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| author | bloodstalker <thabogre@gmail.com> | 2018-03-12 13:00:46 +0000 |
|---|---|---|
| committer | bloodstalker <thabogre@gmail.com> | 2018-03-12 13:00:46 +0000 |
| commit | ab8c8bf7f6d5fec080cfae5155ae891af214674f (patch) | |
| tree | 97c01489d3b17cf7e6ed5e6913ef5594c849a88a /bfd | |
| parent | the jmp table is working now. you get member set and get methods, and an iter... (diff) | |
| download | mutator-ab8c8bf7f6d5fec080cfae5155ae891af214674f.tar.gz mutator-ab8c8bf7f6d5fec080cfae5155ae891af214674f.zip | |
added a lua module for asmrewriter, will soon add docs. you can try the new module by running asmtest.lua or demo2.lua did some cosmetic fixes to load bfd so it doesnt suck as hard when you get dumps
Diffstat (limited to 'bfd')
| -rwxr-xr-x | bfd/load.py | 216 |
1 files changed, 127 insertions, 89 deletions
diff --git a/bfd/load.py b/bfd/load.py index d3480a7..270ebec 100755 --- a/bfd/load.py +++ b/bfd/load.py @@ -126,6 +126,48 @@ class ELF_RELA(): self.r_info = r_info self.r_addend = r_addend +def ffs(offset,header_list, numbered, *args): + cn = Colors.green + ch = Colors.cyan + cd = Colors.blue + cb = Colors.BOLD + ci = Colors.red + ce = Colors.ENDC + max_column_width = [] + lines = [] + numbers_f = [] + dummy = [] + + if numbered: + numbers_f.extend(range(1, len(args[-1])+1)) + max_column_width.append(max([len(repr(number)) for number in numbers_f])) + header_list.insert(0, "idx") + + for arg in args: + max_column_width.append(max([len(repr(argette)) for argette in arg])) + + index = range(0, len(header_list)) + for header, width, i in zip(header_list, max_column_width, index): + max_column_width[i] = max(len(header), width) + offset + + for i in index: + dummy.append(ch + cb + header_list[i].ljust(max_column_width[i]) + ce) + lines.append("".join(dummy)) + dummy.clear() + + index2 = range(0, len(args[-1])) + for i in index2: + if numbered: + dummy.append(ci+cb+repr(i).ljust(max_column_width[0])+ce) + for arg, width in zip(args, max_column_width[1:]): + dummy.append(cd+repr(arg[i]).ljust(width)+ce) + else: + for arg, width in zip(args, max_column_width): + dummy.append(cd+repr(arg[i]).ljust(width)+ce) + lines.append("".join(dummy)) + dummy.clear() + return lines + def get_section_type_string(number): if number == 0x0: return "NULL" if number == 0x1: return "PROGBITS" @@ -710,9 +752,12 @@ class ELF(object): self.ph_dyn_ent.append(ph_dynamic_entry(d_tag, d_un)) def dump_ph_dyn_entries(self): - for ph_dyn_e in self.ph_dyn_ent: - print(Colors.green + "d_tag: " + Colors.blue + get_ph_dynamic_ent_tag_type(ph_dyn_e.d_tag) + Colors.ENDC, end="\t") - print(Colors.green + "d_un: " + Colors.blue + repr(ph_dyn_e.d_un) + Colors.ENDC) + header = ["d_tag", "d_un"] + tag_list = [get_ph_dynamic_ent_tag_type(ph.d_tag) for ph in self.ph_dyn_ent] + un_list = [ph.d_un for ph in self.ph_dyn_ent] + lines = ffs(2, header, True, tag_list, un_list) + for line in lines: + print(line) def dump_funcs(self, dump_b): ret_list = [] @@ -793,32 +838,28 @@ class ELF(object): return ret_list def dump_symbol_idx(self): - print(Colors.green + "symbol:" + Colors.ENDC) - for iter in self.string_tb_e: - print(Colors.blue + "name: " + Colors.cyan + repr(int.from_bytes(iter.st_name, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "size: " + Colors.cyan + repr(int.from_bytes(iter.st_size, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "value: " + Colors.cyan + repr(int.from_bytes(iter.st_value, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "info: " + Colors.cyan + repr(int.from_bytes(iter.st_info, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "other: " + Colors.cyan + repr(int.from_bytes(iter.st_other, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "shndx: " + Colors.cyan + repr(int.from_bytes(iter.st_shndx, byteorder="little")) + Colors.ENDC) - print(Colors.green + "dyn symbol:" + Colors.ENDC) - for iter in self.string_tb_e_dyn: - print(Colors.blue + "name: " + Colors.cyan + repr(int.from_bytes(iter.st_name, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "size: " + Colors.cyan + repr(int.from_bytes(iter.st_size, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "value: " + Colors.cyan + repr(int.from_bytes(iter.st_value, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "info: " + Colors.cyan + repr(int.from_bytes(iter.st_info, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "other: " + Colors.cyan + repr(int.from_bytes(iter.st_other, byteorder="little")) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "shndx: " + Colors.cyan + repr(int.from_bytes(iter.st_shndx, byteorder="little")) + Colors.ENDC) + header = ["name", "size", "value", "info", "other", "shndx"] + name_list = [byte2int(st.st_name) for st in self.string_tb_e] + size_list = [byte2int(st.st_size) for st in self.string_tb_e] + value_list = [byte2int(st.st_value) for st in self.string_tb_e] + info_list = [byte2int(st.st_info) for st in self.string_tb_e] + other_list = [byte2int(st.st_other) for st in self.string_tb_e] + shndx_list = [byte2int(st.st_shndx) for st in self.string_tb_e] + lines = ffs(2, header, True, name_list, size_list, value_list, info_list, other_list, shndx_list) + print(Colors.green + Colors.BOLD + "symbol:" + Colors.ENDC) + for line in lines: + print(line) + print(Colors.green + Colors.BOLD + "dyn symbol:" + Colors.ENDC) + header = ["name", "size", "value", "info", "other", "shndx"] + name_list = [byte2int(st.st_name) for st in self.string_tb_e_dyn] + size_list = [byte2int(st.st_size) for st in self.string_tb_e_dyn] + value_list = [byte2int(st.st_value) for st in self.string_tb_e_dyn] + info_list = [byte2int(st.st_info) for st in self.string_tb_e_dyn] + other_list = [byte2int(st.st_other) for st in self.string_tb_e_dyn] + shndx_list = [byte2int(st.st_shndx) for st in self.string_tb_e_dyn] + lines = ffs(2, header, True, name_list, size_list, value_list, info_list, other_list, shndx_list) + for line in lines: + print(line) def dump_header(self): print("------------------------------------------------------------------------------") @@ -846,48 +887,37 @@ class ELF(object): print("------------------------------------------------------------------------------") def dump_phdrs(self): - print(Colors.green + Colors.BOLD + "pheaders:" + Colors.ENDC) - for i in range(0, int.from_bytes(self.elfhdr.e_phnum, byteorder="little", signed=False)): - type = get_ph_type(byte2int(self.phdr[i].p_type)) - print(Colors.blue + "p_type: " + Colors.cyan + type + Colors.ENDC, end="") - flags = get_elf_seg_flag(byte2int(self.phdr[i].p_flags)) - print(Colors.blue + " p_flags: " + Colors.cyan + flags + Colors.ENDC, end="") - print(Colors.blue + " p_offset: " + Colors.cyan + repr(byte2int(self.phdr[i].p_offset)) + Colors.ENDC, end="") - print(Colors.blue + " p_vaddr: " + Colors.cyan + repr(byte2int(self.phdr[i].p_vaddr)) + Colors.ENDC, end="") - print(Colors.blue + " p_paddr: " + Colors.cyan + repr(byte2int(self.phdr[i].p_paddr)) + Colors.ENDC, end="") - print(Colors.blue + " p_filesz: " + Colors.cyan + repr(byte2int(self.phdr[i].p_filesz)) + Colors.ENDC, end="") - print(Colors.blue + " p_memsz: " + Colors.cyan + repr(byte2int(self.phdr[i].p_memsz)) + Colors.ENDC, end="") - print(Colors.blue + " p_flags2: " + Colors.cyan + repr(self.phdr[i].p_flags2) + Colors.ENDC, end="") - print(Colors.blue + " p_align: " + Colors.cyan + repr(byte2int(self.phdr[i].p_align)) + Colors.ENDC) + header = ["p_type", "p_flags", "p_offset", "p_vaddr", "p_paddr", "p_filesz", "p_memsz", "p_flags2", "p_align"] + type_list = [get_ph_type(byte2int(phdr.p_type)) for phdr in self.phdr] + flags_list = [get_elf_seg_flag(byte2int(phdr.p_type)) for phdr in self.phdr] + offset_list = [byte2int(phdr.p_offset) for phdr in self.phdr] + vaddr_list = [byte2int(phdr.p_vaddr) for phdr in self.phdr] + paddr_list = [byte2int(phdr.p_paddr) for phdr in self.phdr] + filesz_list = [byte2int(phdr.p_filesz) for phdr in self.phdr] + memsz_list = [byte2int(phdr.p_memsz) for phdr in self.phdr] + flags2_list = [phdr.p_flags2 for phdr in self.phdr] + align_list = [byte2hex(phdr.p_align) for phdr in self.phdr] + + lines = ffs(2, header, True, type_list, flags_list, offset_list, vaddr_list, paddr_list, filesz_list, memsz_list, flags2_list, align_list) + for line in lines: + print(line) def dump_shdrs(self): - print(Colors.green + Colors.BOLD + "sheaders:" + Colors.ENDC) - counter = int() - for i in range(0, int.from_bytes(self.elfhdr.e_shnum, byteorder="little", signed=False)): - name = self.read_section_name(byte2int(self.shhdr[i].sh_name)) - print(Colors.green + Colors.BOLD + repr(counter) + Colors.ENDC, end="") - print(" ", end="") - print(Colors.blue + "sh_name: " + Colors.cyan + name + Colors.ENDC, end="") - print("\t", end="") - type = get_section_type_string(byte2int(self.shhdr[i].sh_type)) - print(Colors.blue + "sh_type: " + Colors.cyan + type + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_flags: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_flags)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_addr: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_addr)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_offset: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_offset)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_size: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_size)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_link: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_link)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_info: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_info)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_addralign: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_addralign)) + Colors.ENDC, end="") - print("\t", end="") - print(Colors.blue + "sh_entsize: " + Colors.cyan + repr(byte2int(self.shhdr[i].sh_entsize)) + Colors.ENDC) - counter += 1 + header = ["sh_name", "sh_type", "sh_flags", "sh_addr", "sh_offset", "sh_size", "sh_link", "sh_info", "sh_addralign", "sh_entsize"] + name_list = [self.read_section_name(byte2int(shhdr.sh_name)) for shhdr in self.shhdr] + type_list = [get_section_type_string(byte2int(shhdr.sh_type)) for shhdr in self.shhdr] + flag_list = [byte2int(shhdr.sh_flags) for shhdr in self.shhdr] + addr_list = [byte2int(shhdr.sh_addr) for shhdr in self.shhdr] + offset_list = [byte2int(shhdr.sh_offset) for shhdr in self.shhdr] + size_list = [byte2int(shhdr.sh_size) for shhdr in self.shhdr] + link_list = [byte2int(shhdr.sh_link) for shhdr in self.shhdr] + info_list = [byte2int(shhdr.sh_info) for shhdr in self.shhdr] + allign_list = [byte2int(shhdr.sh_addralign) for shhdr in self.shhdr] + entsize_list = [byte2int(shhdr.sh_entsize) for shhdr in self.shhdr] + + lines = ffs(2, header, True, name_list, type_list, flag_list, addr_list, offset_list, size_list, link_list, info_list, allign_list, entsize_list) + for line in lines: + print(line) def dump_symbol_tb(self, name, type): for i in range(0, byte2int(self.elfhdr.e_shnum)): @@ -902,28 +932,36 @@ class ELF(object): def dump_st_entries(self): - for entry in self.string_tb_e: - print(Colors.green + "name index: " + Colors.ENDC + repr(byte2int(entry.st_name)), end="") - print(Colors.green + " name: " + Colors.ENDC + repr("".join(self.get_st_entry_symbol_string(byte2int(entry.st_name), ".strtab"))), end="") - print(Colors.green + " value: " + Colors.ENDC + repr(byte2int(entry.st_value)), end="") - print(Colors.green + " size: " + Colors.ENDC + repr(byte2int(entry.st_size)), end="") - print(Colors.green + " info: " + Colors.ENDC + repr(byte2int(entry.st_info)), end="") - print(Colors.green + " other: " + Colors.ENDC + repr(byte2int(entry.st_other)), end="") - print(Colors.green + " shndx: " + Colors.ENDC + repr(byte2int(entry.st_shndx)), end="") - print(Colors.green + " bind: " + Colors.ENDC + get_elf_st_bind_string(entry.st_bind), end="") - print(Colors.green + " type: " + Colors.ENDC + get_elf_st_type_string(entry.st_type)) + header = ["name_index", "name", "value", "size", "info", "other", "shndx", "bind", "type"] + idx_list = [byte2int(entry.st_name) for entry in self.string_tb_e] + name_list = [ "".join(self.get_st_entry_symbol_string(byte2int(entry.st_name), ".strtab")) for entry in self.string_tb_e] + value_list = [byte2int(entry.st_value) for entry in self.string_tb_e] + size_list = [byte2int(entry.st_size) for entry in self.string_tb_e] + info_list = [byte2int(entry.st_info) for entry in self.string_tb_e] + other_list = [byte2int(entry.st_other) for entry in self.string_tb_e] + shndx_list = [byte2int(entry.st_shndx) for entry in self.string_tb_e] + bind_list = [get_elf_st_bind_string(entry.st_bind) for entry in self.string_tb_e] + type_list = [get_elf_st_type_string(entry.st_type) for entry in self.string_tb_e] + + lines = ffs(2, header, True, idx_list, name_list, value_list, size_list, info_list, other_list, shndx_list, bind_list, type_list) + for line in lines: + print(line) def dump_st_entries_dyn(self): - for entry in self.string_tb_e_dyn: - print(Colors.green + "name index: " + Colors.ENDC + repr(byte2int(entry.st_name)), end="") - print(Colors.green + " name: " + Colors.ENDC + repr("".join(self.get_st_entry_symbol_string(byte2int(entry.st_name), ".dynstr"))), end="") - print(Colors.green + " value: " + Colors.ENDC + repr(byte2int(entry.st_value)), end="") - print(Colors.green + " size: " + Colors.ENDC + repr(byte2int(entry.st_size)), end="") - print(Colors.green + " info: " + Colors.ENDC + repr(byte2int(entry.st_info)), end="") - print(Colors.green + " other: " + Colors.ENDC + repr(byte2int(entry.st_other)), end="") - print(Colors.green + " shndx: " + Colors.ENDC + repr(byte2int(entry.st_shndx)), end="") - print(Colors.green + " bind: " + Colors.ENDC + get_elf_st_bind_string(entry.st_bind), end="") - print(Colors.green + " type: " + Colors.ENDC + get_elf_st_type_string(entry.st_type)) + header = ["name_index", "name", "value", "size", "info", "other", "shndx", "bind", "type"] + idx_list = [byte2int(entry.st_name) for entry in self.string_tb_e_dyn] + name_list = [ "".join(self.get_st_entry_symbol_string(byte2int(entry.st_name), ".dynstr")) for entry in self.string_tb_e_dyn] + value_list = [byte2int(entry.st_value) for entry in self.string_tb_e_dyn] + size_list = [byte2int(entry.st_size) for entry in self.string_tb_e_dyn] + info_list = [byte2int(entry.st_info) for entry in self.string_tb_e_dyn] + other_list = [byte2int(entry.st_other) for entry in self.string_tb_e_dyn] + shndx_list = [byte2int(entry.st_shndx) for entry in self.string_tb_e_dyn] + bind_list = [get_elf_st_bind_string(entry.st_bind) for entry in self.string_tb_e_dyn] + type_list = [get_elf_st_type_string(entry.st_type) for entry in self.string_tb_e_dyn] + + lines = ffs(2, header, True, idx_list, name_list, value_list, size_list, info_list, other_list, shndx_list, bind_list, type_list) + for line in lines: + print(line) def get_st_entry_symbol_string(self, index, section_name): symbol = [] |