The BattleTech port spec, the Console 4.10 decompilation notes, the golden reference eggs, and the PEF/rsrc analysis tools come into the repo. The .sit archive and its extraction (Mac binaries, __MACOSX/.finf metadata) stay untracked for now. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
310 lines
12 KiB
Python
310 lines
12 KiB
Python
#!/usr/bin/env python3
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"""
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pefparse.py -- Minimal parser/disassembler for classic Mac OS CFM
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Preferred Executable Format (PEF) PowerPC containers ('Joy!peff pwpc').
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Written for the VWE Tesla restoration project to decompile "Console 4.10".
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Big-endian PowerPC. Pure-python; only external dep is capstone (optional,
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for the `dis` command).
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PEF reference: Apple "Mac OS Runtime Architectures", ch. Preferred
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Executable Format. Container header (40 bytes), then N section headers
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(28 bytes each), then the section name table, then section bodies.
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Usage:
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py -3.13 pefparse.py <file> header # container + section headers
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py -3.13 pefparse.py <file> loader # loader section: imports/exports/entry
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py -3.13 pefparse.py <file> strings # printable strings in code+data
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py -3.13 pefparse.py <file> dis [secidx] [start] [count] # disassemble
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py -3.13 pefparse.py <file> dump <secidx> <off> <len> # hex dump section body
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"""
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import sys, struct, string
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def u32(b, o): return struct.unpack_from('>I', b, o)[0]
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def u16(b, o): return struct.unpack_from('>H', b, o)[0]
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def s32(b, o): return struct.unpack_from('>i', b, o)[0]
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def u8(b, o): return b[o]
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SECTION_KINDS = {
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0: 'Code', 1: 'UnpackedData', 2: 'PatternInitData', 3: 'Constant',
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4: 'Loader', 5: 'Debug', 6: 'ExecutableData', 7: 'Exception', 8: 'Traceback',
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}
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class Section:
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def __init__(self, idx, hdr, container):
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(self.name_off, self.default_addr, self.total_size, self.unpacked_size,
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self.packed_size, self.container_off, self.kind, self.share,
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self.align, self.rsvd) = hdr
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self.idx = idx
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self.name = None
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self._container = container
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def raw(self):
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"""Raw (possibly packed) bytes of the section body as stored."""
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return self._container[self.container_off:self.container_off + self.packed_size]
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def data(self):
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"""Unpacked section body. PatternInitData(2) is RLE-decompressed."""
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raw = self.raw()
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if self.kind == 2:
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return unpack_pidata(raw, self.unpacked_size)
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return raw
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class PEF:
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def __init__(self, blob):
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self.blob = blob
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assert blob[0:4] == b'Joy!', "not a PEF (missing Joy!)"
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assert blob[4:8] == b'peff', "not a PEF (missing peff)"
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self.arch = blob[8:12]
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self.format_version = u32(blob, 12)
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self.timestamp = u32(blob, 16)
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self.old_def_ver = u32(blob, 20)
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self.old_imp_ver = u32(blob, 24)
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self.current_ver = u32(blob, 28)
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self.section_count = u16(blob, 32)
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self.inst_section_count = u16(blob, 34)
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self.sections = []
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o = 40
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for i in range(self.section_count):
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hdr = struct.unpack_from('>iIIIIIBBBB', blob, o)
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self.sections.append(Section(i, hdr, blob))
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o += 28
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# section name table follows the section headers
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name_tbl_off = o
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for s in self.sections:
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if s.name_off >= 0:
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s.name = read_cstr(blob, name_tbl_off + s.name_off)
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def loader(self):
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for s in self.sections:
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if s.kind == 4:
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return s
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return None
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def read_cstr(b, o):
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e = o
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while e < len(b) and b[e] != 0:
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e += 1
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return b[o:e].decode('mac_roman', 'replace')
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def unpack_pidata(raw, unpacked_size):
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"""Decompress PEF pattern-initialized data (RLE opcode stream)."""
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out = bytearray()
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i = 0
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n = len(raw)
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def argcount():
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nonlocal i
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val = 0
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while True:
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b = raw[i]; i += 1
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val = (val << 7) | (b & 0x7f)
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if not (b & 0x80):
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break
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return val
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while i < n:
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op = raw[i]; i += 1
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opcode = op >> 5
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count5 = op & 0x1f
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cnt = count5 if count5 else argcount()
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if opcode == 0: # Zero
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out.extend(b'\x00' * cnt)
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elif opcode == 1: # blockCopy
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out.extend(raw[i:i+cnt]); i += cnt
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elif opcode == 2: # repeatedBlock
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rpt = argcount()
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block = raw[i:i+cnt]; i += cnt
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for _ in range(rpt + 1):
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out.extend(block)
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elif opcode == 3: # interleaveRepeatBlockWithBlockCopy
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cs = argcount() # custom size
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rc = argcount() # repeat count
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common = raw[i:i+cnt]; i += cnt
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for _ in range(rc):
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out.extend(common)
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out.extend(raw[i:i+cs]); i += cs
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out.extend(common)
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elif opcode == 4: # interleaveRepeatBlockWithZero
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cs = argcount()
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rc = argcount()
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for _ in range(rc):
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out.extend(b'\x00' * cnt)
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out.extend(raw[i:i+cs]); i += cs
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out.extend(b'\x00' * cnt)
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else:
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raise ValueError("bad PIDATA opcode %d at %d" % (opcode, i))
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return bytes(out[:unpacked_size])
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# ---- Loader section parsing -------------------------------------------------
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def parse_loader(sec):
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b = sec.data()
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(main_section, main_offset, init_section, init_offset,
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term_section, term_offset, imported_lib_count, total_imported_sym_count,
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reloc_section_count, reloc_instr_offset, loader_strings_offset,
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export_hash_offset, export_hash_table_power, exported_symbol_count) = \
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struct.unpack_from('>iIiIiIIIIIIIII', b, 0)
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info = dict(main_section=main_section, main_offset=main_offset,
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init_section=init_section, init_offset=init_offset,
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term_section=term_section, term_offset=term_offset,
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imported_lib_count=imported_lib_count,
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total_imported_sym_count=total_imported_sym_count,
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reloc_section_count=reloc_section_count,
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reloc_instr_offset=reloc_instr_offset,
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loader_strings_offset=loader_strings_offset,
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export_hash_offset=export_hash_offset,
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export_hash_table_power=export_hash_table_power,
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exported_symbol_count=exported_symbol_count)
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# Imported library table: starts at offset 56
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libs = []
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o = 56
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for _ in range(imported_lib_count):
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(name_off, old_impl_ver, curr_ver, imp_sym_count,
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first_imp_sym, options, rsvdA, rsvdB) = struct.unpack_from('>IIIIIBBH', b, o)
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libs.append(dict(name_off=name_off, imp_sym_count=imp_sym_count,
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first_imp_sym=first_imp_sym, options=options))
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o += 24
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# Imported symbol table follows lib table
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imp_syms = []
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for _ in range(total_imported_sym_count):
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val = u32(b, o); o += 4
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sym_class = val >> 24
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name_off = val & 0x00FFFFFF
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imp_syms.append((sym_class, name_off))
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strtab = info['loader_strings_offset']
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for lib in libs:
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lib['name'] = read_cstr(b, strtab + lib['name_off'])
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syms = []
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for k in range(lib['first_imp_sym'], lib['first_imp_sym'] + lib['imp_sym_count']):
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cls, noff = imp_syms[k]
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syms.append((cls, read_cstr(b, strtab + noff)))
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lib['symbols'] = syms
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# Exported symbols (loader export hash). Layout:
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# export hash table (2^power u32 slots) at export_hash_offset
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# then key table (u32 per exported symbol)
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# then exported symbol table (10 bytes each: class/name u32, value u32, sect u16)
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exports = []
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hash_slots = 1 << export_hash_table_power
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key_tab_off = export_hash_offset + hash_slots * 4
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sym_tab_off = key_tab_off + exported_symbol_count * 4
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for k in range(exported_symbol_count):
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eo = sym_tab_off + k * 10
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clsname = u32(b, eo)
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value = u32(b, eo + 4)
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sect = u16(b, eo + 8)
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sym_class = clsname >> 24
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name_off = clsname & 0x00FFFFFF
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name = read_cstr(b, strtab + name_off)
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exports.append(dict(name=name, sym_class=sym_class, value=value, section=sect))
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return info, libs, exports
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SYM_CLASS = {0: 'code(TVect)', 1: 'data', 2: 'TVector', 3: 'TOC/Glue',
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4: 'linker/glue', 0x40: 'weak?'}
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# ---- commands ---------------------------------------------------------------
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def cmd_header(pef):
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print("PEF container: arch=%s formatVersion=%d timestamp=0x%08x currentVer=0x%08x"
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% (pef.arch.decode('ascii','replace'), pef.format_version, pef.timestamp, pef.current_ver))
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print("sectionCount=%d instantiatedSectionCount=%d" % (pef.section_count, pef.inst_section_count))
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print()
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print("idx name kind default_addr total unpacked packed fileoff align")
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for s in pef.sections:
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print("%3d %-14s %-19s 0x%08x %-9d %-9d %-9d 0x%06x %d" % (
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s.idx, (s.name or '-'), "%d:%s" % (s.kind, SECTION_KINDS.get(s.kind, '?')),
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s.default_addr, s.total_size, s.unpacked_size, s.packed_size,
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s.container_off, s.align))
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def cmd_loader(pef):
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lsec = pef.loader()
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if not lsec:
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print("no loader section"); return
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info, libs, exports = parse_loader(lsec)
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print("=== Loader header ===")
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for k, v in info.items():
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if isinstance(v, int) and v > 9 and k.endswith(('offset','section','count')) is False:
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print(" %-28s 0x%x (%d)" % (k, v, v))
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else:
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print(" %-28s %s" % (k, v))
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ms = info['main_section']
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print(" ENTRY main: section %d offset 0x%x" % (info['main_section'], info['main_offset']) if ms>=0 else " (no main)")
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print(" ENTRY init: section %d offset 0x%x" % (info['init_section'], info['init_offset']))
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print(" ENTRY term: section %d offset 0x%x" % (info['term_section'], info['term_offset']))
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print()
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print("=== Imported libraries (%d) ===" % len(libs))
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for lib in libs:
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print("\n-- %s (%d symbols) --" % (lib['name'], lib['imp_sym_count']))
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for j,(cls,name) in enumerate(lib['symbols']):
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print(" [%4d] cls=%s %s" % (lib['first_imp_sym']+j, SYM_CLASS.get(cls, hex(cls)), name))
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print()
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print("=== Exported symbols (%d) ===" % len(exports))
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for e in exports:
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print(" %-40s cls=%s value=0x%x sect=%d" % (e['name'], SYM_CLASS.get(e['sym_class'], hex(e['sym_class'])), e['value'], e['section']))
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def iter_strings(data, minlen=4):
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cur = bytearray()
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start = 0
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printable = set(bytes(string.printable, 'ascii')) - set(b'\t\n\r\x0b\x0c')
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printable |= set(b' ')
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for i, ch in enumerate(data):
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if ch in printable:
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if not cur:
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start = i
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cur.append(ch)
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else:
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if len(cur) >= minlen:
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yield start, cur.decode('ascii', 'replace')
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cur = bytearray()
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if len(cur) >= minlen:
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yield start, cur.decode('ascii', 'replace')
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def cmd_strings(pef, minlen=4):
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for s in pef.sections:
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if s.kind in (0,1,2,3):
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data = s.data()
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print("### section %d (%s) base=0x%x ###" % (s.idx, SECTION_KINDS.get(s.kind), s.default_addr))
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for off, st in iter_strings(data, minlen):
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print("0x%08x %s" % (s.default_addr + off, st))
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def cmd_dump(pef, secidx, off, length):
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data = pef.sections[secidx].data()
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chunk = data[off:off+length]
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for i in range(0, len(chunk), 16):
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row = chunk[i:i+16]
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hexs = ' '.join('%02x' % c for c in row)
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asci = ''.join(chr(c) if 32 <= c < 127 else '.' for c in row)
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print('%08x %-48s %s' % (off+i, hexs, asci))
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def cmd_dis(pef, secidx=0, start=0, count=200):
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import capstone
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sec = pef.sections[secidx]
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data = sec.data()
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md = capstone.Cs(capstone.CS_ARCH_PPC, capstone.CS_MODE_32 | capstone.CS_MODE_BIG_ENDIAN)
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md.detail = False
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base = sec.default_addr
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for insn in md.disasm(data[start:start+count*4], base+start):
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print("0x%08x %-8s %s" % (insn.address, insn.mnemonic, insn.op_str))
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def main():
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path = sys.argv[1]
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cmd = sys.argv[2] if len(sys.argv) > 2 else 'header'
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with open(path, 'rb') as f:
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blob = f.read()
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pef = PEF(blob)
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if cmd == 'header': cmd_header(pef)
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elif cmd == 'loader': cmd_loader(pef)
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elif cmd == 'strings':
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minlen = int(sys.argv[3]) if len(sys.argv) > 3 else 4
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cmd_strings(pef, minlen)
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elif cmd == 'dump':
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cmd_dump(pef, int(sys.argv[3]), int(sys.argv[4],0), int(sys.argv[5],0))
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elif cmd == 'dis':
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secidx = int(sys.argv[3]) if len(sys.argv) > 3 else 0
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start = int(sys.argv[4],0) if len(sys.argv) > 4 else 0
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count = int(sys.argv[5],0) if len(sys.argv) > 5 else 200
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cmd_dis(pef, secidx, start, count)
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else:
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print("unknown cmd", cmd)
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if __name__ == '__main__':
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main()
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