src/third_party/skia/infra/bots/recipe_modules/flavor/resources/symbolize_stack_trace.py - cobalt - Git at Google

 #!/usr/bin/env python
 # Copyright 2017 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.
 # pylint: disable=line-too-long

 import collections
 import os
 import re
 import subprocess
 import sys

 # Run a command and symbolize anything that looks like a stacktrace in the
 # stdout/stderr. This will return with the same error code as the command.

 # First parameter is the current working directory, which will be stripped
 # out of stacktraces. The rest of the parameters will be fed to
 # subprocess.check_output() and should be the command and arguments that
 # will be fed in.  If any environment variables are set when running this
 # script, they will be automatically used by the call to
 # subprocess.check_output().

 # This wrapper function is needed to make sure stdout and stderr stay properly
 # interleaved, to assist in debugging. There are no clean ways to achieve
 # this with recipes. For example, running the dm step with parameters like
 # stdout=api.raw_io.output(), stderr=api.raw_io.output() ended up with
 # stderr and stdout being separate files, which eliminated the interwoven logs.
 # Aside from specifying stdout/stderr, there are no ways to capture or reason
 # about the logs of previous steps without using a wrapper like this.

 def main(basedir, cmd):
   logs = collections.deque(maxlen=500)

   proc = subprocess.Popen(cmd, stdout=subprocess.PIPE,
                           stderr=subprocess.STDOUT)
   for line in iter(proc.stdout.readline, ''):
     sys.stdout.write(line)
     logs.append(line)
   proc.wait()
   print 'Command exited with code %s' % proc.returncode
   # Stacktraces generally look like:
   # /lib/x86_64-linux-gnu/libc.so.6(abort+0x16a) [0x7fa90e8d0c62]
   # /b/s/w/irISUIyA/linux_vulkan_intel_driver_debug/./libvulkan_intel.so(+0x1f4d0a) [0x7fa909eead0a]
   # /b/s/w/irISUIyA/out/Debug/dm() [0x17c3c5f]
   # The stack_line regex splits those into three parts. Experimentation has
   # shown that the address in () works best for external libraries, but our code
   # doesn't have that. So, we capture both addresses and prefer using the first
   # over the second, unless the first is blank or invalid. Relative offsets
   # like abort+0x16a are ignored.
   stack_line = r'^(?P<path>.+)\(\+?(?P<addr>.*)\) ?\[(?P<addr2>.+)\]'
   # After performing addr2line, the result can be something obnoxious like:
   # foo(bar) at /b/s/w/a39kd/Skia/out/Clang/../../src/gpu/Frobulator.cpp:13
   # The extra_path strips off the not-useful prefix and leaves just the
   # important src/gpu/Frobulator.cpp:13 bit.
   extra_path = r'/.*\.\./'
   is_first = True
   for line in logs:
     line = line.strip()

     m = re.search(stack_line, line)
     if m:
       if is_first:
         print '#######################################'
         print 'symbolized stacktrace follows'
         print '#######################################'
         is_first = False

       path = m.group('path')
       addr = m.group('addr')
       addr2 = m.group('addr2')
       if os.path.exists(path):
         if not addr or not addr.startswith('0x'):
           addr = addr2
         sym = subprocess.check_output(['addr2line', '-Cfpe', path, addr])
         sym = sym.strip()
         # If addr2line doesn't return anything useful, we don't replace the
         # original address, so the human can see it.
         if sym and not sym.startswith('?'):
           if path.startswith(basedir):
             path = path[len(basedir)+1:]
           sym = re.sub(extra_path, '', sym)
           line = path + ' ' + sym
       print line

   sys.exit(proc.returncode)


 if __name__ == '__main__':
   if len(sys.argv) < 3:
     print >> sys.stderr, 'USAGE: %s working_dir cmd_and_args...' % sys.argv[0]
     sys.exit(1)
   main(sys.argv[1], sys.argv[2:])
	#!/usr/bin/env python
	# Copyright 2017 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.
	# pylint: disable=line-too-long

	import collections
	import os
	import re
	import subprocess
	import sys

	# Run a command and symbolize anything that looks like a stacktrace in the
	# stdout/stderr. This will return with the same error code as the command.

	# First parameter is the current working directory, which will be stripped
	# out of stacktraces. The rest of the parameters will be fed to
	# subprocess.check_output() and should be the command and arguments that
	# will be fed in. If any environment variables are set when running this
	# script, they will be automatically used by the call to
	# subprocess.check_output().

	# This wrapper function is needed to make sure stdout and stderr stay properly
	# interleaved, to assist in debugging. There are no clean ways to achieve
	# this with recipes. For example, running the dm step with parameters like
	# stdout=api.raw_io.output(), stderr=api.raw_io.output() ended up with
	# stderr and stdout being separate files, which eliminated the interwoven logs.
	# Aside from specifying stdout/stderr, there are no ways to capture or reason
	# about the logs of previous steps without using a wrapper like this.

	def main(basedir, cmd):
	logs = collections.deque(maxlen=500)

	proc = subprocess.Popen(cmd, stdout=subprocess.PIPE,
	stderr=subprocess.STDOUT)
	for line in iter(proc.stdout.readline, ''):
	sys.stdout.write(line)
	logs.append(line)
	proc.wait()
	print 'Command exited with code %s' % proc.returncode
	# Stacktraces generally look like:
	# /lib/x86_64-linux-gnu/libc.so.6(abort+0x16a) [0x7fa90e8d0c62]
	# /b/s/w/irISUIyA/linux_vulkan_intel_driver_debug/./libvulkan_intel.so(+0x1f4d0a) [0x7fa909eead0a]
	# /b/s/w/irISUIyA/out/Debug/dm() [0x17c3c5f]
	# The stack_line regex splits those into three parts. Experimentation has
	# shown that the address in () works best for external libraries, but our code
	# doesn't have that. So, we capture both addresses and prefer using the first
	# over the second, unless the first is blank or invalid. Relative offsets
	# like abort+0x16a are ignored.
	stack_line = r'^(?P<path>.+)\(\+?(?P<addr>.*)\) ?\[(?P<addr2>.+)\]'
	# After performing addr2line, the result can be something obnoxious like:
	# foo(bar) at /b/s/w/a39kd/Skia/out/Clang/../../src/gpu/Frobulator.cpp:13
	# The extra_path strips off the not-useful prefix and leaves just the
	# important src/gpu/Frobulator.cpp:13 bit.
	extra_path = r'/.*\.\./'
	is_first = True
	for line in logs:
	line = line.strip()

	m = re.search(stack_line, line)
	if m:
	if is_first:
	print '#######################################'
	print 'symbolized stacktrace follows'
	print '#######################################'
	is_first = False

	path = m.group('path')
	addr = m.group('addr')
	addr2 = m.group('addr2')
	if os.path.exists(path):
	if not addr or not addr.startswith('0x'):
	addr = addr2
	sym = subprocess.check_output(['addr2line', '-Cfpe', path, addr])
	sym = sym.strip()
	# If addr2line doesn't return anything useful, we don't replace the
	# original address, so the human can see it.
	if sym and not sym.startswith('?'):
	if path.startswith(basedir):
	path = path[len(basedir)+1:]
	sym = re.sub(extra_path, '', sym)
	line = path + ' ' + sym
	print line

	sys.exit(proc.returncode)


	if __name__ == '__main__':
	if len(sys.argv) < 3:
	print >> sys.stderr, 'USAGE: %s working_dir cmd_and_args...' % sys.argv[0]
	sys.exit(1)
	main(sys.argv[1], sys.argv[2:])