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|
#!/usr/bin/python3
# ELF support functionality for Python.
# Copyright (C) 2022-2023 Free Software Foundation, Inc.
# This file is part of the GNU C Library.
#
# The GNU C Library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# The GNU C Library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with the GNU C Library; if not, see
# <https://www.gnu.org/licenses/>.
"""Basic ELF parser.
Use Image.readfile(path) to read an ELF file into memory and begin
parsing it.
"""
import collections
import functools
import os
import struct
import glibcpp
class _MetaNamedValue(type):
"""Used to set up _NamedValue subclasses."""
@classmethod
def __prepare__(metacls, cls, bases, **kwds):
# Indicates an int-based class. Needed for types like Shn.
int_based = False
for base in bases:
if issubclass(base, int):
int_based = int
break
return dict(by_value={},
by_name={},
prefix=None,
_int_based=int_based)
def __contains__(self, other):
return other in self.by_value
class _NamedValue(metaclass=_MetaNamedValue):
"""Typed, named integer constants.
Constants have the following instance attributes:
name: The full name of the constant (e.g., "PT_NULL").
short_name: The name with of the constant without the prefix ("NULL").
value: The integer value of the constant.
The following class attributes are available:
by_value: A dict mapping integers to constants.
by_name: A dict mapping strings to constants.
prefix: A string that is removed from the start of short names, or None.
"""
def __new__(cls, arg0, arg1=None):
"""Instance creation.
For the one-argument form, the argument must be a string, an
int, or an instance of this class. Strings are looked up via
by_name. Values are looked up via by_value; if value lookup
fails, a new unnamed instance is returned. Instances of this
class a re returned as-is.
The two-argument form expects the name (a string) and the
value (an integer). A new instance is created in this case.
The instance is not registered in the by_value/by_name
dictionaries (but the caller can do that).
"""
typ0 = type(arg0)
if arg1 is None:
if isinstance(typ0, cls):
# Re-use the existing object.
return arg0
if typ0 is int:
by_value = cls.by_value
try:
return by_value[arg0]
except KeyError:
# Create a new object of the requested value.
if cls._int_based:
result = int.__new__(cls, arg0)
else:
result = object.__new__(cls)
result.value = arg0
result.name = None
return result
if typ0 is str:
by_name = cls.by_name
try:
return by_name[arg0]
except KeyError:
raise ValueError('unknown {} constant: {!r}'.format(
cls.__name__, arg0))
else:
# Types for the two-argument form are rigid.
if typ0 is not str and typ0 is not None:
raise ValueError('type {} of name {!r} should be str'.format(
typ0.__name__, arg0))
if type(arg1) is not int:
raise ValueError('type {} of value {!r} should be int'.format(
type(arg1).__name__, arg1))
# Create a new named constants.
if cls._int_based:
result = int.__new__(cls, arg1)
else:
result = object.__new__(cls)
result.value = arg1
result.name = arg0
# Set up the short_name attribute.
prefix = cls.prefix
if prefix and arg0.startswith(prefix):
result.short_name = arg0[len(prefix):]
else:
result.short_name = arg0
return result
def __str__(self):
name = self.name
if name:
return name
else:
return str(self.value)
def __repr__(self):
name = self.name
if name:
return name
else:
return '{}({})'.format(self.__class__.__name__, self.value)
def __setattr__(self, name, value):
# Prevent modification of the critical attributes once they
# have been set.
if name in ('name', 'value', 'short_name') and hasattr(self, name):
raise AttributeError('can\'t set attribute {}'.format(name))
object.__setattr__(self, name, value)
@functools.total_ordering
class _TypedConstant(_NamedValue):
"""Base class for integer-valued optionally named constants.
This type is not an integer type.
"""
def __eq__(self, other):
return isinstance(other, self.__class__) and self.value == other.value
def __lt__(self, other):
return isinstance(other, self.__class__) and self.value <= other.value
def __hash__(self):
return hash(self.value)
class _IntConstant(_NamedValue, int):
"""Base class for integer-like optionally named constants.
Instances compare equal to the integer of the same value, and can
be used in integer arithmetic.
"""
pass
class _FlagConstant(_TypedConstant, int):
pass
def _parse_elf_h():
"""Read ../elf/elf.h and return a dict with the constants in it."""
path = os.path.join(os.path.dirname(os.path.realpath(__file__)),
'..', 'elf', 'elf.h')
class TokenizerReporter:
"""Report tokenizer errors to standard output."""
def __init__(self):
self.errors = 0
def error(self, token, message):
self.errors += 1
print('{}:{}:{}: error: {}'.format(
path, token.line, token.column, message))
reporter = TokenizerReporter()
with open(path) as inp:
tokens = glibcpp.tokenize_c(inp.read(), reporter)
if reporter.errors:
raise IOError('parse error in elf.h')
class MacroReporter:
"""Report macro errors to standard output."""
def __init__(self):
self.errors = 0
def error(self, line, message):
self.errors += 1
print('{}:{}: error: {}'.format(path, line, message))
def note(self, line, message):
print('{}:{}: note: {}'.format(path, line, message))
reporter = MacroReporter()
result = glibcpp.macro_eval(glibcpp.macro_definitions(tokens), reporter)
if reporter.errors:
raise IOError('parse error in elf.h')
return result
_elf_h = _parse_elf_h()
del _parse_elf_h
_elf_h_processed = set()
def _register_elf_h(cls, prefix=None, skip=(), ranges=False, parent=None):
prefix = prefix or cls.prefix
if not prefix:
raise ValueError('missing prefix for {}'.format(cls.__name__))
by_value = cls.by_value
by_name = cls.by_name
processed = _elf_h_processed
skip = set(skip)
skip.add(prefix + 'NUM')
if ranges:
skip.add(prefix + 'LOOS')
skip.add(prefix + 'HIOS')
skip.add(prefix + 'LOPROC')
skip.add(prefix + 'HIPROC')
cls.os_range = (_elf_h[prefix + 'LOOS'], _elf_h[prefix + 'HIOS'])
cls.proc_range = (_elf_h[prefix + 'LOPROC'], _elf_h[prefix + 'HIPROC'])
# Inherit the prefix from the parent if not set.
if parent and cls.prefix is None and parent.prefix is not None:
cls.prefix = parent.prefix
processed_len_start = len(processed)
for name, value in _elf_h.items():
if name in skip or name in processed:
continue
if name.startswith(prefix):
processed.add(name)
if value in by_value:
raise ValueError('duplicate value {}: {}, {}'.format(
value, name, by_value[value]))
obj = cls(name, value)
by_value[value] = obj
by_name[name] = obj
setattr(cls, name, obj)
if parent:
# Make the symbolic name available through the parent as well.
parent.by_name[name] = obj
setattr(parent, name, obj)
if len(processed) == processed_len_start:
raise ValueError('nothing matched prefix {!r}'.format(prefix))
class ElfClass(_TypedConstant):
"""ELF word size. Type of EI_CLASS values."""
_register_elf_h(ElfClass, prefix='ELFCLASS')
class ElfData(_TypedConstant):
"""ELF endianness. Type of EI_DATA values."""
_register_elf_h(ElfData, prefix='ELFDATA')
class Machine(_TypedConstant):
"""ELF machine type. Type of values in Ehdr.e_machine field."""
prefix = 'EM_'
_register_elf_h(Machine, skip=('EM_ARC_A5',))
class Et(_TypedConstant):
"""ELF file type. Type of ET_* values and the Ehdr.e_type field."""
prefix = 'ET_'
_register_elf_h(Et, ranges=True)
class Shn(_IntConstant):
"""ELF reserved section indices."""
prefix = 'SHN_'
class ShnMIPS(Shn):
"""Supplemental SHN_* constants for EM_MIPS."""
class ShnPARISC(Shn):
"""Supplemental SHN_* constants for EM_PARISC."""
_register_elf_h(ShnMIPS, prefix='SHN_MIPS_', parent=Shn)
_register_elf_h(ShnPARISC, prefix='SHN_PARISC_', parent=Shn)
_register_elf_h(Shn, skip='SHN_LORESERVE SHN_HIRESERVE'.split(), ranges=True)
class Sht(_TypedConstant):
"""ELF section types. Type of SHT_* values."""
prefix = 'SHT_'
class ShtALPHA(Sht):
"""Supplemental SHT_* constants for EM_ALPHA."""
class ShtARC(Sht):
"""Supplemental SHT_* constants for EM_ARC."""
class ShtARM(Sht):
"""Supplemental SHT_* constants for EM_ARM."""
class ShtCSKY(Sht):
"""Supplemental SHT_* constants for EM_CSKY."""
class ShtIA_64(Sht):
"""Supplemental SHT_* constants for EM_IA_64."""
class ShtMIPS(Sht):
"""Supplemental SHT_* constants for EM_MIPS."""
class ShtPARISC(Sht):
"""Supplemental SHT_* constants for EM_PARISC."""
class ShtRISCV(Sht):
"""Supplemental SHT_* constants for EM_RISCV."""
_register_elf_h(ShtALPHA, prefix='SHT_ALPHA_', parent=Sht)
_register_elf_h(ShtARC, prefix='SHT_ARC_', parent=Sht)
_register_elf_h(ShtARM, prefix='SHT_ARM_', parent=Sht)
_register_elf_h(ShtCSKY, prefix='SHT_CSKY_', parent=Sht)
_register_elf_h(ShtIA_64, prefix='SHT_IA_64_', parent=Sht)
_register_elf_h(ShtMIPS, prefix='SHT_MIPS_', parent=Sht)
_register_elf_h(ShtPARISC, prefix='SHT_PARISC_', parent=Sht)
_register_elf_h(ShtRISCV, prefix='SHT_RISCV_', parent=Sht)
_register_elf_h(Sht, ranges=True,
skip='SHT_LOSUNW SHT_HISUNW SHT_LOUSER SHT_HIUSER'.split())
class Pf(_FlagConstant):
"""Program header flags. Type of Phdr.p_flags values."""
prefix = 'PF_'
class PfARM(Pf):
"""Supplemental PF_* flags for EM_ARM."""
class PfHP(Pf):
"""Supplemental PF_* flags for HP-UX."""
class PfIA_64(Pf):
"""Supplemental PF_* flags for EM_IA_64."""
class PfMIPS(Pf):
"""Supplemental PF_* flags for EM_MIPS."""
class PfPARISC(Pf):
"""Supplemental PF_* flags for EM_PARISC."""
_register_elf_h(PfARM, prefix='PF_ARM_', parent=Pf)
_register_elf_h(PfHP, prefix='PF_HP_', parent=Pf)
_register_elf_h(PfIA_64, prefix='PF_IA_64_', parent=Pf)
_register_elf_h(PfMIPS, prefix='PF_MIPS_', parent=Pf)
_register_elf_h(PfPARISC, prefix='PF_PARISC_', parent=Pf)
_register_elf_h(Pf, skip='PF_MASKOS PF_MASKPROC'.split())
class Shf(_FlagConstant):
"""Section flags. Type of Shdr.sh_type values."""
prefix = 'SHF_'
class ShfALPHA(Shf):
"""Supplemental SHF_* constants for EM_ALPHA."""
class ShfARM(Shf):
"""Supplemental SHF_* constants for EM_ARM."""
class ShfIA_64(Shf):
"""Supplemental SHF_* constants for EM_IA_64."""
class ShfMIPS(Shf):
"""Supplemental SHF_* constants for EM_MIPS."""
class ShfPARISC(Shf):
"""Supplemental SHF_* constants for EM_PARISC."""
_register_elf_h(ShfALPHA, prefix='SHF_ALPHA_', parent=Shf)
_register_elf_h(ShfARM, prefix='SHF_ARM_', parent=Shf)
_register_elf_h(ShfIA_64, prefix='SHF_IA_64_', parent=Shf)
_register_elf_h(ShfMIPS, prefix='SHF_MIPS_', parent=Shf)
_register_elf_h(ShfPARISC, prefix='SHF_PARISC_', parent=Shf)
_register_elf_h(Shf, skip='SHF_MASKOS SHF_MASKPROC'.split())
class Stb(_TypedConstant):
"""ELF symbol binding type."""
prefix = 'STB_'
_register_elf_h(Stb, ranges=True)
class Stt(_TypedConstant):
"""ELF symbol type."""
prefix = 'STT_'
class SttARM(Sht):
"""Supplemental STT_* constants for EM_ARM."""
class SttPARISC(Sht):
"""Supplemental STT_* constants for EM_PARISC."""
class SttSPARC(Sht):
"""Supplemental STT_* constants for EM_SPARC."""
STT_SPARC_REGISTER = 13
class SttX86_64(Sht):
"""Supplemental STT_* constants for EM_X86_64."""
_register_elf_h(SttARM, prefix='STT_ARM_', parent=Stt)
_register_elf_h(SttPARISC, prefix='STT_PARISC_', parent=Stt)
_register_elf_h(SttSPARC, prefix='STT_SPARC_', parent=Stt)
_register_elf_h(Stt, ranges=True)
class Pt(_TypedConstant):
"""ELF program header types. Type of Phdr.p_type."""
prefix = 'PT_'
class PtAARCH64(Pt):
"""Supplemental PT_* constants for EM_AARCH64."""
class PtARM(Pt):
"""Supplemental PT_* constants for EM_ARM."""
class PtHP(Pt):
"""Supplemental PT_* constants for HP-U."""
class PtIA_64(Pt):
"""Supplemental PT_* constants for EM_IA_64."""
class PtMIPS(Pt):
"""Supplemental PT_* constants for EM_MIPS."""
class PtPARISC(Pt):
"""Supplemental PT_* constants for EM_PARISC."""
class PtRISCV(Pt):
"""Supplemental PT_* constants for EM_RISCV."""
_register_elf_h(PtAARCH64, prefix='PT_AARCH64_', parent=Pt)
_register_elf_h(PtARM, prefix='PT_ARM_', parent=Pt)
_register_elf_h(PtHP, prefix='PT_HP_', parent=Pt)
_register_elf_h(PtIA_64, prefix='PT_IA_64_', parent=Pt)
_register_elf_h(PtMIPS, prefix='PT_MIPS_', parent=Pt)
_register_elf_h(PtPARISC, prefix='PT_PARISC_', parent=Pt)
_register_elf_h(PtRISCV, prefix='PT_RISCV_', parent=Pt)
_register_elf_h(Pt, skip='PT_LOSUNW PT_HISUNW'.split(), ranges=True)
class Dt(_TypedConstant):
"""ELF dynamic segment tags. Type of Dyn.d_val."""
prefix = 'DT_'
class DtAARCH64(Dt):
"""Supplemental DT_* constants for EM_AARCH64."""
class DtALPHA(Dt):
"""Supplemental DT_* constants for EM_ALPHA."""
class DtALTERA_NIOS2(Dt):
"""Supplemental DT_* constants for EM_ALTERA_NIOS2."""
class DtIA_64(Dt):
"""Supplemental DT_* constants for EM_IA_64."""
class DtMIPS(Dt):
"""Supplemental DT_* constants for EM_MIPS."""
class DtPPC(Dt):
"""Supplemental DT_* constants for EM_PPC."""
class DtPPC64(Dt):
"""Supplemental DT_* constants for EM_PPC64."""
class DtRISCV(Dt):
"""Supplemental DT_* constants for EM_RISCV."""
class DtSPARC(Dt):
"""Supplemental DT_* constants for EM_SPARC."""
_dt_skip = '''
DT_ENCODING DT_PROCNUM
DT_ADDRRNGLO DT_ADDRRNGHI DT_ADDRNUM
DT_VALRNGLO DT_VALRNGHI DT_VALNUM
DT_VERSIONTAGNUM DT_EXTRANUM
DT_AARCH64_NUM
DT_ALPHA_NUM
DT_IA_64_NUM
DT_MIPS_NUM
DT_PPC_NUM
DT_PPC64_NUM
DT_SPARC_NUM
'''.strip().split()
_register_elf_h(DtAARCH64, prefix='DT_AARCH64_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtALPHA, prefix='DT_ALPHA_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtALTERA_NIOS2, prefix='DT_NIOS2_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtIA_64, prefix='DT_IA_64_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtMIPS, prefix='DT_MIPS_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtPPC, prefix='DT_PPC_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtPPC64, prefix='DT_PPC64_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtRISCV, prefix='DT_RISCV_', skip=_dt_skip, parent=Dt)
_register_elf_h(DtSPARC, prefix='DT_SPARC_', skip=_dt_skip, parent=Dt)
_register_elf_h(Dt, skip=_dt_skip, ranges=True)
del _dt_skip
# Constant extraction is complete.
del _register_elf_h
del _elf_h
class StInfo:
"""ELF symbol binding and type. Type of the Sym.st_info field."""
def __init__(self, arg0, arg1=None):
if isinstance(arg0, int) and arg1 is None:
self.bind = Stb(arg0 >> 4)
self.type = Stt(arg0 & 15)
else:
self.bind = Stb(arg0)
self.type = Stt(arg1)
def value(self):
"""Returns the raw value for the bind/type combination."""
return (self.bind.value() << 4) | (self.type.value())
# Type in an ELF file. Used for deserialization.
_Layout = collections.namedtuple('_Layout', 'unpack size')
def _define_layouts(baseclass: type, layout32: str, layout64: str,
types=None, fields32=None):
"""Assign variants dict to baseclass.
The variants dict is indexed by (ElfClass, ElfData) pairs, and its
values are _Layout instances.
"""
struct32 = struct.Struct(layout32)
struct64 = struct.Struct(layout64)
# Check that the struct formats yield the right number of components.
for s in (struct32, struct64):
example = s.unpack(b' ' * s.size)
if len(example) != len(baseclass._fields):
raise ValueError('{!r} yields wrong field count: {} != {}'.format(
s.format, len(example), len(baseclass._fields)))
# Check that field names in types are correct.
if types is None:
types = ()
for n in types:
if n not in baseclass._fields:
raise ValueError('{} does not have field {!r}'.format(
baseclass.__name__, n))
if fields32 is not None \
and set(fields32) != set(baseclass._fields):
raise ValueError('{!r} is not a permutation of the fields {!r}'.format(
fields32, baseclass._fields))
def unique_name(name, used_names = (set((baseclass.__name__,))
| set(baseclass._fields)
| {n.__name__
for n in (types or {}).values()})):
"""Find a name that is not used for a class or field name."""
candidate = name
n = 0
while candidate in used_names:
n += 1
candidate = '{}{}'.format(name, n)
used_names.add(candidate)
return candidate
blob_name = unique_name('blob')
struct_unpack_name = unique_name('struct_unpack')
comps_name = unique_name('comps')
layouts = {}
for (bits, elfclass, layout, fields) in (
(32, ElfClass.ELFCLASS32, layout32, fields32),
(64, ElfClass.ELFCLASS64, layout64, None),
):
for (elfdata, structprefix, funcsuffix) in (
(ElfData.ELFDATA2LSB, '<', 'LE'),
(ElfData.ELFDATA2MSB, '>', 'BE'),
):
env = {
baseclass.__name__: baseclass,
struct_unpack_name: struct.unpack,
}
# Add the type converters.
if types:
for cls in types.values():
env[cls.__name__] = cls
funcname = ''.join(
('unpack_', baseclass.__name__, str(bits), funcsuffix))
code = '''
def {funcname}({blob_name}):
'''.format(funcname=funcname, blob_name=blob_name)
indent = ' ' * 4
unpack_call = '{}({!r}, {})'.format(
struct_unpack_name, structprefix + layout, blob_name)
field_names = ', '.join(baseclass._fields)
if types is None and fields is None:
code += '{}return {}({})\n'.format(
indent, baseclass.__name__, unpack_call)
else:
# Destructuring tuple assignment.
if fields is None:
code += '{}{} = {}\n'.format(
indent, field_names, unpack_call)
else:
# Use custom field order.
code += '{}{} = {}\n'.format(
indent, ', '.join(fields), unpack_call)
# Perform the type conversions.
for n in baseclass._fields:
if n in types:
code += '{}{} = {}({})\n'.format(
indent, n, types[n].__name__, n)
# Create the named tuple.
code += '{}return {}({})\n'.format(
indent, baseclass.__name__, field_names)
exec(code, env)
layouts[(elfclass, elfdata)] = _Layout(
env[funcname], struct.calcsize(layout))
baseclass.layouts = layouts
# Corresponds to EI_* indices into Elf*_Ehdr.e_indent.
class Ident(collections.namedtuple('Ident',
'ei_mag ei_class ei_data ei_version ei_osabi ei_abiversion ei_pad')):
def __new__(cls, *args):
"""Construct an object from a blob or its constituent fields."""
if len(args) == 1:
return cls.unpack(args[0])
return cls.__base__.__new__(cls, *args)
@staticmethod
def unpack(blob: memoryview) -> 'Ident':
"""Parse raws data into a tuple."""
ei_mag, ei_class, ei_data, ei_version, ei_osabi, ei_abiversion, \
ei_pad = struct.unpack('4s5B7s', blob)
return Ident(ei_mag, ElfClass(ei_class), ElfData(ei_data),
ei_version, ei_osabi, ei_abiversion, ei_pad)
size = 16
# Corresponds to Elf32_Ehdr and Elf64_Ehdr.
Ehdr = collections.namedtuple('Ehdr',
'e_ident e_type e_machine e_version e_entry e_phoff e_shoff e_flags'
+ ' e_ehsize e_phentsize e_phnum e_shentsize e_shnum e_shstrndx')
_define_layouts(Ehdr,
layout32='16s2H5I6H',
layout64='16s2HI3QI6H',
types=dict(e_ident=Ident,
e_machine=Machine,
e_type=Et,
e_shstrndx=Shn))
# Corresponds to Elf32_Phdr and Elf64_Pdhr. Order follows the latter.
Phdr = collections.namedtuple('Phdr',
'p_type p_flags p_offset p_vaddr p_paddr p_filesz p_memsz p_align')
_define_layouts(Phdr,
layout32='8I',
fields32=('p_type', 'p_offset', 'p_vaddr', 'p_paddr',
'p_filesz', 'p_memsz', 'p_flags', 'p_align'),
layout64='2I6Q',
types=dict(p_type=Pt, p_flags=Pf))
# Corresponds to Elf32_Shdr and Elf64_Shdr.
class Shdr(collections.namedtuple('Shdr',
'sh_name sh_type sh_flags sh_addr sh_offset sh_size sh_link sh_info'
+ ' sh_addralign sh_entsize')):
def resolve(self, strtab: 'StringTable') -> 'Shdr':
"""Resolve sh_name using a string table."""
return self.__class__(strtab.get(self[0]), *self[1:])
_define_layouts(Shdr,
layout32='10I',
layout64='2I4Q2I2Q',
types=dict(sh_type=Sht,
sh_flags=Shf,
sh_link=Shn))
# Corresponds to Elf32_Dyn and Elf64_Dyn. The nesting through the
# d_un union is skipped, and d_ptr is missing (its representation in
# Python would be identical to d_val).
Dyn = collections.namedtuple('Dyn', 'd_tag d_val')
_define_layouts(Dyn,
layout32='2i',
layout64='2q',
types=dict(d_tag=Dt))
# Corresponds to Elf32_Sym and Elf64_Sym.
class Sym(collections.namedtuple('Sym',
'st_name st_info st_other st_shndx st_value st_size')):
def resolve(self, strtab: 'StringTable') -> 'Sym':
"""Resolve st_name using a string table."""
return self.__class__(strtab.get(self[0]), *self[1:])
_define_layouts(Sym,
layout32='3I2BH',
layout64='I2BH2Q',
fields32=('st_name', 'st_value', 'st_size', 'st_info',
'st_other', 'st_shndx'),
types=dict(st_shndx=Shn,
st_info=StInfo))
# Corresponds to Elf32_Rel and Elf64_Rel.
Rel = collections.namedtuple('Rel', 'r_offset r_info')
_define_layouts(Rel,
layout32='2I',
layout64='2Q')
# Corresponds to Elf32_Rel and Elf64_Rel.
Rela = collections.namedtuple('Rela', 'r_offset r_info r_addend')
_define_layouts(Rela,
layout32='3I',
layout64='3Q')
class StringTable:
"""ELF string table."""
def __init__(self, blob):
"""Create a new string table backed by the data in the blob.
blob: a memoryview-like object
"""
self.blob = blob
def get(self, index) -> bytes:
"""Returns the null-terminated byte string at the index."""
blob = self.blob
endindex = index
while True:
if blob[endindex] == 0:
return bytes(blob[index:endindex])
endindex += 1
class Image:
"""ELF image parser."""
def __init__(self, image):
"""Create an ELF image from binary image data.
image: a memoryview-like object that supports efficient range
subscripting.
"""
self.image = image
ident = self.read(Ident, 0)
classdata = (ident.ei_class, ident.ei_data)
# Set self.Ehdr etc. to the subtypes with the right parsers.
for typ in (Ehdr, Phdr, Shdr, Dyn, Sym, Rel, Rela):
setattr(self, typ.__name__, typ.layouts.get(classdata, None))
if self.Ehdr is not None:
self.ehdr = self.read(self.Ehdr, 0)
self._shdr_num = self._compute_shdr_num()
else:
self.ehdr = None
self._shdr_num = 0
self._section = {}
self._stringtab = {}
if self._shdr_num > 0:
self._shdr_strtab = self._find_shdr_strtab()
else:
self._shdr_strtab = None
@staticmethod
def readfile(path: str) -> 'Image':
"""Reads the ELF file at the specified path."""
with open(path, 'rb') as inp:
return Image(memoryview(inp.read()))
def _compute_shdr_num(self) -> int:
"""Computes the actual number of section headers."""
shnum = self.ehdr.e_shnum
if shnum == 0:
if self.ehdr.e_shoff == 0 or self.ehdr.e_shentsize == 0:
# No section headers.
return 0
# Otherwise the extension mechanism is used (which may be
# needed because e_shnum is just 16 bits).
return self.read(self.Shdr, self.ehdr.e_shoff).sh_size
return shnum
def _find_shdr_strtab(self) -> StringTable:
"""Finds the section header string table (maybe via extensions)."""
shstrndx = self.ehdr.e_shstrndx
if shstrndx == Shn.SHN_XINDEX:
shstrndx = self.read(self.Shdr, self.ehdr.e_shoff).sh_link
return self._find_stringtab(shstrndx)
def read(self, typ: type, offset:int ):
"""Reads an object at a specific offset.
The type must have been enhanced using _define_variants.
"""
return typ.unpack(self.image[offset: offset + typ.size])
def phdrs(self) -> Phdr:
"""Generator iterating over the program headers."""
if self.ehdr is None:
return
size = self.ehdr.e_phentsize
if size != self.Phdr.size:
raise ValueError('Unexpected Phdr size in ELF header: {} != {}'
.format(size, self.Phdr.size))
offset = self.ehdr.e_phoff
for _ in range(self.ehdr.e_phnum):
yield self.read(self.Phdr, offset)
offset += size
def shdrs(self, resolve: bool=True) -> Shdr:
"""Generator iterating over the section headers.
If resolve, section names are automatically translated
using the section header string table.
"""
if self._shdr_num == 0:
return
size = self.ehdr.e_shentsize
if size != self.Shdr.size:
raise ValueError('Unexpected Shdr size in ELF header: {} != {}'
.format(size, self.Shdr.size))
offset = self.ehdr.e_shoff
for _ in range(self._shdr_num):
shdr = self.read(self.Shdr, offset)
if resolve:
shdr = shdr.resolve(self._shdr_strtab)
yield shdr
offset += size
def dynamic(self) -> Dyn:
"""Generator iterating over the dynamic segment."""
for phdr in self.phdrs():
if phdr.p_type == Pt.PT_DYNAMIC:
# Pick the first dynamic segment, like the loader.
if phdr.p_filesz == 0:
# Probably separated debuginfo.
return
offset = phdr.p_offset
end = offset + phdr.p_memsz
size = self.Dyn.size
while True:
next_offset = offset + size
if next_offset > end:
raise ValueError(
'Dynamic segment size {} is not a multiple of Dyn size {}'.format(
phdr.p_memsz, size))
yield self.read(self.Dyn, offset)
if next_offset == end:
return
offset = next_offset
def syms(self, shdr: Shdr, resolve: bool=True) -> Sym:
"""A generator iterating over a symbol table.
If resolve, symbol names are automatically translated using
the string table for the symbol table.
"""
assert shdr.sh_type == Sht.SHT_SYMTAB
size = shdr.sh_entsize
if size != self.Sym.size:
raise ValueError('Invalid symbol table entry size {}'.format(size))
offset = shdr.sh_offset
end = shdr.sh_offset + shdr.sh_size
if resolve:
strtab = self._find_stringtab(shdr.sh_link)
while offset < end:
sym = self.read(self.Sym, offset)
if resolve:
sym = sym.resolve(strtab)
yield sym
offset += size
if offset != end:
raise ValueError('Symbol table is not a multiple of entry size')
def lookup_string(self, strtab_index: int, strtab_offset: int) -> bytes:
"""Looks up a string in a string table identified by its link index."""
try:
strtab = self._stringtab[strtab_index]
except KeyError:
strtab = self._find_stringtab(strtab_index)
return strtab.get(strtab_offset)
def find_section(self, shndx: Shn) -> Shdr:
"""Returns the section header for the indexed section.
The section name is not resolved.
"""
try:
return self._section[shndx]
except KeyError:
pass
if shndx in Shn:
raise ValueError('Reserved section index {}'.format(shndx))
idx = shndx.value
if idx < 0 or idx > self._shdr_num:
raise ValueError('Section index {} out of range [0, {})'.format(
idx, self._shdr_num))
shdr = self.read(
self.Shdr, self.ehdr.e_shoff + idx * self.Shdr.size)
self._section[shndx] = shdr
return shdr
def _find_stringtab(self, sh_link: int) -> StringTable:
if sh_link in self._stringtab:
return self._stringtab
if sh_link < 0 or sh_link >= self._shdr_num:
raise ValueError('Section index {} out of range [0, {})'.format(
sh_link, self._shdr_num))
shdr = self.read(
self.Shdr, self.ehdr.e_shoff + sh_link * self.Shdr.size)
if shdr.sh_type != Sht.SHT_STRTAB:
raise ValueError(
'Section {} is not a string table: {}'.format(
sh_link, shdr.sh_type))
strtab = StringTable(
self.image[shdr.sh_offset:shdr.sh_offset + shdr.sh_size])
# This could retrain essentially arbitrary amounts of data,
# but caching string tables seems important for performance.
self._stringtab[sh_link] = strtab
return strtab
def elf_hash(s):
"""Computes the ELF hash of the string."""
acc = 0
for ch in s:
if type(ch) is not int:
ch = ord(ch)
acc = ((acc << 4) + ch) & 0xffffffff
top = acc & 0xf0000000
acc = (acc ^ (top >> 24)) & ~top
return acc
def gnu_hash(s):
"""Computes the GNU hash of the string."""
h = 5381
for ch in s:
if type(ch) is not int:
ch = ord(ch)
h = (h * 33 + ch) & 0xffffffff
return h
__all__ = [name for name in dir() if name[0].isupper()]
|