third_party/llvm-project/libcxx/utils/libcxx/sym_check/extract.py - cobalt - Git at Google

 # -*- Python -*- vim: set syntax=python tabstop=4 expandtab cc=80:
 #===----------------------------------------------------------------------===##
 #
 #                     The LLVM Compiler Infrastructure
 #
 # This file is dual licensed under the MIT and the University of Illinois Open
 # Source Licenses. See LICENSE.TXT for details.
 #
 #===----------------------------------------------------------------------===##
 """
 extract - A set of function that extract symbol lists from shared libraries.
 """
 import distutils.spawn
 import sys
 import re

 import libcxx.util
 from libcxx.sym_check import util

 extract_ignore_names = ['_init', '_fini']

 class NMExtractor(object):
     """
     NMExtractor - Extract symbol lists from libraries using nm.
     """

     @staticmethod
     def find_tool():
         """
         Search for the nm executable and return the path.
         """
         return distutils.spawn.find_executable('nm')

     def __init__(self):
         """
         Initialize the nm executable and flags that will be used to extract
         symbols from shared libraries.
         """
         self.nm_exe = self.find_tool()
         if self.nm_exe is None:
             # ERROR no NM found
             print("ERROR: Could not find nm")
             sys.exit(1)
         self.flags = ['-P', '-g']

     def extract(self, lib):
         """
         Extract symbols from a library and return the results as a dict of
         parsed symbols.
         """
         cmd = [self.nm_exe] + self.flags + [lib]
         out, _, exit_code = libcxx.util.executeCommandVerbose(cmd)
         if exit_code != 0:
             raise RuntimeError('Failed to run %s on %s' % (self.nm_exe, lib))
         fmt_syms = (self._extract_sym(l)
                     for l in out.splitlines() if l.strip())
             # Cast symbol to string.
         final_syms = (repr(s) for s in fmt_syms if self._want_sym(s))
         # Make unique and sort strings.
         tmp_list = list(sorted(set(final_syms)))
         # Cast string back to symbol.
         return util.read_syms_from_list(tmp_list)

     def _extract_sym(self, sym_str):
         bits = sym_str.split()
         # Everything we want has at least two columns.
         if len(bits) < 2:
             return None
         new_sym = {
             'name': bits[0],
             'type': bits[1],
             'is_defined': (bits[1].lower() != 'u')
         }
         new_sym['name'] = new_sym['name'].replace('@@', '@')
         new_sym = self._transform_sym_type(new_sym)
         # NM types which we want to save the size for.
         if new_sym['type'] == 'OBJECT' and len(bits) > 3:
             new_sym['size'] = int(bits[3], 16)
         return new_sym

     @staticmethod
     def _want_sym(sym):
         """
         Check that s is a valid symbol that we want to keep.
         """
         if sym is None or len(sym) < 2:
             return False
         if sym['name'] in extract_ignore_names:
             return False
         bad_types = ['t', 'b', 'r', 'd', 'w']
         return (sym['type'] not in bad_types
                 and sym['name'] not in ['__bss_start', '_end', '_edata'])

     @staticmethod
     def _transform_sym_type(sym):
         """
         Map the nm single letter output for type to either FUNC or OBJECT.
         If the type is not recognized it is left unchanged.
         """
         func_types = ['T', 'W']
         obj_types = ['B', 'D', 'R', 'V', 'S']
         if sym['type'] in func_types:
             sym['type'] = 'FUNC'
         elif sym['type'] in obj_types:
             sym['type'] = 'OBJECT'
         return sym

 class ReadElfExtractor(object):
     """
     ReadElfExtractor - Extract symbol lists from libraries using readelf.
     """

     @staticmethod
     def find_tool():
         """
         Search for the readelf executable and return the path.
         """
         return distutils.spawn.find_executable('readelf')

     def __init__(self):
         """
         Initialize the readelf executable and flags that will be used to
         extract symbols from shared libraries.
         """
         self.tool = self.find_tool()
         if self.tool is None:
             # ERROR no NM found
             print("ERROR: Could not find readelf")
             sys.exit(1)
         self.flags = ['--wide', '--symbols']

     def extract(self, lib):
         """
         Extract symbols from a library and return the results as a dict of
         parsed symbols.
         """
         cmd = [self.tool] + self.flags + [lib]
         out, _, exit_code = libcxx.util.executeCommandVerbose(cmd)
         if exit_code != 0:
             raise RuntimeError('Failed to run %s on %s' % (self.nm_exe, lib))
         dyn_syms = self.get_dynsym_table(out)
         return self.process_syms(dyn_syms)

     def process_syms(self, sym_list):
         new_syms = []
         for s in sym_list:
             parts = s.split()
             if not parts:
                 continue
             assert len(parts) == 7 or len(parts) == 8 or len(parts) == 9
             if len(parts) == 7:
                 continue
             new_sym = {
                 'name': parts[7],
                 'size': int(parts[2]),
                 'type': parts[3],
                 'is_defined': (parts[6] != 'UND')
             }
             assert new_sym['type'] in ['OBJECT', 'FUNC', 'NOTYPE']
             if new_sym['name'] in extract_ignore_names:
                 continue
             if new_sym['type'] == 'NOTYPE':
                 continue
             if new_sym['type'] == 'FUNC':
                 del new_sym['size']
             new_syms += [new_sym]
         return new_syms

     def get_dynsym_table(self, out):
         lines = out.splitlines()
         start = -1
         end = -1
         for i in range(len(lines)):
             if lines[i].startswith("Symbol table '.dynsym'"):
                 start = i + 2
             if start != -1 and end == -1 and not lines[i].strip():
                 end = i + 1
         assert start != -1
         if end == -1:
             end = len(lines)
         return lines[start:end]


 def extract_symbols(lib_file):
     """
     Extract and return a list of symbols extracted from a dynamic library.
     The symbols are extracted using NM. They are then filtered and formated.
     Finally they symbols are made unique.
     """
     if ReadElfExtractor.find_tool():
         extractor = ReadElfExtractor()
     else:
         extractor = NMExtractor()
     return extractor.extract(lib_file)
	# -- Python -- vim: set syntax=python tabstop=4 expandtab cc=80:
	#===----------------------------------------------------------------------===##
	#
	# The LLVM Compiler Infrastructure
	#
	# This file is dual licensed under the MIT and the University of Illinois Open
	# Source Licenses. See LICENSE.TXT for details.
	#
	#===----------------------------------------------------------------------===##
	"""
	extract - A set of function that extract symbol lists from shared libraries.
	"""
	import distutils.spawn
	import sys
	import re

	import libcxx.util
	from libcxx.sym_check import util

	extract_ignore_names = ['_init', '_fini']

	class NMExtractor(object):
	"""
	NMExtractor - Extract symbol lists from libraries using nm.
	"""

	@staticmethod
	def find_tool():
	"""
	Search for the nm executable and return the path.
	"""
	return distutils.spawn.find_executable('nm')

	def __init__(self):
	"""
	Initialize the nm executable and flags that will be used to extract
	symbols from shared libraries.
	"""
	self.nm_exe = self.find_tool()
	if self.nm_exe is None:
	# ERROR no NM found
	print("ERROR: Could not find nm")
	sys.exit(1)
	self.flags = ['-P', '-g']

	def extract(self, lib):
	"""
	Extract symbols from a library and return the results as a dict of
	parsed symbols.
	"""
	cmd = [self.nm_exe] + self.flags + [lib]
	out, _, exit_code = libcxx.util.executeCommandVerbose(cmd)
	if exit_code != 0:
	raise RuntimeError('Failed to run %s on %s' % (self.nm_exe, lib))
	fmt_syms = (self._extract_sym(l)
	for l in out.splitlines() if l.strip())
	# Cast symbol to string.
	final_syms = (repr(s) for s in fmt_syms if self._want_sym(s))
	# Make unique and sort strings.
	tmp_list = list(sorted(set(final_syms)))
	# Cast string back to symbol.
	return util.read_syms_from_list(tmp_list)

	def _extract_sym(self, sym_str):
	bits = sym_str.split()
	# Everything we want has at least two columns.
	if len(bits) < 2:
	return None
	new_sym = {
	'name': bits[0],
	'type': bits[1],
	'is_defined': (bits[1].lower() != 'u')
	}
	new_sym['name'] = new_sym['name'].replace('@@', '@')
	new_sym = self._transform_sym_type(new_sym)
	# NM types which we want to save the size for.
	if new_sym['type'] == 'OBJECT' and len(bits) > 3:
	new_sym['size'] = int(bits[3], 16)
	return new_sym

	@staticmethod
	def _want_sym(sym):
	"""
	Check that s is a valid symbol that we want to keep.
	"""
	if sym is None or len(sym) < 2:
	return False
	if sym['name'] in extract_ignore_names:
	return False
	bad_types = ['t', 'b', 'r', 'd', 'w']
	return (sym['type'] not in bad_types
	and sym['name'] not in ['__bss_start', '_end', '_edata'])

	@staticmethod
	def _transform_sym_type(sym):
	"""
	Map the nm single letter output for type to either FUNC or OBJECT.
	If the type is not recognized it is left unchanged.
	"""
	func_types = ['T', 'W']
	obj_types = ['B', 'D', 'R', 'V', 'S']
	if sym['type'] in func_types:
	sym['type'] = 'FUNC'
	elif sym['type'] in obj_types:
	sym['type'] = 'OBJECT'
	return sym

	class ReadElfExtractor(object):
	"""
	ReadElfExtractor - Extract symbol lists from libraries using readelf.
	"""

	@staticmethod
	def find_tool():
	"""
	Search for the readelf executable and return the path.
	"""
	return distutils.spawn.find_executable('readelf')

	def __init__(self):
	"""
	Initialize the readelf executable and flags that will be used to
	extract symbols from shared libraries.
	"""
	self.tool = self.find_tool()
	if self.tool is None:
	# ERROR no NM found
	print("ERROR: Could not find readelf")
	sys.exit(1)
	self.flags = ['--wide', '--symbols']

	def extract(self, lib):
	"""
	Extract symbols from a library and return the results as a dict of
	parsed symbols.
	"""
	cmd = [self.tool] + self.flags + [lib]
	out, _, exit_code = libcxx.util.executeCommandVerbose(cmd)
	if exit_code != 0:
	raise RuntimeError('Failed to run %s on %s' % (self.nm_exe, lib))
	dyn_syms = self.get_dynsym_table(out)
	return self.process_syms(dyn_syms)

	def process_syms(self, sym_list):
	new_syms = []
	for s in sym_list:
	parts = s.split()
	if not parts:
	continue
	assert len(parts) == 7 or len(parts) == 8 or len(parts) == 9
	if len(parts) == 7:
	continue
	new_sym = {
	'name': parts[7],
	'size': int(parts[2]),
	'type': parts[3],
	'is_defined': (parts[6] != 'UND')
	}
	assert new_sym['type'] in ['OBJECT', 'FUNC', 'NOTYPE']
	if new_sym['name'] in extract_ignore_names:
	continue
	if new_sym['type'] == 'NOTYPE':
	continue
	if new_sym['type'] == 'FUNC':
	del new_sym['size']
	new_syms += [new_sym]
	return new_syms

	def get_dynsym_table(self, out):
	lines = out.splitlines()
	start = -1
	end = -1
	for i in range(len(lines)):
	if lines[i].startswith("Symbol table '.dynsym'"):
	start = i + 2
	if start != -1 and end == -1 and not lines[i].strip():
	end = i + 1
	assert start != -1
	if end == -1:
	end = len(lines)
	return lines[start:end]


	def extract_symbols(lib_file):
	"""
	Extract and return a list of symbols extracted from a dynamic library.
	The symbols are extracted using NM. They are then filtered and formated.
	Finally they symbols are made unique.
	"""
	if ReadElfExtractor.find_tool():
	extractor = ReadElfExtractor()
	else:
	extractor = NMExtractor()
	return extractor.extract(lib_file)