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+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.)