examples/dwarf_decode_address.py - mirrors/cros/chromiumos/third_party/pyelftools - Git at Google

 #-------------------------------------------------------------------------------
 # elftools example: dwarf_decode_address.py
 #
 # Decode an address in an ELF file to find out which function it belongs to
 # and from which filename/line it comes in the original source file.
 #
 # Eli Bendersky (eliben@gmail.com)
 # This code is in the public domain
 #-------------------------------------------------------------------------------
 from __future__ import print_function
 import sys

 # If elftools is not installed, maybe we're running from the root or examples
 # dir of the source distribution
 try:
     import elftools
 except ImportError:
     sys.path.extend(['.', '..'])

 from elftools.common.py3compat import maxint, bytes2str
 from elftools.elf.elffile import ELFFile


 def process_file(filename, address):
     print('Processing file:', filename)
     with open(filename, 'rb') as f:
         elffile = ELFFile(f)

         if not elffile.has_dwarf_info():
             print('  file has no DWARF info')
             return

         # get_dwarf_info returns a DWARFInfo context object, which is the
         # starting point for all DWARF-based processing in pyelftools.
         dwarfinfo = elffile.get_dwarf_info()

         funcname = decode_funcname(dwarfinfo, address)
         file, line = decode_file_line(dwarfinfo, address)

         print('Function:', bytes2str(funcname))
         print('File:', bytes2str(file))
         print('Line:', line)


 def decode_funcname(dwarfinfo, address):
     # Go over all DIEs in the DWARF information, looking for a subprogram
     # entry with an address range that includes the given address. Note that
     # this simplifies things by disregarding subprograms that may have
     # split address ranges.
     for CU in dwarfinfo.iter_CUs():
         for DIE in CU.iter_DIEs():
             try:
                 if DIE.tag == 'DW_TAG_subprogram':
                     lowpc = DIE.attributes['DW_AT_low_pc'].value
                     highpc = DIE.attributes['DW_AT_high_pc'].value
                     if lowpc <= address <= highpc:
                         return DIE.attributes['DW_AT_name'].value
             except KeyError:
                 continue
     return None


 def decode_file_line(dwarfinfo, address):
     # Go over all the line programs in the DWARF information, looking for
     # one that describes the given address.
     for CU in dwarfinfo.iter_CUs():
         # First, look at line programs to find the file/line for the address
         lineprog = dwarfinfo.line_program_for_CU(CU)
         prevaddr = maxint
         for entry in lineprog.get_entries():
             # We're interested in those entries where a new state is assigned
             state = entry.state
             if state is not None and not state.end_sequence:
                 if prevaddr <= address <= state.address:
                     filename = lineprog['file_entry'][state.file - 1].name
                     line = state.line
                     return filename, line
                 prevaddr = state.address
     return None, None


 if __name__ == '__main__':
     for filename in sys.argv[1:]:
         # For testing we use a hardcoded address.
         process_file(filename, 0x400503)
	#-------------------------------------------------------------------------------
	# elftools example: dwarf_decode_address.py
	#
	# Decode an address in an ELF file to find out which function it belongs to
	# and from which filename/line it comes in the original source file.
	#
	# Eli Bendersky (eliben@gmail.com)
	# This code is in the public domain
	#-------------------------------------------------------------------------------
	from __future__ import print_function
	import sys

	# If elftools is not installed, maybe we're running from the root or examples
	# dir of the source distribution
	try:
	import elftools
	except ImportError:
	sys.path.extend(['.', '..'])

	from elftools.common.py3compat import maxint, bytes2str
	from elftools.elf.elffile import ELFFile


	def process_file(filename, address):
	print('Processing file:', filename)
	with open(filename, 'rb') as f:
	elffile = ELFFile(f)

	if not elffile.has_dwarf_info():
	print(' file has no DWARF info')
	return

	# get_dwarf_info returns a DWARFInfo context object, which is the
	# starting point for all DWARF-based processing in pyelftools.
	dwarfinfo = elffile.get_dwarf_info()

	funcname = decode_funcname(dwarfinfo, address)
	file, line = decode_file_line(dwarfinfo, address)

	print('Function:', bytes2str(funcname))
	print('File:', bytes2str(file))
	print('Line:', line)


	def decode_funcname(dwarfinfo, address):
	# Go over all DIEs in the DWARF information, looking for a subprogram
	# entry with an address range that includes the given address. Note that
	# this simplifies things by disregarding subprograms that may have
	# split address ranges.
	for CU in dwarfinfo.iter_CUs():
	for DIE in CU.iter_DIEs():
	try:
	if DIE.tag == 'DW_TAG_subprogram':
	lowpc = DIE.attributes['DW_AT_low_pc'].value
	highpc = DIE.attributes['DW_AT_high_pc'].value
	if lowpc <= address <= highpc:
	return DIE.attributes['DW_AT_name'].value
	except KeyError:
	continue
	return None


	def decode_file_line(dwarfinfo, address):
	# Go over all the line programs in the DWARF information, looking for
	# one that describes the given address.
	for CU in dwarfinfo.iter_CUs():
	# First, look at line programs to find the file/line for the address
	lineprog = dwarfinfo.line_program_for_CU(CU)
	prevaddr = maxint
	for entry in lineprog.get_entries():
	# We're interested in those entries where a new state is assigned
	state = entry.state
	if state is not None and not state.end_sequence:
	if prevaddr <= address <= state.address:
	filename = lineprog['file_entry'][state.file - 1].name
	line = state.line
	return filename, line
	prevaddr = state.address
	return None, None


	if __name__ == '__main__':
	for filename in sys.argv[1:]:
	# For testing we use a hardcoded address.
	process_file(filename, 0x400503)