1799 lines
80 KiB
Python
Executable File
1799 lines
80 KiB
Python
Executable File
#!/usr/bin/python
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#-------------------------------------------------------------------------------
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# scripts/readelf.py
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#
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# A clone of 'readelf' in Python, based on the pyelftools library
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#
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# Eli Bendersky (eliben@gmail.com)
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# This code is in the public domain
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#-------------------------------------------------------------------------------
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import argparse
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import os, sys
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import string
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import traceback
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import itertools
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# Note: zip has different behaviour between Python 2.x and 3.x.
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# - Using izip ensures compatibility.
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try:
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from itertools import izip
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except:
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izip = zip
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# For running from development directory. It should take precedence over the
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# installed pyelftools.
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sys.path.insert(0, '.')
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from elftools import __version__
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from elftools.common.exceptions import ELFError
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from elftools.common.py3compat import (
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ifilter, byte2int, bytes2str, itervalues, str2bytes, iterbytes)
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from elftools.elf.elffile import ELFFile
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from elftools.elf.dynamic import DynamicSection, DynamicSegment
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from elftools.elf.enums import ENUM_D_TAG
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from elftools.elf.segments import InterpSegment
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from elftools.elf.sections import (
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NoteSection, SymbolTableSection, SymbolTableIndexSection
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)
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from elftools.elf.gnuversions import (
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GNUVerSymSection, GNUVerDefSection,
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GNUVerNeedSection,
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)
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from elftools.elf.relocation import RelocationSection
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from elftools.elf.descriptions import (
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describe_ei_class, describe_ei_data, describe_ei_version,
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describe_ei_osabi, describe_e_type, describe_e_machine,
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describe_e_version_numeric, describe_p_type, describe_p_flags,
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describe_rh_flags, describe_sh_type, describe_sh_flags,
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describe_symbol_type, describe_symbol_bind, describe_symbol_visibility,
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describe_symbol_shndx, describe_reloc_type, describe_dyn_tag,
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describe_dt_flags, describe_dt_flags_1, describe_ver_flags, describe_note,
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describe_attr_tag_arm, describe_symbol_other
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)
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from elftools.elf.constants import E_FLAGS
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from elftools.elf.constants import E_FLAGS_MASKS
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from elftools.elf.constants import SH_FLAGS
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from elftools.elf.constants import SHN_INDICES
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from elftools.dwarf.dwarfinfo import DWARFInfo
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from elftools.dwarf.descriptions import (
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describe_reg_name, describe_attr_value, set_global_machine_arch,
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describe_CFI_instructions, describe_CFI_register_rule,
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describe_CFI_CFA_rule, describe_DWARF_expr
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)
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from elftools.dwarf.constants import (
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DW_LNS_copy, DW_LNS_set_file, DW_LNE_define_file)
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from elftools.dwarf.locationlists import LocationParser, LocationEntry, LocationViewPair, BaseAddressEntry as LocBaseAddressEntry, LocationListsPair
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from elftools.dwarf.ranges import RangeEntry, BaseAddressEntry as RangeBaseAddressEntry, RangeListsPair
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from elftools.dwarf.callframe import CIE, FDE, ZERO
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from elftools.ehabi.ehabiinfo import CorruptEHABIEntry, CannotUnwindEHABIEntry, GenericEHABIEntry
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from elftools.dwarf.enums import ENUM_DW_UT
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def _get_cu_base(cu):
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top_die = cu.get_top_DIE()
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attr = top_die.attributes
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if 'DW_AT_low_pc' in attr:
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return attr['DW_AT_low_pc'].value
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elif 'DW_AT_entry_pc' in attr:
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return attr['DW_AT_entry_pc'].value
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elif 'DW_AT_ranges' in attr:
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# Rare case but happens: rangelist in the top DIE.
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# If there is a base or at least one absolute entry,
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# this will give us the base IP for the CU.
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rl = cu.dwarfinfo.range_lists().get_range_list_at_offset(attr['DW_AT_ranges'].value, cu)
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base_ip = None
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for r in rl:
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if isinstance(r, RangeBaseAddressEntry):
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ip = r.base_address
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elif isinstance(r, RangeEntry) and r.is_absolute:
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ip = r.begin_offset
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else:
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ip = None
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if ip is not None and (base_ip is None or ip < base_ip):
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base_ip = ip
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if base_ip is None:
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raise ValueError("Can't find the base IP (low_pc) for a CU")
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return base_ip
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else:
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raise ValueError("Can't find the base IP (low_pc) for a CU")
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class ReadElf(object):
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""" display_* methods are used to emit output into the output stream
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"""
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def __init__(self, file, output):
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""" file:
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stream object with the ELF file to read
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output:
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output stream to write to
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"""
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self.elffile = ELFFile(file)
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self.output = output
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# Lazily initialized if a debug dump is requested
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self._dwarfinfo = None
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self._versioninfo = None
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self._shndx_sections = None
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def display_file_header(self):
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""" Display the ELF file header
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"""
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self._emitline('ELF Header:')
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self._emit(' Magic: ')
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self._emit(' '.join('%2.2x' % byte2int(b)
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for b in self.elffile.e_ident_raw))
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self._emitline(' ')
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header = self.elffile.header
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e_ident = header['e_ident']
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self._emitline(' Class: %s' %
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describe_ei_class(e_ident['EI_CLASS']))
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self._emitline(' Data: %s' %
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describe_ei_data(e_ident['EI_DATA']))
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self._emitline(' Version: %s' %
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describe_ei_version(e_ident['EI_VERSION']))
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self._emitline(' OS/ABI: %s' %
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describe_ei_osabi(e_ident['EI_OSABI']))
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self._emitline(' ABI Version: %d' %
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e_ident['EI_ABIVERSION'])
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self._emitline(' Type: %s' %
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describe_e_type(header['e_type'], self.elffile))
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self._emitline(' Machine: %s' %
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describe_e_machine(header['e_machine']))
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self._emitline(' Version: %s' %
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describe_e_version_numeric(header['e_version']))
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self._emitline(' Entry point address: %s' %
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self._format_hex(header['e_entry']))
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self._emit(' Start of program headers: %s' %
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header['e_phoff'])
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self._emitline(' (bytes into file)')
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self._emit(' Start of section headers: %s' %
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header['e_shoff'])
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self._emitline(' (bytes into file)')
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self._emitline(' Flags: %s%s' %
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(self._format_hex(header['e_flags']),
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self.decode_flags(header['e_flags'])))
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self._emitline(' Size of this header: %s (bytes)' %
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header['e_ehsize'])
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self._emitline(' Size of program headers: %s (bytes)' %
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header['e_phentsize'])
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self._emitline(' Number of program headers: %s' %
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header['e_phnum'])
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self._emitline(' Size of section headers: %s (bytes)' %
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header['e_shentsize'])
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self._emit(' Number of section headers: %s' %
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header['e_shnum'])
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if header['e_shnum'] == 0 and self.elffile.num_sections() != 0:
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self._emitline(' (%d)' % self.elffile.num_sections())
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else:
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self._emitline('')
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self._emit(' Section header string table index: %s' %
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header['e_shstrndx'])
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if header['e_shstrndx'] == SHN_INDICES.SHN_XINDEX:
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self._emitline(' (%d)' % self.elffile.get_shstrndx())
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else:
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self._emitline('')
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def decode_flags(self, flags):
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description = ""
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if self.elffile['e_machine'] == "EM_ARM":
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eabi = flags & E_FLAGS.EF_ARM_EABIMASK
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flags &= ~E_FLAGS.EF_ARM_EABIMASK
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if flags & E_FLAGS.EF_ARM_RELEXEC:
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description += ', relocatable executabl'
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flags &= ~E_FLAGS.EF_ARM_RELEXEC
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if eabi == E_FLAGS.EF_ARM_EABI_VER5:
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EF_ARM_KNOWN_FLAGS = E_FLAGS.EF_ARM_ABI_FLOAT_SOFT|E_FLAGS.EF_ARM_ABI_FLOAT_HARD|E_FLAGS.EF_ARM_LE8|E_FLAGS.EF_ARM_BE8
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description += ', Version5 EABI'
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if flags & E_FLAGS.EF_ARM_ABI_FLOAT_SOFT:
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description += ", soft-float ABI"
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elif flags & E_FLAGS.EF_ARM_ABI_FLOAT_HARD:
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description += ", hard-float ABI"
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if flags & E_FLAGS.EF_ARM_BE8:
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description += ", BE8"
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elif flags & E_FLAGS.EF_ARM_LE8:
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description += ", LE8"
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if flags & ~EF_ARM_KNOWN_FLAGS:
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description += ', <unknown>'
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else:
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description += ', <unrecognized EABI>'
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elif self.elffile['e_machine'] == 'EM_PPC64':
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if flags & E_FLAGS.EF_PPC64_ABI_V2:
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description += ', abiv2'
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elif self.elffile['e_machine'] == "EM_MIPS":
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if flags & E_FLAGS.EF_MIPS_NOREORDER:
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description += ", noreorder"
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if flags & E_FLAGS.EF_MIPS_PIC:
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description += ", pic"
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if flags & E_FLAGS.EF_MIPS_CPIC:
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description += ", cpic"
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if (flags & E_FLAGS.EF_MIPS_ABI2):
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description += ", abi2"
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if (flags & E_FLAGS.EF_MIPS_32BITMODE):
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description += ", 32bitmode"
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if (flags & E_FLAGS_MASKS.EFM_MIPS_ABI_O32):
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description += ", o32"
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elif (flags & E_FLAGS_MASKS.EFM_MIPS_ABI_O64):
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description += ", o64"
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elif (flags & E_FLAGS_MASKS.EFM_MIPS_ABI_EABI32):
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description += ", eabi32"
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elif (flags & E_FLAGS_MASKS.EFM_MIPS_ABI_EABI64):
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description += ", eabi64"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_1:
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description += ", mips1"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_2:
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description += ", mips2"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_3:
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description += ", mips3"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_4:
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description += ", mips4"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_5:
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description += ", mips5"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_32R2:
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description += ", mips32r2"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_64R2:
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description += ", mips64r2"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_32:
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description += ", mips32"
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if (flags & E_FLAGS.EF_MIPS_ARCH) == E_FLAGS.EF_MIPS_ARCH_64:
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description += ", mips64"
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return description
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def display_program_headers(self, show_heading=True):
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""" Display the ELF program headers.
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If show_heading is True, displays the heading for this information
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(Elf file type is...)
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"""
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self._emitline()
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if self.elffile.num_segments() == 0:
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self._emitline('There are no program headers in this file.')
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return
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elfheader = self.elffile.header
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if show_heading:
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self._emitline('Elf file type is %s' %
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describe_e_type(elfheader['e_type'], self.elffile))
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self._emitline('Entry point is %s' %
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self._format_hex(elfheader['e_entry']))
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# readelf weirness - why isn't e_phoff printed as hex? (for section
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# headers, it is...)
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self._emitline('There are %s program headers, starting at offset %s' % (
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self.elffile.num_segments(), elfheader['e_phoff']))
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self._emitline()
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self._emitline('Program Headers:')
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# Now comes the table of program headers with their attributes. Note
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# that due to different formatting constraints of 32-bit and 64-bit
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# addresses, there are some conditions on elfclass here.
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#
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# First comes the table heading
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#
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if self.elffile.elfclass == 32:
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self._emitline(' Type Offset VirtAddr PhysAddr FileSiz MemSiz Flg Align')
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else:
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self._emitline(' Type Offset VirtAddr PhysAddr')
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self._emitline(' FileSiz MemSiz Flags Align')
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# Now the entries
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#
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for segment in self.elffile.iter_segments():
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self._emit(' %-14s ' % describe_p_type(segment['p_type']))
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if self.elffile.elfclass == 32:
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self._emitline('%s %s %s %s %s %-3s %s' % (
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self._format_hex(segment['p_offset'], fieldsize=6),
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self._format_hex(segment['p_vaddr'], fullhex=True),
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self._format_hex(segment['p_paddr'], fullhex=True),
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self._format_hex(segment['p_filesz'], fieldsize=5),
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self._format_hex(segment['p_memsz'], fieldsize=5),
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describe_p_flags(segment['p_flags']),
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self._format_hex(segment['p_align'])))
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else: # 64
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self._emitline('%s %s %s' % (
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self._format_hex(segment['p_offset'], fullhex=True),
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self._format_hex(segment['p_vaddr'], fullhex=True),
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self._format_hex(segment['p_paddr'], fullhex=True)))
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self._emitline(' %s %s %-3s %s' % (
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self._format_hex(segment['p_filesz'], fullhex=True),
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self._format_hex(segment['p_memsz'], fullhex=True),
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describe_p_flags(segment['p_flags']),
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# lead0x set to False for p_align, to mimic readelf.
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# No idea why the difference from 32-bit mode :-|
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self._format_hex(segment['p_align'], lead0x=False)))
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if isinstance(segment, InterpSegment):
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self._emitline(' [Requesting program interpreter: %s]' %
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segment.get_interp_name())
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# Sections to segments mapping
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#
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if self.elffile.num_sections() == 0:
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# No sections? We're done
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return
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self._emitline('\n Section to Segment mapping:')
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self._emitline(' Segment Sections...')
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for nseg, segment in enumerate(self.elffile.iter_segments()):
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self._emit(' %2.2d ' % nseg)
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for section in self.elffile.iter_sections():
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if ( not section.is_null() and
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not ((section['sh_flags'] & SH_FLAGS.SHF_TLS) != 0 and
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section['sh_type'] == 'SHT_NOBITS' and
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segment['p_type'] != 'PT_TLS') and
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segment.section_in_segment(section)):
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self._emit('%s ' % section.name)
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self._emitline('')
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def display_section_headers(self, show_heading=True):
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""" Display the ELF section headers
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"""
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elfheader = self.elffile.header
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if show_heading:
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self._emitline('There are %s section headers, starting at offset %s' % (
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elfheader['e_shnum'], self._format_hex(elfheader['e_shoff'])))
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if self.elffile.num_sections() == 0:
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self._emitline('There are no sections in this file.')
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return
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self._emitline('\nSection Header%s:' % (
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's' if self.elffile.num_sections() > 1 else ''))
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# Different formatting constraints of 32-bit and 64-bit addresses
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#
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if self.elffile.elfclass == 32:
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self._emitline(' [Nr] Name Type Addr Off Size ES Flg Lk Inf Al')
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else:
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self._emitline(' [Nr] Name Type Address Offset')
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self._emitline(' Size EntSize Flags Link Info Align')
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# Now the entries
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#
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for nsec, section in enumerate(self.elffile.iter_sections()):
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self._emit(' [%2u] %-17.17s %-15.15s ' % (
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nsec, section.name, describe_sh_type(section['sh_type'])))
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if self.elffile.elfclass == 32:
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self._emitline('%s %s %s %s %3s %2s %3s %2s' % (
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self._format_hex(section['sh_addr'], fieldsize=8, lead0x=False),
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self._format_hex(section['sh_offset'], fieldsize=6, lead0x=False),
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self._format_hex(section['sh_size'], fieldsize=6, lead0x=False),
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self._format_hex(section['sh_entsize'], fieldsize=2, lead0x=False),
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describe_sh_flags(section['sh_flags']),
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section['sh_link'], section['sh_info'],
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section['sh_addralign']))
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else: # 64
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self._emitline(' %s %s' % (
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self._format_hex(section['sh_addr'], fullhex=True, lead0x=False),
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self._format_hex(section['sh_offset'],
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fieldsize=16 if section['sh_offset'] > 0xffffffff else 8,
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lead0x=False)))
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self._emitline(' %s %s %3s %2s %3s %s' % (
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self._format_hex(section['sh_size'], fullhex=True, lead0x=False),
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self._format_hex(section['sh_entsize'], fullhex=True, lead0x=False),
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|
describe_sh_flags(section['sh_flags']),
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section['sh_link'], section['sh_info'],
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section['sh_addralign']))
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self._emitline('Key to Flags:')
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self._emitline(' W (write), A (alloc), X (execute), M (merge),'
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' S (strings), I (info),')
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self._emitline(' L (link order), O (extra OS processing required),'
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' G (group), T (TLS),')
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self._emitline(' C (compressed), x (unknown), o (OS specific),'
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' E (exclude),')
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self._emit(' ')
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if self.elffile['e_machine'] == 'EM_ARM':
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self._emit('y (purecode), ')
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self._emitline('p (processor specific)')
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def display_symbol_tables(self):
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""" Display the symbol tables contained in the file
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"""
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self._init_versioninfo()
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symbol_tables = [(idx, s) for idx, s in enumerate(self.elffile.iter_sections())
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if isinstance(s, SymbolTableSection)]
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if not symbol_tables and self.elffile.num_sections() == 0:
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self._emitline('')
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self._emitline('Dynamic symbol information is not available for'
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' displaying symbols.')
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|
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for section_index, section in symbol_tables:
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if not isinstance(section, SymbolTableSection):
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continue
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|
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if section['sh_entsize'] == 0:
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self._emitline("\nSymbol table '%s' has a sh_entsize of zero!" % (
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section.name))
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continue
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|
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self._emitline("\nSymbol table '%s' contains %d %s:" % (
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section.name,
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section.num_symbols(),
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'entry' if section.num_symbols() == 1 else 'entries'))
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if self.elffile.elfclass == 32:
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self._emitline(' Num: Value Size Type Bind Vis Ndx Name')
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else: # 64
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|
self._emitline(' Num: Value Size Type Bind Vis Ndx Name')
|
|
|
|
for nsym, symbol in enumerate(section.iter_symbols()):
|
|
version_info = ''
|
|
# readelf doesn't display version info for Solaris versioning
|
|
if (section['sh_type'] == 'SHT_DYNSYM' and
|
|
self._versioninfo['type'] == 'GNU'):
|
|
version = self._symbol_version(nsym)
|
|
if (version['name'] != symbol.name and
|
|
version['index'] not in ('VER_NDX_LOCAL',
|
|
'VER_NDX_GLOBAL')):
|
|
if version['filename']:
|
|
# external symbol
|
|
version_info = '@%(name)s (%(index)i)' % version
|
|
else:
|
|
# internal symbol
|
|
if version['hidden']:
|
|
version_info = '@%(name)s' % version
|
|
else:
|
|
version_info = '@@%(name)s' % version
|
|
|
|
symbol_name = symbol.name
|
|
# Print section names for STT_SECTION symbols as readelf does
|
|
if (symbol['st_info']['type'] == 'STT_SECTION'
|
|
and symbol['st_shndx'] < self.elffile.num_sections()
|
|
and symbol['st_name'] == 0):
|
|
symbol_name = self.elffile.get_section(symbol['st_shndx']).name
|
|
|
|
# symbol names are truncated to 25 chars, similarly to readelf
|
|
self._emitline('%6d: %s %s %-7s %-6s %-7s %4s %.25s%s' % (
|
|
nsym,
|
|
self._format_hex(
|
|
symbol['st_value'], fullhex=True, lead0x=False),
|
|
"%5d" % symbol['st_size'] if symbol['st_size'] < 100000 else hex(symbol['st_size']),
|
|
describe_symbol_type(symbol['st_info']['type']),
|
|
describe_symbol_bind(symbol['st_info']['bind']),
|
|
describe_symbol_other(symbol['st_other']),
|
|
describe_symbol_shndx(self._get_symbol_shndx(symbol,
|
|
nsym,
|
|
section_index)),
|
|
symbol_name,
|
|
version_info))
|
|
|
|
def display_dynamic_tags(self):
|
|
""" Display the dynamic tags contained in the file
|
|
"""
|
|
has_dynamic_sections = False
|
|
for section in self.elffile.iter_sections():
|
|
if not isinstance(section, DynamicSection):
|
|
continue
|
|
|
|
has_dynamic_sections = True
|
|
self._emitline("\nDynamic section at offset %s contains %d %s:" % (
|
|
self._format_hex(section['sh_offset']),
|
|
section.num_tags(),
|
|
'entry' if section.num_tags() == 1 else 'entries'))
|
|
self._emitline(" Tag Type Name/Value")
|
|
|
|
padding = 20 + (8 if self.elffile.elfclass == 32 else 0)
|
|
for tag in section.iter_tags():
|
|
if tag.entry.d_tag == 'DT_NEEDED':
|
|
parsed = 'Shared library: [%s]' % tag.needed
|
|
elif tag.entry.d_tag == 'DT_RPATH':
|
|
parsed = 'Library rpath: [%s]' % tag.rpath
|
|
elif tag.entry.d_tag == 'DT_RUNPATH':
|
|
parsed = 'Library runpath: [%s]' % tag.runpath
|
|
elif tag.entry.d_tag == 'DT_SONAME':
|
|
parsed = 'Library soname: [%s]' % tag.soname
|
|
elif tag.entry.d_tag.endswith(('SZ', 'ENT')):
|
|
parsed = '%i (bytes)' % tag['d_val']
|
|
elif tag.entry.d_tag == 'DT_FLAGS':
|
|
parsed = describe_dt_flags(tag.entry.d_val)
|
|
elif tag.entry.d_tag == 'DT_FLAGS_1':
|
|
parsed = 'Flags: %s' % describe_dt_flags_1(tag.entry.d_val)
|
|
elif tag.entry.d_tag.endswith(('NUM', 'COUNT')):
|
|
parsed = '%i' % tag['d_val']
|
|
elif tag.entry.d_tag == 'DT_PLTREL':
|
|
s = describe_dyn_tag(tag.entry.d_val)
|
|
if s.startswith('DT_'):
|
|
s = s[3:]
|
|
parsed = '%s' % s
|
|
elif tag.entry.d_tag == 'DT_MIPS_FLAGS':
|
|
parsed = describe_rh_flags(tag.entry.d_val)
|
|
elif tag.entry.d_tag in ('DT_MIPS_SYMTABNO',
|
|
'DT_MIPS_LOCAL_GOTNO'):
|
|
parsed = str(tag.entry.d_val)
|
|
else:
|
|
parsed = '%#x' % tag['d_val']
|
|
|
|
self._emitline(" %s %-*s %s" % (
|
|
self._format_hex(ENUM_D_TAG.get(tag.entry.d_tag, tag.entry.d_tag),
|
|
fullhex=True, lead0x=True),
|
|
padding,
|
|
'(%s)' % (tag.entry.d_tag[3:],),
|
|
parsed))
|
|
if not has_dynamic_sections:
|
|
self._emitline("\nThere is no dynamic section in this file.")
|
|
|
|
def display_notes(self):
|
|
""" Display the notes contained in the file
|
|
"""
|
|
for section in self.elffile.iter_sections():
|
|
if isinstance(section, NoteSection):
|
|
for note in section.iter_notes():
|
|
self._emitline("\nDisplaying notes found in: {}".format(
|
|
section.name))
|
|
self._emitline(' Owner Data size Description')
|
|
self._emitline(' %s %s\t%s' % (
|
|
note['n_name'].ljust(20),
|
|
self._format_hex(note['n_descsz'], fieldsize=8),
|
|
describe_note(note)))
|
|
|
|
def display_relocations(self):
|
|
""" Display the relocations contained in the file
|
|
"""
|
|
has_relocation_sections = False
|
|
for section in self.elffile.iter_sections():
|
|
if not isinstance(section, RelocationSection):
|
|
continue
|
|
|
|
has_relocation_sections = True
|
|
self._emitline("\nRelocation section '%.128s' at offset %s contains %d %s:" % (
|
|
section.name,
|
|
self._format_hex(section['sh_offset']),
|
|
section.num_relocations(),
|
|
'entry' if section.num_relocations() == 1 else 'entries'))
|
|
if section.is_RELA():
|
|
self._emitline(" Offset Info Type Sym. Value Sym. Name + Addend")
|
|
else:
|
|
self._emitline(" Offset Info Type Sym.Value Sym. Name")
|
|
|
|
# The symbol table section pointed to in sh_link
|
|
symtable = self.elffile.get_section(section['sh_link'])
|
|
|
|
for rel in section.iter_relocations():
|
|
hexwidth = 8 if self.elffile.elfclass == 32 else 12
|
|
self._emit('%s %s %-17.17s' % (
|
|
self._format_hex(rel['r_offset'],
|
|
fieldsize=hexwidth, lead0x=False),
|
|
self._format_hex(rel['r_info'],
|
|
fieldsize=hexwidth, lead0x=False),
|
|
describe_reloc_type(
|
|
rel['r_info_type'], self.elffile)))
|
|
|
|
if rel['r_info_sym'] == 0:
|
|
if section.is_RELA():
|
|
fieldsize = 8 if self.elffile.elfclass == 32 else 16
|
|
addend = self._format_hex(rel['r_addend'], lead0x=False)
|
|
self._emit(' %s %s' % (' ' * fieldsize, addend))
|
|
self._emitline()
|
|
|
|
else:
|
|
symbol = symtable.get_symbol(rel['r_info_sym'])
|
|
# Some symbols have zero 'st_name', so instead what's used
|
|
# is the name of the section they point at. Truncate symbol
|
|
# names (excluding version info) to 22 chars, similarly to
|
|
# readelf.
|
|
if symbol['st_name'] == 0:
|
|
symsecidx = self._get_symbol_shndx(symbol,
|
|
rel['r_info_sym'],
|
|
section['sh_link'])
|
|
symsec = self.elffile.get_section(symsecidx)
|
|
symbol_name = symsec.name
|
|
version = ''
|
|
else:
|
|
symbol_name = symbol.name
|
|
version = self._symbol_version(rel['r_info_sym'])
|
|
version = (version['name']
|
|
if version and version['name'] else '')
|
|
symbol_name = '%.22s' % symbol_name
|
|
if version:
|
|
symbol_name += '@' + version
|
|
|
|
self._emit(' %s %s' % (
|
|
self._format_hex(
|
|
symbol['st_value'],
|
|
fullhex=True, lead0x=False),
|
|
symbol_name))
|
|
if section.is_RELA():
|
|
self._emit(' %s %x' % (
|
|
'+' if rel['r_addend'] >= 0 else '-',
|
|
abs(rel['r_addend'])))
|
|
self._emitline()
|
|
|
|
# Emit the two additional relocation types for ELF64 MIPS
|
|
# binaries.
|
|
if (self.elffile.elfclass == 64 and
|
|
self.elffile['e_machine'] == 'EM_MIPS'):
|
|
for i in (2, 3):
|
|
rtype = rel['r_info_type%s' % i]
|
|
self._emit(' Type%s: %s' % (
|
|
i,
|
|
describe_reloc_type(rtype, self.elffile)))
|
|
self._emitline()
|
|
|
|
if not has_relocation_sections:
|
|
self._emitline('\nThere are no relocations in this file.')
|
|
|
|
def display_arm_unwind(self):
|
|
if not self.elffile.has_ehabi_info():
|
|
self._emitline('There are no .ARM.idx sections in this file.')
|
|
return
|
|
for ehabi_info in self.elffile.get_ehabi_infos():
|
|
# Unwind section '.ARM.exidx' at offset 0x203e8 contains 1009 entries:
|
|
self._emitline("\nUnwind section '%s' at offset 0x%x contains %d %s" % (
|
|
ehabi_info.section_name(),
|
|
ehabi_info.section_offset(),
|
|
ehabi_info.num_entry(),
|
|
'entry' if ehabi_info.num_entry() == 1 else 'entries'))
|
|
|
|
for i in range(ehabi_info.num_entry()):
|
|
entry = ehabi_info.get_entry(i)
|
|
self._emitline()
|
|
self._emitline("Entry %d:" % i)
|
|
if isinstance(entry, CorruptEHABIEntry):
|
|
self._emitline(" [corrupt] %s" % entry.reason)
|
|
continue
|
|
self._emit(" Function offset 0x%x: " % entry.function_offset)
|
|
if isinstance(entry, CannotUnwindEHABIEntry):
|
|
self._emitline("[cantunwind]")
|
|
continue
|
|
elif entry.eh_table_offset:
|
|
self._emitline("@0x%x" % entry.eh_table_offset)
|
|
else:
|
|
self._emitline("Compact (inline)")
|
|
if isinstance(entry, GenericEHABIEntry):
|
|
self._emitline(" Personality: 0x%x" % entry.personality)
|
|
else:
|
|
self._emitline(" Compact model index: %d" % entry.personality)
|
|
for mnemonic_item in entry.mnmemonic_array():
|
|
self._emit(' ')
|
|
self._emitline(mnemonic_item)
|
|
|
|
def display_version_info(self):
|
|
""" Display the version info contained in the file
|
|
"""
|
|
self._init_versioninfo()
|
|
|
|
if not self._versioninfo['type']:
|
|
self._emitline("\nNo version information found in this file.")
|
|
return
|
|
|
|
for section in self.elffile.iter_sections():
|
|
if isinstance(section, GNUVerSymSection):
|
|
self._print_version_section_header(section, 'Version symbols')
|
|
num_symbols = section.num_symbols()
|
|
|
|
# Symbol version info are printed four by four entries
|
|
for idx_by_4 in range(0, num_symbols, 4):
|
|
|
|
self._emit(' %03x:' % idx_by_4)
|
|
|
|
for idx in range(idx_by_4, min(idx_by_4 + 4, num_symbols)):
|
|
|
|
symbol_version = self._symbol_version(idx)
|
|
if symbol_version['index'] == 'VER_NDX_LOCAL':
|
|
version_index = 0
|
|
version_name = '(*local*)'
|
|
elif symbol_version['index'] == 'VER_NDX_GLOBAL':
|
|
version_index = 1
|
|
version_name = '(*global*)'
|
|
else:
|
|
version_index = symbol_version['index']
|
|
version_name = '(%(name)s)' % symbol_version
|
|
|
|
visibility = 'h' if symbol_version['hidden'] else ' '
|
|
|
|
self._emit('%4x%s%-13s' % (
|
|
version_index, visibility, version_name))
|
|
|
|
self._emitline()
|
|
|
|
elif isinstance(section, GNUVerDefSection):
|
|
self._print_version_section_header(
|
|
section, 'Version definition', indent=2)
|
|
|
|
offset = 0
|
|
for verdef, verdaux_iter in section.iter_versions():
|
|
verdaux = next(verdaux_iter)
|
|
|
|
name = verdaux.name
|
|
if verdef['vd_flags']:
|
|
flags = describe_ver_flags(verdef['vd_flags'])
|
|
# Mimic exactly the readelf output
|
|
flags += ' '
|
|
else:
|
|
flags = 'none'
|
|
|
|
self._emitline(' %s: Rev: %i Flags: %s Index: %i'
|
|
' Cnt: %i Name: %s' % (
|
|
self._format_hex(offset, fieldsize=6,
|
|
alternate=True),
|
|
verdef['vd_version'], flags, verdef['vd_ndx'],
|
|
verdef['vd_cnt'], name))
|
|
|
|
verdaux_offset = (
|
|
offset + verdef['vd_aux'] + verdaux['vda_next'])
|
|
for idx, verdaux in enumerate(verdaux_iter, start=1):
|
|
self._emitline(' %s: Parent %i: %s' %
|
|
(self._format_hex(verdaux_offset, fieldsize=4),
|
|
idx, verdaux.name))
|
|
verdaux_offset += verdaux['vda_next']
|
|
|
|
offset += verdef['vd_next']
|
|
|
|
elif isinstance(section, GNUVerNeedSection):
|
|
self._print_version_section_header(section, 'Version needs')
|
|
|
|
offset = 0
|
|
for verneed, verneed_iter in section.iter_versions():
|
|
|
|
self._emitline(' %s: Version: %i File: %s Cnt: %i' % (
|
|
self._format_hex(offset, fieldsize=6,
|
|
alternate=True),
|
|
verneed['vn_version'], verneed.name,
|
|
verneed['vn_cnt']))
|
|
|
|
vernaux_offset = offset + verneed['vn_aux']
|
|
for idx, vernaux in enumerate(verneed_iter, start=1):
|
|
if vernaux['vna_flags']:
|
|
flags = describe_ver_flags(vernaux['vna_flags'])
|
|
# Mimic exactly the readelf output
|
|
flags += ' '
|
|
else:
|
|
flags = 'none'
|
|
|
|
self._emitline(
|
|
' %s: Name: %s Flags: %s Version: %i' % (
|
|
self._format_hex(vernaux_offset, fieldsize=4),
|
|
vernaux.name, flags,
|
|
vernaux['vna_other']))
|
|
|
|
vernaux_offset += vernaux['vna_next']
|
|
|
|
offset += verneed['vn_next']
|
|
|
|
def display_arch_specific(self):
|
|
""" Display the architecture-specific info contained in the file.
|
|
"""
|
|
if self.elffile['e_machine'] == 'EM_ARM':
|
|
self._display_arch_specific_arm()
|
|
|
|
def display_hex_dump(self, section_spec):
|
|
""" Display a hex dump of a section. section_spec is either a section
|
|
number or a name.
|
|
"""
|
|
section = self._section_from_spec(section_spec)
|
|
if section is None:
|
|
# readelf prints the warning to stderr. Even though stderrs are not compared
|
|
# in tests, we comply with that behavior.
|
|
sys.stderr.write('readelf: Warning: Section \'%s\' was not dumped because it does not exist!\n' % (
|
|
section_spec))
|
|
return
|
|
if section['sh_type'] == 'SHT_NOBITS':
|
|
self._emitline("\nSection '%s' has no data to dump." % (
|
|
section_spec))
|
|
return
|
|
|
|
self._emitline("\nHex dump of section '%s':" % section.name)
|
|
self._note_relocs_for_section(section)
|
|
addr = section['sh_addr']
|
|
data = section.data()
|
|
dataptr = 0
|
|
|
|
while dataptr < len(data):
|
|
bytesleft = len(data) - dataptr
|
|
# chunks of 16 bytes per line
|
|
linebytes = 16 if bytesleft > 16 else bytesleft
|
|
|
|
self._emit(' %s ' % self._format_hex(addr, fieldsize=8))
|
|
for i in range(16):
|
|
if i < linebytes:
|
|
self._emit('%2.2x' % byte2int(data[dataptr + i]))
|
|
else:
|
|
self._emit(' ')
|
|
if i % 4 == 3:
|
|
self._emit(' ')
|
|
|
|
for i in range(linebytes):
|
|
c = data[dataptr + i : dataptr + i + 1]
|
|
if byte2int(c[0]) >= 32 and byte2int(c[0]) < 0x7f:
|
|
self._emit(bytes2str(c))
|
|
else:
|
|
self._emit(bytes2str(b'.'))
|
|
|
|
self._emitline()
|
|
addr += linebytes
|
|
dataptr += linebytes
|
|
|
|
self._emitline()
|
|
|
|
def display_string_dump(self, section_spec):
|
|
""" Display a strings dump of a section. section_spec is either a
|
|
section number or a name.
|
|
"""
|
|
section = self._section_from_spec(section_spec)
|
|
if section is None:
|
|
# readelf prints the warning to stderr. Even though stderrs are not compared
|
|
# in tests, we comply with that behavior.
|
|
sys.stderr.write('readelf.py: Warning: Section \'%s\' was not dumped because it does not exist!\n' % (
|
|
section_spec))
|
|
return
|
|
if section['sh_type'] == 'SHT_NOBITS':
|
|
self._emitline("\nSection '%s' has no data to dump." % (
|
|
section_spec))
|
|
return
|
|
|
|
self._emitline("\nString dump of section '%s':" % section.name)
|
|
|
|
found = False
|
|
data = section.data()
|
|
dataptr = 0
|
|
|
|
while dataptr < len(data):
|
|
while ( dataptr < len(data) and
|
|
not (32 <= byte2int(data[dataptr]) <= 127)):
|
|
dataptr += 1
|
|
|
|
if dataptr >= len(data):
|
|
break
|
|
|
|
endptr = dataptr
|
|
while endptr < len(data) and byte2int(data[endptr]) != 0:
|
|
endptr += 1
|
|
|
|
found = True
|
|
self._emitline(' [%6x] %s' % (
|
|
dataptr, bytes2str(data[dataptr:endptr])))
|
|
|
|
dataptr = endptr
|
|
|
|
if not found:
|
|
self._emitline(' No strings found in this section.')
|
|
else:
|
|
self._emitline()
|
|
|
|
def display_debug_dump(self, dump_what):
|
|
""" Dump a DWARF section
|
|
"""
|
|
self._init_dwarfinfo()
|
|
if self._dwarfinfo is None:
|
|
return
|
|
|
|
set_global_machine_arch(self.elffile.get_machine_arch())
|
|
|
|
if dump_what == 'info':
|
|
self._dump_debug_info()
|
|
elif dump_what == 'decodedline':
|
|
self._dump_debug_line_programs()
|
|
elif dump_what == 'frames':
|
|
self._dump_debug_frames()
|
|
elif dump_what == 'frames-interp':
|
|
self._dump_debug_frames_interp()
|
|
elif dump_what == 'aranges':
|
|
self._dump_debug_aranges()
|
|
elif dump_what in { 'pubtypes', 'pubnames' }:
|
|
self._dump_debug_namelut(dump_what)
|
|
elif dump_what == 'loc':
|
|
self._dump_debug_locations()
|
|
elif dump_what == 'Ranges':
|
|
self._dump_debug_ranges()
|
|
else:
|
|
self._emitline('debug dump not yet supported for "%s"' % dump_what)
|
|
|
|
def _format_hex(self, addr, fieldsize=None, fullhex=False, lead0x=True,
|
|
alternate=False):
|
|
""" Format an address into a hexadecimal string.
|
|
|
|
fieldsize:
|
|
Size of the hexadecimal field (with leading zeros to fit the
|
|
address into. For example with fieldsize=8, the format will
|
|
be %08x
|
|
If None, the minimal required field size will be used.
|
|
|
|
fullhex:
|
|
If True, override fieldsize to set it to the maximal size
|
|
needed for the elfclass
|
|
|
|
lead0x:
|
|
If True, leading 0x is added
|
|
|
|
alternate:
|
|
If True, override lead0x to emulate the alternate
|
|
hexadecimal form specified in format string with the #
|
|
character: only non-zero values are prefixed with 0x.
|
|
This form is used by readelf.
|
|
"""
|
|
if alternate:
|
|
if addr == 0:
|
|
lead0x = False
|
|
else:
|
|
lead0x = True
|
|
fieldsize -= 2
|
|
|
|
s = '0x' if lead0x else ''
|
|
if fullhex:
|
|
fieldsize = 8 if self.elffile.elfclass == 32 else 16
|
|
if fieldsize is None:
|
|
field = '%x'
|
|
else:
|
|
field = '%' + '0%sx' % fieldsize
|
|
return s + field % addr
|
|
|
|
def _print_version_section_header(self, version_section, name, lead0x=True,
|
|
indent=1):
|
|
""" Print a section header of one version related section (versym,
|
|
verneed or verdef) with some options to accomodate readelf
|
|
little differences between each header (e.g. indentation
|
|
and 0x prefixing).
|
|
"""
|
|
if hasattr(version_section, 'num_versions'):
|
|
num_entries = version_section.num_versions()
|
|
else:
|
|
num_entries = version_section.num_symbols()
|
|
|
|
self._emitline("\n%s section '%s' contains %d %s:" % (
|
|
name, version_section.name, num_entries,
|
|
'entry' if num_entries == 1 else 'entries'))
|
|
self._emitline('%sAddr: %s Offset: %s Link: %i (%s)' % (
|
|
' ' * indent,
|
|
self._format_hex(
|
|
version_section['sh_addr'], fieldsize=16, lead0x=lead0x),
|
|
self._format_hex(
|
|
version_section['sh_offset'], fieldsize=6, lead0x=True),
|
|
version_section['sh_link'],
|
|
self.elffile.get_section(version_section['sh_link']).name
|
|
)
|
|
)
|
|
|
|
def _init_versioninfo(self):
|
|
""" Search and initialize informations about version related sections
|
|
and the kind of versioning used (GNU or Solaris).
|
|
"""
|
|
if self._versioninfo is not None:
|
|
return
|
|
|
|
self._versioninfo = {'versym': None, 'verdef': None,
|
|
'verneed': None, 'type': None}
|
|
|
|
for section in self.elffile.iter_sections():
|
|
if isinstance(section, GNUVerSymSection):
|
|
self._versioninfo['versym'] = section
|
|
elif isinstance(section, GNUVerDefSection):
|
|
self._versioninfo['verdef'] = section
|
|
elif isinstance(section, GNUVerNeedSection):
|
|
self._versioninfo['verneed'] = section
|
|
elif isinstance(section, DynamicSection):
|
|
for tag in section.iter_tags():
|
|
if tag['d_tag'] == 'DT_VERSYM':
|
|
self._versioninfo['type'] = 'GNU'
|
|
break
|
|
|
|
if not self._versioninfo['type'] and (
|
|
self._versioninfo['verneed'] or self._versioninfo['verdef']):
|
|
self._versioninfo['type'] = 'Solaris'
|
|
|
|
def _symbol_version(self, nsym):
|
|
""" Return a dict containing information on the
|
|
or None if no version information is available
|
|
"""
|
|
self._init_versioninfo()
|
|
|
|
symbol_version = dict.fromkeys(('index', 'name', 'filename', 'hidden'))
|
|
|
|
if (not self._versioninfo['versym'] or
|
|
nsym >= self._versioninfo['versym'].num_symbols()):
|
|
return None
|
|
|
|
symbol = self._versioninfo['versym'].get_symbol(nsym)
|
|
index = symbol.entry['ndx']
|
|
if not index in ('VER_NDX_LOCAL', 'VER_NDX_GLOBAL'):
|
|
index = int(index)
|
|
|
|
if self._versioninfo['type'] == 'GNU':
|
|
# In GNU versioning mode, the highest bit is used to
|
|
# store whether the symbol is hidden or not
|
|
if index & 0x8000:
|
|
index &= ~0x8000
|
|
symbol_version['hidden'] = True
|
|
|
|
if (self._versioninfo['verdef'] and
|
|
index <= self._versioninfo['verdef'].num_versions()):
|
|
_, verdaux_iter = \
|
|
self._versioninfo['verdef'].get_version(index)
|
|
symbol_version['name'] = next(verdaux_iter).name
|
|
else:
|
|
verneed, vernaux = \
|
|
self._versioninfo['verneed'].get_version(index)
|
|
symbol_version['name'] = vernaux.name
|
|
symbol_version['filename'] = verneed.name
|
|
|
|
symbol_version['index'] = index
|
|
return symbol_version
|
|
|
|
def _section_from_spec(self, spec):
|
|
""" Retrieve a section given a "spec" (either number or name).
|
|
Return None if no such section exists in the file.
|
|
"""
|
|
try:
|
|
num = int(spec)
|
|
if num < self.elffile.num_sections():
|
|
return self.elffile.get_section(num)
|
|
else:
|
|
return None
|
|
except ValueError:
|
|
# Not a number. Must be a name then
|
|
return self.elffile.get_section_by_name(spec)
|
|
|
|
def _get_symbol_shndx(self, symbol, symbol_index, symtab_index):
|
|
""" Get the index into the section header table for the "symbol"
|
|
at "symbol_index" located in the symbol table with section index
|
|
"symtab_index".
|
|
"""
|
|
symbol_shndx = symbol['st_shndx']
|
|
if symbol_shndx != SHN_INDICES.SHN_XINDEX:
|
|
return symbol_shndx
|
|
|
|
# Check for or lazily construct index section mapping (symbol table
|
|
# index -> corresponding symbol table index section object)
|
|
if self._shndx_sections is None:
|
|
self._shndx_sections = {sec.symboltable: sec for sec in self.elffile.iter_sections()
|
|
if isinstance(sec, SymbolTableIndexSection)}
|
|
return self._shndx_sections[symtab_index].get_section_index(symbol_index)
|
|
|
|
def _note_relocs_for_section(self, section):
|
|
""" If there are relocation sections pointing to the givne section,
|
|
emit a note about it.
|
|
"""
|
|
for relsec in self.elffile.iter_sections():
|
|
if isinstance(relsec, RelocationSection):
|
|
info_idx = relsec['sh_info']
|
|
if self.elffile.get_section(info_idx) == section:
|
|
self._emitline(' Note: This section has relocations against it, but these have NOT been applied to this dump.')
|
|
return
|
|
|
|
def _init_dwarfinfo(self):
|
|
""" Initialize the DWARF info contained in the file and assign it to
|
|
self._dwarfinfo.
|
|
Leave self._dwarfinfo at None if no DWARF info was found in the file
|
|
"""
|
|
if self._dwarfinfo is not None:
|
|
return
|
|
|
|
if self.elffile.has_dwarf_info():
|
|
self._dwarfinfo = self.elffile.get_dwarf_info()
|
|
else:
|
|
self._dwarfinfo = None
|
|
|
|
def _dump_debug_info(self):
|
|
""" Dump the debugging info section.
|
|
"""
|
|
if not self._dwarfinfo.has_debug_info:
|
|
return
|
|
self._emitline('Contents of the %s section:\n' % self._dwarfinfo.debug_info_sec.name)
|
|
|
|
# Offset of the .debug_info section in the stream
|
|
section_offset = self._dwarfinfo.debug_info_sec.global_offset
|
|
|
|
for cu in self._dwarfinfo.iter_CUs():
|
|
self._emitline(' Compilation Unit @ offset %s:' %
|
|
self._format_hex(cu.cu_offset))
|
|
self._emitline(' Length: %s (%s)' % (
|
|
self._format_hex(cu['unit_length']),
|
|
'%s-bit' % cu.dwarf_format()))
|
|
self._emitline(' Version: %s' % cu['version'])
|
|
if cu.header.get("unit_type", False):
|
|
ut = next((key for key, value in ENUM_DW_UT.items() if value == cu.header.unit_type), '?')
|
|
self._emitline(' Unit Type: %s (%d)' % (ut, cu.header.unit_type))
|
|
self._emitline(' Abbrev Offset: %s' % (
|
|
self._format_hex(cu['debug_abbrev_offset']))),
|
|
self._emitline(' Pointer Size: %s' % cu['address_size'])
|
|
|
|
# The nesting depth of each DIE within the tree of DIEs must be
|
|
# displayed. To implement this, a counter is incremented each time
|
|
# the current DIE has children, and decremented when a null die is
|
|
# encountered. Due to the way the DIE tree is serialized, this will
|
|
# correctly reflect the nesting depth
|
|
#
|
|
die_depth = 0
|
|
current_function = None
|
|
for die in cu.iter_DIEs():
|
|
if die.tag == 'DW_TAG_subprogram':
|
|
current_function = die
|
|
self._emitline(' <%s><%x>: Abbrev Number: %s%s' % (
|
|
die_depth,
|
|
die.offset,
|
|
die.abbrev_code,
|
|
(' (%s)' % die.tag) if not die.is_null() else ''))
|
|
if die.is_null():
|
|
die_depth -= 1
|
|
continue
|
|
|
|
for attr in itervalues(die.attributes):
|
|
name = attr.name
|
|
# Unknown attribute values are passed-through as integers
|
|
if isinstance(name, int):
|
|
name = 'Unknown AT value: %x' % name
|
|
|
|
attr_desc = describe_attr_value(attr, die, section_offset)
|
|
|
|
if 'DW_OP_fbreg' in attr_desc and current_function and not 'DW_AT_frame_base' in current_function.attributes:
|
|
postfix = ' [without dw_at_frame_base]'
|
|
else:
|
|
postfix = ''
|
|
|
|
self._emitline(' <%x> %-18s: %s%s' % (
|
|
attr.offset,
|
|
name,
|
|
attr_desc,
|
|
postfix))
|
|
|
|
if die.has_children:
|
|
die_depth += 1
|
|
|
|
self._emitline()
|
|
|
|
def _dump_debug_line_programs(self):
|
|
""" Dump the (decoded) line programs from .debug_line
|
|
The programs are dumped in the order of the CUs they belong to.
|
|
"""
|
|
if not self._dwarfinfo.has_debug_info:
|
|
return
|
|
self._emitline('Contents of the %s section:' % self._dwarfinfo.debug_line_sec.name)
|
|
self._emitline()
|
|
|
|
for cu in self._dwarfinfo.iter_CUs():
|
|
lineprogram = self._dwarfinfo.line_program_for_CU(cu)
|
|
ver5 = lineprogram.header.version >= 5
|
|
|
|
cu_filename = bytes2str(lineprogram['file_entry'][0].name)
|
|
if len(lineprogram['include_directory']) > 0:
|
|
# GNU readelf 2.38 only outputs directory in wide mode
|
|
self._emitline('%s:' % cu_filename)
|
|
else:
|
|
self._emitline('CU: %s:' % cu_filename)
|
|
|
|
self._emitline('File name Line number Starting address Stmt')
|
|
# GNU readelf has a View column that we don't try to replicate
|
|
# The autotest has logic in place to ignore that
|
|
|
|
# Print each state's file, line and address information. For some
|
|
# instructions other output is needed to be compatible with
|
|
# readelf.
|
|
for entry in lineprogram.get_entries():
|
|
state = entry.state
|
|
if state is None:
|
|
# Special handling for commands that don't set a new state
|
|
if entry.command == DW_LNS_set_file:
|
|
file_entry = lineprogram['file_entry'][entry.args[0] - 1]
|
|
if file_entry.dir_index == 0:
|
|
# current directory
|
|
self._emitline('\n./%s:[++]' % (
|
|
bytes2str(file_entry.name)))
|
|
else:
|
|
self._emitline('\n%s/%s:' % (
|
|
bytes2str(lineprogram['include_directory'][file_entry.dir_index - 1]),
|
|
bytes2str(file_entry.name)))
|
|
elif entry.command == DW_LNE_define_file:
|
|
self._emitline('%s:' % (
|
|
bytes2str(lineprogram['include_directory'][entry.args[0].dir_index])))
|
|
elif lineprogram['version'] < 4 or self.elffile['e_machine'] == 'EM_PPC64':
|
|
self._emitline('%-35s %11s %18s %s' % (
|
|
bytes2str(lineprogram['file_entry'][state.file - 1].name),
|
|
state.line if not state.end_sequence else '-',
|
|
'0' if state.address == 0 else self._format_hex(state.address),
|
|
'x' if state.is_stmt and not state.end_sequence else ''))
|
|
else:
|
|
# In readelf, on non-VLIW machines there is no op_index postfix after address.
|
|
# It used to be unconditional.
|
|
self._emitline('%-35s %s %18s%s %s' % (
|
|
bytes2str(lineprogram['file_entry'][state.file - 1].name),
|
|
"%11d" % (state.line,) if not state.end_sequence else '-',
|
|
'0' if state.address == 0 else self._format_hex(state.address),
|
|
'' if lineprogram.header.maximum_operations_per_instruction == 1 else '[%d]' % (state.op_index,),
|
|
'x' if state.is_stmt and not state.end_sequence else ''))
|
|
if entry.command == DW_LNS_copy:
|
|
# Another readelf oddity...
|
|
self._emitline()
|
|
|
|
def _dump_frames_info(self, section, cfi_entries):
|
|
""" Dump the raw call frame info in a section.
|
|
|
|
`section` is the Section instance that contains the call frame info
|
|
while `cfi_entries` must be an iterable that yields the sequence of
|
|
CIE or FDE instances.
|
|
"""
|
|
self._emitline('Contents of the %s section:' % section.name)
|
|
|
|
for entry in cfi_entries:
|
|
if isinstance(entry, CIE):
|
|
self._emitline('\n%08x %s %s CIE' % (
|
|
entry.offset,
|
|
self._format_hex(entry['length'], fullhex=True, lead0x=False),
|
|
self._format_hex(entry['CIE_id'], fieldsize=8, lead0x=False)))
|
|
self._emitline(' Version: %d' % entry['version'])
|
|
self._emitline(' Augmentation: "%s"' % bytes2str(entry['augmentation']))
|
|
self._emitline(' Code alignment factor: %u' % entry['code_alignment_factor'])
|
|
self._emitline(' Data alignment factor: %d' % entry['data_alignment_factor'])
|
|
self._emitline(' Return address column: %d' % entry['return_address_register'])
|
|
if entry.augmentation_bytes:
|
|
self._emitline(' Augmentation data: {}'.format(' '.join(
|
|
'{:02x}'.format(ord(b))
|
|
for b in iterbytes(entry.augmentation_bytes)
|
|
)))
|
|
self._emitline()
|
|
|
|
elif isinstance(entry, FDE):
|
|
self._emitline('\n%08x %s %s FDE cie=%08x pc=%s..%s' % (
|
|
entry.offset,
|
|
self._format_hex(entry['length'], fullhex=True, lead0x=False),
|
|
self._format_hex(entry['CIE_pointer'], fieldsize=8, lead0x=False),
|
|
entry.cie.offset,
|
|
self._format_hex(entry['initial_location'], fullhex=True, lead0x=False),
|
|
self._format_hex(
|
|
entry['initial_location'] + entry['address_range'],
|
|
fullhex=True, lead0x=False)))
|
|
if entry.augmentation_bytes:
|
|
self._emitline(' Augmentation data: {}'.format(' '.join(
|
|
'{:02x}'.format(ord(b))
|
|
for b in iterbytes(entry.augmentation_bytes)
|
|
)))
|
|
|
|
else: # ZERO terminator
|
|
assert isinstance(entry, ZERO)
|
|
self._emitline('\n%08x ZERO terminator' % entry.offset)
|
|
continue
|
|
|
|
self._emit(describe_CFI_instructions(entry))
|
|
self._emitline()
|
|
|
|
def _dump_debug_frames(self):
|
|
""" Dump the raw frame info from .debug_frame and .eh_frame sections.
|
|
"""
|
|
if self._dwarfinfo.has_EH_CFI():
|
|
self._dump_frames_info(
|
|
self._dwarfinfo.eh_frame_sec,
|
|
self._dwarfinfo.EH_CFI_entries())
|
|
self._emitline()
|
|
|
|
if self._dwarfinfo.has_CFI():
|
|
self._dump_frames_info(
|
|
self._dwarfinfo.debug_frame_sec,
|
|
self._dwarfinfo.CFI_entries())
|
|
|
|
def _dump_debug_namelut(self, what):
|
|
"""
|
|
Dump the debug pubnames section.
|
|
"""
|
|
if what == 'pubnames':
|
|
namelut = self._dwarfinfo.get_pubnames()
|
|
section = self._dwarfinfo.debug_pubnames_sec
|
|
else:
|
|
namelut = self._dwarfinfo.get_pubtypes()
|
|
section = self._dwarfinfo.debug_pubtypes_sec
|
|
|
|
# readelf prints nothing if the section is not present.
|
|
if namelut is None or len(namelut) == 0:
|
|
return
|
|
|
|
self._emitline('Contents of the %s section:' % section.name)
|
|
self._emitline()
|
|
|
|
cu_headers = namelut.get_cu_headers()
|
|
|
|
# go over CU-by-CU first and item-by-item next.
|
|
for (cu_hdr, (cu_ofs, items)) in izip(cu_headers, itertools.groupby(
|
|
namelut.items(), key = lambda x: x[1].cu_ofs)):
|
|
|
|
self._emitline(' Length: %d' % cu_hdr.unit_length)
|
|
self._emitline(' Version: %d' % cu_hdr.version)
|
|
self._emitline(' Offset into .debug_info section: 0x%x' % cu_hdr.debug_info_offset)
|
|
self._emitline(' Size of area in .debug_info section: %d' % cu_hdr.debug_info_length)
|
|
self._emitline()
|
|
self._emitline(' Offset Name')
|
|
for item in items:
|
|
self._emitline(' %x %s' % (item[1].die_ofs - cu_ofs, item[0]))
|
|
self._emitline()
|
|
|
|
def _dump_debug_aranges(self):
|
|
""" Dump the aranges table
|
|
"""
|
|
aranges_table = self._dwarfinfo.get_aranges()
|
|
if aranges_table == None:
|
|
return
|
|
# Seems redundant, but we need to get the unsorted set of entries
|
|
# to match system readelf.
|
|
# Also, sometimes there are blank sections in aranges, but readelf
|
|
# dumps them, so we should too.
|
|
unordered_entries = aranges_table._get_entries(need_empty=True)
|
|
|
|
if len(unordered_entries) == 0:
|
|
self._emitline()
|
|
self._emitline("Section '.debug_aranges' has no debugging data.")
|
|
return
|
|
|
|
self._emitline('Contents of the %s section:' % self._dwarfinfo.debug_aranges_sec.name)
|
|
self._emitline()
|
|
prev_offset = None
|
|
for entry in unordered_entries:
|
|
if prev_offset != entry.info_offset:
|
|
if entry != unordered_entries[0]:
|
|
self._emitline(' %s %s' % (
|
|
self._format_hex(0, fullhex=True, lead0x=False),
|
|
self._format_hex(0, fullhex=True, lead0x=False)))
|
|
self._emitline(' Length: %d' % (entry.unit_length))
|
|
self._emitline(' Version: %d' % (entry.version))
|
|
self._emitline(' Offset into .debug_info: 0x%x' % (entry.info_offset))
|
|
self._emitline(' Pointer Size: %d' % (entry.address_size))
|
|
self._emitline(' Segment Size: %d' % (entry.segment_size))
|
|
self._emitline()
|
|
self._emitline(' Address Length')
|
|
if entry.begin_addr != 0 or entry.length != 0:
|
|
self._emitline(' %s %s' % (
|
|
self._format_hex(entry.begin_addr, fullhex=True, lead0x=False),
|
|
self._format_hex(entry.length, fullhex=True, lead0x=False)))
|
|
prev_offset = entry.info_offset
|
|
self._emitline(' %s %s' % (
|
|
self._format_hex(0, fullhex=True, lead0x=False),
|
|
self._format_hex(0, fullhex=True, lead0x=False)))
|
|
|
|
def _dump_frames_interp_info(self, section, cfi_entries):
|
|
""" Dump interpreted (decoded) frame information in a section.
|
|
|
|
`section` is the Section instance that contains the call frame info
|
|
while `cfi_entries` must be an iterable that yields the sequence of
|
|
CIE or FDE instances.
|
|
"""
|
|
self._emitline('Contents of the %s section:' % section.name)
|
|
|
|
for entry in cfi_entries:
|
|
if isinstance(entry, CIE):
|
|
self._emitline('\n%08x %s %s CIE "%s" cf=%d df=%d ra=%d' % (
|
|
entry.offset,
|
|
self._format_hex(entry['length'], fullhex=True, lead0x=False),
|
|
self._format_hex(entry['CIE_id'], fieldsize=8, lead0x=False),
|
|
bytes2str(entry['augmentation']),
|
|
entry['code_alignment_factor'],
|
|
entry['data_alignment_factor'],
|
|
entry['return_address_register']))
|
|
ra_regnum = entry['return_address_register']
|
|
|
|
elif isinstance(entry, FDE):
|
|
self._emitline('\n%08x %s %s FDE cie=%08x pc=%s..%s' % (
|
|
entry.offset,
|
|
self._format_hex(entry['length'], fullhex=True, lead0x=False),
|
|
self._format_hex(entry['CIE_pointer'], fieldsize=8, lead0x=False),
|
|
entry.cie.offset,
|
|
self._format_hex(entry['initial_location'], fullhex=True, lead0x=False),
|
|
self._format_hex(entry['initial_location'] + entry['address_range'],
|
|
fullhex=True, lead0x=False)))
|
|
ra_regnum = entry.cie['return_address_register']
|
|
|
|
# If the FDE brings adds no unwinding information compared to
|
|
# its CIE, omit its table.
|
|
if (len(entry.get_decoded().table) ==
|
|
len(entry.cie.get_decoded().table)):
|
|
continue
|
|
|
|
else: # ZERO terminator
|
|
assert isinstance(entry, ZERO)
|
|
self._emitline('\n%08x ZERO terminator' % entry.offset)
|
|
continue
|
|
|
|
# Decode the table.
|
|
decoded_table = entry.get_decoded()
|
|
if len(decoded_table.table) == 0:
|
|
continue
|
|
|
|
# Print the heading row for the decoded table
|
|
self._emit(' LOC')
|
|
self._emit(' ' if entry.structs.address_size == 4 else ' ')
|
|
self._emit(' CFA ')
|
|
|
|
# Look at the registers the decoded table describes.
|
|
# We build reg_order here to match readelf's order. In particular,
|
|
# registers are sorted by their number, and the register matching
|
|
# ra_regnum is always listed last with a special heading.
|
|
decoded_table = entry.get_decoded()
|
|
reg_order = sorted(ifilter(
|
|
lambda r: r != ra_regnum,
|
|
decoded_table.reg_order))
|
|
if len(decoded_table.reg_order):
|
|
|
|
# Headings for the registers
|
|
for regnum in reg_order:
|
|
self._emit('%-6s' % describe_reg_name(regnum))
|
|
self._emitline('ra ')
|
|
|
|
# Now include ra_regnum in reg_order to print its values
|
|
# similarly to the other registers.
|
|
reg_order.append(ra_regnum)
|
|
else:
|
|
self._emitline()
|
|
|
|
for line in decoded_table.table:
|
|
self._emit(self._format_hex(
|
|
line['pc'], fullhex=True, lead0x=False))
|
|
|
|
if line['cfa'] is not None:
|
|
s = describe_CFI_CFA_rule(line['cfa'])
|
|
else:
|
|
s = 'u'
|
|
self._emit(' %-9s' % s)
|
|
|
|
for regnum in reg_order:
|
|
if regnum in line:
|
|
s = describe_CFI_register_rule(line[regnum])
|
|
else:
|
|
s = 'u'
|
|
self._emit('%-6s' % s)
|
|
self._emitline()
|
|
self._emitline()
|
|
|
|
def _dump_debug_frames_interp(self):
|
|
""" Dump the interpreted (decoded) frame information from .debug_frame
|
|
and .eh_frame sections.
|
|
"""
|
|
if self._dwarfinfo.has_EH_CFI():
|
|
self._dump_frames_interp_info(
|
|
self._dwarfinfo.eh_frame_sec,
|
|
self._dwarfinfo.EH_CFI_entries())
|
|
self._emitline()
|
|
|
|
if self._dwarfinfo.has_CFI():
|
|
self._dump_frames_interp_info(
|
|
self._dwarfinfo.debug_frame_sec,
|
|
self._dwarfinfo.CFI_entries())
|
|
|
|
def _dump_debug_locations(self):
|
|
""" Dump the location lists from .debug_loc/.debug_loclists section
|
|
"""
|
|
di = self._dwarfinfo
|
|
loc_lists_sec = di.location_lists()
|
|
if not loc_lists_sec: # No locations section - readelf outputs nothing
|
|
return
|
|
|
|
if isinstance(loc_lists_sec, LocationListsPair):
|
|
self._dump_debug_locsection(di, loc_lists_sec._loc)
|
|
self._dump_debug_locsection(di, loc_lists_sec._loclists)
|
|
else:
|
|
self._dump_debug_locsection(di, loc_lists_sec)
|
|
|
|
def _dump_debug_locsection(self, di, loc_lists_sec):
|
|
""" Dump the location lists from .debug_loc/.debug_loclists section
|
|
"""
|
|
ver5 = loc_lists_sec.version >= 5
|
|
section_name = (di.debug_loclists_sec if ver5 else di.debug_loc_sec).name
|
|
|
|
# To dump a location list, one needs to know the CU.
|
|
# Scroll through DIEs once, list the known location list offsets.
|
|
# Don't need this CU/DIE scan if all entries are absolute or prefixed by base,
|
|
# but let's not optimize for that yet.
|
|
cu_map = dict() # Loc list offset => CU
|
|
for cu in di.iter_CUs():
|
|
for die in cu.iter_DIEs():
|
|
for key in die.attributes:
|
|
attr = die.attributes[key]
|
|
if (LocationParser.attribute_has_location(attr, cu['version']) and
|
|
LocationParser._attribute_has_loc_list(attr, cu['version'])):
|
|
cu_map[attr.value] = cu
|
|
|
|
addr_size = di.config.default_address_size # In bytes, 4 or 8
|
|
addr_width = addr_size * 2 # In hex digits, 8 or 16
|
|
line_template = " %%08x %%0%dx %%0%dx %%s%%s" % (addr_width, addr_width)
|
|
|
|
loc_lists = list(loc_lists_sec.iter_location_lists())
|
|
if len(loc_lists) == 0:
|
|
# Present but empty locations section - readelf outputs a message
|
|
self._emitline("\nSection '%s' has no debugging data." % (section_name,))
|
|
return
|
|
|
|
self._emitline('Contents of the %s section:\n' % (section_name,))
|
|
self._emitline(' Offset Begin End Expression')
|
|
for loc_list in loc_lists:
|
|
self._dump_loclist(loc_list, line_template, cu_map)
|
|
|
|
def _dump_loclist(self, loc_list, line_template, cu_map):
|
|
in_views = False
|
|
has_views = False
|
|
base_ip = None
|
|
loc_entry_count = 0
|
|
cu = None
|
|
for entry in loc_list:
|
|
if isinstance(entry, LocationViewPair):
|
|
has_views = in_views = True
|
|
# The "v" before address is conditional in binutils, haven't figured out how
|
|
self._emitline(" %08x v%015x v%015x location view pair" % (entry.entry_offset, entry.begin, entry.end))
|
|
else:
|
|
if in_views:
|
|
in_views = False
|
|
self._emitline("")
|
|
|
|
# Readelf quirk: indexed loclists don't show the real base IP
|
|
if cu_map is None:
|
|
base_ip = 0
|
|
elif cu is None:
|
|
cu = cu_map.get(entry.entry_offset, False)
|
|
if not cu:
|
|
raise ValueError("Location list can't be tracked to a CU")
|
|
|
|
if isinstance(entry, LocationEntry):
|
|
if base_ip is None and not entry.is_absolute:
|
|
base_ip = _get_cu_base(cu)
|
|
|
|
begin_offset = (0 if entry.is_absolute else base_ip) + entry.begin_offset
|
|
end_offset = (0 if entry.is_absolute else base_ip) + entry.end_offset
|
|
expr = describe_DWARF_expr(entry.loc_expr, cu.structs, cu.cu_offset)
|
|
if has_views:
|
|
view = loc_list[loc_entry_count]
|
|
postfix = ' (start == end)' if entry.begin_offset == entry.end_offset and view.begin == view.end else ''
|
|
self._emitline(' %08x v%015x v%015x views at %08x for:' %(
|
|
entry.entry_offset,
|
|
view.begin,
|
|
view.end,
|
|
view.entry_offset))
|
|
self._emitline(' %016x %016x %s%s' %(
|
|
begin_offset,
|
|
end_offset,
|
|
expr,
|
|
postfix))
|
|
loc_entry_count += 1
|
|
else:
|
|
postfix = ' (start == end)' if entry.begin_offset == entry.end_offset else ''
|
|
self._emitline(line_template % (
|
|
entry.entry_offset,
|
|
begin_offset,
|
|
end_offset,
|
|
expr,
|
|
postfix))
|
|
elif isinstance(entry, LocBaseAddressEntry):
|
|
base_ip = entry.base_address
|
|
self._emitline(" %08x %016x (base address)" % (entry.entry_offset, entry.base_address))
|
|
|
|
# Pyelftools doesn't store the terminating entry,
|
|
# but readelf emits its offset, so this should too.
|
|
last = loc_list[-1]
|
|
self._emitline(" %08x <End of list>" % (last.entry_offset + last.entry_length))
|
|
|
|
def _dump_debug_ranges(self):
|
|
# TODO: GNU readelf format doesn't need entry_length?
|
|
di = self._dwarfinfo
|
|
range_lists_sec = di.range_lists()
|
|
if not range_lists_sec: # No ranges section - readelf outputs nothing
|
|
return
|
|
|
|
if isinstance(range_lists_sec, RangeListsPair):
|
|
self._dump_debug_rangesection(di, range_lists_sec._ranges)
|
|
self._dump_debug_rangesection(di, range_lists_sec._rnglists)
|
|
else:
|
|
self._dump_debug_rangesection(di, range_lists_sec)
|
|
|
|
def _dump_debug_rangesection(self, di, range_lists_sec):
|
|
# In the master branch of binutils, the v5 dump format is way different by now.
|
|
|
|
ver5 = range_lists_sec.version >= 5
|
|
section_name = (di.debug_rnglists_sec if ver5 else di.debug_ranges_sec).name
|
|
addr_size = di.config.default_address_size # In bytes, 4 or 8
|
|
addr_width = addr_size * 2 # In hex digits, 8 or 16
|
|
line_template = " %%08x %%0%dx %%0%dx %%s" % (addr_width, addr_width)
|
|
base_template = " %%08x %%0%dx (base address)" % (addr_width)
|
|
|
|
range_lists = list(range_lists_sec.iter_range_lists())
|
|
if len(range_lists) == 0:
|
|
# Present but empty locations section - readelf outputs a message
|
|
self._emitline("\nSection '%s' has no debugging data." % section_name)
|
|
return
|
|
|
|
# In order to determine the base address of the range
|
|
# We need to know the corresponding CU.
|
|
cu_map = {die.attributes['DW_AT_ranges'].value : cu # Range list offset => CU
|
|
for cu in di.iter_CUs()
|
|
for die in cu.iter_DIEs()
|
|
if 'DW_AT_ranges' in die.attributes}
|
|
|
|
self._emitline('Contents of the %s section:\n' % section_name)
|
|
self._emitline(' Offset Begin End')
|
|
|
|
for range_list in range_lists:
|
|
self._dump_rangelist(range_list, cu_map, ver5, line_template, base_template)
|
|
|
|
def _dump_rangelist(self, range_list, cu_map, ver5, line_template, base_template):
|
|
# Weird discrepancy in binutils: for DWARFv5 it outputs entry offset,
|
|
# for DWARF<=4 list offset.
|
|
first = range_list[0]
|
|
base_ip = _get_cu_base(cu_map[first.entry_offset])
|
|
for entry in range_list:
|
|
if isinstance(entry, RangeEntry):
|
|
postfix = ' (start == end)' if entry.begin_offset == entry.end_offset else ''
|
|
self._emitline(line_template % (
|
|
entry.entry_offset if ver5 else first.entry_offset,
|
|
(0 if entry.is_absolute else base_ip) + entry.begin_offset,
|
|
(0 if entry.is_absolute else base_ip) + entry.end_offset,
|
|
postfix))
|
|
elif isinstance(entry,RangeBaseAddressEntry):
|
|
base_ip = entry.base_address
|
|
self._emitline(base_template % (
|
|
entry.entry_offset if ver5 else first.entry_offset,
|
|
entry.base_address))
|
|
else:
|
|
raise NotImplementedError("Unknown object in a range list")
|
|
last = range_list[-1]
|
|
self._emitline(' %08x <End of list>' % (last.entry_offset + last.entry_length if ver5 else first.entry_offset))
|
|
|
|
def _display_arch_specific_arm(self):
|
|
""" Display the ARM architecture-specific info contained in the file.
|
|
"""
|
|
attr_sec = self.elffile.get_section_by_name('.ARM.attributes')
|
|
|
|
for s in attr_sec.iter_subsections():
|
|
self._emitline("Attribute Section: %s" % s.header['vendor_name'])
|
|
for ss in s.iter_subsubsections():
|
|
h_val = "" if ss.header.extra is None else " ".join("%d" % x for x in ss.header.extra)
|
|
self._emitline(describe_attr_tag_arm(ss.header.tag, h_val, None))
|
|
|
|
for attr in ss.iter_attributes():
|
|
self._emit(' ')
|
|
self._emitline(describe_attr_tag_arm(attr.tag,
|
|
attr.value,
|
|
attr.extra))
|
|
|
|
def _emit(self, s=''):
|
|
""" Emit an object to output
|
|
"""
|
|
self.output.write(str(s))
|
|
|
|
def _emitline(self, s=''):
|
|
""" Emit an object to output, followed by a newline
|
|
"""
|
|
self.output.write(str(s).rstrip() + '\n')
|
|
|
|
|
|
SCRIPT_DESCRIPTION = 'Display information about the contents of ELF format files'
|
|
VERSION_STRING = '%%(prog)s: based on pyelftools %s' % __version__
|
|
|
|
|
|
def main(stream=None):
|
|
# parse the command-line arguments and invoke ReadElf
|
|
argparser = argparse.ArgumentParser(
|
|
usage='usage: %(prog)s [options] <elf-file>',
|
|
description=SCRIPT_DESCRIPTION,
|
|
add_help=False, # -h is a real option of readelf
|
|
prog='readelf.py')
|
|
argparser.add_argument('file',
|
|
nargs='?', default=None,
|
|
help='ELF file to parse')
|
|
argparser.add_argument('-v', '--version',
|
|
action='version', version=VERSION_STRING)
|
|
argparser.add_argument('-d', '--dynamic',
|
|
action='store_true', dest='show_dynamic_tags',
|
|
help='Display the dynamic section')
|
|
argparser.add_argument('-H', '--help',
|
|
action='store_true', dest='help',
|
|
help='Display this information')
|
|
argparser.add_argument('-h', '--file-header',
|
|
action='store_true', dest='show_file_header',
|
|
help='Display the ELF file header')
|
|
argparser.add_argument('-l', '--program-headers', '--segments',
|
|
action='store_true', dest='show_program_header',
|
|
help='Display the program headers')
|
|
argparser.add_argument('-S', '--section-headers', '--sections',
|
|
action='store_true', dest='show_section_header',
|
|
help="Display the sections' headers")
|
|
argparser.add_argument('-e', '--headers',
|
|
action='store_true', dest='show_all_headers',
|
|
help='Equivalent to: -h -l -S')
|
|
argparser.add_argument('-s', '--symbols', '--syms',
|
|
action='store_true', dest='show_symbols',
|
|
help='Display the symbol table')
|
|
argparser.add_argument('-n', '--notes',
|
|
action='store_true', dest='show_notes',
|
|
help='Display the core notes (if present)')
|
|
argparser.add_argument('-r', '--relocs',
|
|
action='store_true', dest='show_relocs',
|
|
help='Display the relocations (if present)')
|
|
argparser.add_argument('-au', '--arm-unwind',
|
|
action='store_true', dest='show_arm_unwind',
|
|
help='Display the armeabi unwind information (if present)')
|
|
argparser.add_argument('-x', '--hex-dump',
|
|
action='store', dest='show_hex_dump', metavar='<number|name>',
|
|
help='Dump the contents of section <number|name> as bytes')
|
|
argparser.add_argument('-p', '--string-dump',
|
|
action='store', dest='show_string_dump', metavar='<number|name>',
|
|
help='Dump the contents of section <number|name> as strings')
|
|
argparser.add_argument('-V', '--version-info',
|
|
action='store_true', dest='show_version_info',
|
|
help='Display the version sections (if present)')
|
|
argparser.add_argument('-A', '--arch-specific',
|
|
action='store_true', dest='show_arch_specific',
|
|
help='Display the architecture-specific information (if present)')
|
|
argparser.add_argument('--debug-dump',
|
|
action='store', dest='debug_dump_what', metavar='<what>',
|
|
help=(
|
|
'Display the contents of DWARF debug sections. <what> can ' +
|
|
'one of {info,decodedline,frames,frames-interp,aranges,pubtypes,pubnames,loc,Ranges}'))
|
|
argparser.add_argument('--traceback',
|
|
action='store_true', dest='show_traceback',
|
|
help='Dump the Python traceback on ELFError'
|
|
' exceptions from elftools')
|
|
|
|
args = argparser.parse_args()
|
|
|
|
if args.help or not args.file:
|
|
argparser.print_help()
|
|
sys.exit(0)
|
|
|
|
if args.show_all_headers:
|
|
do_file_header = do_section_header = do_program_header = True
|
|
else:
|
|
do_file_header = args.show_file_header
|
|
do_section_header = args.show_section_header
|
|
do_program_header = args.show_program_header
|
|
|
|
with open(args.file, 'rb') as file:
|
|
try:
|
|
readelf = ReadElf(file, stream or sys.stdout)
|
|
if do_file_header:
|
|
readelf.display_file_header()
|
|
if do_section_header:
|
|
readelf.display_section_headers(
|
|
show_heading=not do_file_header)
|
|
if do_program_header:
|
|
readelf.display_program_headers(
|
|
show_heading=not do_file_header)
|
|
if args.show_dynamic_tags:
|
|
readelf.display_dynamic_tags()
|
|
if args.show_symbols:
|
|
readelf.display_symbol_tables()
|
|
if args.show_notes:
|
|
readelf.display_notes()
|
|
if args.show_relocs:
|
|
readelf.display_relocations()
|
|
if args.show_arm_unwind:
|
|
readelf.display_arm_unwind()
|
|
if args.show_version_info:
|
|
readelf.display_version_info()
|
|
if args.show_arch_specific:
|
|
readelf.display_arch_specific()
|
|
if args.show_hex_dump:
|
|
readelf.display_hex_dump(args.show_hex_dump)
|
|
if args.show_string_dump:
|
|
readelf.display_string_dump(args.show_string_dump)
|
|
if args.debug_dump_what:
|
|
readelf.display_debug_dump(args.debug_dump_what)
|
|
except ELFError as ex:
|
|
sys.stdout.flush()
|
|
sys.stderr.write('ELF error: %s\n' % ex)
|
|
if args.show_traceback:
|
|
traceback.print_exc()
|
|
sys.exit(1)
|
|
|
|
|
|
def profile_main():
|
|
# Run 'main' redirecting its output to readelfout.txt
|
|
# Saves profiling information in readelf.profile
|
|
PROFFILE = 'readelf.profile'
|
|
import cProfile
|
|
cProfile.run('main(open("readelfout.txt", "w"))', PROFFILE)
|
|
|
|
# Dig in some profiling stats
|
|
import pstats
|
|
p = pstats.Stats(PROFFILE)
|
|
p.sort_stats('cumulative').print_stats(25)
|
|
|
|
|
|
#-------------------------------------------------------------------------------
|
|
if __name__ == '__main__':
|
|
main()
|
|
#profile_main()
|