies the number of */ + /* meaningful bits in the bitmap. The actual object */ + /* may be larger (but not smaller). Any additional */ + /* words in the object are assumed not to contain */ + /* pointers. */ + /* Returns a conservative approximation in the */ + /* (unlikely) case of insufficient memory to build */ + /* the descriptor. Calls to GC_make_descriptor */ + /* may consume some amount of a finite resource. This */ + /* is intended to be called once per type, not once */ + /* per allocation. */ + +GC_API GC_PTR GC_malloc_explicitly_typed + GC_PROTO((size_t size_in_bytes, GC_descr d)); + /* Allocate an object whose layout is described by d. */ + /* The resulting object MAY NOT BE PASSED TO REALLOC. */ + +GC_API GC_PTR GC_malloc_explicitly_typed_ignore_off_page + GC_PROTO((size_t size_in_bytes, GC_descr d)); + +GC_API GC_PTR GC_calloc_explicitly_typed + GC_PROTO((size_t nelements, + size_t element_size_in_bytes, + GC_descr d)); + /* Allocate an array of nelements elements, each of the */ + /* given size, and with the given descriptor. */ + /* The elemnt size must be a multiple of the byte */ + /* alignment required for pointers. E.g. on a 32-bit */ + /* machine with 16-bit aligned pointers, size_in_bytes */ + /* must be a multiple of 2. */ + +#ifdef GC_DEBUG +# define GC_MALLOC_EXPLICTLY_TYPED(bytes, d) GC_MALLOC(bytes) +# define GC_CALLOC_EXPLICTLY_TYPED(n, bytes, d) GC_MALLOC(n*bytes) +#else +# define GC_MALLOC_EXPLICTLY_TYPED(bytes, d) \ + GC_malloc_explicitly_typed(bytes, d) +# define GC_CALLOC_EXPLICTLY_TYPED(n, bytes, d) \ + GC_calloc_explicitly_typed(n, bytes, d) +#endif /* !GC_DEBUG */ + + +#endif /* _GC_TYPED_H */ + diff --git a/gc/gcc_support.c b/gc/gcc_support.c new file mode 100644 index 0000000..e8a7b82 --- /dev/null +++ b/gc/gcc_support.c @@ -0,0 +1,516 @@ +/*************************************************************************** + +Interface between g++ and Boehm GC + + Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + + THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + + Permission is hereby granted to copy this code for any purpose, + provided the above notices are retained on all copies. + + Last modified on Sun Jul 16 23:21:14 PDT 1995 by ellis + +This module provides runtime support for implementing the +Ellis/Detlefs GC proposal, "Safe, Efficient Garbage Collection for +C++", within g++, using its -fgc-keyword extension. It defines +versions of __builtin_new, __builtin_new_gc, __builtin_vec_new, +__builtin_vec_new_gc, __builtin_delete, and __builtin_vec_delete that +invoke the Bohem GC. It also implements the WeakPointer.h interface. + +This module assumes the following configuration options of the Boehm GC: + + -DALL_INTERIOR_POINTERS + -DDONT_ADD_BYTE_AT_END + +This module adds its own required padding to the end of objects to +support C/C++ "one-past-the-object" pointer semantics. + +****************************************************************************/ + +#include <stddef.h> +#include "gc.h" + +#if defined(__STDC__) +# define PROTO( args ) args +#else +# define PROTO( args ) () +# endif + +#define BITSPERBYTE 8 + /* What's the portable way to do this? */ + + +typedef void (*vfp) PROTO(( void )); +extern vfp __new_handler; +extern void __default_new_handler PROTO(( void )); + + +/* A destructor_proc is the compiler generated procedure representing a +C++ destructor. The "flag" argument is a hidden argument following some +compiler convention. */ + +typedef (*destructor_proc) PROTO(( void* this, int flag )); + + +/*************************************************************************** + +A BI_header is the header the compiler adds to the front of +new-allocated arrays of objects with destructors. The header is +padded out to a double, because that's what the compiler does to +ensure proper alignment of array elements on some architectures. + +int NUM_ARRAY_ELEMENTS (void* o) + returns the number of array elements for array object o. + +char* FIRST_ELEMENT_P (void* o) + returns the address of the first element of array object o. + +***************************************************************************/ + +typedef struct BI_header { + int nelts; + char padding [sizeof( double ) - sizeof( int )]; + /* Better way to do this? */ +} BI_header; + +#define NUM_ARRAY_ELEMENTS( o ) \ + (((BI_header*) o)->nelts) + +#define FIRST_ELEMENT_P( o ) \ + ((char*) o + sizeof( BI_header )) + + +/*************************************************************************** + +The __builtin_new routines add a descriptor word to the end of each +object. The descriptor serves two purposes. + +First, the descriptor acts as padding, implementing C/C++ pointer +semantics. C and C++ allow a valid array pointer to be incremented +one past the end of an object. The extra padding ensures that the +collector will recognize that such a pointer points to the object and +not the next object in memory. + +Second, the descriptor stores three extra pieces of information, +whether an object has a registered finalizer (destructor), whether it +may have any weak pointers referencing it, and for collectible arrays, +the element size of the array. The element size is required for the +array's finalizer to iterate through the elements of the array. (An +alternative design would have the compiler generate a finalizer +procedure for each different array type. But given the overhead of +finalization, there isn't any efficiency to be gained by that.) + +The descriptor must be added to non-collectible as well as collectible +objects, since the Ellis/Detlefs proposal allows "pointer to gc T" to +be assigned to a "pointer to T", which could then be deleted. Thus, +__builtin_delete must determine at runtime whether an object is +collectible, whether it has weak pointers referencing it, and whether +it may have a finalizer that needs unregistering. Though +GC_REGISTER_FINALIZER doesn't care if you ask it to unregister a +finalizer for an object that doesn't have one, it is a non-trivial +procedure that does a hash look-up, etc. The descriptor trades a +little extra space for a significant increase in time on the fast path +through delete. (A similar argument applies to +GC_UNREGISTER_DISAPPEARING_LINK). + +For non-array types, the space for the descriptor could be shrunk to a +single byte for storing the "has finalizer" flag. But this would save +space only on arrays of char (whose size is not a multiple of the word +size) and structs whose largest member is less than a word in size +(very infrequent). And it would require that programmers actually +remember to call "delete[]" instead of "delete" (which they should, +but there are probably lots of buggy programs out there). For the +moment, the space savings seems not worthwhile, especially considering +that the Boehm GC is already quite space competitive with other +malloc's. + + +Given a pointer o to the base of an object: + +Descriptor* DESCRIPTOR (void* o) + returns a pointer to the descriptor for o. + +The implementation of descriptors relies on the fact that the GC +implementation allocates objects in units of the machine's natural +word size (e.g. 32 bits on a SPARC, 64 bits on an Alpha). + +**************************************************************************/ + +typedef struct Descriptor { + unsigned has_weak_pointers: 1; + unsigned has_finalizer: 1; + unsigned element_size: BITSPERBYTE * sizeof( unsigned ) - 2; +} Descriptor; + +#define DESCRIPTOR( o ) \ + ((Descriptor*) ((char*)(o) + GC_size( o ) - sizeof( Descriptor ))) + + +/************************************************************************** + +Implementations of global operator new() and operator delete() + +***************************************************************************/ + + +void* __builtin_new( size ) + size_t size; + /* + For non-gc non-array types, the compiler generates calls to + __builtin_new, which allocates non-collected storage via + GC_MALLOC_UNCOLLECTABLE. This ensures that the non-collected + storage will be part of the collector's root set, required by the + Ellis/Detlefs semantics. */ +{ + vfp handler = __new_handler ? __new_handler : __default_new_handler; + + while (1) { + void* o = GC_MALLOC_UNCOLLECTABLE( size + sizeof( Descriptor ) ); + if (o != 0) return o; + (*handler) ();}} + + +void* __builtin_vec_new( size ) + size_t size; + /* + For non-gc array types, the compiler generates calls to + __builtin_vec_new. */ +{ + return __builtin_new( size );} + + +void* __builtin_new_gc( size ) + size_t size; + /* + For gc non-array types, the compiler generates calls to + __builtin_new_gc, which allocates collected storage via + GC_MALLOC. */ +{ + vfp handler = __new_handler ? __new_handler : __default_new_handler; + + while (1) { + void* o = GC_MALLOC( size + sizeof( Descriptor ) ); + if (o != 0) return o; + (*handler) ();}} + + +void* __builtin_new_gc_a( size ) + size_t size; + /* + For non-pointer-containing gc non-array types, the compiler + generates calls to __builtin_new_gc_a, which allocates collected + storage via GC_MALLOC_ATOMIC. */ +{ + vfp handler = __new_handler ? __new_handler : __default_new_handler; + + while (1) { + void* o = GC_MALLOC_ATOMIC( size + sizeof( Descriptor ) ); + if (o != 0) return o; + (*handler) ();}} + + +void* __builtin_vec_new_gc( size ) + size_t size; + /* + For gc array types, the compiler generates calls to + __builtin_vec_new_gc. */ +{ + return __builtin_new_gc( size );} + + +void* __builtin_vec_new_gc_a( size ) + size_t size; + /* + For non-pointer-containing gc array types, the compiler generates + calls to __builtin_vec_new_gc_a. */ +{ + return __builtin_new_gc_a( size );} + + +static void call_destructor( o, data ) + void* o; + void* data; + /* + call_destructor is the GC finalizer proc registered for non-array + gc objects with destructors. Its client data is the destructor + proc, which it calls with the magic integer 2, a special flag + obeying the compiler convention for destructors. */ +{ + ((destructor_proc) data)( o, 2 );} + + +void* __builtin_new_gc_dtor( o, d ) + void* o; + destructor_proc d; + /* + The compiler generates a call to __builtin_new_gc_dtor to register + the destructor "d" of a non-array gc object "o" as a GC finalizer. + The destructor is registered via + GC_REGISTER_FINALIZER_IGNORE_SELF, which causes the collector to + ignore pointers from the object to itself when determining when + the object can be finalized. This is necessary due to the self + pointers used in the internal representation of multiply-inherited + objects. */ +{ + Descriptor* desc = DESCRIPTOR( o ); + + GC_REGISTER_FINALIZER_IGNORE_SELF( o, call_destructor, d, 0, 0 ); + desc->has_finalizer = 1;} + + +static void call_array_destructor( o, data ) + void* o; + void* data; + /* + call_array_destructor is the GC finalizer proc registered for gc + array objects whose elements have destructors. Its client data is + the destructor proc. It iterates through the elements of the + array in reverse order, calling the destructor on each. */ +{ + int num = NUM_ARRAY_ELEMENTS( o ); + Descriptor* desc = DESCRIPTOR( o ); + size_t size = desc->element_size; + char* first_p = FIRST_ELEMENT_P( o ); + char* p = first_p + (num - 1) * size; + + if (num > 0) { + while (1) { + ((destructor_proc) data)( p, 2 ); + if (p == first_p) break; + p -= size;}}} + + +void* __builtin_vec_new_gc_dtor( first_elem, d, element_size ) + void* first_elem; + destructor_proc d; + size_t element_size; + /* + The compiler generates a call to __builtin_vec_new_gc_dtor to + register the destructor "d" of a gc array object as a GC + finalizer. "first_elem" points to the first element of the array, + *not* the beginning of the object (this makes the generated call + to this function smaller). The elements of the array are of size + "element_size". The destructor is registered as in + _builtin_new_gc_dtor. */ +{ + void* o = (char*) first_elem - sizeof( BI_header ); + Descriptor* desc = DESCRIPTOR( o ); + + GC_REGISTER_FINALIZER_IGNORE_SELF( o, call_array_destructor, d, 0, 0 ); + desc->element_size = element_size; + desc->has_finalizer = 1;} + + +void __builtin_delete( o ) + void* o; + /* + The compiler generates calls to __builtin_delete for operator + delete(). The GC currently requires that any registered + finalizers be unregistered before explicitly freeing an object. + If the object has any weak pointers referencing it, we can't + actually free it now. */ +{ + if (o != 0) { + Descriptor* desc = DESCRIPTOR( o ); + if (desc->has_finalizer) GC_REGISTER_FINALIZER( o, 0, 0, 0, 0 ); + if (! desc->has_weak_pointers) GC_FREE( o );}} + + +void __builtin_vec_delete( o ) + void* o; + /* + The compiler generates calls to __builitn_vec_delete for operator + delete[](). */ +{ + __builtin_delete( o );} + + +/************************************************************************** + +Implementations of the template class WeakPointer from WeakPointer.h + +***************************************************************************/ + +typedef struct WeakPointer { + void* pointer; +} WeakPointer; + + +void* _WeakPointer_New( t ) + void* t; +{ + if (t == 0) { + return 0;} + else { + void* base = GC_base( t ); + WeakPointer* wp = + (WeakPointer*) GC_MALLOC_ATOMIC( sizeof( WeakPointer ) ); + Descriptor* desc = DESCRIPTOR( base ); + + wp->pointer = t; + desc->has_weak_pointers = 1; + GC_general_register_disappearing_link( &wp->pointer, base ); + return wp;}} + + +static void* PointerWithLock( wp ) + WeakPointer* wp; +{ + if (wp == 0 || wp->pointer == 0) { + return 0;} + else { + return (void*) wp->pointer;}} + + +void* _WeakPointer_Pointer( wp ) + WeakPointer* wp; +{ + return (void*) GC_call_with_alloc_lock( PointerWithLock, wp );} + + +typedef struct EqualClosure { + WeakPointer* wp1; + WeakPointer* wp2; +} EqualClosure; + + +static void* EqualWithLock( ec ) + EqualClosure* ec; +{ + if (ec->wp1 == 0 || ec->wp2 == 0) { + return (void*) (ec->wp1 == ec->wp2);} + else { + return (void*) (ec->wp1->pointer == ec->wp2->pointer);}} + + +int _WeakPointer_Equal( wp1, wp2 ) + WeakPointer* wp1; + WeakPointer* wp2; +{ + EqualClosure ec; + + ec.wp1 = wp1; + ec.wp2 = wp2; + return (int) GC_call_with_alloc_lock( EqualWithLock, &ec );} + + +int _WeakPointer_Hash( wp ) + WeakPointer* wp; +{ + return (int) _WeakPointer_Pointer( wp );} + + +/************************************************************************** + +Implementations of the template class CleanUp from WeakPointer.h + +***************************************************************************/ + +typedef struct Closure { + void (*c) PROTO(( void* d, void* t )); + ptrdiff_t t_offset; + void* d; +} Closure; + + +static void _CleanUp_CallClosure( obj, data ) + void* obj; + void* data; +{ + Closure* closure = (Closure*) data; + closure->c( closure->d, (char*) obj + closure->t_offset );} + + +void _CleanUp_Set( t, c, d ) + void* t; + void (*c) PROTO(( void* d, void* t )); + void* d; +{ + void* base = GC_base( t ); + Descriptor* desc = DESCRIPTOR( t ); + + if (c == 0) { + GC_REGISTER_FINALIZER_IGNORE_SELF( base, 0, 0, 0, 0 ); + desc->has_finalizer = 0;} + else { + Closure* closure = (Closure*) GC_MALLOC( sizeof( Closure ) ); + closure->c = c; + closure->t_offset = (char*) t - (char*) base; + closure->d = d; + GC_REGISTER_FINALIZER_IGNORE_SELF( base, _CleanUp_CallClosure, + closure, 0, 0 ); + desc->has_finalizer = 1;}} + + +void _CleanUp_Call( t ) + void* t; +{ + /* ? Aren't we supposed to deactivate weak pointers to t too? + Why? */ + void* base = GC_base( t ); + void* d; + GC_finalization_proc f; + + GC_REGISTER_FINALIZER( base, 0, 0, &f, &d ); + f( base, d );} + + +typedef struct QueueElem { + void* o; + GC_finalization_proc f; + void* d; + struct QueueElem* next; +} QueueElem; + + +void* _CleanUp_Queue_NewHead() +{ + return GC_MALLOC( sizeof( QueueElem ) );} + + +static void _CleanUp_Queue_Enqueue( obj, data ) + void* obj; + void* data; +{ + QueueElem* q = (QueueElem*) data; + QueueElem* head = q->next; + + q->o = obj; + q->next = head->next; + head->next = q;} + + +void _CleanUp_Queue_Set( h, t ) + void* h; + void* t; +{ + QueueElem* head = (QueueElem*) h; + void* base = GC_base( t ); + void* d; + GC_finalization_proc f; + QueueElem* q = (QueueElem*) GC_MALLOC( sizeof( QueueElem ) ); + + GC_REGISTER_FINALIZER( base, _CleanUp_Queue_Enqueue, q, &f, &d ); + q->f = f; + q->d = d; + q->next = head;} + + +int _CleanUp_Queue_Call( h ) + void* h; +{ + QueueElem* head = (QueueElem*) h; + QueueElem* q = head->next; + + if (q == 0) { + return 0;} + else { + head->next = q->next; + q->next = 0; + if (q->f != 0) q->f( q->o, q->d ); + return 1;}} + + + diff --git a/gc/gcconfig.h b/gc/gcconfig.h new file mode 100644 index 0000000..189b13d --- /dev/null +++ b/gc/gcconfig.h @@ -0,0 +1,1110 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +#ifndef CONFIG_H + +# define CONFIG_H + +/* Machine dependent parameters. Some tuning parameters can be found */ +/* near the top of gc_private.h. */ + +/* Machine specific parts contributed by various people. See README file. */ + +/* First a unified test for Linux: */ +# if defined(linux) || defined(__linux__) +# define LINUX +# endif + +/* Determine the machine type: */ +# if defined(sun) && defined(mc68000) +# define M68K +# define SUNOS4 +# define mach_type_known +# endif +# if defined(hp9000s300) +# define M68K +# define HP +# define mach_type_known +# endif +# if defined(__OpenBSD__) && defined(m68k) +# define M68K +# define OPENBSD +# define mach_type_known +# endif +# if defined(__OpenBSD__) && defined(__sparc__) +# define SPARC +# define OPENBSD +# define mach_type_known +# endif +# if defined(__NetBSD__) && defined(m68k) +# define M68K +# define NETBSD +# define mach_type_known +# endif +# if defined(vax) +# define VAX +# ifdef ultrix +# define ULTRIX +# else +# define BSD +# endif +# define mach_type_known +# endif +# if defined(mips) || defined(__mips) +# define MIPS +# if defined(ultrix) || defined(__ultrix) || defined(__NetBSD__) +# define ULTRIX +# else +# if !defined(LINUX) +# if defined(_SYSTYPE_SVR4) || defined(SYSTYPE_SVR4) || defined(__SYSTYPE_SVR4__) +# define IRIX5 /* or IRIX 6.X */ +# else +# define RISCOS /* or IRIX 4.X */ +# endif +# endif +# endif +# define mach_type_known +# endif +# if defined(sequent) && defined(i386) +# define I386 +# define SEQUENT +# define mach_type_known +# endif +# if defined(sun) && defined(i386) +# define I386 +# define SUNOS5 +# define mach_type_known +# endif +# if (defined(__OS2__) || defined(__EMX__)) && defined(__32BIT__) +# define I386 +# define OS2 +# define mach_type_known +# endif +# if defined(ibm032) +# define RT +# define mach_type_known +# endif +# if defined(sun) && (defined(sparc) || defined(__sparc)) +# define SPARC + /* Test for SunOS 5.x */ +# include <errno.h> +# ifdef ECHRNG +# define SUNOS5 +# else +# define SUNOS4 +# endif +# define mach_type_known +# endif +# if defined(sparc) && defined(unix) && !defined(sun) && !defined(linux) \ + && !defined(__OpenBSD__) +# define SPARC +# define DRSNX +# define mach_type_known +# endif +# if defined(_IBMR2) +# define RS6000 +# define mach_type_known +# endif +# if defined(_M_XENIX) && defined(_M_SYSV) && defined(_M_I386) + /* The above test may need refinement */ +# define I386 +# if defined(_SCO_ELF) +# define SCO_ELF +# else +# define SCO +# endif +# define mach_type_known +# endif +# if defined(_AUX_SOURCE) +# define M68K +# define SYSV +# define mach_type_known +# endif +# if defined(_PA_RISC1_0) || defined(_PA_RISC1_1) \ + || defined(hppa) || defined(__hppa__) +# define HP_PA +# define mach_type_known +# endif +# if defined(LINUX) && (defined(i386) || defined(__i386__)) +# define I386 +# define mach_type_known +# endif +# if defined(LINUX) && defined(powerpc) +# define POWERPC +# define mach_type_known +# endif +# if defined(LINUX) && defined(__mc68000__) +# define M68K +# define mach_type_known +# endif +# if defined(LINUX) && defined(sparc) +# define SPARC +# define mach_type_known +# endif +# if defined(__alpha) || defined(__alpha__) +# define ALPHA +# if !defined(LINUX) +# define OSF1 /* a.k.a Digital Unix */ +# endif +# define mach_type_known +# endif +# if defined(_AMIGA) && !defined(AMIGA) +# define AMIGA +# endif +# ifdef AMIGA +# define M68K +# define mach_type_known +# endif +# if defined(THINK_C) || defined(__MWERKS__) && !defined(__powerc) +# define M68K +# define MACOS +# define mach_type_known +# endif +# if defined(__MWERKS__) && defined(__powerc) +# define POWERPC +# define MACOS +# define mach_type_known +# endif +# if defined(macosx) +# define MACOSX +# define POWERPC +# define mach_type_known +# endif +# if defined(NeXT) && defined(mc68000) +# define M68K +# define NEXT +# define mach_type_known +# endif +# if defined(NeXT) && defined(i386) +# define I386 +# define NEXT +# define mach_type_known +# endif +# if defined(__OpenBSD__) && defined(i386) +# define I386 +# define OPENBSD +# define mach_type_known +# endif +# if defined(__FreeBSD__) && defined(i386) +# define I386 +# define FREEBSD +# define mach_type_known +# endif +# if defined(__NetBSD__) && defined(i386) +# define I386 +# define NETBSD +# define mach_type_known +# endif +# if defined(bsdi) && defined(i386) +# define I386 +# define BSDI +# define mach_type_known +# endif +# if !defined(mach_type_known) && defined(__386BSD__) +# define I386 +# define THREE86BSD +# define mach_type_known +# endif +# if defined(_CX_UX) && defined(_M88K) +# define M88K +# define CX_UX +# define mach_type_known +# endif +# if defined(DGUX) +# define M88K + /* DGUX defined */ +# define mach_type_known +# endif +# if (defined(_MSDOS) || defined(_MSC_VER)) && (_M_IX86 >= 300) \ + || defined(_WIN32) && !defined(__CYGWIN32__) && !defined(__CYGWIN__) +# define I386 +# define MSWIN32 /* or Win32s */ +# define mach_type_known +# endif +# if defined(__DJGPP__) +# define I386 +# ifndef DJGPP +# define DJGPP /* MSDOS running the DJGPP port of GCC */ +# endif +# define mach_type_known +# endif +# if defined(__CYGWIN32__) || defined(__CYGWIN__) +# define I386 +# define CYGWIN32 +# define mach_type_known +# endif +# if defined(__BORLANDC__) +# define I386 +# define MSWIN32 +# define mach_type_known +# endif +# if defined(_UTS) && !defined(mach_type_known) +# define S370 +# define UTS4 +# define mach_type_known +# endif +/* Ivan Demakov */ +# if defined(__WATCOMC__) && defined(__386__) +# define I386 +# if !defined(OS2) && !defined(MSWIN32) && !defined(DOS4GW) +# if defined(__OS2__) +# define OS2 +# else +# if defined(__WINDOWS_386__) || defined(__NT__) +# define MSWIN32 +# else +# define DOS4GW +# endif +# endif +# endif +# define mach_type_known +# endif + +/* Feel free to add more clauses here */ + +/* Or manually define the machine type here. A machine type is */ +/* characterized by the architecture. Some */ +/* machine types are further subdivided by OS. */ +/* the macros ULTRIX, RISCOS, and BSD to distinguish. */ +/* Note that SGI IRIX is treated identically to RISCOS. */ +/* SYSV on an M68K actually means A/UX. */ +/* The distinction in these cases is usually the stack starting address */ +# ifndef mach_type_known + --> unknown machine type +# endif + /* Mapping is: M68K ==> Motorola 680X0 */ + /* (SUNOS4,HP,NEXT, and SYSV (A/UX), */ + /* MACOS and AMIGA variants) */ + /* I386 ==> Intel 386 */ + /* (SEQUENT, OS2, SCO, LINUX, NETBSD, */ + /* FREEBSD, THREE86BSD, MSWIN32, */ + /* BSDI,SUNOS5, NEXT, other variants) */ + /* NS32K ==> Encore Multimax */ + /* MIPS ==> R2000 or R3000 */ + /* (RISCOS, ULTRIX variants) */ + /* VAX ==> DEC VAX */ + /* (BSD, ULTRIX variants) */ + /* RS6000 ==> IBM RS/6000 AIX3.X */ + /* RT ==> IBM PC/RT */ + /* HP_PA ==> HP9000/700 & /800 */ + /* HP/UX */ + /* SPARC ==> SPARC under SunOS */ + /* (SUNOS4, SUNOS5, */ + /* DRSNX variants) */ + /* ALPHA ==> DEC Alpha */ + /* (OSF1 and LINUX variants) */ + /* M88K ==> Motorola 88XX0 */ + /* (CX_UX and DGUX) */ + /* S370 ==> 370-like machine */ + /* running Amdahl UTS4 */ + + +/* + * For each architecture and OS, the following need to be defined: + * + * CPP_WORD_SZ is a simple integer constant representing the word size. + * in bits. We assume byte addressibility, where a byte has 8 bits. + * We also assume CPP_WORD_SZ is either 32 or 64. + * (We care about the length of pointers, not hardware + * bus widths. Thus a 64 bit processor with a C compiler that uses + * 32 bit pointers should use CPP_WORD_SZ of 32, not 64. Default is 32.) + * + * MACH_TYPE is a string representation of the machine type. + * OS_TYPE is analogous for the OS. + * + * ALIGNMENT is the largest N, such that + * all pointer are guaranteed to be aligned on N byte boundaries. + * defining it to be 1 will always work, but perform poorly. + * + * DATASTART is the beginning of the data segment. + * On UNIX systems, the collector will scan the area between DATASTART + * and DATAEND for root pointers. + * + * DATAEND, if not &end. + * + * ALIGN_DOUBLE of GC_malloc should return blocks aligned to twice + * the pointer size. + * + * STACKBOTTOM is the cool end of the stack, which is usually the + * highest address in the stack. + * Under PCR or OS/2, we have other ways of finding thread stacks. + * For each machine, the following should: + * 1) define STACK_GROWS_UP if the stack grows toward higher addresses, and + * 2) define exactly one of + * STACKBOTTOM (should be defined to be an expression) + * HEURISTIC1 + * HEURISTIC2 + * If either of the last two macros are defined, then STACKBOTTOM is computed + * during collector startup using one of the following two heuristics: + * HEURISTIC1: Take an address inside GC_init's frame, and round it up to + * the next multiple of STACK_GRAN. + * HEURISTIC2: Take an address inside GC_init's frame, increment it repeatedly + * in small steps (decrement if STACK_GROWS_UP), and read the value + * at each location. Remember the value when the first + * Segmentation violation or Bus error is signalled. Round that + * to the nearest plausible page boundary, and use that instead + * of STACKBOTTOM. + * + * If no expression for STACKBOTTOM can be found, and neither of the above + * heuristics are usable, the collector can still be used with all of the above + * undefined, provided one of the following is done: + * 1) GC_mark_roots can be changed to somehow mark from the correct stack(s) + * without reference to STACKBOTTOM. This is appropriate for use in + * conjunction with thread packages, since there will be multiple stacks. + * (Allocating thread stacks in the heap, and treating them as ordinary + * heap data objects is also possible as a last resort. However, this is + * likely to introduce significant amounts of excess storage retention + * unless the dead parts of the thread stacks are periodically cleared.) + * 2) Client code may set GC_stackbottom before calling any GC_ routines. + * If the author of the client code controls the main program, this is + * easily accomplished by introducing a new main program, setting + * GC_stackbottom to the address of a local variable, and then calling + * the original main program. The new main program would read something + * like: + * + * # include "gc_private.h" + * + * main(argc, argv, envp) + * int argc; + * char **argv, **envp; + * { + * int dummy; + * + * GC_stackbottom = (ptr_t)(&dummy); + * return(real_main(argc, argv, envp)); + * } + * + * + * Each architecture may also define the style of virtual dirty bit + * implementation to be used: + * MPROTECT_VDB: Write protect the heap and catch faults. + * PROC_VDB: Use the SVR4 /proc primitives to read dirty bits. + * + * An architecture may define DYNAMIC_LOADING if dynamic_load.c + * defined GC_register_dynamic_libraries() for the architecture. + */ + + +# define STACK_GRAN 0x1000000 +# ifdef M68K +# define MACH_TYPE "M68K" +# define ALIGNMENT 2 +# ifdef OPENBSD +# define OS_TYPE "OPENBSD" +# define HEURISTIC2 + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# endif +# ifdef NETBSD +# define OS_TYPE "NETBSD" +# define HEURISTIC2 + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# define STACKBOTTOM ((ptr_t)0xf0000000) +# define MPROTECT_VDB +# ifdef __ELF__ +# define DYNAMIC_LOADING + extern char **__environ; +# define DATASTART ((ptr_t)(&__environ)) + /* hideous kludge: __environ is the first */ + /* word in crt0.o, and delimits the start */ + /* of the data segment, no matter which */ + /* ld options were passed through. */ + /* We could use _etext instead, but that */ + /* would include .rodata, which may */ + /* contain large read-only data tables */ + /* that we'd rather not scan. */ + extern int _end; +# define DATAEND (&_end) +# else + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# endif +# endif +# ifdef SUNOS4 +# define OS_TYPE "SUNOS4" + extern char etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x1ffff) & ~0x1ffff)) +# define HEURISTIC1 /* differs */ +# define DYNAMIC_LOADING +# endif +# ifdef HP +# define OS_TYPE "HP" + extern char etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# define STACKBOTTOM ((ptr_t) 0xffeffffc) + /* empirically determined. seems to work. */ +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGE_SIZE) +# endif +# ifdef SYSV +# define OS_TYPE "SYSV" + extern etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x3fffff) \ + & ~0x3fffff) \ + +((word)&etext & 0x1fff)) + /* This only works for shared-text binaries with magic number 0413. + The other sorts of SysV binaries put the data at the end of the text, + in which case the default of &etext would work. Unfortunately, + handling both would require having the magic-number available. + -- Parag + */ +# define STACKBOTTOM ((ptr_t)0xFFFFFFFE) + /* The stack starts at the top of memory, but */ + /* 0x0 cannot be used as setjump_test complains */ + /* that the stack direction is incorrect. Two */ + /* bytes down from 0x0 should be safe enough. */ + /* --Parag */ +# include <sys/mmu.h> +# define GETPAGESIZE() PAGESIZE /* Is this still right? */ +# endif +# ifdef AMIGA +# define OS_TYPE "AMIGA" + /* STACKBOTTOM and DATASTART handled specially */ + /* in os_dep.c */ +# define DATAEND /* not needed */ +# define GETPAGESIZE() 4096 +# endif +# ifdef MACOS +# ifndef __LOWMEM__ +# include <LowMem.h> +# endif +# define OS_TYPE "MACOS" + /* see os_dep.c for details of global data segments. */ +# define STACKBOTTOM ((ptr_t) LMGetCurStackBase()) +# define DATAEND /* not needed */ +# define GETPAGESIZE() 4096 +# endif +# ifdef NEXT +# define OS_TYPE "NEXT" +# define DATASTART ((ptr_t) get_etext()) +# define STACKBOTTOM ((ptr_t) 0x4000000) +# define DATAEND /* not needed */ +# endif +# endif + +# ifdef POWERPC +# define MACH_TYPE "POWERPC" +# ifdef MACOS +# define ALIGNMENT 2 /* Still necessary? Could it be 4? */ +# ifndef __LOWMEM__ +# include <LowMem.h> +# endif +# define OS_TYPE "MACOS" + /* see os_dep.c for details of global data segments. */ +# define STACKBOTTOM ((ptr_t) LMGetCurStackBase()) +# define DATAEND /* not needed */ +# endif +# ifdef LINUX +# define ALIGNMENT 4 /* Guess. Can someone verify? */ + /* This was 2, but that didn't sound right. */ +# define OS_TYPE "LINUX" +# define HEURISTIC1 +# undef STACK_GRAN +# define STACK_GRAN 0x10000000 + /* Stack usually starts at 0x80000000 */ +# define DATASTART GC_data_start + extern int _end; +# define DATAEND (&_end) +# endif +# ifdef MACOSX +# define ALIGNMENT 4 +# define OS_TYPE "MACOSX" +# define DATASTART ((ptr_t) get_etext()) +# define STACKBOTTOM ((ptr_t) 0xc0000000) +# define DATAEND /* not needed */ +# endif +# endif + +# ifdef VAX +# define MACH_TYPE "VAX" +# define ALIGNMENT 4 /* Pointers are longword aligned by 4.2 C compiler */ + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# ifdef BSD +# define OS_TYPE "BSD" +# define HEURISTIC1 + /* HEURISTIC2 may be OK, but it's hard to test. */ +# endif +# ifdef ULTRIX +# define OS_TYPE "ULTRIX" +# define STACKBOTTOM ((ptr_t) 0x7fffc800) +# endif +# endif + +# ifdef RT +# define MACH_TYPE "RT" +# define ALIGNMENT 4 +# define DATASTART ((ptr_t) 0x10000000) +# define STACKBOTTOM ((ptr_t) 0x1fffd800) +# endif + +# ifdef SPARC +# define MACH_TYPE "SPARC" +# define ALIGNMENT 4 /* Required by hardware */ +# define ALIGN_DOUBLE + extern int etext; +# ifdef SUNOS5 +# define OS_TYPE "SUNOS5" + extern int _etext; + extern int _end; + extern char * GC_SysVGetDataStart(); +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &_etext) +# define DATAEND (&_end) +# ifndef USE_MMAP +# define USE_MMAP +# endif +# ifdef USE_MMAP +# define HEAP_START (ptr_t)0x40000000 +# else +# define HEAP_START DATAEND +# endif +# define PROC_VDB +/* HEURISTIC1 reportedly no longer works under 2.7. Thus we */ +/* switched to HEURISTIC2, eventhough it creates some debugging */ +/* issues. */ +# define HEURISTIC2 +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGESIZE) + /* getpagesize() appeared to be missing from at least one */ + /* Solaris 5.4 installation. Weird. */ +# define DYNAMIC_LOADING +# endif +# ifdef SUNOS4 +# define OS_TYPE "SUNOS4" + /* [If you have a weak stomach, don't read this.] */ + /* We would like to use: */ +/* # define DATASTART ((ptr_t)((((word) (&etext)) + 0x1fff) & ~0x1fff)) */ + /* This fails occasionally, due to an ancient, but very */ + /* persistent ld bug. &etext is set 32 bytes too high. */ + /* We instead read the text segment size from the a.out */ + /* header, which happens to be mapped into our address space */ + /* at the start of the text segment. The detective work here */ + /* was done by Robert Ehrlich, Manuel Serrano, and Bernard */ + /* Serpette of INRIA. */ + /* This assumes ZMAGIC, i.e. demand-loadable executables. */ +# define TEXTSTART 0x2000 +# define DATASTART ((ptr_t)(*(int *)(TEXTSTART+0x4)+TEXTSTART)) +# define MPROTECT_VDB +# define HEURISTIC1 +# define DYNAMIC_LOADING +# endif +# ifdef DRSNX +# define CPP_WORDSZ 32 +# define OS_TYPE "DRSNX" + extern char * GC_SysVGetDataStart(); + extern int etext; +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &etext) +# define MPROTECT_VDB +# define STACKBOTTOM ((ptr_t) 0xdfff0000) +# define DYNAMIC_LOADING +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# ifdef __ELF__ +# define DATASTART GC_data_start +# define DYNAMIC_LOADING +# else + Linux Sparc non elf ? +# endif + extern int _end; +# define DATAEND (&_end) +# define SVR4 +# define STACKBOTTOM ((ptr_t) 0xf0000000) +# endif +# ifdef OPENBSD +# define OS_TYPE "OPENBSD" +# define STACKBOTTOM ((ptr_t) 0xf8000000) +# define DATASTART ((ptr_t)(&etext)) +# endif +# endif + +# ifdef I386 +# define MACH_TYPE "I386" +# define ALIGNMENT 4 /* Appears to hold for all "32 bit" compilers */ + /* except Borland. The -a4 option fixes */ + /* Borland. */ + /* Ivan Demakov: For Watcom the option is -zp4. */ +# ifndef SMALL_CONFIG +# define ALIGN_DOUBLE /* Not strictly necessary, but may give speed */ + /* improvement on Pentiums. */ +# endif +# ifdef SEQUENT +# define OS_TYPE "SEQUENT" + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# define STACKBOTTOM ((ptr_t) 0x3ffff000) +# endif +# ifdef SUNOS5 +# define OS_TYPE "SUNOS5" + extern int etext, _start; + extern char * GC_SysVGetDataStart(); +# define DATASTART GC_SysVGetDataStart(0x1000, &etext) +# define STACKBOTTOM ((ptr_t)(&_start)) +/** At least in Solaris 2.5, PROC_VDB gives wrong values for dirty bits. */ +/*# define PROC_VDB*/ +# define DYNAMIC_LOADING +# ifndef USE_MMAP +# define USE_MMAP +# endif +# ifdef USE_MMAP +# define HEAP_START (ptr_t)0x40000000 +# else +# define HEAP_START DATAEND +# endif +# endif +# ifdef SCO +# define OS_TYPE "SCO" + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x3fffff) \ + & ~0x3fffff) \ + +((word)&etext & 0xfff)) +# define STACKBOTTOM ((ptr_t) 0x7ffffffc) +# endif +# ifdef SCO_ELF +# define OS_TYPE "SCO_ELF" + extern int etext; +# define DATASTART ((ptr_t)(&etext)) +# define STACKBOTTOM ((ptr_t) 0x08048000) +# define DYNAMIC_LOADING +# define ELF_CLASS ELFCLASS32 +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# define HEURISTIC1 +# undef STACK_GRAN +# define STACK_GRAN 0x10000000 + /* STACKBOTTOM is usually 0xc0000000, but this changes with */ + /* different kernel configurations. In particular, systems */ + /* with 2GB physical memory will usually move the user */ + /* address space limit, and hence initial SP to 0x80000000. */ +# if !defined(LINUX_THREADS) || !defined(REDIRECT_MALLOC) +# define MPROTECT_VDB +# else + /* We seem to get random errors in incremental mode, */ + /* possibly because Linux threads is itself a malloc client */ + /* and can't deal with the signals. */ +# endif +# ifdef __ELF__ +# define DYNAMIC_LOADING +# ifdef UNDEFINED /* includes ro data */ + extern int _etext; +# define DATASTART ((ptr_t)((((word) (&_etext)) + 0xfff) & ~0xfff)) +# endif +# include <features.h> +# if defined(__GLIBC__) && __GLIBC__ >= 2 + extern int __data_start; +# define DATASTART ((ptr_t)(&__data_start)) +# else + extern char **__environ; +# define DATASTART ((ptr_t)(&__environ)) + /* hideous kludge: __environ is the first */ + /* word in crt0.o, and delimits the start */ + /* of the data segment, no matter which */ + /* ld options were passed through. */ + /* We could use _etext instead, but that */ + /* would include .rodata, which may */ + /* contain large read-only data tables */ + /* that we'd rather not scan. */ +# endif + extern int _end; +# define DATAEND (&_end) +# else + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# endif +# endif +# ifdef CYGWIN32 +# define OS_TYPE "CYGWIN32" + extern int _data_start__; + extern int _data_end__; + extern int _bss_start__; + extern int _bss_end__; + /* For binutils 2.9.1, we have */ + /* DATASTART = _data_start__ */ + /* DATAEND = _bss_end__ */ + /* whereas for some earlier versions it was */ + /* DATASTART = _bss_start__ */ + /* DATAEND = _data_end__ */ + /* To get it right for both, we take the */ + /* minumum/maximum of the two. */ +# define MAX(x,y) ((x) > (y) ? (x) : (y)) +# define MIN(x,y) ((x) < (y) ? (x) : (y)) +# define DATASTART ((ptr_t) MIN(&_data_start__, &_bss_start__)) +# define DATAEND ((ptr_t) MAX(&_data_end__, &_bss_end__)) +# undef STACK_GRAN +# define STACK_GRAN 0x10000 +# define HEURISTIC1 +# endif +# ifdef OS2 +# define OS_TYPE "OS2" + /* STACKBOTTOM and DATASTART are handled specially in */ + /* os_dep.c. OS2 actually has the right */ + /* system call! */ +# define DATAEND /* not needed */ +# endif +# ifdef MSWIN32 +# define OS_TYPE "MSWIN32" + /* STACKBOTTOM and DATASTART are handled specially in */ + /* os_dep.c. */ +# ifndef __WATCOMC__ +# define MPROTECT_VDB +# endif +# define DATAEND /* not needed */ +# endif +# ifdef DJGPP +# define OS_TYPE "DJGPP" +# include "stubinfo.h" + extern int etext; + extern int _stklen; + extern int __djgpp_stack_limit; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x1ff) & ~0x1ff)) +/* # define STACKBOTTOM ((ptr_t)((word) _stubinfo + _stubinfo->size \ + + _stklen)) */ +# define STACKBOTTOM ((ptr_t)((word) __djgpp_stack_limit + _stklen)) + /* This may not be right. */ +# endif +# ifdef OPENBSD +# define OS_TYPE "OPENBSD" +# endif +# ifdef FREEBSD +# define OS_TYPE "FREEBSD" +# define MPROTECT_VDB +# endif +# ifdef NETBSD +# define OS_TYPE "NETBSD" +# endif +# ifdef THREE86BSD +# define OS_TYPE "THREE86BSD" +# endif +# ifdef BSDI +# define OS_TYPE "BSDI" +# endif +# if defined(OPENBSD) || defined(FREEBSD) || defined(NETBSD) \ + || defined(THREE86BSD) || defined(BSDI) +# define HEURISTIC2 + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# endif +# ifdef NEXT +# define OS_TYPE "NEXT" +# define DATASTART ((ptr_t) get_etext()) +# define STACKBOTTOM ((ptr_t)0xc0000000) +# define DATAEND /* not needed */ +# endif +# ifdef DOS4GW +# define OS_TYPE "DOS4GW" + extern long __nullarea; + extern char _end; + extern char *_STACKTOP; + /* Depending on calling conventions Watcom C either precedes + or does not precedes with undescore names of C-variables. + Make sure startup code variables always have the same names. */ + #pragma aux __nullarea "*"; + #pragma aux _end "*"; +# define STACKBOTTOM ((ptr_t) _STACKTOP) + /* confused? me too. */ +# define DATASTART ((ptr_t) &__nullarea) +# define DATAEND ((ptr_t) &_end) +# endif +# endif + +# ifdef NS32K +# define MACH_TYPE "NS32K" +# define ALIGNMENT 4 + extern char **environ; +# define DATASTART ((ptr_t)(&environ)) + /* hideous kludge: environ is the first */ + /* word in crt0.o, and delimits the start */ + /* of the data segment, no matter which */ + /* ld options were passed through. */ +# define STACKBOTTOM ((ptr_t) 0xfffff000) /* for Encore */ +# endif + +# ifdef MIPS +# define MACH_TYPE "MIPS" +# ifdef LINUX +# define OS_TYPE "LINUX" + extern int __data_start; +# define DATASTART ((ptr_t)(&__data_start)) +# define ALIGNMENT 4 +# define USE_GENERIC_PUSH_REGS 1 +# define STACKBOTTOM 0x80000000 +# else // LINUX +# ifndef IRIX5 +# define DATASTART (ptr_t)0x10000000 + /* Could probably be slightly higher since */ + /* startup code allocates lots of stuff. */ +# else // IRIX5 + extern int _fdata; +# define DATASTART ((ptr_t)(&_fdata)) +# ifdef USE_MMAP +# define HEAP_START (ptr_t)0x30000000 +# else +# define HEAP_START DATASTART +# endif + /* Lowest plausible heap address. */ + /* In the MMAP case, we map there. */ + /* In either case it is used to identify */ + /* heap sections so they're not */ + /* considered as roots. */ +# endif /* IRIX5 */ +# define HEURISTIC2 +/* # define STACKBOTTOM ((ptr_t)0x7fff8000) sometimes also works. */ +# ifdef ULTRIX +# define OS_TYPE "ULTRIX" +# define ALIGNMENT 4 +# endif +# ifdef RISCOS +# define OS_TYPE "RISCOS" +# define ALIGNMENT 4 /* Required by hardware */ +# endif +# ifdef IRIX5 +# define OS_TYPE "IRIX5" +# define MPROTECT_VDB +# ifdef _MIPS_SZPTR +# define CPP_WORDSZ _MIPS_SZPTR +# define ALIGNMENT (_MIPS_SZPTR/8) +# if CPP_WORDSZ != 64 +# define ALIGN_DOUBLE +# endif +# else +# define ALIGNMENT 4 +# define ALIGN_DOUBLE +# endif +# define DYNAMIC_LOADING +# endif +# endif // LINUX +# endif + +# ifdef RS6000 +# define MACH_TYPE "RS6000" +# define ALIGNMENT 4 +# define DATASTART ((ptr_t)0x20000000) + extern int errno; +# define STACKBOTTOM ((ptr_t)((ulong)&errno)) +# define DYNAMIC_LOADING + /* For really old versions of AIX, this may have to be removed. */ +# endif + +# ifdef HP_PA +# define MACH_TYPE "HP_PA" +# define ALIGNMENT 4 +# define ALIGN_DOUBLE + extern int __data_start; +# define DATASTART ((ptr_t)(&__data_start)) +# if 0 + /* The following appears to work for 7xx systems running HP/UX */ + /* 9.xx Furthermore, it might result in much faster */ + /* collections than HEURISTIC2, which may involve scanning */ + /* segments that directly precede the stack. It is not the */ + /* default, since it may not work on older machine/OS */ + /* combinations. (Thanks to Raymond X.T. Nijssen for uncovering */ + /* this.) */ +# define STACKBOTTOM ((ptr_t) 0x7b033000) /* from /etc/conf/h/param.h */ +# else +# define HEURISTIC2 +# endif +# define STACK_GROWS_UP +# define DYNAMIC_LOADING +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGE_SIZE) + /* They misspelled the Posix macro? */ +# endif + +# ifdef ALPHA +# define MACH_TYPE "ALPHA" +# define ALIGNMENT 8 +# ifdef OSF1 +# define OS_TYPE "OSF1" +# define DATASTART ((ptr_t) 0x140000000) + extern _end; +# define DATAEND ((ptr_t) &_end) +# define HEURISTIC2 + /* Normally HEURISTIC2 is too conervative, since */ + /* the text segment immediately follows the stack. */ + /* Hence we give an upper pound. */ + extern int __start; +# define HEURISTIC2_LIMIT ((ptr_t)((word)(&__start) & ~(getpagesize()-1))) +# define CPP_WORDSZ 64 +# define MPROTECT_VDB +# define DYNAMIC_LOADING +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# define CPP_WORDSZ 64 +# define STACKBOTTOM ((ptr_t) 0x120000000) +# ifdef __ELF__ +# if 0 + /* __data_start apparently disappeared in some recent releases. */ + extern int __data_start; +# define DATASTART &__data_start +# endif +# define DATASTART GC_data_start +# define DYNAMIC_LOADING +# else +# define DATASTART ((ptr_t) 0x140000000) +# endif + extern int _end; +# define DATAEND (&_end) +# define MPROTECT_VDB + /* Has only been superficially tested. May not */ + /* work on all versions. */ +# endif +# endif + +# ifdef M88K +# define MACH_TYPE "M88K" +# define ALIGNMENT 4 +# define ALIGN_DOUBLE + extern int etext; +# ifdef CX_UX +# define OS_TYPE "CX_UX" +# define DATASTART ((((word)&etext + 0x3fffff) & ~0x3fffff) + 0x10000) +# endif +# ifdef DGUX +# define OS_TYPE "DGUX" + extern char * GC_SysVGetDataStart(); +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &etext) +# endif +# define STACKBOTTOM ((char*)0xf0000000) /* determined empirically */ +# endif + +# ifdef S370 +# define MACH_TYPE "S370" +# define OS_TYPE "UTS4" +# define ALIGNMENT 4 /* Required by hardware */ + extern int etext; + extern int _etext; + extern int _end; + extern char * GC_SysVGetDataStart(); +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &_etext) +# define DATAEND (&_end) +# define HEURISTIC2 +# endif + +# ifndef STACK_GROWS_UP +# define STACK_GROWS_DOWN +# endif + +# ifndef CPP_WORDSZ +# define CPP_WORDSZ 32 +# endif + +# ifndef OS_TYPE +# define OS_TYPE "" +# endif + +# ifndef DATAEND + extern int end; +# define DATAEND (&end) +# endif + +# if defined(SVR4) && !defined(GETPAGESIZE) +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGESIZE) +# endif + +# ifndef GETPAGESIZE +# if defined(SUNOS5) || defined(IRIX5) +# include <unistd.h> +# endif +# define GETPAGESIZE() getpagesize() +# endif + +# if defined(SUNOS5) || defined(DRSNX) || defined(UTS4) + /* OS has SVR4 generic features. Probably others also qualify. */ +# define SVR4 +# endif + +# if defined(SUNOS5) || defined(DRSNX) + /* OS has SUNOS5 style semi-undocumented interface to dynamic */ + /* loader. */ +# define SUNOS5DL + /* OS has SUNOS5 style signal handlers. */ +# define SUNOS5SIGS +# endif + +# if CPP_WORDSZ != 32 && CPP_WORDSZ != 64 + -> bad word size +# endif + +# ifdef PCR +# undef DYNAMIC_LOADING +# undef STACKBOTTOM +# undef HEURISTIC1 +# undef HEURISTIC2 +# undef PROC_VDB +# undef MPROTECT_VDB +# define PCR_VDB +# endif + +# ifdef SRC_M3 +/* Postponed for now. */ +# undef PROC_VDB +# undef MPROTECT_VDB +# endif + +# ifdef SMALL_CONFIG +/* Presumably not worth the space it takes. */ +# undef PROC_VDB +# undef MPROTECT_VDB +# endif + +# ifdef USE_MUNMAP +# undef MPROTECT_VDB /* Can't deal with address space holes. */ +# endif + +# if !defined(PCR_VDB) && !defined(PROC_VDB) && !defined(MPROTECT_VDB) +# define DEFAULT_VDB +# endif + +# if defined(_SOLARIS_PTHREADS) && !defined(SOLARIS_THREADS) +# define SOLARIS_THREADS +# endif +# if defined(IRIX_THREADS) && !defined(IRIX5) +--> inconsistent configuration +# endif +# if defined(IRIX_JDK_THREADS) && !defined(IRIX5) +--> inconsistent configuration +# endif +# if defined(LINUX_THREADS) && !defined(LINUX) +--> inconsistent configuration +# endif +# if defined(SOLARIS_THREADS) && !defined(SUNOS5) +--> inconsistent configuration +# endif +# if defined(PCR) || defined(SRC_M3) || \ + defined(SOLARIS_THREADS) || defined(WIN32_THREADS) || \ + defined(IRIX_THREADS) || defined(LINUX_THREADS) || \ + defined(IRIX_JDK_THREADS) +# define THREADS +# endif + +# if defined(HP_PA) || defined(M88K) || defined(POWERPC) \ + || (defined(I386) && defined(OS2)) || defined(UTS4) || defined(LINT) + /* Use setjmp based hack to mark from callee-save registers. */ +# define USE_GENERIC_PUSH_REGS +# endif +# if defined(SPARC) && !defined(LINUX) +# define SAVE_CALL_CHAIN +# define ASM_CLEAR_CODE /* Stack clearing is crucial, and we */ + /* include assembly code to do it well. */ +# endif + +# endif diff --git a/gc/headers.c b/gc/headers.c new file mode 100644 index 0000000..9564a6a --- /dev/null +++ b/gc/headers.c @@ -0,0 +1,351 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +/* + * This implements: + * 1. allocation of heap block headers + * 2. A map from addresses to heap block addresses to heap block headers + * + * Access speed is crucial. We implement an index structure based on a 2 + * level tree. + */ + +# include "gc_priv.h" + +bottom_index * GC_all_bottom_indices = 0; + /* Pointer to first (lowest addr) */ + /* bottom_index. */ + +bottom_index * GC_all_bottom_indices_end = 0; + /* Pointer to last (highest addr) */ + /* bottom_index. */ + +/* Non-macro version of header location routine */ +hdr * GC_find_header(h) +ptr_t h; +{ +# ifdef HASH_TL + register hdr * result; + GET_HDR(h, result); + return(result); +# else + return(HDR_INNER(h)); +# endif +} + +/* Routines to dynamically allocate collector data structures that will */ +/* never be freed. */ + +static ptr_t scratch_free_ptr = 0; + +ptr_t GC_scratch_end_ptr = 0; + +ptr_t GC_scratch_last_end_ptr = 0; + /* End point of last obtained scratch area */ + +ptr_t GC_scratch_alloc(bytes) +register word bytes; +{ + register ptr_t result = scratch_free_ptr; + +# ifdef ALIGN_DOUBLE +# define GRANULARITY (2 * sizeof(word)) +# else +# define GRANULARITY sizeof(word) +# endif + bytes += GRANULARITY-1; + bytes &= ~(GRANULARITY-1); + scratch_free_ptr += bytes; + if (scratch_free_ptr <= GC_scratch_end_ptr) { + return(result); + } + { + word bytes_to_get = MINHINCR * HBLKSIZE; + + if (bytes_to_get <= bytes) { + /* Undo the damage, and get memory directly */ + bytes_to_get = bytes; +# ifdef USE_MMAP + bytes_to_get += GC_page_size - 1; + bytes_to_get &= ~(GC_page_size - 1); +# endif + result = (ptr_t)GET_MEM(bytes_to_get); + scratch_free_ptr -= bytes; + GC_scratch_last_end_ptr = result + bytes; + return(result); + } + result = (ptr_t)GET_MEM(bytes_to_get); + if (result == 0) { +# ifdef PRINTSTATS + GC_printf0("Out of memory - trying to allocate less\n"); +# endif + scratch_free_ptr -= bytes; + bytes_to_get = bytes; +# ifdef USE_MMAP + bytes_to_get += GC_page_size - 1; + bytes_to_get &= ~(GC_page_size - 1); +# endif + return((ptr_t)GET_MEM(bytes_to_get)); + } + scratch_free_ptr = result; + GC_scratch_end_ptr = scratch_free_ptr + bytes_to_get; + GC_scratch_last_end_ptr = GC_scratch_end_ptr; + return(GC_scratch_alloc(bytes)); + } +} + +static hdr * hdr_free_list = 0; + +/* Return an uninitialized header */ +static hdr * alloc_hdr() +{ + register hdr * result; + + if (hdr_free_list == 0) { + result = (hdr *) GC_scratch_alloc((word)(sizeof(hdr))); + } else { + result = hdr_free_list; + hdr_free_list = (hdr *) (result -> hb_next); + } + return(result); +} + +static void free_hdr(hhdr) +hdr * hhdr; +{ + hhdr -> hb_next = (struct hblk *) hdr_free_list; + hdr_free_list = hhdr; +} + +void GC_init_headers() +{ + register unsigned i; + + GC_all_nils = (bottom_index *)GC_scratch_alloc((word)sizeof(bottom_index)); + BZERO(GC_all_nils, sizeof(bottom_index)); + for (i = 0; i < TOP_SZ; i++) { + GC_top_index[i] = GC_all_nils; + } +} + +/* Make sure that there is a bottom level index block for address addr */ +/* Return FALSE on failure. */ +static GC_bool get_index(addr) +word addr; +{ + word hi = (word)(addr) >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE); + bottom_index * r; + bottom_index * p; + bottom_index ** prev; + bottom_index *pi; + +# ifdef HASH_TL + unsigned i = TL_HASH(hi); + bottom_index * old; + + old = p = GC_top_index[i]; + while(p != GC_all_nils) { + if (p -> key == hi) return(TRUE); + p = p -> hash_link; + } + r = (bottom_index*)GC_scratch_alloc((word)(sizeof (bottom_index))); + if (r == 0) return(FALSE); + BZERO(r, sizeof (bottom_index)); + r -> hash_link = old; + GC_top_index[i] = r; +# else + if (GC_top_index[hi] != GC_all_nils) return(TRUE); + r = (bottom_index*)GC_scratch_alloc((word)(sizeof (bottom_index))); + if (r == 0) return(FALSE); + GC_top_index[hi] = r; + BZERO(r, sizeof (bottom_index)); +# endif + r -> key = hi; + /* Add it to the list of bottom indices */ + prev = &GC_all_bottom_indices; /* pointer to p */ + pi = 0; /* bottom_index preceding p */ + while ((p = *prev) != 0 && p -> key < hi) { + pi = p; + prev = &(p -> asc_link); + } + r -> desc_link = pi; + if (0 == p) { + GC_all_bottom_indices_end = r; + } else { + p -> desc_link = r; + } + r -> asc_link = p; + *prev = r; + return(TRUE); +} + +/* Install a header for block h. */ +/* The header is uninitialized. */ +/* Returns FALSE on failure. */ +GC_bool GC_install_header(h) +register struct hblk * h; +{ + hdr * result; + + if (!get_index((word) h)) return(FALSE); + result = alloc_hdr(); + SET_HDR(h, result); +# ifdef USE_MUNMAP + result -> hb_last_reclaimed = GC_gc_no; +# endif + return(result != 0); +} + +/* Set up forwarding counts for block h of size sz */ +GC_bool GC_install_counts(h, sz) +register struct hblk * h; +register word sz; /* bytes */ +{ + register struct hblk * hbp; + register int i; + + for (hbp = h; (char *)hbp < (char *)h + sz; hbp += BOTTOM_SZ) { + if (!get_index((word) hbp)) return(FALSE); + } + if (!get_index((word)h + sz - 1)) return(FALSE); + for (hbp = h + 1; (char *)hbp < (char *)h + sz; hbp += 1) { + i = HBLK_PTR_DIFF(hbp, h); + SET_HDR(hbp, (hdr *)(i > MAX_JUMP? MAX_JUMP : i)); + } + return(TRUE); +} + +/* Remove the header for block h */ +void GC_remove_header(h) +register struct hblk * h; +{ + hdr ** ha; + + GET_HDR_ADDR(h, ha); + free_hdr(*ha); + *ha = 0; +} + +/* Remove forwarding counts for h */ +void GC_remove_counts(h, sz) +register struct hblk * h; +register word sz; /* bytes */ +{ + register struct hblk * hbp; + + for (hbp = h+1; (char *)hbp < (char *)h + sz; hbp += 1) { + SET_HDR(hbp, 0); + } +} + +/* Apply fn to all allocated blocks */ +/*VARARGS1*/ +void GC_apply_to_all_blocks(fn, client_data) +void (*fn)(/* struct hblk *h, word client_data */); +word client_data; +{ + register int j; + register bottom_index * index_p; + + for (index_p = GC_all_bottom_indices; index_p != 0; + index_p = index_p -> asc_link) { + for (j = BOTTOM_SZ-1; j >= 0;) { + if (!IS_FORWARDING_ADDR_OR_NIL(index_p->index[j])) { + if (index_p->index[j]->hb_map != GC_invalid_map) { + (*fn)(((struct hblk *) + (((index_p->key << LOG_BOTTOM_SZ) + (word)j) + << LOG_HBLKSIZE)), + client_data); + } + j--; + } else if (index_p->index[j] == 0) { + j--; + } else { + j -= (word)(index_p->index[j]); + } + } + } +} + +/* Get the next valid block whose address is at least h */ +/* Return 0 if there is none. */ +struct hblk * GC_next_used_block(h) +struct hblk * h; +{ + register bottom_index * bi; + register word j = ((word)h >> LOG_HBLKSIZE) & (BOTTOM_SZ-1); + + GET_BI(h, bi); + if (bi == GC_all_nils) { + register word hi = (word)h >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE); + bi = GC_all_bottom_indices; + while (bi != 0 && bi -> key < hi) bi = bi -> asc_link; + j = 0; + } + while(bi != 0) { + while (j < BOTTOM_SZ) { + hdr * hhdr = bi -> index[j]; + if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + j++; + } else { + if (hhdr->hb_map != GC_invalid_map) { + return((struct hblk *) + (((bi -> key << LOG_BOTTOM_SZ) + j) + << LOG_HBLKSIZE)); + } else { + j += divHBLKSZ(hhdr -> hb_sz); + } + } + } + j = 0; + bi = bi -> asc_link; + } + return(0); +} + +/* Get the last (highest address) block whose address is */ +/* at most h. Return 0 if there is none. */ +/* Unlike the above, this may return a free block. */ +struct hblk * GC_prev_block(h) +struct hblk * h; +{ + register bottom_index * bi; + register signed_word j = ((word)h >> LOG_HBLKSIZE) & (BOTTOM_SZ-1); + + GET_BI(h, bi); + if (bi == GC_all_nils) { + register word hi = (word)h >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE); + bi = GC_all_bottom_indices_end; + while (bi != 0 && bi -> key > hi) bi = bi -> desc_link; + j = BOTTOM_SZ - 1; + } + while(bi != 0) { + while (j >= 0) { + hdr * hhdr = bi -> index[j]; + if (0 == hhdr) { + --j; + } else if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + j -= (signed_word)hhdr; + } else { + return((struct hblk *) + (((bi -> key << LOG_BOTTOM_SZ) + j) + << LOG_HBLKSIZE)); + } + } + j = BOTTOM_SZ - 1; + bi = bi -> desc_link; + } + return(0); +} diff --git a/gc/if_mach.c b/gc/if_mach.c new file mode 100644 index 0000000..af01363 --- /dev/null +++ b/gc/if_mach.c @@ -0,0 +1,25 @@ +/* Conditionally execute a command based on machine and OS from gcconfig.h */ + +# include "gcconfig.h" +# include <stdio.h> + +int main(argc, argv, envp) +int argc; +char ** argv; +char ** envp; +{ + if (argc < 4) goto Usage; + if (strcmp(MACH_TYPE, argv[1]) != 0) return(0); + if (strcmp(OS_TYPE, "") != 0 && strcmp(argv[2], "") != 0 + && strcmp(OS_TYPE, argv[2]) != 0) return(0); + printf("^^^^Starting command^^^^\n"); + execvp(argv[3], argv+3); + perror("Couldn't execute"); + +Usage: + fprintf(stderr, "Usage: %s mach_type os_type command\n", argv[0]); + fprintf(stderr, "Currently mach_type = %s, os_type = %s\n", + MACH_TYPE, OS_TYPE); + return(1); +} + diff --git a/gc/if_not_there.c b/gc/if_not_there.c new file mode 100644 index 0000000..a93795f --- /dev/null +++ b/gc/if_not_there.c @@ -0,0 +1,26 @@ +/* Conditionally execute a command based if the file argv[1] doesn't exist */ +/* Except for execvp, we stick to ANSI C. */ +# include "gcconfig.h" +# include <stdio.h> + +int main(argc, argv, envp) +int argc; +char ** argv; +char ** envp; +{ + FILE * f; + if (argc < 3) goto Usage; + if ((f = fopen(argv[1], "rb")) != 0 + || (f = fopen(argv[1], "r")) != 0) { + fclose(f); + return(0); + } + printf("^^^^Starting command^^^^\n"); + execvp(argv[2], argv+2); + exit(1); + +Usage: + fprintf(stderr, "Usage: %s file_name command\n", argv[0]); + return(1); +} + diff --git a/gc/include/backptr.h b/gc/include/backptr.h new file mode 100644 index 0000000..d34224e --- /dev/null +++ b/gc/include/backptr.h @@ -0,0 +1,56 @@ +/* + * This is a simple API to implement pointer back tracing, i.e. + * to answer questions such as "who is pointing to this" or + * "why is this object being retained by the collector" + * + * This API assumes that we have an ANSI C compiler. + * + * Most of these calls yield useful information on only after + * a garbage collection. Usually the client will first force + * a full collection and then gather information, preferably + * before much intervening allocation. + * + * The implementation of the interface is only about 99.9999% + * correct. It is intended to be good enough for profiling, + * but is not intended to be used with production code. + * + * Results are likely to be much more useful if all allocation is + * accomplished through the debugging allocators. + * + * The implementation idea is due to A. Demers. + */ + +/* Store information about the object referencing dest in *base_p */ +/* and *offset_p. */ +/* If multiple objects or roots point to dest, the one reported */ +/* will be the last on used by the garbage collector to trace the */ +/* object. */ +/* source is root ==> *base_p = address, *offset_p = 0 */ +/* source is heap object ==> *base_p != 0, *offset_p = offset */ +/* Returns 1 on success, 0 if source couldn't be determined. */ +/* Dest can be any address within a heap object. */ +typedef enum { GC_UNREFERENCED, /* No refence info available. */ + GC_NO_SPACE, /* Dest not allocated with debug alloc */ + GC_REFD_FROM_ROOT, /* Referenced directly by root *base_p */ + GC_REFD_FROM_HEAP, /* Referenced from another heap obj. */ + GC_FINALIZER_REFD /* Finalizable and hence accessible. */ +} GC_ref_kind; + +GC_ref_kind GC_get_back_ptr_info(void *dest, void **base_p, size_t *offset_p); + +/* Generate a random heap address. */ +/* The resulting address is in the heap, but */ +/* not necessarily inside a valid object. */ +void * GC_generate_random_heap_address(void); + +/* Generate a random address inside a valid marked heap object. */ +void * GC_generate_random_valid_address(void); + +/* Force a garbage collection and generate a backtrace from a */ +/* random heap address. */ +/* This uses the GC logging mechanism (GC_printf) to produce */ +/* output. It can often be called from a debugger. The */ +/* source in dbg_mlc.c also serves as a sample client. */ +void GC_generate_random_backtrace(void); + + diff --git a/gc/include/cord.h b/gc/include/cord.h new file mode 100644 index 0000000..584112f --- /dev/null +++ b/gc/include/cord.h @@ -0,0 +1,327 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * Author: Hans-J. Boehm (boehm@parc.xerox.com) + */ +/* Boehm, October 5, 1995 4:20 pm PDT */ + +/* + * Cords are immutable character strings. A number of operations + * on long cords are much more efficient than their strings.h counterpart. + * In particular, concatenation takes constant time independent of the length + * of the arguments. (Cords are represented as trees, with internal + * nodes representing concatenation and leaves consisting of either C + * strings or a functional description of the string.) + * + * The following are reasonable applications of cords. They would perform + * unacceptably if C strings were used: + * - A compiler that produces assembly language output by repeatedly + * concatenating instructions onto a cord representing the output file. + * - A text editor that converts the input file to a cord, and then + * performs editing operations by producing a new cord representing + * the file after echa character change (and keeping the old ones in an + * edit history) + * + * For optimal performance, cords should be built by + * concatenating short sections. + * This interface is designed for maximum compatibility with C strings. + * ASCII NUL characters may be embedded in cords using CORD_from_fn. + * This is handled correctly, but CORD_to_char_star will produce a string + * with embedded NULs when given such a cord. + * + * This interface is fairly big, largely for performance reasons. + * The most basic constants and functions: + * + * CORD - the type fo a cord; + * CORD_EMPTY - empty cord; + * CORD_len(cord) - length of a cord; + * CORD_cat(cord1,cord2) - concatenation of two cords; + * CORD_substr(cord, start, len) - substring (or subcord); + * CORD_pos i; CORD_FOR(i, cord) { ... CORD_pos_fetch(i) ... } - + * examine each character in a cord. CORD_pos_fetch(i) is the char. + * CORD_fetch(int i) - Retrieve i'th character (slowly). + * CORD_cmp(cord1, cord2) - compare two cords. + * CORD_from_file(FILE * f) - turn a read-only file into a cord. + * CORD_to_char_star(cord) - convert to C string. + * (Non-NULL C constant strings are cords.) + * CORD_printf (etc.) - cord version of printf. Use %r for cords. + */ +# ifndef CORD_H + +# define CORD_H +# include <stddef.h> +# include <stdio.h> +/* Cords have type const char *. This is cheating quite a bit, and not */ +/* 100% portable. But it means that nonempty character string */ +/* constants may be used as cords directly, provided the string is */ +/* never modified in place. The empty cord is represented by, and */ +/* can be written as, 0. */ + +typedef const char * CORD; + +/* An empty cord is always represented as nil */ +# define CORD_EMPTY 0 + +/* Is a nonempty cord represented as a C string? */ +#define CORD_IS_STRING(s) (*(s) != '\0') + +/* Concatenate two cords. If the arguments are C strings, they may */ +/* not be subsequently altered. */ +CORD CORD_cat(CORD x, CORD y); + +/* Concatenate a cord and a C string with known length. Except for the */ +/* empty string case, this is a special case of CORD_cat. Since the */ +/* length is known, it can be faster. */ +/* The string y is shared with the resulting CORD. Hence it should */ +/* not be altered by the caller. */ +CORD CORD_cat_char_star(CORD x, const char * y, size_t leny); + +/* Compute the length of a cord */ +size_t CORD_len(CORD x); + +/* Cords may be represented by functions defining the ith character */ +typedef char (* CORD_fn)(size_t i, void * client_data); + +/* Turn a functional description into a cord. */ +CORD CORD_from_fn(CORD_fn fn, void * client_data, size_t len); + +/* Return the substring (subcord really) of x with length at most n, */ +/* starting at position i. (The initial character has position 0.) */ +CORD CORD_substr(CORD x, size_t i, size_t n); + +/* Return the argument, but rebalanced to allow more efficient */ +/* character retrieval, substring operations, and comparisons. */ +/* This is useful only for cords that were built using repeated */ +/* concatenation. Guarantees log time access to the result, unless */ +/* x was obtained through a large number of repeated substring ops */ +/* or the embedded functional descriptions take longer to evaluate. */ +/* May reallocate significant parts of the cord. The argument is not */ +/* modified; only the result is balanced. */ +CORD CORD_balance(CORD x); + +/* The following traverse a cord by applying a function to each */ +/* character. This is occasionally appropriate, especially where */ +/* speed is crucial. But, since C doesn't have nested functions, */ +/* clients of this sort of traversal are clumsy to write. Consider */ +/* the functions that operate on cord positions instead. */ + +/* Function to iteratively apply to individual characters in cord. */ +typedef int (* CORD_iter_fn)(char c, void * client_data); + +/* Function to apply to substrings of a cord. Each substring is a */ +/* a C character string, not a general cord. */ +typedef int (* CORD_batched_iter_fn)(const char * s, void * client_data); +# define CORD_NO_FN ((CORD_batched_iter_fn)0) + +/* Apply f1 to each character in the cord, in ascending order, */ +/* starting at position i. If */ +/* f2 is not CORD_NO_FN, then multiple calls to f1 may be replaced by */ +/* a single call to f2. The parameter f2 is provided only to allow */ +/* some optimization by the client. This terminates when the right */ +/* end of this string is reached, or when f1 or f2 return != 0. In the */ +/* latter case CORD_iter returns != 0. Otherwise it returns 0. */ +/* The specified value of i must be < CORD_len(x). */ +int CORD_iter5(CORD x, size_t i, CORD_iter_fn f1, + CORD_batched_iter_fn f2, void * client_data); + +/* A simpler version that starts at 0, and without f2: */ +int CORD_iter(CORD x, CORD_iter_fn f1, void * client_data); +# define CORD_iter(x, f1, cd) CORD_iter5(x, 0, f1, CORD_NO_FN, cd) + +/* Similar to CORD_iter5, but end-to-beginning. No provisions for */ +/* CORD_batched_iter_fn. */ +int CORD_riter4(CORD x, size_t i, CORD_iter_fn f1, void * client_data); + +/* A simpler version that starts at the end: */ +int CORD_riter(CORD x, CORD_iter_fn f1, void * client_data); + +/* Functions that operate on cord positions. The easy way to traverse */ +/* cords. A cord position is logically a pair consisting of a cord */ +/* and an index into that cord. But it is much faster to retrieve a */ +/* charcter based on a position than on an index. Unfortunately, */ +/* positions are big (order of a few 100 bytes), so allocate them with */ +/* caution. */ +/* Things in cord_pos.h should be treated as opaque, except as */ +/* described below. Also note that */ +/* CORD_pos_fetch, CORD_next and CORD_prev have both macro and function */ +/* definitions. The former may evaluate their argument more than once. */ +# include "private/cord_pos.h" + +/* + Visible definitions from above: + + typedef <OPAQUE but fairly big> CORD_pos[1]; + + * Extract the cord from a position: + CORD CORD_pos_to_cord(CORD_pos p); + + * Extract the current index from a position: + size_t CORD_pos_to_index(CORD_pos p); + + * Fetch the character located at the given position: + char CORD_pos_fetch(CORD_pos p); + + * Initialize the position to refer to the given cord and index. + * Note that this is the most expensive function on positions: + void CORD_set_pos(CORD_pos p, CORD x, size_t i); + + * Advance the position to the next character. + * P must be initialized and valid. + * Invalidates p if past end: + void CORD_next(CORD_pos p); + + * Move the position to the preceding character. + * P must be initialized and valid. + * Invalidates p if past beginning: + void CORD_prev(CORD_pos p); + + * Is the position valid, i.e. inside the cord? + int CORD_pos_valid(CORD_pos p); +*/ +# define CORD_FOR(pos, cord) \ + for (CORD_set_pos(pos, cord, 0); CORD_pos_valid(pos); CORD_next(pos)) + + +/* An out of memory handler to call. May be supplied by client. */ +/* Must not return. */ +extern void (* CORD_oom_fn)(void); + +/* Dump the representation of x to stdout in an implementation defined */ +/* manner. Intended for debugging only. */ +void CORD_dump(CORD x); + +/* The following could easily be implemented by the client. They are */ +/* provided in cordxtra.c for convenience. */ + +/* Concatenate a character to the end of a cord. */ +CORD CORD_cat_char(CORD x, char c); + +/* Concatenate n cords. */ +CORD CORD_catn(int n, /* CORD */ ...); + +/* Return the character in CORD_substr(x, i, 1) */ +char CORD_fetch(CORD x, size_t i); + +/* Return < 0, 0, or > 0, depending on whether x < y, x = y, x > y */ +int CORD_cmp(CORD x, CORD y); + +/* A generalization that takes both starting positions for the */ +/* comparison, and a limit on the number of characters to be compared. */ +int CORD_ncmp(CORD x, size_t x_start, CORD y, size_t y_start, size_t len); + +/* Find the first occurrence of s in x at position start or later. */ +/* Return the position of the first character of s in x, or */ +/* CORD_NOT_FOUND if there is none. */ +size_t CORD_str(CORD x, size_t start, CORD s); + +/* Return a cord consisting of i copies of (possibly NUL) c. Dangerous */ +/* in conjunction with CORD_to_char_star. */ +/* The resulting representation takes constant space, independent of i. */ +CORD CORD_chars(char c, size_t i); +# define CORD_nul(i) CORD_chars('\0', (i)) + +/* Turn a file into cord. The file must be seekable. Its contents */ +/* must remain constant. The file may be accessed as an immediate */ +/* result of this call and/or as a result of subsequent accesses to */ +/* the cord. Short files are likely to be immediately read, but */ +/* long files are likely to be read on demand, possibly relying on */ +/* stdio for buffering. */ +/* We must have exclusive access to the descriptor f, i.e. we may */ +/* read it at any time, and expect the file pointer to be */ +/* where we left it. Normally this should be invoked as */ +/* CORD_from_file(fopen(...)) */ +/* CORD_from_file arranges to close the file descriptor when it is no */ +/* longer needed (e.g. when the result becomes inaccessible). */ +/* The file f must be such that ftell reflects the actual character */ +/* position in the file, i.e. the number of characters that can be */ +/* or were read with fread. On UNIX systems this is always true. On */ +/* MS Windows systems, f must be opened in binary mode. */ +CORD CORD_from_file(FILE * f); + +/* Equivalent to the above, except that the entire file will be read */ +/* and the file pointer will be closed immediately. */ +/* The binary mode restriction from above does not apply. */ +CORD CORD_from_file_eager(FILE * f); + +/* Equivalent to the above, except that the file will be read on demand.*/ +/* The binary mode restriction applies. */ +CORD CORD_from_file_lazy(FILE * f); + +/* Turn a cord into a C string. The result shares no structure with */ +/* x, and is thus modifiable. */ +char * CORD_to_char_star(CORD x); + +/* Turn a C string into a CORD. The C string is copied, and so may */ +/* subsequently be modified. */ +CORD CORD_from_char_star(const char *s); + +/* Identical to the above, but the result may share structure with */ +/* the argument and is thus not modifiable. */ +const char * CORD_to_const_char_star(CORD x); + +/* Write a cord to a file, starting at the current position. No */ +/* trailing NULs are newlines are added. */ +/* Returns EOF if a write error occurs, 1 otherwise. */ +int CORD_put(CORD x, FILE * f); + +/* "Not found" result for the following two functions. */ +# define CORD_NOT_FOUND ((size_t)(-1)) + +/* A vague analog of strchr. Returns the position (an integer, not */ +/* a pointer) of the first occurrence of (char) c inside x at position */ +/* i or later. The value i must be < CORD_len(x). */ +size_t CORD_chr(CORD x, size_t i, int c); + +/* A vague analog of strrchr. Returns index of the last occurrence */ +/* of (char) c inside x at position i or earlier. The value i */ +/* must be < CORD_len(x). */ +size_t CORD_rchr(CORD x, size_t i, int c); + + +/* The following are also not primitive, but are implemented in */ +/* cordprnt.c. They provide functionality similar to the ANSI C */ +/* functions with corresponding names, but with the following */ +/* additions and changes: */ +/* 1. A %r conversion specification specifies a CORD argument. Field */ +/* width, precision, etc. have the same semantics as for %s. */ +/* (Note that %c,%C, and %S were already taken.) */ +/* 2. The format string is represented as a CORD. */ +/* 3. CORD_sprintf and CORD_vsprintf assign the result through the 1st */ /* argument. Unlike their ANSI C versions, there is no need to guess */ +/* the correct buffer size. */ +/* 4. Most of the conversions are implement through the native */ +/* vsprintf. Hence they are usually no faster, and */ +/* idiosyncracies of the native printf are preserved. However, */ +/* CORD arguments to CORD_sprintf and CORD_vsprintf are NOT copied; */ +/* the result shares the original structure. This may make them */ +/* very efficient in some unusual applications. */ +/* The format string is copied. */ +/* All functions return the number of characters generated or -1 on */ +/* error. This complies with the ANSI standard, but is inconsistent */ +/* with some older implementations of sprintf. */ + +/* The implementation of these is probably less portable than the rest */ +/* of this package. */ + +#ifndef CORD_NO_IO + +#include <stdarg.h> + +int CORD_sprintf(CORD * out, CORD format, ...); +int CORD_vsprintf(CORD * out, CORD format, va_list args); +int CORD_fprintf(FILE * f, CORD format, ...); +int CORD_vfprintf(FILE * f, CORD format, va_list args); +int CORD_printf(CORD format, ...); +int CORD_vprintf(CORD format, va_list args); + +#endif /* CORD_NO_IO */ + +# endif /* CORD_H */ diff --git a/gc/include/ec.h b/gc/include/ec.h new file mode 100644 index 0000000..c829b83 --- /dev/null +++ b/gc/include/ec.h @@ -0,0 +1,70 @@ +# ifndef EC_H +# define EC_H + +# ifndef CORD_H +# include "cord.h" +# endif + +/* Extensible cords are strings that may be destructively appended to. */ +/* They allow fast construction of cords from characters that are */ +/* being read from a stream. */ +/* + * A client might look like: + * + * { + * CORD_ec x; + * CORD result; + * char c; + * FILE *f; + * + * ... + * CORD_ec_init(x); + * while(...) { + * c = getc(f); + * ... + * CORD_ec_append(x, c); + * } + * result = CORD_balance(CORD_ec_to_cord(x)); + * + * If a C string is desired as the final result, the call to CORD_balance + * may be replaced by a call to CORD_to_char_star. + */ + +# ifndef CORD_BUFSZ +# define CORD_BUFSZ 128 +# endif + +typedef struct CORD_ec_struct { + CORD ec_cord; + char * ec_bufptr; + char ec_buf[CORD_BUFSZ+1]; +} CORD_ec[1]; + +/* This structure represents the concatenation of ec_cord with */ +/* ec_buf[0 ... (ec_bufptr-ec_buf-1)] */ + +/* Flush the buffer part of the extended chord into ec_cord. */ +/* Note that this is almost the only real function, and it is */ +/* implemented in 6 lines in cordxtra.c */ +void CORD_ec_flush_buf(CORD_ec x); + +/* Convert an extensible cord to a cord. */ +# define CORD_ec_to_cord(x) (CORD_ec_flush_buf(x), (x)[0].ec_cord) + +/* Initialize an extensible cord. */ +# define CORD_ec_init(x) ((x)[0].ec_cord = 0, (x)[0].ec_bufptr = (x)[0].ec_buf) + +/* Append a character to an extensible cord. */ +# define CORD_ec_append(x, c) \ + { \ + if ((x)[0].ec_bufptr == (x)[0].ec_buf + CORD_BUFSZ) { \ + CORD_ec_flush_buf(x); \ + } \ + *((x)[0].ec_bufptr)++ = (c); \ + } + +/* Append a cord to an extensible cord. Structure remains shared with */ +/* original. */ +void CORD_ec_append_cord(CORD_ec x, CORD s); + +# endif /* EC_H */ diff --git a/gc/include/gc.h b/gc/include/gc.h new file mode 100644 index 0000000..3061409 --- /dev/null +++ b/gc/include/gc.h @@ -0,0 +1,754 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * Copyright 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +/* + * Note that this defines a large number of tuning hooks, which can + * safely be ignored in nearly all cases. For normal use it suffices + * to call only GC_MALLOC and perhaps GC_REALLOC. + * For better performance, also look at GC_MALLOC_ATOMIC, and + * GC_enable_incremental. If you need an action to be performed + * immediately before an object is collected, look at GC_register_finalizer. + * If you are using Solaris threads, look at the end of this file. + * Everything else is best ignored unless you encounter performance + * problems. + */ + +#ifndef _GC_H + +# define _GC_H +# define __GC +# include <stddef.h> + +#if defined(__CYGWIN32__) && defined(GC_USE_DLL) +#include "libgc_globals.h" +#endif + +#if defined(_MSC_VER) && defined(_DLL) +# ifdef GC_BUILD +# define GC_API __declspec(dllexport) +# else +# define GC_API __declspec(dllimport) +# endif +#endif + +#if defined(__WATCOMC__) && defined(GC_DLL) +# ifdef GC_BUILD +# define GC_API extern __declspec(dllexport) +# else +# define GC_API extern __declspec(dllimport) +# endif +#endif + +#ifndef GC_API +#define GC_API extern +#endif + +# if defined(__STDC__) || defined(__cplusplus) +# define GC_PROTO(args) args + typedef void * GC_PTR; +# else +# define GC_PROTO(args) () + typedef char * GC_PTR; +# endif + +# ifdef __cplusplus + extern "C" { +# endif + + +/* Define word and signed_word to be unsigned and signed types of the */ +/* size as char * or void *. There seems to be no way to do this */ +/* even semi-portably. The following is probably no better/worse */ +/* than almost anything else. */ +/* The ANSI standard suggests that size_t and ptr_diff_t might be */ +/* better choices. But those appear to have incorrect definitions */ +/* on may systems. Notably "typedef int size_t" seems to be both */ +/* frequent and WRONG. */ +typedef unsigned long GC_word; +typedef long GC_signed_word; + +/* Public read-only variables */ + +GC_API GC_word GC_gc_no;/* Counter incremented per collection. */ + /* Includes empty GCs at startup. */ + + +/* Public R/W variables */ + +GC_API GC_PTR (*GC_oom_fn) GC_PROTO((size_t bytes_requested)); + /* When there is insufficient memory to satisfy */ + /* an allocation request, we return */ + /* (*GC_oom_fn)(). By default this just */ + /* returns 0. */ + /* If it returns, it must return 0 or a valid */ + /* pointer to a previously allocated heap */ + /* object. */ + +GC_API int GC_find_leak; + /* Do not actually garbage collect, but simply */ + /* report inaccessible memory that was not */ + /* deallocated with GC_free. Initial value */ + /* is determined by FIND_LEAK macro. */ + +GC_API int GC_quiet; /* Disable statistics output. Only matters if */ + /* collector has been compiled with statistics */ + /* enabled. This involves a performance cost, */ + /* and is thus not the default. */ + +GC_API int GC_finalize_on_demand; + /* If nonzero, finalizers will only be run in */ + /* response to an eplit GC_invoke_finalizers */ + /* call. The default is determined by whether */ + /* the FINALIZE_ON_DEMAND macro is defined */ + /* when the collector is built. */ + +GC_API int GC_java_finalization; + /* Mark objects reachable from finalizable */ + /* objects in a separate postpass. This makes */ + /* it a bit safer to use non-topologically- */ + /* ordered finalization. Default value is */ + /* determined by JAVA_FINALIZATION macro. */ + +GC_API int GC_dont_gc; /* Dont collect unless explicitly requested, e.g. */ + /* because it's not safe. */ + +GC_API int GC_dont_expand; + /* Dont expand heap unless explicitly requested */ + /* or forced to. */ + +GC_API int GC_full_freq; /* Number of partial collections between */ + /* full collections. Matters only if */ + /* GC_incremental is set. */ + +GC_API GC_word GC_non_gc_bytes; + /* Bytes not considered candidates for collection. */ + /* Used only to control scheduling of collections. */ + +GC_API GC_word GC_free_space_divisor; + /* We try to make sure that we allocate at */ + /* least N/GC_free_space_divisor bytes between */ + /* collections, where N is the heap size plus */ + /* a rough estimate of the root set size. */ + /* Initially, GC_free_space_divisor = 4. */ + /* Increasing its value will use less space */ + /* but more collection time. Decreasing it */ + /* will appreciably decrease collection time */ + /* at the expense of space. */ + /* GC_free_space_divisor = 1 will effectively */ + /* disable collections. */ + +GC_API GC_word GC_max_retries; + /* The maximum number of GCs attempted before */ + /* reporting out of memory after heap */ + /* expansion fails. Initially 0. */ + + +GC_API char *GC_stackbottom; /* Cool end of user stack. */ + /* May be set in the client prior to */ + /* calling any GC_ routines. This */ + /* avoids some overhead, and */ + /* potentially some signals that can */ + /* confuse debuggers. Otherwise the */ + /* collector attempts to set it */ + /* automatically. */ + /* For multithreaded code, this is the */ + /* cold end of the stack for the */ + /* primordial thread. */ + +/* Public procedures */ +/* + * general purpose allocation routines, with roughly malloc calling conv. + * The atomic versions promise that no relevant pointers are contained + * in the object. The nonatomic versions guarantee that the new object + * is cleared. GC_malloc_stubborn promises that no changes to the object + * will occur after GC_end_stubborn_change has been called on the + * result of GC_malloc_stubborn. GC_malloc_uncollectable allocates an object + * that is scanned for pointers to collectable objects, but is not itself + * collectable. GC_malloc_uncollectable and GC_free called on the resulting + * object implicitly update GC_non_gc_bytes appropriately. + */ +GC_API GC_PTR GC_malloc GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_atomic GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_uncollectable GC_PROTO((size_t size_in_bytes)); +GC_API GC_PTR GC_malloc_stubborn GC_PROTO((size_t size_in_bytes)); + +/* The following is only defined if the library has been suitably */ +/* compiled: */ +GC_API GC_PTR GC_malloc_atomic_uncollectable GC_PROTO((size_t size_in_bytes)); + +/* Explicitly deallocate an object. Dangerous if used incorrectly. */ +/* Requires a pointer to the base of an object. */ +/* If the argument is stubborn, it should not be changeable when freed. */ +/* An object should not be enable for finalization when it is */ +/* explicitly deallocated. */ +/* GC_free(0) is a no-op, as required by ANSI C for free. */ +GC_API void GC_free GC_PROTO((GC_PTR object_addr)); + +/* + * Stubborn objects may be changed only if the collector is explicitly informed. + * The collector is implicitly informed of coming change when such + * an object is first allocated. The following routines inform the + * collector that an object will no longer be changed, or that it will + * once again be changed. Only nonNIL pointer stores into the object + * are considered to be changes. The argument to GC_end_stubborn_change + * must be exacly the value returned by GC_malloc_stubborn or passed to + * GC_change_stubborn. (In the second case it may be an interior pointer + * within 512 bytes of the beginning of the objects.) + * There is a performance penalty for allowing more than + * one stubborn object to be changed at once, but it is acceptable to + * do so. The same applies to dropping stubborn objects that are still + * changeable. + */ +GC_API void GC_change_stubborn GC_PROTO((GC_PTR)); +GC_API void GC_end_stubborn_change GC_PROTO((GC_PTR)); + +/* Return a pointer to the base (lowest address) of an object given */ +/* a pointer to a location within the object. */ +/* Return 0 if displaced_pointer doesn't point to within a valid */ +/* object. */ +GC_API GC_PTR GC_base GC_PROTO((GC_PTR displaced_pointer)); + +/* Given a pointer to the base of an object, return its size in bytes. */ +/* The returned size may be slightly larger than what was originally */ +/* requested. */ +GC_API size_t GC_size GC_PROTO((GC_PTR object_addr)); + +/* For compatibility with C library. This is occasionally faster than */ +/* a malloc followed by a bcopy. But if you rely on that, either here */ +/* or with the standard C library, your code is broken. In my */ +/* opinion, it shouldn't have been invented, but now we're stuck. -HB */ +/* The resulting object has the same kind as the original. */ +/* If the argument is stubborn, the result will have changes enabled. */ +/* It is an error to have changes enabled for the original object. */ +/* Follows ANSI comventions for NULL old_object. */ +GC_API GC_PTR GC_realloc + GC_PROTO((GC_PTR old_object, size_t new_size_in_bytes)); + +/* Explicitly increase the heap size. */ +/* Returns 0 on failure, 1 on success. */ +GC_API int GC_expand_hp GC_PROTO((size_t number_of_bytes)); + +/* Limit the heap size to n bytes. Useful when you're debugging, */ +/* especially on systems that don't handle running out of memory well. */ +/* n == 0 ==> unbounded. This is the default. */ +GC_API void GC_set_max_heap_size GC_PROTO((GC_word n)); + +/* Inform the collector that a certain section of statically allocated */ +/* memory contains no pointers to garbage collected memory. Thus it */ +/* need not be scanned. This is sometimes important if the application */ +/* maps large read/write files into the address space, which could be */ +/* mistaken for dynamic library data segments on some systems. */ +GC_API void GC_exclude_static_roots GC_PROTO((GC_PTR start, GC_PTR finish)); + +/* Clear the set of root segments. Wizards only. */ +GC_API void GC_clear_roots GC_PROTO((void)); + +/* Add a root segment. Wizards only. */ +GC_API void GC_add_roots GC_PROTO((char * low_address, + char * high_address_plus_1)); + +/* Add a displacement to the set of those considered valid by the */ +/* collector. GC_register_displacement(n) means that if p was returned */ +/* by GC_malloc, then (char *)p + n will be considered to be a valid */ +/* pointer to n. N must be small and less than the size of p. */ +/* (All pointers to the interior of objects from the stack are */ +/* considered valid in any case. This applies to heap objects and */ +/* static data.) */ +/* Preferably, this should be called before any other GC procedures. */ +/* Calling it later adds to the probability of excess memory */ +/* retention. */ +/* This is a no-op if the collector was compiled with recognition of */ +/* arbitrary interior pointers enabled, which is now the default. */ +GC_API void GC_register_displacement GC_PROTO((GC_word n)); + +/* The following version should be used if any debugging allocation is */ +/* being done. */ +GC_API void GC_debug_register_displacement GC_PROTO((GC_word n)); + +/* Explicitly trigger a full, world-stop collection. */ +GC_API void GC_gcollect GC_PROTO((void)); + +/* Trigger a full world-stopped collection. Abort the collection if */ +/* and when stop_func returns a nonzero value. Stop_func will be */ +/* called frequently, and should be reasonably fast. This works even */ +/* if virtual dirty bits, and hence incremental collection is not */ +/* available for this architecture. Collections can be aborted faster */ +/* than normal pause times for incremental collection. However, */ +/* aborted collections do no useful work; the next collection needs */ +/* to start from the beginning. */ +/* Return 0 if the collection was aborted, 1 if it succeeded. */ +typedef int (* GC_stop_func) GC_PROTO((void)); +GC_API int GC_try_to_collect GC_PROTO((GC_stop_func stop_func)); + +/* Return the number of bytes in the heap. Excludes collector private */ +/* data structures. Includes empty blocks and fragmentation loss. */ +/* Includes some pages that were allocated but never written. */ +GC_API size_t GC_get_heap_size GC_PROTO((void)); + +/* Return the number of bytes allocated since the last collection. */ +GC_API size_t GC_get_bytes_since_gc GC_PROTO((void)); + +/* Enable incremental/generational collection. */ +/* Not advisable unless dirty bits are */ +/* available or most heap objects are */ +/* pointerfree(atomic) or immutable. */ +/* Don't use in leak finding mode. */ +/* Ignored if GC_dont_gc is true. */ +GC_API void GC_enable_incremental GC_PROTO((void)); + +/* Perform some garbage collection work, if appropriate. */ +/* Return 0 if there is no more work to be done. */ +/* Typically performs an amount of work corresponding roughly */ +/* to marking from one page. May do more work if further */ +/* progress requires it, e.g. if incremental collection is */ +/* disabled. It is reasonable to call this in a wait loop */ +/* until it returns 0. */ +GC_API int GC_collect_a_little GC_PROTO((void)); + +/* Allocate an object of size lb bytes. The client guarantees that */ +/* as long as the object is live, it will be referenced by a pointer */ +/* that points to somewhere within the first 256 bytes of the object. */ +/* (This should normally be declared volatile to prevent the compiler */ +/* from invalidating this assertion.) This routine is only useful */ +/* if a large array is being allocated. It reduces the chance of */ +/* accidentally retaining such an array as a result of scanning an */ +/* integer that happens to be an address inside the array. (Actually, */ +/* it reduces the chance of the allocator not finding space for such */ +/* an array, since it will try hard to avoid introducing such a false */ +/* reference.) On a SunOS 4.X or MS Windows system this is recommended */ +/* for arrays likely to be larger than 100K or so. For other systems, */ +/* or if the collector is not configured to recognize all interior */ +/* pointers, the threshold is normally much higher. */ +GC_API GC_PTR GC_malloc_ignore_off_page GC_PROTO((size_t lb)); +GC_API GC_PTR GC_malloc_atomic_ignore_off_page GC_PROTO((size_t lb)); + +#if defined(__sgi) && !defined(__GNUC__) && _COMPILER_VERSION >= 720 +# define GC_ADD_CALLER +# define GC_RETURN_ADDR (GC_word)__return_address +#endif + +#ifdef GC_ADD_CALLER +# define GC_EXTRAS GC_RETURN_ADDR, __FILE__, __LINE__ +# define GC_EXTRA_PARAMS GC_word ra, char * descr_string, int descr_int +#else +# define GC_EXTRAS __FILE__, __LINE__ +# define GC_EXTRA_PARAMS char * descr_string, int descr_int +#endif + +/* Debugging (annotated) allocation. GC_gcollect will check */ +/* objects allocated in this way for overwrites, etc. */ +GC_API GC_PTR GC_debug_malloc + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_atomic + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_uncollectable + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API GC_PTR GC_debug_malloc_stubborn + GC_PROTO((size_t size_in_bytes, GC_EXTRA_PARAMS)); +GC_API void GC_debug_free GC_PROTO((GC_PTR object_addr)); +GC_API GC_PTR GC_debug_realloc + GC_PROTO((GC_PTR old_object, size_t new_size_in_bytes, + GC_EXTRA_PARAMS)); + +GC_API void GC_debug_change_stubborn GC_PROTO((GC_PTR)); +GC_API void GC_debug_end_stubborn_change GC_PROTO((GC_PTR)); +# ifdef GC_DEBUG +# define GC_MALLOC(sz) GC_debug_malloc(sz, GC_EXTRAS) +# define GC_MALLOC_ATOMIC(sz) GC_debug_malloc_atomic(sz, GC_EXTRAS) +# define GC_MALLOC_UNCOLLECTABLE(sz) GC_debug_malloc_uncollectable(sz, \ + GC_EXTRAS) +# define GC_REALLOC(old, sz) GC_debug_realloc(old, sz, GC_EXTRAS) +# define GC_FREE(p) GC_debug_free(p) +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_debug_register_finalizer(p, f, d, of, od) +# define GC_REGISTER_FINALIZER_IGNORE_SELF(p, f, d, of, od) \ + GC_debug_register_finalizer_ignore_self(p, f, d, of, od) +# define GC_MALLOC_STUBBORN(sz) GC_debug_malloc_stubborn(sz, GC_EXTRAS); +# define GC_CHANGE_STUBBORN(p) GC_debug_change_stubborn(p) +# define GC_END_STUBBORN_CHANGE(p) GC_debug_end_stubborn_change(p) +# define GC_GENERAL_REGISTER_DISAPPEARING_LINK(link, obj) \ + GC_general_register_disappearing_link(link, GC_base(obj)) +# define GC_REGISTER_DISPLACEMENT(n) GC_debug_register_displacement(n) +# else +# define GC_MALLOC(sz) GC_malloc(sz) +# define GC_MALLOC_ATOMIC(sz) GC_malloc_atomic(sz) +# define GC_MALLOC_UNCOLLECTABLE(sz) GC_malloc_uncollectable(sz) +# define GC_REALLOC(old, sz) GC_realloc(old, sz) +# define GC_FREE(p) GC_free(p) +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_register_finalizer(p, f, d, of, od) +# define GC_REGISTER_FINALIZER_IGNORE_SELF(p, f, d, of, od) \ + GC_register_finalizer_ignore_self(p, f, d, of, od) +# define GC_MALLOC_STUBBORN(sz) GC_malloc_stubborn(sz) +# define GC_CHANGE_STUBBORN(p) GC_change_stubborn(p) +# define GC_END_STUBBORN_CHANGE(p) GC_end_stubborn_change(p) +# define GC_GENERAL_REGISTER_DISAPPEARING_LINK(link, obj) \ + GC_general_register_disappearing_link(link, obj) +# define GC_REGISTER_DISPLACEMENT(n) GC_register_displacement(n) +# endif +/* The following are included because they are often convenient, and */ +/* reduce the chance for a misspecifed size argument. But calls may */ +/* expand to something syntactically incorrect if t is a complicated */ +/* type expression. */ +# define GC_NEW(t) (t *)GC_MALLOC(sizeof (t)) +# define GC_NEW_ATOMIC(t) (t *)GC_MALLOC_ATOMIC(sizeof (t)) +# define GC_NEW_STUBBORN(t) (t *)GC_MALLOC_STUBBORN(sizeof (t)) +# define GC_NEW_UNCOLLECTABLE(t) (t *)GC_MALLOC_UNCOLLECTABLE(sizeof (t)) + +/* Finalization. Some of these primitives are grossly unsafe. */ +/* The idea is to make them both cheap, and sufficient to build */ +/* a safer layer, closer to PCedar finalization. */ +/* The interface represents my conclusions from a long discussion */ +/* with Alan Demers, Dan Greene, Carl Hauser, Barry Hayes, */ +/* Christian Jacobi, and Russ Atkinson. It's not perfect, and */ +/* probably nobody else agrees with it. Hans-J. Boehm 3/13/92 */ +typedef void (*GC_finalization_proc) + GC_PROTO((GC_PTR obj, GC_PTR client_data)); + +GC_API void GC_register_finalizer + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); +GC_API void GC_debug_register_finalizer + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + /* When obj is no longer accessible, invoke */ + /* (*fn)(obj, cd). If a and b are inaccessible, and */ + /* a points to b (after disappearing links have been */ + /* made to disappear), then only a will be */ + /* finalized. (If this does not create any new */ + /* pointers to b, then b will be finalized after the */ + /* next collection.) Any finalizable object that */ + /* is reachable from itself by following one or more */ + /* pointers will not be finalized (or collected). */ + /* Thus cycles involving finalizable objects should */ + /* be avoided, or broken by disappearing links. */ + /* All but the last finalizer registered for an object */ + /* is ignored. */ + /* Finalization may be removed by passing 0 as fn. */ + /* Finalizers are implicitly unregistered just before */ + /* they are invoked. */ + /* The old finalizer and client data are stored in */ + /* *ofn and *ocd. */ + /* Fn is never invoked on an accessible object, */ + /* provided hidden pointers are converted to real */ + /* pointers only if the allocation lock is held, and */ + /* such conversions are not performed by finalization */ + /* routines. */ + /* If GC_register_finalizer is aborted as a result of */ + /* a signal, the object may be left with no */ + /* finalization, even if neither the old nor new */ + /* finalizer were NULL. */ + /* Obj should be the nonNULL starting address of an */ + /* object allocated by GC_malloc or friends. */ + /* Note that any garbage collectable object referenced */ + /* by cd will be considered accessible until the */ + /* finalizer is invoked. */ + +/* Another versions of the above follow. It ignores */ +/* self-cycles, i.e. pointers from a finalizable object to */ +/* itself. There is a stylistic argument that this is wrong, */ +/* but it's unavoidable for C++, since the compiler may */ +/* silently introduce these. It's also benign in that specific */ +/* case. */ +GC_API void GC_register_finalizer_ignore_self + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); +GC_API void GC_debug_register_finalizer_ignore_self + GC_PROTO((GC_PTR obj, GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR *ocd)); + +/* The following routine may be used to break cycles between */ +/* finalizable objects, thus causing cyclic finalizable */ +/* objects to be finalized in the correct order. Standard */ +/* use involves calling GC_register_disappearing_link(&p), */ +/* where p is a pointer that is not followed by finalization */ +/* code, and should not be considered in determining */ +/* finalization order. */ +GC_API int GC_register_disappearing_link GC_PROTO((GC_PTR * /* link */)); + /* Link should point to a field of a heap allocated */ + /* object obj. *link will be cleared when obj is */ + /* found to be inaccessible. This happens BEFORE any */ + /* finalization code is invoked, and BEFORE any */ + /* decisions about finalization order are made. */ + /* This is useful in telling the finalizer that */ + /* some pointers are not essential for proper */ + /* finalization. This may avoid finalization cycles. */ + /* Note that obj may be resurrected by another */ + /* finalizer, and thus the clearing of *link may */ + /* be visible to non-finalization code. */ + /* There's an argument that an arbitrary action should */ + /* be allowed here, instead of just clearing a pointer. */ + /* But this causes problems if that action alters, or */ + /* examines connectivity. */ + /* Returns 1 if link was already registered, 0 */ + /* otherwise. */ + /* Only exists for backward compatibility. See below: */ + +GC_API int GC_general_register_disappearing_link + GC_PROTO((GC_PTR * /* link */, GC_PTR obj)); + /* A slight generalization of the above. *link is */ + /* cleared when obj first becomes inaccessible. This */ + /* can be used to implement weak pointers easily and */ + /* safely. Typically link will point to a location */ + /* holding a disguised pointer to obj. (A pointer */ + /* inside an "atomic" object is effectively */ + /* disguised.) In this way soft */ + /* pointers are broken before any object */ + /* reachable from them are finalized. Each link */ + /* May be registered only once, i.e. with one obj */ + /* value. This was added after a long email discussion */ + /* with John Ellis. */ + /* Obj must be a pointer to the first word of an object */ + /* we allocated. It is unsafe to explicitly deallocate */ + /* the object containing link. Explicitly deallocating */ + /* obj may or may not cause link to eventually be */ + /* cleared. */ +GC_API int GC_unregister_disappearing_link GC_PROTO((GC_PTR * /* link */)); + /* Returns 0 if link was not actually registered. */ + /* Undoes a registration by either of the above two */ + /* routines. */ + +/* Auxiliary fns to make finalization work correctly with displaced */ +/* pointers introduced by the debugging allocators. */ +GC_API GC_PTR GC_make_closure GC_PROTO((GC_finalization_proc fn, GC_PTR data)); +GC_API void GC_debug_invoke_finalizer GC_PROTO((GC_PTR obj, GC_PTR data)); + +GC_API int GC_invoke_finalizers GC_PROTO((void)); + /* Run finalizers for all objects that are ready to */ + /* be finalized. Return the number of finalizers */ + /* that were run. Normally this is also called */ + /* implicitly during some allocations. If */ + /* GC-finalize_on_demand is nonzero, it must be called */ + /* explicitly. */ + +/* GC_set_warn_proc can be used to redirect or filter warning messages. */ +/* p may not be a NULL pointer. */ +typedef void (*GC_warn_proc) GC_PROTO((char *msg, GC_word arg)); +GC_API GC_warn_proc GC_set_warn_proc GC_PROTO((GC_warn_proc p)); + /* Returns old warning procedure. */ + +/* The following is intended to be used by a higher level */ +/* (e.g. cedar-like) finalization facility. It is expected */ +/* that finalization code will arrange for hidden pointers to */ +/* disappear. Otherwise objects can be accessed after they */ +/* have been collected. */ +/* Note that putting pointers in atomic objects or in */ +/* nonpointer slots of "typed" objects is equivalent to */ +/* disguising them in this way, and may have other advantages. */ +# if defined(I_HIDE_POINTERS) || defined(GC_I_HIDE_POINTERS) + typedef GC_word GC_hidden_pointer; +# define HIDE_POINTER(p) (~(GC_hidden_pointer)(p)) +# define REVEAL_POINTER(p) ((GC_PTR)(HIDE_POINTER(p))) + /* Converting a hidden pointer to a real pointer requires verifying */ + /* that the object still exists. This involves acquiring the */ + /* allocator lock to avoid a race with the collector. */ +# endif /* I_HIDE_POINTERS */ + +typedef GC_PTR (*GC_fn_type) GC_PROTO((GC_PTR client_data)); +GC_API GC_PTR GC_call_with_alloc_lock + GC_PROTO((GC_fn_type fn, GC_PTR client_data)); + +/* Check that p and q point to the same object. */ +/* Fail conspicuously if they don't. */ +/* Returns the first argument. */ +/* Succeeds if neither p nor q points to the heap. */ +/* May succeed if both p and q point to between heap objects. */ +GC_API GC_PTR GC_same_obj GC_PROTO((GC_PTR p, GC_PTR q)); + +/* Checked pointer pre- and post- increment operations. Note that */ +/* the second argument is in units of bytes, not multiples of the */ +/* object size. This should either be invoked from a macro, or the */ +/* call should be automatically generated. */ +GC_API GC_PTR GC_pre_incr GC_PROTO((GC_PTR *p, size_t how_much)); +GC_API GC_PTR GC_post_incr GC_PROTO((GC_PTR *p, size_t how_much)); + +/* Check that p is visible */ +/* to the collector as a possibly pointer containing location. */ +/* If it isn't fail conspicuously. */ +/* Returns the argument in all cases. May erroneously succeed */ +/* in hard cases. (This is intended for debugging use with */ +/* untyped allocations. The idea is that it should be possible, though */ +/* slow, to add such a call to all indirect pointer stores.) */ +/* Currently useless for multithreaded worlds. */ +GC_API GC_PTR GC_is_visible GC_PROTO((GC_PTR p)); + +/* Check that if p is a pointer to a heap page, then it points to */ +/* a valid displacement within a heap object. */ +/* Fail conspicuously if this property does not hold. */ +/* Uninteresting with ALL_INTERIOR_POINTERS. */ +/* Always returns its argument. */ +GC_API GC_PTR GC_is_valid_displacement GC_PROTO((GC_PTR p)); + +/* Safer, but slow, pointer addition. Probably useful mainly with */ +/* a preprocessor. Useful only for heap pointers. */ +#ifdef GC_DEBUG +# define GC_PTR_ADD3(x, n, type_of_result) \ + ((type_of_result)GC_same_obj((x)+(n), (x))) +# define GC_PRE_INCR3(x, n, type_of_result) \ + ((type_of_result)GC_pre_incr(&(x), (n)*sizeof(*x)) +# define GC_POST_INCR2(x, type_of_result) \ + ((type_of_result)GC_post_incr(&(x), sizeof(*x)) +# ifdef __GNUC__ +# define GC_PTR_ADD(x, n) \ + GC_PTR_ADD3(x, n, typeof(x)) +# define GC_PRE_INCR(x, n) \ + GC_PRE_INCR3(x, n, typeof(x)) +# define GC_POST_INCR(x, n) \ + GC_POST_INCR3(x, typeof(x)) +# else + /* We can't do this right without typeof, which ANSI */ + /* decided was not sufficiently useful. Repeatedly */ + /* mentioning the arguments seems too dangerous to be */ + /* useful. So does not casting the result. */ +# define GC_PTR_ADD(x, n) ((x)+(n)) +# endif +#else /* !GC_DEBUG */ +# define GC_PTR_ADD3(x, n, type_of_result) ((x)+(n)) +# define GC_PTR_ADD(x, n) ((x)+(n)) +# define GC_PRE_INCR3(x, n, type_of_result) ((x) += (n)) +# define GC_PRE_INCR(x, n) ((x) += (n)) +# define GC_POST_INCR2(x, n, type_of_result) ((x)++) +# define GC_POST_INCR(x, n) ((x)++) +#endif + +/* Safer assignment of a pointer to a nonstack location. */ +#ifdef GC_DEBUG +# ifdef __STDC__ +# define GC_PTR_STORE(p, q) \ + (*(void **)GC_is_visible(p) = GC_is_valid_displacement(q)) +# else +# define GC_PTR_STORE(p, q) \ + (*(char **)GC_is_visible(p) = GC_is_valid_displacement(q)) +# endif +#else /* !GC_DEBUG */ +# define GC_PTR_STORE(p, q) *((p) = (q)) +#endif + +/* Fynctions called to report pointer checking errors */ +GC_API void (*GC_same_obj_print_proc) GC_PROTO((GC_PTR p, GC_PTR q)); + +GC_API void (*GC_is_valid_displacement_print_proc) + GC_PROTO((GC_PTR p)); + +GC_API void (*GC_is_visible_print_proc) + GC_PROTO((GC_PTR p)); + +#if defined(_SOLARIS_PTHREADS) && !defined(SOLARIS_THREADS) +# define SOLARIS_THREADS +#endif + +#ifdef SOLARIS_THREADS +/* We need to intercept calls to many of the threads primitives, so */ +/* that we can locate thread stacks and stop the world. */ +/* Note also that the collector cannot see thread specific data. */ +/* Thread specific data should generally consist of pointers to */ +/* uncollectable objects, which are deallocated using the destructor */ +/* facility in thr_keycreate. */ +# include <thread.h> +# include <signal.h> + int GC_thr_create(void *stack_base, size_t stack_size, + void *(*start_routine)(void *), void *arg, long flags, + thread_t *new_thread); + int GC_thr_join(thread_t wait_for, thread_t *departed, void **status); + int GC_thr_suspend(thread_t target_thread); + int GC_thr_continue(thread_t target_thread); + void * GC_dlopen(const char *path, int mode); + +# ifdef _SOLARIS_PTHREADS +# include <pthread.h> + extern int GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void * (*thread_execp)(void *), void *arg); + extern int GC_pthread_join(pthread_t wait_for, void **status); + +# undef thread_t + +# define pthread_join GC_pthread_join +# define pthread_create GC_pthread_create +#endif + +# define thr_create GC_thr_create +# define thr_join GC_thr_join +# define thr_suspend GC_thr_suspend +# define thr_continue GC_thr_continue +# define dlopen GC_dlopen + +# endif /* SOLARIS_THREADS */ + + +#if defined(IRIX_THREADS) || defined(LINUX_THREADS) +/* We treat these similarly. */ +# include <pthread.h> +# include <signal.h> + + int GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void *(*start_routine)(void *), void *arg); + int GC_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset); + int GC_pthread_join(pthread_t thread, void **retval); + +# define pthread_create GC_pthread_create +# define pthread_sigmask GC_pthread_sigmask +# define pthread_join GC_pthread_join + +#endif /* IRIX_THREADS || LINUX_THREADS */ + +# if defined(PCR) || defined(SOLARIS_THREADS) || defined(WIN32_THREADS) || \ + defined(IRIX_THREADS) || defined(LINUX_THREADS) || \ + defined(IRIX_JDK_THREADS) + /* Any flavor of threads except SRC_M3. */ +/* This returns a list of objects, linked through their first */ +/* word. Its use can greatly reduce lock contention problems, since */ +/* the allocation lock can be acquired and released many fewer times. */ +/* lb must be large enough to hold the pointer field. */ +GC_PTR GC_malloc_many(size_t lb); +#define GC_NEXT(p) (*(GC_PTR *)(p)) /* Retrieve the next element */ + /* in returned list. */ +extern void GC_thr_init(); /* Needed for Solaris/X86 */ + +#endif /* THREADS && !SRC_M3 */ + +/* + * If you are planning on putting + * the collector in a SunOS 5 dynamic library, you need to call GC_INIT() + * from the statically loaded program section. + * This circumvents a Solaris 2.X (X<=4) linker bug. + */ +#if defined(sparc) || defined(__sparc) +# define GC_INIT() { extern end, etext; \ + GC_noop(&end, &etext); } +#else +# if defined(__CYGWIN32__) && defined(GC_USE_DLL) + /* + * Similarly gnu-win32 DLLs need explicit initialization + */ +# define GC_INIT() { GC_add_roots(DATASTART, DATAEND); } +# else +# define GC_INIT() +# endif +#endif + +#if (defined(_MSDOS) || defined(_MSC_VER)) && (_M_IX86 >= 300) \ + || defined(_WIN32) + /* win32S may not free all resources on process exit. */ + /* This explicitly deallocates the heap. */ + GC_API void GC_win32_free_heap (); +#endif + +#ifdef __cplusplus + } /* end of extern "C" */ +#endif + +#endif /* _GC_H */ diff --git a/gc/include/gc_alloc.h b/gc/include/gc_alloc.h new file mode 100644 index 0000000..1f1d54a --- /dev/null +++ b/gc/include/gc_alloc.h @@ -0,0 +1,380 @@ +/* + * Copyright (c) 1996-1998 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +// +// This is a C++ header file that is intended to replace the SGI STL +// alloc.h. This assumes SGI STL version < 3.0. +// +// This assumes the collector has been compiled with -DATOMIC_UNCOLLECTABLE +// and -DALL_INTERIOR_POINTERS. We also recommend +// -DREDIRECT_MALLOC=GC_uncollectable_malloc. +// +// Some of this could be faster in the explicit deallocation case. In particular, +// we spend too much time clearing objects on the free lists. That could be avoided. +// +// This uses template classes with static members, and hence does not work +// with g++ 2.7.2 and earlier. +// + +#include "gc.h" + +#ifndef GC_ALLOC_H + +#define GC_ALLOC_H +#define __ALLOC_H // Prevent inclusion of the default version. Ugly. +#define __SGI_STL_ALLOC_H +#define __SGI_STL_INTERNAL_ALLOC_H + +#ifndef __ALLOC +# define __ALLOC alloc +#endif + +#include <stddef.h> +#include <string.h> + +// The following is just replicated from the conventional SGI alloc.h: + +template<class T, class alloc> +class simple_alloc { + +public: + static T *allocate(size_t n) + { return 0 == n? 0 : (T*) alloc::allocate(n * sizeof (T)); } + static T *allocate(void) + { return (T*) alloc::allocate(sizeof (T)); } + static void deallocate(T *p, size_t n) + { if (0 != n) alloc::deallocate(p, n * sizeof (T)); } + static void deallocate(T *p) + { alloc::deallocate(p, sizeof (T)); } +}; + +#include "gc.h" + +// The following need to match collector data structures. +// We can't include gc_priv.h, since that pulls in way too much stuff. +// This should eventually be factored out into another include file. + +extern "C" { + extern void ** const GC_objfreelist_ptr; + extern void ** const GC_aobjfreelist_ptr; + extern void ** const GC_uobjfreelist_ptr; + extern void ** const GC_auobjfreelist_ptr; + + extern void GC_incr_words_allocd(size_t words); + extern void GC_incr_mem_freed(size_t words); + + extern char * GC_generic_malloc_words_small(size_t word, int kind); +} + +// Object kinds; must match PTRFREE, NORMAL, UNCOLLECTABLE, and +// AUNCOLLECTABLE in gc_priv.h. + +enum { GC_PTRFREE = 0, GC_NORMAL = 1, GC_UNCOLLECTABLE = 2, + GC_AUNCOLLECTABLE = 3 }; + +enum { GC_max_fast_bytes = 255 }; + +enum { GC_bytes_per_word = sizeof(char *) }; + +enum { GC_byte_alignment = 8 }; + +enum { GC_word_alignment = GC_byte_alignment/GC_bytes_per_word }; + +inline void * &GC_obj_link(void * p) +{ return *(void **)p; } + +// Compute a number of words >= n+1 bytes. +// The +1 allows for pointers one past the end. +inline size_t GC_round_up(size_t n) +{ + return ((n + GC_byte_alignment)/GC_byte_alignment)*GC_word_alignment; +} + +// The same but don't allow for extra byte. +inline size_t GC_round_up_uncollectable(size_t n) +{ + return ((n + GC_byte_alignment - 1)/GC_byte_alignment)*GC_word_alignment; +} + +template <int dummy> +class GC_aux_template { +public: + // File local count of allocated words. Occasionally this is + // added into the global count. A separate count is necessary since the + // real one must be updated with a procedure call. + static size_t GC_words_recently_allocd; + + // Same for uncollectable mmory. Not yet reflected in either + // GC_words_recently_allocd or GC_non_gc_bytes. + static size_t GC_uncollectable_words_recently_allocd; + + // Similar counter for explicitly deallocated memory. + static size_t GC_mem_recently_freed; + + // Again for uncollectable memory. + static size_t GC_uncollectable_mem_recently_freed; + + static void * GC_out_of_line_malloc(size_t nwords, int kind); +}; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_words_recently_allocd = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_uncollectable_words_recently_allocd = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_mem_recently_freed = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_uncollectable_mem_recently_freed = 0; + +template <int dummy> +void * GC_aux_template<dummy>::GC_out_of_line_malloc(size_t nwords, int kind) +{ + GC_words_recently_allocd += GC_uncollectable_words_recently_allocd; + GC_non_gc_bytes += + GC_bytes_per_word * GC_uncollectable_words_recently_allocd; + GC_uncollectable_words_recently_allocd = 0; + + GC_mem_recently_freed += GC_uncollectable_mem_recently_freed; + GC_non_gc_bytes -= + GC_bytes_per_word * GC_uncollectable_mem_recently_freed; + GC_uncollectable_mem_recently_freed = 0; + + GC_incr_words_allocd(GC_words_recently_allocd); + GC_words_recently_allocd = 0; + + GC_incr_mem_freed(GC_mem_recently_freed); + GC_mem_recently_freed = 0; + + return GC_generic_malloc_words_small(nwords, kind); +} + +typedef GC_aux_template<0> GC_aux; + +// A fast, single-threaded, garbage-collected allocator +// We assume the first word will be immediately overwritten. +// In this version, deallocation is not a noop, and explicit +// deallocation is likely to help performance. +template <int dummy> +class single_client_gc_alloc_template { + public: + static void * allocate(size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc(n); + flh = GC_objfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_NORMAL); + } + *flh = GC_obj_link(op); + GC_aux::GC_words_recently_allocd += nwords; + return op; + } + static void * ptr_free_allocate(size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_atomic(n); + flh = GC_aobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_PTRFREE); + } + *flh = GC_obj_link(op); + GC_aux::GC_words_recently_allocd += nwords; + return op; + } + static void deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_objfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + memset((char *)p + GC_bytes_per_word, 0, + GC_bytes_per_word * (nwords - 1)); + *flh = p; + GC_aux::GC_mem_recently_freed += nwords; + } + } + static void ptr_free_deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_aobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_mem_recently_freed += nwords; + } + } +}; + +typedef single_client_gc_alloc_template<0> single_client_gc_alloc; + +// Once more, for uncollectable objects. +template <int dummy> +class single_client_alloc_template { + public: + static void * allocate(size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_uncollectable(n); + flh = GC_uobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_UNCOLLECTABLE); + } + *flh = GC_obj_link(op); + GC_aux::GC_uncollectable_words_recently_allocd += nwords; + return op; + } + static void * ptr_free_allocate(size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_atomic_uncollectable(n); + flh = GC_auobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_AUNCOLLECTABLE); + } + *flh = GC_obj_link(op); + GC_aux::GC_uncollectable_words_recently_allocd += nwords; + return op; + } + static void deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_uobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_uncollectable_mem_recently_freed += nwords; + } + } + static void ptr_free_deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_auobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_uncollectable_mem_recently_freed += nwords; + } + } +}; + +typedef single_client_alloc_template<0> single_client_alloc; + +template < int dummy > +class gc_alloc_template { + public: + static void * allocate(size_t n) { return GC_malloc(n); } + static void * ptr_free_allocate(size_t n) + { return GC_malloc_atomic(n); } + static void deallocate(void *, size_t) { } + static void ptr_free_deallocate(void *, size_t) { } +}; + +typedef gc_alloc_template < 0 > gc_alloc; + +template < int dummy > +class alloc_template { + public: + static void * allocate(size_t n) { return GC_malloc_uncollectable(n); } + static void * ptr_free_allocate(size_t n) + { return GC_malloc_atomic_uncollectable(n); } + static void deallocate(void *p, size_t) { GC_free(p); } + static void ptr_free_deallocate(void *p, size_t) { GC_free(p); } +}; + +typedef alloc_template < 0 > alloc; + +#ifdef _SGI_SOURCE + +// We want to specialize simple_alloc so that it does the right thing +// for all pointerfree types. At the moment there is no portable way to +// even approximate that. The following approximation should work for +// SGI compilers, and perhaps some others. + +# define __GC_SPECIALIZE(T,alloc) \ +class simple_alloc<T, alloc> { \ +public: \ + static T *allocate(size_t n) \ + { return 0 == n? 0 : \ + (T*) alloc::ptr_free_allocate(n * sizeof (T)); } \ + static T *allocate(void) \ + { return (T*) alloc::ptr_free_allocate(sizeof (T)); } \ + static void deallocate(T *p, size_t n) \ + { if (0 != n) alloc::ptr_free_deallocate(p, n * sizeof (T)); } \ + static void deallocate(T *p) \ + { alloc::ptr_free_deallocate(p, sizeof (T)); } \ +}; + +__GC_SPECIALIZE(char, gc_alloc) +__GC_SPECIALIZE(int, gc_alloc) +__GC_SPECIALIZE(unsigned, gc_alloc) +__GC_SPECIALIZE(float, gc_alloc) +__GC_SPECIALIZE(double, gc_alloc) + +__GC_SPECIALIZE(char, alloc) +__GC_SPECIALIZE(int, alloc) +__GC_SPECIALIZE(unsigned, alloc) +__GC_SPECIALIZE(float, alloc) +__GC_SPECIALIZE(double, alloc) + +__GC_SPECIALIZE(char, single_client_gc_alloc) +__GC_SPECIALIZE(int, single_client_gc_alloc) +__GC_SPECIALIZE(unsigned, single_client_gc_alloc) +__GC_SPECIALIZE(float, single_client_gc_alloc) +__GC_SPECIALIZE(double, single_client_gc_alloc) + +__GC_SPECIALIZE(char, single_client_alloc) +__GC_SPECIALIZE(int, single_client_alloc) +__GC_SPECIALIZE(unsigned, single_client_alloc) +__GC_SPECIALIZE(float, single_client_alloc) +__GC_SPECIALIZE(double, single_client_alloc) + +#ifdef __STL_USE_STD_ALLOCATORS + +???copy stuff from stl_alloc.h or remove it to a different file ??? + +#endif /* __STL_USE_STD_ALLOCATORS */ + +#endif /* _SGI_SOURCE */ + +#endif /* GC_ALLOC_H */ diff --git a/gc/include/gc_cpp.h b/gc/include/gc_cpp.h new file mode 100644 index 0000000..ad7df5d --- /dev/null +++ b/gc/include/gc_cpp.h @@ -0,0 +1,290 @@ +#ifndef GC_CPP_H +#define GC_CPP_H +/**************************************************************************** +Copyright (c) 1994 by Xerox Corporation. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + +Permission is hereby granted to use or copy this program for any +purpose, provided the above notices are retained on all copies. +Permission to modify the code and to distribute modified code is +granted, provided the above notices are retained, and a notice that +the code was modified is included with the above copyright notice. +**************************************************************************** + +C++ Interface to the Boehm Collector + + John R. Ellis and Jesse Hull + Last modified on Mon Jul 24 15:43:42 PDT 1995 by ellis + +This interface provides access to the Boehm collector. It provides +basic facilities similar to those described in "Safe, Efficient +Garbage Collection for C++", by John R. Elis and David L. Detlefs +(ftp.parc.xerox.com:/pub/ellis/gc). + +All heap-allocated objects are either "collectable" or +"uncollectable". Programs must explicitly delete uncollectable +objects, whereas the garbage collector will automatically delete +collectable objects when it discovers them to be inaccessible. +Collectable objects may freely point at uncollectable objects and vice +versa. + +Objects allocated with the built-in "::operator new" are uncollectable. + +Objects derived from class "gc" are collectable. For example: + + class A: public gc {...}; + A* a = new A; // a is collectable. + +Collectable instances of non-class types can be allocated using the GC +placement: + + typedef int A[ 10 ]; + A* a = new (GC) A; + +Uncollectable instances of classes derived from "gc" can be allocated +using the NoGC placement: + + class A: public gc {...}; + A* a = new (NoGC) A; // a is uncollectable. + +Both uncollectable and collectable objects can be explicitly deleted +with "delete", which invokes an object's destructors and frees its +storage immediately. + +A collectable object may have a clean-up function, which will be +invoked when the collector discovers the object to be inaccessible. +An object derived from "gc_cleanup" or containing a member derived +from "gc_cleanup" has a default clean-up function that invokes the +object's destructors. Explicit clean-up functions may be specified as +an additional placement argument: + + A* a = ::new (GC, MyCleanup) A; + +An object is considered "accessible" by the collector if it can be +reached by a path of pointers from static variables, automatic +variables of active functions, or from some object with clean-up +enabled; pointers from an object to itself are ignored. + +Thus, if objects A and B both have clean-up functions, and A points at +B, B is considered accessible. After A's clean-up is invoked and its +storage released, B will then become inaccessible and will have its +clean-up invoked. If A points at B and B points to A, forming a +cycle, then that's considered a storage leak, and neither will be +collectable. See the interface gc.h for low-level facilities for +handling such cycles of objects with clean-up. + +The collector cannot guarrantee that it will find all inaccessible +objects. In practice, it finds almost all of them. + + +Cautions: + +1. Be sure the collector has been augmented with "make c++". + +2. If your compiler supports the new "operator new[]" syntax, then +add -DOPERATOR_NEW_ARRAY to the Makefile. + +If your compiler doesn't support "operator new[]", beware that an +array of type T, where T is derived from "gc", may or may not be +allocated as a collectable object (it depends on the compiler). Use +the explicit GC placement to make the array collectable. For example: + + class A: public gc {...}; + A* a1 = new A[ 10 ]; // collectable or uncollectable? + A* a2 = new (GC) A[ 10 ]; // collectable + +3. The destructors of collectable arrays of objects derived from +"gc_cleanup" will not be invoked properly. For example: + + class A: public gc_cleanup {...}; + A* a = new (GC) A[ 10 ]; // destructors not invoked correctly + +Typically, only the destructor for the first element of the array will +be invoked when the array is garbage-collected. To get all the +destructors of any array executed, you must supply an explicit +clean-up function: + + A* a = new (GC, MyCleanUp) A[ 10 ]; + +(Implementing clean-up of arrays correctly, portably, and in a way +that preserves the correct exception semantics requires a language +extension, e.g. the "gc" keyword.) + +4. Compiler bugs: + +* Solaris 2's CC (SC3.0) doesn't implement t->~T() correctly, so the +destructors of classes derived from gc_cleanup won't be invoked. +You'll have to explicitly register a clean-up function with +new-placement syntax. + +* Evidently cfront 3.0 does not allow destructors to be explicitly +invoked using the ANSI-conforming syntax t->~T(). If you're using +cfront 3.0, you'll have to comment out the class gc_cleanup, which +uses explicit invocation. + +****************************************************************************/ + +#include "gc.h" + +#ifndef THINK_CPLUS +#define _cdecl +#endif + +#if ! defined( OPERATOR_NEW_ARRAY ) \ + && (__BORLANDC__ >= 0x450 || (__GNUC__ >= 2 && __GNUC_MINOR__ >= 6) \ + || __WATCOMC__ >= 1050) +# define OPERATOR_NEW_ARRAY +#endif + +enum GCPlacement {GC, NoGC, PointerFreeGC}; + +class gc {public: + inline void* operator new( size_t size ); + inline void* operator new( size_t size, GCPlacement gcp ); + inline void operator delete( void* obj ); + +#ifdef OPERATOR_NEW_ARRAY + inline void* operator new[]( size_t size ); + inline void* operator new[]( size_t size, GCPlacement gcp ); + inline void operator delete[]( void* obj ); +#endif /* OPERATOR_NEW_ARRAY */ + }; + /* + Instances of classes derived from "gc" will be allocated in the + collected heap by default, unless an explicit NoGC placement is + specified. */ + +class gc_cleanup: virtual public gc {public: + inline gc_cleanup(); + inline virtual ~gc_cleanup(); +private: + inline static void _cdecl cleanup( void* obj, void* clientData );}; + /* + Instances of classes derived from "gc_cleanup" will be allocated + in the collected heap by default. When the collector discovers an + inaccessible object derived from "gc_cleanup" or containing a + member derived from "gc_cleanup", its destructors will be + invoked. */ + +extern "C" {typedef void (*GCCleanUpFunc)( void* obj, void* clientData );} + +inline void* operator new( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup = 0, + void* clientData = 0 ); + /* + Allocates a collectable or uncollected object, according to the + value of "gcp". + + For collectable objects, if "cleanup" is non-null, then when the + allocated object "obj" becomes inaccessible, the collector will + invoke the function "cleanup( obj, clientData )" but will not + invoke the object's destructors. It is an error to explicitly + delete an object allocated with a non-null "cleanup". + + It is an error to specify a non-null "cleanup" with NoGC or for + classes derived from "gc_cleanup" or containing members derived + from "gc_cleanup". */ + +#ifdef OPERATOR_NEW_ARRAY + +inline void* operator new[]( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup = 0, + void* clientData = 0 ); + /* + The operator new for arrays, identical to the above. */ + +#endif /* OPERATOR_NEW_ARRAY */ + +/**************************************************************************** + +Inline implementation + +****************************************************************************/ + +inline void* gc::operator new( size_t size ) { + return GC_MALLOC( size );} + +inline void* gc::operator new( size_t size, GCPlacement gcp ) { + if (gcp == GC) + return GC_MALLOC( size ); + else if (gcp == PointerFreeGC) + return GC_MALLOC_ATOMIC( size ); + else + return GC_MALLOC_UNCOLLECTABLE( size );} + +inline void gc::operator delete( void* obj ) { + GC_FREE( obj );} + + +#ifdef OPERATOR_NEW_ARRAY + +inline void* gc::operator new[]( size_t size ) { + return gc::operator new( size );} + +inline void* gc::operator new[]( size_t size, GCPlacement gcp ) { + return gc::operator new( size, gcp );} + +inline void gc::operator delete[]( void* obj ) { + gc::operator delete( obj );} + +#endif /* OPERATOR_NEW_ARRAY */ + + +inline gc_cleanup::~gc_cleanup() { + GC_REGISTER_FINALIZER_IGNORE_SELF( GC_base(this), 0, 0, 0, 0 );} + +inline void gc_cleanup::cleanup( void* obj, void* displ ) { + ((gc_cleanup*) ((char*) obj + (ptrdiff_t) displ))->~gc_cleanup();} + +inline gc_cleanup::gc_cleanup() { + GC_finalization_proc oldProc; + void* oldData; + void* base = GC_base( (void *) this ); + if (0 == base) return; + GC_REGISTER_FINALIZER_IGNORE_SELF( + base, cleanup, (void*) ((char*) this - (char*) base), + &oldProc, &oldData ); + if (0 != oldProc) { + GC_REGISTER_FINALIZER_IGNORE_SELF( base, oldProc, oldData, 0, 0 );}} + +inline void* operator new( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup, + void* clientData ) +{ + void* obj; + + if (gcp == GC) { + obj = GC_MALLOC( size ); + if (cleanup != 0) + GC_REGISTER_FINALIZER_IGNORE_SELF( + obj, cleanup, clientData, 0, 0 );} + else if (gcp == PointerFreeGC) { + obj = GC_MALLOC_ATOMIC( size );} + else { + obj = GC_MALLOC_UNCOLLECTABLE( size );}; + return obj;} + + +#ifdef OPERATOR_NEW_ARRAY + +inline void* operator new[]( + size_t size, + GCPlacement gcp, + GCCleanUpFunc cleanup, + void* clientData ) +{ + return ::operator new( size, gcp, cleanup, clientData );} + +#endif /* OPERATOR_NEW_ARRAY */ + + +#endif /* GC_CPP_H */ + diff --git a/gc/include/gc_inl.h b/gc/include/gc_inl.h new file mode 100644 index 0000000..700843b --- /dev/null +++ b/gc/include/gc_inl.h @@ -0,0 +1,103 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, October 3, 1995 2:07 pm PDT */ + +# ifndef GC_PRIVATE_H +# include "private/gc_priv.h" +# endif + +/* USE OF THIS FILE IS NOT RECOMMENDED unless the collector has been */ +/* compiled without -DALL_INTERIOR_POINTERS or with */ +/* -DDONT_ADD_BYTE_AT_END, or the specified size includes a pointerfree */ +/* word at the end. In the standard collector configuration, */ +/* the final word of each object may not be scanned. */ +/* This is most useful for compilers that generate C. */ +/* Manual use is hereby discouraged. */ + +/* Allocate n words (NOT BYTES). X is made to point to the result. */ +/* It is assumed that n < MAXOBJSZ, and */ +/* that n > 0. On machines requiring double word alignment of some */ +/* data, we also assume that n is 1 or even. This bypasses the */ +/* MERGE_SIZES mechanism. In order to minimize the number of distinct */ +/* free lists that are maintained, the caller should ensure that a */ +/* small number of distinct values of n are used. (The MERGE_SIZES */ +/* mechanism normally does this by ensuring that only the leading three */ +/* bits of n may be nonzero. See misc.c for details.) We really */ +/* recommend this only in cases in which n is a constant, and no */ +/* locking is required. */ +/* In that case it may allow the compiler to perform substantial */ +/* additional optimizations. */ +# define GC_MALLOC_WORDS(result,n) \ +{ \ + register ptr_t op; \ + register ptr_t *opp; \ + DCL_LOCK_STATE; \ + \ + opp = &(GC_objfreelist[n]); \ + FASTLOCK(); \ + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { \ + FASTUNLOCK(); \ + (result) = GC_generic_malloc_words_small((n), NORMAL); \ + } else { \ + *opp = obj_link(op); \ + obj_link(op) = 0; \ + GC_words_allocd += (n); \ + FASTUNLOCK(); \ + (result) = (GC_PTR) op; \ + } \ +} + + +/* The same for atomic objects: */ +# define GC_MALLOC_ATOMIC_WORDS(result,n) \ +{ \ + register ptr_t op; \ + register ptr_t *opp; \ + DCL_LOCK_STATE; \ + \ + opp = &(GC_aobjfreelist[n]); \ + FASTLOCK(); \ + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { \ + FASTUNLOCK(); \ + (result) = GC_generic_malloc_words_small((n), PTRFREE); \ + } else { \ + *opp = obj_link(op); \ + obj_link(op) = 0; \ + GC_words_allocd += (n); \ + FASTUNLOCK(); \ + (result) = (GC_PTR) op; \ + } \ +} + +/* And once more for two word initialized objects: */ +# define GC_CONS(result, first, second) \ +{ \ + register ptr_t op; \ + register ptr_t *opp; \ + DCL_LOCK_STATE; \ + \ + opp = &(GC_objfreelist[2]); \ + FASTLOCK(); \ + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { \ + FASTUNLOCK(); \ + op = GC_generic_malloc_words_small(2, NORMAL); \ + } else { \ + *opp = obj_link(op); \ + GC_words_allocd += 2; \ + FASTUNLOCK(); \ + } \ + ((word *)op)[0] = (word)(first); \ + ((word *)op)[1] = (word)(second); \ + (result) = (GC_PTR) op; \ +} diff --git a/gc/include/gc_inline.h b/gc/include/gc_inline.h new file mode 100644 index 0000000..db62d1d --- /dev/null +++ b/gc/include/gc_inline.h @@ -0,0 +1 @@ +# include "gc_inl.h" diff --git a/gc/include/gc_typed.h b/gc/include/gc_typed.h new file mode 100644 index 0000000..e4a6b94 --- /dev/null +++ b/gc/include/gc_typed.h @@ -0,0 +1,91 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright 1996 Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* + * Some simple primitives for allocation with explicit type information. + * Facilities for dynamic type inference may be added later. + * Should be used only for extremely performance critical applications, + * or if conservative collector leakage is otherwise a problem (unlikely). + * Note that this is implemented completely separately from the rest + * of the collector, and is not linked in unless referenced. + * This does not currently support GC_DEBUG in any interesting way. + */ +/* Boehm, May 19, 1994 2:13 pm PDT */ + +#ifndef _GC_TYPED_H +# define _GC_TYPED_H +# ifndef _GC_H +# include "gc.h" +# endif + +typedef GC_word * GC_bitmap; + /* The least significant bit of the first word is one if */ + /* the first word in the object may be a pointer. */ + +# define GC_get_bit(bm, index) \ + (((bm)[divWORDSZ(index)] >> modWORDSZ(index)) & 1) +# define GC_set_bit(bm, index) \ + (bm)[divWORDSZ(index)] |= (word)1 << modWORDSZ(index) + +typedef GC_word GC_descr; + +GC_API GC_descr GC_make_descriptor GC_PROTO((GC_bitmap bm, size_t len)); + /* Return a type descriptor for the object whose layout */ + /* is described by the argument. */ + /* The least significant bit of the first word is one */ + /* if the first word in the object may be a pointer. */ + /* The second argument specifies the number of */ + /* meaningful bits in the bitmap. The actual object */ + /* may be larger (but not smaller). Any additional */ + /* words in the object are assumed not to contain */ + /* pointers. */ + /* Returns a conservative approximation in the */ + /* (unlikely) case of insufficient memory to build */ + /* the descriptor. Calls to GC_make_descriptor */ + /* may consume some amount of a finite resource. This */ + /* is intended to be called once per type, not once */ + /* per allocation. */ + +GC_API GC_PTR GC_malloc_explicitly_typed + GC_PROTO((size_t size_in_bytes, GC_descr d)); + /* Allocate an object whose layout is described by d. */ + /* The resulting object MAY NOT BE PASSED TO REALLOC. */ + +GC_API GC_PTR GC_malloc_explicitly_typed_ignore_off_page + GC_PROTO((size_t size_in_bytes, GC_descr d)); + +GC_API GC_PTR GC_calloc_explicitly_typed + GC_PROTO((size_t nelements, + size_t element_size_in_bytes, + GC_descr d)); + /* Allocate an array of nelements elements, each of the */ + /* given size, and with the given descriptor. */ + /* The elemnt size must be a multiple of the byte */ + /* alignment required for pointers. E.g. on a 32-bit */ + /* machine with 16-bit aligned pointers, size_in_bytes */ + /* must be a multiple of 2. */ + +#ifdef GC_DEBUG +# define GC_MALLOC_EXPLICTLY_TYPED(bytes, d) GC_MALLOC(bytes) +# define GC_CALLOC_EXPLICTLY_TYPED(n, bytes, d) GC_MALLOC(n*bytes) +#else +# define GC_MALLOC_EXPLICTLY_TYPED(bytes, d) \ + GC_malloc_explicitly_typed(bytes, d) +# define GC_CALLOC_EXPLICTLY_TYPED(n, bytes, d) \ + GC_calloc_explicitly_typed(n, bytes, d) +#endif /* !GC_DEBUG */ + + +#endif /* _GC_TYPED_H */ + diff --git a/gc/include/javaxfc.h b/gc/include/javaxfc.h new file mode 100644 index 0000000..880020c --- /dev/null +++ b/gc/include/javaxfc.h @@ -0,0 +1,41 @@ +# ifndef GC_H +# include "gc.h" +# endif + +/* + * Invoke all remaining finalizers that haven't yet been run. + * This is needed for strict compliance with the Java standard, + * which can make the runtime guarantee that all finalizers are run. + * This is problematic for several reasons: + * 1) It means that finalizers, and all methods calle by them, + * must be prepared to deal with objects that have been finalized in + * spite of the fact that they are still referenced by statically + * allocated pointer variables. + * 1) It may mean that we get stuck in an infinite loop running + * finalizers which create new finalizable objects, though that's + * probably unlikely. + * Thus this is not recommended for general use. + */ +void GC_finalize_all(); + +/* + * A version of GC_register_finalizer that allows the object to be + * finalized before the objects it references. This is again error + * prone, in that it makes it easy to accidentally reference finalized + * objects. Again, recommended only for JVM implementors. + */ +void GC_register_finalizer_no_order(GC_PTR obj, + GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR * ocd); + +void GC_debug_register_finalizer_no_order(GC_PTR obj, + GC_finalization_proc fn, GC_PTR cd, + GC_finalization_proc *ofn, GC_PTR * ocd); + +#ifdef GC_DEBUG +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_debug_register_finalizer_no_order(p, f, d, of, od) +#else +# define GC_REGISTER_FINALIZER(p, f, d, of, od) \ + GC_register_finalizer_no_order(p, f, d, of, od) +#endif diff --git a/gc/include/leak_detector.h b/gc/include/leak_detector.h new file mode 100644 index 0000000..6786825 --- /dev/null +++ b/gc/include/leak_detector.h @@ -0,0 +1,7 @@ +#define GC_DEBUG +#include "gc.h" +#define malloc(n) GC_MALLOC(n) +#define calloc(m,n) GC_MALLOC(m*n) +#define free(p) GC_FREE(p) +#define realloc(p,n) GC_REALLOC(n) +#define CHECK_LEAKS() GC_gcollect() diff --git a/gc/include/new_gc_alloc.h b/gc/include/new_gc_alloc.h new file mode 100644 index 0000000..5771388 --- /dev/null +++ b/gc/include/new_gc_alloc.h @@ -0,0 +1,456 @@ +/* + * Copyright (c) 1996-1998 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +// +// This is a revision of gc_alloc.h for SGI STL versions > 3.0 +// Unlike earlier versions, it supplements the standard "alloc.h" +// instead of replacing it. +// +// This is sloppy about variable names used in header files. +// It also doesn't yet understand the new header file names or +// namespaces. +// +// This assumes the collector has been compiled with -DATOMIC_UNCOLLECTABLE +// and -DALL_INTERIOR_POINTERS. We also recommend +// -DREDIRECT_MALLOC=GC_uncollectable_malloc. +// +// Some of this could be faster in the explicit deallocation case. +// In particular, we spend too much time clearing objects on the +// free lists. That could be avoided. +// +// This uses template classes with static members, and hence does not work +// with g++ 2.7.2 and earlier. +// +// Unlike its predecessor, this one simply defines +// gc_alloc +// single_client_gc_alloc +// traceable_alloc +// single_client_traceable_alloc +// +// It does not redefine alloc. Nor does it change the default allocator, +// though the user may wish to do so. (The argument against changing +// the default allocator is that it may introduce subtle link compatibility +// problems. The argument for changing it is that the usual default +// allocator is usually a very bad choice for a garbage collected environment.) +// + +#ifndef GC_ALLOC_H + +#include "gc.h" +#include <alloc.h> + +#define GC_ALLOC_H + +#include <stddef.h> +#include <string.h> + +// The following need to match collector data structures. +// We can't include gc_priv.h, since that pulls in way too much stuff. +// This should eventually be factored out into another include file. + +extern "C" { + extern void ** const GC_objfreelist_ptr; + extern void ** const GC_aobjfreelist_ptr; + extern void ** const GC_uobjfreelist_ptr; + extern void ** const GC_auobjfreelist_ptr; + + extern void GC_incr_words_allocd(size_t words); + extern void GC_incr_mem_freed(size_t words); + + extern char * GC_generic_malloc_words_small(size_t word, int kind); +} + +// Object kinds; must match PTRFREE, NORMAL, UNCOLLECTABLE, and +// AUNCOLLECTABLE in gc_priv.h. + +enum { GC_PTRFREE = 0, GC_NORMAL = 1, GC_UNCOLLECTABLE = 2, + GC_AUNCOLLECTABLE = 3 }; + +enum { GC_max_fast_bytes = 255 }; + +enum { GC_bytes_per_word = sizeof(char *) }; + +enum { GC_byte_alignment = 8 }; + +enum { GC_word_alignment = GC_byte_alignment/GC_bytes_per_word }; + +inline void * &GC_obj_link(void * p) +{ return *(void **)p; } + +// Compute a number of words >= n+1 bytes. +// The +1 allows for pointers one past the end. +inline size_t GC_round_up(size_t n) +{ + return ((n + GC_byte_alignment)/GC_byte_alignment)*GC_word_alignment; +} + +// The same but don't allow for extra byte. +inline size_t GC_round_up_uncollectable(size_t n) +{ + return ((n + GC_byte_alignment - 1)/GC_byte_alignment)*GC_word_alignment; +} + +template <int dummy> +class GC_aux_template { +public: + // File local count of allocated words. Occasionally this is + // added into the global count. A separate count is necessary since the + // real one must be updated with a procedure call. + static size_t GC_words_recently_allocd; + + // Same for uncollectable mmory. Not yet reflected in either + // GC_words_recently_allocd or GC_non_gc_bytes. + static size_t GC_uncollectable_words_recently_allocd; + + // Similar counter for explicitly deallocated memory. + static size_t GC_mem_recently_freed; + + // Again for uncollectable memory. + static size_t GC_uncollectable_mem_recently_freed; + + static void * GC_out_of_line_malloc(size_t nwords, int kind); +}; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_words_recently_allocd = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_uncollectable_words_recently_allocd = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_mem_recently_freed = 0; + +template <int dummy> +size_t GC_aux_template<dummy>::GC_uncollectable_mem_recently_freed = 0; + +template <int dummy> +void * GC_aux_template<dummy>::GC_out_of_line_malloc(size_t nwords, int kind) +{ + GC_words_recently_allocd += GC_uncollectable_words_recently_allocd; + GC_non_gc_bytes += + GC_bytes_per_word * GC_uncollectable_words_recently_allocd; + GC_uncollectable_words_recently_allocd = 0; + + GC_mem_recently_freed += GC_uncollectable_mem_recently_freed; + GC_non_gc_bytes -= + GC_bytes_per_word * GC_uncollectable_mem_recently_freed; + GC_uncollectable_mem_recently_freed = 0; + + GC_incr_words_allocd(GC_words_recently_allocd); + GC_words_recently_allocd = 0; + + GC_incr_mem_freed(GC_mem_recently_freed); + GC_mem_recently_freed = 0; + + return GC_generic_malloc_words_small(nwords, kind); +} + +typedef GC_aux_template<0> GC_aux; + +// A fast, single-threaded, garbage-collected allocator +// We assume the first word will be immediately overwritten. +// In this version, deallocation is not a noop, and explicit +// deallocation is likely to help performance. +template <int dummy> +class single_client_gc_alloc_template { + public: + static void * allocate(size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc(n); + flh = GC_objfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_NORMAL); + } + *flh = GC_obj_link(op); + GC_aux::GC_words_recently_allocd += nwords; + return op; + } + static void * ptr_free_allocate(size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_atomic(n); + flh = GC_aobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_PTRFREE); + } + *flh = GC_obj_link(op); + GC_aux::GC_words_recently_allocd += nwords; + return op; + } + static void deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_objfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + memset((char *)p + GC_bytes_per_word, 0, + GC_bytes_per_word * (nwords - 1)); + *flh = p; + GC_aux::GC_mem_recently_freed += nwords; + } + } + static void ptr_free_deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_aobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_mem_recently_freed += nwords; + } + } +}; + +typedef single_client_gc_alloc_template<0> single_client_gc_alloc; + +// Once more, for uncollectable objects. +template <int dummy> +class single_client_traceable_alloc_template { + public: + static void * allocate(size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_uncollectable(n); + flh = GC_uobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_UNCOLLECTABLE); + } + *flh = GC_obj_link(op); + GC_aux::GC_uncollectable_words_recently_allocd += nwords; + return op; + } + static void * ptr_free_allocate(size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + void * op; + + if (n > GC_max_fast_bytes) return GC_malloc_atomic_uncollectable(n); + flh = GC_auobjfreelist_ptr + nwords; + if (0 == (op = *flh)) { + return GC_aux::GC_out_of_line_malloc(nwords, GC_AUNCOLLECTABLE); + } + *flh = GC_obj_link(op); + GC_aux::GC_uncollectable_words_recently_allocd += nwords; + return op; + } + static void deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_uobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_uncollectable_mem_recently_freed += nwords; + } + } + static void ptr_free_deallocate(void *p, size_t n) + { + size_t nwords = GC_round_up_uncollectable(n); + void ** flh; + + if (n > GC_max_fast_bytes) { + GC_free(p); + } else { + flh = GC_auobjfreelist_ptr + nwords; + GC_obj_link(p) = *flh; + *flh = p; + GC_aux::GC_uncollectable_mem_recently_freed += nwords; + } + } +}; + +typedef single_client_traceable_alloc_template<0> single_client_traceable_alloc; + +template < int dummy > +class gc_alloc_template { + public: + static void * allocate(size_t n) { return GC_malloc(n); } + static void * ptr_free_allocate(size_t n) + { return GC_malloc_atomic(n); } + static void deallocate(void *, size_t) { } + static void ptr_free_deallocate(void *, size_t) { } +}; + +typedef gc_alloc_template < 0 > gc_alloc; + +template < int dummy > +class traceable_alloc_template { + public: + static void * allocate(size_t n) { return GC_malloc_uncollectable(n); } + static void * ptr_free_allocate(size_t n) + { return GC_malloc_atomic_uncollectable(n); } + static void deallocate(void *p, size_t) { GC_free(p); } + static void ptr_free_deallocate(void *p, size_t) { GC_free(p); } +}; + +typedef traceable_alloc_template < 0 > traceable_alloc; + +#ifdef _SGI_SOURCE + +// We want to specialize simple_alloc so that it does the right thing +// for all pointerfree types. At the moment there is no portable way to +// even approximate that. The following approximation should work for +// SGI compilers, and perhaps some others. + +# define __GC_SPECIALIZE(T,alloc) \ +class simple_alloc<T, alloc> { \ +public: \ + static T *allocate(size_t n) \ + { return 0 == n? 0 : \ + (T*) alloc::ptr_free_allocate(n * sizeof (T)); } \ + static T *allocate(void) \ + { return (T*) alloc::ptr_free_allocate(sizeof (T)); } \ + static void deallocate(T *p, size_t n) \ + { if (0 != n) alloc::ptr_free_deallocate(p, n * sizeof (T)); } \ + static void deallocate(T *p) \ + { alloc::ptr_free_deallocate(p, sizeof (T)); } \ +}; + +__GC_SPECIALIZE(char, gc_alloc) +__GC_SPECIALIZE(int, gc_alloc) +__GC_SPECIALIZE(unsigned, gc_alloc) +__GC_SPECIALIZE(float, gc_alloc) +__GC_SPECIALIZE(double, gc_alloc) + +__GC_SPECIALIZE(char, traceable_alloc) +__GC_SPECIALIZE(int, traceable_alloc) +__GC_SPECIALIZE(unsigned, traceable_alloc) +__GC_SPECIALIZE(float, traceable_alloc) +__GC_SPECIALIZE(double, traceable_alloc) + +__GC_SPECIALIZE(char, single_client_gc_alloc) +__GC_SPECIALIZE(int, single_client_gc_alloc) +__GC_SPECIALIZE(unsigned, single_client_gc_alloc) +__GC_SPECIALIZE(float, single_client_gc_alloc) +__GC_SPECIALIZE(double, single_client_gc_alloc) + +__GC_SPECIALIZE(char, single_client_traceable_alloc) +__GC_SPECIALIZE(int, single_client_traceable_alloc) +__GC_SPECIALIZE(unsigned, single_client_traceable_alloc) +__GC_SPECIALIZE(float, single_client_traceable_alloc) +__GC_SPECIALIZE(double, single_client_traceable_alloc) + +#ifdef __STL_USE_STD_ALLOCATORS + +__STL_BEGIN_NAMESPACE + +template <class _T> +struct _Alloc_traits<_T, gc_alloc > +{ + static const bool _S_instanceless = true; + typedef simple_alloc<_T, gc_alloc > _Alloc_type; + typedef __allocator<_T, gc_alloc > allocator_type; +}; + +inline bool operator==(const gc_alloc&, + const gc_alloc&) +{ + return true; +} + +inline bool operator!=(const gc_alloc&, + const gc_alloc&) +{ + return false; +} + +template <class _T> +struct _Alloc_traits<_T, single_client_gc_alloc > +{ + static const bool _S_instanceless = true; + typedef simple_alloc<_T, single_client_gc_alloc > _Alloc_type; + typedef __allocator<_T, single_client_gc_alloc > allocator_type; +}; + +inline bool operator==(const single_client_gc_alloc&, + const single_client_gc_alloc&) +{ + return true; +} + +inline bool operator!=(const single_client_gc_alloc&, + const single_client_gc_alloc&) +{ + return false; +} + +template <class _T> +struct _Alloc_traits<_T, traceable_alloc > +{ + static const bool _S_instanceless = true; + typedef simple_alloc<_T, traceable_alloc > _Alloc_type; + typedef __allocator<_T, traceable_alloc > allocator_type; +}; + +inline bool operator==(const traceable_alloc&, + const traceable_alloc&) +{ + return true; +} + +inline bool operator!=(const traceable_alloc&, + const traceable_alloc&) +{ + return false; +} + +template <class _T> +struct _Alloc_traits<_T, single_client_traceable_alloc > +{ + static const bool _S_instanceless = true; + typedef simple_alloc<_T, single_client_traceable_alloc > _Alloc_type; + typedef __allocator<_T, single_client_traceable_alloc > allocator_type; +}; + +inline bool operator==(const single_client_traceable_alloc&, + const single_client_traceable_alloc&) +{ + return true; +} + +inline bool operator!=(const single_client_traceable_alloc&, + const single_client_traceable_alloc&) +{ + return false; +} + +__STL_END_NAMESPACE + +#endif /* __STL_USE_STD_ALLOCATORS */ + +#endif /* _SGI_SOURCE */ + +#endif /* GC_ALLOC_H */ diff --git a/gc/include/private/cord_pos.h b/gc/include/private/cord_pos.h new file mode 100644 index 0000000..d2b24bb --- /dev/null +++ b/gc/include/private/cord_pos.h @@ -0,0 +1,118 @@ +/* + * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, May 19, 1994 2:23 pm PDT */ +# ifndef CORD_POSITION_H + +/* The representation of CORD_position. This is private to the */ +/* implementation, but the size is known to clients. Also */ +/* the implementation of some exported macros relies on it. */ +/* Don't use anything defined here and not in cord.h. */ + +# define MAX_DEPTH 48 + /* The maximum depth of a balanced cord + 1. */ + /* We don't let cords get deeper than MAX_DEPTH. */ + +struct CORD_pe { + CORD pe_cord; + size_t pe_start_pos; +}; + +/* A structure describing an entry on the path from the root */ +/* to current position. */ +typedef struct CORD_Pos { + size_t cur_pos; + int path_len; +# define CORD_POS_INVALID (0x55555555) + /* path_len == INVALID <==> position invalid */ + const char *cur_leaf; /* Current leaf, if it is a string. */ + /* If the current leaf is a function, */ + /* then this may point to function_buf */ + /* containing the next few characters. */ + /* Always points to a valid string */ + /* containing the current character */ + /* unless cur_end is 0. */ + size_t cur_start; /* Start position of cur_leaf */ + size_t cur_end; /* Ending position of cur_leaf */ + /* 0 if cur_leaf is invalid. */ + struct CORD_pe path[MAX_DEPTH + 1]; + /* path[path_len] is the leaf corresponding to cur_pos */ + /* path[0].pe_cord is the cord we point to. */ +# define FUNCTION_BUF_SZ 8 + char function_buf[FUNCTION_BUF_SZ]; /* Space for next few chars */ + /* from function node. */ +} CORD_pos[1]; + +/* Extract the cord from a position: */ +CORD CORD_pos_to_cord(CORD_pos p); + +/* Extract the current index from a position: */ +size_t CORD_pos_to_index(CORD_pos p); + +/* Fetch the character located at the given position: */ +char CORD_pos_fetch(CORD_pos p); + +/* Initialize the position to refer to the give cord and index. */ +/* Note that this is the most expensive function on positions: */ +void CORD_set_pos(CORD_pos p, CORD x, size_t i); + +/* Advance the position to the next character. */ +/* P must be initialized and valid. */ +/* Invalidates p if past end: */ +void CORD_next(CORD_pos p); + +/* Move the position to the preceding character. */ +/* P must be initialized and valid. */ +/* Invalidates p if past beginning: */ +void CORD_prev(CORD_pos p); + +/* Is the position valid, i.e. inside the cord? */ +int CORD_pos_valid(CORD_pos p); + +char CORD__pos_fetch(CORD_pos); +void CORD__next(CORD_pos); +void CORD__prev(CORD_pos); + +#define CORD_pos_fetch(p) \ + (((p)[0].cur_end != 0)? \ + (p)[0].cur_leaf[(p)[0].cur_pos - (p)[0].cur_start] \ + : CORD__pos_fetch(p)) + +#define CORD_next(p) \ + (((p)[0].cur_pos + 1 < (p)[0].cur_end)? \ + (p)[0].cur_pos++ \ + : (CORD__next(p), 0)) + +#define CORD_prev(p) \ + (((p)[0].cur_end != 0 && (p)[0].cur_pos > (p)[0].cur_start)? \ + (p)[0].cur_pos-- \ + : (CORD__prev(p), 0)) + +#define CORD_pos_to_index(p) ((p)[0].cur_pos) + +#define CORD_pos_to_cord(p) ((p)[0].path[0].pe_cord) + +#define CORD_pos_valid(p) ((p)[0].path_len != CORD_POS_INVALID) + +/* Some grubby stuff for performance-critical friends: */ +#define CORD_pos_chars_left(p) ((long)((p)[0].cur_end) - (long)((p)[0].cur_pos)) + /* Number of characters in cache. <= 0 ==> none */ + +#define CORD_pos_advance(p,n) ((p)[0].cur_pos += (n) - 1, CORD_next(p)) + /* Advance position by n characters */ + /* 0 < n < CORD_pos_chars_left(p) */ + +#define CORD_pos_cur_char_addr(p) \ + (p)[0].cur_leaf + ((p)[0].cur_pos - (p)[0].cur_start) + /* address of current character in cache. */ + +#endif diff --git a/gc/include/private/gc_hdrs.h b/gc/include/private/gc_hdrs.h new file mode 100644 index 0000000..60dc2ad --- /dev/null +++ b/gc/include/private/gc_hdrs.h @@ -0,0 +1,135 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, July 11, 1995 11:54 am PDT */ +# ifndef GC_HEADERS_H +# define GC_HEADERS_H +typedef struct hblkhdr hdr; + +# if CPP_WORDSZ != 32 && CPP_WORDSZ < 36 + --> Get a real machine. +# endif + +/* + * The 2 level tree data structure that is used to find block headers. + * If there are more than 32 bits in a pointer, the top level is a hash + * table. + */ + +# if CPP_WORDSZ > 32 +# define HASH_TL +# endif + +/* Define appropriate out-degrees for each of the two tree levels */ +# ifdef SMALL_CONFIG +# define LOG_BOTTOM_SZ 11 + /* Keep top index size reasonable with smaller blocks. */ +# else +# define LOG_BOTTOM_SZ 10 +# endif +# ifndef HASH_TL +# define LOG_TOP_SZ (WORDSZ - LOG_BOTTOM_SZ - LOG_HBLKSIZE) +# else +# define LOG_TOP_SZ 11 +# endif +# define TOP_SZ (1 << LOG_TOP_SZ) +# define BOTTOM_SZ (1 << LOG_BOTTOM_SZ) + +typedef struct bi { + hdr * index[BOTTOM_SZ]; + /* + * The bottom level index contains one of three kinds of values: + * 0 means we're not responsible for this block, + * or this is a block other than the first one in a free block. + * 1 < (long)X <= MAX_JUMP means the block starts at least + * X * HBLKSIZE bytes before the current address. + * A valid pointer points to a hdr structure. (The above can't be + * valid pointers due to the GET_MEM return convention.) + */ + struct bi * asc_link; /* All indices are linked in */ + /* ascending order... */ + struct bi * desc_link; /* ... and in descending order. */ + word key; /* high order address bits. */ +# ifdef HASH_TL + struct bi * hash_link; /* Hash chain link. */ +# endif +} bottom_index; + +/* extern bottom_index GC_all_nils; - really part of GC_arrays */ + +/* extern bottom_index * GC_top_index []; - really part of GC_arrays */ + /* Each entry points to a bottom_index. */ + /* On a 32 bit machine, it points to */ + /* the index for a set of high order */ + /* bits equal to the index. For longer */ + /* addresses, we hash the high order */ + /* bits to compute the index in */ + /* GC_top_index, and each entry points */ + /* to a hash chain. */ + /* The last entry in each chain is */ + /* GC_all_nils. */ + + +# define MAX_JUMP (HBLKSIZE - 1) + +# define HDR_FROM_BI(bi, p) \ + ((bi)->index[((word)(p) >> LOG_HBLKSIZE) & (BOTTOM_SZ - 1)]) +# ifndef HASH_TL +# define BI(p) (GC_top_index \ + [(word)(p) >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE)]) +# define HDR_INNER(p) HDR_FROM_BI(BI(p),p) +# ifdef SMALL_CONFIG +# define HDR(p) GC_find_header((ptr_t)(p)) +# else +# define HDR(p) HDR_INNER(p) +# endif +# define GET_BI(p, bottom_indx) (bottom_indx) = BI(p) +# define GET_HDR(p, hhdr) (hhdr) = HDR(p) +# define SET_HDR(p, hhdr) HDR_INNER(p) = (hhdr) +# define GET_HDR_ADDR(p, ha) (ha) = &(HDR_INNER(p)) +# else /* hash */ +/* Hash function for tree top level */ +# define TL_HASH(hi) ((hi) & (TOP_SZ - 1)) +/* Set bottom_indx to point to the bottom index for address p */ +# define GET_BI(p, bottom_indx) \ + { \ + register word hi = \ + (word)(p) >> (LOG_BOTTOM_SZ + LOG_HBLKSIZE); \ + register bottom_index * _bi = GC_top_index[TL_HASH(hi)]; \ + \ + while (_bi -> key != hi && _bi != GC_all_nils) \ + _bi = _bi -> hash_link; \ + (bottom_indx) = _bi; \ + } +# define GET_HDR_ADDR(p, ha) \ + { \ + register bottom_index * bi; \ + \ + GET_BI(p, bi); \ + (ha) = &(HDR_FROM_BI(bi, p)); \ + } +# define GET_HDR(p, hhdr) { register hdr ** _ha; GET_HDR_ADDR(p, _ha); \ + (hhdr) = *_ha; } +# define SET_HDR(p, hhdr) { register hdr ** _ha; GET_HDR_ADDR(p, _ha); \ + *_ha = (hhdr); } +# define HDR(p) GC_find_header((ptr_t)(p)) +# endif + +/* Is the result a forwarding address to someplace closer to the */ +/* beginning of the block or NIL? */ +# define IS_FORWARDING_ADDR_OR_NIL(hhdr) ((unsigned long) (hhdr) <= MAX_JUMP) + +/* Get an HBLKSIZE aligned address closer to the beginning of the block */ +/* h. Assumes hhdr == HDR(h) and IS_FORWARDING_ADDR(hhdr). */ +# define FORWARDED_ADDR(h, hhdr) ((struct hblk *)(h) - (unsigned long)(hhdr)) +# endif /* GC_HEADERS_H */ diff --git a/gc/include/private/gc_priv.h b/gc/include/private/gc_priv.h new file mode 100644 index 0000000..5ce52a7 --- /dev/null +++ b/gc/include/private/gc_priv.h @@ -0,0 +1,1748 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 16, 1996 2:30 pm PST */ + + +# ifndef GC_PRIVATE_H +# define GC_PRIVATE_H + +#if defined(mips) && defined(SYSTYPE_BSD) && defined(sony_news) + /* sony RISC NEWS, NEWSOS 4 */ +# define BSD_TIME +/* typedef long ptrdiff_t; -- necessary on some really old systems */ +#endif + +#if defined(mips) && defined(SYSTYPE_BSD43) + /* MIPS RISCOS 4 */ +# define BSD_TIME +#endif + +#ifdef BSD_TIME +# include <sys/types.h> +# include <sys/time.h> +# include <sys/resource.h> +#endif /* BSD_TIME */ + +# ifndef GC_H +# include "gc.h" +# endif + +typedef GC_word word; +typedef GC_signed_word signed_word; + +# ifndef CONFIG_H +# include "gcconfig.h" +# endif + +# ifndef HEADERS_H +# include "gc_hdrs.h" +# endif + +typedef int GC_bool; +# define TRUE 1 +# define FALSE 0 + +typedef char * ptr_t; /* A generic pointer to which we can add */ + /* byte displacements. */ + /* Preferably identical to caddr_t, if it */ + /* exists. */ + +#if defined(__STDC__) +# include <stdlib.h> +# if !(defined( sony_news ) ) +# include <stddef.h> +# endif +# define VOLATILE volatile +# define CONST const +#else +# ifdef MSWIN32 +# include <stdlib.h> +# endif +# define VOLATILE +# define CONST +#endif + +#if 0 /* was once defined for AMIGA */ +# define GC_FAR __far +#else +# define GC_FAR +#endif + +/*********************************/ +/* */ +/* Definitions for conservative */ +/* collector */ +/* */ +/*********************************/ + +/*********************************/ +/* */ +/* Easily changeable parameters */ +/* */ +/*********************************/ + +#define STUBBORN_ALLOC /* Define stubborn allocation primitives */ +#if defined(SRC_M3) || defined(SMALL_CONFIG) +# undef STUBBORN_ALLOC +#endif + + +/* #define ALL_INTERIOR_POINTERS */ + /* Forces all pointers into the interior of an */ + /* object to be considered valid. Also causes the */ + /* sizes of all objects to be inflated by at least */ + /* one byte. This should suffice to guarantee */ + /* that in the presence of a compiler that does */ + /* not perform garbage-collector-unsafe */ + /* optimizations, all portable, strictly ANSI */ + /* conforming C programs should be safely usable */ + /* with malloc replaced by GC_malloc and free */ + /* calls removed. There are several disadvantages: */ + /* 1. There are probably no interesting, portable, */ + /* strictly ANSI conforming C programs. */ + /* 2. This option makes it hard for the collector */ + /* to allocate space that is not ``pointed to'' */ + /* by integers, etc. Under SunOS 4.X with a */ + /* statically linked libc, we empiricaly */ + /* observed that it would be difficult to */ + /* allocate individual objects larger than 100K. */ + /* Even if only smaller objects are allocated, */ + /* more swap space is likely to be needed. */ + /* Fortunately, much of this will never be */ + /* touched. */ + /* If you can easily avoid using this option, do. */ + /* If not, try to keep individual objects small. */ + +#define PRINTSTATS /* Print garbage collection statistics */ + /* For less verbose output, undefine in reclaim.c */ + +#define PRINTTIMES /* Print the amount of time consumed by each garbage */ + /* collection. */ + +#define PRINTBLOCKS /* Print object sizes associated with heap blocks, */ + /* whether the objects are atomic or composite, and */ + /* whether or not the block was found to be empty */ + /* during the reclaim phase. Typically generates */ + /* about one screenful per garbage collection. */ +#undef PRINTBLOCKS + +#ifdef SILENT +# ifdef PRINTSTATS +# undef PRINTSTATS +# endif +# ifdef PRINTTIMES +# undef PRINTTIMES +# endif +# ifdef PRINTNBLOCKS +# undef PRINTNBLOCKS +# endif +#endif + +#if defined(PRINTSTATS) && !defined(GATHERSTATS) +# define GATHERSTATS +#endif + +#ifdef FINALIZE_ON_DEMAND +# define GC_INVOKE_FINALIZERS() +#else +# define GC_INVOKE_FINALIZERS() (void)GC_invoke_finalizers() +#endif + +#define MERGE_SIZES /* Round up some object sizes, so that fewer distinct */ + /* free lists are actually maintained. This applies */ + /* only to the top level routines in misc.c, not to */ + /* user generated code that calls GC_allocobj and */ + /* GC_allocaobj directly. */ + /* Slows down average programs slightly. May however */ + /* substantially reduce fragmentation if allocation */ + /* request sizes are widely scattered. */ + /* May save significant amounts of space for obj_map */ + /* entries. */ + +#ifndef OLD_BLOCK_ALLOC + /* Macros controlling large block allocation strategy. */ +# define EXACT_FIRST /* Make a complete pass through the large object */ + /* free list before splitting a block */ +# define PRESERVE_LAST /* Do not divide last allocated heap segment */ + /* unless we would otherwise need to expand the */ + /* heap. */ +#endif + +/* ALIGN_DOUBLE requires MERGE_SIZES at present. */ +# if defined(ALIGN_DOUBLE) && !defined(MERGE_SIZES) +# define MERGE_SIZES +# endif + +#if defined(ALL_INTERIOR_POINTERS) && !defined(DONT_ADD_BYTE_AT_END) +# define ADD_BYTE_AT_END +#endif + + +# ifndef LARGE_CONFIG +# define MINHINCR 16 /* Minimum heap increment, in blocks of HBLKSIZE */ + /* Must be multiple of largest page size. */ +# define MAXHINCR 512 /* Maximum heap increment, in blocks */ +# else +# define MINHINCR 64 +# define MAXHINCR 4096 +# endif + +# define TIME_LIMIT 50 /* We try to keep pause times from exceeding */ + /* this by much. In milliseconds. */ + +# define BL_LIMIT GC_black_list_spacing + /* If we need a block of N bytes, and we have */ + /* a block of N + BL_LIMIT bytes available, */ + /* and N > BL_LIMIT, */ + /* but all possible positions in it are */ + /* blacklisted, we just use it anyway (and */ + /* print a warning, if warnings are enabled). */ + /* This risks subsequently leaking the block */ + /* due to a false reference. But not using */ + /* the block risks unreasonable immediate */ + /* heap growth. */ + +/*********************************/ +/* */ +/* Stack saving for debugging */ +/* */ +/*********************************/ + +#ifdef SAVE_CALL_CHAIN + +/* + * Number of frames and arguments to save in objects allocated by + * debugging allocator. + */ +# define NFRAMES 6 /* Number of frames to save. Even for */ + /* alignment reasons. */ +# define NARGS 2 /* Mumber of arguments to save for each call. */ + +# define NEED_CALLINFO + +/* Fill in the pc and argument information for up to NFRAMES of my */ +/* callers. Ignore my frame and my callers frame. */ +void GC_save_callers (/* struct callinfo info[NFRAMES] */); + +void GC_print_callers (/* struct callinfo info[NFRAMES] */); + +#else + +# ifdef GC_ADD_CALLER +# define NFRAMES 1 +# define NARGS 0 +# define NEED_CALLINFO +# endif + +#endif + +#ifdef NEED_CALLINFO + struct callinfo { + word ci_pc; +# if NARGS > 0 + word ci_arg[NARGS]; /* bit-wise complement to avoid retention */ +# endif +# if defined(ALIGN_DOUBLE) && (NFRAMES * (NARGS + 1)) % 2 == 1 + /* Likely alignment problem. */ + word ci_dummy; +# endif + }; +#endif + + +/*********************************/ +/* */ +/* OS interface routines */ +/* */ +/*********************************/ + +#ifdef BSD_TIME +# undef CLOCK_TYPE +# undef GET_TIME +# undef MS_TIME_DIFF +# define CLOCK_TYPE struct timeval +# define GET_TIME(x) { struct rusage rusage; \ + getrusage (RUSAGE_SELF, &rusage); \ + x = rusage.ru_utime; } +# define MS_TIME_DIFF(a,b) ((double) (a.tv_sec - b.tv_sec) * 1000.0 \ + + (double) (a.tv_usec - b.tv_usec) / 1000.0) +#else /* !BSD_TIME */ +# include <time.h> +# if !defined(__STDC__) && defined(SPARC) && defined(SUNOS4) + clock_t clock(); /* Not in time.h, where it belongs */ +# endif +# if defined(FREEBSD) && !defined(CLOCKS_PER_SEC) +# include <machine/limits.h> +# define CLOCKS_PER_SEC CLK_TCK +# endif +# if !defined(CLOCKS_PER_SEC) +# define CLOCKS_PER_SEC 1000000 +/* + * This is technically a bug in the implementation. ANSI requires that + * CLOCKS_PER_SEC be defined. But at least under SunOS4.1.1, it isn't. + * Also note that the combination of ANSI C and POSIX is incredibly gross + * here. The type clock_t is used by both clock() and times(). But on + * some machines these use different notions of a clock tick, CLOCKS_PER_SEC + * seems to apply only to clock. Hence we use it here. On many machines, + * including SunOS, clock actually uses units of microseconds (which are + * not really clock ticks). + */ +# endif +# define CLOCK_TYPE clock_t +# define GET_TIME(x) x = clock() +# define MS_TIME_DIFF(a,b) ((unsigned long) \ + (1000.0*(double)((a)-(b))/(double)CLOCKS_PER_SEC)) +#endif /* !BSD_TIME */ + +/* We use bzero and bcopy internally. They may not be available. */ +# if defined(SPARC) && defined(SUNOS4) +# define BCOPY_EXISTS +# endif +# if defined(M68K) && defined(AMIGA) +# define BCOPY_EXISTS +# endif +# if defined(M68K) && defined(NEXT) +# define BCOPY_EXISTS +# endif +# if defined(VAX) +# define BCOPY_EXISTS +# endif +# if defined(AMIGA) +# include <string.h> +# define BCOPY_EXISTS +# endif + +# ifndef BCOPY_EXISTS +# include <string.h> +# define BCOPY(x,y,n) memcpy(y, x, (size_t)(n)) +# define BZERO(x,n) memset(x, 0, (size_t)(n)) +# else +# define BCOPY(x,y,n) bcopy((char *)(x),(char *)(y),(int)(n)) +# define BZERO(x,n) bzero((char *)(x),(int)(n)) +# endif + +/* HBLKSIZE aligned allocation. 0 is taken to mean failure */ +/* space is assumed to be cleared. */ +/* In the case os USE_MMAP, the argument must also be a */ +/* physical page size. */ +/* GET_MEM is currently not assumed to retrieve 0 filled space, */ +/* though we should perhaps take advantage of the case in which */ +/* does. */ +# ifdef PCR + char * real_malloc(); +# define GET_MEM(bytes) HBLKPTR(real_malloc((size_t)bytes + GC_page_size) \ + + GC_page_size-1) +# else +# ifdef OS2 + void * os2_alloc(size_t bytes); +# define GET_MEM(bytes) HBLKPTR((ptr_t)os2_alloc((size_t)bytes \ + + GC_page_size) \ + + GC_page_size-1) +# else +# if defined(AMIGA) || defined(NEXT) || defined(MACOSX) || defined(DOS4GW) +# define GET_MEM(bytes) HBLKPTR((size_t) \ + calloc(1, (size_t)bytes + GC_page_size) \ + + GC_page_size-1) +# else +# ifdef MSWIN32 + extern ptr_t GC_win32_get_mem(); +# define GET_MEM(bytes) (struct hblk *)GC_win32_get_mem(bytes) +# else +# ifdef MACOS +# if defined(USE_TEMPORARY_MEMORY) + extern Ptr GC_MacTemporaryNewPtr(size_t size, + Boolean clearMemory); +# define GET_MEM(bytes) HBLKPTR( \ + GC_MacTemporaryNewPtr(bytes + GC_page_size, true) \ + + GC_page_size-1) +# else +# define GET_MEM(bytes) HBLKPTR( \ + NewPtrClear(bytes + GC_page_size) + GC_page_size-1) +# endif +# else + extern ptr_t GC_unix_get_mem(); +# define GET_MEM(bytes) (struct hblk *)GC_unix_get_mem(bytes) +# endif +# endif +# endif +# endif +# endif + +/* + * Mutual exclusion between allocator/collector routines. + * Needed if there is more than one allocator thread. + * FASTLOCK() is assumed to try to acquire the lock in a cheap and + * dirty way that is acceptable for a few instructions, e.g. by + * inhibiting preemption. This is assumed to have succeeded only + * if a subsequent call to FASTLOCK_SUCCEEDED() returns TRUE. + * FASTUNLOCK() is called whether or not FASTLOCK_SUCCEEDED(). + * If signals cannot be tolerated with the FASTLOCK held, then + * FASTLOCK should disable signals. The code executed under + * FASTLOCK is otherwise immune to interruption, provided it is + * not restarted. + * DCL_LOCK_STATE declares any local variables needed by LOCK and UNLOCK + * and/or DISABLE_SIGNALS and ENABLE_SIGNALS and/or FASTLOCK. + * (There is currently no equivalent for FASTLOCK.) + */ +# ifdef THREADS +# ifdef PCR_OBSOLETE /* Faster, but broken with multiple lwp's */ +# include "th/PCR_Th.h" +# include "th/PCR_ThCrSec.h" + extern struct PCR_Th_MLRep GC_allocate_ml; +# define DCL_LOCK_STATE PCR_sigset_t GC_old_sig_mask +# define LOCK() PCR_Th_ML_Acquire(&GC_allocate_ml) +# define UNLOCK() PCR_Th_ML_Release(&GC_allocate_ml) +# define FASTLOCK() PCR_ThCrSec_EnterSys() + /* Here we cheat (a lot): */ +# define FASTLOCK_SUCCEEDED() (*(int *)(&GC_allocate_ml) == 0) + /* TRUE if nobody currently holds the lock */ +# define FASTUNLOCK() PCR_ThCrSec_ExitSys() +# endif +# ifdef PCR +# include <base/PCR_Base.h> +# include <th/PCR_Th.h> + extern PCR_Th_ML GC_allocate_ml; +# define DCL_LOCK_STATE \ + PCR_ERes GC_fastLockRes; PCR_sigset_t GC_old_sig_mask +# define LOCK() PCR_Th_ML_Acquire(&GC_allocate_ml) +# define UNLOCK() PCR_Th_ML_Release(&GC_allocate_ml) +# define FASTLOCK() (GC_fastLockRes = PCR_Th_ML_Try(&GC_allocate_ml)) +# define FASTLOCK_SUCCEEDED() (GC_fastLockRes == PCR_ERes_okay) +# define FASTUNLOCK() {\ + if( FASTLOCK_SUCCEEDED() ) PCR_Th_ML_Release(&GC_allocate_ml); } +# endif +# ifdef SRC_M3 + extern word RT0u__inCritical; +# define LOCK() RT0u__inCritical++ +# define UNLOCK() RT0u__inCritical-- +# endif +# ifdef SOLARIS_THREADS +# include <thread.h> +# include <signal.h> + extern mutex_t GC_allocate_ml; +# define LOCK() mutex_lock(&GC_allocate_ml); +# define UNLOCK() mutex_unlock(&GC_allocate_ml); +# endif +# ifdef LINUX_THREADS +# include <pthread.h> +# ifdef __i386__ + inline static int GC_test_and_set(volatile unsigned int *addr) { + int oldval; + /* Note: the "xchg" instruction does not need a "lock" prefix */ + __asm__ __volatile__("xchgl %0, %1" + : "=r"(oldval), "=m"(*(addr)) + : "0"(1), "m"(*(addr))); + return oldval; + } +# else + -- > Need implementation of GC_test_and_set() +# endif +# define GC_clear(addr) (*(addr) = 0) + + extern volatile unsigned int GC_allocate_lock; + /* This is not a mutex because mutexes that obey the (optional) */ + /* POSIX scheduling rules are subject to convoys in high contention */ + /* applications. This is basically a spin lock. */ + extern pthread_t GC_lock_holder; + extern void GC_lock(void); + /* Allocation lock holder. Only set if acquired by client through */ + /* GC_call_with_alloc_lock. */ +# define SET_LOCK_HOLDER() GC_lock_holder = pthread_self() +# define NO_THREAD (pthread_t)(-1) +# define UNSET_LOCK_HOLDER() GC_lock_holder = NO_THREAD +# define I_HOLD_LOCK() (pthread_equal(GC_lock_holder, pthread_self())) +# ifdef UNDEFINED +# define LOCK() pthread_mutex_lock(&GC_allocate_ml) +# define UNLOCK() pthread_mutex_unlock(&GC_allocate_ml) +# else +# define LOCK() \ + { if (GC_test_and_set(&GC_allocate_lock)) GC_lock(); } +# define UNLOCK() \ + GC_clear(&GC_allocate_lock) +# endif + extern GC_bool GC_collecting; +# define ENTER_GC() \ + { \ + GC_collecting = 1; \ + } +# define EXIT_GC() GC_collecting = 0; +# endif /* LINUX_THREADS */ +# if defined(IRIX_THREADS) || defined(IRIX_JDK_THREADS) +# include <pthread.h> +# include <mutex.h> + +# if __mips < 3 || !(defined (_ABIN32) || defined(_ABI64)) \ + || !defined(_COMPILER_VERSION) || _COMPILER_VERSION < 700 +# define GC_test_and_set(addr, v) test_and_set(addr,v) +# else +# define GC_test_and_set(addr, v) __test_and_set(addr,v) +# endif + extern unsigned long GC_allocate_lock; + /* This is not a mutex because mutexes that obey the (optional) */ + /* POSIX scheduling rules are subject to convoys in high contention */ + /* applications. This is basically a spin lock. */ + extern pthread_t GC_lock_holder; + extern void GC_lock(void); + /* Allocation lock holder. Only set if acquired by client through */ + /* GC_call_with_alloc_lock. */ +# define SET_LOCK_HOLDER() GC_lock_holder = pthread_self() +# define NO_THREAD (pthread_t)(-1) +# define UNSET_LOCK_HOLDER() GC_lock_holder = NO_THREAD +# define I_HOLD_LOCK() (pthread_equal(GC_lock_holder, pthread_self())) +# ifdef UNDEFINED +# define LOCK() pthread_mutex_lock(&GC_allocate_ml) +# define UNLOCK() pthread_mutex_unlock(&GC_allocate_ml) +# else +# define LOCK() { if (GC_test_and_set(&GC_allocate_lock, 1)) GC_lock(); } +# if __mips >= 3 && (defined (_ABIN32) || defined(_ABI64)) \ + && defined(_COMPILER_VERSION) && _COMPILER_VERSION >= 700 +# define UNLOCK() __lock_release(&GC_allocate_lock) +# else + /* The function call in the following should prevent the */ + /* compiler from moving assignments to below the UNLOCK. */ + /* This is probably not necessary for ucode or gcc 2.8. */ + /* It may be necessary for Ragnarok and future gcc */ + /* versions. */ +# define UNLOCK() { GC_noop1(&GC_allocate_lock); \ + *(volatile unsigned long *)(&GC_allocate_lock) = 0; } +# endif +# endif + extern GC_bool GC_collecting; +# define ENTER_GC() \ + { \ + GC_collecting = 1; \ + } +# define EXIT_GC() GC_collecting = 0; +# endif /* IRIX_THREADS || IRIX_JDK_THREADS */ +# ifdef WIN32_THREADS +# include <windows.h> + GC_API CRITICAL_SECTION GC_allocate_ml; +# define LOCK() EnterCriticalSection(&GC_allocate_ml); +# define UNLOCK() LeaveCriticalSection(&GC_allocate_ml); +# endif +# ifndef SET_LOCK_HOLDER +# define SET_LOCK_HOLDER() +# define UNSET_LOCK_HOLDER() +# define I_HOLD_LOCK() FALSE + /* Used on platforms were locks can be reacquired, */ + /* so it doesn't matter if we lie. */ +# endif +# else +# define LOCK() +# define UNLOCK() +# endif +# ifndef SET_LOCK_HOLDER +# define SET_LOCK_HOLDER() +# define UNSET_LOCK_HOLDER() +# define I_HOLD_LOCK() FALSE + /* Used on platforms were locks can be reacquired, */ + /* so it doesn't matter if we lie. */ +# endif +# ifndef ENTER_GC +# define ENTER_GC() +# define EXIT_GC() +# endif + +# ifndef DCL_LOCK_STATE +# define DCL_LOCK_STATE +# endif +# ifndef FASTLOCK +# define FASTLOCK() LOCK() +# define FASTLOCK_SUCCEEDED() TRUE +# define FASTUNLOCK() UNLOCK() +# endif + +/* Delay any interrupts or signals that may abort this thread. Data */ +/* structures are in a consistent state outside this pair of calls. */ +/* ANSI C allows both to be empty (though the standard isn't very */ +/* clear on that point). Standard malloc implementations are usually */ +/* neither interruptable nor thread-safe, and thus correspond to */ +/* empty definitions. */ +# ifdef PCR +# define DISABLE_SIGNALS() \ + PCR_Th_SetSigMask(PCR_allSigsBlocked,&GC_old_sig_mask) +# define ENABLE_SIGNALS() \ + PCR_Th_SetSigMask(&GC_old_sig_mask, NIL) +# else +# if defined(SRC_M3) || defined(AMIGA) || defined(SOLARIS_THREADS) \ + || defined(MSWIN32) || defined(MACOS) || defined(DJGPP) \ + || defined(NO_SIGNALS) || defined(IRIX_THREADS) \ + || defined(IRIX_JDK_THREADS) || defined(LINUX_THREADS) + /* Also useful for debugging. */ + /* Should probably use thr_sigsetmask for SOLARIS_THREADS. */ +# define DISABLE_SIGNALS() +# define ENABLE_SIGNALS() +# else +# define DISABLE_SIGNALS() GC_disable_signals() + void GC_disable_signals(); +# define ENABLE_SIGNALS() GC_enable_signals() + void GC_enable_signals(); +# endif +# endif + +/* + * Stop and restart mutator threads. + */ +# ifdef PCR +# include "th/PCR_ThCtl.h" +# define STOP_WORLD() \ + PCR_ThCtl_SetExclusiveMode(PCR_ThCtl_ExclusiveMode_stopNormal, \ + PCR_allSigsBlocked, \ + PCR_waitForever) +# define START_WORLD() \ + PCR_ThCtl_SetExclusiveMode(PCR_ThCtl_ExclusiveMode_null, \ + PCR_allSigsBlocked, \ + PCR_waitForever); +# else +# if defined(SOLARIS_THREADS) || defined(WIN32_THREADS) \ + || defined(IRIX_THREADS) || defined(LINUX_THREADS) \ + || defined(IRIX_JDK_THREADS) + void GC_stop_world(); + void GC_start_world(); +# define STOP_WORLD() GC_stop_world() +# define START_WORLD() GC_start_world() +# else +# define STOP_WORLD() +# define START_WORLD() +# endif +# endif + +/* Abandon ship */ +# ifdef PCR +# define ABORT(s) PCR_Base_Panic(s) +# else +# ifdef SMALL_CONFIG +# define ABORT(msg) abort(); +# else + GC_API void GC_abort(); +# define ABORT(msg) GC_abort(msg); +# endif +# endif + +/* Exit abnormally, but without making a mess (e.g. out of memory) */ +# ifdef PCR +# define EXIT() PCR_Base_Exit(1,PCR_waitForever) +# else +# define EXIT() (void)exit(1) +# endif + +/* Print warning message, e.g. almost out of memory. */ +# define WARN(msg,arg) (*GC_current_warn_proc)(msg, (GC_word)(arg)) +extern GC_warn_proc GC_current_warn_proc; + +/*********************************/ +/* */ +/* Word-size-dependent defines */ +/* */ +/*********************************/ + +#if CPP_WORDSZ == 32 +# define WORDS_TO_BYTES(x) ((x)<<2) +# define BYTES_TO_WORDS(x) ((x)>>2) +# define LOGWL ((word)5) /* log[2] of CPP_WORDSZ */ +# define modWORDSZ(n) ((n) & 0x1f) /* n mod size of word */ +# if ALIGNMENT != 4 +# define UNALIGNED +# endif +#endif + +#if CPP_WORDSZ == 64 +# define WORDS_TO_BYTES(x) ((x)<<3) +# define BYTES_TO_WORDS(x) ((x)>>3) +# define LOGWL ((word)6) /* log[2] of CPP_WORDSZ */ +# define modWORDSZ(n) ((n) & 0x3f) /* n mod size of word */ +# if ALIGNMENT != 8 +# define UNALIGNED +# endif +#endif + +#define WORDSZ ((word)CPP_WORDSZ) +#define SIGNB ((word)1 << (WORDSZ-1)) +#define BYTES_PER_WORD ((word)(sizeof (word))) +#define ONES ((word)(-1)) +#define divWORDSZ(n) ((n) >> LOGWL) /* divide n by size of word */ + +/*********************/ +/* */ +/* Size Parameters */ +/* */ +/*********************/ + +/* heap block size, bytes. Should be power of 2 */ + +#ifndef HBLKSIZE +# ifdef SMALL_CONFIG +# define CPP_LOG_HBLKSIZE 10 +# else +# if CPP_WORDSZ == 32 +# define CPP_LOG_HBLKSIZE 12 +# else +# define CPP_LOG_HBLKSIZE 13 +# endif +# endif +#else +# if HBLKSIZE == 512 +# define CPP_LOG_HBLKSIZE 9 +# endif +# if HBLKSIZE == 1024 +# define CPP_LOG_HBLKSIZE 10 +# endif +# if HBLKSIZE == 2048 +# define CPP_LOG_HBLKSIZE 11 +# endif +# if HBLKSIZE == 4096 +# define CPP_LOG_HBLKSIZE 12 +# endif +# if HBLKSIZE == 8192 +# define CPP_LOG_HBLKSIZE 13 +# endif +# if HBLKSIZE == 16384 +# define CPP_LOG_HBLKSIZE 14 +# endif +# ifndef CPP_LOG_HBLKSIZE + --> fix HBLKSIZE +# endif +# undef HBLKSIZE +#endif +# define CPP_HBLKSIZE (1 << CPP_LOG_HBLKSIZE) +# define LOG_HBLKSIZE ((word)CPP_LOG_HBLKSIZE) +# define HBLKSIZE ((word)CPP_HBLKSIZE) + + +/* max size objects supported by freelist (larger objects may be */ +/* allocated, but less efficiently) */ + +#define CPP_MAXOBJSZ BYTES_TO_WORDS(CPP_HBLKSIZE/2) +#define MAXOBJSZ ((word)CPP_MAXOBJSZ) + +# define divHBLKSZ(n) ((n) >> LOG_HBLKSIZE) + +# define HBLK_PTR_DIFF(p,q) divHBLKSZ((ptr_t)p - (ptr_t)q) + /* Equivalent to subtracting 2 hblk pointers. */ + /* We do it this way because a compiler should */ + /* find it hard to use an integer division */ + /* instead of a shift. The bundled SunOS 4.1 */ + /* o.w. sometimes pessimizes the subtraction to */ + /* involve a call to .div. */ + +# define modHBLKSZ(n) ((n) & (HBLKSIZE-1)) + +# define HBLKPTR(objptr) ((struct hblk *)(((word) (objptr)) & ~(HBLKSIZE-1))) + +# define HBLKDISPL(objptr) (((word) (objptr)) & (HBLKSIZE-1)) + +/* Round up byte allocation requests to integral number of words, etc. */ +# ifdef ADD_BYTE_AT_END +# define ROUNDED_UP_WORDS(n) BYTES_TO_WORDS((n) + WORDS_TO_BYTES(1)) +# ifdef ALIGN_DOUBLE +# define ALIGNED_WORDS(n) (BYTES_TO_WORDS((n) + WORDS_TO_BYTES(2)) & ~1) +# else +# define ALIGNED_WORDS(n) ROUNDED_UP_WORDS(n) +# endif +# define SMALL_OBJ(bytes) ((bytes) < WORDS_TO_BYTES(MAXOBJSZ)) +# define ADD_SLOP(bytes) ((bytes)+1) +# else +# define ROUNDED_UP_WORDS(n) BYTES_TO_WORDS((n) + (WORDS_TO_BYTES(1) - 1)) +# ifdef ALIGN_DOUBLE +# define ALIGNED_WORDS(n) \ + (BYTES_TO_WORDS((n) + WORDS_TO_BYTES(2) - 1) & ~1) +# else +# define ALIGNED_WORDS(n) ROUNDED_UP_WORDS(n) +# endif +# define SMALL_OBJ(bytes) ((bytes) <= WORDS_TO_BYTES(MAXOBJSZ)) +# define ADD_SLOP(bytes) (bytes) +# endif + + +/* + * Hash table representation of sets of pages. This assumes it is + * OK to add spurious entries to sets. + * Used by black-listing code, and perhaps by dirty bit maintenance code. + */ + +# ifdef LARGE_CONFIG +# define LOG_PHT_ENTRIES 17 +# else +# define LOG_PHT_ENTRIES 14 /* Collisions are likely if heap grows */ + /* to more than 16K hblks = 64MB. */ + /* Each hash table occupies 2K bytes. */ +# endif +# define PHT_ENTRIES ((word)1 << LOG_PHT_ENTRIES) +# define PHT_SIZE (PHT_ENTRIES >> LOGWL) +typedef word page_hash_table[PHT_SIZE]; + +# define PHT_HASH(addr) ((((word)(addr)) >> LOG_HBLKSIZE) & (PHT_ENTRIES - 1)) + +# define get_pht_entry_from_index(bl, index) \ + (((bl)[divWORDSZ(index)] >> modWORDSZ(index)) & 1) +# define set_pht_entry_from_index(bl, index) \ + (bl)[divWORDSZ(index)] |= (word)1 << modWORDSZ(index) +# define clear_pht_entry_from_index(bl, index) \ + (bl)[divWORDSZ(index)] &= ~((word)1 << modWORDSZ(index)) + + + +/********************************************/ +/* */ +/* H e a p B l o c k s */ +/* */ +/********************************************/ + +/* heap block header */ +#define HBLKMASK (HBLKSIZE-1) + +#define BITS_PER_HBLK (HBLKSIZE * 8) + +#define MARK_BITS_PER_HBLK (BITS_PER_HBLK/CPP_WORDSZ) + /* upper bound */ + /* We allocate 1 bit/word. Only the first word */ + /* in each object is actually marked. */ + +# ifdef ALIGN_DOUBLE +# define MARK_BITS_SZ (((MARK_BITS_PER_HBLK + 2*CPP_WORDSZ - 1) \ + / (2*CPP_WORDSZ))*2) +# else +# define MARK_BITS_SZ ((MARK_BITS_PER_HBLK + CPP_WORDSZ - 1)/CPP_WORDSZ) +# endif + /* Upper bound on number of mark words per heap block */ + +struct hblkhdr { + word hb_sz; /* If in use, size in words, of objects in the block. */ + /* if free, the size in bytes of the whole block */ + struct hblk * hb_next; /* Link field for hblk free list */ + /* and for lists of chunks waiting to be */ + /* reclaimed. */ + struct hblk * hb_prev; /* Backwards link for free list. */ + word hb_descr; /* object descriptor for marking. See */ + /* mark.h. */ + char* hb_map; /* A pointer to a pointer validity map of the block. */ + /* See GC_obj_map. */ + /* Valid for all blocks with headers. */ + /* Free blocks point to GC_invalid_map. */ + unsigned char hb_obj_kind; + /* Kind of objects in the block. Each kind */ + /* identifies a mark procedure and a set of */ + /* list headers. Sometimes called regions. */ + unsigned char hb_flags; +# define IGNORE_OFF_PAGE 1 /* Ignore pointers that do not */ + /* point to the first page of */ + /* this object. */ +# define WAS_UNMAPPED 2 /* This is a free block, which has */ + /* been unmapped from the address */ + /* space. */ + /* GC_remap must be invoked on it */ + /* before it can be reallocated. */ + /* Only set with USE_MUNMAP. */ + unsigned short hb_last_reclaimed; + /* Value of GC_gc_no when block was */ + /* last allocated or swept. May wrap. */ + /* For a free block, this is maintained */ + /* unly for USE_MUNMAP, and indicates */ + /* when the header was allocated, or */ + /* when the size of the block last */ + /* changed. */ + word hb_marks[MARK_BITS_SZ]; + /* Bit i in the array refers to the */ + /* object starting at the ith word (header */ + /* INCLUDED) in the heap block. */ + /* The lsb of word 0 is numbered 0. */ +}; + +/* heap block body */ + +# define DISCARD_WORDS 0 + /* Number of words to be dropped at the beginning of each block */ + /* Must be a multiple of WORDSZ. May reasonably be nonzero */ + /* on machines that don't guarantee longword alignment of */ + /* pointers, so that the number of false hits is minimized. */ + /* 0 and WORDSZ are probably the only reasonable values. */ + +# define BODY_SZ ((HBLKSIZE-WORDS_TO_BYTES(DISCARD_WORDS))/sizeof(word)) + +struct hblk { +# if (DISCARD_WORDS != 0) + word garbage[DISCARD_WORDS]; +# endif + word hb_body[BODY_SZ]; +}; + +# define HDR_WORDS ((word)DISCARD_WORDS) +# define HDR_BYTES ((word)WORDS_TO_BYTES(DISCARD_WORDS)) + +# define OBJ_SZ_TO_BLOCKS(sz) \ + divHBLKSZ(HDR_BYTES + WORDS_TO_BYTES(sz) + HBLKSIZE-1) + /* Size of block (in units of HBLKSIZE) needed to hold objects of */ + /* given sz (in words). */ + +/* Object free list link */ +# define obj_link(p) (*(ptr_t *)(p)) + +/* The type of mark procedures. This really belongs in gc_mark.h. */ +/* But we put it here, so that we can avoid scanning the mark proc */ +/* table. */ +typedef struct ms_entry * (*mark_proc)(/* word * addr, mark_stack_ptr, + mark_stack_limit, env */); +# define LOG_MAX_MARK_PROCS 6 +# define MAX_MARK_PROCS (1 << LOG_MAX_MARK_PROCS) + +/* Root sets. Logically private to mark_rts.c. But we don't want the */ +/* tables scanned, so we put them here. */ +/* MAX_ROOT_SETS is the maximum number of ranges that can be */ +/* registered as static roots. */ +# ifdef LARGE_CONFIG +# define MAX_ROOT_SETS 4096 +# else +# ifdef PCR +# define MAX_ROOT_SETS 1024 +# else +# ifdef MSWIN32 +# define MAX_ROOT_SETS 512 + /* Under NT, we add only written pages, which can result */ + /* in many small root sets. */ +# else +# define MAX_ROOT_SETS 64 +# endif +# endif +# endif + +# define MAX_EXCLUSIONS (MAX_ROOT_SETS/4) +/* Maximum number of segments that can be excluded from root sets. */ + +/* + * Data structure for excluded static roots. + */ +struct exclusion { + ptr_t e_start; + ptr_t e_end; +}; + +/* Data structure for list of root sets. */ +/* We keep a hash table, so that we can filter out duplicate additions. */ +/* Under Win32, we need to do a better job of filtering overlaps, so */ +/* we resort to sequential search, and pay the price. */ +struct roots { + ptr_t r_start; + ptr_t r_end; +# ifndef MSWIN32 + struct roots * r_next; +# endif + GC_bool r_tmp; + /* Delete before registering new dynamic libraries */ +}; + +#ifndef MSWIN32 + /* Size of hash table index to roots. */ +# define LOG_RT_SIZE 6 +# define RT_SIZE (1 << LOG_RT_SIZE) /* Power of 2, may be != MAX_ROOT_SETS */ +#endif + +/* Lists of all heap blocks and free lists */ +/* as well as other random data structures */ +/* that should not be scanned by the */ +/* collector. */ +/* These are grouped together in a struct */ +/* so that they can be easily skipped by the */ +/* GC_mark routine. */ +/* The ordering is weird to make GC_malloc */ +/* faster by keeping the important fields */ +/* sufficiently close together that a */ +/* single load of a base register will do. */ +/* Scalars that could easily appear to */ +/* be pointers are also put here. */ +/* The main fields should precede any */ +/* conditionally included fields, so that */ +/* gc_inl.h will work even if a different set */ +/* of macros is defined when the client is */ +/* compiled. */ + +struct _GC_arrays { + word _heapsize; + word _max_heapsize; + ptr_t _last_heap_addr; + ptr_t _prev_heap_addr; + word _large_free_bytes; + /* Total bytes contained in blocks on large object free */ + /* list. */ + word _words_allocd_before_gc; + /* Number of words allocated before this */ + /* collection cycle. */ + word _words_allocd; + /* Number of words allocated during this collection cycle */ + word _words_wasted; + /* Number of words wasted due to internal fragmentation */ + /* in large objects, or due to dropping blacklisted */ + /* blocks, since last gc. Approximate. */ + word _words_finalized; + /* Approximate number of words in objects (and headers) */ + /* That became ready for finalization in the last */ + /* collection. */ + word _non_gc_bytes_at_gc; + /* Number of explicitly managed bytes of storage */ + /* at last collection. */ + word _mem_freed; + /* Number of explicitly deallocated words of memory */ + /* since last collection. */ + mark_proc _mark_procs[MAX_MARK_PROCS]; + /* Table of user-defined mark procedures. There is */ + /* a small number of these, which can be referenced */ + /* by DS_PROC mark descriptors. See gc_mark.h. */ + ptr_t _objfreelist[MAXOBJSZ+1]; + /* free list for objects */ + ptr_t _aobjfreelist[MAXOBJSZ+1]; + /* free list for atomic objs */ + + ptr_t _uobjfreelist[MAXOBJSZ+1]; + /* uncollectable but traced objs */ + /* objects on this and auobjfreelist */ + /* are always marked, except during */ + /* garbage collections. */ +# ifdef ATOMIC_UNCOLLECTABLE + ptr_t _auobjfreelist[MAXOBJSZ+1]; +# endif + /* uncollectable but traced objs */ + +# ifdef GATHERSTATS + word _composite_in_use; + /* Number of words in accessible composite */ + /* objects. */ + word _atomic_in_use; + /* Number of words in accessible atomic */ + /* objects. */ +# endif +# ifdef USE_MUNMAP + word _unmapped_bytes; +# endif +# ifdef MERGE_SIZES + unsigned _size_map[WORDS_TO_BYTES(MAXOBJSZ+1)]; + /* Number of words to allocate for a given allocation request in */ + /* bytes. */ +# endif + +# ifdef STUBBORN_ALLOC + ptr_t _sobjfreelist[MAXOBJSZ+1]; +# endif + /* free list for immutable objects */ + ptr_t _obj_map[MAXOBJSZ+1]; + /* If not NIL, then a pointer to a map of valid */ + /* object addresses. _obj_map[sz][i] is j if the */ + /* address block_start+i is a valid pointer */ + /* to an object at */ + /* block_start+i&~3 - WORDS_TO_BYTES(j). */ + /* (If ALL_INTERIOR_POINTERS is defined, then */ + /* instead ((short *)(hb_map[sz])[i] is j if */ + /* block_start+WORDS_TO_BYTES(i) is in the */ + /* interior of an object starting at */ + /* block_start+WORDS_TO_BYTES(i-j)). */ + /* It is OBJ_INVALID if */ + /* block_start+WORDS_TO_BYTES(i) is not */ + /* valid as a pointer to an object. */ + /* We assume all values of j <= OBJ_INVALID. */ + /* The zeroth entry corresponds to large objects.*/ +# ifdef ALL_INTERIOR_POINTERS +# define map_entry_type short +# define OBJ_INVALID 0x7fff +# define MAP_ENTRY(map, bytes) \ + (((map_entry_type *)(map))[BYTES_TO_WORDS(bytes)]) +# define MAP_ENTRIES BYTES_TO_WORDS(HBLKSIZE) +# define MAP_SIZE (MAP_ENTRIES * sizeof(map_entry_type)) +# define OFFSET_VALID(displ) TRUE +# define CPP_MAX_OFFSET (HBLKSIZE - HDR_BYTES - 1) +# define MAX_OFFSET ((word)CPP_MAX_OFFSET) +# else +# define map_entry_type char +# define OBJ_INVALID 0x7f +# define MAP_ENTRY(map, bytes) \ + (map)[bytes] +# define MAP_ENTRIES HBLKSIZE +# define MAP_SIZE MAP_ENTRIES +# define CPP_MAX_OFFSET (WORDS_TO_BYTES(OBJ_INVALID) - 1) +# define MAX_OFFSET ((word)CPP_MAX_OFFSET) +# define VALID_OFFSET_SZ \ + (CPP_MAX_OFFSET > WORDS_TO_BYTES(CPP_MAXOBJSZ)? \ + CPP_MAX_OFFSET+1 \ + : WORDS_TO_BYTES(CPP_MAXOBJSZ)+1) + char _valid_offsets[VALID_OFFSET_SZ]; + /* GC_valid_offsets[i] == TRUE ==> i */ + /* is registered as a displacement. */ +# define OFFSET_VALID(displ) GC_valid_offsets[displ] + char _modws_valid_offsets[sizeof(word)]; + /* GC_valid_offsets[i] ==> */ + /* GC_modws_valid_offsets[i%sizeof(word)] */ +# endif +# ifdef STUBBORN_ALLOC + page_hash_table _changed_pages; + /* Stubborn object pages that were changes since last call to */ + /* GC_read_changed. */ + page_hash_table _prev_changed_pages; + /* Stubborn object pages that were changes before last call to */ + /* GC_read_changed. */ +# endif +# if defined(PROC_VDB) || defined(MPROTECT_VDB) + page_hash_table _grungy_pages; /* Pages that were dirty at last */ + /* GC_read_dirty. */ +# endif +# ifdef MPROTECT_VDB + VOLATILE page_hash_table _dirty_pages; + /* Pages dirtied since last GC_read_dirty. */ +# endif +# ifdef PROC_VDB + page_hash_table _written_pages; /* Pages ever dirtied */ +# endif +# ifdef LARGE_CONFIG +# if CPP_WORDSZ > 32 +# define MAX_HEAP_SECTS 4096 /* overflows at roughly 64 GB */ +# else +# define MAX_HEAP_SECTS 768 /* Separately added heap sections. */ +# endif +# else +# define MAX_HEAP_SECTS 256 +# endif + struct HeapSect { + ptr_t hs_start; word hs_bytes; + } _heap_sects[MAX_HEAP_SECTS]; +# ifdef MSWIN32 + ptr_t _heap_bases[MAX_HEAP_SECTS]; + /* Start address of memory regions obtained from kernel. */ +# endif + struct roots _static_roots[MAX_ROOT_SETS]; +# ifndef MSWIN32 + struct roots * _root_index[RT_SIZE]; +# endif + struct exclusion _excl_table[MAX_EXCLUSIONS]; + /* Block header index; see gc_headers.h */ + bottom_index * _all_nils; + bottom_index * _top_index [TOP_SZ]; +#ifdef SAVE_CALL_CHAIN + struct callinfo _last_stack[NFRAMES]; /* Stack at last garbage collection.*/ + /* Useful for debugging mysterious */ + /* object disappearances. */ + /* In the multithreaded case, we */ + /* currently only save the calling */ + /* stack. */ +#endif +}; + +GC_API GC_FAR struct _GC_arrays GC_arrays; + +# define GC_objfreelist GC_arrays._objfreelist +# define GC_aobjfreelist GC_arrays._aobjfreelist +# define GC_uobjfreelist GC_arrays._uobjfreelist +# ifdef ATOMIC_UNCOLLECTABLE +# define GC_auobjfreelist GC_arrays._auobjfreelist +# endif +# define GC_sobjfreelist GC_arrays._sobjfreelist +# define GC_valid_offsets GC_arrays._valid_offsets +# define GC_modws_valid_offsets GC_arrays._modws_valid_offsets +# ifdef STUBBORN_ALLOC +# define GC_changed_pages GC_arrays._changed_pages +# define GC_prev_changed_pages GC_arrays._prev_changed_pages +# endif +# define GC_obj_map GC_arrays._obj_map +# define GC_last_heap_addr GC_arrays._last_heap_addr +# define GC_prev_heap_addr GC_arrays._prev_heap_addr +# define GC_words_allocd GC_arrays._words_allocd +# define GC_words_wasted GC_arrays._words_wasted +# define GC_large_free_bytes GC_arrays._large_free_bytes +# define GC_words_finalized GC_arrays._words_finalized +# define GC_non_gc_bytes_at_gc GC_arrays._non_gc_bytes_at_gc +# define GC_mem_freed GC_arrays._mem_freed +# define GC_mark_procs GC_arrays._mark_procs +# define GC_heapsize GC_arrays._heapsize +# define GC_max_heapsize GC_arrays._max_heapsize +# define GC_words_allocd_before_gc GC_arrays._words_allocd_before_gc +# define GC_heap_sects GC_arrays._heap_sects +# define GC_last_stack GC_arrays._last_stack +# ifdef USE_MUNMAP +# define GC_unmapped_bytes GC_arrays._unmapped_bytes +# endif +# ifdef MSWIN32 +# define GC_heap_bases GC_arrays._heap_bases +# endif +# define GC_static_roots GC_arrays._static_roots +# define GC_root_index GC_arrays._root_index +# define GC_excl_table GC_arrays._excl_table +# define GC_all_nils GC_arrays._all_nils +# define GC_top_index GC_arrays._top_index +# if defined(PROC_VDB) || defined(MPROTECT_VDB) +# define GC_grungy_pages GC_arrays._grungy_pages +# endif +# ifdef MPROTECT_VDB +# define GC_dirty_pages GC_arrays._dirty_pages +# endif +# ifdef PROC_VDB +# define GC_written_pages GC_arrays._written_pages +# endif +# ifdef GATHERSTATS +# define GC_composite_in_use GC_arrays._composite_in_use +# define GC_atomic_in_use GC_arrays._atomic_in_use +# endif +# ifdef MERGE_SIZES +# define GC_size_map GC_arrays._size_map +# endif + +# define beginGC_arrays ((ptr_t)(&GC_arrays)) +# define endGC_arrays (((ptr_t)(&GC_arrays)) + (sizeof GC_arrays)) + +/* Object kinds: */ +# define MAXOBJKINDS 16 + +extern struct obj_kind { + ptr_t *ok_freelist; /* Array of free listheaders for this kind of object */ + /* Point either to GC_arrays or to storage allocated */ + /* with GC_scratch_alloc. */ + struct hblk **ok_reclaim_list; + /* List headers for lists of blocks waiting to be */ + /* swept. */ + word ok_descriptor; /* Descriptor template for objects in this */ + /* block. */ + GC_bool ok_relocate_descr; + /* Add object size in bytes to descriptor */ + /* template to obtain descriptor. Otherwise */ + /* template is used as is. */ + GC_bool ok_init; /* Clear objects before putting them on the free list. */ +} GC_obj_kinds[MAXOBJKINDS]; + +# define endGC_obj_kinds (((ptr_t)(&GC_obj_kinds)) + (sizeof GC_obj_kinds)) + +# define end_gc_area ((ptr_t)endGC_arrays == (ptr_t)(&GC_obj_kinds) ? \ + endGC_obj_kinds : endGC_arrays) + +/* Predefined kinds: */ +# define PTRFREE 0 +# define NORMAL 1 +# define UNCOLLECTABLE 2 +# ifdef ATOMIC_UNCOLLECTABLE +# define AUNCOLLECTABLE 3 +# define STUBBORN 4 +# define IS_UNCOLLECTABLE(k) (((k) & ~1) == UNCOLLECTABLE) +# else +# define STUBBORN 3 +# define IS_UNCOLLECTABLE(k) ((k) == UNCOLLECTABLE) +# endif + +extern int GC_n_kinds; + +GC_API word GC_fo_entries; + +extern word GC_n_heap_sects; /* Number of separately added heap */ + /* sections. */ + +extern word GC_page_size; + +# ifdef MSWIN32 +extern word GC_n_heap_bases; /* See GC_heap_bases. */ +# endif + +extern word GC_total_stack_black_listed; + /* Number of bytes on stack blacklist. */ + +extern word GC_black_list_spacing; + /* Average number of bytes between blacklisted */ + /* blocks. Approximate. */ + /* Counts only blocks that are */ + /* "stack-blacklisted", i.e. that are */ + /* problematic in the interior of an object. */ + +extern char * GC_invalid_map; + /* Pointer to the nowhere valid hblk map */ + /* Blocks pointing to this map are free. */ + +extern struct hblk * GC_hblkfreelist[]; + /* List of completely empty heap blocks */ + /* Linked through hb_next field of */ + /* header structure associated with */ + /* block. */ + +extern GC_bool GC_is_initialized; /* GC_init() has been run. */ + +extern GC_bool GC_objects_are_marked; /* There are marked objects in */ + /* the heap. */ + +#ifndef SMALL_CONFIG + extern GC_bool GC_incremental; + /* Using incremental/generational collection. */ +#else +# define GC_incremental TRUE + /* Hopefully allow optimizer to remove some code. */ +#endif + +extern GC_bool GC_dirty_maintained; + /* Dirty bits are being maintained, */ + /* either for incremental collection, */ + /* or to limit the root set. */ + +extern word GC_root_size; /* Total size of registered root sections */ + +extern GC_bool GC_debugging_started; /* GC_debug_malloc has been called. */ + +extern ptr_t GC_least_plausible_heap_addr; +extern ptr_t GC_greatest_plausible_heap_addr; + /* Bounds on the heap. Guaranteed valid */ + /* Likely to include future heap expansion. */ + +/* Operations */ +# ifndef abs +# define abs(x) ((x) < 0? (-(x)) : (x)) +# endif + + +/* Marks are in a reserved area in */ +/* each heap block. Each word has one mark bit associated */ +/* with it. Only those corresponding to the beginning of an */ +/* object are used. */ + + +/* Mark bit operations */ + +/* + * Retrieve, set, clear the mark bit corresponding + * to the nth word in a given heap block. + * + * (Recall that bit n corresponds to object beginning at word n + * relative to the beginning of the block, including unused words) + */ + +# define mark_bit_from_hdr(hhdr,n) (((hhdr)->hb_marks[divWORDSZ(n)] \ + >> (modWORDSZ(n))) & (word)1) +# define set_mark_bit_from_hdr(hhdr,n) (hhdr)->hb_marks[divWORDSZ(n)] \ + |= (word)1 << modWORDSZ(n) + +# define clear_mark_bit_from_hdr(hhdr,n) (hhdr)->hb_marks[divWORDSZ(n)] \ + &= ~((word)1 << modWORDSZ(n)) + +/* Important internal collector routines */ + +ptr_t GC_approx_sp(); + +GC_bool GC_should_collect(); +#ifdef PRESERVE_LAST + GC_bool GC_in_last_heap_sect(/* ptr_t */); + /* In last added heap section? If so, avoid breaking up. */ +#endif +void GC_apply_to_all_blocks(/*fn, client_data*/); + /* Invoke fn(hbp, client_data) for each */ + /* allocated heap block. */ +struct hblk * GC_next_used_block(/* struct hblk * h */); + /* Return first in-use block >= h */ +struct hblk * GC_prev_block(/* struct hblk * h */); + /* Return last block <= h. Returned block */ + /* is managed by GC, but may or may not be in */ + /* use. */ +void GC_mark_init(); +void GC_clear_marks(); /* Clear mark bits for all heap objects. */ +void GC_invalidate_mark_state(); /* Tell the marker that marked */ + /* objects may point to unmarked */ + /* ones, and roots may point to */ + /* unmarked objects. */ + /* Reset mark stack. */ +void GC_mark_from_mark_stack(); /* Mark from everything on the mark stack. */ + /* Return after about one pages worth of */ + /* work. */ +GC_bool GC_mark_stack_empty(); +GC_bool GC_mark_some(/* cold_gc_frame */); + /* Perform about one pages worth of marking */ + /* work of whatever kind is needed. Returns */ + /* quickly if no collection is in progress. */ + /* Return TRUE if mark phase finished. */ +void GC_initiate_gc(); /* initiate collection. */ + /* If the mark state is invalid, this */ + /* becomes full colleection. Otherwise */ + /* it's partial. */ +void GC_push_all(/*b,t*/); /* Push everything in a range */ + /* onto mark stack. */ +void GC_push_dirty(/*b,t*/); /* Push all possibly changed */ + /* subintervals of [b,t) onto */ + /* mark stack. */ +#ifndef SMALL_CONFIG + void GC_push_conditional(/* ptr_t b, ptr_t t, GC_bool all*/); +#else +# define GC_push_conditional(b, t, all) GC_push_all(b, t) +#endif + /* Do either of the above, depending */ + /* on the third arg. */ +void GC_push_all_stack(/*b,t*/); /* As above, but consider */ + /* interior pointers as valid */ +void GC_push_all_eager(/*b,t*/); /* Same as GC_push_all_stack, but */ + /* ensures that stack is scanned */ + /* immediately, not just scheduled */ + /* for scanning. */ +#ifndef THREADS + void GC_push_all_stack_partially_eager(/* bottom, top, cold_gc_frame */); + /* Similar to GC_push_all_eager, but only the */ + /* part hotter than cold_gc_frame is scanned */ + /* immediately. Needed to endure that callee- */ + /* save registers are not missed. */ +#else + /* In the threads case, we push part of the current thread stack */ + /* with GC_push_all_eager when we push the registers. This gets the */ + /* callee-save registers that may disappear. The remainder of the */ + /* stacks are scheduled for scanning in *GC_push_other_roots, which */ + /* is thread-package-specific. */ +#endif +void GC_push_current_stack(/* ptr_t cold_gc_frame */); + /* Push enough of the current stack eagerly to */ + /* ensure that callee-save registers saved in */ + /* GC frames are scanned. */ + /* In the non-threads case, schedule entire */ + /* stack for scanning. */ +void GC_push_roots(/* GC_bool all, ptr_t cold_gc_frame */); + /* Push all or dirty roots. */ +extern void (*GC_push_other_roots)(); + /* Push system or application specific roots */ + /* onto the mark stack. In some environments */ + /* (e.g. threads environments) this is */ + /* predfined to be non-zero. A client supplied */ + /* replacement should also call the original */ + /* function. */ +extern void (*GC_start_call_back)(/* void */); + /* Called at start of full collections. */ + /* Not called if 0. Called with allocation */ + /* lock held. */ + /* 0 by default. */ +void GC_push_regs(); /* Push register contents onto mark stack. */ +void GC_remark(); /* Mark from all marked objects. Used */ + /* only if we had to drop something. */ +# if defined(MSWIN32) + void __cdecl GC_push_one(); +# else + void GC_push_one(/*p*/); /* If p points to an object, mark it */ + /* and push contents on the mark stack */ +# endif +void GC_push_one_checked(/*p*/); /* Ditto, omits plausibility test */ +void GC_push_marked(/* struct hblk h, hdr * hhdr */); + /* Push contents of all marked objects in h onto */ + /* mark stack. */ +#ifdef SMALL_CONFIG +# define GC_push_next_marked_dirty(h) GC_push_next_marked(h) +#else + struct hblk * GC_push_next_marked_dirty(/* h */); + /* Invoke GC_push_marked on next dirty block above h. */ + /* Return a pointer just past the end of this block. */ +#endif /* !SMALL_CONFIG */ +struct hblk * GC_push_next_marked(/* h */); + /* Ditto, but also mark from clean pages. */ +struct hblk * GC_push_next_marked_uncollectable(/* h */); + /* Ditto, but mark only from uncollectable pages. */ +GC_bool GC_stopped_mark(); /* Stop world and mark from all roots */ + /* and rescuers. */ +void GC_clear_hdr_marks(/* hhdr */); /* Clear the mark bits in a header */ +void GC_set_hdr_marks(/* hhdr */); /* Set the mark bits in a header */ +void GC_add_roots_inner(); +GC_bool GC_is_static_root(/* ptr_t p */); + /* Is the address p in one of the registered static */ + /* root sections? */ +void GC_register_dynamic_libraries(); + /* Add dynamic library data sections to the root set. */ + +/* Machine dependent startup routines */ +ptr_t GC_get_stack_base(); +void GC_register_data_segments(); + +/* Black listing: */ +void GC_bl_init(); +# ifndef ALL_INTERIOR_POINTERS + void GC_add_to_black_list_normal(/* bits, maybe source */); + /* Register bits as a possible future false */ + /* reference from the heap or static data */ +# ifdef PRINT_BLACK_LIST +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_normal(bits, source) +# else +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_normal(bits) +# endif +# else +# ifdef PRINT_BLACK_LIST +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_stack(bits, source) +# else +# define GC_ADD_TO_BLACK_LIST_NORMAL(bits, source) \ + GC_add_to_black_list_stack(bits) +# endif +# endif + +void GC_add_to_black_list_stack(/* bits, maybe source */); +struct hblk * GC_is_black_listed(/* h, len */); + /* If there are likely to be false references */ + /* to a block starting at h of the indicated */ + /* length, then return the next plausible */ + /* starting location for h that might avoid */ + /* these false references. */ +void GC_promote_black_lists(); + /* Declare an end to a black listing phase. */ +void GC_unpromote_black_lists(); + /* Approximately undo the effect of the above. */ + /* This actually loses some information, but */ + /* only in a reasonably safe way. */ +word GC_number_stack_black_listed(/*struct hblk *start, struct hblk *endp1 */); + /* Return the number of (stack) blacklisted */ + /* blocks in the range for statistical */ + /* purposes. */ + +ptr_t GC_scratch_alloc(/*bytes*/); + /* GC internal memory allocation for */ + /* small objects. Deallocation is not */ + /* possible. */ + +/* Heap block layout maps: */ +void GC_invalidate_map(/* hdr */); + /* Remove the object map associated */ + /* with the block. This identifies */ + /* the block as invalid to the mark */ + /* routines. */ +GC_bool GC_add_map_entry(/*sz*/); + /* Add a heap block map for objects of */ + /* size sz to obj_map. */ + /* Return FALSE on failure. */ +void GC_register_displacement_inner(/*offset*/); + /* Version of GC_register_displacement */ + /* that assumes lock is already held */ + /* and signals are already disabled. */ + +/* hblk allocation: */ +void GC_new_hblk(/*size_in_words, kind*/); + /* Allocate a new heap block, and build */ + /* a free list in it. */ +struct hblk * GC_allochblk(/*size_in_words, kind*/); + /* Allocate a heap block, clear it if */ + /* for composite objects, inform */ + /* the marker that block is valid */ + /* for objects of indicated size. */ + /* sz < 0 ==> atomic. */ +void GC_freehblk(); /* Deallocate a heap block and mark it */ + /* as invalid. */ + +/* Misc GC: */ +void GC_init_inner(); +GC_bool GC_expand_hp_inner(); +void GC_start_reclaim(/*abort_if_found*/); + /* Restore unmarked objects to free */ + /* lists, or (if abort_if_found is */ + /* TRUE) report them. */ + /* Sweeping of small object pages is */ + /* largely deferred. */ +void GC_continue_reclaim(/*size, kind*/); + /* Sweep pages of the given size and */ + /* kind, as long as possible, and */ + /* as long as the corr. free list is */ + /* empty. */ +void GC_reclaim_or_delete_all(); + /* Arrange for all reclaim lists to be */ + /* empty. Judiciously choose between */ + /* sweeping and discarding each page. */ +GC_bool GC_reclaim_all(/* GC_stop_func f*/); + /* Reclaim all blocks. Abort (in a */ + /* consistent state) if f returns TRUE. */ +GC_bool GC_block_empty(/* hhdr */); /* Block completely unmarked? */ +GC_bool GC_never_stop_func(); /* Returns FALSE. */ +GC_bool GC_try_to_collect_inner(/* GC_stop_func f */); + /* Collect; caller must have acquired */ + /* lock and disabled signals. */ + /* Collection is aborted if f returns */ + /* TRUE. Returns TRUE if it completes */ + /* successfully. */ +# define GC_gcollect_inner() \ + (void) GC_try_to_collect_inner(GC_never_stop_func) +void GC_finish_collection(); /* Finish collection. Mark bits are */ + /* consistent and lock is still held. */ +GC_bool GC_collect_or_expand(/* needed_blocks */); + /* Collect or expand heap in an attempt */ + /* make the indicated number of free */ + /* blocks available. Should be called */ + /* until the blocks are available or */ + /* until it fails by returning FALSE. */ +GC_API void GC_init(); /* Initialize collector. */ +void GC_collect_a_little_inner(/* int n */); + /* Do n units worth of garbage */ + /* collection work, if appropriate. */ + /* A unit is an amount appropriate for */ + /* HBLKSIZE bytes of allocation. */ +ptr_t GC_generic_malloc(/* bytes, kind */); + /* Allocate an object of the given */ + /* kind. By default, there are only */ + /* a few kinds: composite(pointerfree), */ + /* atomic, uncollectable, etc. */ + /* We claim it's possible for clever */ + /* client code that understands GC */ + /* internals to add more, e.g. to */ + /* communicate object layout info */ + /* to the collector. */ +ptr_t GC_generic_malloc_ignore_off_page(/* bytes, kind */); + /* As above, but pointers past the */ + /* first page of the resulting object */ + /* are ignored. */ +ptr_t GC_generic_malloc_inner(/* bytes, kind */); + /* Ditto, but I already hold lock, etc. */ +ptr_t GC_generic_malloc_words_small GC_PROTO((size_t words, int kind)); + /* As above, but size in units of words */ + /* Bypasses MERGE_SIZES. Assumes */ + /* words <= MAXOBJSZ. */ +ptr_t GC_generic_malloc_inner_ignore_off_page(/* bytes, kind */); + /* Allocate an object, where */ + /* the client guarantees that there */ + /* will always be a pointer to the */ + /* beginning of the object while the */ + /* object is live. */ +ptr_t GC_allocobj(/* sz_inn_words, kind */); + /* Make the indicated */ + /* free list nonempty, and return its */ + /* head. */ + +void GC_init_headers(); +GC_bool GC_install_header(/*h*/); + /* Install a header for block h. */ + /* Return FALSE on failure. */ +GC_bool GC_install_counts(/*h, sz*/); + /* Set up forwarding counts for block */ + /* h of size sz. */ + /* Return FALSE on failure. */ +void GC_remove_header(/*h*/); + /* Remove the header for block h. */ +void GC_remove_counts(/*h, sz*/); + /* Remove forwarding counts for h. */ +hdr * GC_find_header(/*p*/); /* Debugging only. */ + +void GC_finalize(); /* Perform all indicated finalization actions */ + /* on unmarked objects. */ + /* Unreachable finalizable objects are enqueued */ + /* for processing by GC_invoke_finalizers. */ + /* Invoked with lock. */ + +void GC_add_to_heap(/*p, bytes*/); + /* Add a HBLKSIZE aligned chunk to the heap. */ + +void GC_print_obj(/* ptr_t p */); + /* P points to somewhere inside an object with */ + /* debugging info. Print a human readable */ + /* description of the object to stderr. */ +extern void (*GC_check_heap)(); + /* Check that all objects in the heap with */ + /* debugging info are intact. Print */ + /* descriptions of any that are not. */ +extern void (*GC_print_heap_obj)(/* ptr_t p */); + /* If possible print s followed by a more */ + /* detailed description of the object */ + /* referred to by p. */ + +/* Memory unmapping: */ +#ifdef USE_MUNMAP + void GC_unmap_old(void); + void GC_merge_unmapped(void); + void GC_unmap(ptr_t start, word bytes); + void GC_remap(ptr_t start, word bytes); + void GC_unmap_gap(ptr_t start1, word bytes1, ptr_t start2, word bytes2); +#endif + +/* Virtual dirty bit implementation: */ +/* Each implementation exports the following: */ +void GC_read_dirty(); /* Retrieve dirty bits. */ +GC_bool GC_page_was_dirty(/* struct hblk * h */); + /* Read retrieved dirty bits. */ +GC_bool GC_page_was_ever_dirty(/* struct hblk * h */); + /* Could the page contain valid heap pointers? */ +void GC_is_fresh(/* struct hblk * h, word number_of_blocks */); + /* Assert the region currently contains no */ + /* valid pointers. */ +void GC_write_hint(/* struct hblk * h */); + /* h is about to be written. */ +void GC_dirty_init(); + +/* Slow/general mark bit manipulation: */ +GC_API GC_bool GC_is_marked(); +void GC_clear_mark_bit(); +void GC_set_mark_bit(); + +/* Stubborn objects: */ +void GC_read_changed(); /* Analogous to GC_read_dirty */ +GC_bool GC_page_was_changed(/* h */); /* Analogous to GC_page_was_dirty */ +void GC_clean_changing_list(); /* Collect obsolete changing list entries */ +void GC_stubborn_init(); + +/* Debugging print routines: */ +void GC_print_block_list(); +void GC_print_hblkfreelist(); +void GC_print_heap_sects(); +void GC_print_static_roots(); +void GC_dump(); + +#ifdef KEEP_BACK_PTRS + void GC_store_back_pointer(ptr_t source, ptr_t dest); + void GC_marked_for_finalization(ptr_t dest); +# define GC_STORE_BACK_PTR(source, dest) GC_store_back_pointer(source, dest) +# define GC_MARKED_FOR_FINALIZATION(dest) GC_marked_for_finalization(dest) +#else +# define GC_STORE_BACK_PTR(source, dest) +# define GC_MARKED_FOR_FINALIZATION(dest) +#endif + +/* Make arguments appear live to compiler */ +# ifdef __WATCOMC__ + void GC_noop(void*, ...); +# else + GC_API void GC_noop(); +# endif + +void GC_noop1(/* word arg */); + +/* Logging and diagnostic output: */ +GC_API void GC_printf GC_PROTO((char * format, long, long, long, long, long, long)); + /* A version of printf that doesn't allocate, */ + /* is restricted to long arguments, and */ + /* (unfortunately) doesn't use varargs for */ + /* portability. Restricted to 6 args and */ + /* 1K total output length. */ + /* (We use sprintf. Hopefully that doesn't */ + /* allocate for long arguments.) */ +# define GC_printf0(f) GC_printf(f, 0l, 0l, 0l, 0l, 0l, 0l) +# define GC_printf1(f,a) GC_printf(f, (long)a, 0l, 0l, 0l, 0l, 0l) +# define GC_printf2(f,a,b) GC_printf(f, (long)a, (long)b, 0l, 0l, 0l, 0l) +# define GC_printf3(f,a,b,c) GC_printf(f, (long)a, (long)b, (long)c, 0l, 0l, 0l) +# define GC_printf4(f,a,b,c,d) GC_printf(f, (long)a, (long)b, (long)c, \ + (long)d, 0l, 0l) +# define GC_printf5(f,a,b,c,d,e) GC_printf(f, (long)a, (long)b, (long)c, \ + (long)d, (long)e, 0l) +# define GC_printf6(f,a,b,c,d,e,g) GC_printf(f, (long)a, (long)b, (long)c, \ + (long)d, (long)e, (long)g) + +void GC_err_printf(/* format, a, b, c, d, e, f */); +# define GC_err_printf0(f) GC_err_puts(f) +# define GC_err_printf1(f,a) GC_err_printf(f, (long)a, 0l, 0l, 0l, 0l, 0l) +# define GC_err_printf2(f,a,b) GC_err_printf(f, (long)a, (long)b, 0l, 0l, 0l, 0l) +# define GC_err_printf3(f,a,b,c) GC_err_printf(f, (long)a, (long)b, (long)c, \ + 0l, 0l, 0l) +# define GC_err_printf4(f,a,b,c,d) GC_err_printf(f, (long)a, (long)b, \ + (long)c, (long)d, 0l, 0l) +# define GC_err_printf5(f,a,b,c,d,e) GC_err_printf(f, (long)a, (long)b, \ + (long)c, (long)d, \ + (long)e, 0l) +# define GC_err_printf6(f,a,b,c,d,e,g) GC_err_printf(f, (long)a, (long)b, \ + (long)c, (long)d, \ + (long)e, (long)g) + /* Ditto, writes to stderr. */ + +void GC_err_puts(/* char *s */); + /* Write s to stderr, don't buffer, don't add */ + /* newlines, don't ... */ + + +# ifdef GC_ASSERTIONS +# define GC_ASSERT(expr) if(!(expr)) {\ + GC_err_printf2("Assertion failure: %s:%ld\n", \ + __FILE__, (unsigned long)__LINE__); \ + ABORT("assertion failure"); } +# else +# define GC_ASSERT(expr) +# endif + +# endif /* GC_PRIVATE_H */ diff --git a/gc/include/private/gcconfig.h b/gc/include/private/gcconfig.h new file mode 100644 index 0000000..c9017d3 --- /dev/null +++ b/gc/include/private/gcconfig.h @@ -0,0 +1,1099 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +#ifndef CONFIG_H + +# define CONFIG_H + +/* Machine dependent parameters. Some tuning parameters can be found */ +/* near the top of gc_private.h. */ + +/* Machine specific parts contributed by various people. See README file. */ + +/* First a unified test for Linux: */ +# if defined(linux) || defined(__linux__) +# define LINUX +# endif + +/* Determine the machine type: */ +# if defined(sun) && defined(mc68000) +# define M68K +# define SUNOS4 +# define mach_type_known +# endif +# if defined(hp9000s300) +# define M68K +# define HP +# define mach_type_known +# endif +# if defined(__OpenBSD__) && defined(m68k) +# define M68K +# define OPENBSD +# define mach_type_known +# endif +# if defined(__OpenBSD__) && defined(__sparc__) +# define SPARC +# define OPENBSD +# define mach_type_known +# endif +# if defined(__NetBSD__) && defined(m68k) +# define M68K +# define NETBSD +# define mach_type_known +# endif +# if defined(vax) +# define VAX +# ifdef ultrix +# define ULTRIX +# else +# define BSD +# endif +# define mach_type_known +# endif +# if defined(mips) || defined(__mips) +# define MIPS +# if defined(ultrix) || defined(__ultrix) || defined(__NetBSD__) +# define ULTRIX +# else +# if defined(_SYSTYPE_SVR4) || defined(SYSTYPE_SVR4) || defined(__SYSTYPE_SVR4__) +# define IRIX5 /* or IRIX 6.X */ +# else +# define RISCOS /* or IRIX 4.X */ +# endif +# endif +# define mach_type_known +# endif +# if defined(sequent) && defined(i386) +# define I386 +# define SEQUENT +# define mach_type_known +# endif +# if defined(sun) && defined(i386) +# define I386 +# define SUNOS5 +# define mach_type_known +# endif +# if (defined(__OS2__) || defined(__EMX__)) && defined(__32BIT__) +# define I386 +# define OS2 +# define mach_type_known +# endif +# if defined(ibm032) +# define RT +# define mach_type_known +# endif +# if defined(sun) && (defined(sparc) || defined(__sparc)) +# define SPARC + /* Test for SunOS 5.x */ +# include <errno.h> +# ifdef ECHRNG +# define SUNOS5 +# else +# define SUNOS4 +# endif +# define mach_type_known +# endif +# if defined(sparc) && defined(unix) && !defined(sun) && !defined(linux) \ + && !defined(__OpenBSD__) +# define SPARC +# define DRSNX +# define mach_type_known +# endif +# if defined(_IBMR2) +# define RS6000 +# define mach_type_known +# endif +# if defined(_M_XENIX) && defined(_M_SYSV) && defined(_M_I386) + /* The above test may need refinement */ +# define I386 +# if defined(_SCO_ELF) +# define SCO_ELF +# else +# define SCO +# endif +# define mach_type_known +# endif +# if defined(_AUX_SOURCE) +# define M68K +# define SYSV +# define mach_type_known +# endif +# if defined(_PA_RISC1_0) || defined(_PA_RISC1_1) \ + || defined(hppa) || defined(__hppa__) +# define HP_PA +# define mach_type_known +# endif +# if defined(LINUX) && (defined(i386) || defined(__i386__)) +# define I386 +# define mach_type_known +# endif +# if defined(LINUX) && defined(powerpc) +# define POWERPC +# define mach_type_known +# endif +# if defined(LINUX) && defined(__mc68000__) +# define M68K +# define mach_type_known +# endif +# if defined(LINUX) && defined(sparc) +# define SPARC +# define mach_type_known +# endif +# if defined(__alpha) || defined(__alpha__) +# define ALPHA +# if !defined(LINUX) +# define OSF1 /* a.k.a Digital Unix */ +# endif +# define mach_type_known +# endif +# if defined(_AMIGA) && !defined(AMIGA) +# define AMIGA +# endif +# ifdef AMIGA +# define M68K +# define mach_type_known +# endif +# if defined(THINK_C) || defined(__MWERKS__) && !defined(__powerc) +# define M68K +# define MACOS +# define mach_type_known +# endif +# if defined(__MWERKS__) && defined(__powerc) +# define POWERPC +# define MACOS +# define mach_type_known +# endif +# if defined(macosx) +# define MACOSX +# define POWERPC +# define mach_type_known +# endif +# if defined(NeXT) && defined(mc68000) +# define M68K +# define NEXT +# define mach_type_known +# endif +# if defined(NeXT) && defined(i386) +# define I386 +# define NEXT +# define mach_type_known +# endif +# if defined(__OpenBSD__) && defined(i386) +# define I386 +# define OPENBSD +# define mach_type_known +# endif +# if defined(__FreeBSD__) && defined(i386) +# define I386 +# define FREEBSD +# define mach_type_known +# endif +# if defined(__NetBSD__) && defined(i386) +# define I386 +# define NETBSD +# define mach_type_known +# endif +# if defined(bsdi) && defined(i386) +# define I386 +# define BSDI +# define mach_type_known +# endif +# if !defined(mach_type_known) && defined(__386BSD__) +# define I386 +# define THREE86BSD +# define mach_type_known +# endif +# if defined(_CX_UX) && defined(_M88K) +# define M88K +# define CX_UX +# define mach_type_known +# endif +# if defined(DGUX) +# define M88K + /* DGUX defined */ +# define mach_type_known +# endif +# if (defined(_MSDOS) || defined(_MSC_VER)) && (_M_IX86 >= 300) \ + || defined(_WIN32) && !defined(__CYGWIN32__) && !defined(__CYGWIN__) +# define I386 +# define MSWIN32 /* or Win32s */ +# define mach_type_known +# endif +# if defined(__DJGPP__) +# define I386 +# ifndef DJGPP +# define DJGPP /* MSDOS running the DJGPP port of GCC */ +# endif +# define mach_type_known +# endif +# if defined(__CYGWIN32__) || defined(__CYGWIN__) +# define I386 +# define CYGWIN32 +# define mach_type_known +# endif +# if defined(__BORLANDC__) +# define I386 +# define MSWIN32 +# define mach_type_known +# endif +# if defined(_UTS) && !defined(mach_type_known) +# define S370 +# define UTS4 +# define mach_type_known +# endif +/* Ivan Demakov */ +# if defined(__WATCOMC__) && defined(__386__) +# define I386 +# if !defined(OS2) && !defined(MSWIN32) && !defined(DOS4GW) +# if defined(__OS2__) +# define OS2 +# else +# if defined(__WINDOWS_386__) || defined(__NT__) +# define MSWIN32 +# else +# define DOS4GW +# endif +# endif +# endif +# define mach_type_known +# endif + +/* Feel free to add more clauses here */ + +/* Or manually define the machine type here. A machine type is */ +/* characterized by the architecture. Some */ +/* machine types are further subdivided by OS. */ +/* the macros ULTRIX, RISCOS, and BSD to distinguish. */ +/* Note that SGI IRIX is treated identically to RISCOS. */ +/* SYSV on an M68K actually means A/UX. */ +/* The distinction in these cases is usually the stack starting address */ +# ifndef mach_type_known + --> unknown machine type +# endif + /* Mapping is: M68K ==> Motorola 680X0 */ + /* (SUNOS4,HP,NEXT, and SYSV (A/UX), */ + /* MACOS and AMIGA variants) */ + /* I386 ==> Intel 386 */ + /* (SEQUENT, OS2, SCO, LINUX, NETBSD, */ + /* FREEBSD, THREE86BSD, MSWIN32, */ + /* BSDI,SUNOS5, NEXT, other variants) */ + /* NS32K ==> Encore Multimax */ + /* MIPS ==> R2000 or R3000 */ + /* (RISCOS, ULTRIX variants) */ + /* VAX ==> DEC VAX */ + /* (BSD, ULTRIX variants) */ + /* RS6000 ==> IBM RS/6000 AIX3.X */ + /* RT ==> IBM PC/RT */ + /* HP_PA ==> HP9000/700 & /800 */ + /* HP/UX */ + /* SPARC ==> SPARC under SunOS */ + /* (SUNOS4, SUNOS5, */ + /* DRSNX variants) */ + /* ALPHA ==> DEC Alpha */ + /* (OSF1 and LINUX variants) */ + /* M88K ==> Motorola 88XX0 */ + /* (CX_UX and DGUX) */ + /* S370 ==> 370-like machine */ + /* running Amdahl UTS4 */ + + +/* + * For each architecture and OS, the following need to be defined: + * + * CPP_WORD_SZ is a simple integer constant representing the word size. + * in bits. We assume byte addressibility, where a byte has 8 bits. + * We also assume CPP_WORD_SZ is either 32 or 64. + * (We care about the length of pointers, not hardware + * bus widths. Thus a 64 bit processor with a C compiler that uses + * 32 bit pointers should use CPP_WORD_SZ of 32, not 64. Default is 32.) + * + * MACH_TYPE is a string representation of the machine type. + * OS_TYPE is analogous for the OS. + * + * ALIGNMENT is the largest N, such that + * all pointer are guaranteed to be aligned on N byte boundaries. + * defining it to be 1 will always work, but perform poorly. + * + * DATASTART is the beginning of the data segment. + * On UNIX systems, the collector will scan the area between DATASTART + * and DATAEND for root pointers. + * + * DATAEND, if not &end. + * + * ALIGN_DOUBLE of GC_malloc should return blocks aligned to twice + * the pointer size. + * + * STACKBOTTOM is the cool end of the stack, which is usually the + * highest address in the stack. + * Under PCR or OS/2, we have other ways of finding thread stacks. + * For each machine, the following should: + * 1) define STACK_GROWS_UP if the stack grows toward higher addresses, and + * 2) define exactly one of + * STACKBOTTOM (should be defined to be an expression) + * HEURISTIC1 + * HEURISTIC2 + * If either of the last two macros are defined, then STACKBOTTOM is computed + * during collector startup using one of the following two heuristics: + * HEURISTIC1: Take an address inside GC_init's frame, and round it up to + * the next multiple of STACK_GRAN. + * HEURISTIC2: Take an address inside GC_init's frame, increment it repeatedly + * in small steps (decrement if STACK_GROWS_UP), and read the value + * at each location. Remember the value when the first + * Segmentation violation or Bus error is signalled. Round that + * to the nearest plausible page boundary, and use that instead + * of STACKBOTTOM. + * + * If no expression for STACKBOTTOM can be found, and neither of the above + * heuristics are usable, the collector can still be used with all of the above + * undefined, provided one of the following is done: + * 1) GC_mark_roots can be changed to somehow mark from the correct stack(s) + * without reference to STACKBOTTOM. This is appropriate for use in + * conjunction with thread packages, since there will be multiple stacks. + * (Allocating thread stacks in the heap, and treating them as ordinary + * heap data objects is also possible as a last resort. However, this is + * likely to introduce significant amounts of excess storage retention + * unless the dead parts of the thread stacks are periodically cleared.) + * 2) Client code may set GC_stackbottom before calling any GC_ routines. + * If the author of the client code controls the main program, this is + * easily accomplished by introducing a new main program, setting + * GC_stackbottom to the address of a local variable, and then calling + * the original main program. The new main program would read something + * like: + * + * # include "gc_private.h" + * + * main(argc, argv, envp) + * int argc; + * char **argv, **envp; + * { + * int dummy; + * + * GC_stackbottom = (ptr_t)(&dummy); + * return(real_main(argc, argv, envp)); + * } + * + * + * Each architecture may also define the style of virtual dirty bit + * implementation to be used: + * MPROTECT_VDB: Write protect the heap and catch faults. + * PROC_VDB: Use the SVR4 /proc primitives to read dirty bits. + * + * An architecture may define DYNAMIC_LOADING if dynamic_load.c + * defined GC_register_dynamic_libraries() for the architecture. + */ + + +# define STACK_GRAN 0x1000000 +# ifdef M68K +# define MACH_TYPE "M68K" +# define ALIGNMENT 2 +# ifdef OPENBSD +# define OS_TYPE "OPENBSD" +# define HEURISTIC2 + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# endif +# ifdef NETBSD +# define OS_TYPE "NETBSD" +# define HEURISTIC2 + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# define STACKBOTTOM ((ptr_t)0xf0000000) +# define MPROTECT_VDB +# ifdef __ELF__ +# define DYNAMIC_LOADING + extern char **__environ; +# define DATASTART ((ptr_t)(&__environ)) + /* hideous kludge: __environ is the first */ + /* word in crt0.o, and delimits the start */ + /* of the data segment, no matter which */ + /* ld options were passed through. */ + /* We could use _etext instead, but that */ + /* would include .rodata, which may */ + /* contain large read-only data tables */ + /* that we'd rather not scan. */ + extern int _end; +# define DATAEND (&_end) +# else + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# endif +# endif +# ifdef SUNOS4 +# define OS_TYPE "SUNOS4" + extern char etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x1ffff) & ~0x1ffff)) +# define HEURISTIC1 /* differs */ +# define DYNAMIC_LOADING +# endif +# ifdef HP +# define OS_TYPE "HP" + extern char etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# define STACKBOTTOM ((ptr_t) 0xffeffffc) + /* empirically determined. seems to work. */ +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGE_SIZE) +# endif +# ifdef SYSV +# define OS_TYPE "SYSV" + extern etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x3fffff) \ + & ~0x3fffff) \ + +((word)&etext & 0x1fff)) + /* This only works for shared-text binaries with magic number 0413. + The other sorts of SysV binaries put the data at the end of the text, + in which case the default of &etext would work. Unfortunately, + handling both would require having the magic-number available. + -- Parag + */ +# define STACKBOTTOM ((ptr_t)0xFFFFFFFE) + /* The stack starts at the top of memory, but */ + /* 0x0 cannot be used as setjump_test complains */ + /* that the stack direction is incorrect. Two */ + /* bytes down from 0x0 should be safe enough. */ + /* --Parag */ +# include <sys/mmu.h> +# define GETPAGESIZE() PAGESIZE /* Is this still right? */ +# endif +# ifdef AMIGA +# define OS_TYPE "AMIGA" + /* STACKBOTTOM and DATASTART handled specially */ + /* in os_dep.c */ +# define DATAEND /* not needed */ +# define GETPAGESIZE() 4096 +# endif +# ifdef MACOS +# ifndef __LOWMEM__ +# include <LowMem.h> +# endif +# define OS_TYPE "MACOS" + /* see os_dep.c for details of global data segments. */ +# define STACKBOTTOM ((ptr_t) LMGetCurStackBase()) +# define DATAEND /* not needed */ +# define GETPAGESIZE() 4096 +# endif +# ifdef NEXT +# define OS_TYPE "NEXT" +# define DATASTART ((ptr_t) get_etext()) +# define STACKBOTTOM ((ptr_t) 0x4000000) +# define DATAEND /* not needed */ +# endif +# endif + +# ifdef POWERPC +# define MACH_TYPE "POWERPC" +# ifdef MACOS +# define ALIGNMENT 2 /* Still necessary? Could it be 4? */ +# ifndef __LOWMEM__ +# include <LowMem.h> +# endif +# define OS_TYPE "MACOS" + /* see os_dep.c for details of global data segments. */ +# define STACKBOTTOM ((ptr_t) LMGetCurStackBase()) +# define DATAEND /* not needed */ +# endif +# ifdef LINUX +# define ALIGNMENT 4 /* Guess. Can someone verify? */ + /* This was 2, but that didn't sound right. */ +# define OS_TYPE "LINUX" +# define HEURISTIC1 +# undef STACK_GRAN +# define STACK_GRAN 0x10000000 + /* Stack usually starts at 0x80000000 */ +# define DATASTART GC_data_start + extern int _end; +# define DATAEND (&_end) +# endif +# ifdef MACOSX +# define ALIGNMENT 4 +# define OS_TYPE "MACOSX" +# define DATASTART ((ptr_t) get_etext()) +# define STACKBOTTOM ((ptr_t) 0xc0000000) +# define DATAEND /* not needed */ +# endif +# endif + +# ifdef VAX +# define MACH_TYPE "VAX" +# define ALIGNMENT 4 /* Pointers are longword aligned by 4.2 C compiler */ + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# ifdef BSD +# define OS_TYPE "BSD" +# define HEURISTIC1 + /* HEURISTIC2 may be OK, but it's hard to test. */ +# endif +# ifdef ULTRIX +# define OS_TYPE "ULTRIX" +# define STACKBOTTOM ((ptr_t) 0x7fffc800) +# endif +# endif + +# ifdef RT +# define MACH_TYPE "RT" +# define ALIGNMENT 4 +# define DATASTART ((ptr_t) 0x10000000) +# define STACKBOTTOM ((ptr_t) 0x1fffd800) +# endif + +# ifdef SPARC +# define MACH_TYPE "SPARC" +# define ALIGNMENT 4 /* Required by hardware */ +# define ALIGN_DOUBLE + extern int etext; +# ifdef SUNOS5 +# define OS_TYPE "SUNOS5" + extern int _etext; + extern int _end; + extern char * GC_SysVGetDataStart(); +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &_etext) +# define DATAEND (&_end) +# ifndef USE_MMAP +# define USE_MMAP +# endif +# ifdef USE_MMAP +# define HEAP_START (ptr_t)0x40000000 +# else +# define HEAP_START DATAEND +# endif +# define PROC_VDB +/* HEURISTIC1 reportedly no longer works under 2.7. Thus we */ +/* switched to HEURISTIC2, eventhough it creates some debugging */ +/* issues. */ +# define HEURISTIC2 +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGESIZE) + /* getpagesize() appeared to be missing from at least one */ + /* Solaris 5.4 installation. Weird. */ +# define DYNAMIC_LOADING +# endif +# ifdef SUNOS4 +# define OS_TYPE "SUNOS4" + /* [If you have a weak stomach, don't read this.] */ + /* We would like to use: */ +/* # define DATASTART ((ptr_t)((((word) (&etext)) + 0x1fff) & ~0x1fff)) */ + /* This fails occasionally, due to an ancient, but very */ + /* persistent ld bug. &etext is set 32 bytes too high. */ + /* We instead read the text segment size from the a.out */ + /* header, which happens to be mapped into our address space */ + /* at the start of the text segment. The detective work here */ + /* was done by Robert Ehrlich, Manuel Serrano, and Bernard */ + /* Serpette of INRIA. */ + /* This assumes ZMAGIC, i.e. demand-loadable executables. */ +# define TEXTSTART 0x2000 +# define DATASTART ((ptr_t)(*(int *)(TEXTSTART+0x4)+TEXTSTART)) +# define MPROTECT_VDB +# define HEURISTIC1 +# define DYNAMIC_LOADING +# endif +# ifdef DRSNX +# define CPP_WORDSZ 32 +# define OS_TYPE "DRSNX" + extern char * GC_SysVGetDataStart(); + extern int etext; +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &etext) +# define MPROTECT_VDB +# define STACKBOTTOM ((ptr_t) 0xdfff0000) +# define DYNAMIC_LOADING +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# ifdef __ELF__ +# define DATASTART GC_data_start +# define DYNAMIC_LOADING +# else + Linux Sparc non elf ? +# endif + extern int _end; +# define DATAEND (&_end) +# define SVR4 +# define STACKBOTTOM ((ptr_t) 0xf0000000) +# endif +# ifdef OPENBSD +# define OS_TYPE "OPENBSD" +# define STACKBOTTOM ((ptr_t) 0xf8000000) +# define DATASTART ((ptr_t)(&etext)) +# endif +# endif + +# ifdef I386 +# define MACH_TYPE "I386" +# define ALIGNMENT 4 /* Appears to hold for all "32 bit" compilers */ + /* except Borland. The -a4 option fixes */ + /* Borland. */ + /* Ivan Demakov: For Watcom the option is -zp4. */ +# ifndef SMALL_CONFIG +# define ALIGN_DOUBLE /* Not strictly necessary, but may give speed */ + /* improvement on Pentiums. */ +# endif +# ifdef SEQUENT +# define OS_TYPE "SEQUENT" + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# define STACKBOTTOM ((ptr_t) 0x3ffff000) +# endif +# ifdef SUNOS5 +# define OS_TYPE "SUNOS5" + extern int etext, _start; + extern char * GC_SysVGetDataStart(); +# define DATASTART GC_SysVGetDataStart(0x1000, &etext) +# define STACKBOTTOM ((ptr_t)(&_start)) +/** At least in Solaris 2.5, PROC_VDB gives wrong values for dirty bits. */ +/*# define PROC_VDB*/ +# define DYNAMIC_LOADING +# ifndef USE_MMAP +# define USE_MMAP +# endif +# ifdef USE_MMAP +# define HEAP_START (ptr_t)0x40000000 +# else +# define HEAP_START DATAEND +# endif +# endif +# ifdef SCO +# define OS_TYPE "SCO" + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x3fffff) \ + & ~0x3fffff) \ + +((word)&etext & 0xfff)) +# define STACKBOTTOM ((ptr_t) 0x7ffffffc) +# endif +# ifdef SCO_ELF +# define OS_TYPE "SCO_ELF" + extern int etext; +# define DATASTART ((ptr_t)(&etext)) +# define STACKBOTTOM ((ptr_t) 0x08048000) +# define DYNAMIC_LOADING +# define ELF_CLASS ELFCLASS32 +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# define HEURISTIC1 +# undef STACK_GRAN +# define STACK_GRAN 0x10000000 + /* STACKBOTTOM is usually 0xc0000000, but this changes with */ + /* different kernel configurations. In particular, systems */ + /* with 2GB physical memory will usually move the user */ + /* address space limit, and hence initial SP to 0x80000000. */ +# if !defined(LINUX_THREADS) || !defined(REDIRECT_MALLOC) +# define MPROTECT_VDB +# else + /* We seem to get random errors in incremental mode, */ + /* possibly because Linux threads is itself a malloc client */ + /* and can't deal with the signals. */ +# endif +# ifdef __ELF__ +# define DYNAMIC_LOADING +# ifdef UNDEFINED /* includes ro data */ + extern int _etext; +# define DATASTART ((ptr_t)((((word) (&_etext)) + 0xfff) & ~0xfff)) +# endif +# include <features.h> +# if defined(__GLIBC__) && __GLIBC__ >= 2 + extern int __data_start; +# define DATASTART ((ptr_t)(&__data_start)) +# else + extern char **__environ; +# define DATASTART ((ptr_t)(&__environ)) + /* hideous kludge: __environ is the first */ + /* word in crt0.o, and delimits the start */ + /* of the data segment, no matter which */ + /* ld options were passed through. */ + /* We could use _etext instead, but that */ + /* would include .rodata, which may */ + /* contain large read-only data tables */ + /* that we'd rather not scan. */ +# endif + extern int _end; +# define DATAEND (&_end) +# else + extern int etext; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0xfff) & ~0xfff)) +# endif +# endif +# ifdef CYGWIN32 +# define OS_TYPE "CYGWIN32" + extern int _data_start__; + extern int _data_end__; + extern int _bss_start__; + extern int _bss_end__; + /* For binutils 2.9.1, we have */ + /* DATASTART = _data_start__ */ + /* DATAEND = _bss_end__ */ + /* whereas for some earlier versions it was */ + /* DATASTART = _bss_start__ */ + /* DATAEND = _data_end__ */ + /* To get it right for both, we take the */ + /* minumum/maximum of the two. */ +# define MAX(x,y) ((x) > (y) ? (x) : (y)) +# define MIN(x,y) ((x) < (y) ? (x) : (y)) +# define DATASTART ((ptr_t) MIN(&_data_start__, &_bss_start__)) +# define DATAEND ((ptr_t) MAX(&_data_end__, &_bss_end__)) +# undef STACK_GRAN +# define STACK_GRAN 0x10000 +# define HEURISTIC1 +# endif +# ifdef OS2 +# define OS_TYPE "OS2" + /* STACKBOTTOM and DATASTART are handled specially in */ + /* os_dep.c. OS2 actually has the right */ + /* system call! */ +# define DATAEND /* not needed */ +# endif +# ifdef MSWIN32 +# define OS_TYPE "MSWIN32" + /* STACKBOTTOM and DATASTART are handled specially in */ + /* os_dep.c. */ +# ifndef __WATCOMC__ +# define MPROTECT_VDB +# endif +# define DATAEND /* not needed */ +# endif +# ifdef DJGPP +# define OS_TYPE "DJGPP" +# include "stubinfo.h" + extern int etext; + extern int _stklen; + extern int __djgpp_stack_limit; +# define DATASTART ((ptr_t)((((word) (&etext)) + 0x1ff) & ~0x1ff)) +/* # define STACKBOTTOM ((ptr_t)((word) _stubinfo + _stubinfo->size \ + + _stklen)) */ +# define STACKBOTTOM ((ptr_t)((word) __djgpp_stack_limit + _stklen)) + /* This may not be right. */ +# endif +# ifdef OPENBSD +# define OS_TYPE "OPENBSD" +# endif +# ifdef FREEBSD +# define OS_TYPE "FREEBSD" +# define MPROTECT_VDB +# endif +# ifdef NETBSD +# define OS_TYPE "NETBSD" +# endif +# ifdef THREE86BSD +# define OS_TYPE "THREE86BSD" +# endif +# ifdef BSDI +# define OS_TYPE "BSDI" +# endif +# if defined(OPENBSD) || defined(FREEBSD) || defined(NETBSD) \ + || defined(THREE86BSD) || defined(BSDI) +# define HEURISTIC2 + extern char etext; +# define DATASTART ((ptr_t)(&etext)) +# endif +# ifdef NEXT +# define OS_TYPE "NEXT" +# define DATASTART ((ptr_t) get_etext()) +# define STACKBOTTOM ((ptr_t)0xc0000000) +# define DATAEND /* not needed */ +# endif +# ifdef DOS4GW +# define OS_TYPE "DOS4GW" + extern long __nullarea; + extern char _end; + extern char *_STACKTOP; + /* Depending on calling conventions Watcom C either precedes + or does not precedes with undescore names of C-variables. + Make sure startup code variables always have the same names. */ + #pragma aux __nullarea "*"; + #pragma aux _end "*"; +# define STACKBOTTOM ((ptr_t) _STACKTOP) + /* confused? me too. */ +# define DATASTART ((ptr_t) &__nullarea) +# define DATAEND ((ptr_t) &_end) +# endif +# endif + +# ifdef NS32K +# define MACH_TYPE "NS32K" +# define ALIGNMENT 4 + extern char **environ; +# define DATASTART ((ptr_t)(&environ)) + /* hideous kludge: environ is the first */ + /* word in crt0.o, and delimits the start */ + /* of the data segment, no matter which */ + /* ld options were passed through. */ +# define STACKBOTTOM ((ptr_t) 0xfffff000) /* for Encore */ +# endif + +# ifdef MIPS +# define MACH_TYPE "MIPS" +# ifndef IRIX5 +# define DATASTART (ptr_t)0x10000000 + /* Could probably be slightly higher since */ + /* startup code allocates lots of stuff. */ +# else + extern int _fdata; +# define DATASTART ((ptr_t)(&_fdata)) +# ifdef USE_MMAP +# define HEAP_START (ptr_t)0x30000000 +# else +# define HEAP_START DATASTART +# endif + /* Lowest plausible heap address. */ + /* In the MMAP case, we map there. */ + /* In either case it is used to identify */ + /* heap sections so they're not */ + /* considered as roots. */ +# endif /* IRIX5 */ +# define HEURISTIC2 +/* # define STACKBOTTOM ((ptr_t)0x7fff8000) sometimes also works. */ +# ifdef ULTRIX +# define OS_TYPE "ULTRIX" +# define ALIGNMENT 4 +# endif +# ifdef RISCOS +# define OS_TYPE "RISCOS" +# define ALIGNMENT 4 /* Required by hardware */ +# endif +# ifdef IRIX5 +# define OS_TYPE "IRIX5" +# define MPROTECT_VDB +# ifdef _MIPS_SZPTR +# define CPP_WORDSZ _MIPS_SZPTR +# define ALIGNMENT (_MIPS_SZPTR/8) +# if CPP_WORDSZ != 64 +# define ALIGN_DOUBLE +# endif +# else +# define ALIGNMENT 4 +# define ALIGN_DOUBLE +# endif +# define DYNAMIC_LOADING +# endif +# endif + +# ifdef RS6000 +# define MACH_TYPE "RS6000" +# define ALIGNMENT 4 +# define DATASTART ((ptr_t)0x20000000) + extern int errno; +# define STACKBOTTOM ((ptr_t)((ulong)&errno)) +# define DYNAMIC_LOADING + /* For really old versions of AIX, this may have to be removed. */ +# endif + +# ifdef HP_PA +# define MACH_TYPE "HP_PA" +# define ALIGNMENT 4 +# define ALIGN_DOUBLE + extern int __data_start; +# define DATASTART ((ptr_t)(&__data_start)) +# if 0 + /* The following appears to work for 7xx systems running HP/UX */ + /* 9.xx Furthermore, it might result in much faster */ + /* collections than HEURISTIC2, which may involve scanning */ + /* segments that directly precede the stack. It is not the */ + /* default, since it may not work on older machine/OS */ + /* combinations. (Thanks to Raymond X.T. Nijssen for uncovering */ + /* this.) */ +# define STACKBOTTOM ((ptr_t) 0x7b033000) /* from /etc/conf/h/param.h */ +# else +# define HEURISTIC2 +# endif +# define STACK_GROWS_UP +# define DYNAMIC_LOADING +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGE_SIZE) + /* They misspelled the Posix macro? */ +# endif + +# ifdef ALPHA +# define MACH_TYPE "ALPHA" +# define ALIGNMENT 8 +# ifdef OSF1 +# define OS_TYPE "OSF1" +# define DATASTART ((ptr_t) 0x140000000) + extern _end; +# define DATAEND ((ptr_t) &_end) +# define HEURISTIC2 + /* Normally HEURISTIC2 is too conervative, since */ + /* the text segment immediately follows the stack. */ + /* Hence we give an upper pound. */ + extern int __start; +# define HEURISTIC2_LIMIT ((ptr_t)((word)(&__start) & ~(getpagesize()-1))) +# define CPP_WORDSZ 64 +# define MPROTECT_VDB +# define DYNAMIC_LOADING +# endif +# ifdef LINUX +# define OS_TYPE "LINUX" +# define CPP_WORDSZ 64 +# define STACKBOTTOM ((ptr_t) 0x120000000) +# ifdef __ELF__ +# if 0 + /* __data_start apparently disappeared in some recent releases. */ + extern int __data_start; +# define DATASTART &__data_start +# endif +# define DATASTART GC_data_start +# define DYNAMIC_LOADING +# else +# define DATASTART ((ptr_t) 0x140000000) +# endif + extern int _end; +# define DATAEND (&_end) +# define MPROTECT_VDB + /* Has only been superficially tested. May not */ + /* work on all versions. */ +# endif +# endif + +# ifdef M88K +# define MACH_TYPE "M88K" +# define ALIGNMENT 4 +# define ALIGN_DOUBLE + extern int etext; +# ifdef CX_UX +# define OS_TYPE "CX_UX" +# define DATASTART ((((word)&etext + 0x3fffff) & ~0x3fffff) + 0x10000) +# endif +# ifdef DGUX +# define OS_TYPE "DGUX" + extern char * GC_SysVGetDataStart(); +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &etext) +# endif +# define STACKBOTTOM ((char*)0xf0000000) /* determined empirically */ +# endif + +# ifdef S370 +# define MACH_TYPE "S370" +# define OS_TYPE "UTS4" +# define ALIGNMENT 4 /* Required by hardware */ + extern int etext; + extern int _etext; + extern int _end; + extern char * GC_SysVGetDataStart(); +# define DATASTART (ptr_t)GC_SysVGetDataStart(0x10000, &_etext) +# define DATAEND (&_end) +# define HEURISTIC2 +# endif + +# ifndef STACK_GROWS_UP +# define STACK_GROWS_DOWN +# endif + +# ifndef CPP_WORDSZ +# define CPP_WORDSZ 32 +# endif + +# ifndef OS_TYPE +# define OS_TYPE "" +# endif + +# ifndef DATAEND + extern int end; +# define DATAEND (&end) +# endif + +# if defined(SVR4) && !defined(GETPAGESIZE) +# include <unistd.h> +# define GETPAGESIZE() sysconf(_SC_PAGESIZE) +# endif + +# ifndef GETPAGESIZE +# if defined(SUNOS5) || defined(IRIX5) +# include <unistd.h> +# endif +# define GETPAGESIZE() getpagesize() +# endif + +# if defined(SUNOS5) || defined(DRSNX) || defined(UTS4) + /* OS has SVR4 generic features. Probably others also qualify. */ +# define SVR4 +# endif + +# if defined(SUNOS5) || defined(DRSNX) + /* OS has SUNOS5 style semi-undocumented interface to dynamic */ + /* loader. */ +# define SUNOS5DL + /* OS has SUNOS5 style signal handlers. */ +# define SUNOS5SIGS +# endif + +# if CPP_WORDSZ != 32 && CPP_WORDSZ != 64 + -> bad word size +# endif + +# ifdef PCR +# undef DYNAMIC_LOADING +# undef STACKBOTTOM +# undef HEURISTIC1 +# undef HEURISTIC2 +# undef PROC_VDB +# undef MPROTECT_VDB +# define PCR_VDB +# endif + +# ifdef SRC_M3 +/* Postponed for now. */ +# undef PROC_VDB +# undef MPROTECT_VDB +# endif + +# ifdef SMALL_CONFIG +/* Presumably not worth the space it takes. */ +# undef PROC_VDB +# undef MPROTECT_VDB +# endif + +# ifdef USE_MUNMAP +# undef MPROTECT_VDB /* Can't deal with address space holes. */ +# endif + +# if !defined(PCR_VDB) && !defined(PROC_VDB) && !defined(MPROTECT_VDB) +# define DEFAULT_VDB +# endif + +# if defined(_SOLARIS_PTHREADS) && !defined(SOLARIS_THREADS) +# define SOLARIS_THREADS +# endif +# if defined(IRIX_THREADS) && !defined(IRIX5) +--> inconsistent configuration +# endif +# if defined(IRIX_JDK_THREADS) && !defined(IRIX5) +--> inconsistent configuration +# endif +# if defined(LINUX_THREADS) && !defined(LINUX) +--> inconsistent configuration +# endif +# if defined(SOLARIS_THREADS) && !defined(SUNOS5) +--> inconsistent configuration +# endif +# if defined(PCR) || defined(SRC_M3) || \ + defined(SOLARIS_THREADS) || defined(WIN32_THREADS) || \ + defined(IRIX_THREADS) || defined(LINUX_THREADS) || \ + defined(IRIX_JDK_THREADS) +# define THREADS +# endif + +# if defined(HP_PA) || defined(M88K) || defined(POWERPC) \ + || (defined(I386) && defined(OS2)) || defined(UTS4) || defined(LINT) + /* Use setjmp based hack to mark from callee-save registers. */ +# define USE_GENERIC_PUSH_REGS +# endif +# if defined(SPARC) && !defined(LINUX) +# define SAVE_CALL_CHAIN +# define ASM_CLEAR_CODE /* Stack clearing is crucial, and we */ + /* include assembly code to do it well. */ +# endif + +# endif diff --git a/gc/include/weakpointer.h b/gc/include/weakpointer.h new file mode 100644 index 0000000..84906b0 --- /dev/null +++ b/gc/include/weakpointer.h @@ -0,0 +1,221 @@ +#ifndef _weakpointer_h_ +#define _weakpointer_h_ + +/**************************************************************************** + +WeakPointer and CleanUp + + Copyright (c) 1991 by Xerox Corporation. All rights reserved. + + THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + + Permission is hereby granted to copy this code for any purpose, + provided the above notices are retained on all copies. + + Last modified on Mon Jul 17 18:16:01 PDT 1995 by ellis + +****************************************************************************/ + +/**************************************************************************** + +WeakPointer + +A weak pointer is a pointer to a heap-allocated object that doesn't +prevent the object from being garbage collected. Weak pointers can be +used to track which objects haven't yet been reclaimed by the +collector. A weak pointer is deactivated when the collector discovers +its referent object is unreachable by normal pointers (reachability +and deactivation are defined more precisely below). A deactivated weak +pointer remains deactivated forever. + +****************************************************************************/ + + +template< class T > class WeakPointer { +public: + +WeakPointer( T* t = 0 ) + /* Constructs a weak pointer for *t. t may be null. It is an error + if t is non-null and *t is not a collected object. */ + {impl = _WeakPointer_New( t );} + +T* Pointer() + /* wp.Pointer() returns a pointer to the referent object of wp or + null if wp has been deactivated (because its referent object + has been discovered unreachable by the collector). */ + {return (T*) _WeakPointer_Pointer( this->impl );} + +int operator==( WeakPointer< T > wp2 ) + /* Given weak pointers wp1 and wp2, if wp1 == wp2, then wp1 and + wp2 refer to the same object. If wp1 != wp2, then either wp1 + and wp2 don't refer to the same object, or if they do, one or + both of them has been deactivated. (Note: If objects t1 and t2 + are never made reachable by their clean-up functions, then + WeakPointer<T>(t1) == WeakPointer<T>(t2) if and only t1 == t2.) */ + {return _WeakPointer_Equal( this->impl, wp2.impl );} + +int Hash() + /* Returns a hash code suitable for use by multiplicative- and + division-based hash tables. If wp1 == wp2, then wp1.Hash() == + wp2.Hash(). */ + {return _WeakPointer_Hash( this->impl );} + +private: +void* impl; +}; + +/***************************************************************************** + +CleanUp + +A garbage-collected object can have an associated clean-up function +that will be invoked some time after the collector discovers the +object is unreachable via normal pointers. Clean-up functions can be +used to release resources such as open-file handles or window handles +when their containing objects become unreachable. If a C++ object has +a non-empty explicit destructor (i.e. it contains programmer-written +code), the destructor will be automatically registered as the object's +initial clean-up function. + +There is no guarantee that the collector will detect every unreachable +object (though it will find almost all of them). Clients should not +rely on clean-up to cause some action to occur immediately -- clean-up +is only a mechanism for improving resource usage. + +Every object with a clean-up function also has a clean-up queue. When +the collector finds the object is unreachable, it enqueues it on its +queue. The clean-up function is applied when the object is removed +from the queue. By default, objects are enqueued on the garbage +collector's queue, and the collector removes all objects from its +queue after each collection. If a client supplies another queue for +objects, it is his responsibility to remove objects (and cause their +functions to be called) by polling it periodically. + +Clean-up queues allow clean-up functions accessing global data to +synchronize with the main program. Garbage collection can occur at any +time, and clean-ups invoked by the collector might access data in an +inconsistent state. A client can control this by defining an explicit +queue for objects and polling it at safe points. + +The following definitions are used by the specification below: + +Given a pointer t to a collected object, the base object BO(t) is the +value returned by new when it created the object. (Because of multiple +inheritance, t and BO(t) may not be the same address.) + +A weak pointer wp references an object *t if BO(wp.Pointer()) == +BO(t). + +***************************************************************************/ + +template< class T, class Data > class CleanUp { +public: + +static void Set( T* t, void c( Data* d, T* t ), Data* d = 0 ) + /* Sets the clean-up function of object BO(t) to be <c, d>, + replacing any previously defined clean-up function for BO(t); c + and d can be null, but t cannot. Sets the clean-up queue for + BO(t) to be the collector's queue. When t is removed from its + clean-up queue, its clean-up will be applied by calling c(d, + t). It is an error if *t is not a collected object. */ + {_CleanUp_Set( t, c, d );} + +static void Call( T* t ) + /* Sets the new clean-up function for BO(t) to be null and, if the + old one is non-null, calls it immediately, even if BO(t) is + still reachable. Deactivates any weak pointers to BO(t). */ + {_CleanUp_Call( t );} + +class Queue {public: + Queue() + /* Constructs a new queue. */ + {this->head = _CleanUp_Queue_NewHead();} + + void Set( T* t ) + /* q.Set(t) sets the clean-up queue of BO(t) to be q. */ + {_CleanUp_Queue_Set( this->head, t );} + + int Call() + /* If q is non-empty, q.Call() removes the first object and + calls its clean-up function; does nothing if q is + empty. Returns true if there are more objects in the + queue. */ + {return _CleanUp_Queue_Call( this->head );} + + private: + void* head; + }; +}; + +/********************************************************************** + +Reachability and Clean-up + +An object O is reachable if it can be reached via a non-empty path of +normal pointers from the registers, stacks, global variables, or an +object with a non-null clean-up function (including O itself), +ignoring pointers from an object to itself. + +This definition of reachability ensures that if object B is accessible +from object A (and not vice versa) and if both A and B have clean-up +functions, then A will always be cleaned up before B. Note that as +long as an object with a clean-up function is contained in a cycle of +pointers, it will always be reachable and will never be cleaned up or +collected. + +When the collector finds an unreachable object with a null clean-up +function, it atomically deactivates all weak pointers referencing the +object and recycles its storage. If object B is accessible from object +A via a path of normal pointers, A will be discovered unreachable no +later than B, and a weak pointer to A will be deactivated no later +than a weak pointer to B. + +When the collector finds an unreachable object with a non-null +clean-up function, the collector atomically deactivates all weak +pointers referencing the object, redefines its clean-up function to be +null, and enqueues it on its clean-up queue. The object then becomes +reachable again and remains reachable at least until its clean-up +function executes. + +The clean-up function is assured that its argument is the only +accessible pointer to the object. Nothing prevents the function from +redefining the object's clean-up function or making the object +reachable again (for example, by storing the pointer in a global +variable). + +If the clean-up function does not make its object reachable again and +does not redefine its clean-up function, then the object will be +collected by a subsequent collection (because the object remains +unreachable and now has a null clean-up function). If the clean-up +function does make its object reachable again and a clean-up function +is subsequently redefined for the object, then the new clean-up +function will be invoked the next time the collector finds the object +unreachable. + +Note that a destructor for a collected object cannot safely redefine a +clean-up function for its object, since after the destructor executes, +the object has been destroyed into "raw memory". (In most +implementations, destroying an object mutates its vtbl.) + +Finally, note that calling delete t on a collected object first +deactivates any weak pointers to t and then invokes its clean-up +function (destructor). + +**********************************************************************/ + +extern "C" { + void* _WeakPointer_New( void* t ); + void* _WeakPointer_Pointer( void* wp ); + int _WeakPointer_Equal( void* wp1, void* wp2 ); + int _WeakPointer_Hash( void* wp ); + void _CleanUp_Set( void* t, void (*c)( void* d, void* t ), void* d ); + void _CleanUp_Call( void* t ); + void* _CleanUp_Queue_NewHead (); + void _CleanUp_Queue_Set( void* h, void* t ); + int _CleanUp_Queue_Call( void* h ); +} + +#endif /* _weakpointer_h_ */ + + diff --git a/gc/irix_threads.c b/gc/irix_threads.c new file mode 100644 index 0000000..5efca21 --- /dev/null +++ b/gc/irix_threads.c @@ -0,0 +1,674 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* + * Support code for Irix (>=6.2) Pthreads. This relies on properties + * not guaranteed by the Pthread standard. It may or may not be portable + * to other implementations. + * + * Note that there is a lot of code duplication between linux_threads.c + * and irix_threads.c; any changes made here may need to be reflected + * there too. + */ + +# if defined(IRIX_THREADS) + +# include "gc_priv.h" +# include <pthread.h> +# include <semaphore.h> +# include <time.h> +# include <errno.h> +# include <unistd.h> +# include <sys/mman.h> +# include <sys/time.h> + +#undef pthread_create +#undef pthread_sigmask +#undef pthread_join + +void GC_thr_init(); + +#if 0 +void GC_print_sig_mask() +{ + sigset_t blocked; + int i; + + if (pthread_sigmask(SIG_BLOCK, NULL, &blocked) != 0) + ABORT("pthread_sigmask"); + GC_printf0("Blocked: "); + for (i = 1; i <= MAXSIG; i++) { + if (sigismember(&blocked, i)) { GC_printf1("%ld ",(long) i); } + } + GC_printf0("\n"); +} +#endif + +/* We use the allocation lock to protect thread-related data structures. */ + +/* The set of all known threads. We intercept thread creation and */ +/* joins. We never actually create detached threads. We allocate all */ +/* new thread stacks ourselves. These allow us to maintain this */ +/* data structure. */ +/* Protected by GC_thr_lock. */ +/* Some of this should be declared volatile, but that's incosnsistent */ +/* with some library routine declarations. */ +typedef struct GC_Thread_Rep { + struct GC_Thread_Rep * next; /* More recently allocated threads */ + /* with a given pthread id come */ + /* first. (All but the first are */ + /* guaranteed to be dead, but we may */ + /* not yet have registered the join.) */ + pthread_t id; + word stop; +# define NOT_STOPPED 0 +# define PLEASE_STOP 1 +# define STOPPED 2 + word flags; +# define FINISHED 1 /* Thread has exited. */ +# define DETACHED 2 /* Thread is intended to be detached. */ +# define CLIENT_OWNS_STACK 4 + /* Stack was supplied by client. */ + ptr_t stack; + ptr_t stack_ptr; /* Valid only when stopped. */ + /* But must be within stack region at */ + /* all times. */ + size_t stack_size; /* 0 for original thread. */ + void * status; /* Used only to avoid premature */ + /* reclamation of any data it might */ + /* reference. */ +} * GC_thread; + +GC_thread GC_lookup_thread(pthread_t id); + +/* + * The only way to suspend threads given the pthread interface is to send + * signals. Unfortunately, this means we have to reserve + * a signal, and intercept client calls to change the signal mask. + */ +# define SIG_SUSPEND (SIGRTMIN + 6) + +pthread_mutex_t GC_suspend_lock = PTHREAD_MUTEX_INITIALIZER; + /* Number of threads stopped so far */ +pthread_cond_t GC_suspend_ack_cv = PTHREAD_COND_INITIALIZER; +pthread_cond_t GC_continue_cv = PTHREAD_COND_INITIALIZER; + +void GC_suspend_handler(int sig) +{ + int dummy; + GC_thread me; + sigset_t all_sigs; + sigset_t old_sigs; + int i; + + if (sig != SIG_SUSPEND) ABORT("Bad signal in suspend_handler"); + me = GC_lookup_thread(pthread_self()); + /* The lookup here is safe, since I'm doing this on behalf */ + /* of a thread which holds the allocation lock in order */ + /* to stop the world. Thus concurrent modification of the */ + /* data structure is impossible. */ + if (PLEASE_STOP != me -> stop) { + /* Misdirected signal. */ + pthread_mutex_unlock(&GC_suspend_lock); + return; + } + pthread_mutex_lock(&GC_suspend_lock); + me -> stack_ptr = (ptr_t)(&dummy); + me -> stop = STOPPED; + pthread_cond_signal(&GC_suspend_ack_cv); + pthread_cond_wait(&GC_continue_cv, &GC_suspend_lock); + pthread_mutex_unlock(&GC_suspend_lock); + /* GC_printf1("Continuing 0x%x\n", pthread_self()); */ +} + + +GC_bool GC_thr_initialized = FALSE; + +size_t GC_min_stack_sz; + +size_t GC_page_sz; + +# define N_FREE_LISTS 25 +ptr_t GC_stack_free_lists[N_FREE_LISTS] = { 0 }; + /* GC_stack_free_lists[i] is free list for stacks of */ + /* size GC_min_stack_sz*2**i. */ + /* Free lists are linked through first word. */ + +/* Return a stack of size at least *stack_size. *stack_size is */ +/* replaced by the actual stack size. */ +/* Caller holds allocation lock. */ +ptr_t GC_stack_alloc(size_t * stack_size) +{ + register size_t requested_sz = *stack_size; + register size_t search_sz = GC_min_stack_sz; + register int index = 0; /* = log2(search_sz/GC_min_stack_sz) */ + register ptr_t result; + + while (search_sz < requested_sz) { + search_sz *= 2; + index++; + } + if ((result = GC_stack_free_lists[index]) == 0 + && (result = GC_stack_free_lists[index+1]) != 0) { + /* Try next size up. */ + search_sz *= 2; index++; + } + if (result != 0) { + GC_stack_free_lists[index] = *(ptr_t *)result; + } else { + result = (ptr_t) GC_scratch_alloc(search_sz + 2*GC_page_sz); + result = (ptr_t)(((word)result + GC_page_sz) & ~(GC_page_sz - 1)); + /* Protect hottest page to detect overflow. */ + /* mprotect(result, GC_page_sz, PROT_NONE); */ + result += GC_page_sz; + } + *stack_size = search_sz; + return(result); +} + +/* Caller holds allocation lock. */ +void GC_stack_free(ptr_t stack, size_t size) +{ + register int index = 0; + register size_t search_sz = GC_min_stack_sz; + + while (search_sz < size) { + search_sz *= 2; + index++; + } + if (search_sz != size) ABORT("Bad stack size"); + *(ptr_t *)stack = GC_stack_free_lists[index]; + GC_stack_free_lists[index] = stack; +} + + + +# define THREAD_TABLE_SZ 128 /* Must be power of 2 */ +volatile GC_thread GC_threads[THREAD_TABLE_SZ]; + +/* Add a thread to GC_threads. We assume it wasn't already there. */ +/* Caller holds allocation lock. */ +GC_thread GC_new_thread(pthread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + GC_thread result; + static struct GC_Thread_Rep first_thread; + static GC_bool first_thread_used = FALSE; + + if (!first_thread_used) { + result = &first_thread; + first_thread_used = TRUE; + /* Dont acquire allocation lock, since we may already hold it. */ + } else { + result = (struct GC_Thread_Rep *) + GC_generic_malloc_inner(sizeof(struct GC_Thread_Rep), NORMAL); + } + if (result == 0) return(0); + result -> id = id; + result -> next = GC_threads[hv]; + GC_threads[hv] = result; + /* result -> flags = 0; */ + /* result -> stop = 0; */ + return(result); +} + +/* Delete a thread from GC_threads. We assume it is there. */ +/* (The code intentionally traps if it wasn't.) */ +/* Caller holds allocation lock. */ +void GC_delete_thread(pthread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + register GC_thread prev = 0; + + while (!pthread_equal(p -> id, id)) { + prev = p; + p = p -> next; + } + if (prev == 0) { + GC_threads[hv] = p -> next; + } else { + prev -> next = p -> next; + } +} + +/* If a thread has been joined, but we have not yet */ +/* been notified, then there may be more than one thread */ +/* in the table with the same pthread id. */ +/* This is OK, but we need a way to delete a specific one. */ +void GC_delete_gc_thread(pthread_t id, GC_thread gc_id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + register GC_thread prev = 0; + + while (p != gc_id) { + prev = p; + p = p -> next; + } + if (prev == 0) { + GC_threads[hv] = p -> next; + } else { + prev -> next = p -> next; + } +} + +/* Return a GC_thread corresponding to a given thread_t. */ +/* Returns 0 if it's not there. */ +/* Caller holds allocation lock or otherwise inhibits */ +/* updates. */ +/* If there is more than one thread with the given id we */ +/* return the most recent one. */ +GC_thread GC_lookup_thread(pthread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + + while (p != 0 && !pthread_equal(p -> id, id)) p = p -> next; + return(p); +} + + +/* Caller holds allocation lock. */ +void GC_stop_world() +{ + pthread_t my_thread = pthread_self(); + register int i; + register GC_thread p; + register int result; + struct timespec timeout; + + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> id != my_thread) { + if (p -> flags & FINISHED) { + p -> stop = STOPPED; + continue; + } + p -> stop = PLEASE_STOP; + result = pthread_kill(p -> id, SIG_SUSPEND); + /* GC_printf1("Sent signal to 0x%x\n", p -> id); */ + switch(result) { + case ESRCH: + /* Not really there anymore. Possible? */ + p -> stop = STOPPED; + break; + case 0: + break; + default: + ABORT("pthread_kill failed"); + } + } + } + } + pthread_mutex_lock(&GC_suspend_lock); + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + while (p -> id != my_thread && p -> stop != STOPPED) { + clock_gettime(CLOCK_REALTIME, &timeout); + timeout.tv_nsec += 50000000; /* 50 msecs */ + if (timeout.tv_nsec >= 1000000000) { + timeout.tv_nsec -= 1000000000; + ++timeout.tv_sec; + } + result = pthread_cond_timedwait(&GC_suspend_ack_cv, + &GC_suspend_lock, + &timeout); + if (result == ETIMEDOUT) { + /* Signal was lost or misdirected. Try again. */ + /* Duplicate signals should be benign. */ + result = pthread_kill(p -> id, SIG_SUSPEND); + } + } + } + } + pthread_mutex_unlock(&GC_suspend_lock); + /* GC_printf1("World stopped 0x%x\n", pthread_self()); */ +} + +/* Caller holds allocation lock. */ +void GC_start_world() +{ + GC_thread p; + unsigned i; + + /* GC_printf0("World starting\n"); */ + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + p -> stop = NOT_STOPPED; + } + } + pthread_mutex_lock(&GC_suspend_lock); + /* All other threads are at pthread_cond_wait in signal handler. */ + /* Otherwise we couldn't have acquired the lock. */ + pthread_mutex_unlock(&GC_suspend_lock); + pthread_cond_broadcast(&GC_continue_cv); +} + +# ifdef MMAP_STACKS +--> not really supported yet. +int GC_is_thread_stack(ptr_t addr) +{ + register int i; + register GC_thread p; + + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> stack_size != 0) { + if (p -> stack <= addr && + addr < p -> stack + p -> stack_size) + return 1; + } + } + } + return 0; +} +# endif + +/* We hold allocation lock. We assume the world is stopped. */ +void GC_push_all_stacks() +{ + register int i; + register GC_thread p; + register ptr_t sp = GC_approx_sp(); + register ptr_t lo, hi; + pthread_t me = pthread_self(); + + if (!GC_thr_initialized) GC_thr_init(); + /* GC_printf1("Pushing stacks from thread 0x%x\n", me); */ + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> flags & FINISHED) continue; + if (pthread_equal(p -> id, me)) { + lo = GC_approx_sp(); + } else { + lo = p -> stack_ptr; + } + if (p -> stack_size != 0) { + hi = p -> stack + p -> stack_size; + } else { + /* The original stack. */ + hi = GC_stackbottom; + } + GC_push_all_stack(lo, hi); + } + } +} + + +/* We hold the allocation lock. */ +void GC_thr_init() +{ + GC_thread t; + struct sigaction act; + + if (GC_thr_initialized) return; + GC_thr_initialized = TRUE; + GC_min_stack_sz = HBLKSIZE; + GC_page_sz = sysconf(_SC_PAGESIZE); + (void) sigaction(SIG_SUSPEND, 0, &act); + if (act.sa_handler != SIG_DFL) + ABORT("Previously installed SIG_SUSPEND handler"); + /* Install handler. */ + act.sa_handler = GC_suspend_handler; + act.sa_flags = SA_RESTART; + (void) sigemptyset(&act.sa_mask); + if (0 != sigaction(SIG_SUSPEND, &act, 0)) + ABORT("Failed to install SIG_SUSPEND handler"); + /* Add the initial thread, so we can stop it. */ + t = GC_new_thread(pthread_self()); + t -> stack_size = 0; + t -> stack_ptr = (ptr_t)(&t); + t -> flags = DETACHED; +} + +int GC_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset) +{ + sigset_t fudged_set; + + if (set != NULL && (how == SIG_BLOCK || how == SIG_SETMASK)) { + fudged_set = *set; + sigdelset(&fudged_set, SIG_SUSPEND); + set = &fudged_set; + } + return(pthread_sigmask(how, set, oset)); +} + +struct start_info { + void *(*start_routine)(void *); + void *arg; + word flags; + ptr_t stack; + size_t stack_size; + sem_t registered; /* 1 ==> in our thread table, but */ + /* parent hasn't yet noticed. */ +}; + +void GC_thread_exit_proc(void *arg) +{ + GC_thread me; + + LOCK(); + me = GC_lookup_thread(pthread_self()); + if (me -> flags & DETACHED) { + GC_delete_thread(pthread_self()); + } else { + me -> flags |= FINISHED; + } + UNLOCK(); +} + +int GC_pthread_join(pthread_t thread, void **retval) +{ + int result; + GC_thread thread_gc_id; + + LOCK(); + thread_gc_id = GC_lookup_thread(thread); + /* This is guaranteed to be the intended one, since the thread id */ + /* cant have been recycled by pthreads. */ + UNLOCK(); + result = pthread_join(thread, retval); + /* Some versions of the Irix pthreads library can erroneously */ + /* return EINTR when the call succeeds. */ + if (EINTR == result) result = 0; + LOCK(); + /* Here the pthread thread id may have been recycled. */ + GC_delete_gc_thread(thread, thread_gc_id); + UNLOCK(); + return result; +} + +void * GC_start_routine(void * arg) +{ + struct start_info * si = arg; + void * result; + GC_thread me; + pthread_t my_pthread; + void *(*start)(void *); + void *start_arg; + + my_pthread = pthread_self(); + /* If a GC occurs before the thread is registered, that GC will */ + /* ignore this thread. That's fine, since it will block trying to */ + /* acquire the allocation lock, and won't yet hold interesting */ + /* pointers. */ + LOCK(); + /* We register the thread here instead of in the parent, so that */ + /* we don't need to hold the allocation lock during pthread_create. */ + /* Holding the allocation lock there would make REDIRECT_MALLOC */ + /* impossible. It probably still doesn't work, but we're a little */ + /* closer ... */ + /* This unfortunately means that we have to be careful the parent */ + /* doesn't try to do a pthread_join before we're registered. */ + me = GC_new_thread(my_pthread); + me -> flags = si -> flags; + me -> stack = si -> stack; + me -> stack_size = si -> stack_size; + me -> stack_ptr = (ptr_t)si -> stack + si -> stack_size - sizeof(word); + UNLOCK(); + start = si -> start_routine; + start_arg = si -> arg; + sem_post(&(si -> registered)); + pthread_cleanup_push(GC_thread_exit_proc, 0); + result = (*start)(start_arg); + me -> status = result; + me -> flags |= FINISHED; + pthread_cleanup_pop(1); + /* This involves acquiring the lock, ensuring that we can't exit */ + /* while a collection that thinks we're alive is trying to stop */ + /* us. */ + return(result); +} + +int +GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void *(*start_routine)(void *), void *arg) +{ + int result; + GC_thread t; + void * stack; + size_t stacksize; + pthread_attr_t new_attr; + int detachstate; + word my_flags = 0; + struct start_info * si = GC_malloc(sizeof(struct start_info)); + /* This is otherwise saved only in an area mmapped by the thread */ + /* library, which isn't visible to the collector. */ + + if (0 == si) return(ENOMEM); + sem_init(&(si -> registered), 0, 0); + si -> start_routine = start_routine; + si -> arg = arg; + LOCK(); + if (!GC_thr_initialized) GC_thr_init(); + if (NULL == attr) { + stack = 0; + (void) pthread_attr_init(&new_attr); + } else { + new_attr = *attr; + pthread_attr_getstackaddr(&new_attr, &stack); + } + pthread_attr_getstacksize(&new_attr, &stacksize); + pthread_attr_getdetachstate(&new_attr, &detachstate); + if (stacksize < GC_min_stack_sz) ABORT("Stack too small"); + if (0 == stack) { + stack = (void *)GC_stack_alloc(&stacksize); + if (0 == stack) { + UNLOCK(); + return(ENOMEM); + } + pthread_attr_setstackaddr(&new_attr, stack); + } else { + my_flags |= CLIENT_OWNS_STACK; + } + if (PTHREAD_CREATE_DETACHED == detachstate) my_flags |= DETACHED; + si -> flags = my_flags; + si -> stack = stack; + si -> stack_size = stacksize; + result = pthread_create(new_thread, &new_attr, GC_start_routine, si); + if (0 == new_thread && !(my_flags & CLIENT_OWNS_STACK)) { + GC_stack_free(stack, stacksize); + } + UNLOCK(); + /* Wait until child has been added to the thread table. */ + /* This also ensures that we hold onto si until the child is done */ + /* with it. Thus it doesn't matter whether it is otherwise */ + /* visible to the collector. */ + if (0 != sem_wait(&(si -> registered))) ABORT("sem_wait failed"); + sem_destroy(&(si -> registered)); + /* pthread_attr_destroy(&new_attr); */ + return(result); +} + +GC_bool GC_collecting = 0; /* A hint that we're in the collector and */ + /* holding the allocation lock for an */ + /* extended period. */ + +/* Reasonably fast spin locks. Basically the same implementation */ +/* as STL alloc.h. This isn't really the right way to do this. */ +/* but until the POSIX scheduling mess gets straightened out ... */ + +unsigned long GC_allocate_lock = 0; + +#define SLEEP_THRESHOLD 3 + +void GC_lock() +{ +# define low_spin_max 30 /* spin cycles if we suspect uniprocessor */ +# define high_spin_max 1000 /* spin cycles for multiprocessor */ + static unsigned spin_max = low_spin_max; + unsigned my_spin_max; + static unsigned last_spins = 0; + unsigned my_last_spins; + volatile unsigned junk; +# define PAUSE junk *= junk; junk *= junk; junk *= junk; junk *= junk + int i; + + if (!GC_test_and_set(&GC_allocate_lock, 1)) { + return; + } + junk = 0; + my_spin_max = spin_max; + my_last_spins = last_spins; + for (i = 0; i < my_spin_max; i++) { + if (GC_collecting) goto yield; + if (i < my_last_spins/2 || GC_allocate_lock) { + PAUSE; + continue; + } + if (!GC_test_and_set(&GC_allocate_lock, 1)) { + /* + * got it! + * Spinning worked. Thus we're probably not being scheduled + * against the other process with which we were contending. + * Thus it makes sense to spin longer the next time. + */ + last_spins = i; + spin_max = high_spin_max; + return; + } + } + /* We are probably being scheduled against the other process. Sleep. */ + spin_max = low_spin_max; +yield: + for (i = 0;; ++i) { + if (!GC_test_and_set(&GC_allocate_lock, 1)) { + return; + } + if (i < SLEEP_THRESHOLD) { + sched_yield(); + } else { + struct timespec ts; + + if (i > 26) i = 26; + /* Don't wait for more than about 60msecs, even */ + /* under extreme contention. */ + ts.tv_sec = 0; + ts.tv_nsec = 1 << i; + nanosleep(&ts, 0); + } + } +} + + + +# else + +#ifndef LINT + int GC_no_Irix_threads; +#endif + +# endif /* IRIX_THREADS */ + diff --git a/gc/linux_threads.c b/gc/linux_threads.c new file mode 100644 index 0000000..8287dce --- /dev/null +++ b/gc/linux_threads.c @@ -0,0 +1,665 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * Copyright (c) 1998 by Fergus Henderson. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* + * Support code for LinuxThreads, the clone()-based kernel + * thread package for Linux which is included in libc6. + * + * This code relies on implementation details of LinuxThreads, + * (i.e. properties not guaranteed by the Pthread standard): + * + * - the function GC_linux_thread_top_of_stack(void) + * relies on the way LinuxThreads lays out thread stacks + * in the address space. + * + * Note that there is a lot of code duplication between linux_threads.c + * and irix_threads.c; any changes made here may need to be reflected + * there too. + */ + +/* #define DEBUG_THREADS 1 */ + +/* ANSI C requires that a compilation unit contains something */ +# include "gc_priv.h" + +# if defined(LINUX_THREADS) + +# include <pthread.h> +# include <time.h> +# include <errno.h> +# include <unistd.h> +# include <sys/mman.h> +# include <sys/time.h> +# include <semaphore.h> + +#undef pthread_create +#undef pthread_sigmask +#undef pthread_join + +void GC_thr_init(); + +#if 0 +void GC_print_sig_mask() +{ + sigset_t blocked; + int i; + + if (pthread_sigmask(SIG_BLOCK, NULL, &blocked) != 0) + ABORT("pthread_sigmask"); + GC_printf0("Blocked: "); + for (i = 1; i <= MAXSIG; i++) { + if (sigismember(&blocked, i)) { GC_printf1("%ld ",(long) i); } + } + GC_printf0("\n"); +} +#endif + +/* We use the allocation lock to protect thread-related data structures. */ + +/* The set of all known threads. We intercept thread creation and */ +/* joins. We never actually create detached threads. We allocate all */ +/* new thread stacks ourselves. These allow us to maintain this */ +/* data structure. */ +/* Protected by GC_thr_lock. */ +/* Some of this should be declared volatile, but that's incosnsistent */ +/* with some library routine declarations. */ +typedef struct GC_Thread_Rep { + struct GC_Thread_Rep * next; /* More recently allocated threads */ + /* with a given pthread id come */ + /* first. (All but the first are */ + /* guaranteed to be dead, but we may */ + /* not yet have registered the join.) */ + pthread_t id; + word flags; +# define FINISHED 1 /* Thread has exited. */ +# define DETACHED 2 /* Thread is intended to be detached. */ +# define MAIN_THREAD 4 /* True for the original thread only. */ + + ptr_t stack_end; + ptr_t stack_ptr; /* Valid only when stopped. */ + int signal; + void * status; /* The value returned from the thread. */ + /* Used only to avoid premature */ + /* reclamation of any data it might */ + /* reference. */ +} * GC_thread; + +GC_thread GC_lookup_thread(pthread_t id); + +/* + * The only way to suspend threads given the pthread interface is to send + * signals. We can't use SIGSTOP directly, because we need to get the + * thread to save its stack pointer in the GC thread table before + * suspending. So we have to reserve a signal of our own for this. + * This means we have to intercept client calls to change the signal mask. + * The linuxthreads package already uses SIGUSR1 and SIGUSR2, + * so we need to reuse something else. I chose SIGPWR. + * (Perhaps SIGUNUSED would be a better choice.) + */ +#define SIG_SUSPEND SIGPWR + +#define SIG_RESTART SIGXCPU + +sem_t GC_suspend_ack_sem; + +/* +GC_linux_thread_top_of_stack() relies on implementation details of +LinuxThreads, namely that thread stacks are allocated on 2M boundaries +and grow to no more than 2M. +To make sure that we're using LinuxThreads and not some other thread +package, we generate a dummy reference to `pthread_kill_other_threads_np' +(was `__pthread_initial_thread_bos' but that disappeared), +which is a symbol defined in LinuxThreads, but (hopefully) not in other +thread packages. +*/ +void (*dummy_var_to_force_linux_threads)() = pthread_kill_other_threads_np; + +#define LINUX_THREADS_STACK_SIZE (2 * 1024 * 1024) + +static inline ptr_t GC_linux_thread_top_of_stack(void) +{ + char *sp = GC_approx_sp(); + ptr_t tos = (ptr_t) (((unsigned long)sp | (LINUX_THREADS_STACK_SIZE - 1)) + 1); +#if DEBUG_THREADS + GC_printf1("SP = %lx\n", (unsigned long)sp); + GC_printf1("TOS = %lx\n", (unsigned long)tos); +#endif + return tos; +} + +void GC_suspend_handler(int sig) +{ + int dummy; + pthread_t my_thread = pthread_self(); + GC_thread me; + sigset_t all_sigs; + sigset_t old_sigs; + int i; + sigset_t mask; + + if (sig != SIG_SUSPEND) ABORT("Bad signal in suspend_handler"); + +#if DEBUG_THREADS + GC_printf1("Suspending 0x%x\n", my_thread); +#endif + + me = GC_lookup_thread(my_thread); + /* The lookup here is safe, since I'm doing this on behalf */ + /* of a thread which holds the allocation lock in order */ + /* to stop the world. Thus concurrent modification of the */ + /* data structure is impossible. */ + me -> stack_ptr = (ptr_t)(&dummy); + me -> stack_end = GC_linux_thread_top_of_stack(); + + /* Tell the thread that wants to stop the world that this */ + /* thread has been stopped. Note that sem_post() is */ + /* the only async-signal-safe primitive in LinuxThreads. */ + sem_post(&GC_suspend_ack_sem); + + /* Wait until that thread tells us to restart by sending */ + /* this thread a SIG_RESTART signal. */ + /* SIG_RESTART should be masked at this point. Thus there */ + /* is no race. */ + if (sigfillset(&mask) != 0) ABORT("sigfillset() failed"); + if (sigdelset(&mask, SIG_RESTART) != 0) ABORT("sigdelset() failed"); + do { + me->signal = 0; + sigsuspend(&mask); /* Wait for signal */ + } while (me->signal != SIG_RESTART); + +#if DEBUG_THREADS + GC_printf1("Continuing 0x%x\n", my_thread); +#endif +} + +void GC_restart_handler(int sig) +{ + GC_thread me; + + if (sig != SIG_RESTART) ABORT("Bad signal in suspend_handler"); + + /* Let the GC_suspend_handler() know that we got a SIG_RESTART. */ + /* The lookup here is safe, since I'm doing this on behalf */ + /* of a thread which holds the allocation lock in order */ + /* to stop the world. Thus concurrent modification of the */ + /* data structure is impossible. */ + me = GC_lookup_thread(pthread_self()); + me->signal = SIG_RESTART; + + /* + ** Note: even if we didn't do anything useful here, + ** it would still be necessary to have a signal handler, + ** rather than ignoring the signals, otherwise + ** the signals will not be delivered at all, and + ** will thus not interrupt the sigsuspend() above. + */ + +#if DEBUG_THREADS + GC_printf1("In GC_restart_handler for 0x%x\n", pthread_self()); +#endif +} + +GC_bool GC_thr_initialized = FALSE; + +# define THREAD_TABLE_SZ 128 /* Must be power of 2 */ +volatile GC_thread GC_threads[THREAD_TABLE_SZ]; + +/* Add a thread to GC_threads. We assume it wasn't already there. */ +/* Caller holds allocation lock. */ +GC_thread GC_new_thread(pthread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + GC_thread result; + static struct GC_Thread_Rep first_thread; + static GC_bool first_thread_used = FALSE; + + if (!first_thread_used) { + result = &first_thread; + first_thread_used = TRUE; + /* Dont acquire allocation lock, since we may already hold it. */ + } else { + result = (struct GC_Thread_Rep *) + GC_generic_malloc_inner(sizeof(struct GC_Thread_Rep), NORMAL); + } + if (result == 0) return(0); + result -> id = id; + result -> next = GC_threads[hv]; + GC_threads[hv] = result; + /* result -> flags = 0; */ + return(result); +} + +/* Delete a thread from GC_threads. We assume it is there. */ +/* (The code intentionally traps if it wasn't.) */ +/* Caller holds allocation lock. */ +void GC_delete_thread(pthread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + register GC_thread prev = 0; + + while (!pthread_equal(p -> id, id)) { + prev = p; + p = p -> next; + } + if (prev == 0) { + GC_threads[hv] = p -> next; + } else { + prev -> next = p -> next; + } +} + +/* If a thread has been joined, but we have not yet */ +/* been notified, then there may be more than one thread */ +/* in the table with the same pthread id. */ +/* This is OK, but we need a way to delete a specific one. */ +void GC_delete_gc_thread(pthread_t id, GC_thread gc_id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + register GC_thread prev = 0; + + while (p != gc_id) { + prev = p; + p = p -> next; + } + if (prev == 0) { + GC_threads[hv] = p -> next; + } else { + prev -> next = p -> next; + } +} + +/* Return a GC_thread corresponding to a given thread_t. */ +/* Returns 0 if it's not there. */ +/* Caller holds allocation lock or otherwise inhibits */ +/* updates. */ +/* If there is more than one thread with the given id we */ +/* return the most recent one. */ +GC_thread GC_lookup_thread(pthread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + + while (p != 0 && !pthread_equal(p -> id, id)) p = p -> next; + return(p); +} + +/* Caller holds allocation lock. */ +void GC_stop_world() +{ + pthread_t my_thread = pthread_self(); + register int i; + register GC_thread p; + register int n_live_threads = 0; + register int result; + + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> id != my_thread) { + if (p -> flags & FINISHED) continue; + n_live_threads++; + #if DEBUG_THREADS + GC_printf1("Sending suspend signal to 0x%x\n", p -> id); + #endif + result = pthread_kill(p -> id, SIG_SUSPEND); + switch(result) { + case ESRCH: + /* Not really there anymore. Possible? */ + n_live_threads--; + break; + case 0: + break; + default: + ABORT("pthread_kill failed"); + } + } + } + } + for (i = 0; i < n_live_threads; i++) { + sem_wait(&GC_suspend_ack_sem); + } + #if DEBUG_THREADS + GC_printf1("World stopped 0x%x\n", pthread_self()); + #endif +} + +/* Caller holds allocation lock. */ +void GC_start_world() +{ + pthread_t my_thread = pthread_self(); + register int i; + register GC_thread p; + register int n_live_threads = 0; + register int result; + +# if DEBUG_THREADS + GC_printf0("World starting\n"); +# endif + + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> id != my_thread) { + if (p -> flags & FINISHED) continue; + n_live_threads++; + #if DEBUG_THREADS + GC_printf1("Sending restart signal to 0x%x\n", p -> id); + #endif + result = pthread_kill(p -> id, SIG_RESTART); + switch(result) { + case ESRCH: + /* Not really there anymore. Possible? */ + n_live_threads--; + break; + case 0: + break; + default: + ABORT("pthread_kill failed"); + } + } + } + } + #if DEBUG_THREADS + GC_printf0("World started\n"); + #endif +} + +/* We hold allocation lock. We assume the world is stopped. */ +void GC_push_all_stacks() +{ + register int i; + register GC_thread p; + register ptr_t sp = GC_approx_sp(); + register ptr_t lo, hi; + pthread_t me = pthread_self(); + + if (!GC_thr_initialized) GC_thr_init(); + #if DEBUG_THREADS + GC_printf1("Pushing stacks from thread 0x%lx\n", (unsigned long) me); + #endif + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> flags & FINISHED) continue; + if (pthread_equal(p -> id, me)) { + lo = GC_approx_sp(); + } else { + lo = p -> stack_ptr; + } + if ((p -> flags & MAIN_THREAD) == 0) { + if (pthread_equal(p -> id, me)) { + hi = GC_linux_thread_top_of_stack(); + } else { + hi = p -> stack_end; + } + } else { + /* The original stack. */ + hi = GC_stackbottom; + } + #if DEBUG_THREADS + GC_printf3("Stack for thread 0x%lx = [%lx,%lx)\n", + (unsigned long) p -> id, + (unsigned long) lo, (unsigned long) hi); + #endif + GC_push_all_stack(lo, hi); + } + } +} + + +/* We hold the allocation lock. */ +void GC_thr_init() +{ + GC_thread t; + struct sigaction act; + + if (GC_thr_initialized) return; + GC_thr_initialized = TRUE; + + if (sem_init(&GC_suspend_ack_sem, 0, 0) != 0) + ABORT("sem_init failed"); + + act.sa_flags = SA_RESTART; + if (sigfillset(&act.sa_mask) != 0) { + ABORT("sigfillset() failed"); + } + /* SIG_RESTART is unmasked by the handler when necessary. */ + act.sa_handler = GC_suspend_handler; + if (sigaction(SIG_SUSPEND, &act, NULL) != 0) { + ABORT("Cannot set SIG_SUSPEND handler"); + } + + act.sa_handler = GC_restart_handler; + if (sigaction(SIG_RESTART, &act, NULL) != 0) { + ABORT("Cannot set SIG_SUSPEND handler"); + } + + /* Add the initial thread, so we can stop it. */ + t = GC_new_thread(pthread_self()); + t -> stack_ptr = 0; + t -> flags = DETACHED | MAIN_THREAD; +} + +int GC_pthread_sigmask(int how, const sigset_t *set, sigset_t *oset) +{ + sigset_t fudged_set; + + if (set != NULL && (how == SIG_BLOCK || how == SIG_SETMASK)) { + fudged_set = *set; + sigdelset(&fudged_set, SIG_SUSPEND); + set = &fudged_set; + } + return(pthread_sigmask(how, set, oset)); +} + +struct start_info { + void *(*start_routine)(void *); + void *arg; + word flags; + sem_t registered; /* 1 ==> in our thread table, but */ + /* parent hasn't yet noticed. */ +}; + + +void GC_thread_exit_proc(void *arg) +{ + GC_thread me; + struct start_info * si = arg; + + LOCK(); + me = GC_lookup_thread(pthread_self()); + if (me -> flags & DETACHED) { + GC_delete_thread(pthread_self()); + } else { + me -> flags |= FINISHED; + } + UNLOCK(); +} + +int GC_pthread_join(pthread_t thread, void **retval) +{ + int result; + GC_thread thread_gc_id; + + LOCK(); + thread_gc_id = GC_lookup_thread(thread); + /* This is guaranteed to be the intended one, since the thread id */ + /* cant have been recycled by pthreads. */ + UNLOCK(); + result = pthread_join(thread, retval); + LOCK(); + /* Here the pthread thread id may have been recycled. */ + GC_delete_gc_thread(thread, thread_gc_id); + UNLOCK(); + return result; +} + +void * GC_start_routine(void * arg) +{ + struct start_info * si = arg; + void * result; + GC_thread me; + pthread_t my_pthread; + void *(*start)(void *); + void *start_arg; + + my_pthread = pthread_self(); + LOCK(); + me = GC_new_thread(my_pthread); + me -> flags = si -> flags; + me -> stack_ptr = 0; + me -> stack_end = 0; + UNLOCK(); + start = si -> start_routine; + start_arg = si -> arg; + sem_post(&(si -> registered)); + pthread_cleanup_push(GC_thread_exit_proc, si); +# ifdef DEBUG_THREADS + GC_printf1("Starting thread 0x%lx\n", pthread_self()); + GC_printf1("pid = %ld\n", (long) getpid()); + GC_printf1("sp = 0x%lx\n", (long) &arg); + GC_printf1("start_routine = 0x%lx\n", start); +# endif + result = (*start)(start_arg); +#if DEBUG_THREADS + GC_printf1("Finishing thread 0x%x\n", pthread_self()); +#endif + me -> status = result; + me -> flags |= FINISHED; + pthread_cleanup_pop(1); + /* Cleanup acquires lock, ensuring that we can't exit */ + /* while a collection that thinks we're alive is trying to stop */ + /* us. */ + return(result); +} + +int +GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr, + void *(*start_routine)(void *), void *arg) +{ + int result; + GC_thread t; + pthread_t my_new_thread; + void * stack; + size_t stacksize; + pthread_attr_t new_attr; + int detachstate; + word my_flags = 0; + struct start_info * si = GC_malloc(sizeof(struct start_info)); + /* This is otherwise saved only in an area mmapped by the thread */ + /* library, which isn't visible to the collector. */ + + if (0 == si) return(ENOMEM); + sem_init(&(si -> registered), 0, 0); + si -> start_routine = start_routine; + si -> arg = arg; + LOCK(); + if (!GC_thr_initialized) GC_thr_init(); + if (NULL == attr) { + stack = 0; + (void) pthread_attr_init(&new_attr); + } else { + new_attr = *attr; + } + pthread_attr_getdetachstate(&new_attr, &detachstate); + if (PTHREAD_CREATE_DETACHED == detachstate) my_flags |= DETACHED; + si -> flags = my_flags; + UNLOCK(); + result = pthread_create(new_thread, &new_attr, GC_start_routine, si); + /* Wait until child has been added to the thread table. */ + /* This also ensures that we hold onto si until the child is done */ + /* with it. Thus it doesn't matter whether it is otherwise */ + /* visible to the collector. */ + if (0 != sem_wait(&(si -> registered))) ABORT("sem_wait failed"); + sem_destroy(&(si -> registered)); + /* pthread_attr_destroy(&new_attr); */ + /* pthread_attr_destroy(&new_attr); */ + return(result); +} + +GC_bool GC_collecting = 0; + /* A hint that we're in the collector and */ + /* holding the allocation lock for an */ + /* extended period. */ + +/* Reasonably fast spin locks. Basically the same implementation */ +/* as STL alloc.h. This isn't really the right way to do this. */ +/* but until the POSIX scheduling mess gets straightened out ... */ + +volatile unsigned int GC_allocate_lock = 0; + + +void GC_lock() +{ +# define low_spin_max 30 /* spin cycles if we suspect uniprocessor */ +# define high_spin_max 1000 /* spin cycles for multiprocessor */ + static unsigned spin_max = low_spin_max; + unsigned my_spin_max; + static unsigned last_spins = 0; + unsigned my_last_spins; + volatile unsigned junk; +# define PAUSE junk *= junk; junk *= junk; junk *= junk; junk *= junk + int i; + + if (!GC_test_and_set(&GC_allocate_lock)) { + return; + } + junk = 0; + my_spin_max = spin_max; + my_last_spins = last_spins; + for (i = 0; i < my_spin_max; i++) { + if (GC_collecting) goto yield; + if (i < my_last_spins/2 || GC_allocate_lock) { + PAUSE; + continue; + } + if (!GC_test_and_set(&GC_allocate_lock)) { + /* + * got it! + * Spinning worked. Thus we're probably not being scheduled + * against the other process with which we were contending. + * Thus it makes sense to spin longer the next time. + */ + last_spins = i; + spin_max = high_spin_max; + return; + } + } + /* We are probably being scheduled against the other process. Sleep. */ + spin_max = low_spin_max; +yield: + for (i = 0;; ++i) { + if (!GC_test_and_set(&GC_allocate_lock)) { + return; + } +# define SLEEP_THRESHOLD 12 + /* nanosleep(<= 2ms) just spins under Linux. We */ + /* want to be careful to avoid that behavior. */ + if (i < SLEEP_THRESHOLD) { + sched_yield(); + } else { + struct timespec ts; + + if (i > 26) i = 26; + /* Don't wait for more than about 60msecs, even */ + /* under extreme contention. */ + ts.tv_sec = 0; + ts.tv_nsec = 1 << i; + nanosleep(&ts, 0); + } + } +} + +# endif /* LINUX_THREADS */ + diff --git a/gc/mach_dep.c b/gc/mach_dep.c new file mode 100644 index 0000000..756adb3 --- /dev/null +++ b/gc/mach_dep.c @@ -0,0 +1,461 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, November 17, 1995 12:13 pm PST */ +# include "gc_priv.h" +# include <stdio.h> +# include <setjmp.h> +# if defined(OS2) || defined(CX_UX) +# define _setjmp(b) setjmp(b) +# define _longjmp(b,v) longjmp(b,v) +# endif +# ifdef AMIGA +# ifndef __GNUC__ +# include <dos/dos.h> +# else +# include <machine/reg.h> +# endif +# endif + +#if defined(__MWERKS__) && !defined(POWERPC) + +asm static void PushMacRegisters() +{ + sub.w #4,sp // reserve space for one parameter. + move.l a2,(sp) + jsr GC_push_one + move.l a3,(sp) + jsr GC_push_one + move.l a4,(sp) + jsr GC_push_one +# if !__option(a6frames) + // <pcb> perhaps a6 should be pushed if stack frames are not being used. + move.l a6,(sp) + jsr GC_push_one +# endif + // skip a5 (globals), a6 (frame pointer), and a7 (stack pointer) + move.l d2,(sp) + jsr GC_push_one + move.l d3,(sp) + jsr GC_push_one + move.l d4,(sp) + jsr GC_push_one + move.l d5,(sp) + jsr GC_push_one + move.l d6,(sp) + jsr GC_push_one + move.l d7,(sp) + jsr GC_push_one + add.w #4,sp // fix stack. + rts +} + +#endif /* __MWERKS__ */ + +/* Routine to mark from registers that are preserved by the C compiler. */ +/* This must be ported to every new architecture. There is a generic */ +/* version at the end, that is likely, but not guaranteed to work */ +/* on your architecture. Run the test_setjmp program to see whether */ +/* there is any chance it will work. */ + +#ifndef USE_GENERIC_PUSH_REGS +void GC_push_regs() +{ +# ifdef RT + register long TMP_SP; /* must be bound to r11 */ +# endif +# if defined(MIPS) && defined(LINUX) +# define call_push(x) asm("move $4," x ";"); asm("jal GC_push_one") + call_push("$2"); + call_push("$3"); + call_push("$16"); + call_push("$17"); + call_push("$18"); + call_push("$19"); + call_push("$20"); + call_push("$21"); + call_push("$22"); + call_push("$23"); + call_push("$30"); +# undef call_push +# endif // MIPS && LINUX +# ifdef VAX + /* VAX - generic code below does not work under 4.2 */ + /* r1 through r5 are caller save, and therefore */ + /* on the stack or dead. */ + asm("pushl r11"); asm("calls $1,_GC_push_one"); + asm("pushl r10"); asm("calls $1,_GC_push_one"); + asm("pushl r9"); asm("calls $1,_GC_push_one"); + asm("pushl r8"); asm("calls $1,_GC_push_one"); + asm("pushl r7"); asm("calls $1,_GC_push_one"); + asm("pushl r6"); asm("calls $1,_GC_push_one"); +# endif +# if defined(M68K) && (defined(SUNOS4) || defined(NEXT)) + /* M68K SUNOS - could be replaced by generic code */ + /* a0, a1 and d1 are caller save */ + /* and therefore are on stack or dead. */ + + asm("subqw #0x4,sp"); /* allocate word on top of stack */ + + asm("movl a2,sp@"); asm("jbsr _GC_push_one"); + asm("movl a3,sp@"); asm("jbsr _GC_push_one"); + asm("movl a4,sp@"); asm("jbsr _GC_push_one"); + asm("movl a5,sp@"); asm("jbsr _GC_push_one"); + /* Skip frame pointer and stack pointer */ + asm("movl d1,sp@"); asm("jbsr _GC_push_one"); + asm("movl d2,sp@"); asm("jbsr _GC_push_one"); + asm("movl d3,sp@"); asm("jbsr _GC_push_one"); + asm("movl d4,sp@"); asm("jbsr _GC_push_one"); + asm("movl d5,sp@"); asm("jbsr _GC_push_one"); + asm("movl d6,sp@"); asm("jbsr _GC_push_one"); + asm("movl d7,sp@"); asm("jbsr _GC_push_one"); + + asm("addqw #0x4,sp"); /* put stack back where it was */ +# endif + +# if defined(M68K) && defined(HP) + /* M68K HP - could be replaced by generic code */ + /* a0, a1 and d1 are caller save. */ + + asm("subq.w &0x4,%sp"); /* allocate word on top of stack */ + + asm("mov.l %a2,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a3,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a4,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a5,(%sp)"); asm("jsr _GC_push_one"); + /* Skip frame pointer and stack pointer */ + asm("mov.l %d1,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d2,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d3,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d4,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d5,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d6,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d7,(%sp)"); asm("jsr _GC_push_one"); + + asm("addq.w &0x4,%sp"); /* put stack back where it was */ +# endif /* M68K HP */ + +# if defined(M68K) && defined(AMIGA) + /* AMIGA - could be replaced by generic code */ + /* a0, a1, d0 and d1 are caller save */ + +# ifdef __GNUC__ + asm("subq.w &0x4,%sp"); /* allocate word on top of stack */ + + asm("mov.l %a2,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a3,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a4,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a5,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %a6,(%sp)"); asm("jsr _GC_push_one"); + /* Skip frame pointer and stack pointer */ + asm("mov.l %d2,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d3,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d4,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d5,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d6,(%sp)"); asm("jsr _GC_push_one"); + asm("mov.l %d7,(%sp)"); asm("jsr _GC_push_one"); + + asm("addq.w &0x4,%sp"); /* put stack back where it was */ +# else /* !__GNUC__ */ + GC_push_one(getreg(REG_A2)); + GC_push_one(getreg(REG_A3)); + GC_push_one(getreg(REG_A4)); + GC_push_one(getreg(REG_A5)); + GC_push_one(getreg(REG_A6)); + /* Skip stack pointer */ + GC_push_one(getreg(REG_D2)); + GC_push_one(getreg(REG_D3)); + GC_push_one(getreg(REG_D4)); + GC_push_one(getreg(REG_D5)); + GC_push_one(getreg(REG_D6)); + GC_push_one(getreg(REG_D7)); +# endif /* !__GNUC__ */ +# endif /* AMIGA */ + +# if defined(M68K) && defined(MACOS) +# if defined(THINK_C) +# define PushMacReg(reg) \ + move.l reg,(sp) \ + jsr GC_push_one + asm { + sub.w #4,sp ; reserve space for one parameter. + PushMacReg(a2); + PushMacReg(a3); + PushMacReg(a4); + ; skip a5 (globals), a6 (frame pointer), and a7 (stack pointer) + PushMacReg(d2); + PushMacReg(d3); + PushMacReg(d4); + PushMacReg(d5); + PushMacReg(d6); + PushMacReg(d7); + add.w #4,sp ; fix stack. + } +# undef PushMacReg +# endif /* THINK_C */ +# if defined(__MWERKS__) + PushMacRegisters(); +# endif /* __MWERKS__ */ +# endif /* MACOS */ + +# if defined(I386) &&!defined(OS2) &&!defined(SVR4) &&!defined(MSWIN32) \ + && !defined(SCO) && !defined(SCO_ELF) \ + && !(defined(LINUX) && defined(__ELF__)) \ + && !(defined(__FreeBSD__) && defined(__ELF__)) \ + && !defined(DOS4GW) + /* I386 code, generic code does not appear to work */ + /* It does appear to work under OS2, and asms dont */ + /* This is used for some 38g UNIX variants and for CYGWIN32 */ + asm("pushl %eax"); asm("call _GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ecx"); asm("call _GC_push_one"); asm("addl $4,%esp"); + asm("pushl %edx"); asm("call _GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ebp"); asm("call _GC_push_one"); asm("addl $4,%esp"); + asm("pushl %esi"); asm("call _GC_push_one"); asm("addl $4,%esp"); + asm("pushl %edi"); asm("call _GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ebx"); asm("call _GC_push_one"); asm("addl $4,%esp"); +# endif + +# if ( defined(I386) && defined(LINUX) && defined(__ELF__) ) \ + || ( defined(I386) && defined(__FreeBSD__) && defined(__ELF__) ) + + /* This is modified for Linux with ELF (Note: _ELF_ only) */ + /* This section handles FreeBSD with ELF. */ + asm("pushl %eax"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ecx"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %edx"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ebp"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %esi"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %edi"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ebx"); asm("call GC_push_one"); asm("addl $4,%esp"); +# endif + +# if defined(I386) && defined(MSWIN32) && !defined(USE_GENERIC) + /* I386 code, Microsoft variant */ + __asm push eax + __asm call GC_push_one + __asm add esp,4 + __asm push ebx + __asm call GC_push_one + __asm add esp,4 + __asm push ecx + __asm call GC_push_one + __asm add esp,4 + __asm push edx + __asm call GC_push_one + __asm add esp,4 + __asm push ebp + __asm call GC_push_one + __asm add esp,4 + __asm push esi + __asm call GC_push_one + __asm add esp,4 + __asm push edi + __asm call GC_push_one + __asm add esp,4 +# endif + +# if defined(I386) && (defined(SVR4) || defined(SCO) || defined(SCO_ELF)) + /* I386 code, SVR4 variant, generic code does not appear to work */ + asm("pushl %eax"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ebx"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ecx"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %edx"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %ebp"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %esi"); asm("call GC_push_one"); asm("addl $4,%esp"); + asm("pushl %edi"); asm("call GC_push_one"); asm("addl $4,%esp"); +# endif + +# ifdef NS32K + asm ("movd r3, tos"); asm ("bsr ?_GC_push_one"); asm ("adjspb $-4"); + asm ("movd r4, tos"); asm ("bsr ?_GC_push_one"); asm ("adjspb $-4"); + asm ("movd r5, tos"); asm ("bsr ?_GC_push_one"); asm ("adjspb $-4"); + asm ("movd r6, tos"); asm ("bsr ?_GC_push_one"); asm ("adjspb $-4"); + asm ("movd r7, tos"); asm ("bsr ?_GC_push_one"); asm ("adjspb $-4"); +# endif + +# ifdef SPARC + { + word GC_save_regs_in_stack(); + + /* generic code will not work */ + (void)GC_save_regs_in_stack(); + } +# endif + +# ifdef RT + GC_push_one(TMP_SP); /* GC_push_one from r11 */ + + asm("cas r11, r6, r0"); GC_push_one(TMP_SP); /* r6 */ + asm("cas r11, r7, r0"); GC_push_one(TMP_SP); /* through */ + asm("cas r11, r8, r0"); GC_push_one(TMP_SP); /* r10 */ + asm("cas r11, r9, r0"); GC_push_one(TMP_SP); + asm("cas r11, r10, r0"); GC_push_one(TMP_SP); + + asm("cas r11, r12, r0"); GC_push_one(TMP_SP); /* r12 */ + asm("cas r11, r13, r0"); GC_push_one(TMP_SP); /* through */ + asm("cas r11, r14, r0"); GC_push_one(TMP_SP); /* r15 */ + asm("cas r11, r15, r0"); GC_push_one(TMP_SP); +# endif + +# if defined(M68K) && defined(SYSV) + /* Once again similar to SUN and HP, though setjmp appears to work. + --Parag + */ +# ifdef __GNUC__ + asm("subqw #0x4,%sp"); /* allocate word on top of stack */ + + asm("movl %a2,%sp@"); asm("jbsr GC_push_one"); + asm("movl %a3,%sp@"); asm("jbsr GC_push_one"); + asm("movl %a4,%sp@"); asm("jbsr GC_push_one"); + asm("movl %a5,%sp@"); asm("jbsr GC_push_one"); + /* Skip frame pointer and stack pointer */ + asm("movl %d1,%sp@"); asm("jbsr GC_push_one"); + asm("movl %d2,%sp@"); asm("jbsr GC_push_one"); + asm("movl %d3,%sp@"); asm("jbsr GC_push_one"); + asm("movl %d4,%sp@"); asm("jbsr GC_push_one"); + asm("movl %d5,%sp@"); asm("jbsr GC_push_one"); + asm("movl %d6,%sp@"); asm("jbsr GC_push_one"); + asm("movl %d7,%sp@"); asm("jbsr GC_push_one"); + + asm("addqw #0x4,%sp"); /* put stack back where it was */ +# else /* !__GNUC__*/ + asm("subq.w &0x4,%sp"); /* allocate word on top of stack */ + + asm("mov.l %a2,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %a3,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %a4,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %a5,(%sp)"); asm("jsr GC_push_one"); + /* Skip frame pointer and stack pointer */ + asm("mov.l %d1,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %d2,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %d3,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %d4,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %d5,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %d6,(%sp)"); asm("jsr GC_push_one"); + asm("mov.l %d7,(%sp)"); asm("jsr GC_push_one"); + + asm("addq.w &0x4,%sp"); /* put stack back where it was */ +# endif /* !__GNUC__ */ +# endif /* M68K/SYSV */ + + + /* other machines... */ +# if !(defined M68K) && !(defined VAX) && !(defined RT) +# if !(defined SPARC) && !(defined I386) && !(defined NS32K) +# if !defined(POWERPC) && !defined(UTS4) +# if (!defined(MIPS) && !defined(LINUX)) + --> bad news <-- +# endif +# endif +# endif +# endif +} +#endif /* !USE_GENERIC_PUSH_REGS */ + +#if defined(USE_GENERIC_PUSH_REGS) +void GC_generic_push_regs(cold_gc_frame) +ptr_t cold_gc_frame; +{ + /* Generic code */ + /* The idea is due to Parag Patel at HP. */ + /* We're not sure whether he would like */ + /* to be he acknowledged for it or not. */ + { + static jmp_buf regs; + register word * i = (word *) regs; + register ptr_t lim = (ptr_t)(regs) + (sizeof regs); + + /* Setjmp on Sun 3s doesn't clear all of the buffer. */ + /* That tends to preserve garbage. Clear it. */ + for (; (char *)i < lim; i++) { + *i = 0; + } +# if defined(POWERPC) || defined(MSWIN32) || defined(UTS4) + (void) setjmp(regs); +# else + (void) _setjmp(regs); +# endif + GC_push_current_stack(cold_gc_frame); + } +} +#endif /* USE_GENERIC_PUSH_REGS */ + +/* On register window machines, we need a way to force registers into */ +/* the stack. Return sp. */ +# ifdef SPARC + asm(" .seg \"text\""); +# ifdef SVR4 + asm(" .globl GC_save_regs_in_stack"); + asm("GC_save_regs_in_stack:"); + asm(" .type GC_save_regs_in_stack,#function"); +# else + asm(" .globl _GC_save_regs_in_stack"); + asm("_GC_save_regs_in_stack:"); +# endif + asm(" ta 0x3 ! ST_FLUSH_WINDOWS"); + asm(" mov %sp,%o0"); + asm(" retl"); + asm(" nop"); +# ifdef SVR4 + asm(" .GC_save_regs_in_stack_end:"); + asm(" .size GC_save_regs_in_stack,.GC_save_regs_in_stack_end-GC_save_regs_in_stack"); +# endif +# ifdef LINT + word GC_save_regs_in_stack() { return(0 /* sp really */);} +# endif +# endif + + +/* GC_clear_stack_inner(arg, limit) clears stack area up to limit and */ +/* returns arg. Stack clearing is crucial on SPARC, so we supply */ +/* an assembly version that's more careful. Assumes limit is hotter */ +/* than sp, and limit is 8 byte aligned. */ +#if defined(ASM_CLEAR_CODE) && !defined(THREADS) +#ifndef SPARC + --> fix it +#endif +# ifdef SUNOS4 + asm(".globl _GC_clear_stack_inner"); + asm("_GC_clear_stack_inner:"); +# else + asm(".globl GC_clear_stack_inner"); + asm("GC_clear_stack_inner:"); + asm(".type GC_save_regs_in_stack,#function"); +# endif + asm("mov %sp,%o2"); /* Save sp */ + asm("add %sp,-8,%o3"); /* p = sp-8 */ + asm("clr %g1"); /* [g0,g1] = 0 */ + asm("add %o1,-0x60,%sp"); /* Move sp out of the way, */ + /* so that traps still work. */ + /* Includes some extra words */ + /* so we can be sloppy below. */ + asm("loop:"); + asm("std %g0,[%o3]"); /* *(long long *)p = 0 */ + asm("cmp %o3,%o1"); + asm("bgu loop "); /* if (p > limit) goto loop */ + asm("add %o3,-8,%o3"); /* p -= 8 (delay slot) */ + asm("retl"); + asm("mov %o2,%sp"); /* Restore sp., delay slot */ + /* First argument = %o0 = return value */ +# ifdef SVR4 + asm(" .GC_clear_stack_inner_end:"); + asm(" .size GC_clear_stack_inner,.GC_clear_stack_inner_end-GC_clear_stack_inner"); +# endif + +# ifdef LINT + /*ARGSUSED*/ + ptr_t GC_clear_stack_inner(arg, limit) + ptr_t arg; word limit; + { return(arg); } +# endif +#endif diff --git a/gc/makefile.depend b/gc/makefile.depend new file mode 100644 index 0000000..e69de29 --- /dev/null +++ b/gc/makefile.depend diff --git a/gc/malloc.c b/gc/malloc.c new file mode 100644 index 0000000..66e62d2 --- /dev/null +++ b/gc/malloc.c @@ -0,0 +1,443 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 7, 1996 4:32 pm PST */ + +#include <stdio.h> +#include "gc_priv.h" + +extern ptr_t GC_clear_stack(); /* in misc.c, behaves like identity */ +void GC_extend_size_map(); /* in misc.c. */ + +/* Allocate reclaim list for kind: */ +/* Return TRUE on success */ +GC_bool GC_alloc_reclaim_list(kind) +register struct obj_kind * kind; +{ + struct hblk ** result = (struct hblk **) + GC_scratch_alloc((MAXOBJSZ+1) * sizeof(struct hblk *)); + if (result == 0) return(FALSE); + BZERO(result, (MAXOBJSZ+1)*sizeof(struct hblk *)); + kind -> ok_reclaim_list = result; + return(TRUE); +} + +/* allocate lb bytes for an object of kind. */ +/* Should not be used to directly to allocate */ +/* objects such as STUBBORN objects that */ +/* require special handling on allocation. */ +/* First a version that assumes we already */ +/* hold lock: */ +ptr_t GC_generic_malloc_inner(lb, k) +register word lb; +register int k; +{ +register word lw; +register ptr_t op; +register ptr_t *opp; + + if( SMALL_OBJ(lb) ) { + register struct obj_kind * kind = GC_obj_kinds + k; +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); + if (lw == 0) lw = 1; +# endif + opp = &(kind -> ok_freelist[lw]); + if( (op = *opp) == 0 ) { +# ifdef MERGE_SIZES + if (GC_size_map[lb] == 0) { + if (!GC_is_initialized) GC_init_inner(); + if (GC_size_map[lb] == 0) GC_extend_size_map(lb); + return(GC_generic_malloc_inner(lb, k)); + } +# else + if (!GC_is_initialized) { + GC_init_inner(); + return(GC_generic_malloc_inner(lb, k)); + } +# endif + if (kind -> ok_reclaim_list == 0) { + if (!GC_alloc_reclaim_list(kind)) goto out; + } + op = GC_allocobj(lw, k); + if (op == 0) goto out; + } + /* Here everything is in a consistent state. */ + /* We assume the following assignment is */ + /* atomic. If we get aborted */ + /* after the assignment, we lose an object, */ + /* but that's benign. */ + /* Volatile declarations may need to be added */ + /* to prevent the compiler from breaking things.*/ + *opp = obj_link(op); + obj_link(op) = 0; + } else { + register struct hblk * h; + register word n_blocks = divHBLKSZ(ADD_SLOP(lb) + + HDR_BYTES + HBLKSIZE-1); + + if (!GC_is_initialized) GC_init_inner(); + /* Do our share of marking work */ + if(GC_incremental && !GC_dont_gc) + GC_collect_a_little_inner((int)n_blocks); + lw = ROUNDED_UP_WORDS(lb); + h = GC_allochblk(lw, k, 0); +# ifdef USE_MUNMAP + if (0 == h) { + GC_merge_unmapped(); + h = GC_allochblk(lw, k, 0); + } +# endif + while (0 == h && GC_collect_or_expand(n_blocks, FALSE)) { + h = GC_allochblk(lw, k, 0); + } + if (h == 0) { + op = 0; + } else { + op = (ptr_t) (h -> hb_body); + GC_words_wasted += BYTES_TO_WORDS(n_blocks * HBLKSIZE) - lw; + } + } + GC_words_allocd += lw; + +out: + return((ptr_t)op); +} + +ptr_t GC_generic_malloc(lb, k) +register word lb; +register int k; +{ + ptr_t result; + DCL_LOCK_STATE; + + GC_INVOKE_FINALIZERS(); + DISABLE_SIGNALS(); + LOCK(); + result = GC_generic_malloc_inner(lb, k); + UNLOCK(); + ENABLE_SIGNALS(); + if (0 == result) { + return((*GC_oom_fn)(lb)); + } else { + return(result); + } +} + + +#define GENERAL_MALLOC(lb,k) \ + (GC_PTR)GC_clear_stack(GC_generic_malloc((word)lb, k)) +/* We make the GC_clear_stack_call a tail call, hoping to get more of */ +/* the stack. */ + +/* Allocate lb bytes of atomic (pointerfree) data */ +# ifdef __STDC__ + GC_PTR GC_malloc_atomic(size_t lb) +# else + GC_PTR GC_malloc_atomic(lb) + size_t lb; +# endif +{ +register ptr_t op; +register ptr_t * opp; +register word lw; +DCL_LOCK_STATE; + + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_aobjfreelist[lw]); + FASTLOCK(); + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { + FASTUNLOCK(); + return(GENERAL_MALLOC((word)lb, PTRFREE)); + } + /* See above comment on signals. */ + *opp = obj_link(op); + GC_words_allocd += lw; + FASTUNLOCK(); + return((GC_PTR) op); + } else { + return(GENERAL_MALLOC((word)lb, PTRFREE)); + } +} + +/* Allocate lb bytes of composite (pointerful) data */ +# ifdef __STDC__ + GC_PTR GC_malloc(size_t lb) +# else + GC_PTR GC_malloc(lb) + size_t lb; +# endif +{ +register ptr_t op; +register ptr_t *opp; +register word lw; +DCL_LOCK_STATE; + + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_objfreelist[lw]); + FASTLOCK(); + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { + FASTUNLOCK(); + return(GENERAL_MALLOC((word)lb, NORMAL)); + } + /* See above comment on signals. */ + *opp = obj_link(op); + obj_link(op) = 0; + GC_words_allocd += lw; + FASTUNLOCK(); + return((GC_PTR) op); + } else { + return(GENERAL_MALLOC((word)lb, NORMAL)); + } +} + +# ifdef REDIRECT_MALLOC +# ifdef __STDC__ + GC_PTR malloc(size_t lb) +# else + GC_PTR malloc(lb) + size_t lb; +# endif + { + /* It might help to manually inline the GC_malloc call here. */ + /* But any decent compiler should reduce the extra procedure call */ + /* to at most a jump instruction in this case. */ +# if defined(I386) && defined(SOLARIS_THREADS) + /* + * Thread initialisation can call malloc before + * we're ready for it. + * It's not clear that this is enough to help matters. + * The thread implementation may well call malloc at other + * inopportune times. + */ + if (!GC_is_initialized) return sbrk(lb); +# endif /* I386 && SOLARIS_THREADS */ + return(REDIRECT_MALLOC(lb)); + } + +# ifdef __STDC__ + GC_PTR calloc(size_t n, size_t lb) +# else + GC_PTR calloc(n, lb) + size_t n, lb; +# endif + { + return(REDIRECT_MALLOC(n*lb)); + } +# endif /* REDIRECT_MALLOC */ + +GC_PTR GC_generic_or_special_malloc(lb,knd) +word lb; +int knd; +{ + switch(knd) { +# ifdef STUBBORN_ALLOC + case STUBBORN: + return(GC_malloc_stubborn((size_t)lb)); +# endif + case PTRFREE: + return(GC_malloc_atomic((size_t)lb)); + case NORMAL: + return(GC_malloc((size_t)lb)); + case UNCOLLECTABLE: + return(GC_malloc_uncollectable((size_t)lb)); +# ifdef ATOMIC_UNCOLLECTABLE + case AUNCOLLECTABLE: + return(GC_malloc_atomic_uncollectable((size_t)lb)); +# endif /* ATOMIC_UNCOLLECTABLE */ + default: + return(GC_generic_malloc(lb,knd)); + } +} + + +/* Change the size of the block pointed to by p to contain at least */ +/* lb bytes. The object may be (and quite likely will be) moved. */ +/* The kind (e.g. atomic) is the same as that of the old. */ +/* Shrinking of large blocks is not implemented well. */ +# ifdef __STDC__ + GC_PTR GC_realloc(GC_PTR p, size_t lb) +# else + GC_PTR GC_realloc(p,lb) + GC_PTR p; + size_t lb; +# endif +{ +register struct hblk * h; +register hdr * hhdr; +register word sz; /* Current size in bytes */ +register word orig_sz; /* Original sz in bytes */ +int obj_kind; + + if (p == 0) return(GC_malloc(lb)); /* Required by ANSI */ + h = HBLKPTR(p); + hhdr = HDR(h); + sz = hhdr -> hb_sz; + obj_kind = hhdr -> hb_obj_kind; + sz = WORDS_TO_BYTES(sz); + orig_sz = sz; + + if (sz > WORDS_TO_BYTES(MAXOBJSZ)) { + /* Round it up to the next whole heap block */ + register word descr; + + sz = (sz+HDR_BYTES+HBLKSIZE-1) + & (~HBLKMASK); + sz -= HDR_BYTES; + hhdr -> hb_sz = BYTES_TO_WORDS(sz); + descr = GC_obj_kinds[obj_kind].ok_descriptor; + if (GC_obj_kinds[obj_kind].ok_relocate_descr) descr += sz; + hhdr -> hb_descr = descr; + if (IS_UNCOLLECTABLE(obj_kind)) GC_non_gc_bytes += (sz - orig_sz); + /* Extra area is already cleared by allochblk. */ + } + if (ADD_SLOP(lb) <= sz) { + if (lb >= (sz >> 1)) { +# ifdef STUBBORN_ALLOC + if (obj_kind == STUBBORN) GC_change_stubborn(p); +# endif + if (orig_sz > lb) { + /* Clear unneeded part of object to avoid bogus pointer */ + /* tracing. */ + /* Safe for stubborn objects. */ + BZERO(((ptr_t)p) + lb, orig_sz - lb); + } + return(p); + } else { + /* shrink */ + GC_PTR result = + GC_generic_or_special_malloc((word)lb, obj_kind); + + if (result == 0) return(0); + /* Could also return original object. But this */ + /* gives the client warning of imminent disaster. */ + BCOPY(p, result, lb); +# ifndef IGNORE_FREE + GC_free(p); +# endif + return(result); + } + } else { + /* grow */ + GC_PTR result = + GC_generic_or_special_malloc((word)lb, obj_kind); + + if (result == 0) return(0); + BCOPY(p, result, sz); +# ifndef IGNORE_FREE + GC_free(p); +# endif + return(result); + } +} + +# ifdef REDIRECT_MALLOC +# ifdef __STDC__ + GC_PTR realloc(GC_PTR p, size_t lb) +# else + GC_PTR realloc(p,lb) + GC_PTR p; + size_t lb; +# endif + { + return(GC_realloc(p, lb)); + } +# endif /* REDIRECT_MALLOC */ + +/* Explicitly deallocate an object p. */ +# ifdef __STDC__ + void GC_free(GC_PTR p) +# else + void GC_free(p) + GC_PTR p; +# endif +{ + register struct hblk *h; + register hdr *hhdr; + register signed_word sz; + register ptr_t * flh; + register int knd; + register struct obj_kind * ok; + DCL_LOCK_STATE; + + if (p == 0) return; + /* Required by ANSI. It's not my fault ... */ + h = HBLKPTR(p); + hhdr = HDR(h); +# if defined(REDIRECT_MALLOC) && \ + (defined(SOLARIS_THREADS) || defined(LINUX_THREADS)) + /* We have to redirect malloc calls during initialization. */ + /* Don't try to deallocate that memory. */ + if (0 == hhdr) return; +# endif + knd = hhdr -> hb_obj_kind; + sz = hhdr -> hb_sz; + ok = &GC_obj_kinds[knd]; + if (sz <= MAXOBJSZ) { +# ifdef THREADS + DISABLE_SIGNALS(); + LOCK(); +# endif + GC_mem_freed += sz; + /* A signal here can make GC_mem_freed and GC_non_gc_bytes */ + /* inconsistent. We claim this is benign. */ + if (IS_UNCOLLECTABLE(knd)) GC_non_gc_bytes -= WORDS_TO_BYTES(sz); + /* Its unnecessary to clear the mark bit. If the */ + /* object is reallocated, it doesn't matter. O.w. the */ + /* collector will do it, since it's on a free list. */ + if (ok -> ok_init) { + BZERO((word *)p + 1, WORDS_TO_BYTES(sz-1)); + } + flh = &(ok -> ok_freelist[sz]); + obj_link(p) = *flh; + *flh = (ptr_t)p; +# ifdef THREADS + UNLOCK(); + ENABLE_SIGNALS(); +# endif + } else { + DISABLE_SIGNALS(); + LOCK(); + GC_mem_freed += sz; + if (IS_UNCOLLECTABLE(knd)) GC_non_gc_bytes -= WORDS_TO_BYTES(sz); + GC_freehblk(h); + UNLOCK(); + ENABLE_SIGNALS(); + } +} + +# ifdef REDIRECT_MALLOC +# ifdef __STDC__ + void free(GC_PTR p) +# else + void free(p) + GC_PTR p; +# endif + { +# ifndef IGNORE_FREE + GC_free(p); +# endif + } +# endif /* REDIRECT_MALLOC */ diff --git a/gc/mallocx.c b/gc/mallocx.c new file mode 100644 index 0000000..8c07fa9 --- /dev/null +++ b/gc/mallocx.c @@ -0,0 +1,375 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +/* + * These are extra allocation routines which are likely to be less + * frequently used than those in malloc.c. They are separate in the + * hope that the .o file will be excluded from statically linked + * executables. We should probably break this up further. + */ + +#include <stdio.h> +#include "gc_priv.h" + +extern ptr_t GC_clear_stack(); /* in misc.c, behaves like identity */ +void GC_extend_size_map(); /* in misc.c. */ +GC_bool GC_alloc_reclaim_list(); /* in malloc.c */ + +/* Some externally visible but unadvertised variables to allow access to */ +/* free lists from inlined allocators without including gc_priv.h */ +/* or introducing dependencies on internal data structure layouts. */ +ptr_t * CONST GC_objfreelist_ptr = GC_objfreelist; +ptr_t * CONST GC_aobjfreelist_ptr = GC_aobjfreelist; +ptr_t * CONST GC_uobjfreelist_ptr = GC_uobjfreelist; +# ifdef ATOMIC_UNCOLLECTABLE + ptr_t * CONST GC_auobjfreelist_ptr = GC_auobjfreelist; +# endif + +/* Allocate a composite object of size n bytes. The caller guarantees */ +/* that pointers past the first page are not relevant. Caller holds */ +/* allocation lock. */ +ptr_t GC_generic_malloc_inner_ignore_off_page(lb, k) +register size_t lb; +register int k; +{ + register struct hblk * h; + register word n_blocks; + register word lw; + register ptr_t op; + + if (lb <= HBLKSIZE) + return(GC_generic_malloc_inner((word)lb, k)); + n_blocks = divHBLKSZ(ADD_SLOP(lb) + HDR_BYTES + HBLKSIZE-1); + if (!GC_is_initialized) GC_init_inner(); + /* Do our share of marking work */ + if(GC_incremental && !GC_dont_gc) + GC_collect_a_little_inner((int)n_blocks); + lw = ROUNDED_UP_WORDS(lb); + h = GC_allochblk(lw, k, IGNORE_OFF_PAGE); +# ifdef USE_MUNMAP + if (0 == h) { + GC_merge_unmapped(); + h = GC_allochblk(lw, k, IGNORE_OFF_PAGE); + } +# endif + while (0 == h && GC_collect_or_expand(n_blocks, TRUE)) { + h = GC_allochblk(lw, k, IGNORE_OFF_PAGE); + } + if (h == 0) { + op = 0; + } else { + op = (ptr_t) (h -> hb_body); + GC_words_wasted += BYTES_TO_WORDS(n_blocks * HBLKSIZE) - lw; + } + GC_words_allocd += lw; + return((ptr_t)op); +} + +ptr_t GC_generic_malloc_ignore_off_page(lb, k) +register size_t lb; +register int k; +{ + register ptr_t result; + DCL_LOCK_STATE; + + GC_INVOKE_FINALIZERS(); + DISABLE_SIGNALS(); + LOCK(); + result = GC_generic_malloc_inner_ignore_off_page(lb,k); + UNLOCK(); + ENABLE_SIGNALS(); + if (0 == result) { + return((*GC_oom_fn)(lb)); + } else { + return(result); + } +} + +# if defined(__STDC__) || defined(__cplusplus) + void * GC_malloc_ignore_off_page(size_t lb) +# else + char * GC_malloc_ignore_off_page(lb) + register size_t lb; +# endif +{ + return((GC_PTR)GC_generic_malloc_ignore_off_page(lb, NORMAL)); +} + +# if defined(__STDC__) || defined(__cplusplus) + void * GC_malloc_atomic_ignore_off_page(size_t lb) +# else + char * GC_malloc_atomic_ignore_off_page(lb) + register size_t lb; +# endif +{ + return((GC_PTR)GC_generic_malloc_ignore_off_page(lb, PTRFREE)); +} + +/* Increment GC_words_allocd from code that doesn't have direct access */ +/* to GC_arrays. */ +# ifdef __STDC__ +void GC_incr_words_allocd(size_t n) +{ + GC_words_allocd += n; +} + +/* The same for GC_mem_freed. */ +void GC_incr_mem_freed(size_t n) +{ + GC_mem_freed += n; +} +# endif /* __STDC__ */ + +/* Analogous to the above, but assumes a small object size, and */ +/* bypasses MERGE_SIZES mechanism. Used by gc_inline.h. */ +#ifdef __STDC__ + ptr_t GC_generic_malloc_words_small(size_t lw, int k) +#else + ptr_t GC_generic_malloc_words_small(lw, k) + register word lw; + register int k; +#endif +{ +register ptr_t op; +register ptr_t *opp; +register struct obj_kind * kind = GC_obj_kinds + k; +DCL_LOCK_STATE; + + GC_INVOKE_FINALIZERS(); + DISABLE_SIGNALS(); + LOCK(); + opp = &(kind -> ok_freelist[lw]); + if( (op = *opp) == 0 ) { + if (!GC_is_initialized) { + GC_init_inner(); + } + if (kind -> ok_reclaim_list != 0 || GC_alloc_reclaim_list(kind)) { + op = GC_clear_stack(GC_allocobj((word)lw, k)); + } + if (op == 0) { + UNLOCK(); + ENABLE_SIGNALS(); + return ((*GC_oom_fn)(WORDS_TO_BYTES(lw))); + } + } + *opp = obj_link(op); + obj_link(op) = 0; + GC_words_allocd += lw; + UNLOCK(); + ENABLE_SIGNALS(); + return((ptr_t)op); +} + +#if defined(THREADS) && !defined(SRC_M3) +/* Return a list of 1 or more objects of the indicated size, linked */ +/* through the first word in the object. This has the advantage that */ +/* it acquires the allocation lock only once, and may greatly reduce */ +/* time wasted contending for the allocation lock. Typical usage would */ +/* be in a thread that requires many items of the same size. It would */ +/* keep its own free list in thread-local storage, and call */ +/* GC_malloc_many or friends to replenish it. (We do not round up */ +/* object sizes, since a call indicates the intention to consume many */ +/* objects of exactly this size.) */ +/* Note that the client should usually clear the link field. */ +ptr_t GC_generic_malloc_many(lb, k) +register word lb; +register int k; +{ +ptr_t op; +register ptr_t p; +ptr_t *opp; +word lw; +register word my_words_allocd; +DCL_LOCK_STATE; + + if (!SMALL_OBJ(lb)) { + op = GC_generic_malloc(lb, k); + if(0 != op) obj_link(op) = 0; + return(op); + } + lw = ALIGNED_WORDS(lb); + GC_INVOKE_FINALIZERS(); + DISABLE_SIGNALS(); + LOCK(); + opp = &(GC_obj_kinds[k].ok_freelist[lw]); + if( (op = *opp) == 0 ) { + if (!GC_is_initialized) { + GC_init_inner(); + } + op = GC_clear_stack(GC_allocobj(lw, k)); + if (op == 0) { + UNLOCK(); + ENABLE_SIGNALS(); + op = (*GC_oom_fn)(lb); + if(0 != op) obj_link(op) = 0; + return(op); + } + } + *opp = 0; + my_words_allocd = 0; + for (p = op; p != 0; p = obj_link(p)) { + my_words_allocd += lw; + if (my_words_allocd >= BODY_SZ) { + *opp = obj_link(p); + obj_link(p) = 0; + break; + } + } + GC_words_allocd += my_words_allocd; + +out: + UNLOCK(); + ENABLE_SIGNALS(); + return(op); + +} + +void * GC_malloc_many(size_t lb) +{ + return(GC_generic_malloc_many(lb, NORMAL)); +} + +/* Note that the "atomic" version of this would be unsafe, since the */ +/* links would not be seen by the collector. */ +# endif + +/* Allocate lb bytes of pointerful, traced, but not collectable data */ +# ifdef __STDC__ + GC_PTR GC_malloc_uncollectable(size_t lb) +# else + GC_PTR GC_malloc_uncollectable(lb) + size_t lb; +# endif +{ +register ptr_t op; +register ptr_t *opp; +register word lw; +DCL_LOCK_STATE; + + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES +# ifdef ADD_BYTE_AT_END + if (lb != 0) lb--; + /* We don't need the extra byte, since this won't be */ + /* collected anyway. */ +# endif + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_uobjfreelist[lw]); + FASTLOCK(); + if( FASTLOCK_SUCCEEDED() && (op = *opp) != 0 ) { + /* See above comment on signals. */ + *opp = obj_link(op); + obj_link(op) = 0; + GC_words_allocd += lw; + /* Mark bit ws already set on free list. It will be */ + /* cleared only temporarily during a collection, as a */ + /* result of the normal free list mark bit clearing. */ + GC_non_gc_bytes += WORDS_TO_BYTES(lw); + FASTUNLOCK(); + return((GC_PTR) op); + } + FASTUNLOCK(); + op = (ptr_t)GC_generic_malloc((word)lb, UNCOLLECTABLE); + } else { + op = (ptr_t)GC_generic_malloc((word)lb, UNCOLLECTABLE); + } + if (0 == op) return(0); + /* We don't need the lock here, since we have an undisguised */ + /* pointer. We do need to hold the lock while we adjust */ + /* mark bits. */ + { + register struct hblk * h; + + h = HBLKPTR(op); + lw = HDR(h) -> hb_sz; + + DISABLE_SIGNALS(); + LOCK(); + GC_set_mark_bit(op); + GC_non_gc_bytes += WORDS_TO_BYTES(lw); + UNLOCK(); + ENABLE_SIGNALS(); + return((GC_PTR) op); + } +} + +# ifdef ATOMIC_UNCOLLECTABLE +/* Allocate lb bytes of pointerfree, untraced, uncollectable data */ +/* This is normally roughly equivalent to the system malloc. */ +/* But it may be useful if malloc is redefined. */ +# ifdef __STDC__ + GC_PTR GC_malloc_atomic_uncollectable(size_t lb) +# else + GC_PTR GC_malloc_atomic_uncollectable(lb) + size_t lb; +# endif +{ +register ptr_t op; +register ptr_t *opp; +register word lw; +DCL_LOCK_STATE; + + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES +# ifdef ADD_BYTE_AT_END + if (lb != 0) lb--; + /* We don't need the extra byte, since this won't be */ + /* collected anyway. */ +# endif + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_auobjfreelist[lw]); + FASTLOCK(); + if( FASTLOCK_SUCCEEDED() && (op = *opp) != 0 ) { + /* See above comment on signals. */ + *opp = obj_link(op); + obj_link(op) = 0; + GC_words_allocd += lw; + /* Mark bit was already set while object was on free list. */ + GC_non_gc_bytes += WORDS_TO_BYTES(lw); + FASTUNLOCK(); + return((GC_PTR) op); + } + FASTUNLOCK(); + op = (ptr_t)GC_generic_malloc((word)lb, AUNCOLLECTABLE); + } else { + op = (ptr_t)GC_generic_malloc((word)lb, AUNCOLLECTABLE); + } + if (0 == op) return(0); + /* We don't need the lock here, since we have an undisguised */ + /* pointer. We do need to hold the lock while we adjust */ + /* mark bits. */ + { + register struct hblk * h; + + h = HBLKPTR(op); + lw = HDR(h) -> hb_sz; + + DISABLE_SIGNALS(); + LOCK(); + GC_set_mark_bit(op); + GC_non_gc_bytes += WORDS_TO_BYTES(lw); + UNLOCK(); + ENABLE_SIGNALS(); + return((GC_PTR) op); + } +} + +#endif /* ATOMIC_UNCOLLECTABLE */ diff --git a/gc/mark.c b/gc/mark.c new file mode 100644 index 0000000..34db472 --- /dev/null +++ b/gc/mark.c @@ -0,0 +1,1161 @@ + +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + */ + + +# include <stdio.h> +# include "gc_priv.h" +# include "gc_mark.h" + +/* We put this here to minimize the risk of inlining. */ +/*VARARGS*/ +#ifdef __WATCOMC__ + void GC_noop(void *p, ...) {} +#else + void GC_noop() {} +#endif + +/* Single argument version, robust against whole program analysis. */ +void GC_noop1(x) +word x; +{ + static VOLATILE word sink; + + sink = x; +} + +/* mark_proc GC_mark_procs[MAX_MARK_PROCS] = {0} -- declared in gc_priv.h */ + +word GC_n_mark_procs = 0; + +/* Initialize GC_obj_kinds properly and standard free lists properly. */ +/* This must be done statically since they may be accessed before */ +/* GC_init is called. */ +/* It's done here, since we need to deal with mark descriptors. */ +struct obj_kind GC_obj_kinds[MAXOBJKINDS] = { +/* PTRFREE */ { &GC_aobjfreelist[0], 0 /* filled in dynamically */, + 0 | DS_LENGTH, FALSE, FALSE }, +/* NORMAL */ { &GC_objfreelist[0], 0, +# if defined(ADD_BYTE_AT_END) && ALIGNMENT > DS_TAGS + (word)(-ALIGNMENT) | DS_LENGTH, +# else + 0 | DS_LENGTH, +# endif + TRUE /* add length to descr */, TRUE }, +/* UNCOLLECTABLE */ + { &GC_uobjfreelist[0], 0, + 0 | DS_LENGTH, TRUE /* add length to descr */, TRUE }, +# ifdef ATOMIC_UNCOLLECTABLE + /* AUNCOLLECTABLE */ + { &GC_auobjfreelist[0], 0, + 0 | DS_LENGTH, FALSE /* add length to descr */, FALSE }, +# endif +# ifdef STUBBORN_ALLOC +/*STUBBORN*/ { &GC_sobjfreelist[0], 0, + 0 | DS_LENGTH, TRUE /* add length to descr */, TRUE }, +# endif +}; + +# ifdef ATOMIC_UNCOLLECTABLE +# ifdef STUBBORN_ALLOC + int GC_n_kinds = 5; +# else + int GC_n_kinds = 4; +# endif +# else +# ifdef STUBBORN_ALLOC + int GC_n_kinds = 4; +# else + int GC_n_kinds = 3; +# endif +# endif + + +# ifndef INITIAL_MARK_STACK_SIZE +# define INITIAL_MARK_STACK_SIZE (1*HBLKSIZE) + /* INITIAL_MARK_STACK_SIZE * sizeof(mse) should be a */ + /* multiple of HBLKSIZE. */ +# endif + +/* + * Limits of stack for GC_mark routine. + * All ranges between GC_mark_stack(incl.) and GC_mark_stack_top(incl.) still + * need to be marked from. + */ + +word GC_n_rescuing_pages; /* Number of dirty pages we marked from */ + /* excludes ptrfree pages, etc. */ + +mse * GC_mark_stack; + +word GC_mark_stack_size = 0; + +mse * GC_mark_stack_top; + +static struct hblk * scan_ptr; + +mark_state_t GC_mark_state = MS_NONE; + +GC_bool GC_mark_stack_too_small = FALSE; + +GC_bool GC_objects_are_marked = FALSE; /* Are there collectable marked */ + /* objects in the heap? */ + +/* Is a collection in progress? Note that this can return true in the */ +/* nonincremental case, if a collection has been abandoned and the */ +/* mark state is now MS_INVALID. */ +GC_bool GC_collection_in_progress() +{ + return(GC_mark_state != MS_NONE); +} + +/* clear all mark bits in the header */ +void GC_clear_hdr_marks(hhdr) +register hdr * hhdr; +{ + BZERO(hhdr -> hb_marks, MARK_BITS_SZ*sizeof(word)); +} + +/* Set all mark bits in the header. Used for uncollectable blocks. */ +void GC_set_hdr_marks(hhdr) +register hdr * hhdr; +{ + register int i; + + for (i = 0; i < MARK_BITS_SZ; ++i) { + hhdr -> hb_marks[i] = ONES; + } +} + +/* + * Clear all mark bits associated with block h. + */ +/*ARGSUSED*/ +static void clear_marks_for_block(h, dummy) +struct hblk *h; +word dummy; +{ + register hdr * hhdr = HDR(h); + + if (IS_UNCOLLECTABLE(hhdr -> hb_obj_kind)) return; + /* Mark bit for these is cleared only once the object is */ + /* explicitly deallocated. This either frees the block, or */ + /* the bit is cleared once the object is on the free list. */ + GC_clear_hdr_marks(hhdr); +} + +/* Slow but general routines for setting/clearing/asking about mark bits */ +void GC_set_mark_bit(p) +ptr_t p; +{ + register struct hblk *h = HBLKPTR(p); + register hdr * hhdr = HDR(h); + register int word_no = (word *)p - (word *)h; + + set_mark_bit_from_hdr(hhdr, word_no); +} + +void GC_clear_mark_bit(p) +ptr_t p; +{ + register struct hblk *h = HBLKPTR(p); + register hdr * hhdr = HDR(h); + register int word_no = (word *)p - (word *)h; + + clear_mark_bit_from_hdr(hhdr, word_no); +} + +GC_bool GC_is_marked(p) +ptr_t p; +{ + register struct hblk *h = HBLKPTR(p); + register hdr * hhdr = HDR(h); + register int word_no = (word *)p - (word *)h; + + return(mark_bit_from_hdr(hhdr, word_no)); +} + + +/* + * Clear mark bits in all allocated heap blocks. This invalidates + * the marker invariant, and sets GC_mark_state to reflect this. + * (This implicitly starts marking to reestablish the invariant.) + */ +void GC_clear_marks() +{ + GC_apply_to_all_blocks(clear_marks_for_block, (word)0); + GC_objects_are_marked = FALSE; + GC_mark_state = MS_INVALID; + scan_ptr = 0; +# ifdef GATHERSTATS + /* Counters reflect currently marked objects: reset here */ + GC_composite_in_use = 0; + GC_atomic_in_use = 0; +# endif + +} + +/* Initiate a garbage collection. Initiates a full collection if the */ +/* mark state is invalid. */ +/*ARGSUSED*/ +void GC_initiate_gc() +{ + if (GC_dirty_maintained) GC_read_dirty(); +# ifdef STUBBORN_ALLOC + GC_read_changed(); +# endif +# ifdef CHECKSUMS + { + extern void GC_check_dirty(); + + if (GC_dirty_maintained) GC_check_dirty(); + } +# endif +# ifdef GATHERSTATS + GC_n_rescuing_pages = 0; +# endif + if (GC_mark_state == MS_NONE) { + GC_mark_state = MS_PUSH_RESCUERS; + } else if (GC_mark_state != MS_INVALID) { + ABORT("unexpected state"); + } /* else this is really a full collection, and mark */ + /* bits are invalid. */ + scan_ptr = 0; +} + + +static void alloc_mark_stack(); + +/* Perform a small amount of marking. */ +/* We try to touch roughly a page of memory. */ +/* Return TRUE if we just finished a mark phase. */ +/* Cold_gc_frame is an address inside a GC frame that */ +/* remains valid until all marking is complete. */ +/* A zero value indicates that it's OK to miss some */ +/* register values. */ +GC_bool GC_mark_some(cold_gc_frame) +ptr_t cold_gc_frame; +{ + switch(GC_mark_state) { + case MS_NONE: + return(FALSE); + + case MS_PUSH_RESCUERS: + if (GC_mark_stack_top + >= GC_mark_stack + INITIAL_MARK_STACK_SIZE/4) { + GC_mark_from_mark_stack(); + return(FALSE); + } else { + scan_ptr = GC_push_next_marked_dirty(scan_ptr); + if (scan_ptr == 0) { +# ifdef PRINTSTATS + GC_printf1("Marked from %lu dirty pages\n", + (unsigned long)GC_n_rescuing_pages); +# endif + GC_push_roots(FALSE, cold_gc_frame); + GC_objects_are_marked = TRUE; + if (GC_mark_state != MS_INVALID) { + GC_mark_state = MS_ROOTS_PUSHED; + } + } + } + return(FALSE); + + case MS_PUSH_UNCOLLECTABLE: + if (GC_mark_stack_top + >= GC_mark_stack + INITIAL_MARK_STACK_SIZE/4) { + GC_mark_from_mark_stack(); + return(FALSE); + } else { + scan_ptr = GC_push_next_marked_uncollectable(scan_ptr); + if (scan_ptr == 0) { + GC_push_roots(TRUE, cold_gc_frame); + GC_objects_are_marked = TRUE; + if (GC_mark_state != MS_INVALID) { + GC_mark_state = MS_ROOTS_PUSHED; + } + } + } + return(FALSE); + + case MS_ROOTS_PUSHED: + if (GC_mark_stack_top >= GC_mark_stack) { + GC_mark_from_mark_stack(); + return(FALSE); + } else { + GC_mark_state = MS_NONE; + if (GC_mark_stack_too_small) { + alloc_mark_stack(2*GC_mark_stack_size); + } + return(TRUE); + } + + case MS_INVALID: + case MS_PARTIALLY_INVALID: + if (!GC_objects_are_marked) { + GC_mark_state = MS_PUSH_UNCOLLECTABLE; + return(FALSE); + } + if (GC_mark_stack_top >= GC_mark_stack) { + GC_mark_from_mark_stack(); + return(FALSE); + } + if (scan_ptr == 0 && GC_mark_state == MS_INVALID) { + /* About to start a heap scan for marked objects. */ + /* Mark stack is empty. OK to reallocate. */ + if (GC_mark_stack_too_small) { + alloc_mark_stack(2*GC_mark_stack_size); + } + GC_mark_state = MS_PARTIALLY_INVALID; + } + scan_ptr = GC_push_next_marked(scan_ptr); + if (scan_ptr == 0 && GC_mark_state == MS_PARTIALLY_INVALID) { + GC_push_roots(TRUE, cold_gc_frame); + GC_objects_are_marked = TRUE; + if (GC_mark_state != MS_INVALID) { + GC_mark_state = MS_ROOTS_PUSHED; + } + } + return(FALSE); + default: + ABORT("GC_mark_some: bad state"); + return(FALSE); + } +} + + +GC_bool GC_mark_stack_empty() +{ + return(GC_mark_stack_top < GC_mark_stack); +} + +#ifdef PROF_MARKER + word GC_prof_array[10]; +# define PROF(n) GC_prof_array[n]++ +#else +# define PROF(n) +#endif + +/* Given a pointer to someplace other than a small object page or the */ +/* first page of a large object, return a pointer either to the */ +/* start of the large object or NIL. */ +/* In the latter case black list the address current. */ +/* Returns NIL without black listing if current points to a block */ +/* with IGNORE_OFF_PAGE set. */ +/*ARGSUSED*/ +# ifdef PRINT_BLACK_LIST + word GC_find_start(current, hhdr, source) + word source; +# else + word GC_find_start(current, hhdr) +# define source 0 +# endif +register word current; +register hdr * hhdr; +{ +# ifdef ALL_INTERIOR_POINTERS + if (hhdr != 0) { + register word orig = current; + + current = (word)HBLKPTR(current) + HDR_BYTES; + do { + current = current - HBLKSIZE*(word)hhdr; + hhdr = HDR(current); + } while(IS_FORWARDING_ADDR_OR_NIL(hhdr)); + /* current points to the start of the large object */ + if (hhdr -> hb_flags & IGNORE_OFF_PAGE) return(0); + if ((word *)orig - (word *)current + >= (ptrdiff_t)(hhdr->hb_sz)) { + /* Pointer past the end of the block */ + GC_ADD_TO_BLACK_LIST_NORMAL(orig, source); + return(0); + } + return(current); + } else { + GC_ADD_TO_BLACK_LIST_NORMAL(current, source); + return(0); + } +# else + GC_ADD_TO_BLACK_LIST_NORMAL(current, source); + return(0); +# endif +# undef source +} + +void GC_invalidate_mark_state() +{ + GC_mark_state = MS_INVALID; + GC_mark_stack_top = GC_mark_stack-1; +} + +mse * GC_signal_mark_stack_overflow(msp) +mse * msp; +{ + GC_mark_state = MS_INVALID; + GC_mark_stack_too_small = TRUE; +# ifdef PRINTSTATS + GC_printf1("Mark stack overflow; current size = %lu entries\n", + GC_mark_stack_size); +# endif + return(msp-INITIAL_MARK_STACK_SIZE/8); +} + + +/* + * Mark objects pointed to by the regions described by + * mark stack entries between GC_mark_stack and GC_mark_stack_top, + * inclusive. Assumes the upper limit of a mark stack entry + * is never 0. A mark stack entry never has size 0. + * We try to traverse on the order of a hblk of memory before we return. + * Caller is responsible for calling this until the mark stack is empty. + */ +void GC_mark_from_mark_stack() +{ + mse * GC_mark_stack_reg = GC_mark_stack; + mse * GC_mark_stack_top_reg = GC_mark_stack_top; + mse * mark_stack_limit = &(GC_mark_stack[GC_mark_stack_size]); + int credit = HBLKSIZE; /* Remaining credit for marking work */ + register word * current_p; /* Pointer to current candidate ptr. */ + register word current; /* Candidate pointer. */ + register word * limit; /* (Incl) limit of current candidate */ + /* range */ + register word descr; + register ptr_t greatest_ha = GC_greatest_plausible_heap_addr; + register ptr_t least_ha = GC_least_plausible_heap_addr; +# define SPLIT_RANGE_WORDS 128 /* Must be power of 2. */ + + GC_objects_are_marked = TRUE; +# ifdef OS2 /* Use untweaked version to circumvent compiler problem */ + while (GC_mark_stack_top_reg >= GC_mark_stack_reg && credit >= 0) { +# else + while ((((ptr_t)GC_mark_stack_top_reg - (ptr_t)GC_mark_stack_reg) | credit) + >= 0) { +# endif + current_p = GC_mark_stack_top_reg -> mse_start; + retry: + descr = GC_mark_stack_top_reg -> mse_descr; + if (descr & ((~(WORDS_TO_BYTES(SPLIT_RANGE_WORDS) - 1)) | DS_TAGS)) { + word tag = descr & DS_TAGS; + + switch(tag) { + case DS_LENGTH: + /* Large length. */ + /* Process part of the range to avoid pushing too much on the */ + /* stack. */ + GC_mark_stack_top_reg -> mse_start = + limit = current_p + SPLIT_RANGE_WORDS-1; + GC_mark_stack_top_reg -> mse_descr -= + WORDS_TO_BYTES(SPLIT_RANGE_WORDS-1); + /* Make sure that pointers overlapping the two ranges are */ + /* considered. */ + limit = (word *)((char *)limit + sizeof(word) - ALIGNMENT); + break; + case DS_BITMAP: + GC_mark_stack_top_reg--; + descr &= ~DS_TAGS; + credit -= WORDS_TO_BYTES(WORDSZ/2); /* guess */ + while (descr != 0) { + if ((signed_word)descr < 0) { + current = *current_p; + if ((ptr_t)current >= least_ha && (ptr_t)current < greatest_ha) { + PUSH_CONTENTS(current, GC_mark_stack_top_reg, mark_stack_limit, + current_p, exit1); + } + } + descr <<= 1; + ++ current_p; + } + continue; + case DS_PROC: + GC_mark_stack_top_reg--; + credit -= PROC_BYTES; + GC_mark_stack_top_reg = + (*PROC(descr)) + (current_p, GC_mark_stack_top_reg, + mark_stack_limit, ENV(descr)); + continue; + case DS_PER_OBJECT: + GC_mark_stack_top_reg -> mse_descr = + *(word *)((ptr_t)current_p + descr - tag); + goto retry; + } + } else { + GC_mark_stack_top_reg--; + limit = (word *)(((ptr_t)current_p) + (word)descr); + } + /* The simple case in which we're scanning a range. */ + credit -= (ptr_t)limit - (ptr_t)current_p; + limit -= 1; + while (current_p <= limit) { + current = *current_p; + if ((ptr_t)current >= least_ha && (ptr_t)current < greatest_ha) { + PUSH_CONTENTS(current, GC_mark_stack_top_reg, + mark_stack_limit, current_p, exit2); + } + current_p = (word *)((char *)current_p + ALIGNMENT); + } + } + GC_mark_stack_top = GC_mark_stack_top_reg; +} + +/* Allocate or reallocate space for mark stack of size s words */ +/* May silently fail. */ +static void alloc_mark_stack(n) +word n; +{ + mse * new_stack = (mse *)GC_scratch_alloc(n * sizeof(struct ms_entry)); + + GC_mark_stack_too_small = FALSE; + if (GC_mark_stack_size != 0) { + if (new_stack != 0) { + word displ = (word)GC_mark_stack & (GC_page_size - 1); + signed_word size = GC_mark_stack_size * sizeof(struct ms_entry); + + /* Recycle old space */ + if (0 != displ) displ = GC_page_size - displ; + size = (size - displ) & ~(GC_page_size - 1); + if (size > 0) { + GC_add_to_heap((struct hblk *) + ((word)GC_mark_stack + displ), (word)size); + } + GC_mark_stack = new_stack; + GC_mark_stack_size = n; +# ifdef PRINTSTATS + GC_printf1("Grew mark stack to %lu frames\n", + (unsigned long) GC_mark_stack_size); +# endif + } else { +# ifdef PRINTSTATS + GC_printf1("Failed to grow mark stack to %lu frames\n", + (unsigned long) n); +# endif + } + } else { + if (new_stack == 0) { + GC_err_printf0("No space for mark stack\n"); + EXIT(); + } + GC_mark_stack = new_stack; + GC_mark_stack_size = n; + } + GC_mark_stack_top = GC_mark_stack-1; +} + +void GC_mark_init() +{ + alloc_mark_stack(INITIAL_MARK_STACK_SIZE); +} + +/* + * Push all locations between b and t onto the mark stack. + * b is the first location to be checked. t is one past the last + * location to be checked. + * Should only be used if there is no possibility of mark stack + * overflow. + */ +void GC_push_all(bottom, top) +ptr_t bottom; +ptr_t top; +{ + register word length; + + bottom = (ptr_t)(((word) bottom + ALIGNMENT-1) & ~(ALIGNMENT-1)); + top = (ptr_t)(((word) top) & ~(ALIGNMENT-1)); + if (top == 0 || bottom == top) return; + GC_mark_stack_top++; + if (GC_mark_stack_top >= GC_mark_stack + GC_mark_stack_size) { + ABORT("unexpected mark stack overflow"); + } + length = top - bottom; +# if DS_TAGS > ALIGNMENT - 1 + length += DS_TAGS; + length &= ~DS_TAGS; +# endif + GC_mark_stack_top -> mse_start = (word *)bottom; + GC_mark_stack_top -> mse_descr = length; +} + +/* + * Analogous to the above, but push only those pages that may have been + * dirtied. A block h is assumed dirty if dirty_fn(h) != 0. + * We use push_fn to actually push the block. + * Will not overflow mark stack if push_fn pushes a small fixed number + * of entries. (This is invoked only if push_fn pushes a single entry, + * or if it marks each object before pushing it, thus ensuring progress + * in the event of a stack overflow.) + */ +void GC_push_dirty(bottom, top, dirty_fn, push_fn) +ptr_t bottom; +ptr_t top; +int (*dirty_fn)(/* struct hblk * h */); +void (*push_fn)(/* ptr_t bottom, ptr_t top */); +{ + register struct hblk * h; + + bottom = (ptr_t)(((long) bottom + ALIGNMENT-1) & ~(ALIGNMENT-1)); + top = (ptr_t)(((long) top) & ~(ALIGNMENT-1)); + + if (top == 0 || bottom == top) return; + h = HBLKPTR(bottom + HBLKSIZE); + if (top <= (ptr_t) h) { + if ((*dirty_fn)(h-1)) { + (*push_fn)(bottom, top); + } + return; + } + if ((*dirty_fn)(h-1)) { + (*push_fn)(bottom, (ptr_t)h); + } + while ((ptr_t)(h+1) <= top) { + if ((*dirty_fn)(h)) { + if ((word)(GC_mark_stack_top - GC_mark_stack) + > 3 * GC_mark_stack_size / 4) { + /* Danger of mark stack overflow */ + (*push_fn)((ptr_t)h, top); + return; + } else { + (*push_fn)((ptr_t)h, (ptr_t)(h+1)); + } + } + h++; + } + if ((ptr_t)h != top) { + if ((*dirty_fn)(h)) { + (*push_fn)((ptr_t)h, top); + } + } + if (GC_mark_stack_top >= GC_mark_stack + GC_mark_stack_size) { + ABORT("unexpected mark stack overflow"); + } +} + +# ifndef SMALL_CONFIG +void GC_push_conditional(bottom, top, all) +ptr_t bottom; +ptr_t top; +int all; +{ + if (all) { + if (GC_dirty_maintained) { +# ifdef PROC_VDB + /* Pages that were never dirtied cannot contain pointers */ + GC_push_dirty(bottom, top, GC_page_was_ever_dirty, GC_push_all); +# else + GC_push_all(bottom, top); +# endif + } else { + GC_push_all(bottom, top); + } + } else { + GC_push_dirty(bottom, top, GC_page_was_dirty, GC_push_all); + } +} +#endif + +# ifdef MSWIN32 + void __cdecl GC_push_one(p) +# else + void GC_push_one(p) +# endif +word p; +{ + GC_PUSH_ONE_STACK(p, 0); +} + +# ifdef __STDC__ +# define BASE(p) (word)GC_base((void *)(p)) +# else +# define BASE(p) (word)GC_base((char *)(p)) +# endif + +/* As above, but argument passed preliminary test. */ +# if defined(PRINT_BLACK_LIST) || defined(KEEP_BACK_PTRS) + void GC_push_one_checked(p, interior_ptrs, source) + ptr_t source; +# else + void GC_push_one_checked(p, interior_ptrs) +# define source 0 +# endif +register word p; +register GC_bool interior_ptrs; +{ + register word r; + register hdr * hhdr; + register int displ; + + GET_HDR(p, hhdr); + if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + if (hhdr != 0 && interior_ptrs) { + r = BASE(p); + hhdr = HDR(r); + displ = BYTES_TO_WORDS(HBLKDISPL(r)); + } else { + hhdr = 0; + } + } else { + register map_entry_type map_entry; + + displ = HBLKDISPL(p); + map_entry = MAP_ENTRY((hhdr -> hb_map), displ); + if (map_entry == OBJ_INVALID) { +# ifndef ALL_INTERIOR_POINTERS + if (interior_ptrs) { + r = BASE(p); + displ = BYTES_TO_WORDS(HBLKDISPL(r)); + if (r == 0) hhdr = 0; + } else { + hhdr = 0; + } +# else + /* map already reflects interior pointers */ + hhdr = 0; +# endif + } else { + displ = BYTES_TO_WORDS(displ); + displ -= map_entry; + r = (word)((word *)(HBLKPTR(p)) + displ); + } + } + /* If hhdr != 0 then r == GC_base(p), only we did it faster. */ + /* displ is the word index within the block. */ + if (hhdr == 0) { + if (interior_ptrs) { +# ifdef PRINT_BLACK_LIST + GC_add_to_black_list_stack(p, source); +# else + GC_add_to_black_list_stack(p); +# endif + } else { + GC_ADD_TO_BLACK_LIST_NORMAL(p, source); +# undef source /* In case we had to define it. */ + } + } else { + if (!mark_bit_from_hdr(hhdr, displ)) { + set_mark_bit_from_hdr(hhdr, displ); + GC_STORE_BACK_PTR(source, (ptr_t)r); + PUSH_OBJ((word *)r, hhdr, GC_mark_stack_top, + &(GC_mark_stack[GC_mark_stack_size])); + } + } +} + +# ifdef TRACE_BUF + +# define TRACE_ENTRIES 1000 + +struct trace_entry { + char * kind; + word gc_no; + word words_allocd; + word arg1; + word arg2; +} GC_trace_buf[TRACE_ENTRIES]; + +int GC_trace_buf_ptr = 0; + +void GC_add_trace_entry(char *kind, word arg1, word arg2) +{ + GC_trace_buf[GC_trace_buf_ptr].kind = kind; + GC_trace_buf[GC_trace_buf_ptr].gc_no = GC_gc_no; + GC_trace_buf[GC_trace_buf_ptr].words_allocd = GC_words_allocd; + GC_trace_buf[GC_trace_buf_ptr].arg1 = arg1 ^ 0x80000000; + GC_trace_buf[GC_trace_buf_ptr].arg2 = arg2 ^ 0x80000000; + GC_trace_buf_ptr++; + if (GC_trace_buf_ptr >= TRACE_ENTRIES) GC_trace_buf_ptr = 0; +} + +void GC_print_trace(word gc_no, GC_bool lock) +{ + int i; + struct trace_entry *p; + + if (lock) LOCK(); + for (i = GC_trace_buf_ptr-1; i != GC_trace_buf_ptr; i--) { + if (i < 0) i = TRACE_ENTRIES-1; + p = GC_trace_buf + i; + if (p -> gc_no < gc_no || p -> kind == 0) return; + printf("Trace:%s (gc:%d,words:%d) 0x%X, 0x%X\n", + p -> kind, p -> gc_no, p -> words_allocd, + (p -> arg1) ^ 0x80000000, (p -> arg2) ^ 0x80000000); + } + printf("Trace incomplete\n"); + if (lock) UNLOCK(); +} + +# endif /* TRACE_BUF */ + +/* + * A version of GC_push_all that treats all interior pointers as valid + * and scans the entire region immediately, in case the contents + * change. + */ +void GC_push_all_eager(bottom, top) +ptr_t bottom; +ptr_t top; +{ + word * b = (word *)(((long) bottom + ALIGNMENT-1) & ~(ALIGNMENT-1)); + word * t = (word *)(((long) top) & ~(ALIGNMENT-1)); + register word *p; + register word q; + register word *lim; + register ptr_t greatest_ha = GC_greatest_plausible_heap_addr; + register ptr_t least_ha = GC_least_plausible_heap_addr; +# define GC_greatest_plausible_heap_addr greatest_ha +# define GC_least_plausible_heap_addr least_ha + + if (top == 0) return; + /* check all pointers in range and put in push if they appear */ + /* to be valid. */ + lim = t - 1 /* longword */; + for (p = b; p <= lim; p = (word *)(((char *)p) + ALIGNMENT)) { + q = *p; + GC_PUSH_ONE_STACK(q, p); + } +# undef GC_greatest_plausible_heap_addr +# undef GC_least_plausible_heap_addr +} + +#ifndef THREADS +/* + * A version of GC_push_all that treats all interior pointers as valid + * and scans part of the area immediately, to make sure that saved + * register values are not lost. + * Cold_gc_frame delimits the stack section that must be scanned + * eagerly. A zero value indicates that no eager scanning is needed. + */ +void GC_push_all_stack_partially_eager(bottom, top, cold_gc_frame) +ptr_t bottom; +ptr_t top; +ptr_t cold_gc_frame; +{ +# ifdef ALL_INTERIOR_POINTERS +# define EAGER_BYTES 1024 + /* Push the hot end of the stack eagerly, so that register values */ + /* saved inside GC frames are marked before they disappear. */ + /* The rest of the marking can be deferred until later. */ + if (0 == cold_gc_frame) { + GC_push_all_stack(bottom, top); + return; + } +# ifdef STACK_GROWS_DOWN + GC_push_all_eager(bottom, cold_gc_frame); + GC_push_all(cold_gc_frame - sizeof(ptr_t), top); +# else /* STACK_GROWS_UP */ + GC_push_all_eager(cold_gc_frame, top); + GC_push_all(bottom, cold_gc_frame + sizeof(ptr_t)); +# endif /* STACK_GROWS_UP */ +# else + GC_push_all_eager(bottom, top); +# endif +# ifdef TRACE_BUF + GC_add_trace_entry("GC_push_all_stack", bottom, top); +# endif +} +#endif /* !THREADS */ + +void GC_push_all_stack(bottom, top) +ptr_t bottom; +ptr_t top; +{ +# ifdef ALL_INTERIOR_POINTERS + GC_push_all(bottom, top); +# else + GC_push_all_eager(bottom, top); +# endif +} + +#ifndef SMALL_CONFIG +/* Push all objects reachable from marked objects in the given block */ +/* of size 1 objects. */ +void GC_push_marked1(h, hhdr) +struct hblk *h; +register hdr * hhdr; +{ + word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p; + word *plim; + register int i; + register word q; + register word mark_word; + register ptr_t greatest_ha = GC_greatest_plausible_heap_addr; + register ptr_t least_ha = GC_least_plausible_heap_addr; +# define GC_greatest_plausible_heap_addr greatest_ha +# define GC_least_plausible_heap_addr least_ha + + p = (word *)(h->hb_body); + plim = (word *)(((word)h) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + i = 0; + while(mark_word != 0) { + if (mark_word & 1) { + q = p[i]; + GC_PUSH_ONE_HEAP(q, p + i); + } + i++; + mark_word >>= 1; + } + p += WORDSZ; + } +# undef GC_greatest_plausible_heap_addr +# undef GC_least_plausible_heap_addr +} + + +#ifndef UNALIGNED + +/* Push all objects reachable from marked objects in the given block */ +/* of size 2 objects. */ +void GC_push_marked2(h, hhdr) +struct hblk *h; +register hdr * hhdr; +{ + word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p; + word *plim; + register int i; + register word q; + register word mark_word; + register ptr_t greatest_ha = GC_greatest_plausible_heap_addr; + register ptr_t least_ha = GC_least_plausible_heap_addr; +# define GC_greatest_plausible_heap_addr greatest_ha +# define GC_least_plausible_heap_addr least_ha + + p = (word *)(h->hb_body); + plim = (word *)(((word)h) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + i = 0; + while(mark_word != 0) { + if (mark_word & 1) { + q = p[i]; + GC_PUSH_ONE_HEAP(q, p + i); + q = p[i+1]; + GC_PUSH_ONE_HEAP(q, p + i); + } + i += 2; + mark_word >>= 2; + } + p += WORDSZ; + } +# undef GC_greatest_plausible_heap_addr +# undef GC_least_plausible_heap_addr +} + +/* Push all objects reachable from marked objects in the given block */ +/* of size 4 objects. */ +/* There is a risk of mark stack overflow here. But we handle that. */ +/* And only unmarked objects get pushed, so it's not very likely. */ +void GC_push_marked4(h, hhdr) +struct hblk *h; +register hdr * hhdr; +{ + word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p; + word *plim; + register int i; + register word q; + register word mark_word; + register ptr_t greatest_ha = GC_greatest_plausible_heap_addr; + register ptr_t least_ha = GC_least_plausible_heap_addr; +# define GC_greatest_plausible_heap_addr greatest_ha +# define GC_least_plausible_heap_addr least_ha + + p = (word *)(h->hb_body); + plim = (word *)(((word)h) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + i = 0; + while(mark_word != 0) { + if (mark_word & 1) { + q = p[i]; + GC_PUSH_ONE_HEAP(q, p + i); + q = p[i+1]; + GC_PUSH_ONE_HEAP(q, p + i + 1); + q = p[i+2]; + GC_PUSH_ONE_HEAP(q, p + i + 2); + q = p[i+3]; + GC_PUSH_ONE_HEAP(q, p + i + 3); + } + i += 4; + mark_word >>= 4; + } + p += WORDSZ; + } +# undef GC_greatest_plausible_heap_addr +# undef GC_least_plausible_heap_addr +} + +#endif /* UNALIGNED */ + +#endif /* SMALL_CONFIG */ + +/* Push all objects reachable from marked objects in the given block */ +void GC_push_marked(h, hhdr) +struct hblk *h; +register hdr * hhdr; +{ + register int sz = hhdr -> hb_sz; + register word * p; + register int word_no; + register word * lim; + register mse * GC_mark_stack_top_reg; + register mse * mark_stack_limit = &(GC_mark_stack[GC_mark_stack_size]); + + /* Some quick shortcuts: */ + { + struct obj_kind *ok = &(GC_obj_kinds[hhdr -> hb_obj_kind]); + if ((0 | DS_LENGTH) == ok -> ok_descriptor + && FALSE == ok -> ok_relocate_descr) + return; + } + if (GC_block_empty(hhdr)/* nothing marked */) return; +# ifdef GATHERSTATS + GC_n_rescuing_pages++; +# endif + GC_objects_are_marked = TRUE; + if (sz > MAXOBJSZ) { + lim = (word *)(h + 1); + } else { + lim = (word *)(h + 1) - sz; + } + + switch(sz) { +# if !defined(SMALL_CONFIG) + case 1: + GC_push_marked1(h, hhdr); + break; +# endif +# if !defined(SMALL_CONFIG) && !defined(UNALIGNED) + case 2: + GC_push_marked2(h, hhdr); + break; + case 4: + GC_push_marked4(h, hhdr); + break; +# endif + default: + GC_mark_stack_top_reg = GC_mark_stack_top; + for (p = (word *)h + HDR_WORDS, word_no = HDR_WORDS; p <= lim; + p += sz, word_no += sz) { + /* This ignores user specified mark procs. This currently */ + /* doesn't matter, since marking from the whole object */ + /* is always sufficient, and we will eventually use the user */ + /* mark proc to avoid any bogus pointers. */ + if (mark_bit_from_hdr(hhdr, word_no)) { + /* Mark from fields inside the object */ + PUSH_OBJ((word *)p, hhdr, GC_mark_stack_top_reg, mark_stack_limit); +# ifdef GATHERSTATS + /* Subtract this object from total, since it was */ + /* added in twice. */ + GC_composite_in_use -= sz; +# endif + } + } + GC_mark_stack_top = GC_mark_stack_top_reg; + } +} + +#ifndef SMALL_CONFIG +/* Test whether any page in the given block is dirty */ +GC_bool GC_block_was_dirty(h, hhdr) +struct hblk *h; +register hdr * hhdr; +{ + register int sz = hhdr -> hb_sz; + + if (sz < MAXOBJSZ) { + return(GC_page_was_dirty(h)); + } else { + register ptr_t p = (ptr_t)h; + sz += HDR_WORDS; + sz = WORDS_TO_BYTES(sz); + while (p < (ptr_t)h + sz) { + if (GC_page_was_dirty((struct hblk *)p)) return(TRUE); + p += HBLKSIZE; + } + return(FALSE); + } +} +#endif /* SMALL_CONFIG */ + +/* Similar to GC_push_next_marked, but return address of next block */ +struct hblk * GC_push_next_marked(h) +struct hblk *h; +{ + register hdr * hhdr; + + h = GC_next_used_block(h); + if (h == 0) return(0); + hhdr = HDR(h); + GC_push_marked(h, hhdr); + return(h + OBJ_SZ_TO_BLOCKS(hhdr -> hb_sz)); +} + +#ifndef SMALL_CONFIG +/* Identical to above, but mark only from dirty pages */ +struct hblk * GC_push_next_marked_dirty(h) +struct hblk *h; +{ + register hdr * hhdr = HDR(h); + + if (!GC_dirty_maintained) { ABORT("dirty bits not set up"); } + for (;;) { + h = GC_next_used_block(h); + if (h == 0) return(0); + hhdr = HDR(h); +# ifdef STUBBORN_ALLOC + if (hhdr -> hb_obj_kind == STUBBORN) { + if (GC_page_was_changed(h) && GC_block_was_dirty(h, hhdr)) { + break; + } + } else { + if (GC_block_was_dirty(h, hhdr)) break; + } +# else + if (GC_block_was_dirty(h, hhdr)) break; +# endif + h += OBJ_SZ_TO_BLOCKS(hhdr -> hb_sz); + } + GC_push_marked(h, hhdr); + return(h + OBJ_SZ_TO_BLOCKS(hhdr -> hb_sz)); +} +#endif + +/* Similar to above, but for uncollectable pages. Needed since we */ +/* do not clear marks for such pages, even for full collections. */ +struct hblk * GC_push_next_marked_uncollectable(h) +struct hblk *h; +{ + register hdr * hhdr = HDR(h); + + for (;;) { + h = GC_next_used_block(h); + if (h == 0) return(0); + hhdr = HDR(h); + if (hhdr -> hb_obj_kind == UNCOLLECTABLE) break; + h += OBJ_SZ_TO_BLOCKS(hhdr -> hb_sz); + } + GC_push_marked(h, hhdr); + return(h + OBJ_SZ_TO_BLOCKS(hhdr -> hb_sz)); +} + + diff --git a/gc/mark_rts.c b/gc/mark_rts.c new file mode 100644 index 0000000..2f21ed3 --- /dev/null +++ b/gc/mark_rts.c @@ -0,0 +1,484 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, October 9, 1995 1:06 pm PDT */ +# include <stdio.h> +# include "gc_priv.h" + +/* Data structure for list of root sets. */ +/* We keep a hash table, so that we can filter out duplicate additions. */ +/* Under Win32, we need to do a better job of filtering overlaps, so */ +/* we resort to sequential search, and pay the price. */ +/* This is really declared in gc_priv.h: +struct roots { + ptr_t r_start; + ptr_t r_end; + # ifndef MSWIN32 + struct roots * r_next; + # endif + GC_bool r_tmp; + -- Delete before registering new dynamic libraries +}; + +struct roots GC_static_roots[MAX_ROOT_SETS]; +*/ + +static int n_root_sets = 0; + + /* GC_static_roots[0..n_root_sets) contains the valid root sets. */ + +# if !defined(NO_DEBUGGING) +/* For debugging: */ +void GC_print_static_roots() +{ + register int i; + size_t total = 0; + + for (i = 0; i < n_root_sets; i++) { + GC_printf2("From 0x%lx to 0x%lx ", + (unsigned long) GC_static_roots[i].r_start, + (unsigned long) GC_static_roots[i].r_end); + if (GC_static_roots[i].r_tmp) { + GC_printf0(" (temporary)\n"); + } else { + GC_printf0("\n"); + } + total += GC_static_roots[i].r_end - GC_static_roots[i].r_start; + } + GC_printf1("Total size: %ld\n", (unsigned long) total); + if (GC_root_size != total) { + GC_printf1("GC_root_size incorrect: %ld!!\n", + (unsigned long) GC_root_size); + } +} +# endif /* NO_DEBUGGING */ + +/* Primarily for debugging support: */ +/* Is the address p in one of the registered static */ +/* root sections? */ +GC_bool GC_is_static_root(p) +ptr_t p; +{ + static int last_root_set = 0; + register int i; + + + if (p >= GC_static_roots[last_root_set].r_start + && p < GC_static_roots[last_root_set].r_end) return(TRUE); + for (i = 0; i < n_root_sets; i++) { + if (p >= GC_static_roots[i].r_start + && p < GC_static_roots[i].r_end) { + last_root_set = i; + return(TRUE); + } + } + return(FALSE); +} + +#ifndef MSWIN32 +/* +# define LOG_RT_SIZE 6 +# define RT_SIZE (1 << LOG_RT_SIZE) -- Power of 2, may be != MAX_ROOT_SETS + + struct roots * GC_root_index[RT_SIZE]; + -- Hash table header. Used only to check whether a range is + -- already present. + -- really defined in gc_priv.h +*/ + +static int rt_hash(addr) +char * addr; +{ + word result = (word) addr; +# if CPP_WORDSZ > 8*LOG_RT_SIZE + result ^= result >> 8*LOG_RT_SIZE; +# endif +# if CPP_WORDSZ > 4*LOG_RT_SIZE + result ^= result >> 4*LOG_RT_SIZE; +# endif + result ^= result >> 2*LOG_RT_SIZE; + result ^= result >> LOG_RT_SIZE; + result &= (RT_SIZE-1); + return(result); +} + +/* Is a range starting at b already in the table? If so return a */ +/* pointer to it, else NIL. */ +struct roots * GC_roots_present(b) +char *b; +{ + register int h = rt_hash(b); + register struct roots *p = GC_root_index[h]; + + while (p != 0) { + if (p -> r_start == (ptr_t)b) return(p); + p = p -> r_next; + } + return(FALSE); +} + +/* Add the given root structure to the index. */ +static void add_roots_to_index(p) +struct roots *p; +{ + register int h = rt_hash(p -> r_start); + + p -> r_next = GC_root_index[h]; + GC_root_index[h] = p; +} + +# else /* MSWIN32 */ + +# define add_roots_to_index(p) + +# endif + + + + +word GC_root_size = 0; + +void GC_add_roots(b, e) +char * b; char * e; +{ + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + GC_add_roots_inner(b, e, FALSE); + UNLOCK(); + ENABLE_SIGNALS(); +} + + +/* Add [b,e) to the root set. Adding the same interval a second time */ +/* is a moderately fast noop, and hence benign. We do not handle */ +/* different but overlapping intervals efficiently. (We do handle */ +/* them correctly.) */ +/* Tmp specifies that the interval may be deleted before */ +/* reregistering dynamic libraries. */ +void GC_add_roots_inner(b, e, tmp) +char * b; char * e; +GC_bool tmp; +{ + struct roots * old; + +# ifdef MSWIN32 + /* Spend the time to ensure that there are no overlapping */ + /* or adjacent intervals. */ + /* This could be done faster with e.g. a */ + /* balanced tree. But the execution time here is */ + /* virtually guaranteed to be dominated by the time it */ + /* takes to scan the roots. */ + { + register int i; + + for (i = 0; i < n_root_sets; i++) { + old = GC_static_roots + i; + if ((ptr_t)b <= old -> r_end && (ptr_t)e >= old -> r_start) { + if ((ptr_t)b < old -> r_start) { + old -> r_start = (ptr_t)b; + GC_root_size += (old -> r_start - (ptr_t)b); + } + if ((ptr_t)e > old -> r_end) { + old -> r_end = (ptr_t)e; + GC_root_size += ((ptr_t)e - old -> r_end); + } + old -> r_tmp &= tmp; + break; + } + } + if (i < n_root_sets) { + /* merge other overlapping intervals */ + struct roots *other; + + for (i++; i < n_root_sets; i++) { + other = GC_static_roots + i; + b = (char *)(other -> r_start); + e = (char *)(other -> r_end); + if ((ptr_t)b <= old -> r_end && (ptr_t)e >= old -> r_start) { + if ((ptr_t)b < old -> r_start) { + old -> r_start = (ptr_t)b; + GC_root_size += (old -> r_start - (ptr_t)b); + } + if ((ptr_t)e > old -> r_end) { + old -> r_end = (ptr_t)e; + GC_root_size += ((ptr_t)e - old -> r_end); + } + old -> r_tmp &= other -> r_tmp; + /* Delete this entry. */ + GC_root_size -= (other -> r_end - other -> r_start); + other -> r_start = GC_static_roots[n_root_sets-1].r_start; + other -> r_end = GC_static_roots[n_root_sets-1].r_end; + n_root_sets--; + } + } + return; + } + } +# else + old = GC_roots_present(b); + if (old != 0) { + if ((ptr_t)e <= old -> r_end) /* already there */ return; + /* else extend */ + GC_root_size += (ptr_t)e - old -> r_end; + old -> r_end = (ptr_t)e; + return; + } +# endif + if (n_root_sets == MAX_ROOT_SETS) { + ABORT("Too many root sets\n"); + } + GC_static_roots[n_root_sets].r_start = (ptr_t)b; + GC_static_roots[n_root_sets].r_end = (ptr_t)e; + GC_static_roots[n_root_sets].r_tmp = tmp; +# ifndef MSWIN32 + GC_static_roots[n_root_sets].r_next = 0; +# endif + add_roots_to_index(GC_static_roots + n_root_sets); + GC_root_size += (ptr_t)e - (ptr_t)b; + n_root_sets++; +} + +void GC_clear_roots GC_PROTO((void)) +{ + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + n_root_sets = 0; + GC_root_size = 0; +# ifndef MSWIN32 + { + register int i; + + for (i = 0; i < RT_SIZE; i++) GC_root_index[i] = 0; + } +# endif + UNLOCK(); + ENABLE_SIGNALS(); +} + +/* Internal use only; lock held. */ +void GC_remove_tmp_roots() +{ + register int i; + + for (i = 0; i < n_root_sets; ) { + if (GC_static_roots[i].r_tmp) { + GC_root_size -= + (GC_static_roots[i].r_end - GC_static_roots[i].r_start); + GC_static_roots[i].r_start = GC_static_roots[n_root_sets-1].r_start; + GC_static_roots[i].r_end = GC_static_roots[n_root_sets-1].r_end; + GC_static_roots[i].r_tmp = GC_static_roots[n_root_sets-1].r_tmp; + n_root_sets--; + } else { + i++; + } + } +# ifndef MSWIN32 + { + register int i; + + for (i = 0; i < RT_SIZE; i++) GC_root_index[i] = 0; + for (i = 0; i < n_root_sets; i++) + add_roots_to_index(GC_static_roots + i); + } +# endif + +} + +ptr_t GC_approx_sp() +{ + word dummy; + + return((ptr_t)(&dummy)); +} + +/* + * Data structure for excluded static roots. + * Real declaration is in gc_priv.h. + +struct exclusion { + ptr_t e_start; + ptr_t e_end; +}; + +struct exclusion GC_excl_table[MAX_EXCLUSIONS]; + -- Array of exclusions, ascending + -- address order. +*/ + +size_t GC_excl_table_entries = 0; /* Number of entries in use. */ + +/* Return the first exclusion range that includes an address >= start_addr */ +/* Assumes the exclusion table contains at least one entry (namely the */ +/* GC data structures). */ +struct exclusion * GC_next_exclusion(start_addr) +ptr_t start_addr; +{ + size_t low = 0; + size_t high = GC_excl_table_entries - 1; + size_t mid; + + while (high > low) { + mid = (low + high) >> 1; + /* low <= mid < high */ + if ((word) GC_excl_table[mid].e_end <= (word) start_addr) { + low = mid + 1; + } else { + high = mid; + } + } + if ((word) GC_excl_table[low].e_end <= (word) start_addr) return 0; + return GC_excl_table + low; +} + +void GC_exclude_static_roots(start, finish) +GC_PTR start; +GC_PTR finish; +{ + struct exclusion * next; + size_t next_index, i; + + if (0 == GC_excl_table_entries) { + next = 0; + } else { + next = GC_next_exclusion(start); + } + if (0 != next) { + if ((word)(next -> e_start) < (word) finish) { + /* incomplete error check. */ + ABORT("exclusion ranges overlap"); + } + if ((word)(next -> e_start) == (word) finish) { + /* extend old range backwards */ + next -> e_start = (ptr_t)start; + return; + } + next_index = next - GC_excl_table; + for (i = GC_excl_table_entries; i > next_index; --i) { + GC_excl_table[i] = GC_excl_table[i-1]; + } + } else { + next_index = GC_excl_table_entries; + } + if (GC_excl_table_entries == MAX_EXCLUSIONS) ABORT("Too many exclusions"); + GC_excl_table[next_index].e_start = (ptr_t)start; + GC_excl_table[next_index].e_end = (ptr_t)finish; + ++GC_excl_table_entries; +} + +/* Invoke push_conditional on ranges that are not excluded. */ +void GC_push_conditional_with_exclusions(bottom, top, all) +ptr_t bottom; +ptr_t top; +int all; +{ + struct exclusion * next; + ptr_t excl_start; + + while (bottom < top) { + next = GC_next_exclusion(bottom); + if (0 == next || (excl_start = next -> e_start) >= top) { + GC_push_conditional(bottom, top, all); + return; + } + if (excl_start > bottom) GC_push_conditional(bottom, excl_start, all); + bottom = next -> e_end; + } +} + +/* + * In the absence of threads, push the stack contents. + * In the presence of threads, push enough of the current stack + * to ensure that callee-save registers saved in collector frames have been + * seen. + */ +void GC_push_current_stack(cold_gc_frame) +ptr_t cold_gc_frame; +{ +# if defined(THREADS) + if (0 == cold_gc_frame) return; +# ifdef STACK_GROWS_DOWN + GC_push_all_eager(GC_approx_sp(), cold_gc_frame); +# else + GC_push_all_eager( cold_gc_frame, GC_approx_sp() ); +# endif +# else +# ifdef STACK_GROWS_DOWN + GC_push_all_stack_partially_eager( GC_approx_sp(), GC_stackbottom, + cold_gc_frame ); +# else + GC_push_all_stack_partially_eager( GC_stackbottom, GC_approx_sp(), + cold_gc_frame ); +# endif +# endif /* !THREADS */ +} + +/* + * Call the mark routines (GC_tl_push for a single pointer, GC_push_conditional + * on groups of pointers) on every top level accessible pointer. + * If all is FALSE, arrange to push only possibly altered values. + * Cold_gc_frame is an address inside a GC frame that + * remains valid until all marking is complete. + * A zero value indicates that it's OK to miss some + * register values. + */ +void GC_push_roots(all, cold_gc_frame) +GC_bool all; +ptr_t cold_gc_frame; +{ + register int i; + + /* + * push registers - i.e., call GC_push_one(r) for each + * register contents r. + */ +# ifdef USE_GENERIC_PUSH_REGS + GC_generic_push_regs(cold_gc_frame); +# else + GC_push_regs(); /* usually defined in machine_dep.c */ +# endif + + /* + * Next push static data. This must happen early on, since it's + * not robust against mark stack overflow. + */ + /* Reregister dynamic libraries, in case one got added. */ +# if (defined(DYNAMIC_LOADING) || defined(MSWIN32) || defined(PCR)) \ + && !defined(SRC_M3) + GC_remove_tmp_roots(); + GC_register_dynamic_libraries(); +# endif + /* Mark everything in static data areas */ + for (i = 0; i < n_root_sets; i++) { + GC_push_conditional_with_exclusions( + GC_static_roots[i].r_start, + GC_static_roots[i].r_end, all); + } + + /* + * Now traverse stacks. + */ +# if !defined(USE_GENERIC_PUSH_REGS) + GC_push_current_stack(cold_gc_frame); + /* IN the threads case, this only pushes collector frames. */ + /* In the USE_GENERIC_PUSH_REGS case, this is done inside */ + /* GC_push_regs, so that we catch callee-save registers saved */ + /* inside the GC_push_regs frame. */ +# endif + if (GC_push_other_roots != 0) (*GC_push_other_roots)(); + /* In the threads case, this also pushes thread stacks. */ +} + diff --git a/gc/mips_sgi_mach_dep.s b/gc/mips_sgi_mach_dep.s new file mode 100644 index 0000000..03c4b98 --- /dev/null +++ b/gc/mips_sgi_mach_dep.s @@ -0,0 +1,40 @@ +#include <sys/regdef.h> +#include <sys/asm.h> + +# define call_push(x) move $4,x; jal GC_push_one + + .text +/* Mark from machine registers that are saved by C compiler */ +# define FRAMESZ 32 +# define RAOFF FRAMESZ-SZREG +# define GPOFF FRAMESZ-(2*SZREG) + NESTED(GC_push_regs, FRAMESZ, ra) + .mask 0x80000000,-SZREG # inform debugger of saved ra loc + move t0,gp + SETUP_GPX(t8) + PTR_SUBU sp,FRAMESZ +# ifdef SETUP_GP64 + SETUP_GP64(GPOFF, GC_push_regs) +# endif + SAVE_GP(GPOFF) + REG_S ra,RAOFF(sp) +# if (_MIPS_SIM == _MIPS_SIM_ABI32) + call_push($2) + call_push($3) +# endif + call_push($16) + call_push($17) + call_push($18) + call_push($19) + call_push($20) + call_push($21) + call_push($22) + call_push($23) + call_push($30) + REG_L ra,RAOFF(sp) +# ifdef RESTORE_GP64 + RESTORE_GP64 +# endif + PTR_ADDU sp,FRAMESZ + j ra + .end GC_push_regs diff --git a/gc/mips_ultrix_mach_dep.s b/gc/mips_ultrix_mach_dep.s new file mode 100644 index 0000000..178224e --- /dev/null +++ b/gc/mips_ultrix_mach_dep.s @@ -0,0 +1,26 @@ +# define call_push(x) move $4,x; jal GC_push_one + + .text + # Mark from machine registers that are saved by C compiler + .globl GC_push_regs + .ent GC_push_regs +GC_push_regs: + subu $sp,8 ## Need to save only return address + sw $31,4($sp) + .mask 0x80000000,-4 + .frame $sp,8,$31 + call_push($2) + call_push($3) + call_push($16) + call_push($17) + call_push($18) + call_push($19) + call_push($20) + call_push($21) + call_push($22) + call_push($23) + call_push($30) + lw $31,4($sp) + addu $sp,8 + j $31 + .end GC_push_regs diff --git a/gc/misc.c b/gc/misc.c new file mode 100644 index 0000000..e0d4599 --- /dev/null +++ b/gc/misc.c @@ -0,0 +1,829 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, July 31, 1995 5:02 pm PDT */ + + +#include <stdio.h> +#include <signal.h> + +#define I_HIDE_POINTERS /* To make GC_call_with_alloc_lock visible */ +#include "gc_priv.h" + +#ifdef SOLARIS_THREADS +# include <sys/syscall.h> +#endif +#ifdef MSWIN32 +# include <windows.h> +#endif + +# ifdef THREADS +# ifdef PCR +# include "il/PCR_IL.h" + PCR_Th_ML GC_allocate_ml; +# else +# ifdef SRC_M3 + /* Critical section counter is defined in the M3 runtime */ + /* That's all we use. */ +# else +# ifdef SOLARIS_THREADS + mutex_t GC_allocate_ml; /* Implicitly initialized. */ +# else +# ifdef WIN32_THREADS + GC_API CRITICAL_SECTION GC_allocate_ml; +# else +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) \ + || defined(IRIX_JDK_THREADS) +# ifdef UNDEFINED + pthread_mutex_t GC_allocate_ml = PTHREAD_MUTEX_INITIALIZER; +# endif + pthread_t GC_lock_holder = NO_THREAD; +# else + --> declare allocator lock here +# endif +# endif +# endif +# endif +# endif +# endif + +GC_FAR struct _GC_arrays GC_arrays /* = { 0 } */; + + +GC_bool GC_debugging_started = FALSE; + /* defined here so we don't have to load debug_malloc.o */ + +void (*GC_check_heap)() = (void (*)())0; + +void (*GC_start_call_back)() = (void (*)())0; + +ptr_t GC_stackbottom = 0; + +GC_bool GC_dont_gc = 0; + +GC_bool GC_quiet = 0; + +#ifdef FIND_LEAK + int GC_find_leak = 1; +#else + int GC_find_leak = 0; +#endif + +/*ARGSUSED*/ +GC_PTR GC_default_oom_fn GC_PROTO((size_t bytes_requested)) +{ + return(0); +} + +GC_PTR (*GC_oom_fn) GC_PROTO((size_t bytes_requested)) = GC_default_oom_fn; + +extern signed_word GC_mem_found; + +# ifdef MERGE_SIZES + /* Set things up so that GC_size_map[i] >= words(i), */ + /* but not too much bigger */ + /* and so that size_map contains relatively few distinct entries */ + /* This is stolen from Russ Atkinson's Cedar quantization */ + /* alogrithm (but we precompute it). */ + + + void GC_init_size_map() + { + register unsigned i; + + /* Map size 0 to 1. This avoids problems at lower levels. */ + GC_size_map[0] = 1; + /* One word objects don't have to be 2 word aligned. */ + for (i = 1; i < sizeof(word); i++) { + GC_size_map[i] = 1; + } + GC_size_map[sizeof(word)] = ROUNDED_UP_WORDS(sizeof(word)); + for (i = sizeof(word) + 1; i <= 8 * sizeof(word); i++) { +# ifdef ALIGN_DOUBLE + GC_size_map[i] = (ROUNDED_UP_WORDS(i) + 1) & (~1); +# else + GC_size_map[i] = ROUNDED_UP_WORDS(i); +# endif + } + for (i = 8*sizeof(word) + 1; i <= 16 * sizeof(word); i++) { + GC_size_map[i] = (ROUNDED_UP_WORDS(i) + 1) & (~1); + } + /* We leave the rest of the array to be filled in on demand. */ + } + + /* Fill in additional entries in GC_size_map, including the ith one */ + /* We assume the ith entry is currently 0. */ + /* Note that a filled in section of the array ending at n always */ + /* has length at least n/4. */ + void GC_extend_size_map(i) + word i; + { + word orig_word_sz = ROUNDED_UP_WORDS(i); + word word_sz = orig_word_sz; + register word byte_sz = WORDS_TO_BYTES(word_sz); + /* The size we try to preserve. */ + /* Close to to i, unless this would */ + /* introduce too many distinct sizes. */ + word smaller_than_i = byte_sz - (byte_sz >> 3); + word much_smaller_than_i = byte_sz - (byte_sz >> 2); + register word low_limit; /* The lowest indexed entry we */ + /* initialize. */ + register word j; + + if (GC_size_map[smaller_than_i] == 0) { + low_limit = much_smaller_than_i; + while (GC_size_map[low_limit] != 0) low_limit++; + } else { + low_limit = smaller_than_i + 1; + while (GC_size_map[low_limit] != 0) low_limit++; + word_sz = ROUNDED_UP_WORDS(low_limit); + word_sz += word_sz >> 3; + if (word_sz < orig_word_sz) word_sz = orig_word_sz; + } +# ifdef ALIGN_DOUBLE + word_sz += 1; + word_sz &= ~1; +# endif + if (word_sz > MAXOBJSZ) { + word_sz = MAXOBJSZ; + } + /* If we can fit the same number of larger objects in a block, */ + /* do so. */ + { + size_t number_of_objs = BODY_SZ/word_sz; + word_sz = BODY_SZ/number_of_objs; +# ifdef ALIGN_DOUBLE + word_sz &= ~1; +# endif + } + byte_sz = WORDS_TO_BYTES(word_sz); +# ifdef ADD_BYTE_AT_END + /* We need one extra byte; don't fill in GC_size_map[byte_sz] */ + byte_sz--; +# endif + + for (j = low_limit; j <= byte_sz; j++) GC_size_map[j] = word_sz; + } +# endif + + +/* + * The following is a gross hack to deal with a problem that can occur + * on machines that are sloppy about stack frame sizes, notably SPARC. + * Bogus pointers may be written to the stack and not cleared for + * a LONG time, because they always fall into holes in stack frames + * that are not written. We partially address this by clearing + * sections of the stack whenever we get control. + */ +word GC_stack_last_cleared = 0; /* GC_no when we last did this */ +# ifdef THREADS +# define CLEAR_SIZE 2048 +# else +# define CLEAR_SIZE 213 +# endif +# define DEGRADE_RATE 50 + +word GC_min_sp; /* Coolest stack pointer value from which we've */ + /* already cleared the stack. */ + +# ifdef STACK_GROWS_DOWN +# define COOLER_THAN > +# define HOTTER_THAN < +# define MAKE_COOLER(x,y) if ((word)(x)+(y) > (word)(x)) {(x) += (y);} \ + else {(x) = (word)ONES;} +# define MAKE_HOTTER(x,y) (x) -= (y) +# else +# define COOLER_THAN < +# define HOTTER_THAN > +# define MAKE_COOLER(x,y) if ((word)(x)-(y) < (word)(x)) {(x) -= (y);} else {(x) = 0;} +# define MAKE_HOTTER(x,y) (x) += (y) +# endif + +word GC_high_water; + /* "hottest" stack pointer value we have seen */ + /* recently. Degrades over time. */ + +word GC_words_allocd_at_reset; + +#if defined(ASM_CLEAR_CODE) && !defined(THREADS) + extern ptr_t GC_clear_stack_inner(); +#endif + +#if !defined(ASM_CLEAR_CODE) && !defined(THREADS) +/* Clear the stack up to about limit. Return arg. */ +/*ARGSUSED*/ +ptr_t GC_clear_stack_inner(arg, limit) +ptr_t arg; +word limit; +{ + word dummy[CLEAR_SIZE]; + + BZERO(dummy, CLEAR_SIZE*sizeof(word)); + if ((word)(dummy) COOLER_THAN limit) { + (void) GC_clear_stack_inner(arg, limit); + } + /* Make sure the recursive call is not a tail call, and the bzero */ + /* call is not recognized as dead code. */ + GC_noop1((word)dummy); + return(arg); +} +#endif + +/* Clear some of the inaccessible part of the stack. Returns its */ +/* argument, so it can be used in a tail call position, hence clearing */ +/* another frame. */ +ptr_t GC_clear_stack(arg) +ptr_t arg; +{ + register word sp = (word)GC_approx_sp(); /* Hotter than actual sp */ +# ifdef THREADS + word dummy[CLEAR_SIZE]; +# else + register word limit; +# endif + +# define SLOP 400 + /* Extra bytes we clear every time. This clears our own */ + /* activation record, and should cause more frequent */ + /* clearing near the cold end of the stack, a good thing. */ +# define GC_SLOP 4000 + /* We make GC_high_water this much hotter than we really saw */ + /* saw it, to cover for GC noise etc. above our current frame. */ +# define CLEAR_THRESHOLD 100000 + /* We restart the clearing process after this many bytes of */ + /* allocation. Otherwise very heavily recursive programs */ + /* with sparse stacks may result in heaps that grow almost */ + /* without bounds. As the heap gets larger, collection */ + /* frequency decreases, thus clearing frequency would decrease, */ + /* thus more junk remains accessible, thus the heap gets */ + /* larger ... */ +# ifdef THREADS + BZERO(dummy, CLEAR_SIZE*sizeof(word)); +# else + if (GC_gc_no > GC_stack_last_cleared) { + /* Start things over, so we clear the entire stack again */ + if (GC_stack_last_cleared == 0) GC_high_water = (word) GC_stackbottom; + GC_min_sp = GC_high_water; + GC_stack_last_cleared = GC_gc_no; + GC_words_allocd_at_reset = GC_words_allocd; + } + /* Adjust GC_high_water */ + MAKE_COOLER(GC_high_water, WORDS_TO_BYTES(DEGRADE_RATE) + GC_SLOP); + if (sp HOTTER_THAN GC_high_water) { + GC_high_water = sp; + } + MAKE_HOTTER(GC_high_water, GC_SLOP); + limit = GC_min_sp; + MAKE_HOTTER(limit, SLOP); + if (sp COOLER_THAN limit) { + limit &= ~0xf; /* Make it sufficiently aligned for assembly */ + /* implementations of GC_clear_stack_inner. */ + GC_min_sp = sp; + return(GC_clear_stack_inner(arg, limit)); + } else if (WORDS_TO_BYTES(GC_words_allocd - GC_words_allocd_at_reset) + > CLEAR_THRESHOLD) { + /* Restart clearing process, but limit how much clearing we do. */ + GC_min_sp = sp; + MAKE_HOTTER(GC_min_sp, CLEAR_THRESHOLD/4); + if (GC_min_sp HOTTER_THAN GC_high_water) GC_min_sp = GC_high_water; + GC_words_allocd_at_reset = GC_words_allocd; + } +# endif + return(arg); +} + + +/* Return a pointer to the base address of p, given a pointer to a */ +/* an address within an object. Return 0 o.w. */ +# ifdef __STDC__ + GC_PTR GC_base(GC_PTR p) +# else + GC_PTR GC_base(p) + GC_PTR p; +# endif +{ + register word r; + register struct hblk *h; + register bottom_index *bi; + register hdr *candidate_hdr; + register word limit; + + r = (word)p; + if (!GC_is_initialized) return 0; + h = HBLKPTR(r); + GET_BI(r, bi); + candidate_hdr = HDR_FROM_BI(bi, r); + if (candidate_hdr == 0) return(0); + /* If it's a pointer to the middle of a large object, move it */ + /* to the beginning. */ + while (IS_FORWARDING_ADDR_OR_NIL(candidate_hdr)) { + h = FORWARDED_ADDR(h,candidate_hdr); + r = (word)h + HDR_BYTES; + candidate_hdr = HDR(h); + } + if (candidate_hdr -> hb_map == GC_invalid_map) return(0); + /* Make sure r points to the beginning of the object */ + r &= ~(WORDS_TO_BYTES(1) - 1); + { + register int offset = (char *)r - (char *)(HBLKPTR(r)); + register signed_word sz = candidate_hdr -> hb_sz; + +# ifdef ALL_INTERIOR_POINTERS + register map_entry_type map_entry; + + map_entry = MAP_ENTRY((candidate_hdr -> hb_map), offset); + if (map_entry == OBJ_INVALID) { + return(0); + } + r -= WORDS_TO_BYTES(map_entry); + limit = r + WORDS_TO_BYTES(sz); +# else + register int correction; + + offset = BYTES_TO_WORDS(offset - HDR_BYTES); + correction = offset % sz; + r -= (WORDS_TO_BYTES(correction)); + limit = r + WORDS_TO_BYTES(sz); + if (limit > (word)(h + 1) + && sz <= BYTES_TO_WORDS(HBLKSIZE) - HDR_WORDS) { + return(0); + } +# endif + if ((word)p >= limit) return(0); + } + return((GC_PTR)r); +} + + +/* Return the size of an object, given a pointer to its base. */ +/* (For small obects this also happens to work from interior pointers, */ +/* but that shouldn't be relied upon.) */ +# ifdef __STDC__ + size_t GC_size(GC_PTR p) +# else + size_t GC_size(p) + GC_PTR p; +# endif +{ + register int sz; + register hdr * hhdr = HDR(p); + + sz = WORDS_TO_BYTES(hhdr -> hb_sz); + if (sz < 0) { + return(-sz); + } else { + return(sz); + } +} + +size_t GC_get_heap_size GC_PROTO(()) +{ + return ((size_t) GC_heapsize); +} + +size_t GC_get_bytes_since_gc GC_PROTO(()) +{ + return ((size_t) WORDS_TO_BYTES(GC_words_allocd)); +} + +GC_bool GC_is_initialized = FALSE; + +void GC_init() +{ + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + GC_init_inner(); + UNLOCK(); + ENABLE_SIGNALS(); + +} + +#ifdef MSWIN32 + extern void GC_init_win32(); +#endif + +extern void GC_setpagesize(); + +void GC_init_inner() +{ +# ifndef THREADS + word dummy; +# endif + + if (GC_is_initialized) return; + GC_setpagesize(); + GC_exclude_static_roots(beginGC_arrays, end_gc_area); +# ifdef PRINTSTATS + if ((ptr_t)endGC_arrays != (ptr_t)(&GC_obj_kinds)) { + GC_printf0("Reordering linker, didn't exclude obj_kinds\n"); + } +# endif +# ifdef MSWIN32 + GC_init_win32(); +# endif +# if defined(LINUX) && (defined(POWERPC) || defined(ALPHA) || \ + defined(SPARC) || defined(MIPS)) + GC_init_linux_data_start(); +# endif +# ifdef SOLARIS_THREADS + GC_thr_init(); + /* We need dirty bits in order to find live stack sections. */ + GC_dirty_init(); +# endif +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) \ + || defined(IRIX_JDK_THREADS) + GC_thr_init(); +# endif +# if !defined(THREADS) || defined(SOLARIS_THREADS) || defined(WIN32_THREADS) \ + || defined(IRIX_THREADS) || defined(LINUX_THREADS) + if (GC_stackbottom == 0) { + GC_stackbottom = GC_get_stack_base(); + } +# endif + if (sizeof (ptr_t) != sizeof(word)) { + ABORT("sizeof (ptr_t) != sizeof(word)\n"); + } + if (sizeof (signed_word) != sizeof(word)) { + ABORT("sizeof (signed_word) != sizeof(word)\n"); + } + if (sizeof (struct hblk) != HBLKSIZE) { + ABORT("sizeof (struct hblk) != HBLKSIZE\n"); + } +# ifndef THREADS +# if defined(STACK_GROWS_UP) && defined(STACK_GROWS_DOWN) + ABORT( + "Only one of STACK_GROWS_UP and STACK_GROWS_DOWN should be defd\n"); +# endif +# if !defined(STACK_GROWS_UP) && !defined(STACK_GROWS_DOWN) + ABORT( + "One of STACK_GROWS_UP and STACK_GROWS_DOWN should be defd\n"); +# endif +# ifdef STACK_GROWS_DOWN + if ((word)(&dummy) > (word)GC_stackbottom) { + GC_err_printf0( + "STACK_GROWS_DOWN is defd, but stack appears to grow up\n"); +# ifndef UTS4 /* Compiler bug workaround */ + GC_err_printf2("sp = 0x%lx, GC_stackbottom = 0x%lx\n", + (unsigned long) (&dummy), + (unsigned long) GC_stackbottom); +# endif + ABORT("stack direction 3\n"); + } +# else + if ((word)(&dummy) < (word)GC_stackbottom) { + GC_err_printf0( + "STACK_GROWS_UP is defd, but stack appears to grow down\n"); + GC_err_printf2("sp = 0x%lx, GC_stackbottom = 0x%lx\n", + (unsigned long) (&dummy), + (unsigned long) GC_stackbottom); + ABORT("stack direction 4"); + } +# endif +# endif +# if !defined(_AUX_SOURCE) || defined(__GNUC__) + if ((word)(-1) < (word)0) { + GC_err_printf0("The type word should be an unsigned integer type\n"); + GC_err_printf0("It appears to be signed\n"); + ABORT("word"); + } +# endif + if ((signed_word)(-1) >= (signed_word)0) { + GC_err_printf0( + "The type signed_word should be a signed integer type\n"); + GC_err_printf0("It appears to be unsigned\n"); + ABORT("signed_word"); + } + + /* Add initial guess of root sets. Do this first, since sbrk(0) */ + /* might be used. */ + GC_register_data_segments(); + GC_init_headers(); + GC_bl_init(); + GC_mark_init(); + if (!GC_expand_hp_inner((word)MINHINCR)) { + GC_err_printf0("Can't start up: not enough memory\n"); + EXIT(); + } + /* Preallocate large object map. It's otherwise inconvenient to */ + /* deal with failure. */ + if (!GC_add_map_entry((word)0)) { + GC_err_printf0("Can't start up: not enough memory\n"); + EXIT(); + } + GC_register_displacement_inner(0L); +# ifdef MERGE_SIZES + GC_init_size_map(); +# endif +# ifdef PCR + if (PCR_IL_Lock(PCR_Bool_false, PCR_allSigsBlocked, PCR_waitForever) + != PCR_ERes_okay) { + ABORT("Can't lock load state\n"); + } else if (PCR_IL_Unlock() != PCR_ERes_okay) { + ABORT("Can't unlock load state\n"); + } + PCR_IL_Unlock(); + GC_pcr_install(); +# endif + /* Get black list set up */ + GC_gcollect_inner(); +# ifdef STUBBORN_ALLOC + GC_stubborn_init(); +# endif + GC_is_initialized = TRUE; + /* Convince lint that some things are used */ +# ifdef LINT + { + extern char * GC_copyright[]; + extern int GC_read(); + extern void GC_register_finalizer_no_order(); + + GC_noop(GC_copyright, GC_find_header, + GC_push_one, GC_call_with_alloc_lock, GC_read, + GC_dont_expand, +# ifndef NO_DEBUGGING + GC_dump, +# endif + GC_register_finalizer_no_order); + } +# endif +} + +void GC_enable_incremental GC_PROTO(()) +{ +# if !defined(SMALL_CONFIG) + if (!GC_find_leak) { + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + if (GC_incremental) goto out; + GC_setpagesize(); +# ifdef MSWIN32 + { + extern GC_bool GC_is_win32s(); + + /* VirtualProtect is not functional under win32s. */ + if (GC_is_win32s()) goto out; + } +# endif /* MSWIN32 */ +# ifndef SOLARIS_THREADS + GC_dirty_init(); +# endif + if (!GC_is_initialized) { + GC_init_inner(); + } + if (GC_dont_gc) { + /* Can't easily do it. */ + UNLOCK(); + ENABLE_SIGNALS(); + return; + } + if (GC_words_allocd > 0) { + /* There may be unmarked reachable objects */ + GC_gcollect_inner(); + } /* else we're OK in assuming everything's */ + /* clean since nothing can point to an */ + /* unmarked object. */ + GC_read_dirty(); + GC_incremental = TRUE; +out: + UNLOCK(); + ENABLE_SIGNALS(); + } +# endif +} + + +#ifdef MSWIN32 +# define LOG_FILE "gc.log" + + HANDLE GC_stdout = 0, GC_stderr; + int GC_tmp; + DWORD GC_junk; + + void GC_set_files() + { + if (!GC_stdout) { + GC_stdout = CreateFile(LOG_FILE, GENERIC_WRITE, + FILE_SHARE_READ | FILE_SHARE_WRITE, + NULL, CREATE_ALWAYS, FILE_FLAG_WRITE_THROUGH, + NULL); + if (INVALID_HANDLE_VALUE == GC_stdout) ABORT("Open of log file failed"); + } + if (GC_stderr == 0) { + GC_stderr = GC_stdout; + } + } + +#endif + +#if defined(OS2) || defined(MACOS) +FILE * GC_stdout = NULL; +FILE * GC_stderr = NULL; +int GC_tmp; /* Should really be local ... */ + + void GC_set_files() + { + if (GC_stdout == NULL) { + GC_stdout = stdout; + } + if (GC_stderr == NULL) { + GC_stderr = stderr; + } + } +#endif + +#if !defined(OS2) && !defined(MACOS) && !defined(MSWIN32) + int GC_stdout = 1; + int GC_stderr = 2; +# if !defined(AMIGA) +# include <unistd.h> +# endif +#endif + +#if !defined(MSWIN32) && !defined(OS2) && !defined(MACOS) +int GC_write(fd, buf, len) +int fd; +char *buf; +size_t len; +{ + register int bytes_written = 0; + register int result; + + while (bytes_written < len) { +# ifdef SOLARIS_THREADS + result = syscall(SYS_write, fd, buf + bytes_written, + len - bytes_written); +# else + result = write(fd, buf + bytes_written, len - bytes_written); +# endif + if (-1 == result) return(result); + bytes_written += result; + } + return(bytes_written); +} +#endif /* UN*X */ + +#ifdef MSWIN32 +# define WRITE(f, buf, len) (GC_set_files(), \ + GC_tmp = WriteFile((f), (buf), \ + (len), &GC_junk, NULL),\ + (GC_tmp? 1 : -1)) +#else +# if defined(OS2) || defined(MACOS) +# define WRITE(f, buf, len) (GC_set_files(), \ + GC_tmp = fwrite((buf), 1, (len), (f)), \ + fflush(f), GC_tmp) +# else +# define WRITE(f, buf, len) GC_write((f), (buf), (len)) +# endif +#endif + +/* A version of printf that is unlikely to call malloc, and is thus safer */ +/* to call from the collector in case malloc has been bound to GC_malloc. */ +/* Assumes that no more than 1023 characters are written at once. */ +/* Assumes that all arguments have been converted to something of the */ +/* same size as long, and that the format conversions expect something */ +/* of that size. */ +void GC_printf(format, a, b, c, d, e, f) +char * format; +long a, b, c, d, e, f; +{ + char buf[1025]; + + if (GC_quiet) return; + buf[1024] = 0x15; + (void) sprintf(buf, format, a, b, c, d, e, f); + if (buf[1024] != 0x15) ABORT("GC_printf clobbered stack"); + if (WRITE(GC_stdout, buf, strlen(buf)) < 0) ABORT("write to stdout failed"); +} + +void GC_err_printf(format, a, b, c, d, e, f) +char * format; +long a, b, c, d, e, f; +{ + char buf[1025]; + + buf[1024] = 0x15; + (void) sprintf(buf, format, a, b, c, d, e, f); + if (buf[1024] != 0x15) ABORT("GC_err_printf clobbered stack"); + if (WRITE(GC_stderr, buf, strlen(buf)) < 0) ABORT("write to stderr failed"); +} + +void GC_err_puts(s) +char *s; +{ + if (WRITE(GC_stderr, s, strlen(s)) < 0) ABORT("write to stderr failed"); +} + +# if defined(__STDC__) || defined(__cplusplus) + void GC_default_warn_proc(char *msg, GC_word arg) +# else + void GC_default_warn_proc(msg, arg) + char *msg; + GC_word arg; +# endif +{ + GC_err_printf1(msg, (unsigned long)arg); +} + +GC_warn_proc GC_current_warn_proc = GC_default_warn_proc; + +# if defined(__STDC__) || defined(__cplusplus) + GC_warn_proc GC_set_warn_proc(GC_warn_proc p) +# else + GC_warn_proc GC_set_warn_proc(p) + GC_warn_proc p; +# endif +{ + GC_warn_proc result; + + LOCK(); + result = GC_current_warn_proc; + GC_current_warn_proc = p; + UNLOCK(); + return(result); +} + + +#ifndef PCR +void GC_abort(msg) +char * msg; +{ + GC_err_printf1("%s\n", msg); + (void) abort(); +} +#endif + +#ifdef NEED_CALLINFO + +void GC_print_callers (info) +struct callinfo info[NFRAMES]; +{ + register int i; + +# if NFRAMES == 1 + GC_err_printf0("\tCaller at allocation:\n"); +# else + GC_err_printf0("\tCall chain at allocation:\n"); +# endif + for (i = 0; i < NFRAMES; i++) { + if (info[i].ci_pc == 0) break; +# if NARGS > 0 + { + int j; + + GC_err_printf0("\t\targs: "); + for (j = 0; j < NARGS; j++) { + if (j != 0) GC_err_printf0(", "); + GC_err_printf2("%d (0x%X)", ~(info[i].ci_arg[j]), + ~(info[i].ci_arg[j])); + } + GC_err_printf0("\n"); + } +# endif + GC_err_printf1("\t\t##PC##= 0x%X\n", info[i].ci_pc); + } +} + +#endif /* SAVE_CALL_CHAIN */ + +# ifdef SRC_M3 +void GC_enable() +{ + GC_dont_gc--; +} + +void GC_disable() +{ + GC_dont_gc++; +} +# endif + +#if !defined(NO_DEBUGGING) + +void GC_dump() +{ + GC_printf0("***Static roots:\n"); + GC_print_static_roots(); + GC_printf0("\n***Heap sections:\n"); + GC_print_heap_sects(); + GC_printf0("\n***Free blocks:\n"); + GC_print_hblkfreelist(); + GC_printf0("\n***Blocks in use:\n"); + GC_print_block_list(); +} + +# endif /* NO_DEBUGGING */ diff --git a/gc/new_hblk.c b/gc/new_hblk.c new file mode 100644 index 0000000..9f32ae0 --- /dev/null +++ b/gc/new_hblk.c @@ -0,0 +1,244 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + * This file contains the functions: + * ptr_t GC_build_flXXX(h, old_fl) + * void GC_new_hblk(n) + */ +/* Boehm, May 19, 1994 2:09 pm PDT */ + + +# include <stdio.h> +# include "gc_priv.h" + +#ifndef SMALL_CONFIG +/* + * Build a free list for size 1 objects inside hblk h. Set the last link to + * be ofl. Return a pointer tpo the first free list entry. + */ +ptr_t GC_build_fl1(h, ofl) +struct hblk *h; +ptr_t ofl; +{ + register word * p = (word *)h; + register word * lim = (word *)(h + 1); + + p[0] = (word)ofl; + p[1] = (word)(p); + p[2] = (word)(p+1); + p[3] = (word)(p+2); + p += 4; + for (; p < lim; p += 4) { + p[0] = (word)(p-1); + p[1] = (word)(p); + p[2] = (word)(p+1); + p[3] = (word)(p+2); + }; + return((ptr_t)(p-1)); +} + +/* The same for size 2 cleared objects */ +ptr_t GC_build_fl_clear2(h, ofl) +struct hblk *h; +ptr_t ofl; +{ + register word * p = (word *)h; + register word * lim = (word *)(h + 1); + + p[0] = (word)ofl; + p[1] = 0; + p[2] = (word)p; + p[3] = 0; + p += 4; + for (; p < lim; p += 4) { + p[0] = (word)(p-2); + p[1] = 0; + p[2] = (word)p; + p[3] = 0; + }; + return((ptr_t)(p-2)); +} + +/* The same for size 3 cleared objects */ +ptr_t GC_build_fl_clear3(h, ofl) +struct hblk *h; +ptr_t ofl; +{ + register word * p = (word *)h; + register word * lim = (word *)(h + 1) - 2; + + p[0] = (word)ofl; + p[1] = 0; + p[2] = 0; + p += 3; + for (; p < lim; p += 3) { + p[0] = (word)(p-3); + p[1] = 0; + p[2] = 0; + }; + return((ptr_t)(p-3)); +} + +/* The same for size 4 cleared objects */ +ptr_t GC_build_fl_clear4(h, ofl) +struct hblk *h; +ptr_t ofl; +{ + register word * p = (word *)h; + register word * lim = (word *)(h + 1); + + p[0] = (word)ofl; + p[1] = 0; + p[2] = 0; + p[3] = 0; + p += 4; + for (; p < lim; p += 4) { + p[0] = (word)(p-4); + p[1] = 0; + p[2] = 0; + p[3] = 0; + }; + return((ptr_t)(p-4)); +} + +/* The same for size 2 uncleared objects */ +ptr_t GC_build_fl2(h, ofl) +struct hblk *h; +ptr_t ofl; +{ + register word * p = (word *)h; + register word * lim = (word *)(h + 1); + + p[0] = (word)ofl; + p[2] = (word)p; + p += 4; + for (; p < lim; p += 4) { + p[0] = (word)(p-2); + p[2] = (word)p; + }; + return((ptr_t)(p-2)); +} + +/* The same for size 4 uncleared objects */ +ptr_t GC_build_fl4(h, ofl) +struct hblk *h; +ptr_t ofl; +{ + register word * p = (word *)h; + register word * lim = (word *)(h + 1); + + p[0] = (word)ofl; + p[4] = (word)p; + p += 8; + for (; p < lim; p += 8) { + p[0] = (word)(p-4); + p[4] = (word)p; + }; + return((ptr_t)(p-4)); +} + +#endif /* !SMALL_CONFIG */ + +/* + * Allocate a new heapblock for small objects of size n. + * Add all of the heapblock's objects to the free list for objects + * of that size. + * Set all mark bits if objects are uncollectable. + * Will fail to do anything if we are out of memory. + */ +void GC_new_hblk(sz, kind) +register word sz; +int kind; +{ + register word *p, + *prev; + word *last_object; /* points to last object in new hblk */ + register struct hblk *h; /* the new heap block */ + register GC_bool clear = GC_obj_kinds[kind].ok_init; + +# ifdef PRINTSTATS + if ((sizeof (struct hblk)) > HBLKSIZE) { + ABORT("HBLK SZ inconsistency"); + } +# endif + + /* Allocate a new heap block */ + h = GC_allochblk(sz, kind, 0); + if (h == 0) return; + + /* Mark all objects if appropriate. */ + if (IS_UNCOLLECTABLE(kind)) GC_set_hdr_marks(HDR(h)); + + /* Handle small objects sizes more efficiently. For larger objects */ + /* the difference is less significant. */ +# ifndef SMALL_CONFIG + switch (sz) { + case 1: GC_obj_kinds[kind].ok_freelist[1] = + GC_build_fl1(h, GC_obj_kinds[kind].ok_freelist[1]); + return; + case 2: if (clear) { + GC_obj_kinds[kind].ok_freelist[2] = + GC_build_fl_clear2(h, GC_obj_kinds[kind].ok_freelist[2]); + } else { + GC_obj_kinds[kind].ok_freelist[2] = + GC_build_fl2(h, GC_obj_kinds[kind].ok_freelist[2]); + } + return; + case 3: if (clear) { + GC_obj_kinds[kind].ok_freelist[3] = + GC_build_fl_clear3(h, GC_obj_kinds[kind].ok_freelist[3]); + return; + } else { + /* It's messy to do better than the default here. */ + break; + } + case 4: if (clear) { + GC_obj_kinds[kind].ok_freelist[4] = + GC_build_fl_clear4(h, GC_obj_kinds[kind].ok_freelist[4]); + } else { + GC_obj_kinds[kind].ok_freelist[4] = + GC_build_fl4(h, GC_obj_kinds[kind].ok_freelist[4]); + } + return; + default: + break; + } +# endif /* !SMALL_CONFIG */ + + /* Clear the page if necessary. */ + if (clear) BZERO(h, HBLKSIZE); + + /* Add objects to free list */ + p = &(h -> hb_body[sz]); /* second object in *h */ + prev = &(h -> hb_body[0]); /* One object behind p */ + last_object = (word *)((char *)h + HBLKSIZE); + last_object -= sz; + /* Last place for last object to start */ + + /* make a list of all objects in *h with head as last object */ + while (p <= last_object) { + /* current object's link points to last object */ + obj_link(p) = (ptr_t)prev; + prev = p; + p += sz; + } + p -= sz; /* p now points to last object */ + + /* + * put p (which is now head of list of objects in *h) as first + * pointer in the appropriate free list for this size. + */ + obj_link(h -> hb_body) = GC_obj_kinds[kind].ok_freelist[sz]; + GC_obj_kinds[kind].ok_freelist[sz] = ((ptr_t)p); +} + diff --git a/gc/nursery.c b/gc/nursery.c new file mode 100644 index 0000000..8bbb101 --- /dev/null +++ b/gc/nursery.c @@ -0,0 +1,175 @@ +/* + * Copyright (c) 1999 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + + +??? This implementation is incomplete. If you are trying to +??? compile this you are doing something wrong. + +#include "nursery.h" + +struct copy_obj { + ptr_t forward; /* Forwarding link for copied objects. */ + GC_copy_descriptor descr; /* Object descriptor */ + word data[1]; +} + +ptr_t GC_nursery_start; /* Start of nursery area. */ + /* Must be NURSERY_BLOCK_SIZE */ + /* aligned. */ +ptr_t GC_nursery_end; /* End of nursery area. */ +unsigned char * GC_nursery_map; + /* GC_nursery_map[i] != 0 if an object */ + /* starts on the ith 64-bit "word" of */ + /* nursery. This simple structure has */ + /* the advantage that */ + /* allocation is cheap. Lookup is */ + /* cheap for pointers to the head of */ + /* an object, which should be the */ + /* usual case. */ +# define NURSERY_MAP_NOT_START 0 /* Not start of object. */ +# define NURSERY_MAP_START 1 /* Start of object. */ +# define NURSERY_MAP_PINNED 2 /* Start of pinned obj. */ + +# ifdef ALIGN_DOUBLE +# define NURSERY_WORD_SIZE (2 * sizeof(word)) +# else +# define NURSERY_WORD_SIZE sizeof(word) +# endif + +# define NURSERY_BLOCK_SIZE (HBLKSIZE/2) + /* HBLKSIZE must be a multiple of NURSERY_BLOCK_SIZE */ +# define NURSERY_SIZE (1024 * NURSERY_BLOCK_SIZE) + +size_t GC_nursery_size = NURSERY_SIZE; + /* Must be multiple of NURSERY_BLOCK_SIZE */ + +size_t GC_nursery_blocks; /* Number of blocks in the nursery. */ + +unsigned GC_next_nursery_block; /* index of next block we will attempt */ + /* allocate from during this cycle. */ + /* If it is pinned, we won't actually */ + /* use it. */ + +unsigned short *GC_pinned; /* Number of pinned objects in ith */ + /* nursery block. */ + /* GC_pinned[i] != 0 if the ith nursery */ + /* block is pinned, and thus not used */ + /* for allocation. */ + +GC_copy_alloc_state global_alloc_state = (ptr_t)(-1); /* will overflow. */ + +/* Should be called with allocator lock held. */ +GC_nursery_init() { + GC_nursery_start = GET_MEM(GC_nursery_size); + GC_nursery_end = GC_nursery_start + GC_nursery_size; + GC_next_nursery_block = 0; + if (GC_nursery_start < GC_least_plausible_heap_addr) { + GC_least_plausible_heap_addr = GC_nursery_start; + } + if (GC_nursery_end > GC_greatest_plausible_heap_addr) { + GC_greatest_plausible_heap_addr = GC_nursery_end; + } + if (GC_nursery_start & (NURSERY_BLOCK_SIZE-1)) { + GC_err_printf1("Nursery area is misaligned!!"); + /* This should be impossible, since GET_MEM returns HBLKSIZE */ + /* aligned chunks, and that should be a multiple of */ + /* NURSERY_BLOCK_SIZE */ + ABORT("misaligned nursery"); + } + GC_nursery_map = GET_MEM(GC_nursery_size/NURSERY_WORD_SIZE); + /* Map is cleared a block at a time when we allocate from the block. */ + /* BZERO(GC_nursery_map, GC_nursery_size/NURSERY_WORD_SIZE); */ + GC_nursery_blocks = GC_nursery_size/NURSERY_BLOCK_SIZE; + GC_pinned = GC_scratch_alloc(GC_nursery_blocks * sizeof(unsigned short)); + BZERO(GC_pinned, GC_nursery_blocks); +} + +/* Pin all nursery objects referenced from mark stack. */ +void GC_pin_mark_stack_objects(void) { + for each possible pointer current in a mark stack object + if (current >= GC_nursery_start && current < GC_nursery_end) { + unsigned offset = current - GC_nursery_start; + unsigned word_offset = BYTES_TO_WORDS(offset); + unsigned blockno = (current - GC_nursery_start)/NURSERY_BLOCK_SIZE; + while (GC_nursery_map[word_offset] == NURSERY_MAP_NOT_START) { + --word_offset; + } + if (GC_nursery_map[word_offset] != NURSERY_MAP_PINNED) { + GC_nursery_map[word_offset] = NURSERY_MAP_PINNED; + ++GC_pinned[blockno]; + ??Push object at GC_nursery_start + WORDS_TO_BYTES(word_offset) + ??onto stack. + } + } + } +} + +/* Caller holds allocation lock. */ +void GC_collect_nursery(void) { + int i; + ptr_t scan_ptr = 0; + ?? old_mark_stack_top; + STOP_WORLD; + for (i = 0; i < GC_nursery_blocks; ++i) GC_pinned[i] = 0; + GC_push_all_roots(); + old_mark_stack_top = GC_mark_stack_top(); + GC_pin_mark_stack_objects(); + START_WORLD; +} + +/* Initialize an allocation state so that it can be used for */ +/* allocation. This implicitly reserves a small section of the */ +/* nursery for use with his allocator. */ +void GC_init_copy_alloc_state(GC_copy_alloc_state *) + unsigned next_block; + ptr_t block_addr; + LOCK(); + next_block = GC_next_nursery_block; + while(is_pinned[next_block] && next_block < GC_nursery_blocks) { + ++next_block; + } + if (next_block < GC_nursery_blocks) { + block_addr = GC_nursery_start + NURSERY_BLOCK_SIZE * next_block; + GC_next_nursery_block = next_block + 1; + BZERO(GC_nursery_map + next_block * + (NURSERY_BLOCK_SIZE/NURSERY_WORD_SIZE), + NURSERY_BLOCK_SIZE/NURSERY_WORD_SIZE); + *GC_copy_alloc_state = block_addr; + UNLOCK(); + } else { + GC_collect_nursery(); + GC_next_nursery_block = 0; + UNLOCK(); + get_new_block(s); + } +} + +GC_PTR GC_copying_malloc2(GC_copy_descriptor *d, GC_copy_alloc_state *s) { + size_t sz = GC_SIZE_FROM_DESCRIPTOR(d); + ptrdiff_t offset; + ptr_t result = *s; + ptr_t new = result + sz; + if (new & COPY_BLOCK_MASK <= result & COPY_BLOCK_MASK> { + GC_init_copy_alloc_state(s); + result = *s; + new = result + sz; + GC_ASSERT(new & COPY_BLOCK_MASK > result & COPY_BLOCK_MASK> + } + (struct copy_obj *)result -> descr = d; + (struct copy_obj *)result -> forward = 0; + offset = (result - GC_nursery_start)/NURSERY_WORD_SIZE; + GC_nursery_map[offset] = NURSERY_MAP_NOT_START; +} + +GC_PTR GC_copying_malloc(GC_copy_descriptor *d) { +} diff --git a/gc/nursery.h b/gc/nursery.h new file mode 100755 index 0000000..d109ff0 --- /dev/null +++ b/gc/nursery.h @@ -0,0 +1,90 @@ + +/* + * Copyright (c) 1999 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +/* + * THIS IMPLEMENTATION FOR THIS INTERFACE IS INCOMPLETE. + * NONE OF THIS HAS BEEN TESTED. DO NOT USE. + * + * Comments on the interface are appreciated, especially from + * potential users of the interface. + * + * This is a Bartlett style copying collector for young objects. + * We assume for now that all objects allocated through this + * mechanism have pointers only in the first BITMAP_BITS words. + * (On a 32-bit machine, BITMAP_BITS is 30.) + * Objects allocated in this manner should be rarely referenced + * by objects not allocated either through this interface, or through + * the typed allocation interface. + * If this interface is used, we assume that type information provided + * through either this or the typed allocation interface is valid + * in a stronger sense: + * + * 1) No pointers are stored in fields not marked as such. + * (Otherwise it is only necessary that objects referenced by + * fields marked as nonpointers are also reachable via another + * path.) + * 2) Values stored in pointer fields are either not addresses in + * the heap, or they really are pointers. In the latter case, it + * is acceptable to move the object they refer to, and to update + * the pointer. + * + * GC_free may not be invoked on objects allocated with GC_copying_malloc. + * + * No extra space is added to the end of objects allocated through this + * interface. If the client needs to maintain pointers past the + * end, the size should be explicitly padded. + * + * We assume that calls to this will usually be compiler generated. + * Hence the interface is allowed to be a bit ugly in return for speed. + */ + +#include "gc_copy_descr.h" + +/* GC_copy_descr.h must define */ +/* GC_SIZE_FROM_DESCRIPTOR(descr) and */ +/* GC_BIT_MAP_FROM_DESCRIPTOR(descr). */ +/* It may either be the GC supplied version of the header file, or a */ +/* client specific one that derives the information from a client- */ +/* specific type descriptor. */ + +typedef GC_PTR GC_copy_alloc_state; + /* Current allocator state. */ + /* Multiple allocation states */ + /* may be used for concurrent */ + /* allocation, or to enhance */ + /* locality. */ + /* Should be treated as opaque. */ + +/* Allocate a memory block of size given in the descriptor, and with */ +/* pointer layout given by the descriptor. The resulting block may not */ +/* be cleared, and should immediately be initialized by the client. */ +/* (A concurrent GC may see an uninitialized pointer field. If it */ +/* points outside the nursery, that's fine. If it points inside, it */ +/* may retain an object, and be relocated. But that's also fine, since */ +/* the new value will be immediately overwritten. */ +/* This variant acquires the allocation lock, and uses a default */ +/* global allocation state. */ +GC_PTR GC_copying_malloc(GC_copy_descriptor); + +/* A variant of the above that does no locking on the fast path, */ +/* and passes an explicit pointer to an allocation state. */ +/* The allocation state is updated. */ +/* There will eventually need to be a macro or inline function version */ +/* of this. */ +GC_PTR GC_copying_malloc2(GC_copy_descriptor, GC_copy_alloc_state *); + +/* Initialize an allocation state so that it can be used for */ +/* allocation. This implicitly reserves a small section of the */ +/* nursery for use with this allocator. */ +void GC_init_copy_alloc_state(GC_copy_alloc_state *); diff --git a/gc/obj_map.c b/gc/obj_map.c new file mode 100644 index 0000000..82ebf31 --- /dev/null +++ b/gc/obj_map.c @@ -0,0 +1,142 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991, 1992 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, October 9, 1995 1:09 pm PDT */ + +/* Routines for maintaining maps describing heap block + * layouts for various object sizes. Allows fast pointer validity checks + * and fast location of object start locations on machines (such as SPARC) + * with slow division. + */ + +# include "gc_priv.h" + +char * GC_invalid_map = 0; + +/* Invalidate the object map associated with a block. Free blocks */ +/* are identified by invalid maps. */ +void GC_invalidate_map(hhdr) +hdr *hhdr; +{ + register int displ; + + if (GC_invalid_map == 0) { + GC_invalid_map = GC_scratch_alloc(MAP_SIZE); + if (GC_invalid_map == 0) { + GC_err_printf0( + "Cant initialize GC_invalid_map: insufficient memory\n"); + EXIT(); + } + for (displ = 0; displ < HBLKSIZE; displ++) { + MAP_ENTRY(GC_invalid_map, displ) = OBJ_INVALID; + } + } + hhdr -> hb_map = GC_invalid_map; +} + +/* Consider pointers that are offset bytes displaced from the beginning */ +/* of an object to be valid. */ + +# if defined(__STDC__) || defined(__cplusplus) + void GC_register_displacement(GC_word offset) +# else + void GC_register_displacement(offset) + GC_word offset; +# endif +{ +# ifndef ALL_INTERIOR_POINTERS + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + GC_register_displacement_inner(offset); + UNLOCK(); + ENABLE_SIGNALS(); +# endif +} + +void GC_register_displacement_inner(offset) +word offset; +{ +# ifndef ALL_INTERIOR_POINTERS + register unsigned i; + + if (offset > MAX_OFFSET) { + ABORT("Bad argument to GC_register_displacement"); + } + if (!GC_valid_offsets[offset]) { + GC_valid_offsets[offset] = TRUE; + GC_modws_valid_offsets[offset % sizeof(word)] = TRUE; + for (i = 0; i <= MAXOBJSZ; i++) { + if (GC_obj_map[i] != 0) { + if (i == 0) { + GC_obj_map[i][offset + HDR_BYTES] = (char)BYTES_TO_WORDS(offset); + } else { + register unsigned j; + register unsigned lb = WORDS_TO_BYTES(i); + + if (offset < lb) { + for (j = offset + HDR_BYTES; j < HBLKSIZE; j += lb) { + GC_obj_map[i][j] = (char)BYTES_TO_WORDS(offset); + } + } + } + } + } + } +# endif +} + + +/* Add a heap block map for objects of size sz to obj_map. */ +/* Return FALSE on failure. */ +GC_bool GC_add_map_entry(sz) +word sz; +{ + register unsigned obj_start; + register unsigned displ; + register char * new_map; + + if (sz > MAXOBJSZ) sz = 0; + if (GC_obj_map[sz] != 0) { + return(TRUE); + } + new_map = GC_scratch_alloc(MAP_SIZE); + if (new_map == 0) return(FALSE); +# ifdef PRINTSTATS + GC_printf1("Adding block map for size %lu\n", (unsigned long)sz); +# endif + for (displ = 0; displ < HBLKSIZE; displ++) { + MAP_ENTRY(new_map,displ) = OBJ_INVALID; + } + if (sz == 0) { + for(displ = 0; displ <= MAX_OFFSET; displ++) { + if (OFFSET_VALID(displ)) { + MAP_ENTRY(new_map,displ+HDR_BYTES) = BYTES_TO_WORDS(displ); + } + } + } else { + for (obj_start = HDR_BYTES; + obj_start + WORDS_TO_BYTES(sz) <= HBLKSIZE; + obj_start += WORDS_TO_BYTES(sz)) { + for (displ = 0; displ < WORDS_TO_BYTES(sz); displ++) { + if (OFFSET_VALID(displ)) { + MAP_ENTRY(new_map, obj_start + displ) = + BYTES_TO_WORDS(displ); + } + } + } + } + GC_obj_map[sz] = new_map; + return(TRUE); +} diff --git a/gc/os_dep.c b/gc/os_dep.c new file mode 100644 index 0000000..0236248 --- /dev/null +++ b/gc/os_dep.c @@ -0,0 +1,2461 @@ +/* + * Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996-1997 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ + +# include "gc_priv.h" + +# if defined(LINUX) && !defined(POWERPC) +# include <linux/version.h> +# if (LINUX_VERSION_CODE <= 0x10400) + /* Ugly hack to get struct sigcontext_struct definition. Required */ + /* for some early 1.3.X releases. Will hopefully go away soon. */ + /* in some later Linux releases, asm/sigcontext.h may have to */ + /* be included instead. */ +# define __KERNEL__ +# include <asm/signal.h> +# undef __KERNEL__ +# else + /* Kernels prior to 2.1.1 defined struct sigcontext_struct instead of */ + /* struct sigcontext. libc6 (glibc2) uses "struct sigcontext" in */ + /* prototypes, so we have to include the top-level sigcontext.h to */ + /* make sure the former gets defined to be the latter if appropriate. */ +# include <features.h> +# if 2 <= __GLIBC__ +# if 0 == __GLIBC_MINOR__ + /* glibc 2.1 no longer has sigcontext.h. But signal.h */ + /* has the right declaration for glibc 2.1. */ +# include <sigcontext.h> +# endif /* 0 == __GLIBC_MINOR__ */ +# else /* not 2 <= __GLIBC__ */ + /* libc5 doesn't have <sigcontext.h>: go directly with the kernel */ + /* one. Check LINUX_VERSION_CODE to see which we should reference. */ +# include <asm/sigcontext.h> +# endif /* 2 <= __GLIBC__ */ +# endif +# endif +# if !defined(OS2) && !defined(PCR) && !defined(AMIGA) && !defined(MACOS) +# include <sys/types.h> +# if !defined(MSWIN32) && !defined(SUNOS4) +# include <unistd.h> +# endif +# endif + +# include <stdio.h> +# include <signal.h> + +/* Blatantly OS dependent routines, except for those that are related */ +/* dynamic loading. */ + +# if !defined(THREADS) && !defined(STACKBOTTOM) && defined(HEURISTIC2) +# define NEED_FIND_LIMIT +# endif + +# if defined(IRIX_THREADS) +# define NEED_FIND_LIMIT +# endif + +# if (defined(SUNOS4) & defined(DYNAMIC_LOADING)) && !defined(PCR) +# define NEED_FIND_LIMIT +# endif + +# if (defined(SVR4) || defined(AUX) || defined(DGUX)) && !defined(PCR) +# define NEED_FIND_LIMIT +# endif + +# if defined(LINUX) && (defined(POWERPC) || defined(SPARC) || \ + defined(ALPHA) || defined(MIPS)) +# define NEED_FIND_LIMIT +# endif + +#ifdef NEED_FIND_LIMIT +# include <setjmp.h> +#endif + +#ifdef FREEBSD +# include <machine/trap.h> +#endif + +#ifdef AMIGA +# include <proto/exec.h> +# include <proto/dos.h> +# include <dos/dosextens.h> +# include <workbench/startup.h> +#endif + +#ifdef MSWIN32 +# define WIN32_LEAN_AND_MEAN +# define NOSERVICE +# include <windows.h> +#endif + +#ifdef MACOS +# include <Processes.h> +#endif + +#ifdef IRIX5 +# include <sys/uio.h> +# include <malloc.h> /* for locking */ +#endif +#ifdef USE_MMAP +# include <sys/types.h> +# include <sys/mman.h> +# include <sys/stat.h> +# include <fcntl.h> +#endif + +#ifdef SUNOS5SIGS +# include <sys/siginfo.h> +# undef setjmp +# undef longjmp +# define setjmp(env) sigsetjmp(env, 1) +# define longjmp(env, val) siglongjmp(env, val) +# define jmp_buf sigjmp_buf +#endif + +#ifdef DJGPP + /* Apparently necessary for djgpp 2.01. May casuse problems with */ + /* other versions. */ + typedef long unsigned int caddr_t; +#endif + +#ifdef PCR +# include "il/PCR_IL.h" +# include "th/PCR_ThCtl.h" +# include "mm/PCR_MM.h" +#endif + +#if !defined(NO_EXECUTE_PERMISSION) +# define OPT_PROT_EXEC PROT_EXEC +#else +# define OPT_PROT_EXEC 0 +#endif + +#if defined(LINUX) && (defined(POWERPC) || defined(SPARC) || \ + defined(ALPHA) || defined(MIPS)) + /* The I386 case can be handled without a search. The Alpha case */ + /* used to be handled differently as well, but the rules changed */ + /* for recent Linux versions. This seems to be the easiest way to */ + /* cover all versions. */ + ptr_t GC_data_start; + + extern char * GC_copyright[]; /* Any data symbol would do. */ + + void GC_init_linux_data_start() + { + extern ptr_t GC_find_limit(); + + GC_data_start = GC_find_limit((ptr_t)GC_copyright, FALSE); + } +#endif + +# ifdef OS2 + +# include <stddef.h> + +# if !defined(__IBMC__) && !defined(__WATCOMC__) /* e.g. EMX */ + +struct exe_hdr { + unsigned short magic_number; + unsigned short padding[29]; + long new_exe_offset; +}; + +#define E_MAGIC(x) (x).magic_number +#define EMAGIC 0x5A4D +#define E_LFANEW(x) (x).new_exe_offset + +struct e32_exe { + unsigned char magic_number[2]; + unsigned char byte_order; + unsigned char word_order; + unsigned long exe_format_level; + unsigned short cpu; + unsigned short os; + unsigned long padding1[13]; + unsigned long object_table_offset; + unsigned long object_count; + unsigned long padding2[31]; +}; + +#define E32_MAGIC1(x) (x).magic_number[0] +#define E32MAGIC1 'L' +#define E32_MAGIC2(x) (x).magic_number[1] +#define E32MAGIC2 'X' +#define E32_BORDER(x) (x).byte_order +#define E32LEBO 0 +#define E32_WORDER(x) (x).word_order +#define E32LEWO 0 +#define E32_CPU(x) (x).cpu +#define E32CPU286 1 +#define E32_OBJTAB(x) (x).object_table_offset +#define E32_OBJCNT(x) (x).object_count + +struct o32_obj { + unsigned long size; + unsigned long base; + unsigned long flags; + unsigned long pagemap; + unsigned long mapsize; + unsigned long reserved; +}; + +#define O32_FLAGS(x) (x).flags +#define OBJREAD 0x0001L +#define OBJWRITE 0x0002L +#define OBJINVALID 0x0080L +#define O32_SIZE(x) (x).size +#define O32_BASE(x) (x).base + +# else /* IBM's compiler */ + +/* A kludge to get around what appears to be a header file bug */ +# ifndef WORD +# define WORD unsigned short +# endif +# ifndef DWORD +# define DWORD unsigned long +# endif + +# define EXE386 1 +# include <newexe.h> +# include <exe386.h> + +# endif /* __IBMC__ */ + +# define INCL_DOSEXCEPTIONS +# define INCL_DOSPROCESS +# define INCL_DOSERRORS +# define INCL_DOSMODULEMGR +# define INCL_DOSMEMMGR +# include <os2.h> + + +/* Disable and enable signals during nontrivial allocations */ + +void GC_disable_signals(void) +{ + ULONG nest; + + DosEnterMustComplete(&nest); + if (nest != 1) ABORT("nested GC_disable_signals"); +} + +void GC_enable_signals(void) +{ + ULONG nest; + + DosExitMustComplete(&nest); + if (nest != 0) ABORT("GC_enable_signals"); +} + + +# else + +# if !defined(PCR) && !defined(AMIGA) && !defined(MSWIN32) \ + && !defined(MACOS) && !defined(DJGPP) && !defined(DOS4GW) + +# if defined(sigmask) && !defined(UTS4) + /* Use the traditional BSD interface */ +# define SIGSET_T int +# define SIG_DEL(set, signal) (set) &= ~(sigmask(signal)) +# define SIG_FILL(set) (set) = 0x7fffffff + /* Setting the leading bit appears to provoke a bug in some */ + /* longjmp implementations. Most systems appear not to have */ + /* a signal 32. */ +# define SIGSETMASK(old, new) (old) = sigsetmask(new) +# else + /* Use POSIX/SYSV interface */ +# define SIGSET_T sigset_t +# define SIG_DEL(set, signal) sigdelset(&(set), (signal)) +# define SIG_FILL(set) sigfillset(&set) +# define SIGSETMASK(old, new) sigprocmask(SIG_SETMASK, &(new), &(old)) +# endif + +static GC_bool mask_initialized = FALSE; + +static SIGSET_T new_mask; + +static SIGSET_T old_mask; + +static SIGSET_T dummy; + +#if defined(PRINTSTATS) && !defined(THREADS) +# define CHECK_SIGNALS + int GC_sig_disabled = 0; +#endif + +void GC_disable_signals() +{ + if (!mask_initialized) { + SIG_FILL(new_mask); + + SIG_DEL(new_mask, SIGSEGV); + SIG_DEL(new_mask, SIGILL); + SIG_DEL(new_mask, SIGQUIT); +# ifdef SIGBUS + SIG_DEL(new_mask, SIGBUS); +# endif +# ifdef SIGIOT + SIG_DEL(new_mask, SIGIOT); +# endif +# ifdef SIGEMT + SIG_DEL(new_mask, SIGEMT); +# endif +# ifdef SIGTRAP + SIG_DEL(new_mask, SIGTRAP); +# endif + mask_initialized = TRUE; + } +# ifdef CHECK_SIGNALS + if (GC_sig_disabled != 0) ABORT("Nested disables"); + GC_sig_disabled++; +# endif + SIGSETMASK(old_mask,new_mask); +} + +void GC_enable_signals() +{ +# ifdef CHECK_SIGNALS + if (GC_sig_disabled != 1) ABORT("Unmatched enable"); + GC_sig_disabled--; +# endif + SIGSETMASK(dummy,old_mask); +} + +# endif /* !PCR */ + +# endif /*!OS/2 */ + +/* Ivan Demakov: simplest way (to me) */ +#ifdef DOS4GW + void GC_disable_signals() { } + void GC_enable_signals() { } +#endif + +/* Find the page size */ +word GC_page_size; + +# ifdef MSWIN32 + void GC_setpagesize() + { + SYSTEM_INFO sysinfo; + + GetSystemInfo(&sysinfo); + GC_page_size = sysinfo.dwPageSize; + } + +# else +# if defined(MPROTECT_VDB) || defined(PROC_VDB) || defined(USE_MMAP) \ + || defined(USE_MUNMAP) + void GC_setpagesize() + { + GC_page_size = GETPAGESIZE(); + } +# else + /* It's acceptable to fake it. */ + void GC_setpagesize() + { + GC_page_size = HBLKSIZE; + } +# endif +# endif + +/* + * Find the base of the stack. + * Used only in single-threaded environment. + * With threads, GC_mark_roots needs to know how to do this. + * Called with allocator lock held. + */ +# ifdef MSWIN32 +# define is_writable(prot) ((prot) == PAGE_READWRITE \ + || (prot) == PAGE_WRITECOPY \ + || (prot) == PAGE_EXECUTE_READWRITE \ + || (prot) == PAGE_EXECUTE_WRITECOPY) +/* Return the number of bytes that are writable starting at p. */ +/* The pointer p is assumed to be page aligned. */ +/* If base is not 0, *base becomes the beginning of the */ +/* allocation region containing p. */ +word GC_get_writable_length(ptr_t p, ptr_t *base) +{ + MEMORY_BASIC_INFORMATION buf; + word result; + word protect; + + result = VirtualQuery(p, &buf, sizeof(buf)); + if (result != sizeof(buf)) ABORT("Weird VirtualQuery result"); + if (base != 0) *base = (ptr_t)(buf.AllocationBase); + protect = (buf.Protect & ~(PAGE_GUARD | PAGE_NOCACHE)); + if (!is_writable(protect)) { + return(0); + } + if (buf.State != MEM_COMMIT) return(0); + return(buf.RegionSize); +} + +ptr_t GC_get_stack_base() +{ + int dummy; + ptr_t sp = (ptr_t)(&dummy); + ptr_t trunc_sp = (ptr_t)((word)sp & ~(GC_page_size - 1)); + word size = GC_get_writable_length(trunc_sp, 0); + + return(trunc_sp + size); +} + + +# else + +# ifdef OS2 + +ptr_t GC_get_stack_base() +{ + PTIB ptib; + PPIB ppib; + + if (DosGetInfoBlocks(&ptib, &ppib) != NO_ERROR) { + GC_err_printf0("DosGetInfoBlocks failed\n"); + ABORT("DosGetInfoBlocks failed\n"); + } + return((ptr_t)(ptib -> tib_pstacklimit)); +} + +# else + +# ifdef AMIGA + +ptr_t GC_get_stack_base() +{ + struct Process *proc = (struct Process*)SysBase->ThisTask; + + /* Reference: Amiga Guru Book Pages: 42,567,574 */ + if (proc->pr_Task.tc_Node.ln_Type==NT_PROCESS + && proc->pr_CLI != NULL) { + /* first ULONG is StackSize */ + /*longPtr = proc->pr_ReturnAddr; + size = longPtr[0];*/ + + return (char *)proc->pr_ReturnAddr + sizeof(ULONG); + } else { + return (char *)proc->pr_Task.tc_SPUpper; + } +} + +#if 0 /* old version */ +ptr_t GC_get_stack_base() +{ + extern struct WBStartup *_WBenchMsg; + extern long __base; + extern long __stack; + struct Task *task; + struct Process *proc; + struct CommandLineInterface *cli; + long size; + + if ((task = FindTask(0)) == 0) { + GC_err_puts("Cannot find own task structure\n"); + ABORT("task missing"); + } + proc = (struct Process *)task; + cli = BADDR(proc->pr_CLI); + + if (_WBenchMsg != 0 || cli == 0) { + size = (char *)task->tc_SPUpper - (char *)task->tc_SPLower; + } else { + size = cli->cli_DefaultStack * 4; + } + return (ptr_t)(__base + GC_max(size, __stack)); +} +#endif /* 0 */ + +# else /* !AMIGA, !OS2, ... */ + +# ifdef NEED_FIND_LIMIT + /* Some tools to implement HEURISTIC2 */ +# define MIN_PAGE_SIZE 256 /* Smallest conceivable page size, bytes */ + /* static */ jmp_buf GC_jmp_buf; + + /*ARGSUSED*/ + void GC_fault_handler(sig) + int sig; + { + longjmp(GC_jmp_buf, 1); + } + +# ifdef __STDC__ + typedef void (*handler)(int); +# else + typedef void (*handler)(); +# endif + +# if defined(SUNOS5SIGS) || defined(IRIX5) || defined(OSF1) + static struct sigaction old_segv_act; +# if defined(_sigargs) /* !Irix6.x */ + static struct sigaction old_bus_act; +# endif +# else + static handler old_segv_handler, old_bus_handler; +# endif + + void GC_setup_temporary_fault_handler() + { +# if defined(SUNOS5SIGS) || defined(IRIX5) || defined(OSF1) + struct sigaction act; + + act.sa_handler = GC_fault_handler; + act.sa_flags = SA_RESTART | SA_NODEFER; + /* The presence of SA_NODEFER represents yet another gross */ + /* hack. Under Solaris 2.3, siglongjmp doesn't appear to */ + /* interact correctly with -lthread. We hide the confusion */ + /* by making sure that signal handling doesn't affect the */ + /* signal mask. */ + + (void) sigemptyset(&act.sa_mask); +# ifdef IRIX_THREADS + /* Older versions have a bug related to retrieving and */ + /* and setting a handler at the same time. */ + (void) sigaction(SIGSEGV, 0, &old_segv_act); + (void) sigaction(SIGSEGV, &act, 0); +# else + (void) sigaction(SIGSEGV, &act, &old_segv_act); +# ifdef _sigargs /* Irix 5.x, not 6.x */ + /* Under 5.x, we may get SIGBUS. */ + /* Pthreads doesn't exist under 5.x, so we don't */ + /* have to worry in the threads case. */ + (void) sigaction(SIGBUS, &act, &old_bus_act); +# endif +# endif /* IRIX_THREADS */ +# else + old_segv_handler = signal(SIGSEGV, GC_fault_handler); +# ifdef SIGBUS + old_bus_handler = signal(SIGBUS, GC_fault_handler); +# endif +# endif + } + + void GC_reset_fault_handler() + { +# if defined(SUNOS5SIGS) || defined(IRIX5) || defined(OSF1) + (void) sigaction(SIGSEGV, &old_segv_act, 0); +# ifdef _sigargs /* Irix 5.x, not 6.x */ + (void) sigaction(SIGBUS, &old_bus_act, 0); +# endif +# else + (void) signal(SIGSEGV, old_segv_handler); +# ifdef SIGBUS + (void) signal(SIGBUS, old_bus_handler); +# endif +# endif + } + + /* Return the first nonaddressible location > p (up) or */ + /* the smallest location q s.t. [q,p] is addressible (!up). */ + ptr_t GC_find_limit(p, up) + ptr_t p; + GC_bool up; + { + static VOLATILE ptr_t result; + /* Needs to be static, since otherwise it may not be */ + /* preserved across the longjmp. Can safely be */ + /* static since it's only called once, with the */ + /* allocation lock held. */ + + + GC_setup_temporary_fault_handler(); + if (setjmp(GC_jmp_buf) == 0) { + result = (ptr_t)(((word)(p)) + & ~(MIN_PAGE_SIZE-1)); + for (;;) { + if (up) { + result += MIN_PAGE_SIZE; + } else { + result -= MIN_PAGE_SIZE; + } + GC_noop1((word)(*result)); + } + } + GC_reset_fault_handler(); + if (!up) { + result += MIN_PAGE_SIZE; + } + return(result); + } +# endif + + +ptr_t GC_get_stack_base() +{ + word dummy; + ptr_t result; + +# define STACKBOTTOM_ALIGNMENT_M1 ((word)STACK_GRAN - 1) + +# ifdef STACKBOTTOM + return(STACKBOTTOM); +# else +# ifdef HEURISTIC1 +# ifdef STACK_GROWS_DOWN + result = (ptr_t)((((word)(&dummy)) + + STACKBOTTOM_ALIGNMENT_M1) + & ~STACKBOTTOM_ALIGNMENT_M1); +# else + result = (ptr_t)(((word)(&dummy)) + & ~STACKBOTTOM_ALIGNMENT_M1); +# endif +# endif /* HEURISTIC1 */ +# ifdef HEURISTIC2 +# ifdef STACK_GROWS_DOWN + result = GC_find_limit((ptr_t)(&dummy), TRUE); +# ifdef HEURISTIC2_LIMIT + if (result > HEURISTIC2_LIMIT + && (ptr_t)(&dummy) < HEURISTIC2_LIMIT) { + result = HEURISTIC2_LIMIT; + } +# endif +# else + result = GC_find_limit((ptr_t)(&dummy), FALSE); +# ifdef HEURISTIC2_LIMIT + if (result < HEURISTIC2_LIMIT + && (ptr_t)(&dummy) > HEURISTIC2_LIMIT) { + result = HEURISTIC2_LIMIT; + } +# endif +# endif + +# endif /* HEURISTIC2 */ +# ifdef STACK_GROWS_DOWN + if (result == 0) result = (ptr_t)(signed_word)(-sizeof(ptr_t)); +# endif + return(result); +# endif /* STACKBOTTOM */ +} + +# endif /* ! AMIGA */ +# endif /* ! OS2 */ +# endif /* ! MSWIN32 */ + +/* + * Register static data segment(s) as roots. + * If more data segments are added later then they need to be registered + * add that point (as we do with SunOS dynamic loading), + * or GC_mark_roots needs to check for them (as we do with PCR). + * Called with allocator lock held. + */ + +# ifdef OS2 + +void GC_register_data_segments() +{ + PTIB ptib; + PPIB ppib; + HMODULE module_handle; +# define PBUFSIZ 512 + UCHAR path[PBUFSIZ]; + FILE * myexefile; + struct exe_hdr hdrdos; /* MSDOS header. */ + struct e32_exe hdr386; /* Real header for my executable */ + struct o32_obj seg; /* Currrent segment */ + int nsegs; + + + if (DosGetInfoBlocks(&ptib, &ppib) != NO_ERROR) { + GC_err_printf0("DosGetInfoBlocks failed\n"); + ABORT("DosGetInfoBlocks failed\n"); + } + module_handle = ppib -> pib_hmte; + if (DosQueryModuleName(module_handle, PBUFSIZ, path) != NO_ERROR) { + GC_err_printf0("DosQueryModuleName failed\n"); + ABORT("DosGetInfoBlocks failed\n"); + } + myexefile = fopen(path, "rb"); + if (myexefile == 0) { + GC_err_puts("Couldn't open executable "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Failed to open executable\n"); + } + if (fread((char *)(&hdrdos), 1, sizeof hdrdos, myexefile) < sizeof hdrdos) { + GC_err_puts("Couldn't read MSDOS header from "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Couldn't read MSDOS header"); + } + if (E_MAGIC(hdrdos) != EMAGIC) { + GC_err_puts("Executable has wrong DOS magic number: "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Bad DOS magic number"); + } + if (fseek(myexefile, E_LFANEW(hdrdos), SEEK_SET) != 0) { + GC_err_puts("Seek to new header failed in "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Bad DOS magic number"); + } + if (fread((char *)(&hdr386), 1, sizeof hdr386, myexefile) < sizeof hdr386) { + GC_err_puts("Couldn't read MSDOS header from "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Couldn't read OS/2 header"); + } + if (E32_MAGIC1(hdr386) != E32MAGIC1 || E32_MAGIC2(hdr386) != E32MAGIC2) { + GC_err_puts("Executable has wrong OS/2 magic number:"); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Bad OS/2 magic number"); + } + if ( E32_BORDER(hdr386) != E32LEBO || E32_WORDER(hdr386) != E32LEWO) { + GC_err_puts("Executable %s has wrong byte order: "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Bad byte order"); + } + if ( E32_CPU(hdr386) == E32CPU286) { + GC_err_puts("GC can't handle 80286 executables: "); + GC_err_puts(path); GC_err_puts("\n"); + EXIT(); + } + if (fseek(myexefile, E_LFANEW(hdrdos) + E32_OBJTAB(hdr386), + SEEK_SET) != 0) { + GC_err_puts("Seek to object table failed: "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Seek to object table failed"); + } + for (nsegs = E32_OBJCNT(hdr386); nsegs > 0; nsegs--) { + int flags; + if (fread((char *)(&seg), 1, sizeof seg, myexefile) < sizeof seg) { + GC_err_puts("Couldn't read obj table entry from "); + GC_err_puts(path); GC_err_puts("\n"); + ABORT("Couldn't read obj table entry"); + } + flags = O32_FLAGS(seg); + if (!(flags & OBJWRITE)) continue; + if (!(flags & OBJREAD)) continue; + if (flags & OBJINVALID) { + GC_err_printf0("Object with invalid pages?\n"); + continue; + } + GC_add_roots_inner(O32_BASE(seg), O32_BASE(seg)+O32_SIZE(seg), FALSE); + } +} + +# else + +# ifdef MSWIN32 + /* Unfortunately, we have to handle win32s very differently from NT, */ + /* Since VirtualQuery has very different semantics. In particular, */ + /* under win32s a VirtualQuery call on an unmapped page returns an */ + /* invalid result. Under GC_register_data_segments is a noop and */ + /* all real work is done by GC_register_dynamic_libraries. Under */ + /* win32s, we cannot find the data segments associated with dll's. */ + /* We rgister the main data segment here. */ + GC_bool GC_win32s = FALSE; /* We're running under win32s. */ + + GC_bool GC_is_win32s() + { + DWORD v = GetVersion(); + + /* Check that this is not NT, and Windows major version <= 3 */ + return ((v & 0x80000000) && (v & 0xff) <= 3); + } + + void GC_init_win32() + { + GC_win32s = GC_is_win32s(); + } + + /* Return the smallest address a such that VirtualQuery */ + /* returns correct results for all addresses between a and start. */ + /* Assumes VirtualQuery returns correct information for start. */ + ptr_t GC_least_described_address(ptr_t start) + { + MEMORY_BASIC_INFORMATION buf; + SYSTEM_INFO sysinfo; + DWORD result; + LPVOID limit; + ptr_t p; + LPVOID q; + + GetSystemInfo(&sysinfo); + limit = sysinfo.lpMinimumApplicationAddress; + p = (ptr_t)((word)start & ~(GC_page_size - 1)); + for (;;) { + q = (LPVOID)(p - GC_page_size); + if ((ptr_t)q > (ptr_t)p /* underflow */ || q < limit) break; + result = VirtualQuery(q, &buf, sizeof(buf)); + if (result != sizeof(buf) || buf.AllocationBase == 0) break; + p = (ptr_t)(buf.AllocationBase); + } + return(p); + } + + /* Is p the start of either the malloc heap, or of one of our */ + /* heap sections? */ + GC_bool GC_is_heap_base (ptr_t p) + { + + register unsigned i; + +# ifndef REDIRECT_MALLOC + static ptr_t malloc_heap_pointer = 0; + + if (0 == malloc_heap_pointer) { + MEMORY_BASIC_INFORMATION buf; + register DWORD result = VirtualQuery(malloc(1), &buf, sizeof(buf)); + + if (result != sizeof(buf)) { + ABORT("Weird VirtualQuery result"); + } + malloc_heap_pointer = (ptr_t)(buf.AllocationBase); + } + if (p == malloc_heap_pointer) return(TRUE); +# endif + for (i = 0; i < GC_n_heap_bases; i++) { + if (GC_heap_bases[i] == p) return(TRUE); + } + return(FALSE); + } + + void GC_register_root_section(ptr_t static_root) + { + MEMORY_BASIC_INFORMATION buf; + SYSTEM_INFO sysinfo; + DWORD result; + DWORD protect; + LPVOID p; + char * base; + char * limit, * new_limit; + + if (!GC_win32s) return; + p = base = limit = GC_least_described_address(static_root); + GetSystemInfo(&sysinfo); + while (p < sysinfo.lpMaximumApplicationAddress) { + result = VirtualQuery(p, &buf, sizeof(buf)); + if (result != sizeof(buf) || buf.AllocationBase == 0 + || GC_is_heap_base(buf.AllocationBase)) break; + new_limit = (char *)p + buf.RegionSize; + protect = buf.Protect; + if (buf.State == MEM_COMMIT + && is_writable(protect)) { + if ((char *)p == limit) { + limit = new_limit; + } else { + if (base != limit) GC_add_roots_inner(base, limit, FALSE); + base = p; + limit = new_limit; + } + } + if (p > (LPVOID)new_limit /* overflow */) break; + p = (LPVOID)new_limit; + } + if (base != limit) GC_add_roots_inner(base, limit, FALSE); + } + + void GC_register_data_segments() + { + static char dummy; + + GC_register_root_section((ptr_t)(&dummy)); + } +# else +# ifdef AMIGA + + void GC_register_data_segments() + { + struct Process *proc; + struct CommandLineInterface *cli; + BPTR myseglist; + ULONG *data; + + int num; + + +# ifdef __GNUC__ + ULONG dataSegSize; + GC_bool found_segment = FALSE; + extern char __data_size[]; + + dataSegSize=__data_size+8; + /* Can`t find the Location of __data_size, because + it`s possible that is it, inside the segment. */ + +# endif + + proc= (struct Process*)SysBase->ThisTask; + + /* Reference: Amiga Guru Book Pages: 538ff,565,573 + and XOper.asm */ + if (proc->pr_Task.tc_Node.ln_Type==NT_PROCESS) { + if (proc->pr_CLI == NULL) { + myseglist = proc->pr_SegList; + } else { + /* ProcLoaded 'Loaded as a command: '*/ + cli = BADDR(proc->pr_CLI); + myseglist = cli->cli_Module; + } + } else { + ABORT("Not a Process."); + } + + if (myseglist == NULL) { + ABORT("Arrrgh.. can't find segments, aborting"); + } + + /* xoper hunks Shell Process */ + + num=0; + for (data = (ULONG *)BADDR(myseglist); data != NULL; + data = (ULONG *)BADDR(data[0])) { + if (((ULONG) GC_register_data_segments < (ULONG) &data[1]) || + ((ULONG) GC_register_data_segments > (ULONG) &data[1] + data[-1])) { +# ifdef __GNUC__ + if (dataSegSize == data[-1]) { + found_segment = TRUE; + } +# endif + GC_add_roots_inner((char *)&data[1], + ((char *)&data[1]) + data[-1], FALSE); + } + ++num; + } /* for */ +# ifdef __GNUC__ + if (!found_segment) { + ABORT("Can`t find correct Segments.\nSolution: Use an newer version of ixemul.library"); + } +# endif + } + +#if 0 /* old version */ + void GC_register_data_segments() + { + extern struct WBStartup *_WBenchMsg; + struct Process *proc; + struct CommandLineInterface *cli; + BPTR myseglist; + ULONG *data; + + if ( _WBenchMsg != 0 ) { + if ((myseglist = _WBenchMsg->sm_Segment) == 0) { + GC_err_puts("No seglist from workbench\n"); + return; + } + } else { + if ((proc = (struct Process *)FindTask(0)) == 0) { + GC_err_puts("Cannot find process structure\n"); + return; + } + if ((cli = BADDR(proc->pr_CLI)) == 0) { + GC_err_puts("No CLI\n"); + return; + } + if ((myseglist = cli->cli_Module) == 0) { + GC_err_puts("No seglist from CLI\n"); + return; + } + } + + for (data = (ULONG *)BADDR(myseglist); data != 0; + data = (ULONG *)BADDR(data[0])) { +# ifdef AMIGA_SKIP_SEG + if (((ULONG) GC_register_data_segments < (ULONG) &data[1]) || + ((ULONG) GC_register_data_segments > (ULONG) &data[1] + data[-1])) { +# else + { +# endif /* AMIGA_SKIP_SEG */ + GC_add_roots_inner((char *)&data[1], + ((char *)&data[1]) + data[-1], FALSE); + } + } + } +#endif /* old version */ + + +# else + +# if (defined(SVR4) || defined(AUX) || defined(DGUX)) && !defined(PCR) +char * GC_SysVGetDataStart(max_page_size, etext_addr) +int max_page_size; +int * etext_addr; +{ + word text_end = ((word)(etext_addr) + sizeof(word) - 1) + & ~(sizeof(word) - 1); + /* etext rounded to word boundary */ + word next_page = ((text_end + (word)max_page_size - 1) + & ~((word)max_page_size - 1)); + word page_offset = (text_end & ((word)max_page_size - 1)); + VOLATILE char * result = (char *)(next_page + page_offset); + /* Note that this isnt equivalent to just adding */ + /* max_page_size to &etext if &etext is at a page boundary */ + + GC_setup_temporary_fault_handler(); + if (setjmp(GC_jmp_buf) == 0) { + /* Try writing to the address. */ + *result = *result; + GC_reset_fault_handler(); + } else { + GC_reset_fault_handler(); + /* We got here via a longjmp. The address is not readable. */ + /* This is known to happen under Solaris 2.4 + gcc, which place */ + /* string constants in the text segment, but after etext. */ + /* Use plan B. Note that we now know there is a gap between */ + /* text and data segments, so plan A bought us something. */ + result = (char *)GC_find_limit((ptr_t)(DATAEND) - MIN_PAGE_SIZE, FALSE); + } + return((char *)result); +} +# endif + + +void GC_register_data_segments() +{ +# if !defined(PCR) && !defined(SRC_M3) && !defined(NEXT) && !defined(MACOS) \ + && !defined(MACOSX) +# if defined(REDIRECT_MALLOC) && defined(SOLARIS_THREADS) + /* As of Solaris 2.3, the Solaris threads implementation */ + /* allocates the data structure for the initial thread with */ + /* sbrk at process startup. It needs to be scanned, so that */ + /* we don't lose some malloc allocated data structures */ + /* hanging from it. We're on thin ice here ... */ + extern caddr_t sbrk(); + + GC_add_roots_inner(DATASTART, (char *)sbrk(0), FALSE); +# else + GC_add_roots_inner(DATASTART, (char *)(DATAEND), FALSE); +# endif +# endif +# if !defined(PCR) && (defined(NEXT) || defined(MACOSX)) + GC_add_roots_inner(DATASTART, (char *) get_end(), FALSE); +# endif +# if defined(MACOS) + { +# if defined(THINK_C) + extern void* GC_MacGetDataStart(void); + /* globals begin above stack and end at a5. */ + GC_add_roots_inner((ptr_t)GC_MacGetDataStart(), + (ptr_t)LMGetCurrentA5(), FALSE); +# else +# if defined(__MWERKS__) +# if !__POWERPC__ + extern void* GC_MacGetDataStart(void); + /* MATTHEW: Function to handle Far Globals (CW Pro 3) */ +# if __option(far_data) + extern void* GC_MacGetDataEnd(void); +# endif + /* globals begin above stack and end at a5. */ + GC_add_roots_inner((ptr_t)GC_MacGetDataStart(), + (ptr_t)LMGetCurrentA5(), FALSE); + /* MATTHEW: Handle Far Globals */ +# if __option(far_data) + /* Far globals follow he QD globals: */ + GC_add_roots_inner((ptr_t)LMGetCurrentA5(), + (ptr_t)GC_MacGetDataEnd(), FALSE); +# endif +# else + extern char __data_start__[], __data_end__[]; + GC_add_roots_inner((ptr_t)&__data_start__, + (ptr_t)&__data_end__, FALSE); +# endif /* __POWERPC__ */ +# endif /* __MWERKS__ */ +# endif /* !THINK_C */ + } +# endif /* MACOS */ + + /* Dynamic libraries are added at every collection, since they may */ + /* change. */ +} + +# endif /* ! AMIGA */ +# endif /* ! MSWIN32 */ +# endif /* ! OS2 */ + +/* + * Auxiliary routines for obtaining memory from OS. + */ + +# if !defined(OS2) && !defined(PCR) && !defined(AMIGA) \ + && !defined(MSWIN32) && !defined(MACOS) && !defined(DOS4GW) + +# ifdef SUNOS4 + extern caddr_t sbrk(); +# endif +# ifdef __STDC__ +# define SBRK_ARG_T ptrdiff_t +# else +# define SBRK_ARG_T int +# endif + +# ifdef RS6000 +/* The compiler seems to generate speculative reads one past the end of */ +/* an allocated object. Hence we need to make sure that the page */ +/* following the last heap page is also mapped. */ +ptr_t GC_unix_get_mem(bytes) +word bytes; +{ + caddr_t cur_brk = (caddr_t)sbrk(0); + caddr_t result; + SBRK_ARG_T lsbs = (word)cur_brk & (GC_page_size-1); + static caddr_t my_brk_val = 0; + + if ((SBRK_ARG_T)bytes < 0) return(0); /* too big */ + if (lsbs != 0) { + if((caddr_t)(sbrk(GC_page_size - lsbs)) == (caddr_t)(-1)) return(0); + } + if (cur_brk == my_brk_val) { + /* Use the extra block we allocated last time. */ + result = (ptr_t)sbrk((SBRK_ARG_T)bytes); + if (result == (caddr_t)(-1)) return(0); + result -= GC_page_size; + } else { + result = (ptr_t)sbrk(GC_page_size + (SBRK_ARG_T)bytes); + if (result == (caddr_t)(-1)) return(0); + } + my_brk_val = result + bytes + GC_page_size; /* Always page aligned */ + return((ptr_t)result); +} + +#else /* Not RS6000 */ + +#if defined(USE_MMAP) +/* Tested only under IRIX5 and Solaris 2 */ + +#ifdef USE_MMAP_FIXED +# define GC_MMAP_FLAGS MAP_FIXED | MAP_PRIVATE + /* Seems to yield better performance on Solaris 2, but can */ + /* be unreliable if something is already mapped at the address. */ +#else +# define GC_MMAP_FLAGS MAP_PRIVATE +#endif + +ptr_t GC_unix_get_mem(bytes) +word bytes; +{ + static GC_bool initialized = FALSE; + static int fd; + void *result; + static ptr_t last_addr = HEAP_START; + + if (!initialized) { + fd = open("/dev/zero", O_RDONLY); + initialized = TRUE; + } + if (bytes & (GC_page_size -1)) ABORT("Bad GET_MEM arg"); + result = mmap(last_addr, bytes, PROT_READ | PROT_WRITE | OPT_PROT_EXEC, + GC_MMAP_FLAGS, fd, 0/* offset */); + if (result == MAP_FAILED) return(0); + last_addr = (ptr_t)result + bytes + GC_page_size - 1; + last_addr = (ptr_t)((word)last_addr & ~(GC_page_size - 1)); + return((ptr_t)result); +} + +#else /* Not RS6000, not USE_MMAP */ +ptr_t GC_unix_get_mem(bytes) +word bytes; +{ + ptr_t result; +# ifdef IRIX5 + /* Bare sbrk isn't thread safe. Play by malloc rules. */ + /* The equivalent may be needed on other systems as well. */ + __LOCK_MALLOC(); +# endif + { + ptr_t cur_brk = (ptr_t)sbrk(0); + SBRK_ARG_T lsbs = (word)cur_brk & (GC_page_size-1); + + if ((SBRK_ARG_T)bytes < 0) return(0); /* too big */ + if (lsbs != 0) { + if((ptr_t)sbrk(GC_page_size - lsbs) == (ptr_t)(-1)) return(0); + } + result = (ptr_t)sbrk((SBRK_ARG_T)bytes); + if (result == (ptr_t)(-1)) result = 0; + } +# ifdef IRIX5 + __UNLOCK_MALLOC(); +# endif + return(result); +} + +#endif /* Not USE_MMAP */ +#endif /* Not RS6000 */ + +# endif /* UN*X */ + +# ifdef OS2 + +void * os2_alloc(size_t bytes) +{ + void * result; + + if (DosAllocMem(&result, bytes, PAG_EXECUTE | PAG_READ | + PAG_WRITE | PAG_COMMIT) + != NO_ERROR) { + return(0); + } + if (result == 0) return(os2_alloc(bytes)); + return(result); +} + +# endif /* OS2 */ + + +# ifdef MSWIN32 +word GC_n_heap_bases = 0; + +ptr_t GC_win32_get_mem(bytes) +word bytes; +{ + ptr_t result; + + if (GC_win32s) { + /* VirtualAlloc doesn't like PAGE_EXECUTE_READWRITE. */ + /* There are also unconfirmed rumors of other */ + /* problems, so we dodge the issue. */ + result = (ptr_t) GlobalAlloc(0, bytes + HBLKSIZE); + result = (ptr_t)(((word)result + HBLKSIZE) & ~(HBLKSIZE-1)); + } else { + result = (ptr_t) VirtualAlloc(NULL, bytes, + MEM_COMMIT | MEM_RESERVE, + PAGE_EXECUTE_READWRITE); + } + if (HBLKDISPL(result) != 0) ABORT("Bad VirtualAlloc result"); + /* If I read the documentation correctly, this can */ + /* only happen if HBLKSIZE > 64k or not a power of 2. */ + if (GC_n_heap_bases >= MAX_HEAP_SECTS) ABORT("Too many heap sections"); + GC_heap_bases[GC_n_heap_bases++] = result; + return(result); +} + +void GC_win32_free_heap () +{ + if (GC_win32s) { + while (GC_n_heap_bases > 0) { + GlobalFree (GC_heap_bases[--GC_n_heap_bases]); + GC_heap_bases[GC_n_heap_bases] = 0; + } + } +} + + +# endif + +#ifdef USE_MUNMAP + +/* For now, this only works on some Unix-like systems. If you */ +/* have something else, don't define USE_MUNMAP. */ +/* We assume ANSI C to support this feature. */ +#include <unistd.h> +#include <sys/mman.h> +#include <sys/stat.h> +#include <sys/types.h> +#include <fcntl.h> + +/* Compute a page aligned starting address for the unmap */ +/* operation on a block of size bytes starting at start. */ +/* Return 0 if the block is too small to make this feasible. */ +ptr_t GC_unmap_start(ptr_t start, word bytes) +{ + ptr_t result = start; + /* Round start to next page boundary. */ + result += GC_page_size - 1; + result = (ptr_t)((word)result & ~(GC_page_size - 1)); + if (result + GC_page_size > start + bytes) return 0; + return result; +} + +/* Compute end address for an unmap operation on the indicated */ +/* block. */ +ptr_t GC_unmap_end(ptr_t start, word bytes) +{ + ptr_t end_addr = start + bytes; + end_addr = (ptr_t)((word)end_addr & ~(GC_page_size - 1)); + return end_addr; +} + +/* We assume that GC_remap is called on exactly the same range */ +/* as a previous call to GC_unmap. It is safe to consistently */ +/* round the endpoints in both places. */ +void GC_unmap(ptr_t start, word bytes) +{ + ptr_t start_addr = GC_unmap_start(start, bytes); + ptr_t end_addr = GC_unmap_end(start, bytes); + word len = end_addr - start_addr; + if (0 == start_addr) return; + if (munmap(start_addr, len) != 0) ABORT("munmap failed"); + GC_unmapped_bytes += len; +} + + +void GC_remap(ptr_t start, word bytes) +{ + static int zero_descr = -1; + ptr_t start_addr = GC_unmap_start(start, bytes); + ptr_t end_addr = GC_unmap_end(start, bytes); + word len = end_addr - start_addr; + ptr_t result; + + if (-1 == zero_descr) zero_descr = open("/dev/zero", O_RDWR); + if (0 == start_addr) return; + result = mmap(start_addr, len, PROT_READ | PROT_WRITE | OPT_PROT_EXEC, + MAP_FIXED | MAP_PRIVATE, zero_descr, 0); + if (result != start_addr) { + ABORT("mmap remapping failed"); + } + GC_unmapped_bytes -= len; +} + +/* Two adjacent blocks have already been unmapped and are about to */ +/* be merged. Unmap the whole block. This typically requires */ +/* that we unmap a small section in the middle that was not previously */ +/* unmapped due to alignment constraints. */ +void GC_unmap_gap(ptr_t start1, word bytes1, ptr_t start2, word bytes2) +{ + ptr_t start1_addr = GC_unmap_start(start1, bytes1); + ptr_t end1_addr = GC_unmap_end(start1, bytes1); + ptr_t start2_addr = GC_unmap_start(start2, bytes2); + ptr_t end2_addr = GC_unmap_end(start2, bytes2); + ptr_t start_addr = end1_addr; + ptr_t end_addr = start2_addr; + word len; + GC_ASSERT(start1 + bytes1 == start2); + if (0 == start1_addr) start_addr = GC_unmap_start(start1, bytes1 + bytes2); + if (0 == start2_addr) end_addr = GC_unmap_end(start1, bytes1 + bytes2); + if (0 == start_addr) return; + len = end_addr - start_addr; + if (len != 0 && munmap(start_addr, len) != 0) ABORT("munmap failed"); + GC_unmapped_bytes += len; +} + +#endif /* USE_MUNMAP */ + +/* Routine for pushing any additional roots. In THREADS */ +/* environment, this is also responsible for marking from */ +/* thread stacks. In the SRC_M3 case, it also handles */ +/* global variables. */ +#ifndef THREADS +void (*GC_push_other_roots)() = 0; +#else /* THREADS */ + +# ifdef PCR +PCR_ERes GC_push_thread_stack(PCR_Th_T *t, PCR_Any dummy) +{ + struct PCR_ThCtl_TInfoRep info; + PCR_ERes result; + + info.ti_stkLow = info.ti_stkHi = 0; + result = PCR_ThCtl_GetInfo(t, &info); + GC_push_all_stack((ptr_t)(info.ti_stkLow), (ptr_t)(info.ti_stkHi)); + return(result); +} + +/* Push the contents of an old object. We treat this as stack */ +/* data only becasue that makes it robust against mark stack */ +/* overflow. */ +PCR_ERes GC_push_old_obj(void *p, size_t size, PCR_Any data) +{ + GC_push_all_stack((ptr_t)p, (ptr_t)p + size); + return(PCR_ERes_okay); +} + + +void GC_default_push_other_roots() +{ + /* Traverse data allocated by previous memory managers. */ + { + extern struct PCR_MM_ProcsRep * GC_old_allocator; + + if ((*(GC_old_allocator->mmp_enumerate))(PCR_Bool_false, + GC_push_old_obj, 0) + != PCR_ERes_okay) { + ABORT("Old object enumeration failed"); + } + } + /* Traverse all thread stacks. */ + if (PCR_ERes_IsErr( + PCR_ThCtl_ApplyToAllOtherThreads(GC_push_thread_stack,0)) + || PCR_ERes_IsErr(GC_push_thread_stack(PCR_Th_CurrThread(), 0))) { + ABORT("Thread stack marking failed\n"); + } +} + +# endif /* PCR */ + +# ifdef SRC_M3 + +# ifdef ALL_INTERIOR_POINTERS + --> misconfigured +# endif + + +extern void ThreadF__ProcessStacks(); + +void GC_push_thread_stack(start, stop) +word start, stop; +{ + GC_push_all_stack((ptr_t)start, (ptr_t)stop + sizeof(word)); +} + +/* Push routine with M3 specific calling convention. */ +GC_m3_push_root(dummy1, p, dummy2, dummy3) +word *p; +ptr_t dummy1, dummy2; +int dummy3; +{ + word q = *p; + + if ((ptr_t)(q) >= GC_least_plausible_heap_addr + && (ptr_t)(q) < GC_greatest_plausible_heap_addr) { + GC_push_one_checked(q,FALSE); + } +} + +/* M3 set equivalent to RTHeap.TracedRefTypes */ +typedef struct { int elts[1]; } RefTypeSet; +RefTypeSet GC_TracedRefTypes = {{0x1}}; + +/* From finalize.c */ +extern void GC_push_finalizer_structures(); + +/* From stubborn.c: */ +# ifdef STUBBORN_ALLOC + extern GC_PTR * GC_changing_list_start; +# endif + + +void GC_default_push_other_roots() +{ + /* Use the M3 provided routine for finding static roots. */ + /* This is a bit dubious, since it presumes no C roots. */ + /* We handle the collector roots explicitly. */ + { +# ifdef STUBBORN_ALLOC + GC_push_one(GC_changing_list_start); +# endif + GC_push_finalizer_structures(); + RTMain__GlobalMapProc(GC_m3_push_root, 0, GC_TracedRefTypes); + } + if (GC_words_allocd > 0) { + ThreadF__ProcessStacks(GC_push_thread_stack); + } + /* Otherwise this isn't absolutely necessary, and we have */ + /* startup ordering problems. */ +} + +# endif /* SRC_M3 */ + +# if defined(SOLARIS_THREADS) || defined(WIN32_THREADS) \ + || defined(IRIX_THREADS) || defined(LINUX_THREADS) \ + || defined(IRIX_PCR_THREADS) + +extern void GC_push_all_stacks(); + +void GC_default_push_other_roots() +{ + GC_push_all_stacks(); +} + +# endif /* SOLARIS_THREADS || ... */ + +void (*GC_push_other_roots)() = GC_default_push_other_roots; + +#endif + +/* + * Routines for accessing dirty bits on virtual pages. + * We plan to eventaually implement four strategies for doing so: + * DEFAULT_VDB: A simple dummy implementation that treats every page + * as possibly dirty. This makes incremental collection + * useless, but the implementation is still correct. + * PCR_VDB: Use PPCRs virtual dirty bit facility. + * PROC_VDB: Use the /proc facility for reading dirty bits. Only + * works under some SVR4 variants. Even then, it may be + * too slow to be entirely satisfactory. Requires reading + * dirty bits for entire address space. Implementations tend + * to assume that the client is a (slow) debugger. + * MPROTECT_VDB:Protect pages and then catch the faults to keep track of + * dirtied pages. The implementation (and implementability) + * is highly system dependent. This usually fails when system + * calls write to a protected page. We prevent the read system + * call from doing so. It is the clients responsibility to + * make sure that other system calls are similarly protected + * or write only to the stack. + */ + +GC_bool GC_dirty_maintained = FALSE; + +# ifdef DEFAULT_VDB + +/* All of the following assume the allocation lock is held, and */ +/* signals are disabled. */ + +/* The client asserts that unallocated pages in the heap are never */ +/* written. */ + +/* Initialize virtual dirty bit implementation. */ +void GC_dirty_init() +{ + GC_dirty_maintained = TRUE; +} + +/* Retrieve system dirty bits for heap to a local buffer. */ +/* Restore the systems notion of which pages are dirty. */ +void GC_read_dirty() +{} + +/* Is the HBLKSIZE sized page at h marked dirty in the local buffer? */ +/* If the actual page size is different, this returns TRUE if any */ +/* of the pages overlapping h are dirty. This routine may err on the */ +/* side of labelling pages as dirty (and this implementation does). */ +/*ARGSUSED*/ +GC_bool GC_page_was_dirty(h) +struct hblk *h; +{ + return(TRUE); +} + +/* + * The following two routines are typically less crucial. They matter + * most with large dynamic libraries, or if we can't accurately identify + * stacks, e.g. under Solaris 2.X. Otherwise the following default + * versions are adequate. + */ + +/* Could any valid GC heap pointer ever have been written to this page? */ +/*ARGSUSED*/ +GC_bool GC_page_was_ever_dirty(h) +struct hblk *h; +{ + return(TRUE); +} + +/* Reset the n pages starting at h to "was never dirty" status. */ +void GC_is_fresh(h, n) +struct hblk *h; +word n; +{ +} + +/* A call hints that h is about to be written. */ +/* May speed up some dirty bit implementations. */ +/*ARGSUSED*/ +void GC_write_hint(h) +struct hblk *h; +{ +} + +# endif /* DEFAULT_VDB */ + + +# ifdef MPROTECT_VDB + +/* + * See DEFAULT_VDB for interface descriptions. + */ + +/* + * This implementation maintains dirty bits itself by catching write + * faults and keeping track of them. We assume nobody else catches + * SIGBUS or SIGSEGV. We assume no write faults occur in system calls + * except as a result of a read system call. This means clients must + * either ensure that system calls do not touch the heap, or must + * provide their own wrappers analogous to the one for read. + * We assume the page size is a multiple of HBLKSIZE. + * This implementation is currently SunOS 4.X and IRIX 5.X specific, though we + * tried to use portable code where easily possible. It is known + * not to work under a number of other systems. + */ + +# ifndef MSWIN32 + +# include <sys/mman.h> +# include <signal.h> +# include <sys/syscall.h> + +# define PROTECT(addr, len) \ + if (mprotect((caddr_t)(addr), (int)(len), \ + PROT_READ | OPT_PROT_EXEC) < 0) { \ + ABORT("mprotect failed"); \ + } +# define UNPROTECT(addr, len) \ + if (mprotect((caddr_t)(addr), (int)(len), \ + PROT_WRITE | PROT_READ | OPT_PROT_EXEC ) < 0) { \ + ABORT("un-mprotect failed"); \ + } + +# else + +# include <signal.h> + + static DWORD protect_junk; +# define PROTECT(addr, len) \ + if (!VirtualProtect((addr), (len), PAGE_EXECUTE_READ, \ + &protect_junk)) { \ + DWORD last_error = GetLastError(); \ + GC_printf1("Last error code: %lx\n", last_error); \ + ABORT("VirtualProtect failed"); \ + } +# define UNPROTECT(addr, len) \ + if (!VirtualProtect((addr), (len), PAGE_EXECUTE_READWRITE, \ + &protect_junk)) { \ + ABORT("un-VirtualProtect failed"); \ + } + +# endif + +#if defined(SUNOS4) || defined(FREEBSD) + typedef void (* SIG_PF)(); +#endif +#if defined(SUNOS5SIGS) || defined(OSF1) || defined(LINUX) + typedef void (* SIG_PF)(int); +#endif +#if defined(MSWIN32) + typedef LPTOP_LEVEL_EXCEPTION_FILTER SIG_PF; +# undef SIG_DFL +# define SIG_DFL (LPTOP_LEVEL_EXCEPTION_FILTER) (-1) +#endif + +#if defined(IRIX5) || defined(OSF1) + typedef void (* REAL_SIG_PF)(int, int, struct sigcontext *); +#endif +#if defined(SUNOS5SIGS) + typedef void (* REAL_SIG_PF)(int, struct siginfo *, void *); +#endif +#if defined(LINUX) +# include <linux/version.h> +# if (LINUX_VERSION_CODE >= 0x20100) && !defined(M68K) || defined(ALPHA) + typedef struct sigcontext s_c; +# else + typedef struct sigcontext_struct s_c; +# endif +# ifdef ALPHA + typedef void (* REAL_SIG_PF)(int, int, s_c *); + /* Retrieve fault address from sigcontext structure by decoding */ + /* instruction. */ + char * get_fault_addr(s_c *sc) { + unsigned instr; + word faultaddr; + + instr = *((unsigned *)(sc->sc_pc)); + faultaddr = sc->sc_regs[(instr >> 16) & 0x1f]; + faultaddr += (word) (((int)instr << 16) >> 16); + return (char *)faultaddr; + } +# else /* !ALPHA */ + typedef void (* REAL_SIG_PF)(int, s_c); +# endif /* !ALPHA */ +# endif + +SIG_PF GC_old_bus_handler; +SIG_PF GC_old_segv_handler; /* Also old MSWIN32 ACCESS_VIOLATION filter */ + +/*ARGSUSED*/ +# if defined (SUNOS4) || defined(FREEBSD) + void GC_write_fault_handler(sig, code, scp, addr) + int sig, code; + struct sigcontext *scp; + char * addr; +# ifdef SUNOS4 +# define SIG_OK (sig == SIGSEGV || sig == SIGBUS) +# define CODE_OK (FC_CODE(code) == FC_PROT \ + || (FC_CODE(code) == FC_OBJERR \ + && FC_ERRNO(code) == FC_PROT)) +# endif +# ifdef FREEBSD +# define SIG_OK (sig == SIGBUS) +# define CODE_OK (code == BUS_PAGE_FAULT) +# endif +# endif +# if defined(IRIX5) || defined(OSF1) +# include <errno.h> + void GC_write_fault_handler(int sig, int code, struct sigcontext *scp) +# define SIG_OK (sig == SIGSEGV) +# ifdef OSF1 +# define CODE_OK (code == 2 /* experimentally determined */) +# endif +# ifdef IRIX5 +# define CODE_OK (code == EACCES) +# endif +# endif +# if defined(LINUX) +# ifdef ALPHA + void GC_write_fault_handler(int sig, int code, s_c * sc) +# else + void GC_write_fault_handler(int sig, s_c sc) +# endif +# define SIG_OK (sig == SIGSEGV) +# define CODE_OK TRUE + /* Empirically c.trapno == 14, but is that useful? */ + /* We assume Intel architecture, so alignment */ + /* faults are not possible. */ +# endif +# if defined(SUNOS5SIGS) + void GC_write_fault_handler(int sig, struct siginfo *scp, void * context) +# define SIG_OK (sig == SIGSEGV) +# define CODE_OK (scp -> si_code == SEGV_ACCERR) +# endif +# if defined(MSWIN32) + LONG WINAPI GC_write_fault_handler(struct _EXCEPTION_POINTERS *exc_info) +# define SIG_OK (exc_info -> ExceptionRecord -> ExceptionCode == \ + EXCEPTION_ACCESS_VIOLATION) +# define CODE_OK (exc_info -> ExceptionRecord -> ExceptionInformation[0] == 1) + /* Write fault */ +# endif +{ + register unsigned i; +# ifdef IRIX5 + char * addr = (char *) (size_t) (scp -> sc_badvaddr); +# endif +# if defined(OSF1) && defined(ALPHA) + char * addr = (char *) (scp -> sc_traparg_a0); +# endif +# ifdef SUNOS5SIGS + char * addr = (char *) (scp -> si_addr); +# endif +# ifdef LINUX +# ifdef I386 + char * addr = (char *) (sc.cr2); +# else +# if defined(M68K) + char * addr = NULL; + + struct sigcontext *scp = (struct sigcontext *)(&sc); + + int format = (scp->sc_formatvec >> 12) & 0xf; + unsigned long *framedata = (unsigned long *)(scp + 1); + unsigned long ea; + + if (format == 0xa || format == 0xb) { + /* 68020/030 */ + ea = framedata[2]; + } else if (format == 7) { + /* 68040 */ + ea = framedata[3]; + } else if (format == 4) { + /* 68060 */ + ea = framedata[0]; + if (framedata[1] & 0x08000000) { + /* correct addr on misaligned access */ + ea = (ea+4095)&(~4095); + } + } + addr = (char *)ea; +# else +# ifdef ALPHA + char * addr = get_fault_addr(sc); +# else + --> architecture not supported +# endif +# endif +# endif +# endif +# if defined(MSWIN32) + char * addr = (char *) (exc_info -> ExceptionRecord + -> ExceptionInformation[1]); +# define sig SIGSEGV +# endif + + if (SIG_OK && CODE_OK) { + register struct hblk * h = + (struct hblk *)((word)addr & ~(GC_page_size-1)); + GC_bool in_allocd_block; + +# ifdef SUNOS5SIGS + /* Address is only within the correct physical page. */ + in_allocd_block = FALSE; + for (i = 0; i < divHBLKSZ(GC_page_size); i++) { + if (HDR(h+i) != 0) { + in_allocd_block = TRUE; + } + } +# else + in_allocd_block = (HDR(addr) != 0); +# endif + if (!in_allocd_block) { + /* Heap blocks now begin and end on page boundaries */ + SIG_PF old_handler; + + if (sig == SIGSEGV) { + old_handler = GC_old_segv_handler; + } else { + old_handler = GC_old_bus_handler; + } + if (old_handler == SIG_DFL) { +# ifndef MSWIN32 + GC_err_printf1("Segfault at 0x%lx\n", addr); + ABORT("Unexpected bus error or segmentation fault"); +# else + return(EXCEPTION_CONTINUE_SEARCH); +# endif + } else { +# if defined (SUNOS4) || defined(FREEBSD) + (*old_handler) (sig, code, scp, addr); + return; +# endif +# if defined (SUNOS5SIGS) + (*(REAL_SIG_PF)old_handler) (sig, scp, context); + return; +# endif +# if defined (LINUX) +# ifdef ALPHA + (*(REAL_SIG_PF)old_handler) (sig, code, sc); +# else + (*(REAL_SIG_PF)old_handler) (sig, sc); +# endif + return; +# endif +# if defined (IRIX5) || defined(OSF1) + (*(REAL_SIG_PF)old_handler) (sig, code, scp); + return; +# endif +# ifdef MSWIN32 + return((*old_handler)(exc_info)); +# endif + } + } + for (i = 0; i < divHBLKSZ(GC_page_size); i++) { + register int index = PHT_HASH(h+i); + + set_pht_entry_from_index(GC_dirty_pages, index); + } + UNPROTECT(h, GC_page_size); +# if defined(OSF1) || defined(LINUX) + /* These reset the signal handler each time by default. */ + signal(SIGSEGV, (SIG_PF) GC_write_fault_handler); +# endif + /* The write may not take place before dirty bits are read. */ + /* But then we'll fault again ... */ +# ifdef MSWIN32 + return(EXCEPTION_CONTINUE_EXECUTION); +# else + return; +# endif + } +#ifdef MSWIN32 + return EXCEPTION_CONTINUE_SEARCH; +#else + GC_err_printf1("Segfault at 0x%lx\n", addr); + ABORT("Unexpected bus error or segmentation fault"); +#endif +} + +/* + * We hold the allocation lock. We expect block h to be written + * shortly. + */ +void GC_write_hint(h) +struct hblk *h; +{ + register struct hblk * h_trunc; + register unsigned i; + register GC_bool found_clean; + + if (!GC_dirty_maintained) return; + h_trunc = (struct hblk *)((word)h & ~(GC_page_size-1)); + found_clean = FALSE; + for (i = 0; i < divHBLKSZ(GC_page_size); i++) { + register int index = PHT_HASH(h_trunc+i); + + if (!get_pht_entry_from_index(GC_dirty_pages, index)) { + found_clean = TRUE; + set_pht_entry_from_index(GC_dirty_pages, index); + } + } + if (found_clean) { + UNPROTECT(h_trunc, GC_page_size); + } +} + +void GC_dirty_init() +{ +#if defined(SUNOS5SIGS) || defined(IRIX5) /* || defined(OSF1) */ + struct sigaction act, oldact; +# ifdef IRIX5 + act.sa_flags = SA_RESTART; + act.sa_handler = GC_write_fault_handler; +# else + act.sa_flags = SA_RESTART | SA_SIGINFO; + act.sa_sigaction = GC_write_fault_handler; +# endif + (void)sigemptyset(&act.sa_mask); +#endif +# ifdef PRINTSTATS + GC_printf0("Inititalizing mprotect virtual dirty bit implementation\n"); +# endif + GC_dirty_maintained = TRUE; + if (GC_page_size % HBLKSIZE != 0) { + GC_err_printf0("Page size not multiple of HBLKSIZE\n"); + ABORT("Page size not multiple of HBLKSIZE"); + } +# if defined(SUNOS4) || defined(FREEBSD) + GC_old_bus_handler = signal(SIGBUS, GC_write_fault_handler); + if (GC_old_bus_handler == SIG_IGN) { + GC_err_printf0("Previously ignored bus error!?"); + GC_old_bus_handler = SIG_DFL; + } + if (GC_old_bus_handler != SIG_DFL) { +# ifdef PRINTSTATS + GC_err_printf0("Replaced other SIGBUS handler\n"); +# endif + } +# endif +# if defined(OSF1) || defined(SUNOS4) || defined(LINUX) + GC_old_segv_handler = signal(SIGSEGV, (SIG_PF)GC_write_fault_handler); + if (GC_old_segv_handler == SIG_IGN) { + GC_err_printf0("Previously ignored segmentation violation!?"); + GC_old_segv_handler = SIG_DFL; + } + if (GC_old_segv_handler != SIG_DFL) { +# ifdef PRINTSTATS + GC_err_printf0("Replaced other SIGSEGV handler\n"); +# endif + } +# endif +# if defined(SUNOS5SIGS) || defined(IRIX5) +# if defined(IRIX_THREADS) || defined(IRIX_PCR_THREADS) + sigaction(SIGSEGV, 0, &oldact); + sigaction(SIGSEGV, &act, 0); +# else + sigaction(SIGSEGV, &act, &oldact); +# endif +# if defined(_sigargs) + /* This is Irix 5.x, not 6.x. Irix 5.x does not have */ + /* sa_sigaction. */ + GC_old_segv_handler = oldact.sa_handler; +# else /* Irix 6.x or SUNOS5SIGS */ + if (oldact.sa_flags & SA_SIGINFO) { + GC_old_segv_handler = (SIG_PF)(oldact.sa_sigaction); + } else { + GC_old_segv_handler = oldact.sa_handler; + } +# endif + if (GC_old_segv_handler == SIG_IGN) { + GC_err_printf0("Previously ignored segmentation violation!?"); + GC_old_segv_handler = SIG_DFL; + } + if (GC_old_segv_handler != SIG_DFL) { +# ifdef PRINTSTATS + GC_err_printf0("Replaced other SIGSEGV handler\n"); +# endif + } +# endif +# if defined(MSWIN32) + GC_old_segv_handler = SetUnhandledExceptionFilter(GC_write_fault_handler); + if (GC_old_segv_handler != NULL) { +# ifdef PRINTSTATS + GC_err_printf0("Replaced other UnhandledExceptionFilter\n"); +# endif + } else { + GC_old_segv_handler = SIG_DFL; + } +# endif +} + + + +void GC_protect_heap() +{ + ptr_t start; + word len; + unsigned i; + + for (i = 0; i < GC_n_heap_sects; i++) { + start = GC_heap_sects[i].hs_start; + len = GC_heap_sects[i].hs_bytes; + PROTECT(start, len); + } +} + +/* We assume that either the world is stopped or its OK to lose dirty */ +/* bits while this is happenning (as in GC_enable_incremental). */ +void GC_read_dirty() +{ + BCOPY((word *)GC_dirty_pages, GC_grungy_pages, + (sizeof GC_dirty_pages)); + BZERO((word *)GC_dirty_pages, (sizeof GC_dirty_pages)); + GC_protect_heap(); +} + +GC_bool GC_page_was_dirty(h) +struct hblk * h; +{ + register word index = PHT_HASH(h); + + return(HDR(h) == 0 || get_pht_entry_from_index(GC_grungy_pages, index)); +} + +/* + * Acquiring the allocation lock here is dangerous, since this + * can be called from within GC_call_with_alloc_lock, and the cord + * package does so. On systems that allow nested lock acquisition, this + * happens to work. + * On other systems, SET_LOCK_HOLDER and friends must be suitably defined. + */ + +void GC_begin_syscall() +{ + if (!I_HOLD_LOCK()) LOCK(); +} + +void GC_end_syscall() +{ + if (!I_HOLD_LOCK()) UNLOCK(); +} + +void GC_unprotect_range(addr, len) +ptr_t addr; +word len; +{ + struct hblk * start_block; + struct hblk * end_block; + register struct hblk *h; + ptr_t obj_start; + + if (!GC_incremental) return; + obj_start = GC_base(addr); + if (obj_start == 0) return; + if (GC_base(addr + len - 1) != obj_start) { + ABORT("GC_unprotect_range(range bigger than object)"); + } + start_block = (struct hblk *)((word)addr & ~(GC_page_size - 1)); + end_block = (struct hblk *)((word)(addr + len - 1) & ~(GC_page_size - 1)); + end_block += GC_page_size/HBLKSIZE - 1; + for (h = start_block; h <= end_block; h++) { + register word index = PHT_HASH(h); + + set_pht_entry_from_index(GC_dirty_pages, index); + } + UNPROTECT(start_block, + ((ptr_t)end_block - (ptr_t)start_block) + HBLKSIZE); +} + +#ifndef MSWIN32 +/* Replacement for UNIX system call. */ +/* Other calls that write to the heap */ +/* should be handled similarly. */ +# if defined(__STDC__) && !defined(SUNOS4) +# include <unistd.h> + ssize_t read(int fd, void *buf, size_t nbyte) +# else +# ifndef LINT + int read(fd, buf, nbyte) +# else + int GC_read(fd, buf, nbyte) +# endif + int fd; + char *buf; + int nbyte; +# endif +{ + int result; + + GC_begin_syscall(); + GC_unprotect_range(buf, (word)nbyte); +# ifdef IRIX5 + /* Indirect system call may not always be easily available. */ + /* We could call _read, but that would interfere with the */ + /* libpthread interception of read. */ + { + struct iovec iov; + + iov.iov_base = buf; + iov.iov_len = nbyte; + result = readv(fd, &iov, 1); + } +# else + result = syscall(SYS_read, fd, buf, nbyte); +# endif + GC_end_syscall(); + return(result); +} +#endif /* !MSWIN32 */ + +/*ARGSUSED*/ +GC_bool GC_page_was_ever_dirty(h) +struct hblk *h; +{ + return(TRUE); +} + +/* Reset the n pages starting at h to "was never dirty" status. */ +/*ARGSUSED*/ +void GC_is_fresh(h, n) +struct hblk *h; +word n; +{ +} + +# endif /* MPROTECT_VDB */ + +# ifdef PROC_VDB + +/* + * See DEFAULT_VDB for interface descriptions. + */ + +/* + * This implementaion assumes a Solaris 2.X like /proc pseudo-file-system + * from which we can read page modified bits. This facility is far from + * optimal (e.g. we would like to get the info for only some of the + * address space), but it avoids intercepting system calls. + */ + +#include <errno.h> +#include <sys/types.h> +#include <sys/signal.h> +#include <sys/fault.h> +#include <sys/syscall.h> +#include <sys/procfs.h> +#include <sys/stat.h> +#include <fcntl.h> + +#define INITIAL_BUF_SZ 4096 +word GC_proc_buf_size = INITIAL_BUF_SZ; +char *GC_proc_buf; + +#ifdef SOLARIS_THREADS +/* We don't have exact sp values for threads. So we count on */ +/* occasionally declaring stack pages to be fresh. Thus we */ +/* need a real implementation of GC_is_fresh. We can't clear */ +/* entries in GC_written_pages, since that would declare all */ +/* pages with the given hash address to be fresh. */ +# define MAX_FRESH_PAGES 8*1024 /* Must be power of 2 */ + struct hblk ** GC_fresh_pages; /* A direct mapped cache. */ + /* Collisions are dropped. */ + +# define FRESH_PAGE_SLOT(h) (divHBLKSZ((word)(h)) & (MAX_FRESH_PAGES-1)) +# define ADD_FRESH_PAGE(h) \ + GC_fresh_pages[FRESH_PAGE_SLOT(h)] = (h) +# define PAGE_IS_FRESH(h) \ + (GC_fresh_pages[FRESH_PAGE_SLOT(h)] == (h) && (h) != 0) +#endif + +/* Add all pages in pht2 to pht1 */ +void GC_or_pages(pht1, pht2) +page_hash_table pht1, pht2; +{ + register int i; + + for (i = 0; i < PHT_SIZE; i++) pht1[i] |= pht2[i]; +} + +int GC_proc_fd; + +void GC_dirty_init() +{ + int fd; + char buf[30]; + + GC_dirty_maintained = TRUE; + if (GC_words_allocd != 0 || GC_words_allocd_before_gc != 0) { + register int i; + + for (i = 0; i < PHT_SIZE; i++) GC_written_pages[i] = (word)(-1); +# ifdef PRINTSTATS + GC_printf1("Allocated words:%lu:all pages may have been written\n", + (unsigned long) + (GC_words_allocd + GC_words_allocd_before_gc)); +# endif + } + sprintf(buf, "/proc/%d", getpid()); + fd = open(buf, O_RDONLY); + if (fd < 0) { + ABORT("/proc open failed"); + } + GC_proc_fd = syscall(SYS_ioctl, fd, PIOCOPENPD, 0); + close(fd); + if (GC_proc_fd < 0) { + ABORT("/proc ioctl failed"); + } + GC_proc_buf = GC_scratch_alloc(GC_proc_buf_size); +# ifdef SOLARIS_THREADS + GC_fresh_pages = (struct hblk **) + GC_scratch_alloc(MAX_FRESH_PAGES * sizeof (struct hblk *)); + if (GC_fresh_pages == 0) { + GC_err_printf0("No space for fresh pages\n"); + EXIT(); + } + BZERO(GC_fresh_pages, MAX_FRESH_PAGES * sizeof (struct hblk *)); +# endif +} + +/* Ignore write hints. They don't help us here. */ +/*ARGSUSED*/ +void GC_write_hint(h) +struct hblk *h; +{ +} + +#ifdef SOLARIS_THREADS +# define READ(fd,buf,nbytes) syscall(SYS_read, fd, buf, nbytes) +#else +# define READ(fd,buf,nbytes) read(fd, buf, nbytes) +#endif + +void GC_read_dirty() +{ + unsigned long ps, np; + int nmaps; + ptr_t vaddr; + struct prasmap * map; + char * bufp; + ptr_t current_addr, limit; + int i; +int dummy; + + BZERO(GC_grungy_pages, (sizeof GC_grungy_pages)); + + bufp = GC_proc_buf; + if (READ(GC_proc_fd, bufp, GC_proc_buf_size) <= 0) { +# ifdef PRINTSTATS + GC_printf1("/proc read failed: GC_proc_buf_size = %lu\n", + GC_proc_buf_size); +# endif + { + /* Retry with larger buffer. */ + word new_size = 2 * GC_proc_buf_size; + char * new_buf = GC_scratch_alloc(new_size); + + if (new_buf != 0) { + GC_proc_buf = bufp = new_buf; + GC_proc_buf_size = new_size; + } + if (syscall(SYS_read, GC_proc_fd, bufp, GC_proc_buf_size) <= 0) { + WARN("Insufficient space for /proc read\n", 0); + /* Punt: */ + memset(GC_grungy_pages, 0xff, sizeof (page_hash_table)); + memset(GC_written_pages, 0xff, sizeof(page_hash_table)); +# ifdef SOLARIS_THREADS + BZERO(GC_fresh_pages, + MAX_FRESH_PAGES * sizeof (struct hblk *)); +# endif + return; + } + } + } + /* Copy dirty bits into GC_grungy_pages */ + nmaps = ((struct prpageheader *)bufp) -> pr_nmap; + /* printf( "nmaps = %d, PG_REFERENCED = %d, PG_MODIFIED = %d\n", + nmaps, PG_REFERENCED, PG_MODIFIED); */ + bufp = bufp + sizeof(struct prpageheader); + for (i = 0; i < nmaps; i++) { + map = (struct prasmap *)bufp; + vaddr = (ptr_t)(map -> pr_vaddr); + ps = map -> pr_pagesize; + np = map -> pr_npage; + /* printf("vaddr = 0x%X, ps = 0x%X, np = 0x%X\n", vaddr, ps, np); */ + limit = vaddr + ps * np; + bufp += sizeof (struct prasmap); + for (current_addr = vaddr; + current_addr < limit; current_addr += ps){ + if ((*bufp++) & PG_MODIFIED) { + register struct hblk * h = (struct hblk *) current_addr; + + while ((ptr_t)h < current_addr + ps) { + register word index = PHT_HASH(h); + + set_pht_entry_from_index(GC_grungy_pages, index); +# ifdef SOLARIS_THREADS + { + register int slot = FRESH_PAGE_SLOT(h); + + if (GC_fresh_pages[slot] == h) { + GC_fresh_pages[slot] = 0; + } + } +# endif + h++; + } + } + } + bufp += sizeof(long) - 1; + bufp = (char *)((unsigned long)bufp & ~(sizeof(long)-1)); + } + /* Update GC_written_pages. */ + GC_or_pages(GC_written_pages, GC_grungy_pages); +# ifdef SOLARIS_THREADS + /* Make sure that old stacks are considered completely clean */ + /* unless written again. */ + GC_old_stacks_are_fresh(); +# endif +} + +#undef READ + +GC_bool GC_page_was_dirty(h) +struct hblk *h; +{ + register word index = PHT_HASH(h); + register GC_bool result; + + result = get_pht_entry_from_index(GC_grungy_pages, index); +# ifdef SOLARIS_THREADS + if (result && PAGE_IS_FRESH(h)) result = FALSE; + /* This happens only if page was declared fresh since */ + /* the read_dirty call, e.g. because it's in an unused */ + /* thread stack. It's OK to treat it as clean, in */ + /* that case. And it's consistent with */ + /* GC_page_was_ever_dirty. */ +# endif + return(result); +} + +GC_bool GC_page_was_ever_dirty(h) +struct hblk *h; +{ + register word index = PHT_HASH(h); + register GC_bool result; + + result = get_pht_entry_from_index(GC_written_pages, index); +# ifdef SOLARIS_THREADS + if (result && PAGE_IS_FRESH(h)) result = FALSE; +# endif + return(result); +} + +/* Caller holds allocation lock. */ +void GC_is_fresh(h, n) +struct hblk *h; +word n; +{ + + register word index; + +# ifdef SOLARIS_THREADS + register word i; + + if (GC_fresh_pages != 0) { + for (i = 0; i < n; i++) { + ADD_FRESH_PAGE(h + i); + } + } +# endif +} + +# endif /* PROC_VDB */ + + +# ifdef PCR_VDB + +# include "vd/PCR_VD.h" + +# define NPAGES (32*1024) /* 128 MB */ + +PCR_VD_DB GC_grungy_bits[NPAGES]; + +ptr_t GC_vd_base; /* Address corresponding to GC_grungy_bits[0] */ + /* HBLKSIZE aligned. */ + +void GC_dirty_init() +{ + GC_dirty_maintained = TRUE; + /* For the time being, we assume the heap generally grows up */ + GC_vd_base = GC_heap_sects[0].hs_start; + if (GC_vd_base == 0) { + ABORT("Bad initial heap segment"); + } + if (PCR_VD_Start(HBLKSIZE, GC_vd_base, NPAGES*HBLKSIZE) + != PCR_ERes_okay) { + ABORT("dirty bit initialization failed"); + } +} + +void GC_read_dirty() +{ + /* lazily enable dirty bits on newly added heap sects */ + { + static int onhs = 0; + int nhs = GC_n_heap_sects; + for( ; onhs < nhs; onhs++ ) { + PCR_VD_WriteProtectEnable( + GC_heap_sects[onhs].hs_start, + GC_heap_sects[onhs].hs_bytes ); + } + } + + + if (PCR_VD_Clear(GC_vd_base, NPAGES*HBLKSIZE, GC_grungy_bits) + != PCR_ERes_okay) { + ABORT("dirty bit read failed"); + } +} + +GC_bool GC_page_was_dirty(h) +struct hblk *h; +{ + if((ptr_t)h < GC_vd_base || (ptr_t)h >= GC_vd_base + NPAGES*HBLKSIZE) { + return(TRUE); + } + return(GC_grungy_bits[h - (struct hblk *)GC_vd_base] & PCR_VD_DB_dirtyBit); +} + +/*ARGSUSED*/ +void GC_write_hint(h) +struct hblk *h; +{ + PCR_VD_WriteProtectDisable(h, HBLKSIZE); + PCR_VD_WriteProtectEnable(h, HBLKSIZE); +} + +# endif /* PCR_VDB */ + +/* + * Call stack save code for debugging. + * Should probably be in mach_dep.c, but that requires reorganization. + */ +#if defined(SPARC) && !defined(LINUX) +# if defined(SUNOS4) +# include <machine/frame.h> +# else +# if defined (DRSNX) +# include <sys/sparc/frame.h> +# else +# if defined(OPENBSD) +# include <frame.h> +# else +# include <sys/frame.h> +# endif +# endif +# endif +# if NARGS > 6 + --> We only know how to to get the first 6 arguments +# endif + +#ifdef SAVE_CALL_CHAIN +/* Fill in the pc and argument information for up to NFRAMES of my */ +/* callers. Ignore my frame and my callers frame. */ + +#ifdef OPENBSD +# define FR_SAVFP fr_fp +# define FR_SAVPC fr_pc +#else +# define FR_SAVFP fr_savfp +# define FR_SAVPC fr_savpc +#endif + +void GC_save_callers (info) +struct callinfo info[NFRAMES]; +{ + struct frame *frame; + struct frame *fp; + int nframes = 0; + word GC_save_regs_in_stack(); + + frame = (struct frame *) GC_save_regs_in_stack (); + + for (fp = frame -> FR_SAVFP; fp != 0 && nframes < NFRAMES; + fp = fp -> FR_SAVFP, nframes++) { + register int i; + + info[nframes].ci_pc = fp->FR_SAVPC; + for (i = 0; i < NARGS; i++) { + info[nframes].ci_arg[i] = ~(fp->fr_arg[i]); + } + } + if (nframes < NFRAMES) info[nframes].ci_pc = 0; +} + +#endif /* SAVE_CALL_CHAIN */ +#endif /* SPARC */ + + + diff --git a/gc/pc_excludes b/gc/pc_excludes new file mode 100644 index 0000000..52da431 --- /dev/null +++ b/gc/pc_excludes @@ -0,0 +1,15 @@ +solaris_threads.c +pcr_interface.c +real_malloc.c +mips_mach_dep.s +rs6000_mach_dep.s +alpha_mach_dep.s +sparc_mach_dep.s +PCR-Makefile +setjmp_t.c +callprocs +gc.man +pc_excludes +barrett_diagram +include/gc_c++.h +include/gc_inline.h
\ No newline at end of file diff --git a/gc/pcr_interface.c b/gc/pcr_interface.c new file mode 100644 index 0000000..4c95093 --- /dev/null +++ b/gc/pcr_interface.c @@ -0,0 +1,173 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 7, 1996 11:09 am PST */ +# include "gc_priv.h" + +# ifdef PCR +/* + * Note that POSIX PCR requires an ANSI C compiler. Hence we are allowed + * to make the same assumption here. + * We wrap all of the allocator functions to avoid questions of + * compatibility between the prototyped and nonprototyped versions of the f + */ +# include "config/PCR_StdTypes.h" +# include "mm/PCR_MM.h" +# include <errno.h> + +# define MY_MAGIC 17L +# define MY_DEBUGMAGIC 42L + +void * GC_AllocProc(size_t size, PCR_Bool ptrFree, PCR_Bool clear ) +{ + if (ptrFree) { + void * result = (void *)GC_malloc_atomic(size); + if (clear && result != 0) BZERO(result, size); + return(result); + } else { + return((void *)GC_malloc(size)); + } +} + +void * GC_DebugAllocProc(size_t size, PCR_Bool ptrFree, PCR_Bool clear ) +{ + if (ptrFree) { + void * result = (void *)GC_debug_malloc_atomic(size, __FILE__, + __LINE__); + if (clear && result != 0) BZERO(result, size); + return(result); + } else { + return((void *)GC_debug_malloc(size, __FILE__, __LINE__)); + } +} + +# define GC_ReallocProc GC_realloc +void * GC_DebugReallocProc(void * old_object, size_t new_size_in_bytes) +{ + return(GC_debug_realloc(old_object, new_size_in_bytes, __FILE__, __LINE__)); +} + +# define GC_FreeProc GC_free +# define GC_DebugFreeProc GC_debug_free + +typedef struct { + PCR_ERes (*ed_proc)(void *p, size_t size, PCR_Any data); + GC_bool ed_pointerfree; + PCR_ERes ed_fail_code; + PCR_Any ed_client_data; +} enumerate_data; + +void GC_enumerate_block(h, ed) +register struct hblk *h; +enumerate_data * ed; +{ + register hdr * hhdr; + register int sz; + word *p; + word * lim; + + hhdr = HDR(h); + sz = hhdr -> hb_sz; + if (sz >= 0 && ed -> ed_pointerfree + || sz <= 0 && !(ed -> ed_pointerfree)) return; + if (sz < 0) sz = -sz; + lim = (word *)(h+1) - sz; + p = (word *)h; + do { + if (PCR_ERes_IsErr(ed -> ed_fail_code)) return; + ed -> ed_fail_code = + (*(ed -> ed_proc))(p, WORDS_TO_BYTES(sz), ed -> ed_client_data); + p+= sz; + } while (p <= lim); +} + +struct PCR_MM_ProcsRep * GC_old_allocator = 0; + +PCR_ERes GC_EnumerateProc( + PCR_Bool ptrFree, + PCR_ERes (*proc)(void *p, size_t size, PCR_Any data), + PCR_Any data +) +{ + enumerate_data ed; + + ed.ed_proc = proc; + ed.ed_pointerfree = ptrFree; + ed.ed_fail_code = PCR_ERes_okay; + ed.ed_client_data = data; + GC_apply_to_all_blocks(GC_enumerate_block, &ed); + if (ed.ed_fail_code != PCR_ERes_okay) { + return(ed.ed_fail_code); + } else { + /* Also enumerate objects allocated by my predecessors */ + return((*(GC_old_allocator->mmp_enumerate))(ptrFree, proc, data)); + } +} + +void GC_DummyFreeProc(void *p) {} + +void GC_DummyShutdownProc(void) {} + +struct PCR_MM_ProcsRep GC_Rep = { + MY_MAGIC, + GC_AllocProc, + GC_ReallocProc, + GC_DummyFreeProc, /* mmp_free */ + GC_FreeProc, /* mmp_unsafeFree */ + GC_EnumerateProc, + GC_DummyShutdownProc /* mmp_shutdown */ +}; + +struct PCR_MM_ProcsRep GC_DebugRep = { + MY_DEBUGMAGIC, + GC_DebugAllocProc, + GC_DebugReallocProc, + GC_DummyFreeProc, /* mmp_free */ + GC_DebugFreeProc, /* mmp_unsafeFree */ + GC_EnumerateProc, + GC_DummyShutdownProc /* mmp_shutdown */ +}; + +GC_bool GC_use_debug = 0; + +void GC_pcr_install() +{ + PCR_MM_Install((GC_use_debug? &GC_DebugRep : &GC_Rep), &GC_old_allocator); +} + +PCR_ERes +PCR_GC_Setup(void) +{ + return PCR_ERes_okay; +} + +PCR_ERes +PCR_GC_Run(void) +{ + + if( !PCR_Base_TestPCRArg("-nogc") ) { + GC_quiet = ( PCR_Base_TestPCRArg("-gctrace") ? 0 : 1 ); + GC_use_debug = (GC_bool)PCR_Base_TestPCRArg("-debug_alloc"); + GC_init(); + if( !PCR_Base_TestPCRArg("-nogc_incremental") ) { + /* + * awful hack to test whether VD is implemented ... + */ + if( PCR_VD_Start( 0, NIL, 0) != PCR_ERes_FromErr(ENOSYS) ) { + GC_enable_incremental(); + } + } + } + return PCR_ERes_okay; +} + +# endif diff --git a/gc/ptr_chck.c b/gc/ptr_chck.c new file mode 100644 index 0000000..f3451ee --- /dev/null +++ b/gc/ptr_chck.c @@ -0,0 +1,326 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, September 19, 1995 1:26 pm PDT */ + +#include "gc_priv.h" +#include "gc_mark.h" + +#ifdef __STDC__ +void GC_default_same_obj_print_proc(GC_PTR p, GC_PTR q) +#else +void GC_default_same_obj_print_proc (p, q) +GC_PTR p, q; +#endif +{ + GC_err_printf2("0x%lx and 0x%lx are not in the same object\n", + (unsigned long)p, (unsigned long)q); + ABORT("GC_same_obj test failed"); +} + +void (*GC_same_obj_print_proc) GC_PROTO((GC_PTR, GC_PTR)) + = GC_default_same_obj_print_proc; + +/* Check that p and q point to the same object. Call */ +/* *GC_same_obj_print_proc if they don't. */ +/* Returns the first argument. (Return value may be hard */ +/* to use,due to typing issues. But if we had a suitable */ +/* preprocessor ...) */ +/* Succeeds if neither p nor q points to the heap. */ +/* We assume this is performance critical. (It shouldn't */ +/* be called by production code, but this can easily make */ +/* debugging intolerably slow.) */ +#ifdef __STDC__ + GC_PTR GC_same_obj(register void *p, register void *q) +#else + GC_PTR GC_same_obj(p, q) + register char *p, *q; +#endif +{ + register struct hblk *h; + register hdr *hhdr; + register ptr_t base, limit; + register word sz; + + if (!GC_is_initialized) GC_init(); + hhdr = HDR((word)p); + if (hhdr == 0) { + if (divHBLKSZ((word)p) != divHBLKSZ((word)q) + && HDR((word)q) != 0) { + goto fail; + } + return(p); + } + /* If it's a pointer to the middle of a large object, move it */ + /* to the beginning. */ + if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + h = HBLKPTR(p) - (word)hhdr; + hhdr = HDR(h); + while (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + h = FORWARDED_ADDR(h, hhdr); + hhdr = HDR(h); + } + limit = (ptr_t)((word *)h + HDR_WORDS + hhdr -> hb_sz); + if ((ptr_t)p >= limit || (ptr_t)q >= limit || (ptr_t)q < (ptr_t)h ) { + goto fail; + } + return(p); + } + sz = WORDS_TO_BYTES(hhdr -> hb_sz); + if (sz > WORDS_TO_BYTES(MAXOBJSZ)) { + base = (ptr_t)HBLKPTR(p); + limit = base + sz; + if ((ptr_t)p >= limit) { + goto fail; + } + } else { +# ifdef ALL_INTERIOR_POINTERS + register map_entry_type map_entry; + register int pdispl; + + pdispl = HBLKDISPL(p); + map_entry = MAP_ENTRY((hhdr -> hb_map), pdispl); + if (map_entry == OBJ_INVALID) { + goto fail; + } else { + base = (char *)((word)p & ~(WORDS_TO_BYTES(1) - 1)); + base -= WORDS_TO_BYTES(map_entry); + } +# else + register int offset = HBLKDISPL(p) - HDR_BYTES; + register word correction = offset % sz; + + if (HBLKPTR(p) != HBLKPTR(q)) { + /* The following computation otherwise fails in this case */ + goto fail; + } + base = (ptr_t)p - correction; +# endif + limit = base + sz; + } + /* [base, limit) delimits the object containing p, if any. */ + /* If p is not inside a valid object, then either q is */ + /* also outside any valid object, or it is outside */ + /* [base, limit). */ + if ((ptr_t)q >= limit || (ptr_t)q < base) { + goto fail; + } + return(p); +fail: + (*GC_same_obj_print_proc)((ptr_t)p, (ptr_t)q); + return(p); +} + +#ifdef __STDC__ +void GC_default_is_valid_displacement_print_proc (GC_PTR p) +#else +void GC_default_is_valid_displacement_print_proc (p) +GC_PTR p; +#endif +{ + GC_err_printf1("0x%lx does not point to valid object displacement\n", + (unsigned long)p); + ABORT("GC_is_valid_displacement test failed"); +} + +void (*GC_is_valid_displacement_print_proc) GC_PROTO((GC_PTR)) = + GC_default_is_valid_displacement_print_proc; + +/* Check that if p is a pointer to a heap page, then it points to */ +/* a valid displacement within a heap object. */ +/* Uninteresting with ALL_INTERIOR_POINTERS. */ +/* Always returns its argument. */ +/* Note that we don't lock, since nothing relevant about the header */ +/* should change while we have a valid object pointer to the block. */ +#ifdef __STDC__ + void * GC_is_valid_displacement(void *p) +#else + char *GC_is_valid_displacement(p) + char *p; +#endif +{ + register hdr *hhdr; + register word pdispl; + register struct hblk *h; + register map_entry_type map_entry; + register word sz; + + if (!GC_is_initialized) GC_init(); + hhdr = HDR((word)p); + if (hhdr == 0) return(p); + h = HBLKPTR(p); +# ifdef ALL_INTERIOR_POINTERS + while (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + h = FORWARDED_ADDR(h, hhdr); + hhdr = HDR(h); + } +# endif + if (IS_FORWARDING_ADDR_OR_NIL(hhdr)) { + goto fail; + } + sz = WORDS_TO_BYTES(hhdr -> hb_sz); + pdispl = HBLKDISPL(p); + map_entry = MAP_ENTRY((hhdr -> hb_map), pdispl); + if (map_entry == OBJ_INVALID + || sz > MAXOBJSZ && (ptr_t)p >= (ptr_t)h + sz) { + goto fail; + } + return(p); +fail: + (*GC_is_valid_displacement_print_proc)((ptr_t)p); + return(p); +} + +#ifdef __STDC__ +void GC_default_is_visible_print_proc(GC_PTR p) +#else +void GC_default_is_visible_print_proc(p) +GC_PTR p; +#endif +{ + GC_err_printf1("0x%lx is not a GC visible pointer location\n", + (unsigned long)p); + ABORT("GC_is_visible test failed"); +} + +void (*GC_is_visible_print_proc) GC_PROTO((GC_PTR p)) = + GC_default_is_visible_print_proc; + +/* Could p be a stack address? */ +GC_bool GC_on_stack(p) +ptr_t p; +{ +# ifdef THREADS + return(TRUE); +# else + int dummy; +# ifdef STACK_GROWS_DOWN + if ((ptr_t)p >= (ptr_t)(&dummy) && (ptr_t)p < GC_stackbottom ) { + return(TRUE); + } +# else + if ((ptr_t)p <= (ptr_t)(&dummy) && (ptr_t)p > GC_stackbottom ) { + return(TRUE); + } +# endif + return(FALSE); +# endif +} + +/* Check that p is visible */ +/* to the collector as a possibly pointer containing location. */ +/* If it isn't invoke *GC_is_visible_print_proc. */ +/* Returns the argument in all cases. May erroneously succeed */ +/* in hard cases. (This is intended for debugging use with */ +/* untyped allocations. The idea is that it should be possible, though */ +/* slow, to add such a call to all indirect pointer stores.) */ +/* Currently useless for multithreaded worlds. */ +#ifdef __STDC__ + void * GC_is_visible(void *p) +#else + char *GC_is_visible(p) + char *p; +#endif +{ + register hdr *hhdr; + + if ((word)p & (ALIGNMENT - 1)) goto fail; + if (!GC_is_initialized) GC_init(); +# ifdef THREADS + hhdr = HDR((word)p); + if (hhdr != 0 && GC_base(p) == 0) { + goto fail; + } else { + /* May be inside thread stack. We can't do much. */ + return(p); + } +# else + /* Check stack first: */ + if (GC_on_stack(p)) return(p); + hhdr = HDR((word)p); + if (hhdr == 0) { + GC_bool result; + + if (GC_is_static_root(p)) return(p); + /* Else do it again correctly: */ +# if (defined(DYNAMIC_LOADING) || defined(MSWIN32) || defined(PCR)) \ + && !defined(SRC_M3) + DISABLE_SIGNALS(); + GC_register_dynamic_libraries(); + result = GC_is_static_root(p); + ENABLE_SIGNALS(); + if (result) return(p); +# endif + goto fail; + } else { + /* p points to the heap. */ + word descr; + ptr_t base = GC_base(p); /* Should be manually inlined? */ + + if (base == 0) goto fail; + if (HBLKPTR(base) != HBLKPTR(p)) hhdr = HDR((word)p); + descr = hhdr -> hb_descr; + retry: + switch(descr & DS_TAGS) { + case DS_LENGTH: + if ((word)((ptr_t)p - (ptr_t)base) > (word)descr) goto fail; + break; + case DS_BITMAP: + if ((ptr_t)p - (ptr_t)base + >= WORDS_TO_BYTES(BITMAP_BITS) + || ((word)p & (sizeof(word) - 1))) goto fail; + if (!((1 << (WORDSZ - ((ptr_t)p - (ptr_t)base) - 1)) + & descr)) goto fail; + break; + case DS_PROC: + /* We could try to decipher this partially. */ + /* For now we just punt. */ + break; + case DS_PER_OBJECT: + descr = *(word *)((ptr_t)base + (descr & ~DS_TAGS)); + goto retry; + } + return(p); + } +# endif +fail: + (*GC_is_visible_print_proc)((ptr_t)p); + return(p); +} + + +GC_PTR GC_pre_incr (p, how_much) +GC_PTR *p; +size_t how_much; +{ + GC_PTR initial = *p; + GC_PTR result = GC_same_obj((GC_PTR)((word)initial + how_much), initial); + +# ifndef ALL_INTERIOR_POINTERS + (void) GC_is_valid_displacement(result); +# endif + return (*p = result); +} + +GC_PTR GC_post_incr (p, how_much) +GC_PTR *p; +size_t how_much; +{ + GC_PTR initial = *p; + GC_PTR result = GC_same_obj((GC_PTR)((word)initial + how_much), initial); + +# ifndef ALL_INTERIOR_POINTERS + (void) GC_is_valid_displacement(result); +# endif + *p = result; + return(initial); +} diff --git a/gc/real_malloc.c b/gc/real_malloc.c new file mode 100644 index 0000000..dece9fd --- /dev/null +++ b/gc/real_malloc.c @@ -0,0 +1,36 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, May 19, 1994 2:04 pm PDT */ + + +# ifdef PCR +/* + * This definition should go in its own file that includes no other + * header files. Otherwise, we risk not getting the underlying system + * malloc. + */ +# define PCR_NO_RENAME +# include <stdlib.h> + +# ifdef __STDC__ + char * real_malloc(size_t size) +# else + char * real_malloc() + int size; +# endif +{ + return((char *)malloc(size)); +} +#endif /* PCR */ + diff --git a/gc/reclaim.c b/gc/reclaim.c new file mode 100644 index 0000000..3085946 --- /dev/null +++ b/gc/reclaim.c @@ -0,0 +1,739 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, February 15, 1996 2:41 pm PST */ + +#include <stdio.h> +#include "gc_priv.h" + +signed_word GC_mem_found = 0; + /* Number of words of memory reclaimed */ + +static void report_leak(p, sz) +ptr_t p; +word sz; +{ + if (HDR(p) -> hb_obj_kind == PTRFREE) { + GC_err_printf0("Leaked atomic object at "); + } else { + GC_err_printf0("Leaked composite object at "); + } + if (GC_debugging_started && GC_has_debug_info(p)) { + GC_print_obj(p); + } else { + GC_err_printf2("0x%lx (appr. size = %ld)\n", + (unsigned long)p, + (unsigned long)WORDS_TO_BYTES(sz)); + } +} + +# define FOUND_FREE(hblk, word_no) \ + { \ + report_leak((ptr_t)hblk + WORDS_TO_BYTES(word_no), \ + HDR(hblk) -> hb_sz); \ + } + +/* + * reclaim phase + * + */ + + +/* + * Test whether a block is completely empty, i.e. contains no marked + * objects. This does not require the block to be in physical + * memory. + */ + +GC_bool GC_block_empty(hhdr) +register hdr * hhdr; +{ + register word *p = (word *)(&(hhdr -> hb_marks[0])); + register word * plim = + (word *)(&(hhdr -> hb_marks[MARK_BITS_SZ])); + while (p < plim) { + if (*p++) return(FALSE); + } + return(TRUE); +} + +# ifdef GATHERSTATS +# define INCR_WORDS(sz) n_words_found += (sz) +# else +# define INCR_WORDS(sz) +# endif +/* + * Restore unmarked small objects in h of size sz to the object + * free list. Returns the new list. + * Clears unmarked objects. + */ +/*ARGSUSED*/ +ptr_t GC_reclaim_clear(hbp, hhdr, sz, list) +register struct hblk *hbp; /* ptr to current heap block */ +register hdr * hhdr; +register ptr_t list; +register word sz; +{ + register int word_no; + register word *p, *q, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + + p = (word *)(hbp->hb_body); + word_no = HDR_WORDS; + plim = (word *)((((word)hbp) + HBLKSIZE) + - WORDS_TO_BYTES(sz)); + + /* go through all words in block */ + while( p <= plim ) { + if( mark_bit_from_hdr(hhdr, word_no) ) { + p += sz; + } else { + INCR_WORDS(sz); + /* object is available - put on list */ + obj_link(p) = list; + list = ((ptr_t)p); + /* Clear object, advance p to next object in the process */ + q = p + sz; + p++; /* Skip link field */ + while (p < q) { + *p++ = 0; + } + } + word_no += sz; + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +} + +#ifndef SMALL_CONFIG + +/* + * A special case for 2 word composite objects (e.g. cons cells): + */ +/*ARGSUSED*/ +ptr_t GC_reclaim_clear2(hbp, hhdr, list) +register struct hblk *hbp; /* ptr to current heap block */ +hdr * hhdr; +register ptr_t list; +{ + register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + register word mark_word; + register int i; +# define DO_OBJ(start_displ) \ + if (!(mark_word & ((word)1 << start_displ))) { \ + p[start_displ] = (word)list; \ + list = (ptr_t)(p+start_displ); \ + p[start_displ+1] = 0; \ + INCR_WORDS(2); \ + } + + p = (word *)(hbp->hb_body); + plim = (word *)(((word)hbp) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + for (i = 0; i < WORDSZ; i += 8) { + DO_OBJ(0); + DO_OBJ(2); + DO_OBJ(4); + DO_OBJ(6); + p += 8; + mark_word >>= 8; + } + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +# undef DO_OBJ +} + +/* + * Another special case for 4 word composite objects: + */ +/*ARGSUSED*/ +ptr_t GC_reclaim_clear4(hbp, hhdr, list) +register struct hblk *hbp; /* ptr to current heap block */ +hdr * hhdr; +register ptr_t list; +{ + register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + register word mark_word; +# define DO_OBJ(start_displ) \ + if (!(mark_word & ((word)1 << start_displ))) { \ + p[start_displ] = (word)list; \ + list = (ptr_t)(p+start_displ); \ + p[start_displ+1] = 0; \ + p[start_displ+2] = 0; \ + p[start_displ+3] = 0; \ + INCR_WORDS(4); \ + } + + p = (word *)(hbp->hb_body); + plim = (word *)(((word)hbp) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + DO_OBJ(0); + DO_OBJ(4); + DO_OBJ(8); + DO_OBJ(12); + DO_OBJ(16); + DO_OBJ(20); + DO_OBJ(24); + DO_OBJ(28); +# if CPP_WORDSZ == 64 + DO_OBJ(32); + DO_OBJ(36); + DO_OBJ(40); + DO_OBJ(44); + DO_OBJ(48); + DO_OBJ(52); + DO_OBJ(56); + DO_OBJ(60); +# endif + p += WORDSZ; + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +# undef DO_OBJ +} + +#endif /* !SMALL_CONFIG */ + +/* The same thing, but don't clear objects: */ +/*ARGSUSED*/ +ptr_t GC_reclaim_uninit(hbp, hhdr, sz, list) +register struct hblk *hbp; /* ptr to current heap block */ +register hdr * hhdr; +register ptr_t list; +register word sz; +{ + register int word_no; + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + + p = (word *)(hbp->hb_body); + word_no = HDR_WORDS; + plim = (word *)((((word)hbp) + HBLKSIZE) + - WORDS_TO_BYTES(sz)); + + /* go through all words in block */ + while( p <= plim ) { + if( !mark_bit_from_hdr(hhdr, word_no) ) { + INCR_WORDS(sz); + /* object is available - put on list */ + obj_link(p) = list; + list = ((ptr_t)p); + } + p += sz; + word_no += sz; + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +} + +/* Don't really reclaim objects, just check for unmarked ones: */ +/*ARGSUSED*/ +void GC_reclaim_check(hbp, hhdr, sz) +register struct hblk *hbp; /* ptr to current heap block */ +register hdr * hhdr; +register word sz; +{ + register int word_no; + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + + p = (word *)(hbp->hb_body); + word_no = HDR_WORDS; + plim = (word *)((((word)hbp) + HBLKSIZE) + - WORDS_TO_BYTES(sz)); + + /* go through all words in block */ + while( p <= plim ) { + if( !mark_bit_from_hdr(hhdr, word_no) ) { + FOUND_FREE(hbp, word_no); + } + p += sz; + word_no += sz; + } +} + +#ifndef SMALL_CONFIG +/* + * Another special case for 2 word atomic objects: + */ +/*ARGSUSED*/ +ptr_t GC_reclaim_uninit2(hbp, hhdr, list) +register struct hblk *hbp; /* ptr to current heap block */ +hdr * hhdr; +register ptr_t list; +{ + register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + register word mark_word; + register int i; +# define DO_OBJ(start_displ) \ + if (!(mark_word & ((word)1 << start_displ))) { \ + p[start_displ] = (word)list; \ + list = (ptr_t)(p+start_displ); \ + INCR_WORDS(2); \ + } + + p = (word *)(hbp->hb_body); + plim = (word *)(((word)hbp) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + for (i = 0; i < WORDSZ; i += 8) { + DO_OBJ(0); + DO_OBJ(2); + DO_OBJ(4); + DO_OBJ(6); + p += 8; + mark_word >>= 8; + } + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +# undef DO_OBJ +} + +/* + * Another special case for 4 word atomic objects: + */ +/*ARGSUSED*/ +ptr_t GC_reclaim_uninit4(hbp, hhdr, list) +register struct hblk *hbp; /* ptr to current heap block */ +hdr * hhdr; +register ptr_t list; +{ + register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + register word mark_word; +# define DO_OBJ(start_displ) \ + if (!(mark_word & ((word)1 << start_displ))) { \ + p[start_displ] = (word)list; \ + list = (ptr_t)(p+start_displ); \ + INCR_WORDS(4); \ + } + + p = (word *)(hbp->hb_body); + plim = (word *)(((word)hbp) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + DO_OBJ(0); + DO_OBJ(4); + DO_OBJ(8); + DO_OBJ(12); + DO_OBJ(16); + DO_OBJ(20); + DO_OBJ(24); + DO_OBJ(28); +# if CPP_WORDSZ == 64 + DO_OBJ(32); + DO_OBJ(36); + DO_OBJ(40); + DO_OBJ(44); + DO_OBJ(48); + DO_OBJ(52); + DO_OBJ(56); + DO_OBJ(60); +# endif + p += WORDSZ; + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +# undef DO_OBJ +} + +/* Finally the one word case, which never requires any clearing: */ +/*ARGSUSED*/ +ptr_t GC_reclaim1(hbp, hhdr, list) +register struct hblk *hbp; /* ptr to current heap block */ +hdr * hhdr; +register ptr_t list; +{ + register word * mark_word_addr = &(hhdr->hb_marks[divWORDSZ(HDR_WORDS)]); + register word *p, *plim; +# ifdef GATHERSTATS + register int n_words_found = 0; +# endif + register word mark_word; + register int i; +# define DO_OBJ(start_displ) \ + if (!(mark_word & ((word)1 << start_displ))) { \ + p[start_displ] = (word)list; \ + list = (ptr_t)(p+start_displ); \ + INCR_WORDS(1); \ + } + + p = (word *)(hbp->hb_body); + plim = (word *)(((word)hbp) + HBLKSIZE); + + /* go through all words in block */ + while( p < plim ) { + mark_word = *mark_word_addr++; + for (i = 0; i < WORDSZ; i += 4) { + DO_OBJ(0); + DO_OBJ(1); + DO_OBJ(2); + DO_OBJ(3); + p += 4; + mark_word >>= 4; + } + } +# ifdef GATHERSTATS + GC_mem_found += n_words_found; +# endif + return(list); +# undef DO_OBJ +} + +#endif /* !SMALL_CONFIG */ + +/* + * Restore unmarked small objects in the block pointed to by hbp + * to the appropriate object free list. + * If entirely empty blocks are to be completely deallocated, then + * caller should perform that check. + */ +void GC_reclaim_small_nonempty_block(hbp, report_if_found) +register struct hblk *hbp; /* ptr to current heap block */ +int report_if_found; /* Abort if a reclaimable object is found */ +{ + hdr * hhdr; + register word sz; /* size of objects in current block */ + register struct obj_kind * ok; + register ptr_t * flh; + register int kind; + + hhdr = HDR(hbp); + sz = hhdr -> hb_sz; + hhdr -> hb_last_reclaimed = (unsigned short) GC_gc_no; + kind = hhdr -> hb_obj_kind; + ok = &GC_obj_kinds[kind]; + flh = &(ok -> ok_freelist[sz]); + GC_write_hint(hbp); + + if (report_if_found) { + GC_reclaim_check(hbp, hhdr, sz); + } else if (ok -> ok_init) { + switch(sz) { +# ifndef SMALL_CONFIG + case 1: + *flh = GC_reclaim1(hbp, hhdr, *flh); + break; + case 2: + *flh = GC_reclaim_clear2(hbp, hhdr, *flh); + break; + case 4: + *flh = GC_reclaim_clear4(hbp, hhdr, *flh); + break; +# endif + default: + *flh = GC_reclaim_clear(hbp, hhdr, sz, *flh); + break; + } + } else { + switch(sz) { +# ifndef SMALL_CONFIG + case 1: + *flh = GC_reclaim1(hbp, hhdr, *flh); + break; + case 2: + *flh = GC_reclaim_uninit2(hbp, hhdr, *flh); + break; + case 4: + *flh = GC_reclaim_uninit4(hbp, hhdr, *flh); + break; +# endif + default: + *flh = GC_reclaim_uninit(hbp, hhdr, sz, *flh); + break; + } + } + if (IS_UNCOLLECTABLE(kind)) GC_set_hdr_marks(hhdr); +} + +/* + * Restore an unmarked large object or an entirely empty blocks of small objects + * to the heap block free list. + * Otherwise enqueue the block for later processing + * by GC_reclaim_small_nonempty_block. + * If report_if_found is TRUE, then process any block immediately, and + * simply report free objects; do not actually reclaim them. + */ +void GC_reclaim_block(hbp, report_if_found) +register struct hblk *hbp; /* ptr to current heap block */ +word report_if_found; /* Abort if a reclaimable object is found */ +{ + register hdr * hhdr; + register word sz; /* size of objects in current block */ + register struct obj_kind * ok; + struct hblk ** rlh; + + hhdr = HDR(hbp); + sz = hhdr -> hb_sz; + ok = &GC_obj_kinds[hhdr -> hb_obj_kind]; + + if( sz > MAXOBJSZ ) { /* 1 big object */ + if( !mark_bit_from_hdr(hhdr, HDR_WORDS) ) { + if (report_if_found) { + FOUND_FREE(hbp, HDR_WORDS); + } else { +# ifdef GATHERSTATS + GC_mem_found += sz; +# endif + GC_freehblk(hbp); + } + } + } else { + GC_bool empty = GC_block_empty(hhdr); + if (report_if_found) { + GC_reclaim_small_nonempty_block(hbp, (int)report_if_found); + } else if (empty) { +# ifdef GATHERSTATS + GC_mem_found += BYTES_TO_WORDS(HBLKSIZE); +# endif + GC_freehblk(hbp); + } else { + /* group of smaller objects, enqueue the real work */ + rlh = &(ok -> ok_reclaim_list[sz]); + hhdr -> hb_next = *rlh; + *rlh = hbp; + } + } +} + +#if !defined(NO_DEBUGGING) +/* Routines to gather and print heap block info */ +/* intended for debugging. Otherwise should be called */ +/* with lock. */ +static size_t number_of_blocks; +static size_t total_bytes; + +/* Number of set bits in a word. Not performance critical. */ +static int set_bits(n) +word n; +{ + register word m = n; + register int result = 0; + + while (m > 0) { + if (m & 1) result++; + m >>= 1; + } + return(result); +} + +/* Return the number of set mark bits in the given header */ +int GC_n_set_marks(hhdr) +hdr * hhdr; +{ + register int result = 0; + register int i; + + for (i = 0; i < MARK_BITS_SZ; i++) { + result += set_bits(hhdr -> hb_marks[i]); + } + return(result); +} + +/*ARGSUSED*/ +void GC_print_block_descr(h, dummy) +struct hblk *h; +word dummy; +{ + register hdr * hhdr = HDR(h); + register size_t bytes = WORDS_TO_BYTES(hhdr -> hb_sz); + + GC_printf3("(%lu:%lu,%lu)", (unsigned long)(hhdr -> hb_obj_kind), + (unsigned long)bytes, + (unsigned long)(GC_n_set_marks(hhdr))); + bytes += HDR_BYTES + HBLKSIZE-1; + bytes &= ~(HBLKSIZE-1); + total_bytes += bytes; + number_of_blocks++; +} + +void GC_print_block_list() +{ + GC_printf0("(kind(0=ptrfree,1=normal,2=unc.,3=stubborn):size_in_bytes, #_marks_set)\n"); + number_of_blocks = 0; + total_bytes = 0; + GC_apply_to_all_blocks(GC_print_block_descr, (word)0); + GC_printf2("\nblocks = %lu, bytes = %lu\n", + (unsigned long)number_of_blocks, + (unsigned long)total_bytes); +} + +#endif /* NO_DEBUGGING */ + +/* + * Perform GC_reclaim_block on the entire heap, after first clearing + * small object free lists (if we are not just looking for leaks). + */ +void GC_start_reclaim(report_if_found) +int report_if_found; /* Abort if a GC_reclaimable object is found */ +{ + int kind; + + /* Clear reclaim- and free-lists */ + for (kind = 0; kind < GC_n_kinds; kind++) { + register ptr_t *fop; + register ptr_t *lim; + register struct hblk ** rlp; + register struct hblk ** rlim; + register struct hblk ** rlist = GC_obj_kinds[kind].ok_reclaim_list; + + if (rlist == 0) continue; /* This kind not used. */ + if (!report_if_found) { + lim = &(GC_obj_kinds[kind].ok_freelist[MAXOBJSZ+1]); + for( fop = GC_obj_kinds[kind].ok_freelist; fop < lim; fop++ ) { + *fop = 0; + } + } /* otherwise free list objects are marked, */ + /* and its safe to leave them */ + rlim = rlist + MAXOBJSZ+1; + for( rlp = rlist; rlp < rlim; rlp++ ) { + *rlp = 0; + } + } + +# ifdef PRINTBLOCKS + GC_printf0("GC_reclaim: current block sizes:\n"); + GC_print_block_list(); +# endif + + /* Go through all heap blocks (in hblklist) and reclaim unmarked objects */ + /* or enqueue the block for later processing. */ + GC_apply_to_all_blocks(GC_reclaim_block, (word)report_if_found); + +} + +/* + * Sweep blocks of the indicated object size and kind until either the + * appropriate free list is nonempty, or there are no more blocks to + * sweep. + */ +void GC_continue_reclaim(sz, kind) +word sz; /* words */ +int kind; +{ + register hdr * hhdr; + register struct hblk * hbp; + register struct obj_kind * ok = &(GC_obj_kinds[kind]); + struct hblk ** rlh = ok -> ok_reclaim_list; + ptr_t *flh = &(ok -> ok_freelist[sz]); + + if (rlh == 0) return; /* No blocks of this kind. */ + rlh += sz; + while ((hbp = *rlh) != 0) { + hhdr = HDR(hbp); + *rlh = hhdr -> hb_next; + GC_reclaim_small_nonempty_block(hbp, FALSE); + if (*flh != 0) break; + } +} + +/* + * Reclaim all small blocks waiting to be reclaimed. + * Abort and return FALSE when/if (*stop_func)() returns TRUE. + * If this returns TRUE, then it's safe to restart the world + * with incorrectly cleared mark bits. + * If ignore_old is TRUE, then reclain only blocks that have been + * recently reclaimed, and discard the rest. + * Stop_func may be 0. + */ +GC_bool GC_reclaim_all(stop_func, ignore_old) +GC_stop_func stop_func; +GC_bool ignore_old; +{ + register word sz; + register int kind; + register hdr * hhdr; + register struct hblk * hbp; + register struct obj_kind * ok; + struct hblk ** rlp; + struct hblk ** rlh; +# ifdef PRINTTIMES + CLOCK_TYPE start_time; + CLOCK_TYPE done_time; + + GET_TIME(start_time); +# endif + + for (kind = 0; kind < GC_n_kinds; kind++) { + ok = &(GC_obj_kinds[kind]); + rlp = ok -> ok_reclaim_list; + if (rlp == 0) continue; + for (sz = 1; sz <= MAXOBJSZ; sz++) { + rlh = rlp + sz; + while ((hbp = *rlh) != 0) { + if (stop_func != (GC_stop_func)0 && (*stop_func)()) { + return(FALSE); + } + hhdr = HDR(hbp); + *rlh = hhdr -> hb_next; + if (!ignore_old || hhdr -> hb_last_reclaimed == GC_gc_no - 1) { + /* It's likely we'll need it this time, too */ + /* It's been touched recently, so this */ + /* shouldn't trigger paging. */ + GC_reclaim_small_nonempty_block(hbp, FALSE); + } + } + } + } +# ifdef PRINTTIMES + GET_TIME(done_time); + GC_printf1("Disposing of reclaim lists took %lu msecs\n", + MS_TIME_DIFF(done_time,start_time)); +# endif + return(TRUE); +} diff --git a/gc/rs6000_mach_dep.s b/gc/rs6000_mach_dep.s new file mode 100644 index 0000000..e0dbe80 --- /dev/null +++ b/gc/rs6000_mach_dep.s @@ -0,0 +1,105 @@ + .csect + .set r0,0 + .set r1,1 + .set r2,2 + .set r3,3 + .set r4,4 + .set r5,5 + .set r6,6 + .set r7,7 + .set r8,8 + .set r9,9 + .set r10,10 + .set r11,11 + .set r12,12 + .set r13,13 + .set r14,14 + .set r15,15 + .set r16,16 + .set r17,17 + .set r18,18 + .set r19,19 + .set r20,20 + .set r21,21 + .set r22,22 + .set r23,23 + .set r24,24 + .set r25,25 + .set r26,26 + .set r27,27 + .set r28,28 + .set r29,29 + .set r30,30 + .set r31,31 + + # Mark from machine registers that are saved by C compiler + .globl .GC_push_regs +.GC_push_regs: + .extern .GC_push_one + stu r1,-64(r1) # reserve stack frame + mflr r0 # save link register + st r0,0x48(r1) + oril r3,r2,0x0 # mark from r2 + bl .GC_push_one + cror 15,15,15 + oril r3,r13,0x0 # mark from r13-r31 + bl .GC_push_one + cror 15,15,15 + oril r3,r14,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r15,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r16,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r17,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r18,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r19,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r20,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r21,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r22,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r23,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r24,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r25,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r26,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r27,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r28,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r29,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r30,0x0 + bl .GC_push_one + cror 15,15,15 + oril r3,r31,0x0 + bl .GC_push_one + cror 15,15,15 + l r0,0x48(r1) + mtlr r0 + ai r1,r1,64 + br diff --git a/gc/setjmp_t.c b/gc/setjmp_t.c new file mode 100644 index 0000000..1c9253e --- /dev/null +++ b/gc/setjmp_t.c @@ -0,0 +1,115 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, September 21, 1995 5:39 pm PDT */ + +/* Check whether setjmp actually saves registers in jmp_buf. */ +/* If it doesn't, the generic mark_regs code won't work. */ +/* Compilers vary as to whether they will put x in a */ +/* (callee-save) register without -O. The code is */ +/* contrived such that any decent compiler should put x in */ +/* a callee-save register with -O. Thus it is is */ +/* recommended that this be run optimized. (If the machine */ +/* has no callee-save registers, then the generic code is */ +/* safe, but this will not be noticed by this piece of */ +/* code.) */ +#include <stdio.h> +#include <setjmp.h> +#include <string.h> +#include "gcconfig.h" + +#ifdef OS2 +/* GETPAGESIZE() is set to getpagesize() by default, but that */ +/* doesn't really exist, and the collector doesn't need it. */ +#define INCL_DOSFILEMGR +#define INCL_DOSMISC +#define INCL_DOSERRORS +#include <os2.h> + +int +getpagesize() +{ + ULONG result[1]; + + if (DosQuerySysInfo(QSV_PAGE_SIZE, QSV_PAGE_SIZE, + (void *)result, sizeof(ULONG)) != NO_ERROR) { + fprintf(stderr, "DosQuerySysInfo failed\n"); + result[0] = 4096; + } + return((int)(result[0])); +} +#endif + +struct {char a_a; char * a_b;} a; + +int * nested_sp() +{ + int dummy; + + return(&dummy); +} + +main() +{ + int dummy; + long ps = GETPAGESIZE(); + jmp_buf b; + register int x = (int)strlen("a"); /* 1, slightly disguised */ + static int y = 0; + + printf("This appears to be a %s running %s\n", MACH_TYPE, OS_TYPE); + if (nested_sp() < &dummy) { + printf("Stack appears to grow down, which is the default.\n"); + printf("A good guess for STACKBOTTOM on this machine is 0x%lx.\n", + ((unsigned long)(&dummy) + ps) & ~(ps-1)); + } else { + printf("Stack appears to grow up.\n"); + printf("Define STACK_GROWS_UP in gc_private.h\n"); + printf("A good guess for STACKBOTTOM on this machine is 0x%lx.\n", + ((unsigned long)(&dummy) + ps) & ~(ps-1)); + } + printf("Note that this may vary between machines of ostensibly\n"); + printf("the same architecture (e.g. Sun 3/50s and 3/80s).\n"); + printf("On many machines the value is not fixed.\n"); + printf("A good guess for ALIGNMENT on this machine is %ld.\n", + (unsigned long)(&(a.a_b))-(unsigned long)(&a)); + + /* Encourage the compiler to keep x in a callee-save register */ + x = 2*x-1; + printf(""); + x = 2*x-1; + setjmp(b); + if (y == 1) { + if (x == 2) { + printf("Generic mark_regs code probably wont work\n"); +# if defined(SPARC) || defined(RS6000) || defined(VAX) || defined(MIPS) || defined(M68K) || defined(I386) || defined(NS32K) || defined(RT) + printf("Assembly code supplied\n"); +# else + printf("Need assembly code\n"); +# endif + } else if (x == 1) { + printf("Generic mark_regs code may work\n"); + } else { + printf("Very strange setjmp implementation\n"); + } + } + y++; + x = 2; + if (y == 1) longjmp(b,1); + return(0); +} + +int g(x) +int x; +{ + return(x); +} diff --git a/gc/solaris_pthreads.c b/gc/solaris_pthreads.c new file mode 100644 index 0000000..eb0ce67 --- /dev/null +++ b/gc/solaris_pthreads.c @@ -0,0 +1,172 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* + * Support code for Solaris threads. Provides functionality we wish Sun + * had provided. Relies on some information we probably shouldn't rely on. + * Modified Peter C. for Solaris Posix Threads. + */ +/* Boehm, September 14, 1994 4:44 pm PDT */ +/* $Id: solaris_pthreads.c,v 1.1 2001/11/08 05:17:57 a-ito Exp $ */ + +# if defined(_SOLARIS_PTHREADS) +# include "gc_priv.h" +# include <pthread.h> +# include <thread.h> +# include <signal.h> +# include <fcntl.h> +# include <sys/types.h> +# include <sys/mman.h> +# include <sys/time.h> +# include <sys/resource.h> +# include <sys/stat.h> +# include <sys/syscall.h> +# include <sys/procfs.h> +# include <sys/lwp.h> +# include <sys/reg.h> +# define _CLASSIC_XOPEN_TYPES +# include <unistd.h> +# include <errno.h> +# include "solaris_threads.h" +# include <stdio.h> + +#undef pthread_join +#undef pthread_create + +pthread_cond_t GC_prom_join_cv; /* Broadcast when any thread terminates */ +pthread_cond_t GC_create_cv; /* Signalled when a new undetached */ + /* thread starts. */ + +extern GC_bool GC_multithreaded; + +/* We use the allocation lock to protect thread-related data structures. */ + +/* We stop the world using /proc primitives. This makes some */ +/* minimal assumptions about the threads implementation. */ +/* We don't play by the rules, since the rules make this */ +/* impossible (as of Solaris 2.3). Also note that as of */ +/* Solaris 2.3 the various thread and lwp suspension */ +/* primitives failed to stop threads by the time the request */ +/* is completed. */ + + + +int GC_pthread_join(pthread_t wait_for, void **status) +{ + return GC_thr_join((thread_t)wait_for, NULL, status); +} + + +int +GC_pthread_create(pthread_t *new_thread, + const pthread_attr_t *attr_in, + void * (*thread_execp)(void *), void *arg) +{ + int result; + GC_thread t; + pthread_t my_new_thread; + pthread_attr_t attr; + word my_flags = 0; + int flag; + void * stack; + size_t stack_size; + int n; + struct sched_param schedparam; + + (void)pthread_attr_getstacksize(attr_in, &stack_size); + (void)pthread_attr_getstackaddr(attr_in, &stack); + (void)pthread_attr_init(&attr); + + LOCK(); + if (!GC_thr_initialized) { + GC_thr_init(); + } + GC_multithreaded++; + + if (stack == 0) { + if (stack_size == 0) + stack_size = GC_min_stack_sz; + else + stack_size += thr_min_stack(); + + stack = (void *)GC_stack_alloc(&stack_size); + if (stack == 0) { + GC_multithreaded--; + UNLOCK(); + errno = ENOMEM; + return -1; + } + } else { + my_flags |= CLIENT_OWNS_STACK; + } + (void)pthread_attr_setstacksize(&attr, stack_size); + (void)pthread_attr_setstackaddr(&attr, stack); + (void)pthread_attr_getscope(attr_in, &n); + (void)pthread_attr_setscope(&attr, n); + (void)pthread_attr_getschedparam(attr_in, &schedparam); + (void)pthread_attr_setschedparam(&attr, &schedparam); + (void)pthread_attr_getschedpolicy(attr_in, &n); + (void)pthread_attr_setschedpolicy(&attr, n); + (void)pthread_attr_getinheritsched(attr_in, &n); + (void)pthread_attr_setinheritsched(&attr, n); + + (void)pthread_attr_getdetachstate(attr_in, &flag); + if (flag == PTHREAD_CREATE_DETACHED) { + my_flags |= DETACHED; + } + (void)pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE); + /* + * thr_create can call malloc(), which if redirected will + * attempt to acquire the allocation lock. + * Unlock here to prevent deadlock. + */ + + +#if 0 +#ifdef I386 + UNLOCK(); +#endif +#endif + result = + pthread_create(&my_new_thread, &attr, thread_execp, arg); +#if 0 +#ifdef I386 + LOCK(); +#endif +#endif + if (result == 0) { + t = GC_new_thread(my_new_thread); + t -> flags = my_flags; + if (!(my_flags & DETACHED)) cond_init(&(t->join_cv), USYNC_THREAD, 0); + t -> stack = stack; + t -> stack_size = stack_size; + if (new_thread != 0) *new_thread = my_new_thread; + pthread_cond_signal(&GC_create_cv); + } else { + if (!(my_flags & CLIENT_OWNS_STACK)) { + GC_stack_free(stack, stack_size); + } + GC_multithreaded--; + } + UNLOCK(); + pthread_attr_destroy(&attr); + return(result); +} + +# else + +#ifndef LINT + int GC_no_sunOS_pthreads; +#endif + +# endif /* SOLARIS_THREADS */ + diff --git a/gc/solaris_threads.c b/gc/solaris_threads.c new file mode 100644 index 0000000..65b2c65 --- /dev/null +++ b/gc/solaris_threads.c @@ -0,0 +1,940 @@ +/* + * Copyright (c) 1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* + * Support code for Solaris threads. Provides functionality we wish Sun + * had provided. Relies on some information we probably shouldn't rely on. + */ +/* Boehm, September 14, 1994 4:44 pm PDT */ + +# if defined(SOLARIS_THREADS) + +# include "gc_priv.h" +# include "solaris_threads.h" +# include <thread.h> +# include <synch.h> +# include <signal.h> +# include <fcntl.h> +# include <sys/types.h> +# include <sys/mman.h> +# include <sys/time.h> +# include <sys/resource.h> +# include <sys/stat.h> +# include <sys/syscall.h> +# include <sys/procfs.h> +# include <sys/lwp.h> +# include <sys/reg.h> +# define _CLASSIC_XOPEN_TYPES +# include <unistd.h> +# include <errno.h> + +/* + * This is the default size of the LWP arrays. If there are more LWPs + * than this when a stop-the-world GC happens, set_max_lwps will be + * called to cope. + * This must be higher than the number of LWPs at startup time. + * The threads library creates a thread early on, so the min. is 3 + */ +# define DEFAULT_MAX_LWPS 4 + +#undef thr_join +#undef thr_create +#undef thr_suspend +#undef thr_continue + +cond_t GC_prom_join_cv; /* Broadcast when any thread terminates */ +cond_t GC_create_cv; /* Signalled when a new undetached */ + /* thread starts. */ + + +#ifdef MMAP_STACKS +static int GC_zfd; +#endif /* MMAP_STACKS */ + +/* We use the allocation lock to protect thread-related data structures. */ + +/* We stop the world using /proc primitives. This makes some */ +/* minimal assumptions about the threads implementation. */ +/* We don't play by the rules, since the rules make this */ +/* impossible (as of Solaris 2.3). Also note that as of */ +/* Solaris 2.3 the various thread and lwp suspension */ +/* primitives failed to stop threads by the time the request */ +/* is completed. */ + + +static sigset_t old_mask; + +/* Sleep for n milliseconds, n < 1000 */ +void GC_msec_sleep(int n) +{ + struct timespec ts; + + ts.tv_sec = 0; + ts.tv_nsec = 1000000*n; + if (syscall(SYS_nanosleep, &ts, 0) < 0) { + ABORT("nanosleep failed"); + } +} +/* Turn off preemption; gross but effective. */ +/* Caller has allocation lock. */ +/* Actually this is not needed under Solaris 2.3 and */ +/* 2.4, but hopefully that'll change. */ +void preempt_off() +{ + sigset_t set; + + (void)sigfillset(&set); + sigdelset(&set, SIGABRT); + syscall(SYS_sigprocmask, SIG_SETMASK, &set, &old_mask); +} + +void preempt_on() +{ + syscall(SYS_sigprocmask, SIG_SETMASK, &old_mask, NULL); +} + +int GC_main_proc_fd = -1; + + +struct lwp_cache_entry { + lwpid_t lc_id; + int lc_descr; /* /proc file descriptor. */ +} GC_lwp_cache_default[DEFAULT_MAX_LWPS]; + +static int max_lwps = DEFAULT_MAX_LWPS; +static struct lwp_cache_entry *GC_lwp_cache = GC_lwp_cache_default; + +static prgregset_t GC_lwp_registers_default[DEFAULT_MAX_LWPS]; +static prgregset_t *GC_lwp_registers = GC_lwp_registers_default; + +/* Return a file descriptor for the /proc entry corresponding */ +/* to the given lwp. The file descriptor may be stale if the */ +/* lwp exited and a new one was forked. */ +static int open_lwp(lwpid_t id) +{ + int result; + static int next_victim = 0; + register int i; + + for (i = 0; i < max_lwps; i++) { + if (GC_lwp_cache[i].lc_id == id) return(GC_lwp_cache[i].lc_descr); + } + result = syscall(SYS_ioctl, GC_main_proc_fd, PIOCOPENLWP, &id); + /* + * If PIOCOPENLWP fails, try closing fds in the cache until it succeeds. + */ + if (result < 0 && errno == EMFILE) { + for (i = 0; i < max_lwps; i++) { + if (GC_lwp_cache[i].lc_id != 0) { + (void)syscall(SYS_close, GC_lwp_cache[i].lc_descr); + result = syscall(SYS_ioctl, GC_main_proc_fd, PIOCOPENLWP, &id); + if (result >= 0 || (result < 0 && errno != EMFILE)) + break; + } + } + } + if (result < 0) { + if (errno == EMFILE) { + ABORT("Too many open files"); + } + return(-1) /* exited? */; + } + if (GC_lwp_cache[next_victim].lc_id != 0) + (void)syscall(SYS_close, GC_lwp_cache[next_victim].lc_descr); + GC_lwp_cache[next_victim].lc_id = id; + GC_lwp_cache[next_victim].lc_descr = result; + if (++next_victim >= max_lwps) + next_victim = 0; + return(result); +} + +static void uncache_lwp(lwpid_t id) +{ + register int i; + + for (i = 0; i < max_lwps; i++) { + if (GC_lwp_cache[i].lc_id == id) { + (void)syscall(SYS_close, GC_lwp_cache[id].lc_descr); + GC_lwp_cache[i].lc_id = 0; + break; + } + } +} + /* Sequence of current lwp ids */ +static lwpid_t GC_current_ids_default[DEFAULT_MAX_LWPS + 1]; +static lwpid_t *GC_current_ids = GC_current_ids_default; + + /* Temporary used below (can be big if large number of LWPs) */ +static lwpid_t last_ids_default[DEFAULT_MAX_LWPS + 1]; +static lwpid_t *last_ids = last_ids_default; + + +#define ROUNDUP(n) WORDS_TO_BYTES(ROUNDED_UP_WORDS(n)) + +static void set_max_lwps(GC_word n) +{ + char *mem; + char *oldmem; + int required_bytes = ROUNDUP(n * sizeof(struct lwp_cache_entry)) + + ROUNDUP(n * sizeof(prgregset_t)) + + ROUNDUP((n + 1) * sizeof(lwpid_t)) + + ROUNDUP((n + 1) * sizeof(lwpid_t)); + + GC_expand_hp_inner(divHBLKSZ((word)required_bytes)); + oldmem = mem = GC_scratch_alloc(required_bytes); + if (0 == mem) ABORT("No space for lwp data structures"); + + /* + * We can either flush the old lwp cache or copy it over. Do the latter. + */ + memcpy(mem, GC_lwp_cache, max_lwps * sizeof(struct lwp_cache_entry)); + GC_lwp_cache = (struct lwp_cache_entry*)mem; + mem += ROUNDUP(n * sizeof(struct lwp_cache_entry)); + + BZERO(GC_lwp_registers, max_lwps * sizeof(GC_lwp_registers[0])); + GC_lwp_registers = (prgregset_t *)mem; + mem += ROUNDUP(n * sizeof(prgregset_t)); + + + GC_current_ids = (lwpid_t *)mem; + mem += ROUNDUP((n + 1) * sizeof(lwpid_t)); + + last_ids = (lwpid_t *)mem; + mem += ROUNDUP((n + 1)* sizeof(lwpid_t)); + + if (mem > oldmem + required_bytes) + ABORT("set_max_lwps buffer overflow"); + + max_lwps = n; +} + + +/* Stop all lwps in process. Assumes preemption is off. */ +/* Caller has allocation lock (and any other locks he may */ +/* need). */ +static void stop_all_lwps() +{ + int lwp_fd; + char buf[30]; + prstatus_t status; + register int i; + GC_bool changed; + lwpid_t me = _lwp_self(); + + if (GC_main_proc_fd == -1) { + sprintf(buf, "/proc/%d", getpid()); + GC_main_proc_fd = syscall(SYS_open, buf, O_RDONLY); + if (GC_main_proc_fd < 0) { + if (errno == EMFILE) + ABORT("/proc open failed: too many open files"); + GC_printf1("/proc open failed: errno %d", errno); + abort(); + } + } + BZERO(GC_lwp_registers, sizeof (prgregset_t) * max_lwps); + for (i = 0; i < max_lwps; i++) + last_ids[i] = 0; + for (;;) { + if (syscall(SYS_ioctl, GC_main_proc_fd, PIOCSTATUS, &status) < 0) + ABORT("Main PIOCSTATUS failed"); + if (status.pr_nlwp < 1) + ABORT("Invalid number of lwps returned by PIOCSTATUS"); + if (status.pr_nlwp >= max_lwps) { + set_max_lwps(status.pr_nlwp*2 + 10); + /* + * The data in the old GC_current_ids and + * GC_lwp_registers has been trashed. Cleaning out last_ids + * will make sure every LWP gets re-examined. + */ + for (i = 0; i < max_lwps; i++) + last_ids[i] = 0; + continue; + } + if (syscall(SYS_ioctl, GC_main_proc_fd, PIOCLWPIDS, GC_current_ids) < 0) + ABORT("PIOCLWPIDS failed"); + changed = FALSE; + for (i = 0; GC_current_ids[i] != 0 && i < max_lwps; i++) { + if (GC_current_ids[i] != last_ids[i]) { + changed = TRUE; + if (GC_current_ids[i] != me) { + /* PIOCSTOP doesn't work without a writable */ + /* descriptor. And that makes the process */ + /* undebuggable. */ + if (_lwp_suspend(GC_current_ids[i]) < 0) { + /* Could happen if the lwp exited */ + uncache_lwp(GC_current_ids[i]); + GC_current_ids[i] = me; /* ignore */ + } + } + } + } + /* + * In the unlikely event something does a fork between the + * PIOCSTATUS and the PIOCLWPIDS. + */ + if (i >= max_lwps) + continue; + /* All lwps in GC_current_ids != me have been suspended. Note */ + /* that _lwp_suspend is idempotent. */ + for (i = 0; GC_current_ids[i] != 0; i++) { + if (GC_current_ids[i] != last_ids[i]) { + if (GC_current_ids[i] != me) { + lwp_fd = open_lwp(GC_current_ids[i]); + if (lwp_fd == -1) + { + GC_current_ids[i] = me; + continue; + } + /* LWP should be stopped. Empirically it sometimes */ + /* isn't, and more frequently the PR_STOPPED flag */ + /* is not set. Wait for PR_STOPPED. */ + if (syscall(SYS_ioctl, lwp_fd, + PIOCSTATUS, &status) < 0) { + /* Possible if the descriptor was stale, or */ + /* we encountered the 2.3 _lwp_suspend bug. */ + uncache_lwp(GC_current_ids[i]); + GC_current_ids[i] = me; /* handle next time. */ + } else { + while (!(status.pr_flags & PR_STOPPED)) { + GC_msec_sleep(1); + if (syscall(SYS_ioctl, lwp_fd, + PIOCSTATUS, &status) < 0) { + ABORT("Repeated PIOCSTATUS failed"); + } + if (status.pr_flags & PR_STOPPED) break; + + GC_msec_sleep(20); + if (syscall(SYS_ioctl, lwp_fd, + PIOCSTATUS, &status) < 0) { + ABORT("Repeated PIOCSTATUS failed"); + } + } + if (status.pr_who != GC_current_ids[i]) { + /* can happen if thread was on death row */ + uncache_lwp(GC_current_ids[i]); + GC_current_ids[i] = me; /* handle next time. */ + continue; + } + /* Save registers where collector can */ + /* find them. */ + BCOPY(status.pr_reg, GC_lwp_registers[i], + sizeof (prgregset_t)); + } + } + } + } + if (!changed) break; + for (i = 0; i < max_lwps; i++) last_ids[i] = GC_current_ids[i]; + } +} + +/* Restart all lwps in process. Assumes preemption is off. */ +static void restart_all_lwps() +{ + int lwp_fd; + register int i; + GC_bool changed; + lwpid_t me = _lwp_self(); +# define PARANOID + + for (i = 0; GC_current_ids[i] != 0; i++) { +# ifdef PARANOID + if (GC_current_ids[i] != me) { + int lwp_fd = open_lwp(GC_current_ids[i]); + prstatus_t status; + + if (lwp_fd < 0) ABORT("open_lwp failed"); + if (syscall(SYS_ioctl, lwp_fd, + PIOCSTATUS, &status) < 0) { + ABORT("PIOCSTATUS failed in restart_all_lwps"); + } + if (memcmp(status.pr_reg, GC_lwp_registers[i], + sizeof (prgregset_t)) != 0) { + int j; + + for(j = 0; j < NGREG; j++) + { + GC_printf3("%i: %x -> %x\n", j, + GC_lwp_registers[i][j], + status.pr_reg[j]); + } + ABORT("Register contents changed"); + } + if (!status.pr_flags & PR_STOPPED) { + ABORT("lwp no longer stopped"); + } +#ifdef SPARC + { + gwindows_t windows; + if (syscall(SYS_ioctl, lwp_fd, + PIOCGWIN, &windows) < 0) { + ABORT("PIOCSTATUS failed in restart_all_lwps"); + } + if (windows.wbcnt > 0) ABORT("unsaved register windows"); + } +#endif + } +# endif /* PARANOID */ + if (GC_current_ids[i] == me) continue; + if (_lwp_continue(GC_current_ids[i]) < 0) { + ABORT("Failed to restart lwp"); + } + } + if (i >= max_lwps) ABORT("Too many lwps"); +} + +GC_bool GC_multithreaded = 0; + +void GC_stop_world() +{ + preempt_off(); + if (GC_multithreaded) + stop_all_lwps(); +} + +void GC_start_world() +{ + if (GC_multithreaded) + restart_all_lwps(); + preempt_on(); +} + +void GC_thr_init(void); + +GC_bool GC_thr_initialized = FALSE; + +size_t GC_min_stack_sz; + +size_t GC_page_sz; + +/* + * stack_head is stored at the top of free stacks + */ +struct stack_head { + struct stack_head *next; + ptr_t base; + thread_t owner; +}; + +# define N_FREE_LISTS 25 +struct stack_head *GC_stack_free_lists[N_FREE_LISTS] = { 0 }; + /* GC_stack_free_lists[i] is free list for stacks of */ + /* size GC_min_stack_sz*2**i. */ + /* Free lists are linked through stack_head stored */ /* at top of stack. */ + +/* Return a stack of size at least *stack_size. *stack_size is */ +/* replaced by the actual stack size. */ +/* Caller holds allocation lock. */ +ptr_t GC_stack_alloc(size_t * stack_size) +{ + register size_t requested_sz = *stack_size; + register size_t search_sz = GC_min_stack_sz; + register int index = 0; /* = log2(search_sz/GC_min_stack_sz) */ + register ptr_t base; + register struct stack_head *result; + + while (search_sz < requested_sz) { + search_sz *= 2; + index++; + } + if ((result = GC_stack_free_lists[index]) == 0 + && (result = GC_stack_free_lists[index+1]) != 0) { + /* Try next size up. */ + search_sz *= 2; index++; + } + if (result != 0) { + base = GC_stack_free_lists[index]->base; + GC_stack_free_lists[index] = GC_stack_free_lists[index]->next; + } else { +#ifdef MMAP_STACKS + base = (ptr_t)mmap(0, search_sz + GC_page_sz, + PROT_READ|PROT_WRITE, MAP_PRIVATE |MAP_NORESERVE, + GC_zfd, 0); + if (base == (ptr_t)-1) + { + *stack_size = 0; + return NULL; + } + + mprotect(base, GC_page_sz, PROT_NONE); + /* Should this use divHBLKSZ(search_sz + GC_page_sz) ? -- cf */ + GC_is_fresh((struct hblk *)base, divHBLKSZ(search_sz)); + base += GC_page_sz; + +#else + base = (ptr_t) GC_scratch_alloc(search_sz + 2*GC_page_sz); + if (base == NULL) + { + *stack_size = 0; + return NULL; + } + + base = (ptr_t)(((word)base + GC_page_sz) & ~(GC_page_sz - 1)); + /* Protect hottest page to detect overflow. */ +# ifdef SOLARIS23_MPROTECT_BUG_FIXED + mprotect(base, GC_page_sz, PROT_NONE); +# endif + GC_is_fresh((struct hblk *)base, divHBLKSZ(search_sz)); + + base += GC_page_sz; +#endif + } + *stack_size = search_sz; + return(base); +} + +/* Caller holds allocationlock. */ +void GC_stack_free(ptr_t stack, size_t size) +{ + register int index = 0; + register size_t search_sz = GC_min_stack_sz; + register struct stack_head *head; + +#ifdef MMAP_STACKS + /* Zero pointers */ + mmap(stack, size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_NORESERVE|MAP_FIXED, + GC_zfd, 0); +#endif + while (search_sz < size) { + search_sz *= 2; + index++; + } + if (search_sz != size) ABORT("Bad stack size"); + + head = (struct stack_head *)(stack + search_sz - sizeof(struct stack_head)); + head->next = GC_stack_free_lists[index]; + head->base = stack; + GC_stack_free_lists[index] = head; +} + +void GC_my_stack_limits(); + +/* Notify virtual dirty bit implementation that known empty parts of */ +/* stacks do not contain useful data. */ +/* Caller holds allocation lock. */ +void GC_old_stacks_are_fresh() +{ +/* No point in doing this for MMAP stacks - and pointers are zero'd out */ +/* by the mmap in GC_stack_free */ +#ifndef MMAP_STACKS + register int i; + register struct stack_head *s; + register ptr_t p; + register size_t sz; + register struct hblk * h; + int dummy; + + for (i = 0, sz= GC_min_stack_sz; i < N_FREE_LISTS; + i++, sz *= 2) { + for (s = GC_stack_free_lists[i]; s != 0; s = s->next) { + p = s->base; + h = (struct hblk *)(((word)p + HBLKSIZE-1) & ~(HBLKSIZE-1)); + if ((ptr_t)h == p) { + GC_is_fresh((struct hblk *)p, divHBLKSZ(sz)); + } else { + GC_is_fresh((struct hblk *)p, divHBLKSZ(sz) - 1); + BZERO(p, (ptr_t)h - p); + } + } + } +#endif /* MMAP_STACKS */ + GC_my_stack_limits(); +} + +/* The set of all known threads. We intercept thread creation and */ +/* joins. We never actually create detached threads. We allocate all */ +/* new thread stacks ourselves. These allow us to maintain this */ +/* data structure. */ + +# define THREAD_TABLE_SZ 128 /* Must be power of 2 */ +volatile GC_thread GC_threads[THREAD_TABLE_SZ]; + +/* Add a thread to GC_threads. We assume it wasn't already there. */ +/* Caller holds allocation lock. */ +GC_thread GC_new_thread(thread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + GC_thread result; + static struct GC_Thread_Rep first_thread; + static GC_bool first_thread_used = FALSE; + + if (!first_thread_used) { + result = &first_thread; + first_thread_used = TRUE; + /* Dont acquire allocation lock, since we may already hold it. */ + } else { + result = (struct GC_Thread_Rep *) + GC_generic_malloc_inner(sizeof(struct GC_Thread_Rep), NORMAL); + } + if (result == 0) return(0); + result -> id = id; + result -> next = GC_threads[hv]; + GC_threads[hv] = result; + /* result -> finished = 0; */ + (void) cond_init(&(result->join_cv), USYNC_THREAD, 0); + return(result); +} + +/* Delete a thread from GC_threads. We assume it is there. */ +/* (The code intentionally traps if it wasn't.) */ +/* Caller holds allocation lock. */ +void GC_delete_thread(thread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + register GC_thread prev = 0; + + while (p -> id != id) { + prev = p; + p = p -> next; + } + if (prev == 0) { + GC_threads[hv] = p -> next; + } else { + prev -> next = p -> next; + } +} + +/* Return the GC_thread correpsonding to a given thread_t. */ +/* Returns 0 if it's not there. */ +/* Caller holds allocation lock. */ +GC_thread GC_lookup_thread(thread_t id) +{ + int hv = ((word)id) % THREAD_TABLE_SZ; + register GC_thread p = GC_threads[hv]; + + while (p != 0 && p -> id != id) p = p -> next; + return(p); +} + +# define MAX_ORIG_STACK_SIZE (8 * 1024 * 1024) + +word GC_get_orig_stack_size() { + struct rlimit rl; + static int warned = 0; + int result; + + if (getrlimit(RLIMIT_STACK, &rl) != 0) ABORT("getrlimit failed"); + result = (word)rl.rlim_cur & ~(HBLKSIZE-1); + if (result > MAX_ORIG_STACK_SIZE) { + if (!warned) { + WARN("Large stack limit(%ld): only scanning 8 MB", result); + warned = 1; + } + result = MAX_ORIG_STACK_SIZE; + } + return result; +} + +/* Notify dirty bit implementation of unused parts of my stack. */ +/* Caller holds allocation lock. */ +void GC_my_stack_limits() +{ + int dummy; + register ptr_t hottest = (ptr_t)((word)(&dummy) & ~(HBLKSIZE-1)); + register GC_thread me = GC_lookup_thread(thr_self()); + register size_t stack_size = me -> stack_size; + register ptr_t stack; + + if (stack_size == 0) { + /* original thread */ + /* Empirically, what should be the stack page with lowest */ + /* address is actually inaccessible. */ + stack_size = GC_get_orig_stack_size() - GC_page_sz; + stack = GC_stackbottom - stack_size + GC_page_sz; + } else { + stack = me -> stack; + } + if (stack > hottest || stack + stack_size < hottest) { + ABORT("sp out of bounds"); + } + GC_is_fresh((struct hblk *)stack, divHBLKSZ(hottest - stack)); +} + + +/* We hold allocation lock. We assume the world is stopped. */ +void GC_push_all_stacks() +{ + register int i; + register GC_thread p; + register ptr_t sp = GC_approx_sp(); + register ptr_t bottom, top; + struct rlimit rl; + +# define PUSH(bottom,top) \ + if (GC_dirty_maintained) { \ + GC_push_dirty((bottom), (top), GC_page_was_ever_dirty, \ + GC_push_all_stack); \ + } else { \ + GC_push_all_stack((bottom), (top)); \ + } + GC_push_all_stack((ptr_t)GC_lwp_registers, + (ptr_t)GC_lwp_registers + + max_lwps * sizeof(GC_lwp_registers[0])); + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> stack_size != 0) { + bottom = p -> stack; + top = p -> stack + p -> stack_size; + } else { + /* The original stack. */ + bottom = GC_stackbottom - GC_get_orig_stack_size() + GC_page_sz; + top = GC_stackbottom; + } + if ((word)sp > (word)bottom && (word)sp < (word)top) bottom = sp; + PUSH(bottom, top); + } + } +} + + +int GC_is_thread_stack(ptr_t addr) +{ + register int i; + register GC_thread p; + register ptr_t bottom, top; + struct rlimit rl; + + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (p = GC_threads[i]; p != 0; p = p -> next) { + if (p -> stack_size != 0) { + if (p -> stack <= addr && + addr < p -> stack + p -> stack_size) + return 1; + } + } + } +} + +/* The only thread that ever really performs a thr_join. */ +void * GC_thr_daemon(void * dummy) +{ + void *status; + thread_t departed; + register GC_thread t; + register int i; + register int result; + + for(;;) { + start: + result = thr_join((thread_t)0, &departed, &status); + LOCK(); + if (result != 0) { + /* No more threads; wait for create. */ + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (t = GC_threads[i]; t != 0; t = t -> next) { + if (!(t -> flags & (DETACHED | FINISHED))) { + UNLOCK(); + goto start; /* Thread started just before we */ + /* acquired the lock. */ + } + } + } + cond_wait(&GC_create_cv, &GC_allocate_ml); + UNLOCK(); + } else { + t = GC_lookup_thread(departed); + GC_multithreaded--; + if (!(t -> flags & CLIENT_OWNS_STACK)) { + GC_stack_free(t -> stack, t -> stack_size); + } + if (t -> flags & DETACHED) { + GC_delete_thread(departed); + } else { + t -> status = status; + t -> flags |= FINISHED; + cond_signal(&(t -> join_cv)); + cond_broadcast(&GC_prom_join_cv); + } + UNLOCK(); + } + } +} + +/* We hold the allocation lock, or caller ensures that 2 instances */ +/* cannot be invoked concurrently. */ +void GC_thr_init(void) +{ + GC_thread t; + thread_t tid; + + if (GC_thr_initialized) + return; + GC_thr_initialized = TRUE; + GC_min_stack_sz = ((thr_min_stack() + 32*1024 + HBLKSIZE-1) + & ~(HBLKSIZE - 1)); + GC_page_sz = sysconf(_SC_PAGESIZE); +#ifdef MMAP_STACKS + GC_zfd = open("/dev/zero", O_RDONLY); + if (GC_zfd == -1) + ABORT("Can't open /dev/zero"); +#endif /* MMAP_STACKS */ + cond_init(&GC_prom_join_cv, USYNC_THREAD, 0); + cond_init(&GC_create_cv, USYNC_THREAD, 0); + /* Add the initial thread, so we can stop it. */ + t = GC_new_thread(thr_self()); + t -> stack_size = 0; + t -> flags = DETACHED | CLIENT_OWNS_STACK; + if (thr_create(0 /* stack */, 0 /* stack_size */, GC_thr_daemon, + 0 /* arg */, THR_DETACHED | THR_DAEMON, + &tid /* thread_id */) != 0) { + ABORT("Cant fork daemon"); + } + thr_setprio(tid, 126); +} + +/* We acquire the allocation lock to prevent races with */ +/* stopping/starting world. */ +/* This is no more correct than the underlying Solaris 2.X */ +/* implementation. Under 2.3 THIS IS BROKEN. */ +int GC_thr_suspend(thread_t target_thread) +{ + GC_thread t; + int result; + + LOCK(); + result = thr_suspend(target_thread); + if (result == 0) { + t = GC_lookup_thread(target_thread); + if (t == 0) ABORT("thread unknown to GC"); + t -> flags |= SUSPENDED; + } + UNLOCK(); + return(result); +} + +int GC_thr_continue(thread_t target_thread) +{ + GC_thread t; + int result; + + LOCK(); + result = thr_continue(target_thread); + if (result == 0) { + t = GC_lookup_thread(target_thread); + if (t == 0) ABORT("thread unknown to GC"); + t -> flags &= ~SUSPENDED; + } + UNLOCK(); + return(result); +} + +int GC_thr_join(thread_t wait_for, thread_t *departed, void **status) +{ + register GC_thread t; + int result = 0; + + LOCK(); + if (wait_for == 0) { + register int i; + register GC_bool thread_exists; + + for (;;) { + thread_exists = FALSE; + for (i = 0; i < THREAD_TABLE_SZ; i++) { + for (t = GC_threads[i]; t != 0; t = t -> next) { + if (!(t -> flags & DETACHED)) { + if (t -> flags & FINISHED) { + goto found; + } + thread_exists = TRUE; + } + } + } + if (!thread_exists) { + result = ESRCH; + goto out; + } + cond_wait(&GC_prom_join_cv, &GC_allocate_ml); + } + } else { + t = GC_lookup_thread(wait_for); + if (t == 0 || t -> flags & DETACHED) { + result = ESRCH; + goto out; + } + if (wait_for == thr_self()) { + result = EDEADLK; + goto out; + } + while (!(t -> flags & FINISHED)) { + cond_wait(&(t -> join_cv), &GC_allocate_ml); + } + + } + found: + if (status) *status = t -> status; + if (departed) *departed = t -> id; + cond_destroy(&(t -> join_cv)); + GC_delete_thread(t -> id); + out: + UNLOCK(); + return(result); +} + + +int +GC_thr_create(void *stack_base, size_t stack_size, + void *(*start_routine)(void *), void *arg, long flags, + thread_t *new_thread) +{ + int result; + GC_thread t; + thread_t my_new_thread; + word my_flags = 0; + void * stack = stack_base; + + LOCK(); + if (!GC_thr_initialized) + { + GC_thr_init(); + } + GC_multithreaded++; + if (stack == 0) { + if (stack_size == 0) stack_size = GC_min_stack_sz; + stack = (void *)GC_stack_alloc(&stack_size); + if (stack == 0) { + GC_multithreaded--; + UNLOCK(); + return(ENOMEM); + } + } else { + my_flags |= CLIENT_OWNS_STACK; + } + if (flags & THR_DETACHED) my_flags |= DETACHED; + if (flags & THR_SUSPENDED) my_flags |= SUSPENDED; + result = thr_create(stack, stack_size, start_routine, + arg, flags & ~THR_DETACHED, &my_new_thread); + if (result == 0) { + t = GC_new_thread(my_new_thread); + t -> flags = my_flags; + if (!(my_flags & DETACHED)) cond_init(&(t -> join_cv), USYNC_THREAD, 0); + t -> stack = stack; + t -> stack_size = stack_size; + if (new_thread != 0) *new_thread = my_new_thread; + cond_signal(&GC_create_cv); + } else { + GC_multithreaded--; + if (!(my_flags & CLIENT_OWNS_STACK)) { + GC_stack_free(stack, stack_size); + } + } + UNLOCK(); + return(result); +} + +# else /* SOLARIS_THREADS */ + +#ifndef LINT + int GC_no_sunOS_threads; +#endif +#endif diff --git a/gc/solaris_threads.h b/gc/solaris_threads.h new file mode 100644 index 0000000..b2cdb36 --- /dev/null +++ b/gc/solaris_threads.h @@ -0,0 +1,34 @@ +#ifdef SOLARIS_THREADS + +/* The set of all known threads. We intercept thread creation and */ +/* joins. We never actually create detached threads. We allocate all */ +/* new thread stacks ourselves. These allow us to maintain this */ +/* data structure. */ +/* Protected by GC_thr_lock. */ +/* Some of this should be declared volatile, but that's incosnsistent */ +/* with some library routine declarations. In particular, the */ +/* definition of cond_t doesn't mention volatile! */ + typedef struct GC_Thread_Rep { + struct GC_Thread_Rep * next; + thread_t id; + word flags; +# define FINISHED 1 /* Thread has exited. */ +# define DETACHED 2 /* Thread is intended to be detached. */ +# define CLIENT_OWNS_STACK 4 + /* Stack was supplied by client. */ +# define SUSPENDED 8 /* Currently suspended. */ + ptr_t stack; + size_t stack_size; + cond_t join_cv; + void * status; + } * GC_thread; + extern GC_thread GC_new_thread(thread_t id); + + extern GC_bool GC_thr_initialized; + extern volatile GC_thread GC_threads[]; + extern size_t GC_min_stack_sz; + extern size_t GC_page_sz; + extern void GC_thr_init(void); + +# endif /* SOLARIS_THREADS */ + diff --git a/gc/sparc_mach_dep.s b/gc/sparc_mach_dep.s new file mode 100644 index 0000000..9831c6c --- /dev/null +++ b/gc/sparc_mach_dep.s @@ -0,0 +1,38 @@ +! SPARCompiler 3.0 and later apparently no longer handles +! asm outside functions. So we need a separate .s file +! This is only set up for SunOS 5, not SunOS 4. +! Assumes this is called before the stack contents are +! examined. + + .seg "text" + .globl GC_save_regs_in_stack + .globl GC_push_regs +GC_save_regs_in_stack: +GC_push_regs: + ta 0x3 ! ST_FLUSH_WINDOWS + mov %sp,%o0 + retl + nop + + .globl GC_clear_stack_inner +GC_clear_stack_inner: + mov %sp,%o2 ! Save sp + add %sp,-8,%o3 ! p = sp-8 + clr %g1 ! [g0,g1] = 0 + add %o1,-0x60,%sp ! Move sp out of the way, + ! so that traps still work. + ! Includes some extra words + ! so we can be sloppy below. +loop: + std %g0,[%o3] ! *(long long *)p = 0 + cmp %o3,%o1 + bgu loop ! if (p > limit) goto loop + add %o3,-8,%o3 ! p -= 8 (delay slot) + retl + mov %o2,%sp ! Restore sp., delay slot + + + + + + diff --git a/gc/sparc_sunos4_mach_dep.s b/gc/sparc_sunos4_mach_dep.s new file mode 100644 index 0000000..4185807 --- /dev/null +++ b/gc/sparc_sunos4_mach_dep.s @@ -0,0 +1,38 @@ +! SPARCompiler 3.0 and later apparently no longer handles +! asm outside functions. So we need a separate .s file +! This is only set up for SunOS 4. +! Assumes this is called before the stack contents are +! examined. + + .seg "text" + .globl _GC_save_regs_in_stack + .globl _GC_push_regs +_GC_save_regs_in_stack: +_GC_push_regs: + ta 0x3 ! ST_FLUSH_WINDOWS + mov %sp,%o0 + retl + nop + + .globl _GC_clear_stack_inner +_GC_clear_stack_inner: + mov %sp,%o2 ! Save sp + add %sp,-8,%o3 ! p = sp-8 + clr %g1 ! [g0,g1] = 0 + add %o1,-0x60,%sp ! Move sp out of the way, + ! so that traps still work. + ! Includes some extra words + ! so we can be sloppy below. +loop: + std %g0,[%o3] ! *(long long *)p = 0 + cmp %o3,%o1 + bgu loop ! if (p > limit) goto loop + add %o3,-8,%o3 ! p -= 8 (delay slot) + retl + mov %o2,%sp ! Restore sp., delay slot + + + + + + diff --git a/gc/stubborn.c b/gc/stubborn.c new file mode 100644 index 0000000..bef7b98 --- /dev/null +++ b/gc/stubborn.c @@ -0,0 +1,317 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* Boehm, July 31, 1995 5:02 pm PDT */ + + +#include "gc_priv.h" + +# ifdef STUBBORN_ALLOC +/* Stubborn object (hard to change, nearly immutable) allocation. */ + +extern ptr_t GC_clear_stack(); /* in misc.c, behaves like identity */ + +#define GENERAL_MALLOC(lb,k) \ + (GC_PTR)GC_clear_stack(GC_generic_malloc((word)lb, k)) + +/* Data structure representing immutable objects that */ +/* are still being initialized. */ +/* This is a bit baroque in order to avoid acquiring */ +/* the lock twice for a typical allocation. */ + +GC_PTR * GC_changing_list_start; + +# ifdef THREADS + VOLATILE GC_PTR * VOLATILE GC_changing_list_current; +# else + GC_PTR * GC_changing_list_current; +# endif + /* Points at last added element. Also (ab)used for */ + /* synchronization. Updates and reads are assumed atomic. */ + +GC_PTR * GC_changing_list_limit; + /* Points at the last word of the buffer, which is always 0 */ + /* All entries in (GC_changing_list_current, */ + /* GC_changing_list_limit] are 0 */ + + +void GC_stubborn_init() +{ +# define INIT_SIZE 10 + + GC_changing_list_start = (GC_PTR *) + GC_generic_malloc_inner( + (word)(INIT_SIZE * sizeof(GC_PTR)), + PTRFREE); + BZERO(GC_changing_list_start, + INIT_SIZE * sizeof(GC_PTR)); + if (GC_changing_list_start == 0) { + GC_err_printf0("Insufficient space to start up\n"); + ABORT("GC_stubborn_init: put of space"); + } + GC_changing_list_current = GC_changing_list_start; + GC_changing_list_limit = GC_changing_list_start + INIT_SIZE - 1; + * GC_changing_list_limit = 0; +} + +/* Compact and possibly grow GC_uninit_list. The old copy is */ +/* left alone. Lock must be held. */ +/* When called GC_changing_list_current == GC_changing_list_limit */ +/* which is one past the current element. */ +/* When we finish GC_changing_list_current again points one past last */ +/* element. */ +/* Invariant while this is running: GC_changing_list_current */ +/* points at a word containing 0. */ +/* Returns FALSE on failure. */ +GC_bool GC_compact_changing_list() +{ + register GC_PTR *p, *q; + register word count = 0; + word old_size = (char **)GC_changing_list_limit + - (char **)GC_changing_list_start+1; + /* The casts are needed as a workaround for an Amiga bug */ + register word new_size = old_size; + GC_PTR * new_list; + + for (p = GC_changing_list_start; p < GC_changing_list_limit; p++) { + if (*p != 0) count++; + } + if (2 * count > old_size) new_size = 2 * count; + new_list = (GC_PTR *) + GC_generic_malloc_inner( + new_size * sizeof(GC_PTR), PTRFREE); + /* PTRFREE is a lie. But we don't want the collector to */ + /* consider these. We do want the list itself to be */ + /* collectable. */ + if (new_list == 0) return(FALSE); + BZERO(new_list, new_size * sizeof(GC_PTR)); + q = new_list; + for (p = GC_changing_list_start; p < GC_changing_list_limit; p++) { + if (*p != 0) *q++ = *p; + } + GC_changing_list_start = new_list; + GC_changing_list_limit = new_list + new_size - 1; + GC_changing_list_current = q; + return(TRUE); +} + +/* Add p to changing list. Clear p on failure. */ +# define ADD_CHANGING(p) \ + { \ + register struct hblk * h = HBLKPTR(p); \ + register word index = PHT_HASH(h); \ + \ + set_pht_entry_from_index(GC_changed_pages, index); \ + } \ + if (*GC_changing_list_current != 0 \ + && ++GC_changing_list_current == GC_changing_list_limit) { \ + if (!GC_compact_changing_list()) (p) = 0; \ + } \ + *GC_changing_list_current = p; + +void GC_change_stubborn(p) +GC_PTR p; +{ + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + ADD_CHANGING(p); + UNLOCK(); + ENABLE_SIGNALS(); +} + +void GC_end_stubborn_change(p) +GC_PTR p; +{ +# ifdef THREADS + register VOLATILE GC_PTR * my_current = GC_changing_list_current; +# else + register GC_PTR * my_current = GC_changing_list_current; +# endif + register GC_bool tried_quick; + DCL_LOCK_STATE; + + if (*my_current == p) { + /* Hopefully the normal case. */ + /* Compaction could not have been running when we started. */ + *my_current = 0; +# ifdef THREADS + if (my_current == GC_changing_list_current) { + /* Compaction can't have run in the interim. */ + /* We got away with the quick and dirty approach. */ + return; + } + tried_quick = TRUE; +# else + return; +# endif + } else { + tried_quick = FALSE; + } + DISABLE_SIGNALS(); + LOCK(); + my_current = GC_changing_list_current; + for (; my_current >= GC_changing_list_start; my_current--) { + if (*my_current == p) { + *my_current = 0; + UNLOCK(); + ENABLE_SIGNALS(); + return; + } + } + if (!tried_quick) { + GC_err_printf1("Bad arg to GC_end_stubborn_change: 0x%lx\n", + (unsigned long)p); + ABORT("Bad arg to GC_end_stubborn_change"); + } + UNLOCK(); + ENABLE_SIGNALS(); +} + +/* Allocate lb bytes of composite (pointerful) data */ +/* No pointer fields may be changed after a call to */ +/* GC_end_stubborn_change(p) where p is the value */ +/* returned by GC_malloc_stubborn. */ +# ifdef __STDC__ + GC_PTR GC_malloc_stubborn(size_t lb) +# else + GC_PTR GC_malloc_stubborn(lb) + size_t lb; +# endif +{ +register ptr_t op; +register ptr_t *opp; +register word lw; +ptr_t result; +DCL_LOCK_STATE; + + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_sobjfreelist[lw]); + FASTLOCK(); + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { + FASTUNLOCK(); + result = GC_generic_malloc((word)lb, STUBBORN); + goto record; + } + *opp = obj_link(op); + obj_link(op) = 0; + GC_words_allocd += lw; + result = (GC_PTR) op; + ADD_CHANGING(result); + FASTUNLOCK(); + return((GC_PTR)result); + } else { + result = (GC_PTR) + GC_generic_malloc((word)lb, STUBBORN); + } +record: + DISABLE_SIGNALS(); + LOCK(); + ADD_CHANGING(result); + UNLOCK(); + ENABLE_SIGNALS(); + return((GC_PTR)GC_clear_stack(result)); +} + + +/* Functions analogous to GC_read_dirty and GC_page_was_dirty. */ +/* Report pages on which stubborn objects were changed. */ +void GC_read_changed() +{ + register GC_PTR * p = GC_changing_list_start; + register GC_PTR q; + register struct hblk * h; + register word index; + + if (p == 0) /* initializing */ return; + BCOPY(GC_changed_pages, GC_prev_changed_pages, + (sizeof GC_changed_pages)); + BZERO(GC_changed_pages, (sizeof GC_changed_pages)); + for (; p <= GC_changing_list_current; p++) { + if ((q = *p) != 0) { + h = HBLKPTR(q); + index = PHT_HASH(h); + set_pht_entry_from_index(GC_changed_pages, index); + } + } +} + +GC_bool GC_page_was_changed(h) +struct hblk * h; +{ + register word index = PHT_HASH(h); + + return(get_pht_entry_from_index(GC_prev_changed_pages, index)); +} + +/* Remove unreachable entries from changed list. Should only be */ +/* called with mark bits consistent and lock held. */ +void GC_clean_changing_list() +{ + register GC_PTR * p = GC_changing_list_start; + register GC_PTR q; + register ptr_t r; + register unsigned long count = 0; + register unsigned long dropped_count = 0; + + if (p == 0) /* initializing */ return; + for (; p <= GC_changing_list_current; p++) { + if ((q = *p) != 0) { + count++; + r = (ptr_t)GC_base(q); + if (r == 0 || !GC_is_marked(r)) { + *p = 0; + dropped_count++; + } + } + } +# ifdef PRINTSTATS + if (count > 0) { + GC_printf2("%lu entries in changing list: reclaimed %lu\n", + (unsigned long)count, (unsigned long)dropped_count); + } +# endif +} + +#else /* !STUBBORN_ALLOC */ + +# ifdef __STDC__ + GC_PTR GC_malloc_stubborn(size_t lb) +# else + GC_PTR GC_malloc_stubborn(lb) + size_t lb; +# endif +{ + return(GC_malloc(lb)); +} + +/*ARGSUSED*/ +void GC_end_stubborn_change(p) +GC_PTR p; +{ +} + +/*ARGSUSED*/ +void GC_change_stubborn(p) +GC_PTR p; +{ +} + + +#endif diff --git a/gc/test.c b/gc/test.c new file mode 100644 index 0000000..b65632c --- /dev/null +++ b/gc/test.c @@ -0,0 +1,1263 @@ +/* + * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * Copyright (c) 1996 by Silicon Graphics. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + */ +/* An incomplete test for the garbage collector. */ +/* Some more obscure entry points are not tested at all. */ + +# if defined(mips) && defined(SYSTYPE_BSD43) + /* MIPS RISCOS 4 */ +# else +# include <stdlib.h> +# endif +# include <stdio.h> +# include <assert.h> /* Not normally used, but handy for debugging. */ +# include "gc.h" +# include "gc_typed.h" +# include "gc_priv.h" /* For output, locking, and some statistics */ +# include "gcconfig.h" + +# ifdef MSWIN32 +# include <windows.h> +# endif + +# ifdef PCR +# include "th/PCR_ThCrSec.h" +# include "th/PCR_Th.h" +# undef GC_printf0 +# define GC_printf0 printf +# undef GC_printf1 +# define GC_printf1 printf +# endif + +# ifdef SOLARIS_THREADS +# include <thread.h> +# include <synch.h> +# endif + +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) +# include <pthread.h> +# endif + +# ifdef WIN32_THREADS +# include <process.h> + static CRITICAL_SECTION incr_cs; +# endif +# if defined(PCR) || defined(SOLARIS_THREADS) || defined(WIN32_THREADS) +# define THREADS +# endif + +# ifdef AMIGA + long __stack = 200000; +# endif + +# define FAIL (void)abort() + +/* AT_END may be defined to excercise the interior pointer test */ +/* if the collector is configured with ALL_INTERIOR_POINTERS. */ +/* As it stands, this test should succeed with either */ +/* configuration. In the FIND_LEAK configuration, it should */ +/* find lots of leaks, since we free almost nothing. */ + +struct SEXPR { + struct SEXPR * sexpr_car; + struct SEXPR * sexpr_cdr; +}; + + +typedef struct SEXPR * sexpr; + +# define INT_TO_SEXPR(x) ((sexpr)(unsigned long)(x)) + +# undef nil +# define nil (INT_TO_SEXPR(0)) +# define car(x) ((x) -> sexpr_car) +# define cdr(x) ((x) -> sexpr_cdr) +# define is_nil(x) ((x) == nil) + + +int extra_count = 0; /* Amount of space wasted in cons node */ + +/* Silly implementation of Lisp cons. Intentionally wastes lots of space */ +/* to test collector. */ +sexpr cons (x, y) +sexpr x; +sexpr y; +{ + register sexpr r; + register int *p; + register int my_extra = extra_count; + + r = (sexpr) GC_MALLOC_STUBBORN(sizeof(struct SEXPR) + my_extra); + if (r == 0) { + (void)GC_printf0("Out of memory\n"); + exit(1); + } + for (p = (int *)r; + ((char *)p) < ((char *)r) + my_extra + sizeof(struct SEXPR); p++) { + if (*p) { + (void)GC_printf1("Found nonzero at 0x%lx - allocator is broken\n", + (unsigned long)p); + FAIL; + } + *p = 13; + } +# ifdef AT_END + r = (sexpr)((char *)r + (my_extra & ~7)); +# endif + r -> sexpr_car = x; + r -> sexpr_cdr = y; + my_extra++; + if ( my_extra >= 5000 ) { + extra_count = 0; + } else { + extra_count = my_extra; + } + GC_END_STUBBORN_CHANGE((char *)r); + return(r); +} + +sexpr small_cons (x, y) +sexpr x; +sexpr y; +{ + register sexpr r; + + r = (sexpr) GC_MALLOC(sizeof(struct SEXPR)); + if (r == 0) { + (void)GC_printf0("Out of memory\n"); + exit(1); + } + r -> sexpr_car = x; + r -> sexpr_cdr = y; + return(r); +} + +sexpr small_cons_uncollectable (x, y) +sexpr x; +sexpr y; +{ + register sexpr r; + + r = (sexpr) GC_MALLOC_UNCOLLECTABLE(sizeof(struct SEXPR)); +assert(GC_is_marked(r)); + if (r == 0) { + (void)GC_printf0("Out of memory\n"); + exit(1); + } + r -> sexpr_car = x; + r -> sexpr_cdr = (sexpr)(~(unsigned long)y); + return(r); +} + +/* Return reverse(x) concatenated with y */ +sexpr reverse1(x, y) +sexpr x, y; +{ + if (is_nil(x)) { + return(y); + } else { + return( reverse1(cdr(x), cons(car(x), y)) ); + } +} + +sexpr reverse(x) +sexpr x; +{ + return( reverse1(x, nil) ); +} + +sexpr ints(low, up) +int low, up; +{ + if (low > up) { + return(nil); + } else { + return(small_cons(small_cons(INT_TO_SEXPR(low), nil), ints(low+1, up))); + } +} + +/* To check uncollectable allocation we build lists with disguised cdr */ +/* pointers, and make sure they don't go away. */ +sexpr uncollectable_ints(low, up) +int low, up; +{ + if (low > up) { + return(nil); + } else { + return(small_cons_uncollectable(small_cons(INT_TO_SEXPR(low), nil), + uncollectable_ints(low+1, up))); + } +} + +void check_ints(list, low, up) +sexpr list; +int low, up; +{ + if ((int)(GC_word)(car(car(list))) != low) { + (void)GC_printf0( + "List reversal produced incorrect list - collector is broken\n"); + FAIL; + } + if (low == up) { + if (cdr(list) != nil) { + (void)GC_printf0("List too long - collector is broken\n"); + FAIL; + } + } else { + check_ints(cdr(list), low+1, up); + } +} + +# define UNCOLLECTABLE_CDR(x) (sexpr)(~(unsigned long)(cdr(x))) + +void check_uncollectable_ints(list, low, up) +sexpr list; +int low, up; +{ +assert(GC_is_marked(list)); + if ((int)(GC_word)(car(car(list))) != low) { + (void)GC_printf0( + "Uncollectable list corrupted - collector is broken\n"); + FAIL; + } + if (low == up) { + if (UNCOLLECTABLE_CDR(list) != nil) { + (void)GC_printf0("Uncollectable list too long - collector is broken\n"); + FAIL; + } + } else { + check_uncollectable_ints(UNCOLLECTABLE_CDR(list), low+1, up); + } +} + +/* Not used, but useful for debugging: */ +void print_int_list(x) +sexpr x; +{ + if (is_nil(x)) { + (void)GC_printf0("NIL\n"); + } else { + (void)GC_printf1("(%ld)", (long)(car(car(x)))); + if (!is_nil(cdr(x))) { + (void)GC_printf0(", "); + (void)print_int_list(cdr(x)); + } else { + (void)GC_printf0("\n"); + } + } +} + +/* Try to force a to be strangely aligned */ +struct { + char dummy; + sexpr aa; +} A; +#define a A.aa + +/* + * A tiny list reversal test to check thread creation. + */ +#ifdef THREADS + +# ifdef WIN32_THREADS + unsigned __stdcall tiny_reverse_test(void * arg) +# else + void * tiny_reverse_test(void * arg) +# endif +{ + check_ints(reverse(reverse(ints(1,10))), 1, 10); + return 0; +} + +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) \ + || defined(SOLARIS_PTHREADS) + void fork_a_thread() + { + pthread_t t; + int code; + if ((code = pthread_create(&t, 0, tiny_reverse_test, 0)) != 0) { + (void)GC_printf1("Small thread creation failed %lu\n", + (unsigned long)code); + FAIL; + } + if ((code = pthread_join(t, 0)) != 0) { + (void)GC_printf1("Small thread join failed %lu\n", + (unsigned long)code); + FAIL; + } + } + +# elif defined(WIN32_THREADS) + void fork_a_thread() + { + unsigned thread_id; + HANDLE h; + h = (HANDLE)_beginthreadex(NULL, 0, tiny_reverse_test, + 0, 0, &thread_id); + if (h == (HANDLE)-1) { + (void)GC_printf1("Small thread creation failed %lu\n", + (unsigned long)GetLastError()); + FAIL; + } + if (WaitForSingleObject(h, INFINITE) != WAIT_OBJECT_0) { + (void)GC_printf1("Small thread wait failed %lu\n", + (unsigned long)GetLastError()); + FAIL; + } + } + +/* # elif defined(SOLARIS_THREADS) */ + +# else + +# define fork_a_thread() + +# endif + +#else + +# define fork_a_thread() + +#endif + +/* + * Repeatedly reverse lists built out of very different sized cons cells. + * Check that we didn't lose anything. + */ +void reverse_test() +{ + int i; + sexpr b; + sexpr c; + sexpr d; + sexpr e; + sexpr *f, *g, *h; +# if defined(MSWIN32) || defined(MACOS) + /* Win32S only allows 128K stacks */ +# define BIG 1000 +# else +# if defined PCR + /* PCR default stack is 100K. Stack frames are up to 120 bytes. */ +# define BIG 700 +# else +# define BIG 4500 +# endif +# endif + + A.dummy = 17; + a = ints(1, 49); + b = ints(1, 50); + c = ints(1, BIG); + d = uncollectable_ints(1, 100); + e = uncollectable_ints(1, 1); + /* Check that realloc updates object descriptors correctly */ + f = (sexpr *)GC_MALLOC(4 * sizeof(sexpr)); + f = (sexpr *)GC_REALLOC((GC_PTR)f, 6 * sizeof(sexpr)); + f[5] = ints(1,17); + g = (sexpr *)GC_MALLOC(513 * sizeof(sexpr)); + g = (sexpr *)GC_REALLOC((GC_PTR)g, 800 * sizeof(sexpr)); + g[799] = ints(1,18); + h = (sexpr *)GC_MALLOC(1025 * sizeof(sexpr)); + h = (sexpr *)GC_REALLOC((GC_PTR)h, 2000 * sizeof(sexpr)); + h[1999] = ints(1,19); + /* Try to force some collections and reuse of small list elements */ + for (i = 0; i < 10; i++) { + (void)ints(1, BIG); + } + /* Superficially test interior pointer recognition on stack */ + c = (sexpr)((char *)c + sizeof(char *)); + d = (sexpr)((char *)d + sizeof(char *)); + +# ifdef __STDC__ + GC_FREE((void *)e); +# else + GC_FREE((char *)e); +# endif + check_ints(b,1,50); + check_ints(a,1,49); + for (i = 0; i < 50; i++) { + check_ints(b,1,50); + b = reverse(reverse(b)); + } + check_ints(b,1,50); + check_ints(a,1,49); + for (i = 0; i < 60; i++) { + if (i % 10 == 0) fork_a_thread(); + /* This maintains the invariant that a always points to a list of */ + /* 49 integers. Thus this is thread safe without locks, */ + /* assuming atomic pointer assignments. */ + a = reverse(reverse(a)); +# if !defined(AT_END) && !defined(THREADS) + /* This is not thread safe, since realloc explicitly deallocates */ + if (i & 1) { + a = (sexpr)GC_REALLOC((GC_PTR)a, 500); + } else { + a = (sexpr)GC_REALLOC((GC_PTR)a, 8200); + } +# endif + } + check_ints(a,1,49); + check_ints(b,1,50); + c = (sexpr)((char *)c - sizeof(char *)); + d = (sexpr)((char *)d - sizeof(char *)); + check_ints(c,1,BIG); + check_uncollectable_ints(d, 1, 100); + check_ints(f[5], 1,17); + check_ints(g[799], 1,18); + check_ints(h[1999], 1,19); +# ifndef THREADS + a = 0; +# endif + b = c = 0; +} + +/* + * The rest of this builds balanced binary trees, checks that they don't + * disappear, and tests finalization. + */ +typedef struct treenode { + int level; + struct treenode * lchild; + struct treenode * rchild; +} tn; + +int finalizable_count = 0; +int finalized_count = 0; +VOLATILE int dropped_something = 0; + +# ifdef __STDC__ + void finalizer(void * obj, void * client_data) +# else + void finalizer(obj, client_data) + char * obj; + char * client_data; +# endif +{ + tn * t = (tn *)obj; + +# ifdef PCR + PCR_ThCrSec_EnterSys(); +# endif +# ifdef SOLARIS_THREADS + static mutex_t incr_lock; + mutex_lock(&incr_lock); +# endif +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) + static pthread_mutex_t incr_lock = PTHREAD_MUTEX_INITIALIZER; + pthread_mutex_lock(&incr_lock); +# endif +# ifdef WIN32_THREADS + EnterCriticalSection(&incr_cs); +# endif + if ((int)(GC_word)client_data != t -> level) { + (void)GC_printf0("Wrong finalization data - collector is broken\n"); + FAIL; + } + finalized_count++; +# ifdef PCR + PCR_ThCrSec_ExitSys(); +# endif +# ifdef SOLARIS_THREADS + mutex_unlock(&incr_lock); +# endif +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) + pthread_mutex_unlock(&incr_lock); +# endif +# ifdef WIN32_THREADS + LeaveCriticalSection(&incr_cs); +# endif +} + +size_t counter = 0; + +# define MAX_FINALIZED 8000 + +# if !defined(MACOS) + GC_FAR GC_word live_indicators[MAX_FINALIZED] = {0}; +#else + /* Too big for THINK_C. have to allocate it dynamically. */ + GC_word *live_indicators = 0; +#endif + +int live_indicators_count = 0; + +tn * mktree(n) +int n; +{ + tn * result = (tn *)GC_MALLOC(sizeof(tn)); + +#if defined(MACOS) + /* get around static data limitations. */ + if (!live_indicators) + live_indicators = + (GC_word*)NewPtrClear(MAX_FINALIZED * sizeof(GC_word)); + if (!live_indicators) { + (void)GC_printf0("Out of memory\n"); + exit(1); + } +#endif + if (n == 0) return(0); + if (result == 0) { + (void)GC_printf0("Out of memory\n"); + exit(1); + } + result -> level = n; + result -> lchild = mktree(n-1); + result -> rchild = mktree(n-1); + if (counter++ % 17 == 0 && n >= 2) { + tn * tmp = result -> lchild -> rchild; + + result -> lchild -> rchild = result -> rchild -> lchild; + result -> rchild -> lchild = tmp; + } + if (counter++ % 119 == 0) { + int my_index; + + { +# ifdef PCR + PCR_ThCrSec_EnterSys(); +# endif +# ifdef SOLARIS_THREADS + static mutex_t incr_lock; + mutex_lock(&incr_lock); +# endif +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) + static pthread_mutex_t incr_lock = PTHREAD_MUTEX_INITIALIZER; + pthread_mutex_lock(&incr_lock); +# endif +# ifdef WIN32_THREADS + EnterCriticalSection(&incr_cs); +# endif + /* Losing a count here causes erroneous report of failure. */ + finalizable_count++; + my_index = live_indicators_count++; +# ifdef PCR + PCR_ThCrSec_ExitSys(); +# endif +# ifdef SOLARIS_THREADS + mutex_unlock(&incr_lock); +# endif +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) + pthread_mutex_unlock(&incr_lock); +# endif +# ifdef WIN32_THREADS + LeaveCriticalSection(&incr_cs); +# endif + } + + GC_REGISTER_FINALIZER((GC_PTR)result, finalizer, (GC_PTR)(GC_word)n, + (GC_finalization_proc *)0, (GC_PTR *)0); + if (my_index >= MAX_FINALIZED) { + GC_printf0("live_indicators overflowed\n"); + FAIL; + } + live_indicators[my_index] = 13; + if (GC_GENERAL_REGISTER_DISAPPEARING_LINK( + (GC_PTR *)(&(live_indicators[my_index])), + (GC_PTR)result) != 0) { + GC_printf0("GC_general_register_disappearing_link failed\n"); + FAIL; + } + if (GC_unregister_disappearing_link( + (GC_PTR *) + (&(live_indicators[my_index]))) == 0) { + GC_printf0("GC_unregister_disappearing_link failed\n"); + FAIL; + } + if (GC_GENERAL_REGISTER_DISAPPEARING_LINK( + (GC_PTR *)(&(live_indicators[my_index])), + (GC_PTR)result) != 0) { + GC_printf0("GC_general_register_disappearing_link failed 2\n"); + FAIL; + } + } + return(result); +} + +void chktree(t,n) +tn *t; +int n; +{ + if (n == 0 && t != 0) { + (void)GC_printf0("Clobbered a leaf - collector is broken\n"); + FAIL; + } + if (n == 0) return; + if (t -> level != n) { + (void)GC_printf1("Lost a node at level %lu - collector is broken\n", + (unsigned long)n); + FAIL; + } + if (counter++ % 373 == 0) (void) GC_MALLOC(counter%5001); + chktree(t -> lchild, n-1); + if (counter++ % 73 == 0) (void) GC_MALLOC(counter%373); + chktree(t -> rchild, n-1); +} + +# if defined(SOLARIS_THREADS) && !defined(_SOLARIS_PTHREADS) +thread_key_t fl_key; + +void * alloc8bytes() +{ +# if defined(SMALL_CONFIG) || defined(GC_DEBUG) + return(GC_MALLOC(8)); +# else + void ** my_free_list_ptr; + void * my_free_list; + + if (thr_getspecific(fl_key, (void **)(&my_free_list_ptr)) != 0) { + (void)GC_printf0("thr_getspecific failed\n"); + FAIL; + } + if (my_free_list_ptr == 0) { + my_free_list_ptr = GC_NEW_UNCOLLECTABLE(void *); + if (thr_setspecific(fl_key, my_free_list_ptr) != 0) { + (void)GC_printf0("thr_setspecific failed\n"); + FAIL; + } + } + my_free_list = *my_free_list_ptr; + if (my_free_list == 0) { + my_free_list = GC_malloc_many(8); + if (my_free_list == 0) { + (void)GC_printf0("alloc8bytes out of memory\n"); + FAIL; + } + } + *my_free_list_ptr = GC_NEXT(my_free_list); + GC_NEXT(my_free_list) = 0; + return(my_free_list); +# endif +} + +#else + +# if defined(_SOLARIS_PTHREADS) || defined(IRIX_THREADS) \ + || defined(LINUX_THREADS) +pthread_key_t fl_key; + +void * alloc8bytes() +{ +# ifdef SMALL_CONFIG + return(GC_malloc(8)); +# else + void ** my_free_list_ptr; + void * my_free_list; + + my_free_list_ptr = (void **)pthread_getspecific(fl_key); + if (my_free_list_ptr == 0) { + my_free_list_ptr = GC_NEW_UNCOLLECTABLE(void *); + if (pthread_setspecific(fl_key, my_free_list_ptr) != 0) { + (void)GC_printf0("pthread_setspecific failed\n"); + FAIL; + } + } + my_free_list = *my_free_list_ptr; + if (my_free_list == 0) { + my_free_list = GC_malloc_many(8); + if (my_free_list == 0) { + (void)GC_printf0("alloc8bytes out of memory\n"); + FAIL; + } + } + *my_free_list_ptr = GC_NEXT(my_free_list); + GC_NEXT(my_free_list) = 0; + return(my_free_list); +# endif +} + +# else +# define alloc8bytes() GC_MALLOC_ATOMIC(8) +# endif +#endif + +void alloc_small(n) +int n; +{ + register int i; + + for (i = 0; i < n; i += 8) { + if (alloc8bytes() == 0) { + (void)GC_printf0("Out of memory\n"); + FAIL; + } + } +} + +# if defined(THREADS) && defined(GC_DEBUG) +# define TREE_HEIGHT 15 +# else +# define TREE_HEIGHT 16 +# endif +void tree_test() +{ + tn * root; + register int i; + + root = mktree(TREE_HEIGHT); + alloc_small(5000000); + chktree(root, TREE_HEIGHT); + if (finalized_count && ! dropped_something) { + (void)GC_printf0("Premature finalization - collector is broken\n"); + FAIL; + } + dropped_something = 1; + GC_noop(root); /* Root needs to remain live until */ + /* dropped_something is set. */ + root = mktree(TREE_HEIGHT); + chktree(root, TREE_HEIGHT); + for (i = TREE_HEIGHT; i >= 0; i--) { + root = mktree(i); + chktree(root, i); + } + alloc_small(5000000); +} + +unsigned n_tests = 0; + +GC_word bm_huge[10] = { + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0xffffffff, + 0x00ffffff, +}; + + +/* A very simple test of explicitly typed allocation */ +void typed_test() +{ + GC_word * old, * new; + GC_word bm3 = 0x3; + GC_word bm2 = 0x2; + GC_word bm_large = 0xf7ff7fff; + GC_descr d1 = GC_make_descriptor(&bm3, 2); + GC_descr d2 = GC_make_descriptor(&bm2, 2); +# ifndef LINT + GC_descr dummy = GC_make_descriptor(&bm_large, 32); +# endif + GC_descr d3 = GC_make_descriptor(&bm_large, 32); + GC_descr d4 = GC_make_descriptor(bm_huge, 320); + GC_word * x = (GC_word *)GC_malloc_explicitly_typed(2000, d4); + register int i; + + old = 0; + for (i = 0; i < 4000; i++) { + new = (GC_word *) GC_malloc_explicitly_typed(4 * sizeof(GC_word), d1); + new[0] = 17; + new[1] = (GC_word)old; + old = new; + new = (GC_word *) GC_malloc_explicitly_typed(4 * sizeof(GC_word), d2); + new[0] = 17; + new[1] = (GC_word)old; + old = new; + new = (GC_word *) GC_malloc_explicitly_typed(33 * sizeof(GC_word), d3); + new[0] = 17; + new[1] = (GC_word)old; + old = new; + new = (GC_word *) GC_calloc_explicitly_typed(4, 2 * sizeof(GC_word), + d1); + new[0] = 17; + new[1] = (GC_word)old; + old = new; + if (i & 0xff) { + new = (GC_word *) GC_calloc_explicitly_typed(7, 3 * sizeof(GC_word), + d2); + } else { + new = (GC_word *) GC_calloc_explicitly_typed(1001, + 3 * sizeof(GC_word), + d2); + } + new[0] = 17; + new[1] = (GC_word)old; + old = new; + } + for (i = 0; i < 20000; i++) { + if (new[0] != 17) { + (void)GC_printf1("typed alloc failed at %lu\n", + (unsigned long)i); + FAIL; + } + new[0] = 0; + old = new; + new = (GC_word *)(old[1]); + } + GC_gcollect(); + GC_noop(x); +} + +int fail_count = 0; + +#ifndef __STDC__ +/*ARGSUSED*/ +void fail_proc1(x) +GC_PTR x; +{ + fail_count++; +} + +#else + +/*ARGSUSED*/ +void fail_proc1(GC_PTR x) +{ + fail_count++; +} + +#endif /* __STDC__ */ + +#ifdef THREADS +# define TEST_FAIL_COUNT(n) 1 +#else +# define TEST_FAIL_COUNT(n) (fail_count >= (n)) +#endif + +void run_one_test() +{ + char *x; +# ifdef LINT + char *y = 0; +# else + char *y = (char *)(size_t)fail_proc1; +# endif + DCL_LOCK_STATE; + +# ifdef FIND_LEAK + (void)GC_printf0( + "This test program is not designed for leak detection mode\n"); + (void)GC_printf0("Expect lots of problems.\n"); +# endif + if (GC_size(GC_malloc(7)) != 8 + || GC_size(GC_malloc(15)) != 16) { + (void)GC_printf0("GC_size produced unexpected results\n"); + FAIL; + } + if (GC_size(GC_malloc(0)) != 4 && GC_size(GC_malloc(0)) != 8) { + (void)GC_printf0("GC_malloc(0) failed\n"); + FAIL; + } + if (GC_size(GC_malloc_uncollectable(0)) != 4 + && GC_size(GC_malloc_uncollectable(0)) != 8) { + (void)GC_printf0("GC_malloc_uncollectable(0) failed\n"); + FAIL; + } + GC_is_valid_displacement_print_proc = fail_proc1; + GC_is_visible_print_proc = fail_proc1; + x = GC_malloc(16); + if (GC_base(x + 13) != x) { + (void)GC_printf0("GC_base(heap ptr) produced incorrect result\n"); + FAIL; + } +# ifndef PCR + if (GC_base(y) != 0) { + (void)GC_printf0("GC_base(fn_ptr) produced incorrect result\n"); + FAIL; + } +# endif + if (GC_same_obj(x+5, x) != x + 5) { + (void)GC_printf0("GC_same_obj produced incorrect result\n"); + FAIL; + } + if (GC_is_visible(y) != y || GC_is_visible(x) != x) { + (void)GC_printf0("GC_is_visible produced incorrect result\n"); + FAIL; + } + if (!TEST_FAIL_COUNT(1)) { +# if!(defined(RS6000) || defined(POWERPC)) + /* ON RS6000s function pointers point to a descriptor in the */ + /* data segment, so there should have been no failures. */ + (void)GC_printf0("GC_is_visible produced wrong failure indication\n"); + FAIL; +# endif + } + if (GC_is_valid_displacement(y) != y + || GC_is_valid_displacement(x) != x + || GC_is_valid_displacement(x + 3) != x + 3) { + (void)GC_printf0( + "GC_is_valid_displacement produced incorrect result\n"); + FAIL; + } +# ifndef ALL_INTERIOR_POINTERS +# if defined(RS6000) || defined(POWERPC) + if (!TEST_FAIL_COUNT(1)) { +# else + if (!TEST_FAIL_COUNT(2)) { +# endif + (void)GC_printf0("GC_is_valid_displacement produced wrong failure indication\n"); + FAIL; + } +# endif + /* Test floating point alignment */ + *(double *)GC_MALLOC(sizeof(double)) = 1.0; + *(double *)GC_MALLOC(sizeof(double)) = 1.0; + /* Repeated list reversal test. */ + reverse_test(); +# ifdef PRINTSTATS + GC_printf0("-------------Finished reverse_test\n"); +# endif + typed_test(); +# ifdef PRINTSTATS + GC_printf0("-------------Finished typed_test\n"); +# endif + tree_test(); + LOCK(); + n_tests++; + UNLOCK(); + /* GC_printf1("Finished %x\n", pthread_self()); */ +} + +void check_heap_stats() +{ + unsigned long max_heap_sz; + register int i; + int still_live; + int late_finalize_count = 0; + + if (sizeof(char *) > 4) { + max_heap_sz = 15000000; + } else { + max_heap_sz = 11000000; + } +# ifdef GC_DEBUG + max_heap_sz *= 2; +# ifdef SPARC + max_heap_sz *= 2; +# endif +# endif + /* Garbage collect repeatedly so that all inaccessible objects */ + /* can be finalized. */ + while (GC_collect_a_little()) { } + for (i = 0; i < 16; i++) { + GC_gcollect(); + late_finalize_count += GC_invoke_finalizers(); + } + (void)GC_printf1("Completed %lu tests\n", (unsigned long)n_tests); + (void)GC_printf2("Finalized %lu/%lu objects - ", + (unsigned long)finalized_count, + (unsigned long)finalizable_count); +# ifdef FINALIZE_ON_DEMAND + if (finalized_count != late_finalize_count) { + (void)GC_printf0("Demand finalization error\n"); + FAIL; + } +# endif + if (finalized_count > finalizable_count + || finalized_count < finalizable_count/2) { + (void)GC_printf0("finalization is probably broken\n"); + FAIL; + } else { + (void)GC_printf0("finalization is probably ok\n"); + } + still_live = 0; + for (i = 0; i < MAX_FINALIZED; i++) { + if (live_indicators[i] != 0) { + still_live++; + } + } + i = finalizable_count - finalized_count - still_live; + if (0 != i) { + (void)GC_printf2 + ("%lu disappearing links remain and %lu more objects were not finalized\n", + (unsigned long) still_live, (unsigned long)i); + if (i > 10) { + GC_printf0("\tVery suspicious!\n"); + } else { + GC_printf0("\tSlightly suspicious, but probably OK.\n"); + } + } + (void)GC_printf1("Total number of bytes allocated is %lu\n", + (unsigned long) + WORDS_TO_BYTES(GC_words_allocd + GC_words_allocd_before_gc)); + (void)GC_printf1("Final heap size is %lu bytes\n", + (unsigned long)GC_get_heap_size()); + if (WORDS_TO_BYTES(GC_words_allocd + GC_words_allocd_before_gc) + < 33500000*n_tests) { + (void)GC_printf0("Incorrect execution - missed some allocations\n"); + FAIL; + } + if (GC_get_heap_size() > max_heap_sz*n_tests) { + (void)GC_printf0("Unexpected heap growth - collector may be broken\n"); + FAIL; + } + (void)GC_printf0("Collector appears to work\n"); +} + +#if defined(MACOS) +void SetMinimumStack(long minSize) +{ + long newApplLimit; + + if (minSize > LMGetDefltStack()) + { + newApplLimit = (long) GetApplLimit() + - (minSize - LMGetDefltStack()); + SetApplLimit((Ptr) newApplLimit); + MaxApplZone(); + } +} + +#define cMinStackSpace (512L * 1024L) + +#endif + +#ifdef __STDC__ + void warn_proc(char *msg, GC_word p) +#else + void warn_proc(msg, p) + char *msg; + GC_word p; +#endif +{ + GC_printf1(msg, (unsigned long)p); + FAIL; +} + + +#if !defined(PCR) && !defined(SOLARIS_THREADS) && !defined(WIN32_THREADS) \ + && !defined(IRIX_THREADS) && !defined(LINUX_THREADS) || defined(LINT) +#ifdef MSWIN32 + int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prev, LPSTR cmd, int n) +#else + int main() +#endif +{ +# if defined(DJGPP) + int dummy; +# endif + n_tests = 0; + +# if defined(DJGPP) + /* No good way to determine stack base from library; do it */ + /* manually on this platform. */ + GC_stackbottom = (GC_PTR)(&dummy); +# endif +# if defined(MACOS) + /* Make sure we have lots and lots of stack space. */ + SetMinimumStack(cMinStackSpace); + /* Cheat and let stdio initialize toolbox for us. */ + printf("Testing GC Macintosh port.\n"); +# endif + GC_INIT(); /* Only needed if gc is dynamic library. */ + (void) GC_set_warn_proc(warn_proc); +# if defined(MPROTECT_VDB) || defined(PROC_VDB) + GC_enable_incremental(); + (void) GC_printf0("Switched to incremental mode\n"); +# if defined(MPROTECT_VDB) + (void)GC_printf0("Emulating dirty bits with mprotect/signals\n"); +# else + (void)GC_printf0("Reading dirty bits from /proc\n"); +# endif +# endif + run_one_test(); + check_heap_stats(); + (void)fflush(stdout); +# ifdef LINT + /* Entry points we should be testing, but aren't. */ + /* Some can be tested by defining GC_DEBUG at the top of this file */ + /* This is a bit SunOS4 specific. */ + GC_noop(GC_expand_hp, GC_add_roots, GC_clear_roots, + GC_register_disappearing_link, + GC_register_finalizer_ignore_self, + GC_debug_register_displacement, + GC_print_obj, GC_debug_change_stubborn, + GC_debug_end_stubborn_change, GC_debug_malloc_uncollectable, + GC_debug_free, GC_debug_realloc, GC_generic_malloc_words_small, + GC_init, GC_make_closure, GC_debug_invoke_finalizer, + GC_page_was_ever_dirty, GC_is_fresh, + GC_malloc_ignore_off_page, GC_malloc_atomic_ignore_off_page, + GC_set_max_heap_size, GC_get_bytes_since_gc, + GC_pre_incr, GC_post_incr); +# endif +# ifdef MSWIN32 + GC_win32_free_heap(); +# endif + return(0); +} +# endif + +#ifdef WIN32_THREADS + +unsigned __stdcall thr_run_one_test(void *arg) +{ + run_one_test(); + return 0; +} + +#define NTEST 2 + +int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prev, LPSTR cmd, int n) +{ +# if NTEST > 0 + HANDLE h[NTEST]; +# endif + int i; + unsigned thread_id; +# if 0 + GC_enable_incremental(); +# endif + InitializeCriticalSection(&incr_cs); + (void) GC_set_warn_proc(warn_proc); + for (i = 0; i < NTEST; i++) { + h[i] = (HANDLE)_beginthreadex(NULL, 0, thr_run_one_test, 0, 0, &thread_id); + if (h[i] == (HANDLE)-1) { + (void)GC_printf1("Thread creation failed %lu\n", (unsigned long)GetLastError()); + FAIL; + } + } + run_one_test(); + for (i = 0; i < NTEST; i++) + if (WaitForSingleObject(h[i], INFINITE) != WAIT_OBJECT_0) { + (void)GC_printf1("Thread wait failed %lu\n", (unsigned long)GetLastError()); + FAIL; + } + check_heap_stats(); + (void)fflush(stdout); + return(0); +} + +#endif /* WIN32_THREADS */ + + +#ifdef PCR +test() +{ + PCR_Th_T * th1; + PCR_Th_T * th2; + int code; + + n_tests = 0; + /* GC_enable_incremental(); */ + (void) GC_set_warn_proc(warn_proc); + th1 = PCR_Th_Fork(run_one_test, 0); + th2 = PCR_Th_Fork(run_one_test, 0); + run_one_test(); + if (PCR_Th_T_Join(th1, &code, NIL, PCR_allSigsBlocked, PCR_waitForever) + != PCR_ERes_okay || code != 0) { + (void)GC_printf0("Thread 1 failed\n"); + } + if (PCR_Th_T_Join(th2, &code, NIL, PCR_allSigsBlocked, PCR_waitForever) + != PCR_ERes_okay || code != 0) { + (void)GC_printf0("Thread 2 failed\n"); + } + check_heap_stats(); + (void)fflush(stdout); + return(0); +} +#endif + +#if defined(SOLARIS_THREADS) || defined(IRIX_THREADS) || defined(LINUX_THREADS) +void * thr_run_one_test(void * arg) +{ + run_one_test(); + return(0); +} + +#ifdef GC_DEBUG +# define GC_free GC_debug_free +#endif + +#ifdef SOLARIS_THREADS +main() +{ + thread_t th1; + thread_t th2; + int code; + + n_tests = 0; + GC_INIT(); /* Only needed if gc is dynamic library. */ + GC_enable_incremental(); + (void) GC_set_warn_proc(warn_proc); + if (thr_keycreate(&fl_key, GC_free) != 0) { + (void)GC_printf1("Key creation failed %lu\n", (unsigned long)code); + FAIL; + } + if ((code = thr_create(0, 1024*1024, thr_run_one_test, 0, 0, &th1)) != 0) { + (void)GC_printf1("Thread 1 creation failed %lu\n", (unsigned long)code); + FAIL; + } + if ((code = thr_create(0, 1024*1024, thr_run_one_test, 0, THR_NEW_LWP, &th2)) != 0) { + (void)GC_printf1("Thread 2 creation failed %lu\n", (unsigned long)code); + FAIL; + } + run_one_test(); + if ((code = thr_join(th1, 0, 0)) != 0) { + (void)GC_printf1("Thread 1 failed %lu\n", (unsigned long)code); + FAIL; + } + if (thr_join(th2, 0, 0) != 0) { + (void)GC_printf1("Thread 2 failed %lu\n", (unsigned long)code); + FAIL; + } + check_heap_stats(); + (void)fflush(stdout); + return(0); +} +#else /* pthreads */ +main() +{ + pthread_t th1; + pthread_t th2; + pthread_attr_t attr; + int code; + +# ifdef IRIX_THREADS + /* Force a larger stack to be preallocated */ + /* Since the initial cant always grow later. */ + *((volatile char *)&code - 1024*1024) = 0; /* Require 1 Mb */ +# endif /* IRIX_THREADS */ + pthread_attr_init(&attr); +# ifdef IRIX_THREADS + pthread_attr_setstacksize(&attr, 1000000); +# endif + n_tests = 0; +# ifdef MPROTECT_VDB + GC_enable_incremental(); + (void) GC_printf0("Switched to incremental mode\n"); + (void) GC_printf0("Emulating dirty bits with mprotect/signals\n"); +# endif + (void) GC_set_warn_proc(warn_proc); + if (pthread_key_create(&fl_key, 0) != 0) { + (void)GC_printf1("Key creation failed %lu\n", (unsigned long)code); + FAIL; + } + if ((code = pthread_create(&th1, &attr, thr_run_one_test, 0)) != 0) { + (void)GC_printf1("Thread 1 creation failed %lu\n", (unsigned long)code); + FAIL; + } + if ((code = pthread_create(&th2, &attr, thr_run_one_test, 0)) != 0) { + (void)GC_printf1("Thread 2 creation failed %lu\n", (unsigned long)code); + FAIL; + } + run_one_test(); + if ((code = pthread_join(th1, 0)) != 0) { + (void)GC_printf1("Thread 1 failed %lu\n", (unsigned long)code); + FAIL; + } + if (pthread_join(th2, 0) != 0) { + (void)GC_printf1("Thread 2 failed %lu\n", (unsigned long)code); + FAIL; + } + check_heap_stats(); + (void)fflush(stdout); + pthread_attr_destroy(&attr); + GC_printf1("Completed %d collections\n", GC_gc_no); + return(0); +} +#endif /* pthreads */ +#endif /* SOLARIS_THREADS || IRIX_THREADS || LINUX_THREADS */ diff --git a/gc/test_cpp.cc b/gc/test_cpp.cc new file mode 100644 index 0000000..3160b09 --- /dev/null +++ b/gc/test_cpp.cc @@ -0,0 +1,265 @@ +/**************************************************************************** +Copyright (c) 1994 by Xerox Corporation. All rights reserved. + +THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED +OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + +Permission is hereby granted to use or copy this program for any +purpose, provided the above notices are retained on all copies. +Permission to modify the code and to distribute modified code is +granted, provided the above notices are retained, and a notice that +the code was modified is included with the above copyright notice. +**************************************************************************** +Last modified on Mon Jul 10 21:06:03 PDT 1995 by ellis + modified on December 20, 1994 7:27 pm PST by boehm + +usage: test_cpp number-of-iterations + +This program tries to test the specific C++ functionality provided by +gc_c++.h that isn't tested by the more general test routines of the +collector. + +A recommended value for number-of-iterations is 10, which will take a +few minutes to complete. + +***************************************************************************/ + +#include "gc_cpp.h" +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#ifndef __GNUC__ +# include "gc_alloc.h" +#endif +extern "C" { +#include "gc_priv.h" +} +#ifdef MSWIN32 +# include <windows.h> +#endif + + +#define my_assert( e ) \ + if (! (e)) { \ + GC_printf1( "Assertion failure in " __FILE__ ", line %d: " #e "\n", \ + __LINE__ ); \ + exit( 1 ); } + + +class A {public: + /* An uncollectable class. */ + + A( int iArg ): i( iArg ) {} + void Test( int iArg ) { + my_assert( i == iArg );} + int i;}; + + +class B: public gc, public A {public: + /* A collectable class. */ + + B( int j ): A( j ) {} + ~B() { + my_assert( deleting );} + static void Deleting( int on ) { + deleting = on;} + static int deleting;}; + +int B::deleting = 0; + + +class C: public gc_cleanup, public A {public: + /* A collectable class with cleanup and virtual multiple inheritance. */ + + C( int levelArg ): A( levelArg ), level( levelArg ) { + nAllocated++; + if (level > 0) { + left = new C( level - 1 ); + right = new C( level - 1 );} + else { + left = right = 0;}} + ~C() { + this->A::Test( level ); + nFreed++; + my_assert( level == 0 ? + left == 0 && right == 0 : + level == left->level + 1 && level == right->level + 1 ); + left = right = 0; + level = -123456;} + static void Test() { + my_assert( nFreed <= nAllocated && nFreed >= .8 * nAllocated );} + + static int nFreed; + static int nAllocated; + int level; + C* left; + C* right;}; + +int C::nFreed = 0; +int C::nAllocated = 0; + + +class D: public gc {public: + /* A collectable class with a static member function to be used as + an explicit clean-up function supplied to ::new. */ + + D( int iArg ): i( iArg ) { + nAllocated++;} + static void CleanUp( void* obj, void* data ) { + D* self = (D*) obj; + nFreed++; + my_assert( self->i == (int) (long) data );} + static void Test() { + my_assert( nFreed >= .8 * nAllocated );} + + int i; + static int nFreed; + static int nAllocated;}; + +int D::nFreed = 0; +int D::nAllocated = 0; + + +class E: public gc_cleanup {public: + /* A collectable class with clean-up for use by F. */ + + E() { + nAllocated++;} + ~E() { + nFreed++;} + + static int nFreed; + static int nAllocated;}; + +int E::nFreed = 0; +int E::nAllocated = 0; + + +class F: public E {public: + /* A collectable class with clean-up, a base with clean-up, and a + member with clean-up. */ + + F() { + nAllocated++;} + ~F() { + nFreed++;} + static void Test() { + my_assert( nFreed >= .8 * nAllocated ); + my_assert( 2 * nFreed == E::nFreed );} + + E e; + static int nFreed; + static int nAllocated;}; + +int F::nFreed = 0; +int F::nAllocated = 0; + + +long Disguise( void* p ) { + return ~ (long) p;} + +void* Undisguise( long i ) { + return (void*) ~ i;} + + +#ifdef MSWIN32 +int APIENTRY WinMain( + HINSTANCE instance, HINSTANCE prev, LPSTR cmd, int cmdShow ) +{ + int argc; + char* argv[ 3 ]; + + for (argc = 1; argc < sizeof( argv ) / sizeof( argv[ 0 ] ); argc++) { + argv[ argc ] = strtok( argc == 1 ? cmd : 0, " \t" ); + if (0 == argv[ argc ]) break;} + +#else +# ifdef MACOS + int main() { +# else + int main( int argc, char* argv[] ) { +# endif +#endif + +# if defined(MACOS) // MacOS + char* argv_[] = {"test_cpp", "10"}; // doesn't + argv = argv_; // have a + argc = sizeof(argv_)/sizeof(argv_[0]); // commandline +# endif + int i, iters, n; +# if !defined(__GNUC__) && !defined(MACOS) + int *x = (int *)alloc::allocate(sizeof(int)); + + *x = 29; + x -= 3; +# endif + if (argc != 2 || (0 >= (n = atoi( argv[ 1 ] )))) { + GC_printf0( "usage: test_cpp number-of-iterations\n" ); + exit( 1 );} + + for (iters = 1; iters <= n; iters++) { + GC_printf1( "Starting iteration %d\n", iters ); + + /* Allocate some uncollectable As and disguise their pointers. + Later we'll check to see if the objects are still there. We're + checking to make sure these objects really are uncollectable. */ + long as[ 1000 ]; + long bs[ 1000 ]; + for (i = 0; i < 1000; i++) { + as[ i ] = Disguise( new (NoGC) A( i ) ); + bs[ i ] = Disguise( new (NoGC) B( i ) );} + + /* Allocate a fair number of finalizable Cs, Ds, and Fs. + Later we'll check to make sure they've gone away. */ + for (i = 0; i < 1000; i++) { + C* c = new C( 2 ); + C c1( 2 ); /* stack allocation should work too */ + D* d = ::new (GC, D::CleanUp, (void*) i) D( i ); + F* f = new F; + if (0 == i % 10) delete c;} + + /* Allocate a very large number of collectable As and Bs and + drop the references to them immediately, forcing many + collections. */ + for (i = 0; i < 1000000; i++) { + A* a = new (GC) A( i ); + B* b = new B( i ); + b = new (GC) B( i ); + if (0 == i % 10) { + B::Deleting( 1 ); + delete b; + B::Deleting( 0 );} +# ifdef FINALIZE_ON_DEMAND + GC_invoke_finalizers(); +# endif + } + + /* Make sure the uncollectable As and Bs are still there. */ + for (i = 0; i < 1000; i++) { + A* a = (A*) Undisguise( as[ i ] ); + B* b = (B*) Undisguise( bs[ i ] ); + a->Test( i ); + delete a; + b->Test( i ); + B::Deleting( 1 ); + delete b; + B::Deleting( 0 ); +# ifdef FINALIZE_ON_DEMAND + GC_invoke_finalizers(); +# endif + + } + + /* Make sure most of the finalizable Cs, Ds, and Fs have + gone away. */ + C::Test(); + D::Test(); + F::Test();} + +# if !defined(__GNUC__) && !defined(MACOS) + my_assert (29 == x[3]); +# endif + GC_printf0( "The test appears to have succeeded.\n" ); + return( 0 );} + + diff --git a/gc/threadlibs.c b/gc/threadlibs.c new file mode 100644 index 0000000..4a0a6cf --- /dev/null +++ b/gc/threadlibs.c @@ -0,0 +1,14 @@ +# include "gcconfig.h" +# include <stdio.h> + +int main() +{ +# if defined(IRIX_THREADS) || defined(LINUX_THREADS) + printf("-lpthread\n"); +# endif +# ifdef SOLARIS_THREADS + printf("-lthread -ldl\n"); +# endif + return 0; +} + diff --git a/gc/typd_mlc.c b/gc/typd_mlc.c new file mode 100644 index 0000000..74f455d --- /dev/null +++ b/gc/typd_mlc.c @@ -0,0 +1,814 @@ +/* + * Copyright (c) 1991-1994 by Xerox Corporation. All rights reserved. + * + * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + * + * Permission is hereby granted to use or copy this program + * for any purpose, provided the above notices are retained on all copies. + * Permission to modify the code and to distribute modified code is granted, + * provided the above notices are retained, and a notice that the code was + * modified is included with the above copyright notice. + * + */ +/* Boehm, July 31, 1995 5:02 pm PDT */ + + +/* + * Some simple primitives for allocation with explicit type information. + * Simple objects are allocated such that they contain a GC_descr at the + * end (in the last allocated word). This descriptor may be a procedure + * which then examines an extended descriptor passed as its environment. + * + * Arrays are treated as simple objects if they have sufficiently simple + * structure. Otherwise they are allocated from an array kind that supplies + * a special mark procedure. These arrays contain a pointer to a + * complex_descriptor as their last word. + * This is done because the environment field is too small, and the collector + * must trace the complex_descriptor. + * + * Note that descriptors inside objects may appear cleared, if we encounter a + * false refrence to an object on a free list. In the GC_descr case, this + * is OK, since a 0 descriptor corresponds to examining no fields. + * In the complex_descriptor case, we explicitly check for that case. + * + * MAJOR PARTS OF THIS CODE HAVE NOT BEEN TESTED AT ALL and are not testable, + * since they are not accessible through the current interface. + */ + +#include "gc_priv.h" +#include "gc_mark.h" +#include "gc_typed.h" + +# ifdef ADD_BYTE_AT_END +# define EXTRA_BYTES (sizeof(word) - 1) +# else +# define EXTRA_BYTES (sizeof(word)) +# endif + +GC_bool GC_explicit_typing_initialized = FALSE; + +int GC_explicit_kind; /* Object kind for objects with indirect */ + /* (possibly extended) descriptors. */ + +int GC_array_kind; /* Object kind for objects with complex */ + /* descriptors and GC_array_mark_proc. */ + +/* Extended descriptors. GC_typed_mark_proc understands these. */ +/* These are used for simple objects that are larger than what */ +/* can be described by a BITMAP_BITS sized bitmap. */ +typedef struct { + word ed_bitmap; /* lsb corresponds to first word. */ + GC_bool ed_continued; /* next entry is continuation. */ +} ext_descr; + +/* Array descriptors. GC_array_mark_proc understands these. */ +/* We may eventually need to add provisions for headers and */ +/* trailers. Hence we provide for tree structured descriptors, */ +/* though we don't really use them currently. */ +typedef union ComplexDescriptor { + struct LeafDescriptor { /* Describes simple array */ + word ld_tag; +# define LEAF_TAG 1 + word ld_size; /* bytes per element */ + /* multiple of ALIGNMENT */ + word ld_nelements; /* Number of elements. */ + GC_descr ld_descriptor; /* A simple length, bitmap, */ + /* or procedure descriptor. */ + } ld; + struct ComplexArrayDescriptor { + word ad_tag; +# define ARRAY_TAG 2 + word ad_nelements; + union ComplexDescriptor * ad_element_descr; + } ad; + struct SequenceDescriptor { + word sd_tag; +# define SEQUENCE_TAG 3 + union ComplexDescriptor * sd_first; + union ComplexDescriptor * sd_second; + } sd; +} complex_descriptor; +#define TAG ld.ld_tag + +ext_descr * GC_ext_descriptors; /* Points to array of extended */ + /* descriptors. */ + +word GC_ed_size = 0; /* Current size of above arrays. */ +# define ED_INITIAL_SIZE 100; + +word GC_avail_descr = 0; /* Next available slot. */ + +int GC_typed_mark_proc_index; /* Indices of my mark */ +int GC_array_mark_proc_index; /* procedures. */ + +/* Add a multiword bitmap to GC_ext_descriptors arrays. Return */ +/* starting index. */ +/* Returns -1 on failure. */ +/* Caller does not hold allocation lock. */ +signed_word GC_add_ext_descriptor(bm, nbits) +GC_bitmap bm; +word nbits; +{ + register size_t nwords = divWORDSZ(nbits + WORDSZ-1); + register signed_word result; + register word i; + register word last_part; + register int extra_bits; + DCL_LOCK_STATE; + + DISABLE_SIGNALS(); + LOCK(); + while (GC_avail_descr + nwords >= GC_ed_size) { + ext_descr * new; + size_t new_size; + word ed_size = GC_ed_size; + + UNLOCK(); + ENABLE_SIGNALS(); + if (ed_size == 0) { + new_size = ED_INITIAL_SIZE; + } else { + new_size = 2 * ed_size; + if (new_size > MAX_ENV) return(-1); + } + new = (ext_descr *) GC_malloc_atomic(new_size * sizeof(ext_descr)); + if (new == 0) return(-1); + DISABLE_SIGNALS(); + LOCK(); + if (ed_size == GC_ed_size) { + if (GC_avail_descr != 0) { + BCOPY(GC_ext_descriptors, new, + GC_avail_descr * sizeof(ext_descr)); + } + GC_ed_size = new_size; + GC_ext_descriptors = new; + } /* else another thread already resized it in the meantime */ + } + result = GC_avail_descr; + for (i = 0; i < nwords-1; i++) { + GC_ext_descriptors[result + i].ed_bitmap = bm[i]; + GC_ext_descriptors[result + i].ed_continued = TRUE; + } + last_part = bm[i]; + /* Clear irrelevant bits. */ + extra_bits = nwords * WORDSZ - nbits; + last_part <<= extra_bits; + last_part >>= extra_bits; + GC_ext_descriptors[result + i].ed_bitmap = last_part; + GC_ext_descriptors[result + i].ed_continued = FALSE; + GC_avail_descr += nwords; + UNLOCK(); + ENABLE_SIGNALS(); + return(result); +} + +/* Table of bitmap descriptors for n word long all pointer objects. */ +GC_descr GC_bm_table[WORDSZ/2]; + +/* Return a descriptor for the concatenation of 2 nwords long objects, */ +/* each of which is described by descriptor. */ +/* The result is known to be short enough to fit into a bitmap */ +/* descriptor. */ +/* Descriptor is a DS_LENGTH or DS_BITMAP descriptor. */ +GC_descr GC_double_descr(descriptor, nwords) +register GC_descr descriptor; +register word nwords; +{ + if (descriptor && DS_TAGS == DS_LENGTH) { + descriptor = GC_bm_table[BYTES_TO_WORDS((word)descriptor)]; + }; + descriptor |= (descriptor & ~DS_TAGS) >> nwords; + return(descriptor); +} + +complex_descriptor * GC_make_sequence_descriptor(); + +/* Build a descriptor for an array with nelements elements, */ +/* each of which can be described by a simple descriptor. */ +/* We try to optimize some common cases. */ +/* If the result is COMPLEX, then a complex_descr* is returned */ +/* in *complex_d. */ +/* If the result is LEAF, then we built a LeafDescriptor in */ +/* the structure pointed to by leaf. */ +/* The tag in the leaf structure is not set. */ +/* If the result is SIMPLE, then a GC_descr */ +/* is returned in *simple_d. */ +/* If the result is NO_MEM, then */ +/* we failed to allocate the descriptor. */ +/* The implementation knows that DS_LENGTH is 0. */ +/* *leaf, *complex_d, and *simple_d may be used as temporaries */ +/* during the construction. */ +# define COMPLEX 2 +# define LEAF 1 +# define SIMPLE 0 +# define NO_MEM (-1) +int GC_make_array_descriptor(nelements, size, descriptor, + simple_d, complex_d, leaf) +word size; +word nelements; +GC_descr descriptor; +GC_descr *simple_d; +complex_descriptor **complex_d; +struct LeafDescriptor * leaf; +{ +# define OPT_THRESHOLD 50 + /* For larger arrays, we try to combine descriptors of adjacent */ + /* descriptors to speed up marking, and to reduce the amount */ + /* of space needed on the mark stack. */ + if ((descriptor & DS_TAGS) == DS_LENGTH) { + if ((word)descriptor == size) { + *simple_d = nelements * descriptor; + return(SIMPLE); + } else if ((word)descriptor == 0) { + *simple_d = (GC_descr)0; + return(SIMPLE); + } + } + if (nelements <= OPT_THRESHOLD) { + if (nelements <= 1) { + if (nelements == 1) { + *simple_d = descriptor; + return(SIMPLE); + } else { + *simple_d = (GC_descr)0; + return(SIMPLE); + } + } + } else if (size <= BITMAP_BITS/2 + && (descriptor & DS_TAGS) != DS_PROC + && (size & (sizeof(word)-1)) == 0) { + int result = + GC_make_array_descriptor(nelements/2, 2*size, + GC_double_descr(descriptor, + BYTES_TO_WORDS(size)), + simple_d, complex_d, leaf); + if ((nelements & 1) == 0) { + return(result); + } else { + struct LeafDescriptor * one_element = + (struct LeafDescriptor *) + GC_malloc_atomic(sizeof(struct LeafDescriptor)); + + if (result == NO_MEM || one_element == 0) return(NO_MEM); + one_element -> ld_tag = LEAF_TAG; + one_element -> ld_size = size; + one_element -> ld_nelements = 1; + one_element -> ld_descriptor = descriptor; + switch(result) { + case SIMPLE: + { + struct LeafDescriptor * beginning = + (struct LeafDescriptor *) + GC_malloc_atomic(sizeof(struct LeafDescriptor)); + if (beginning == 0) return(NO_MEM); + beginning -> ld_tag = LEAF_TAG; + beginning -> ld_size = size; + beginning -> ld_nelements = 1; + beginning -> ld_descriptor = *simple_d; + *complex_d = GC_make_sequence_descriptor( + (complex_descriptor *)beginning, + (complex_descriptor *)one_element); + break; + } + case LEAF: + { + struct LeafDescriptor * beginning = + (struct LeafDescriptor *) + GC_malloc_atomic(sizeof(struct LeafDescriptor)); + if (beginning == 0) return(NO_MEM); + beginning -> ld_tag = LEAF_TAG; + beginning -> ld_size = leaf -> ld_size; + beginning -> ld_nelements = leaf -> ld_nelements; + beginning -> ld_descriptor = leaf -> ld_descriptor; + *complex_d = GC_make_sequence_descriptor( + (complex_descriptor *)beginning, + (complex_descriptor *)one_element); + break; + } + case COMPLEX: + *complex_d = GC_make_sequence_descriptor( + *complex_d, + (complex_descriptor *)one_element); + break; + } + return(COMPLEX); + } + } + { + leaf -> ld_size = size; + leaf -> ld_nelements = nelements; + leaf -> ld_descriptor = descriptor; + return(LEAF); + } +} + +complex_descriptor * GC_make_sequence_descriptor(first, second) +complex_descriptor * first; +complex_descriptor * second; +{ + struct SequenceDescriptor * result = + (struct SequenceDescriptor *) + GC_malloc(sizeof(struct SequenceDescriptor)); + /* Can't result in overly conservative marking, since tags are */ + /* very small integers. Probably faster than maintaining type */ + /* info. */ + if (result != 0) { + result -> sd_tag = SEQUENCE_TAG; + result -> sd_first = first; + result -> sd_second = second; + } + return((complex_descriptor *)result); +} + +#ifdef UNDEFINED +complex_descriptor * GC_make_complex_array_descriptor(nelements, descr) +word nelements; +complex_descriptor * descr; +{ + struct ComplexArrayDescriptor * result = + (struct ComplexArrayDescriptor *) + GC_malloc(sizeof(struct ComplexArrayDescriptor)); + + if (result != 0) { + result -> ad_tag = ARRAY_TAG; + result -> ad_nelements = nelements; + result -> ad_element_descr = descr; + } + return((complex_descriptor *)result); +} +#endif + +ptr_t * GC_eobjfreelist; + +ptr_t * GC_arobjfreelist; + +mse * GC_typed_mark_proc(); + +mse * GC_array_mark_proc(); + +GC_descr GC_generic_array_descr; + +/* Caller does not hold allocation lock. */ +void GC_init_explicit_typing() +{ + register int i; + DCL_LOCK_STATE; + + +# ifdef PRINTSTATS + if (sizeof(struct LeafDescriptor) % sizeof(word) != 0) + ABORT("Bad leaf descriptor size"); +# endif + DISABLE_SIGNALS(); + LOCK(); + if (GC_explicit_typing_initialized) { + UNLOCK(); + ENABLE_SIGNALS(); + return; + } + GC_explicit_typing_initialized = TRUE; + /* Set up object kind with simple indirect descriptor. */ + GC_eobjfreelist = (ptr_t *) + GC_generic_malloc_inner((MAXOBJSZ+1)*sizeof(ptr_t), PTRFREE); + if (GC_eobjfreelist == 0) ABORT("Couldn't allocate GC_eobjfreelist"); + BZERO(GC_eobjfreelist, (MAXOBJSZ+1)*sizeof(ptr_t)); + GC_explicit_kind = GC_n_kinds++; + GC_obj_kinds[GC_explicit_kind].ok_freelist = GC_eobjfreelist; + GC_obj_kinds[GC_explicit_kind].ok_reclaim_list = 0; + GC_obj_kinds[GC_explicit_kind].ok_descriptor = + (((word)WORDS_TO_BYTES(-1)) | DS_PER_OBJECT); + GC_obj_kinds[GC_explicit_kind].ok_relocate_descr = TRUE; + GC_obj_kinds[GC_explicit_kind].ok_init = TRUE; + /* Descriptors are in the last word of the object. */ + GC_typed_mark_proc_index = GC_n_mark_procs; + GC_mark_procs[GC_typed_mark_proc_index] = GC_typed_mark_proc; + GC_n_mark_procs++; + /* Moving this up breaks DEC AXP compiler. */ + /* Set up object kind with array descriptor. */ + GC_arobjfreelist = (ptr_t *) + GC_generic_malloc_inner((MAXOBJSZ+1)*sizeof(ptr_t), PTRFREE); + if (GC_arobjfreelist == 0) ABORT("Couldn't allocate GC_arobjfreelist"); + BZERO(GC_arobjfreelist, (MAXOBJSZ+1)*sizeof(ptr_t)); + if (GC_n_mark_procs >= MAX_MARK_PROCS) + ABORT("No slot for array mark proc"); + GC_array_mark_proc_index = GC_n_mark_procs++; + if (GC_n_kinds >= MAXOBJKINDS) + ABORT("No kind available for array objects"); + GC_array_kind = GC_n_kinds++; + GC_obj_kinds[GC_array_kind].ok_freelist = GC_arobjfreelist; + GC_obj_kinds[GC_array_kind].ok_reclaim_list = 0; + GC_obj_kinds[GC_array_kind].ok_descriptor = + MAKE_PROC(GC_array_mark_proc_index, 0);; + GC_obj_kinds[GC_array_kind].ok_relocate_descr = FALSE; + GC_obj_kinds[GC_array_kind].ok_init = TRUE; + /* Descriptors are in the last word of the object. */ + GC_mark_procs[GC_array_mark_proc_index] = GC_array_mark_proc; + for (i = 0; i < WORDSZ/2; i++) { + GC_descr d = (((word)(-1)) >> (WORDSZ - i)) << (WORDSZ - i); + d |= DS_BITMAP; + GC_bm_table[i] = d; + } + GC_generic_array_descr = MAKE_PROC(GC_array_mark_proc_index, 0); + UNLOCK(); + ENABLE_SIGNALS(); +} + +mse * GC_typed_mark_proc(addr, mark_stack_ptr, mark_stack_limit, env) +register word * addr; +register mse * mark_stack_ptr; +mse * mark_stack_limit; +word env; +{ + register word bm = GC_ext_descriptors[env].ed_bitmap; + register word * current_p = addr; + register word current; + register ptr_t greatest_ha = GC_greatest_plausible_heap_addr; + register ptr_t least_ha = GC_least_plausible_heap_addr; + + for (; bm != 0; bm >>= 1, current_p++) { + if (bm & 1) { + current = *current_p; + if ((ptr_t)current >= least_ha && (ptr_t)current <= greatest_ha) { + PUSH_CONTENTS(current, mark_stack_ptr, + mark_stack_limit, current_p, exit1); + } + } + } + if (GC_ext_descriptors[env].ed_continued) { + /* Push an entry with the rest of the descriptor back onto the */ + /* stack. Thus we never do too much work at once. Note that */ + /* we also can't overflow the mark stack unless we actually */ + /* mark something. */ + mark_stack_ptr++; + if (mark_stack_ptr >= mark_stack_limit) { + mark_stack_ptr = GC_signal_mark_stack_overflow(mark_stack_ptr); + } + mark_stack_ptr -> mse_start = addr + WORDSZ; + mark_stack_ptr -> mse_descr = + MAKE_PROC(GC_typed_mark_proc_index, env+1); + } + return(mark_stack_ptr); +} + +/* Return the size of the object described by d. It would be faster to */ +/* store this directly, or to compute it as part of */ +/* GC_push_complex_descriptor, but hopefully it doesn't matter. */ +word GC_descr_obj_size(d) +register complex_descriptor *d; +{ + switch(d -> TAG) { + case LEAF_TAG: + return(d -> ld.ld_nelements * d -> ld.ld_size); + case ARRAY_TAG: + return(d -> ad.ad_nelements + * GC_descr_obj_size(d -> ad.ad_element_descr)); + case SEQUENCE_TAG: + return(GC_descr_obj_size(d -> sd.sd_first) + + GC_descr_obj_size(d -> sd.sd_second)); + default: + ABORT("Bad complex descriptor"); + /*NOTREACHED*/ return 0; /*NOTREACHED*/ + } +} + +/* Push descriptors for the object at addr with complex descriptor d */ +/* onto the mark stack. Return 0 if the mark stack overflowed. */ +mse * GC_push_complex_descriptor(addr, d, msp, msl) +word * addr; +register complex_descriptor *d; +register mse * msp; +mse * msl; +{ + register ptr_t current = (ptr_t) addr; + register word nelements; + register word sz; + register word i; + + switch(d -> TAG) { + case LEAF_TAG: + { + register GC_descr descr = d -> ld.ld_descriptor; + + nelements = d -> ld.ld_nelements; + if (msl - msp <= (ptrdiff_t)nelements) return(0); + sz = d -> ld.ld_size; + for (i = 0; i < nelements; i++) { + msp++; + msp -> mse_start = (word *)current; + msp -> mse_descr = descr; + current += sz; + } + return(msp); + } + case ARRAY_TAG: + { + register complex_descriptor *descr = d -> ad.ad_element_descr; + + nelements = d -> ad.ad_nelements; + sz = GC_descr_obj_size(descr); + for (i = 0; i < nelements; i++) { + msp = GC_push_complex_descriptor((word *)current, descr, + msp, msl); + if (msp == 0) return(0); + current += sz; + } + return(msp); + } + case SEQUENCE_TAG: + { + sz = GC_descr_obj_size(d -> sd.sd_first); + msp = GC_push_complex_descriptor((word *)current, d -> sd.sd_first, + msp, msl); + if (msp == 0) return(0); + current += sz; + msp = GC_push_complex_descriptor((word *)current, d -> sd.sd_second, + msp, msl); + return(msp); + } + default: + ABORT("Bad complex descriptor"); + /*NOTREACHED*/ return 0; /*NOTREACHED*/ + } +} + +/*ARGSUSED*/ +mse * GC_array_mark_proc(addr, mark_stack_ptr, mark_stack_limit, env) +register word * addr; +register mse * mark_stack_ptr; +mse * mark_stack_limit; +word env; +{ + register hdr * hhdr = HDR(addr); + register word sz = hhdr -> hb_sz; + register complex_descriptor * descr = (complex_descriptor *)(addr[sz-1]); + mse * orig_mark_stack_ptr = mark_stack_ptr; + mse * new_mark_stack_ptr; + + if (descr == 0) { + /* Found a reference to a free list entry. Ignore it. */ + return(orig_mark_stack_ptr); + } + /* In use counts were already updated when array descriptor was */ + /* pushed. Here we only replace it by subobject descriptors, so */ + /* no update is necessary. */ + new_mark_stack_ptr = GC_push_complex_descriptor(addr, descr, + mark_stack_ptr, + mark_stack_limit-1); + if (new_mark_stack_ptr == 0) { + /* Doesn't fit. Conservatively push the whole array as a unit */ + /* and request a mark stack expansion. */ + /* This cannot cause a mark stack overflow, since it replaces */ + /* the original array entry. */ + GC_mark_stack_too_small = TRUE; + new_mark_stack_ptr = orig_mark_stack_ptr + 1; + new_mark_stack_ptr -> mse_start = addr; + new_mark_stack_ptr -> mse_descr = WORDS_TO_BYTES(sz) | DS_LENGTH; + } else { + /* Push descriptor itself */ + new_mark_stack_ptr++; + new_mark_stack_ptr -> mse_start = addr + sz - 1; + new_mark_stack_ptr -> mse_descr = sizeof(word) | DS_LENGTH; + } + return(new_mark_stack_ptr); +} + +#if defined(__STDC__) || defined(__cplusplus) + GC_descr GC_make_descriptor(GC_bitmap bm, size_t len) +#else + GC_descr GC_make_descriptor(bm, len) + GC_bitmap bm; + size_t len; +#endif +{ + register signed_word last_set_bit = len - 1; + register word result; + register int i; +# define HIGH_BIT (((word)1) << (WORDSZ - 1)) + + if (!GC_explicit_typing_initialized) GC_init_explicit_typing(); + while (last_set_bit >= 0 && !GC_get_bit(bm, last_set_bit)) last_set_bit --; + if (last_set_bit < 0) return(0 /* no pointers */); +# if ALIGNMENT == CPP_WORDSZ/8 + { + register GC_bool all_bits_set = TRUE; + for (i = 0; i < last_set_bit; i++) { + if (!GC_get_bit(bm, i)) { + all_bits_set = FALSE; + break; + } + } + if (all_bits_set) { + /* An initial section contains all pointers. Use length descriptor. */ + return(WORDS_TO_BYTES(last_set_bit+1) | DS_LENGTH); + } + } +# endif + if (last_set_bit < BITMAP_BITS) { + /* Hopefully the common case. */ + /* Build bitmap descriptor (with bits reversed) */ + result = HIGH_BIT; + for (i = last_set_bit - 1; i >= 0; i--) { + result >>= 1; + if (GC_get_bit(bm, i)) result |= HIGH_BIT; + } + result |= DS_BITMAP; + return(result); + } else { + signed_word index; + + index = GC_add_ext_descriptor(bm, (word)last_set_bit+1); + if (index == -1) return(WORDS_TO_BYTES(last_set_bit+1) | DS_LENGTH); + /* Out of memory: use conservative */ + /* approximation. */ + result = MAKE_PROC(GC_typed_mark_proc_index, (word)index); + return(result); + } +} + +ptr_t GC_clear_stack(); + +#define GENERAL_MALLOC(lb,k) \ + (GC_PTR)GC_clear_stack(GC_generic_malloc((word)lb, k)) + +#define GENERAL_MALLOC_IOP(lb,k) \ + (GC_PTR)GC_clear_stack(GC_generic_malloc_ignore_off_page(lb, k)) + +#if defined(__STDC__) || defined(__cplusplus) + void * GC_malloc_explicitly_typed(size_t lb, GC_descr d) +#else + char * GC_malloc_explicitly_typed(lb, d) + size_t lb; + GC_descr d; +#endif +{ +register ptr_t op; +register ptr_t * opp; +register word lw; +DCL_LOCK_STATE; + + lb += EXTRA_BYTES; + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_eobjfreelist[lw]); + FASTLOCK(); + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { + FASTUNLOCK(); + op = (ptr_t)GENERAL_MALLOC((word)lb, GC_explicit_kind); + if (0 == op) return(0); +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; /* May have been uninitialized. */ +# endif + } else { + *opp = obj_link(op); + GC_words_allocd += lw; + FASTUNLOCK(); + } + } else { + op = (ptr_t)GENERAL_MALLOC((word)lb, GC_explicit_kind); + if (op != NULL) + lw = BYTES_TO_WORDS(GC_size(op)); + } + if (op != NULL) + ((word *)op)[lw - 1] = d; + return((GC_PTR) op); +} + +#if defined(__STDC__) || defined(__cplusplus) + void * GC_malloc_explicitly_typed_ignore_off_page(size_t lb, GC_descr d) +#else + char * GC_malloc_explicitly_typed_ignore_off_page(lb, d) + size_t lb; + GC_descr d; +#endif +{ +register ptr_t op; +register ptr_t * opp; +register word lw; +DCL_LOCK_STATE; + + lb += EXTRA_BYTES; + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_eobjfreelist[lw]); + FASTLOCK(); + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { + FASTUNLOCK(); + op = (ptr_t)GENERAL_MALLOC_IOP(lb, GC_explicit_kind); +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; /* May have been uninitialized. */ +# endif + } else { + *opp = obj_link(op); + GC_words_allocd += lw; + FASTUNLOCK(); + } + } else { + op = (ptr_t)GENERAL_MALLOC_IOP(lb, GC_explicit_kind); + if (op != NULL) + lw = BYTES_TO_WORDS(GC_size(op)); + } + if (op != NULL) + ((word *)op)[lw - 1] = d; + return((GC_PTR) op); +} + +#if defined(__STDC__) || defined(__cplusplus) + void * GC_calloc_explicitly_typed(size_t n, + size_t lb, + GC_descr d) +#else + char * GC_calloc_explicitly_typed(n, lb, d) + size_t n; + size_t lb; + GC_descr d; +#endif +{ +register ptr_t op; +register ptr_t * opp; +register word lw; +GC_descr simple_descr; +complex_descriptor *complex_descr; +register int descr_type; +struct LeafDescriptor leaf; +DCL_LOCK_STATE; + + descr_type = GC_make_array_descriptor((word)n, (word)lb, d, + &simple_descr, &complex_descr, &leaf); + switch(descr_type) { + case NO_MEM: return(0); + case SIMPLE: return(GC_malloc_explicitly_typed(n*lb, simple_descr)); + case LEAF: + lb *= n; + lb += sizeof(struct LeafDescriptor) + EXTRA_BYTES; + break; + case COMPLEX: + lb *= n; + lb += EXTRA_BYTES; + break; + } + if( SMALL_OBJ(lb) ) { +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; +# else + lw = ALIGNED_WORDS(lb); +# endif + opp = &(GC_arobjfreelist[lw]); + FASTLOCK(); + if( !FASTLOCK_SUCCEEDED() || (op = *opp) == 0 ) { + FASTUNLOCK(); + op = (ptr_t)GENERAL_MALLOC((word)lb, GC_array_kind); + if (0 == op) return(0); +# ifdef MERGE_SIZES + lw = GC_size_map[lb]; /* May have been uninitialized. */ +# endif + } else { + *opp = obj_link(op); + GC_words_allocd += lw; + FASTUNLOCK(); + } + } else { + op = (ptr_t)GENERAL_MALLOC((word)lb, GC_array_kind); + if (0 == op) return(0); + lw = BYTES_TO_WORDS(GC_size(op)); + } + if (descr_type == LEAF) { + /* Set up the descriptor inside the object itself. */ + VOLATILE struct LeafDescriptor * lp = + (struct LeafDescriptor *) + ((word *)op + + lw - (BYTES_TO_WORDS(sizeof(struct LeafDescriptor)) + 1)); + + lp -> ld_tag = LEAF_TAG; + lp -> ld_size = leaf.ld_size; + lp -> ld_nelements = leaf.ld_nelements; + lp -> ld_descriptor = leaf.ld_descriptor; + ((VOLATILE word *)op)[lw - 1] = (word)lp; + } else { + extern unsigned GC_finalization_failures; + unsigned ff = GC_finalization_failures; + + ((word *)op)[lw - 1] = (word)complex_descr; + /* Make sure the descriptor is cleared once there is any danger */ + /* it may have been collected. */ + (void) + GC_general_register_disappearing_link((GC_PTR *) + ((word *)op+lw-1), + (GC_PTR) op); + if (ff != GC_finalization_failures) { + /* Couldn't register it due to lack of memory. Punt. */ + /* This will probably fail too, but gives the recovery code */ + /* a chance. */ + return(GC_malloc(n*lb)); + } + } + return((GC_PTR) op); +} diff --git a/gc/version.h b/gc/version.h new file mode 100644 index 0000000..97ac5f5 --- /dev/null +++ b/gc/version.h @@ -0,0 +1,11 @@ +#define GC_VERSION_MAJOR 5 +#define GC_VERSION_MINOR 0 +#define GC_ALPHA_VERSION 3 + +# define GC_NOT_ALPHA 0xff + +#ifndef GC_NO_VERSION_VAR + +unsigned GC_version = ((GC_VERSION_MAJOR << 16) | (GC_VERSION_MINOR << 8) | GC_ALPHA_VERSION); + +#endif /* GC_NO_VERSION_VAR */ diff --git a/gc/weakpointer.h b/gc/weakpointer.h new file mode 100644 index 0000000..84906b0 --- /dev/null +++ b/gc/weakpointer.h @@ -0,0 +1,221 @@ +#ifndef _weakpointer_h_ +#define _weakpointer_h_ + +/**************************************************************************** + +WeakPointer and CleanUp + + Copyright (c) 1991 by Xerox Corporation. All rights reserved. + + THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED + OR IMPLIED. ANY USE IS AT YOUR OWN RISK. + + Permission is hereby granted to copy this code for any purpose, + provided the above notices are retained on all copies. + + Last modified on Mon Jul 17 18:16:01 PDT 1995 by ellis + +****************************************************************************/ + +/**************************************************************************** + +WeakPointer + +A weak pointer is a pointer to a heap-allocated object that doesn't +prevent the object from being garbage collected. Weak pointers can be +used to track which objects haven't yet been reclaimed by the +collector. A weak pointer is deactivated when the collector discovers +its referent object is unreachable by normal pointers (reachability +and deactivation are defined more precisely below). A deactivated weak +pointer remains deactivated forever. + +****************************************************************************/ + + +template< class T > class WeakPointer { +public: + +WeakPointer( T* t = 0 ) + /* Constructs a weak pointer for *t. t may be null. It is an error + if t is non-null and *t is not a collected object. */ + {impl = _WeakPointer_New( t );} + +T* Pointer() + /* wp.Pointer() returns a pointer to the referent object of wp or + null if wp has been deactivated (because its referent object + has been discovered unreachable by the collector). */ + {return (T*) _WeakPointer_Pointer( this->impl );} + +int operator==( WeakPointer< T > wp2 ) + /* Given weak pointers wp1 and wp2, if wp1 == wp2, then wp1 and + wp2 refer to the same object. If wp1 != wp2, then either wp1 + and wp2 don't refer to the same object, or if they do, one or + both of them has been deactivated. (Note: If objects t1 and t2 + are never made reachable by their clean-up functions, then + WeakPointer<T>(t1) == WeakPointer<T>(t2) if and only t1 == t2.) */ + {return _WeakPointer_Equal( this->impl, wp2.impl );} + +int Hash() + /* Returns a hash code suitable for use by multiplicative- and + division-based hash tables. If wp1 == wp2, then wp1.Hash() == + wp2.Hash(). */ + {return _WeakPointer_Hash( this->impl );} + +private: +void* impl; +}; + +/***************************************************************************** + +CleanUp + +A garbage-collected object can have an associated clean-up function +that will be invoked some time after the collector discovers the +object is unreachable via normal pointers. Clean-up functions can be +used to release resources such as open-file handles or window handles +when their containing objects become unreachable. If a C++ object has +a non-empty explicit destructor (i.e. it contains programmer-written +code), the destructor will be automatically registered as the object's +initial clean-up function. + +There is no guarantee that the collector will detect every unreachable +object (though it will find almost all of them). Clients should not +rely on clean-up to cause some action to occur immediately -- clean-up +is only a mechanism for improving resource usage. + +Every object with a clean-up function also has a clean-up queue. When +the collector finds the object is unreachable, it enqueues it on its +queue. The clean-up function is applied when the object is removed +from the queue. By default, objects are enqueued on the garbage +collector's queue, and the collector removes all objects from its +queue after each collection. If a client supplies another queue for +objects, it is his responsibility to remove objects (and cause their +functions to be called) by polling it periodically. + +Clean-up queues allow clean-up functions accessing global data to +synchronize with the main program. Garbage collection can occur at any +time, and clean-ups invoked by the collector might access data in an +inconsistent state. A client can control this by defining an explicit +queue for objects and polling it at safe points. + +The following definitions are used by the specification below: + +Given a pointer t to a collected object, the base object BO(t) is the +value returned by new when it created the object. (Because of multiple +inheritance, t and BO(t) may not be the same address.) + +A weak pointer wp references an object *t if BO(wp.Pointer()) == +BO(t). + +***************************************************************************/ + +template< class T, class Data > class CleanUp { +public: + +static void Set( T* t, void c( Data* d, T* t ), Data* d = 0 ) + /* Sets the clean-up function of object BO(t) to be <c, d>, + replacing any previously defined clean-up function for BO(t); c + and d can be null, but t cannot. Sets the clean-up queue for + BO(t) to be the collector's queue. When t is removed from its + clean-up queue, its clean-up will be applied by calling c(d, + t). It is an error if *t is not a collected object. */ + {_CleanUp_Set( t, c, d );} + +static void Call( T* t ) + /* Sets the new clean-up function for BO(t) to be null and, if the + old one is non-null, calls it immediately, even if BO(t) is + still reachable. Deactivates any weak pointers to BO(t). */ + {_CleanUp_Call( t );} + +class Queue {public: + Queue() + /* Constructs a new queue. */ + {this->head = _CleanUp_Queue_NewHead();} + + void Set( T* t ) + /* q.Set(t) sets the clean-up queue of BO(t) to be q. */ + {_CleanUp_Queue_Set( this->head, t );} + + int Call() + /* If q is non-empty, q.Call() removes the first object and + calls its clean-up function; does nothing if q is + empty. Returns true if there are more objects in the + queue. */ + {return _CleanUp_Queue_Call( this->head );} + + private: + void* head; + }; +}; + +/********************************************************************** + +Reachability and Clean-up + +An object O is reachable if it can be reached via a non-empty path of +normal pointers from the registers, stacks, global variables, or an +object with a non-null clean-up function (including O itself), +ignoring pointers from an object to itself. + +This definition of reachability ensures that if object B is accessible +from object A (and not vice versa) and if both A and B have clean-up +functions, then A will always be cleaned up before B. Note that as +long as an object with a clean-up function is contained in a cycle of +pointers, it will always be reachable and will never be cleaned up or +collected. + +When the collector finds an unreachable object with a null clean-up +function, it atomically deactivates all weak pointers referencing the +object and recycles its storage. If object B is accessible from object +A via a path of normal pointers, A will be discovered unreachable no +later than B, and a weak pointer to A will be deactivated no later +than a weak pointer to B. + +When the collector finds an unreachable object with a non-null +clean-up function, the collector atomically deactivates all weak +pointers referencing the object, redefines its clean-up function to be +null, and enqueues it on its clean-up queue. The object then becomes +reachable again and remains reachable at least until its clean-up +function executes. + +The clean-up function is assured that its argument is the only +accessible pointer to the object. Nothing prevents the function from +redefining the object's clean-up function or making the object +reachable again (for example, by storing the pointer in a global +variable). + +If the clean-up function does not make its object reachable again and +does not redefine its clean-up function, then the object will be +collected by a subsequent collection (because the object remains +unreachable and now has a null clean-up function). If the clean-up +function does make its object reachable again and a clean-up function +is subsequently redefined for the object, then the new clean-up +function will be invoked the next time the collector finds the object +unreachable. + +Note that a destructor for a collected object cannot safely redefine a +clean-up function for its object, since after the destructor executes, +the object has been destroyed into "raw memory". (In most +implementations, destroying an object mutates its vtbl.) + +Finally, note that calling delete t on a collected object first +deactivates any weak pointers to t and then invokes its clean-up +function (destructor). + +**********************************************************************/ + +extern "C" { + void* _WeakPointer_New( void* t ); + void* _WeakPointer_Pointer( void* wp ); + int _WeakPointer_Equal( void* wp1, void* wp2 ); + int _WeakPointer_Hash( void* wp ); + void _CleanUp_Set( void* t, void (*c)( void* d, void* t ), void* d ); + void _CleanUp_Call( void* t ); + void* _CleanUp_Queue_NewHead (); + void _CleanUp_Queue_Set( void* h, void* t ); + int _CleanUp_Queue_Call( void* h ); +} + +#endif /* _weakpointer_h_ */ + + diff --git a/gc/win32_threads.c b/gc/win32_threads.c new file mode 100755 index 0000000..f6f74bd --- /dev/null +++ b/gc/win32_threads.c @@ -0,0 +1,209 @@ +#ifdef WIN32_THREADS + +#include "gc_priv.h" + +#define STRICT +#include <windows.h> + +#define MAX_THREADS 64 + +struct thread_entry { + LONG in_use; + DWORD id; + HANDLE handle; + void *stack; /* The cold end of the stack. */ + /* 0 ==> entry not valid. */ + /* !in_use ==> stack == 0 */ + CONTEXT context; + GC_bool suspended; +}; + +volatile GC_bool GC_please_stop = FALSE; + +volatile struct thread_entry thread_table[MAX_THREADS]; + +void GC_stop_world() +{ + DWORD thread_id = GetCurrentThreadId(); + int i; + + GC_please_stop = TRUE; + for (i = 0; i < MAX_THREADS; i++) + if (thread_table[i].stack != 0 + && thread_table[i].id != thread_id) { + if (SuspendThread(thread_table[i].handle) == (DWORD)-1) + ABORT("SuspendThread failed"); + thread_table[i].suspended = TRUE; + } +} + +void GC_start_world() +{ + DWORD thread_id = GetCurrentThreadId(); + int i; + for (i = 0; i < MAX_THREADS; i++) + if (thread_table[i].stack != 0 && thread_table[i].suspended + && thread_table[i].id != thread_id) { + if (ResumeThread(thread_table[i].handle) == (DWORD)-1) + ABORT("ResumeThread failed"); + thread_table[i].suspended = FALSE; + } + GC_please_stop = FALSE; +} + +ptr_t GC_current_stackbottom() +{ + DWORD thread_id = GetCurrentThreadId(); + int i; + for (i = 0; i < MAX_THREADS; i++) + if (thread_table[i].stack && thread_table[i].id == thread_id) + return thread_table[i].stack; + ABORT("no thread table entry for current thread"); +} + +ptr_t GC_get_lo_stack_addr(ptr_t s) +{ + ptr_t bottom; + MEMORY_BASIC_INFORMATION info; + VirtualQuery(s, &info, sizeof(info)); + do { + bottom = info.BaseAddress; + VirtualQuery(bottom - 1, &info, sizeof(info)); + } while ((info.Protect & PAGE_READWRITE) && !(info.Protect & PAGE_GUARD)); + return(bottom); +} + +void GC_push_all_stacks() +{ + DWORD thread_id = GetCurrentThreadId(); + int i; + for (i = 0; i < MAX_THREADS; i++) + if (thread_table[i].stack) { + ptr_t bottom = GC_get_lo_stack_addr(thread_table[i].stack); + if (thread_table[i].id == thread_id) + GC_push_all(&i, thread_table[i].stack); + else { + thread_table[i].context.ContextFlags + = (CONTEXT_INTEGER|CONTEXT_CONTROL); + if (!GetThreadContext(thread_table[i].handle, + &thread_table[i].context)) + ABORT("GetThreadContext failed"); + if (thread_table[i].context.Esp >= (DWORD)thread_table[i].stack + || thread_table[i].context.Esp < (DWORD)bottom) + ABORT("Thread stack pointer out of range"); + GC_push_one ((word) thread_table[i].context.Edi); + GC_push_one ((word) thread_table[i].context.Esi); + GC_push_one ((word) thread_table[i].context.Ebx); + GC_push_one ((word) thread_table[i].context.Edx); + GC_push_one ((word) thread_table[i].context.Ecx); + GC_push_one ((word) thread_table[i].context.Eax); + GC_push_all_stack(thread_table[i].context.Esp, thread_table[i].stack); + } + } +} + +void GC_get_next_stack(char *start, char **lo, char **hi) +{ + int i; +# define ADDR_LIMIT (char *)(-1L) + char * current_min = ADDR_LIMIT; + + for (i = 0; i < MAX_THREADS; i++) { + char * s = (char *)thread_table[i].stack; + + if (0 != s && s > start && s < current_min) { + current_min = s; + } + } + *hi = current_min; + if (current_min == ADDR_LIMIT) { + *lo = ADDR_LIMIT; + return; + } + *lo = GC_get_lo_stack_addr(current_min); + if (*lo < start) *lo = start; +} + +LONG WINAPI GC_write_fault_handler(struct _EXCEPTION_POINTERS *exc_info); + +/* + * This isn't generally safe, since DllMain is not premptible. + * If another thread holds the lock while this runs we're in trouble. + * Pontus Rydin suggests wrapping the thread start routine instead. + */ +BOOL WINAPI DllMain(HINSTANCE inst, ULONG reason, LPVOID reserved) +{ + switch (reason) { + case DLL_PROCESS_ATTACH: + InitializeCriticalSection(&GC_allocate_ml); + GC_init(); /* Force initialization before thread attach. */ + /* fall through */ + case DLL_THREAD_ATTACH: + { + int i; + /* It appears to be unsafe to acquire a lock here, since this */ + /* code is apparently not preeemptible on some systems. */ + /* (This is based on complaints, not on Microsoft's official */ + /* documentation, which says this should perform "only simple */ + /* inititalization tasks".) */ + /* Hence we make do with nonblocking synchronization. */ + + /* The following should be a noop according to the win32 */ + /* documentation. There is empirical evidence that it */ + /* isn't. - HB */ +# ifndef SMALL_CONFIG + if (GC_incremental) SetUnhandledExceptionFilter(GC_write_fault_handler); +# endif + + for (i = 0; InterlockedExchange(&thread_table[i].in_use,1) != 0; i++) { + /* Compare-and-swap would make this cleaner, but that's not */ + /* supported before Windows 98 and NT 4.0. In Windows 2000, */ + /* InterlockedExchange is supposed to be replaced by */ + /* InterlockedExchangePointer, but that's not really what I */ + /* want here. */ + if (i == MAX_THREADS - 1) + ABORT("too many threads"); + } + thread_table[i].id = GetCurrentThreadId(); + if (!DuplicateHandle(GetCurrentProcess(), + GetCurrentThread(), + GetCurrentProcess(), + &thread_table[i].handle, + 0, + 0, + DUPLICATE_SAME_ACCESS)) { + DWORD last_error = GetLastError(); + GC_printf1("Last error code: %lx\n", last_error); + ABORT("DuplicateHandle failed"); + } + thread_table[i].stack = GC_get_stack_base(); + /* If this thread is being created while we are trying to stop */ + /* the world, wait here. Hopefully this can't happen on any */ + /* systems that don't allow us to block here. */ + while (GC_please_stop) Sleep(20); + } + break; + case DLL_PROCESS_DETACH: + case DLL_THREAD_DETACH: + { + int i; + DWORD thread_id = GetCurrentThreadId(); + LOCK(); + for (i = 0; + thread_table[i].stack == 0 || thread_table[i].id != thread_id; + i++) { + if (i == MAX_THREADS - 1) + ABORT("thread not found on detach"); + } + thread_table[i].stack = 0; + thread_table[i].in_use = FALSE; + CloseHandle(thread_table[i].handle); + BZERO(&thread_table[i].context, sizeof(CONTEXT)); + UNLOCK(); + } + break; + } + return TRUE; +} + +#endif /* WIN32_THREADS */ diff --git a/gcmain.c b/gcmain.c new file mode 100644 index 0000000..08b28f2 --- /dev/null +++ b/gcmain.c @@ -0,0 +1,27 @@ +#ifndef GC_MAIN +#define GC_MAIN + +#if defined(AIX) || defined(linux) +/* to cope with Boehm GC... */ + +#define MAIN real_main + +#if defined(DEBIAN) +#include "gc/private/gc_priv.h" +#else +#include "private/gc_priv.h" +#endif +int real_main(int, char **, char **); + +int +main(int argc, char **argv, char **envp) +{ + int dummy; + GC_stackbottom = (ptr_t) (&dummy); + return (real_main(argc, argv, envp)); +} +#else +#define MAIN main +#endif + +#endif |