mirror of
https://github.com/mozilla/gecko-dev.git
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b5b5de46a4
Currently the mach binary will look for 'mozinfo.json' and if it finds it assume we are in an objdir. But now, 'mozinfo.json' can also be found in an extracted tests.zip (depending which zips were used). This trips up the tests.zip mach environment and causes some problems. This works around the issue by looking for both 'mozinfo.json' and 'config.status' MozReview-Commit-ID: BIXcCm4LzE2 --HG-- extra : rebase_source : 6e2dc0502de1cddec8eccdfe30524864be81536c
150 lines
5.9 KiB
Bash
Executable File
150 lines
5.9 KiB
Bash
Executable File
#!/bin/sh
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# This Source Code Form is subject to the terms of the Mozilla Public
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# License, v. 2.0. If a copy of the MPL was not distributed with this
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# file, You can obtain one at http://mozilla.org/MPL/2.0/.
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# The beginning of this script is both valid shell and valid python,
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# such that the script starts with the shell and is reexecuted with
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# the right python.
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'''which' python2.7 > /dev/null && exec python2.7 "$0" "$@" || exec python "$0" "$@"
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'''
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from __future__ import print_function, unicode_literals
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import os
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import sys
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def ancestors(path):
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while path:
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yield path
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(path, child) = os.path.split(path)
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if child == "":
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break
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def load_mach(dir_path, mach_path):
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import imp
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with open(mach_path, 'r') as fh:
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imp.load_module('mach_bootstrap', fh, mach_path,
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('.py', 'r', imp.PY_SOURCE))
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import mach_bootstrap
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return mach_bootstrap.bootstrap(dir_path)
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def check_and_get_mach(dir_path):
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bootstrap_paths = (
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'build/mach_bootstrap.py',
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# test package bootstrap
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'tools/mach_bootstrap.py',
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)
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for bootstrap_path in bootstrap_paths:
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mach_path = os.path.join(dir_path, bootstrap_path)
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if os.path.isfile(mach_path):
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return load_mach(dir_path, mach_path)
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return None
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def get_mach():
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# Check whether the current directory is within a mach src or obj dir.
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for dir_path in ancestors(os.getcwd()):
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# If we find a "config.status" and "mozinfo.json" file, we are in the objdir.
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config_status_path = os.path.join(dir_path, 'config.status')
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mozinfo_path = os.path.join(dir_path, 'mozinfo.json')
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if os.path.isfile(config_status_path) and os.path.isfile(mozinfo_path):
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import json
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info = json.load(open(mozinfo_path))
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if 'mozconfig' in info and 'MOZCONFIG' not in os.environ:
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# If the MOZCONFIG environment variable is not already set, set it
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# to the value from mozinfo.json. This will tell the build system
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# to look for a config file at the path in $MOZCONFIG rather than
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# its default locations.
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#
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# Note: subprocess requires native strings in os.environ on Windows
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os.environ[b'MOZCONFIG'] = str(info['mozconfig'])
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if 'topsrcdir' in info:
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# Continue searching for mach_bootstrap in the source directory.
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dir_path = info['topsrcdir']
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mach = check_and_get_mach(dir_path)
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if mach:
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return mach
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# If we didn't find a source path by scanning for a mozinfo.json, check
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# whether the directory containing this script is a source directory.
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return check_and_get_mach(os.path.dirname(__file__))
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def main(args):
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mach = get_mach()
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if not mach:
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print('Could not run mach: No mach source directory found.')
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sys.exit(1)
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sys.exit(mach.run(args))
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if __name__ == '__main__':
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if sys.platform == 'win32':
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# This is a complete hack to work around the fact that Windows
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# multiprocessing needs to import the original module (ie: this
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# file), but only works if it has a .py extension.
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#
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# We do this by a sort of two-level function interposing. The first
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# level interposes forking.get_command_line() with our version defined
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# in my_get_command_line(). Our version of get_command_line will
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# replace the command string with the contents of the fork_interpose()
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# function to be used in the subprocess.
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#
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# The subprocess then gets an interposed imp.find_module(), which we
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# hack up to find 'mach' without the .py extension, since we already
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# know where it is (it's us!). If we're not looking for 'mach', then
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# the original find_module will suffice.
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#
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# See also: http://bugs.python.org/issue19946
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# And: https://bugzilla.mozilla.org/show_bug.cgi?id=914563
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import inspect
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from multiprocessing import forking
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global orig_command_line
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def fork_interpose():
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import imp
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import os
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import sys
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orig_find_module = imp.find_module
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def my_find_module(name, dirs):
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if name == 'mach':
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path = os.path.join(dirs[0], 'mach')
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f = open(path)
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return (f, path, ('', 'r', imp.PY_SOURCE))
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return orig_find_module(name, dirs)
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# Don't allow writing bytecode file for mach module.
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orig_load_module = imp.load_module
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def my_load_module(name, file, path, description):
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# multiprocess.forking invokes imp.load_module manually and
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# hard-codes the name __parents_main__ as the module name.
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if name == '__parents_main__':
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old_bytecode = sys.dont_write_bytecode
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sys.dont_write_bytecode = True
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try:
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return orig_load_module(name, file, path, description)
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finally:
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sys.dont_write_bytecode = old_bytecode
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return orig_load_module(name, file, path, description)
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imp.find_module = my_find_module
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imp.load_module = my_load_module
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from multiprocessing.forking import main; main()
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def my_get_command_line():
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fork_code, lineno = inspect.getsourcelines(fork_interpose)
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# Remove the first line (for 'def fork_interpose():') and the three
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# levels of indentation (12 spaces).
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fork_string = ''.join(x[12:] for x in fork_code[1:])
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cmdline = orig_command_line()
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cmdline[2] = fork_string
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return cmdline
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orig_command_line = forking.get_command_line
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forking.get_command_line = my_get_command_line
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main(sys.argv[1:])
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