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848746e88e
Add ELF_DYNAMIC_AFTER_RELOC to allow target specific processing after relocation. For x86-64, add #define DT_X86_64_PLT (DT_LOPROC + 0) #define DT_X86_64_PLTSZ (DT_LOPROC + 1) #define DT_X86_64_PLTENT (DT_LOPROC + 3) 1. DT_X86_64_PLT: The address of the procedure linkage table. 2. DT_X86_64_PLTSZ: The total size, in bytes, of the procedure linkage table. 3. DT_X86_64_PLTENT: The size, in bytes, of a procedure linkage table entry. With the r_addend field of the R_X86_64_JUMP_SLOT relocation set to the memory offset of the indirect branch instruction. Define ELF_DYNAMIC_AFTER_RELOC for x86-64 to rewrite the PLT section with direct branch after relocation when the lazy binding is disabled. PLT rewrite is disabled by default since SELinux may disallow modifying code pages and ld.so can't detect it in all cases. Use $ export GLIBC_TUNABLES=glibc.cpu.plt_rewrite=1 to enable PLT rewrite with 32-bit direct jump at run-time or $ export GLIBC_TUNABLES=glibc.cpu.plt_rewrite=2 to enable PLT rewrite with 32-bit direct jump and on APX processors with 64-bit absolute jump at run-time. Reviewed-by: Noah Goldstein <goldstein.w.n@gmail.com>
923 lines
32 KiB
Python
923 lines
32 KiB
Python
#!/usr/bin/python3
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# ELF support functionality for Python.
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# Copyright (C) 2022-2024 Free Software Foundation, Inc.
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# This file is part of the GNU C Library.
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#
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# The GNU C Library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2.1 of the License, or (at your option) any later version.
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#
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# The GNU C Library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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#
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# You should have received a copy of the GNU Lesser General Public
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# License along with the GNU C Library; if not, see
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# <https://www.gnu.org/licenses/>.
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"""Basic ELF parser.
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Use Image.readfile(path) to read an ELF file into memory and begin
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parsing it.
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"""
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import collections
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import functools
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import os
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import struct
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import glibcpp
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class _MetaNamedValue(type):
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"""Used to set up _NamedValue subclasses."""
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@classmethod
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def __prepare__(metacls, cls, bases, **kwds):
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# Indicates an int-based class. Needed for types like Shn.
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int_based = False
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for base in bases:
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if issubclass(base, int):
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int_based = int
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break
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return dict(by_value={},
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by_name={},
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prefix=None,
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_int_based=int_based)
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def __contains__(self, other):
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return other in self.by_value
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class _NamedValue(metaclass=_MetaNamedValue):
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"""Typed, named integer constants.
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Constants have the following instance attributes:
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name: The full name of the constant (e.g., "PT_NULL").
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short_name: The name with of the constant without the prefix ("NULL").
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value: The integer value of the constant.
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The following class attributes are available:
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by_value: A dict mapping integers to constants.
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by_name: A dict mapping strings to constants.
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prefix: A string that is removed from the start of short names, or None.
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"""
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def __new__(cls, arg0, arg1=None):
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"""Instance creation.
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For the one-argument form, the argument must be a string, an
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int, or an instance of this class. Strings are looked up via
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by_name. Values are looked up via by_value; if value lookup
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fails, a new unnamed instance is returned. Instances of this
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class a re returned as-is.
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The two-argument form expects the name (a string) and the
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value (an integer). A new instance is created in this case.
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The instance is not registered in the by_value/by_name
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dictionaries (but the caller can do that).
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"""
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typ0 = type(arg0)
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if arg1 is None:
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if isinstance(typ0, cls):
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# Re-use the existing object.
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return arg0
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if typ0 is int:
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by_value = cls.by_value
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try:
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return by_value[arg0]
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except KeyError:
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# Create a new object of the requested value.
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if cls._int_based:
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result = int.__new__(cls, arg0)
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else:
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result = object.__new__(cls)
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result.value = arg0
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result.name = None
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return result
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if typ0 is str:
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by_name = cls.by_name
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try:
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return by_name[arg0]
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except KeyError:
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raise ValueError('unknown {} constant: {!r}'.format(
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cls.__name__, arg0))
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else:
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# Types for the two-argument form are rigid.
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if typ0 is not str and typ0 is not None:
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raise ValueError('type {} of name {!r} should be str'.format(
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typ0.__name__, arg0))
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if type(arg1) is not int:
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raise ValueError('type {} of value {!r} should be int'.format(
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type(arg1).__name__, arg1))
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# Create a new named constants.
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if cls._int_based:
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result = int.__new__(cls, arg1)
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else:
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result = object.__new__(cls)
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result.value = arg1
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result.name = arg0
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# Set up the short_name attribute.
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prefix = cls.prefix
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if prefix and arg0.startswith(prefix):
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result.short_name = arg0[len(prefix):]
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else:
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result.short_name = arg0
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return result
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def __str__(self):
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name = self.name
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if name:
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return name
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else:
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return str(self.value)
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def __repr__(self):
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name = self.name
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if name:
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return name
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else:
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return '{}({})'.format(self.__class__.__name__, self.value)
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def __setattr__(self, name, value):
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# Prevent modification of the critical attributes once they
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# have been set.
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if name in ('name', 'value', 'short_name') and hasattr(self, name):
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raise AttributeError('can\'t set attribute {}'.format(name))
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object.__setattr__(self, name, value)
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@functools.total_ordering
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class _TypedConstant(_NamedValue):
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"""Base class for integer-valued optionally named constants.
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This type is not an integer type.
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"""
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def __eq__(self, other):
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return isinstance(other, self.__class__) and self.value == other.value
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def __lt__(self, other):
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return isinstance(other, self.__class__) and self.value <= other.value
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def __hash__(self):
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return hash(self.value)
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class _IntConstant(_NamedValue, int):
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"""Base class for integer-like optionally named constants.
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Instances compare equal to the integer of the same value, and can
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be used in integer arithmetic.
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"""
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pass
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class _FlagConstant(_TypedConstant, int):
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pass
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def _parse_elf_h():
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"""Read ../elf/elf.h and return a dict with the constants in it."""
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path = os.path.join(os.path.dirname(os.path.realpath(__file__)),
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'..', 'elf', 'elf.h')
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class TokenizerReporter:
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"""Report tokenizer errors to standard output."""
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def __init__(self):
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self.errors = 0
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def error(self, token, message):
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self.errors += 1
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print('{}:{}:{}: error: {}'.format(
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path, token.line, token.column, message))
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reporter = TokenizerReporter()
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with open(path) as inp:
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tokens = glibcpp.tokenize_c(inp.read(), reporter)
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if reporter.errors:
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raise IOError('parse error in elf.h')
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class MacroReporter:
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"""Report macro errors to standard output."""
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def __init__(self):
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self.errors = 0
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def error(self, line, message):
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self.errors += 1
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print('{}:{}: error: {}'.format(path, line, message))
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def note(self, line, message):
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print('{}:{}: note: {}'.format(path, line, message))
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reporter = MacroReporter()
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result = glibcpp.macro_eval(glibcpp.macro_definitions(tokens), reporter)
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if reporter.errors:
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raise IOError('parse error in elf.h')
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return result
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_elf_h = _parse_elf_h()
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del _parse_elf_h
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_elf_h_processed = set()
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def _register_elf_h(cls, prefix=None, skip=(), ranges=False, parent=None):
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prefix = prefix or cls.prefix
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if not prefix:
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raise ValueError('missing prefix for {}'.format(cls.__name__))
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by_value = cls.by_value
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by_name = cls.by_name
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processed = _elf_h_processed
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skip = set(skip)
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skip.add(prefix + 'NUM')
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if ranges:
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skip.add(prefix + 'LOOS')
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skip.add(prefix + 'HIOS')
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skip.add(prefix + 'LOPROC')
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skip.add(prefix + 'HIPROC')
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cls.os_range = (_elf_h[prefix + 'LOOS'], _elf_h[prefix + 'HIOS'])
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cls.proc_range = (_elf_h[prefix + 'LOPROC'], _elf_h[prefix + 'HIPROC'])
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# Inherit the prefix from the parent if not set.
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if parent and cls.prefix is None and parent.prefix is not None:
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cls.prefix = parent.prefix
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processed_len_start = len(processed)
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for name, value in _elf_h.items():
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if name in skip or name in processed:
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continue
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if name.startswith(prefix):
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processed.add(name)
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if value in by_value:
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raise ValueError('duplicate value {}: {}, {}'.format(
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value, name, by_value[value]))
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obj = cls(name, value)
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by_value[value] = obj
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by_name[name] = obj
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setattr(cls, name, obj)
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if parent:
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# Make the symbolic name available through the parent as well.
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parent.by_name[name] = obj
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setattr(parent, name, obj)
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if len(processed) == processed_len_start:
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raise ValueError('nothing matched prefix {!r}'.format(prefix))
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class ElfClass(_TypedConstant):
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"""ELF word size. Type of EI_CLASS values."""
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_register_elf_h(ElfClass, prefix='ELFCLASS')
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class ElfData(_TypedConstant):
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"""ELF endianness. Type of EI_DATA values."""
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_register_elf_h(ElfData, prefix='ELFDATA')
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class Machine(_TypedConstant):
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"""ELF machine type. Type of values in Ehdr.e_machine field."""
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prefix = 'EM_'
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_register_elf_h(Machine, skip=('EM_ARC_A5',))
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class Et(_TypedConstant):
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"""ELF file type. Type of ET_* values and the Ehdr.e_type field."""
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prefix = 'ET_'
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_register_elf_h(Et, ranges=True)
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class Shn(_IntConstant):
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"""ELF reserved section indices."""
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prefix = 'SHN_'
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class ShnMIPS(Shn):
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"""Supplemental SHN_* constants for EM_MIPS."""
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class ShnPARISC(Shn):
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"""Supplemental SHN_* constants for EM_PARISC."""
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_register_elf_h(ShnMIPS, prefix='SHN_MIPS_', parent=Shn)
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_register_elf_h(ShnPARISC, prefix='SHN_PARISC_', parent=Shn)
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_register_elf_h(Shn, skip='SHN_LORESERVE SHN_HIRESERVE'.split(), ranges=True)
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class Sht(_TypedConstant):
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"""ELF section types. Type of SHT_* values."""
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prefix = 'SHT_'
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class ShtALPHA(Sht):
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"""Supplemental SHT_* constants for EM_ALPHA."""
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class ShtARC(Sht):
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"""Supplemental SHT_* constants for EM_ARC."""
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class ShtARM(Sht):
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"""Supplemental SHT_* constants for EM_ARM."""
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class ShtCSKY(Sht):
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"""Supplemental SHT_* constants for EM_CSKY."""
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class ShtIA_64(Sht):
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"""Supplemental SHT_* constants for EM_IA_64."""
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class ShtMIPS(Sht):
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"""Supplemental SHT_* constants for EM_MIPS."""
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class ShtPARISC(Sht):
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"""Supplemental SHT_* constants for EM_PARISC."""
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class ShtRISCV(Sht):
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"""Supplemental SHT_* constants for EM_RISCV."""
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_register_elf_h(ShtALPHA, prefix='SHT_ALPHA_', parent=Sht)
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_register_elf_h(ShtARC, prefix='SHT_ARC_', parent=Sht)
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_register_elf_h(ShtARM, prefix='SHT_ARM_', parent=Sht)
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_register_elf_h(ShtCSKY, prefix='SHT_CSKY_', parent=Sht)
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_register_elf_h(ShtIA_64, prefix='SHT_IA_64_', parent=Sht)
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_register_elf_h(ShtMIPS, prefix='SHT_MIPS_', parent=Sht)
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_register_elf_h(ShtPARISC, prefix='SHT_PARISC_', parent=Sht)
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_register_elf_h(ShtRISCV, prefix='SHT_RISCV_', parent=Sht)
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_register_elf_h(Sht, ranges=True,
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skip='SHT_LOSUNW SHT_HISUNW SHT_LOUSER SHT_HIUSER'.split())
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class Pf(_FlagConstant):
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"""Program header flags. Type of Phdr.p_flags values."""
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prefix = 'PF_'
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class PfARM(Pf):
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"""Supplemental PF_* flags for EM_ARM."""
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class PfHP(Pf):
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"""Supplemental PF_* flags for HP-UX."""
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class PfIA_64(Pf):
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"""Supplemental PF_* flags for EM_IA_64."""
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class PfMIPS(Pf):
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"""Supplemental PF_* flags for EM_MIPS."""
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class PfPARISC(Pf):
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"""Supplemental PF_* flags for EM_PARISC."""
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_register_elf_h(PfARM, prefix='PF_ARM_', parent=Pf)
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_register_elf_h(PfHP, prefix='PF_HP_', parent=Pf)
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_register_elf_h(PfIA_64, prefix='PF_IA_64_', parent=Pf)
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_register_elf_h(PfMIPS, prefix='PF_MIPS_', parent=Pf)
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_register_elf_h(PfPARISC, prefix='PF_PARISC_', parent=Pf)
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_register_elf_h(Pf, skip='PF_MASKOS PF_MASKPROC'.split())
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class Shf(_FlagConstant):
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"""Section flags. Type of Shdr.sh_type values."""
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prefix = 'SHF_'
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class ShfALPHA(Shf):
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"""Supplemental SHF_* constants for EM_ALPHA."""
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class ShfARM(Shf):
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"""Supplemental SHF_* constants for EM_ARM."""
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class ShfIA_64(Shf):
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"""Supplemental SHF_* constants for EM_IA_64."""
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class ShfMIPS(Shf):
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"""Supplemental SHF_* constants for EM_MIPS."""
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class ShfPARISC(Shf):
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"""Supplemental SHF_* constants for EM_PARISC."""
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_register_elf_h(ShfALPHA, prefix='SHF_ALPHA_', parent=Shf)
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_register_elf_h(ShfARM, prefix='SHF_ARM_', parent=Shf)
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_register_elf_h(ShfIA_64, prefix='SHF_IA_64_', parent=Shf)
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_register_elf_h(ShfMIPS, prefix='SHF_MIPS_', parent=Shf)
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_register_elf_h(ShfPARISC, prefix='SHF_PARISC_', parent=Shf)
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_register_elf_h(Shf, skip='SHF_MASKOS SHF_MASKPROC'.split())
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class Stb(_TypedConstant):
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"""ELF symbol binding type."""
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prefix = 'STB_'
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_register_elf_h(Stb, ranges=True)
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class Stt(_TypedConstant):
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"""ELF symbol type."""
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prefix = 'STT_'
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class SttARM(Sht):
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"""Supplemental STT_* constants for EM_ARM."""
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class SttPARISC(Sht):
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"""Supplemental STT_* constants for EM_PARISC."""
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class SttSPARC(Sht):
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"""Supplemental STT_* constants for EM_SPARC."""
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STT_SPARC_REGISTER = 13
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class SttX86_64(Sht):
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"""Supplemental STT_* constants for EM_X86_64."""
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_register_elf_h(SttARM, prefix='STT_ARM_', parent=Stt)
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_register_elf_h(SttPARISC, prefix='STT_PARISC_', parent=Stt)
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_register_elf_h(SttSPARC, prefix='STT_SPARC_', parent=Stt)
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_register_elf_h(Stt, ranges=True)
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class Pt(_TypedConstant):
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"""ELF program header types. Type of Phdr.p_type."""
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prefix = 'PT_'
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class PtAARCH64(Pt):
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"""Supplemental PT_* constants for EM_AARCH64."""
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class PtARM(Pt):
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"""Supplemental PT_* constants for EM_ARM."""
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class PtHP(Pt):
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"""Supplemental PT_* constants for HP-U."""
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class PtIA_64(Pt):
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"""Supplemental PT_* constants for EM_IA_64."""
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class PtMIPS(Pt):
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"""Supplemental PT_* constants for EM_MIPS."""
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class PtPARISC(Pt):
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"""Supplemental PT_* constants for EM_PARISC."""
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class PtRISCV(Pt):
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"""Supplemental PT_* constants for EM_RISCV."""
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_register_elf_h(PtAARCH64, prefix='PT_AARCH64_', parent=Pt)
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_register_elf_h(PtARM, prefix='PT_ARM_', parent=Pt)
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_register_elf_h(PtHP, prefix='PT_HP_', parent=Pt)
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_register_elf_h(PtIA_64, prefix='PT_IA_64_', parent=Pt)
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_register_elf_h(PtMIPS, prefix='PT_MIPS_', parent=Pt)
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_register_elf_h(PtPARISC, prefix='PT_PARISC_', parent=Pt)
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_register_elf_h(PtRISCV, prefix='PT_RISCV_', parent=Pt)
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_register_elf_h(Pt, skip='PT_LOSUNW PT_HISUNW'.split(), ranges=True)
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class Dt(_TypedConstant):
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"""ELF dynamic segment tags. Type of Dyn.d_val."""
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prefix = 'DT_'
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class DtAARCH64(Dt):
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"""Supplemental DT_* constants for EM_AARCH64."""
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class DtALPHA(Dt):
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"""Supplemental DT_* constants for EM_ALPHA."""
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class DtALTERA_NIOS2(Dt):
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"""Supplemental DT_* constants for EM_ALTERA_NIOS2."""
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class DtIA_64(Dt):
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"""Supplemental DT_* constants for EM_IA_64."""
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class DtMIPS(Dt):
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"""Supplemental DT_* constants for EM_MIPS."""
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class DtPPC(Dt):
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"""Supplemental DT_* constants for EM_PPC."""
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class DtPPC64(Dt):
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"""Supplemental DT_* constants for EM_PPC64."""
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class DtRISCV(Dt):
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"""Supplemental DT_* constants for EM_RISCV."""
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class DtSPARC(Dt):
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"""Supplemental DT_* constants for EM_SPARC."""
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class DtX86_64(Dt):
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"""Supplemental DT_* constants for EM_X86_64."""
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_dt_skip = '''
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DT_ENCODING DT_PROCNUM
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DT_ADDRRNGLO DT_ADDRRNGHI DT_ADDRNUM
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DT_VALRNGLO DT_VALRNGHI DT_VALNUM
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DT_VERSIONTAGNUM DT_EXTRANUM
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DT_AARCH64_NUM
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DT_ALPHA_NUM
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DT_IA_64_NUM
|
|
DT_MIPS_NUM
|
|
DT_PPC_NUM
|
|
DT_PPC64_NUM
|
|
DT_SPARC_NUM
|
|
DT_X86_64_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(DtX86_64, prefix='DT_X86_64_', 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()]
|