build/toolchain/win/ml.py - cobalt - Git at Google

 #!/usr/bin/env python
 # Copyright 2018 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Wraps ml.exe or ml64.exe and postprocesses the output to be deterministic.
 Sets timestamp in .obj file to 0, hence incompatible with link.exe /incremental.

 Use by prefixing the ml(64).exe invocation with this script:
     python ml.py ml.exe [args...]"""

 import array
 import collections
 import struct
 import subprocess
 import sys


 class Struct(object):
   """A thin wrapper around the struct module that returns a namedtuple"""
   def __init__(self, name, *args):
     """Pass the name of the return type, and then an interleaved list of
     format strings as used by the struct module and of field names."""
     self.fmt = '<' + ''.join(args[0::2])
     self.type = collections.namedtuple(name, args[1::2])

   def pack_into(self, buffer, offset, data):
     return struct.pack_into(self.fmt, buffer, offset, *data)

   def unpack_from(self, buffer, offset=0):
     return self.type(*struct.unpack_from(self.fmt, buffer, offset))

   def size(self):
     return struct.calcsize(self.fmt)


 def Subtract(nt, **kwargs):
   """Subtract(nt, f=2) returns a new namedtuple with 2 subtracted from nt.f"""
   return nt._replace(**{k: getattr(nt, k) - v for k, v in kwargs.items()})


 def MakeDeterministic(objdata):
   # Takes data produced by ml(64).exe (without any special flags) and
   # 1. Sets the timestamp to 0
   # 2. Strips the .debug$S section (which contains an unwanted absolute path)

   # This makes several assumptions about ml's output:
   # - Section data is in the same order as the corresponding section headers:
   #   section headers preceding the .debug$S section header have their data
   #   preceding the .debug$S section data; likewise for section headers
   #   following the .debug$S section.
   # - The .debug$S section contains only the absolute path to the obj file and
   #   nothing else, in particular there's only a single entry in the symbol
   #   table referring to the .debug$S section.
   # - There are no COFF line number entries.
   # - There's no IMAGE_SYM_CLASS_CLR_TOKEN symbol.
   # These seem to hold in practice; if they stop holding this script needs to
   # become smarter.

   objdata = array.array('b', objdata)  # Writable, e.g. via struct.pack_into.

   # Read coff header.
   COFFHEADER = Struct('COFFHEADER',
                       'H', 'Machine',
                       'H', 'NumberOfSections',
                       'I', 'TimeDateStamp',
                       'I', 'PointerToSymbolTable',
                       'I', 'NumberOfSymbols',

                       'H', 'SizeOfOptionalHeader',
                       'H', 'Characteristics')
   coff_header = COFFHEADER.unpack_from(objdata)
   assert coff_header.SizeOfOptionalHeader == 0  # Only set for binaries.

   # Read section headers following coff header.
   SECTIONHEADER = Struct('SECTIONHEADER',
                          '8s', 'Name',
                          'I', 'VirtualSize',
                          'I', 'VirtualAddress',

                          'I', 'SizeOfRawData',
                          'I', 'PointerToRawData',
                          'I', 'PointerToRelocations',
                          'I', 'PointerToLineNumbers',

                          'H', 'NumberOfRelocations',
                          'H', 'NumberOfLineNumbers',
                          'I', 'Characteristics')
   section_headers = []
   debug_section_index = -1
   for i in range(0, coff_header.NumberOfSections):
     section_header = SECTIONHEADER.unpack_from(
         objdata, offset=COFFHEADER.size() + i * SECTIONHEADER.size())
     assert not section_header[0].startswith(b'/')  # Support short names only.
     section_headers.append(section_header)

     if section_header.Name == b'.debug$S':
       assert debug_section_index == -1
       debug_section_index = i
   assert debug_section_index != -1

   data_start = COFFHEADER.size() + len(section_headers) * SECTIONHEADER.size()

   # Verify the .debug$S section looks like we expect.
   assert section_headers[debug_section_index].Name == b'.debug$S'
   assert section_headers[debug_section_index].VirtualSize == 0
   assert section_headers[debug_section_index].VirtualAddress == 0
   debug_size = section_headers[debug_section_index].SizeOfRawData
   debug_offset = section_headers[debug_section_index].PointerToRawData
   assert section_headers[debug_section_index].PointerToRelocations == 0
   assert section_headers[debug_section_index].PointerToLineNumbers == 0
   assert section_headers[debug_section_index].NumberOfRelocations == 0
   assert section_headers[debug_section_index].NumberOfLineNumbers == 0

   # Make sure sections in front of .debug$S have their data preceding it.
   for header in section_headers[:debug_section_index]:
     assert header.PointerToRawData < debug_offset
     assert header.PointerToRelocations < debug_offset
     assert header.PointerToLineNumbers < debug_offset

   # Make sure sections after of .debug$S have their data following it.
   for header in section_headers[debug_section_index + 1:]:
     # Make sure the .debug$S data is at the very end of section data:
     assert header.PointerToRawData > debug_offset
     assert header.PointerToRelocations == 0
     assert header.PointerToLineNumbers == 0

   # Make sure the first non-empty section's data starts right after the section
   # headers.
   for section_header in section_headers:
     if section_header.PointerToRawData == 0:
       assert section_header.PointerToRelocations == 0
       assert section_header.PointerToLineNumbers == 0
       continue
     assert section_header.PointerToRawData == data_start
     break

   # Make sure the symbol table (and hence, string table) appear after the last
   # section:
   assert (coff_header.PointerToSymbolTable >=
       section_headers[-1].PointerToRawData + section_headers[-1].SizeOfRawData)

   # The symbol table contains a symbol for the no-longer-present .debug$S
   # section. If we leave it there, lld-link will complain:
   #
   #    lld-link: error: .debug$S should not refer to non-existent section 5
   #
   # so we need to remove that symbol table entry as well. This shifts symbol
   # entries around and we need to update symbol table indices in:
   # - relocations
   # - line number records (never present)
   # - one aux symbol entry (IMAGE_SYM_CLASS_CLR_TOKEN; not present in ml output)
   SYM = Struct('SYM',
                '8s', 'Name',
                'I', 'Value',
                'h', 'SectionNumber',  # Note: Signed!
                'H', 'Type',

                'B', 'StorageClass',
                'B', 'NumberOfAuxSymbols')
   i = 0
   debug_sym = -1
   while i < coff_header.NumberOfSymbols:
     sym_offset = coff_header.PointerToSymbolTable + i * SYM.size()
     sym = SYM.unpack_from(objdata, sym_offset)

     # 107 is IMAGE_SYM_CLASS_CLR_TOKEN, which has aux entry "CLR Token
     # Definition", which contains a symbol index. Check it's never present.
     assert sym.StorageClass != 107

     # Note: sym.SectionNumber is 1-based, debug_section_index is 0-based.
     if sym.SectionNumber - 1 == debug_section_index:
       assert debug_sym == -1, 'more than one .debug$S symbol found'
       debug_sym = i
       # Make sure the .debug$S symbol looks like we expect.
       # In particular, it should have exactly one aux symbol.
       assert sym.Name == b'.debug$S'
       assert sym.Value == 0
       assert sym.Type == 0
       assert sym.StorageClass == 3
       assert sym.NumberOfAuxSymbols == 1
     elif sym.SectionNumber > debug_section_index:
       sym = Subtract(sym, SectionNumber=1)
       SYM.pack_into(objdata, sym_offset, sym)
     i += 1 + sym.NumberOfAuxSymbols
   assert debug_sym != -1, '.debug$S symbol not found'

   # Note: Usually the .debug$S section is the last, but for files saying
   # `includelib foo.lib`, like safe_terminate_process.asm in 32-bit builds,
   # this isn't true: .drectve is after .debug$S.

   # Update symbol table indices in relocations.
   # There are a few processor types that have one or two relocation types
   # where SymbolTableIndex has a different meaning, but not for x86.
   REL = Struct('REL',
                'I', 'VirtualAddress',
                'I', 'SymbolTableIndex',
                'H', 'Type')
   for header in section_headers[0:debug_section_index]:
     for j in range(0, header.NumberOfRelocations):
       rel_offset = header.PointerToRelocations + j * REL.size()
       rel = REL.unpack_from(objdata, rel_offset)
       assert rel.SymbolTableIndex != debug_sym
       if rel.SymbolTableIndex > debug_sym:
         rel = Subtract(rel, SymbolTableIndex=2)
         REL.pack_into(objdata, rel_offset, rel)

   # Update symbol table indices in line numbers -- just check they don't exist.
   for header in section_headers:
     assert header.NumberOfLineNumbers == 0

   # Now that all indices are updated, remove the symbol table entry referring to
   # .debug$S and its aux entry.
   del objdata[coff_header.PointerToSymbolTable + debug_sym * SYM.size():
               coff_header.PointerToSymbolTable + (debug_sym + 2) * SYM.size()]

   # Now we know that it's safe to write out the input data, with just the
   # timestamp overwritten to 0, the last section header cut out (and the
   # offsets of all other section headers decremented by the size of that
   # one section header), and the last section's data cut out. The symbol
   # table offset needs to be reduced by one section header and the size of
   # the missing section.
   # (The COFF spec only requires on-disk sections to be aligned in image files,
   # for obj files it's not required. If that wasn't the case, deleting slices
   # if data would not generally be safe.)

   # Update section offsets and remove .debug$S section data.
   for i in range(0, debug_section_index):
     header = section_headers[i]
     if header.SizeOfRawData:
       header = Subtract(header, PointerToRawData=SECTIONHEADER.size())
     if header.NumberOfRelocations:
       header = Subtract(header, PointerToRelocations=SECTIONHEADER.size())
     if header.NumberOfLineNumbers:
       header = Subtract(header, PointerToLineNumbers=SECTIONHEADER.size())
     SECTIONHEADER.pack_into(
         objdata, COFFHEADER.size() + i * SECTIONHEADER.size(), header)
   for i in range(debug_section_index + 1, len(section_headers)):
     header = section_headers[i]
     shift = SECTIONHEADER.size() + debug_size
     if header.SizeOfRawData:
       header = Subtract(header, PointerToRawData=shift)
     if header.NumberOfRelocations:
       header = Subtract(header, PointerToRelocations=shift)
     if header.NumberOfLineNumbers:
       header = Subtract(header, PointerToLineNumbers=shift)
     SECTIONHEADER.pack_into(
         objdata, COFFHEADER.size() + i * SECTIONHEADER.size(), header)

   del objdata[debug_offset:debug_offset + debug_size]

   # Finally, remove .debug$S section header and update coff header.
   coff_header = coff_header._replace(TimeDateStamp=0)
   coff_header = Subtract(coff_header,
                          NumberOfSections=1,
                          PointerToSymbolTable=SECTIONHEADER.size() + debug_size,
                          NumberOfSymbols=2)
   COFFHEADER.pack_into(objdata, 0, coff_header)

   del objdata[
       COFFHEADER.size() + debug_section_index * SECTIONHEADER.size():
       COFFHEADER.size() + (debug_section_index + 1) * SECTIONHEADER.size()]

   # All done!
   if sys.version_info.major == 2:
     return objdata.tostring()
   else:
     return objdata.tobytes()


 def main():
   ml_result = subprocess.call(sys.argv[1:])
   if ml_result != 0:
     return ml_result

   objfile = None
   for i in range(1, len(sys.argv)):
     if sys.argv[i].startswith('/Fo'):
       objfile = sys.argv[i][len('/Fo'):]
   assert objfile, 'failed to find ml output'

   with open(objfile, 'rb') as f:
     objdata = f.read()
   objdata = MakeDeterministic(objdata)
   with open(objfile, 'wb') as f:
     f.write(objdata)


 if __name__ == '__main__':
   sys.exit(main())
	#!/usr/bin/env python
	# Copyright 2018 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Wraps ml.exe or ml64.exe and postprocesses the output to be deterministic.
	Sets timestamp in .obj file to 0, hence incompatible with link.exe /incremental.

	Use by prefixing the ml(64).exe invocation with this script:
	python ml.py ml.exe [args...]"""

	import array
	import collections
	import struct
	import subprocess
	import sys


	class Struct(object):
	"""A thin wrapper around the struct module that returns a namedtuple"""
	def __init__(self, name, *args):
	"""Pass the name of the return type, and then an interleaved list of
	format strings as used by the struct module and of field names."""
	self.fmt = '<' + ''.join(args[0::2])
	self.type = collections.namedtuple(name, args[1::2])

	def pack_into(self, buffer, offset, data):
	return struct.pack_into(self.fmt, buffer, offset, *data)

	def unpack_from(self, buffer, offset=0):
	return self.type(*struct.unpack_from(self.fmt, buffer, offset))

	def size(self):
	return struct.calcsize(self.fmt)


	def Subtract(nt, **kwargs):
	"""Subtract(nt, f=2) returns a new namedtuple with 2 subtracted from nt.f"""
	return nt._replace(**{k: getattr(nt, k) - v for k, v in kwargs.items()})


	def MakeDeterministic(objdata):
	# Takes data produced by ml(64).exe (without any special flags) and
	# 1. Sets the timestamp to 0
	# 2. Strips the .debug$S section (which contains an unwanted absolute path)

	# This makes several assumptions about ml's output:
	# - Section data is in the same order as the corresponding section headers:
	# section headers preceding the .debug$S section header have their data
	# preceding the .debug$S section data; likewise for section headers
	# following the .debug$S section.
	# - The .debug$S section contains only the absolute path to the obj file and
	# nothing else, in particular there's only a single entry in the symbol
	# table referring to the .debug$S section.
	# - There are no COFF line number entries.
	# - There's no IMAGE_SYM_CLASS_CLR_TOKEN symbol.
	# These seem to hold in practice; if they stop holding this script needs to
	# become smarter.

	objdata = array.array('b', objdata) # Writable, e.g. via struct.pack_into.

	# Read coff header.
	COFFHEADER = Struct('COFFHEADER',
	'H', 'Machine',
	'H', 'NumberOfSections',
	'I', 'TimeDateStamp',
	'I', 'PointerToSymbolTable',
	'I', 'NumberOfSymbols',

	'H', 'SizeOfOptionalHeader',
	'H', 'Characteristics')
	coff_header = COFFHEADER.unpack_from(objdata)
	assert coff_header.SizeOfOptionalHeader == 0 # Only set for binaries.

	# Read section headers following coff header.
	SECTIONHEADER = Struct('SECTIONHEADER',
	'8s', 'Name',
	'I', 'VirtualSize',
	'I', 'VirtualAddress',

	'I', 'SizeOfRawData',
	'I', 'PointerToRawData',
	'I', 'PointerToRelocations',
	'I', 'PointerToLineNumbers',

	'H', 'NumberOfRelocations',
	'H', 'NumberOfLineNumbers',
	'I', 'Characteristics')
	section_headers = []
	debug_section_index = -1
	for i in range(0, coff_header.NumberOfSections):
	section_header = SECTIONHEADER.unpack_from(
	objdata, offset=COFFHEADER.size() + i * SECTIONHEADER.size())
	assert not section_header[0].startswith(b'/') # Support short names only.
	section_headers.append(section_header)

	if section_header.Name == b'.debug$S':
	assert debug_section_index == -1
	debug_section_index = i
	assert debug_section_index != -1

	data_start = COFFHEADER.size() + len(section_headers) * SECTIONHEADER.size()

	# Verify the .debug$S section looks like we expect.
	assert section_headers[debug_section_index].Name == b'.debug$S'
	assert section_headers[debug_section_index].VirtualSize == 0
	assert section_headers[debug_section_index].VirtualAddress == 0
	debug_size = section_headers[debug_section_index].SizeOfRawData
	debug_offset = section_headers[debug_section_index].PointerToRawData
	assert section_headers[debug_section_index].PointerToRelocations == 0
	assert section_headers[debug_section_index].PointerToLineNumbers == 0
	assert section_headers[debug_section_index].NumberOfRelocations == 0
	assert section_headers[debug_section_index].NumberOfLineNumbers == 0

	# Make sure sections in front of .debug$S have their data preceding it.
	for header in section_headers[:debug_section_index]:
	assert header.PointerToRawData < debug_offset
	assert header.PointerToRelocations < debug_offset
	assert header.PointerToLineNumbers < debug_offset

	# Make sure sections after of .debug$S have their data following it.
	for header in section_headers[debug_section_index + 1:]:
	# Make sure the .debug$S data is at the very end of section data:
	assert header.PointerToRawData > debug_offset
	assert header.PointerToRelocations == 0
	assert header.PointerToLineNumbers == 0

	# Make sure the first non-empty section's data starts right after the section
	# headers.
	for section_header in section_headers:
	if section_header.PointerToRawData == 0:
	assert section_header.PointerToRelocations == 0
	assert section_header.PointerToLineNumbers == 0
	continue
	assert section_header.PointerToRawData == data_start
	break

	# Make sure the symbol table (and hence, string table) appear after the last
	# section:
	assert (coff_header.PointerToSymbolTable >=
	section_headers[-1].PointerToRawData + section_headers[-1].SizeOfRawData)

	# The symbol table contains a symbol for the no-longer-present .debug$S
	# section. If we leave it there, lld-link will complain:
	#
	# lld-link: error: .debug$S should not refer to non-existent section 5
	#
	# so we need to remove that symbol table entry as well. This shifts symbol
	# entries around and we need to update symbol table indices in:
	# - relocations
	# - line number records (never present)
	# - one aux symbol entry (IMAGE_SYM_CLASS_CLR_TOKEN; not present in ml output)
	SYM = Struct('SYM',
	'8s', 'Name',
	'I', 'Value',
	'h', 'SectionNumber', # Note: Signed!
	'H', 'Type',

	'B', 'StorageClass',
	'B', 'NumberOfAuxSymbols')
	i = 0
	debug_sym = -1
	while i < coff_header.NumberOfSymbols:
	sym_offset = coff_header.PointerToSymbolTable + i * SYM.size()
	sym = SYM.unpack_from(objdata, sym_offset)

	# 107 is IMAGE_SYM_CLASS_CLR_TOKEN, which has aux entry "CLR Token
	# Definition", which contains a symbol index. Check it's never present.
	assert sym.StorageClass != 107

	# Note: sym.SectionNumber is 1-based, debug_section_index is 0-based.
	if sym.SectionNumber - 1 == debug_section_index:
	assert debug_sym == -1, 'more than one .debug$S symbol found'
	debug_sym = i
	# Make sure the .debug$S symbol looks like we expect.
	# In particular, it should have exactly one aux symbol.
	assert sym.Name == b'.debug$S'
	assert sym.Value == 0
	assert sym.Type == 0
	assert sym.StorageClass == 3
	assert sym.NumberOfAuxSymbols == 1
	elif sym.SectionNumber > debug_section_index:
	sym = Subtract(sym, SectionNumber=1)
	SYM.pack_into(objdata, sym_offset, sym)
	i += 1 + sym.NumberOfAuxSymbols
	assert debug_sym != -1, '.debug$S symbol not found'

	# Note: Usually the .debug$S section is the last, but for files saying
	# `includelib foo.lib`, like safe_terminate_process.asm in 32-bit builds,
	# this isn't true: .drectve is after .debug$S.

	# Update symbol table indices in relocations.
	# There are a few processor types that have one or two relocation types
	# where SymbolTableIndex has a different meaning, but not for x86.
	REL = Struct('REL',
	'I', 'VirtualAddress',
	'I', 'SymbolTableIndex',
	'H', 'Type')
	for header in section_headers[0:debug_section_index]:
	for j in range(0, header.NumberOfRelocations):
	rel_offset = header.PointerToRelocations + j * REL.size()
	rel = REL.unpack_from(objdata, rel_offset)
	assert rel.SymbolTableIndex != debug_sym
	if rel.SymbolTableIndex > debug_sym:
	rel = Subtract(rel, SymbolTableIndex=2)
	REL.pack_into(objdata, rel_offset, rel)

	# Update symbol table indices in line numbers -- just check they don't exist.
	for header in section_headers:
	assert header.NumberOfLineNumbers == 0

	# Now that all indices are updated, remove the symbol table entry referring to
	# .debug$S and its aux entry.
	del objdata[coff_header.PointerToSymbolTable + debug_sym * SYM.size():
	coff_header.PointerToSymbolTable + (debug_sym + 2) * SYM.size()]

	# Now we know that it's safe to write out the input data, with just the
	# timestamp overwritten to 0, the last section header cut out (and the
	# offsets of all other section headers decremented by the size of that
	# one section header), and the last section's data cut out. The symbol
	# table offset needs to be reduced by one section header and the size of
	# the missing section.
	# (The COFF spec only requires on-disk sections to be aligned in image files,
	# for obj files it's not required. If that wasn't the case, deleting slices
	# if data would not generally be safe.)

	# Update section offsets and remove .debug$S section data.
	for i in range(0, debug_section_index):
	header = section_headers[i]
	if header.SizeOfRawData:
	header = Subtract(header, PointerToRawData=SECTIONHEADER.size())
	if header.NumberOfRelocations:
	header = Subtract(header, PointerToRelocations=SECTIONHEADER.size())
	if header.NumberOfLineNumbers:
	header = Subtract(header, PointerToLineNumbers=SECTIONHEADER.size())
	SECTIONHEADER.pack_into(
	objdata, COFFHEADER.size() + i * SECTIONHEADER.size(), header)
	for i in range(debug_section_index + 1, len(section_headers)):
	header = section_headers[i]
	shift = SECTIONHEADER.size() + debug_size
	if header.SizeOfRawData:
	header = Subtract(header, PointerToRawData=shift)
	if header.NumberOfRelocations:
	header = Subtract(header, PointerToRelocations=shift)
	if header.NumberOfLineNumbers:
	header = Subtract(header, PointerToLineNumbers=shift)
	SECTIONHEADER.pack_into(
	objdata, COFFHEADER.size() + i * SECTIONHEADER.size(), header)

	del objdata[debug_offset:debug_offset + debug_size]

	# Finally, remove .debug$S section header and update coff header.
	coff_header = coff_header._replace(TimeDateStamp=0)
	coff_header = Subtract(coff_header,
	NumberOfSections=1,
	PointerToSymbolTable=SECTIONHEADER.size() + debug_size,
	NumberOfSymbols=2)
	COFFHEADER.pack_into(objdata, 0, coff_header)

	del objdata[
	COFFHEADER.size() + debug_section_index * SECTIONHEADER.size():
	COFFHEADER.size() + (debug_section_index + 1) * SECTIONHEADER.size()]

	# All done!
	if sys.version_info.major == 2:
	return objdata.tostring()
	else:
	return objdata.tobytes()


	def main():
	ml_result = subprocess.call(sys.argv[1:])
	if ml_result != 0:
	return ml_result

	objfile = None
	for i in range(1, len(sys.argv)):
	if sys.argv[i].startswith('/Fo'):
	objfile = sys.argv[i][len('/Fo'):]
	assert objfile, 'failed to find ml output'

	with open(objfile, 'rb') as f:
	objdata = f.read()
	objdata = MakeDeterministic(objdata)
	with open(objfile, 'wb') as f:
	f.write(objdata)


	if __name__ == '__main__':
	sys.exit(main())