src/build/util/generate_wrapper.py - cobalt - Git at Google

 #!/usr/bin/env vpython
 # Copyright 2019 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 an executable and any provided arguments into an executable script."""

 import argparse
 import os
 import sys
 import textwrap


 # The bash template passes the python script into vpython via stdin.
 # The interpreter doesn't know about the script, so we have bash
 # inject the script location.
 BASH_TEMPLATE = textwrap.dedent("""\
     #!/usr/bin/env {vpython}
     _SCRIPT_LOCATION = __file__
     {script}
     """)


 # The batch template reruns the batch script with vpython, with the -x
 # flag instructing the interpreter to ignore the first line. The interpreter
 # knows about the (batch) script in this case, so it can get the file location
 # directly.
 BATCH_TEMPLATE = textwrap.dedent("""\
     @SETLOCAL ENABLEDELAYEDEXPANSION \
       & {vpython}.bat -x "%~f0" %* \
       & EXIT /B !ERRORLEVEL!
     _SCRIPT_LOCATION = __file__
     {script}
     """)


 SCRIPT_TEMPLATES = {
     'bash': BASH_TEMPLATE,
     'batch': BATCH_TEMPLATE,
 }


 PY_TEMPLATE = textwrap.dedent("""\
     import os
     import re
     import subprocess
     import sys

     _WRAPPED_PATH_RE = re.compile(r'@WrappedPath\(([^)]+)\)')
     _PATH_TO_OUTPUT_DIR = '{path_to_output_dir}'
     _SCRIPT_DIR = os.path.dirname(os.path.realpath(_SCRIPT_LOCATION))


     def ExpandWrappedPath(arg):
       m = _WRAPPED_PATH_RE.match(arg)
       if m:
         relpath = os.path.join(
             os.path.relpath(_SCRIPT_DIR), _PATH_TO_OUTPUT_DIR, m.group(1))
         npath = os.path.normpath(relpath)
         if os.path.sep not in npath:
           # If the original path points to something in the current directory,
           # returning the normalized version of it can be a problem.
           # normpath() strips off the './' part of the path
           # ('./foo' becomes 'foo'), which can be a problem if the result
           # is passed to something like os.execvp(); in that case
           # osexecvp() will search $PATH for the executable, rather than
           # just execing the arg directly, and if '.' isn't in $PATH, this
           # results in an error.
           #
           # So, we need to explicitly return './foo' (or '.\\foo' on windows)
           # instead of 'foo'.
           #
           # Hopefully there are no cases where this causes a problem; if
           # there are, we will either need to change the interface to
           # WrappedPath() somehow to distinguish between the two, or
           # somehow ensure that the wrapped executable doesn't hit cases
           # like this.
           return '.' + os.path.sep + npath
         return npath
       return arg


     def ExpandWrappedPaths(args):
       for i, arg in enumerate(args):
         args[i] = ExpandWrappedPath(arg)
       return args


     def FindIsolatedOutdir(raw_args):
       outdir = None
       i = 0
       remaining_args = []
       while i < len(raw_args):
         if raw_args[i] == '--isolated-outdir' and i < len(raw_args)-1:
           outdir = raw_args[i+1]
           i += 2
         elif raw_args[i].startswith('--isolated-outdir='):
           outdir = raw_args[i][len('--isolated-outdir='):]
           i += 1
         else:
           remaining_args.append(raw_args[i])
           i += 1
       if not outdir and 'ISOLATED_OUTDIR' in os.environ:
         outdir = os.environ['ISOLATED_OUTDIR']
       return outdir, remaining_args


     def FilterIsolatedOutdirBasedArgs(outdir, args):
       rargs = []
       i = 0
       while i < len(args):
         if 'ISOLATED_OUTDIR' in args[i]:
           if outdir:
             # Rewrite the arg.
             rargs.append(args[i].replace('${{ISOLATED_OUTDIR}}',
                                          outdir).replace(
               '$ISOLATED_OUTDIR', outdir))
             i += 1
           else:
             # Simply drop the arg.
             i += 1
         elif (not outdir and
               args[i].startswith('-') and
               '=' not in args[i] and
               i < len(args) - 1 and
               'ISOLATED_OUTDIR' in args[i+1]):
           # Parsing this case is ambiguous; if we're given
           # `--foo $ISOLATED_OUTDIR` we can't tell if $ISOLATED_OUTDIR
           # is meant to be the value of foo, or if foo takes no argument
           # and $ISOLATED_OUTDIR is the first positional arg.
           #
           # We assume the former will be much more common, and so we
           # need to drop --foo and $ISOLATED_OUTDIR.
           i += 2
         else:
           rargs.append(args[i])
           i += 1
       return rargs


     def main(raw_args):
       executable_path = ExpandWrappedPath('{executable_path}')
       outdir, remaining_args = FindIsolatedOutdir(raw_args)
       args = {executable_args}
       args = FilterIsolatedOutdirBasedArgs(outdir, args)
       executable_args = ExpandWrappedPaths(args)
       cmd = [executable_path] + args + remaining_args
       if executable_path.endswith('.py'):
         cmd = [sys.executable] + cmd
       return subprocess.call(cmd)


     if __name__ == '__main__':
       sys.exit(main(sys.argv[1:]))
     """)


 def Wrap(args):
   """Writes a wrapped script according to the provided arguments.

   Arguments:
     args: an argparse.Namespace object containing command-line arguments
       as parsed by a parser returned by CreateArgumentParser.
   """
   path_to_output_dir = os.path.relpath(
       args.output_directory,
       os.path.dirname(args.wrapper_script))

   with open(args.wrapper_script, 'w') as wrapper_script:
     py_contents = PY_TEMPLATE.format(
         path_to_output_dir=path_to_output_dir,
         executable_path=str(args.executable),
         executable_args=str(args.executable_args))
     template = SCRIPT_TEMPLATES[args.script_language]
     wrapper_script.write(
         template.format(script=py_contents, vpython=args.vpython))
   os.chmod(args.wrapper_script, 0o750)

   return 0


 def CreateArgumentParser():
   """Creates an argparse.ArgumentParser instance."""
   parser = argparse.ArgumentParser()
   parser.add_argument(
       '--executable',
       help='Executable to wrap.')
   parser.add_argument(
       '--wrapper-script',
       help='Path to which the wrapper script will be written.')
   parser.add_argument(
       '--output-directory',
       help='Path to the output directory.')
   parser.add_argument(
       '--script-language',
       choices=SCRIPT_TEMPLATES.keys(),
       help='Language in which the wrapper script will be written.')
   parser.add_argument('--use-vpython3',
                       dest='vpython',
                       action='store_const',
                       const='vpython3',
                       default='vpython',
                       help='Use vpython3 instead of vpython')
   parser.add_argument(
       'executable_args', nargs='*',
       help='Arguments to wrap into the executable.')
   return parser


 def main(raw_args):
   parser = CreateArgumentParser()
   args = parser.parse_args(raw_args)
   return Wrap(args)


 if __name__ == '__main__':
   sys.exit(main(sys.argv[1:]))
	#!/usr/bin/env vpython
	# Copyright 2019 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 an executable and any provided arguments into an executable script."""

	import argparse
	import os
	import sys
	import textwrap


	# The bash template passes the python script into vpython via stdin.
	# The interpreter doesn't know about the script, so we have bash
	# inject the script location.
	BASH_TEMPLATE = textwrap.dedent("""\
	#!/usr/bin/env {vpython}
	_SCRIPT_LOCATION = __file__
	{script}
	""")


	# The batch template reruns the batch script with vpython, with the -x
	# flag instructing the interpreter to ignore the first line. The interpreter
	# knows about the (batch) script in this case, so it can get the file location
	# directly.
	BATCH_TEMPLATE = textwrap.dedent("""\
	@SETLOCAL ENABLEDELAYEDEXPANSION \
	& {vpython}.bat -x "%~f0" %* \
	& EXIT /B !ERRORLEVEL!
	_SCRIPT_LOCATION = __file__
	{script}
	""")


	SCRIPT_TEMPLATES = {
	'bash': BASH_TEMPLATE,
	'batch': BATCH_TEMPLATE,
	}


	PY_TEMPLATE = textwrap.dedent("""\
	import os
	import re
	import subprocess
	import sys

	_WRAPPED_PATH_RE = re.compile(r'@WrappedPath\(([^)]+)\)')
	_PATH_TO_OUTPUT_DIR = '{path_to_output_dir}'
	_SCRIPT_DIR = os.path.dirname(os.path.realpath(_SCRIPT_LOCATION))


	def ExpandWrappedPath(arg):
	m = _WRAPPED_PATH_RE.match(arg)
	if m:
	relpath = os.path.join(
	os.path.relpath(_SCRIPT_DIR), _PATH_TO_OUTPUT_DIR, m.group(1))
	npath = os.path.normpath(relpath)
	if os.path.sep not in npath:
	# If the original path points to something in the current directory,
	# returning the normalized version of it can be a problem.
	# normpath() strips off the './' part of the path
	# ('./foo' becomes 'foo'), which can be a problem if the result
	# is passed to something like os.execvp(); in that case
	# osexecvp() will search $PATH for the executable, rather than
	# just execing the arg directly, and if '.' isn't in $PATH, this
	# results in an error.
	#
	# So, we need to explicitly return './foo' (or '.\\foo' on windows)
	# instead of 'foo'.
	#
	# Hopefully there are no cases where this causes a problem; if
	# there are, we will either need to change the interface to
	# WrappedPath() somehow to distinguish between the two, or
	# somehow ensure that the wrapped executable doesn't hit cases
	# like this.
	return '.' + os.path.sep + npath
	return npath
	return arg


	def ExpandWrappedPaths(args):
	for i, arg in enumerate(args):
	args[i] = ExpandWrappedPath(arg)
	return args


	def FindIsolatedOutdir(raw_args):
	outdir = None
	i = 0
	remaining_args = []
	while i < len(raw_args):
	if raw_args[i] == '--isolated-outdir' and i < len(raw_args)-1:
	outdir = raw_args[i+1]
	i += 2
	elif raw_args[i].startswith('--isolated-outdir='):
	outdir = raw_args[i][len('--isolated-outdir='):]
	i += 1
	else:
	remaining_args.append(raw_args[i])
	i += 1
	if not outdir and 'ISOLATED_OUTDIR' in os.environ:
	outdir = os.environ['ISOLATED_OUTDIR']
	return outdir, remaining_args


	def FilterIsolatedOutdirBasedArgs(outdir, args):
	rargs = []
	i = 0
	while i < len(args):
	if 'ISOLATED_OUTDIR' in args[i]:
	if outdir:
	# Rewrite the arg.
	rargs.append(args[i].replace('${{ISOLATED_OUTDIR}}',
	outdir).replace(
	'$ISOLATED_OUTDIR', outdir))
	i += 1
	else:
	# Simply drop the arg.
	i += 1
	elif (not outdir and
	args[i].startswith('-') and
	'=' not in args[i] and
	i < len(args) - 1 and
	'ISOLATED_OUTDIR' in args[i+1]):
	# Parsing this case is ambiguous; if we're given
	# `--foo $ISOLATED_OUTDIR` we can't tell if $ISOLATED_OUTDIR
	# is meant to be the value of foo, or if foo takes no argument
	# and $ISOLATED_OUTDIR is the first positional arg.
	#
	# We assume the former will be much more common, and so we
	# need to drop --foo and $ISOLATED_OUTDIR.
	i += 2
	else:
	rargs.append(args[i])
	i += 1
	return rargs


	def main(raw_args):
	executable_path = ExpandWrappedPath('{executable_path}')
	outdir, remaining_args = FindIsolatedOutdir(raw_args)
	args = {executable_args}
	args = FilterIsolatedOutdirBasedArgs(outdir, args)
	executable_args = ExpandWrappedPaths(args)
	cmd = [executable_path] + args + remaining_args
	if executable_path.endswith('.py'):
	cmd = [sys.executable] + cmd
	return subprocess.call(cmd)


	if __name__ == '__main__':
	sys.exit(main(sys.argv[1:]))
	""")


	def Wrap(args):
	"""Writes a wrapped script according to the provided arguments.

	Arguments:
	args: an argparse.Namespace object containing command-line arguments
	as parsed by a parser returned by CreateArgumentParser.
	"""
	path_to_output_dir = os.path.relpath(
	args.output_directory,
	os.path.dirname(args.wrapper_script))

	with open(args.wrapper_script, 'w') as wrapper_script:
	py_contents = PY_TEMPLATE.format(
	path_to_output_dir=path_to_output_dir,
	executable_path=str(args.executable),
	executable_args=str(args.executable_args))
	template = SCRIPT_TEMPLATES[args.script_language]
	wrapper_script.write(
	template.format(script=py_contents, vpython=args.vpython))
	os.chmod(args.wrapper_script, 0o750)

	return 0


	def CreateArgumentParser():
	"""Creates an argparse.ArgumentParser instance."""
	parser = argparse.ArgumentParser()
	parser.add_argument(
	'--executable',
	help='Executable to wrap.')
	parser.add_argument(
	'--wrapper-script',
	help='Path to which the wrapper script will be written.')
	parser.add_argument(
	'--output-directory',
	help='Path to the output directory.')
	parser.add_argument(
	'--script-language',
	choices=SCRIPT_TEMPLATES.keys(),
	help='Language in which the wrapper script will be written.')
	parser.add_argument('--use-vpython3',
	dest='vpython',
	action='store_const',
	const='vpython3',
	default='vpython',
	help='Use vpython3 instead of vpython')
	parser.add_argument(
	'executable_args', nargs='*',
	help='Arguments to wrap into the executable.')
	return parser


	def main(raw_args):
	parser = CreateArgumentParser()
	args = parser.parse_args(raw_args)
	return Wrap(args)


	if __name__ == '__main__':
	sys.exit(main(sys.argv[1:]))