# Copyright 2016 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. import argparse import collections import contextlib import fnmatch import hashlib import logging import os import platform import posixpath import shutil import string import subprocess import sys import tempfile THIS_DIR = os.path.abspath(os.path.dirname(__file__)) ROOT_DIR = os.path.abspath(os.path.join(THIS_DIR, '..', '..')) DEVNULL = open(os.devnull, 'w') BAT_EXT = '.bat' if sys.platform.startswith('win') else '' # Top-level stubs to generate that fall through to executables within the Git # directory. STUBS = { 'git.bat': 'cmd\\git.exe', 'gitk.bat': 'cmd\\gitk.exe', 'ssh.bat': 'usr\\bin\\ssh.exe', 'ssh-keygen.bat': 'usr\\bin\\ssh-keygen.exe', } # Accumulated template parameters for generated stubs. class Template(collections.namedtuple('Template', ( 'PYTHON_RELDIR', 'PYTHON_BIN_RELDIR', 'PYTHON_BIN_RELDIR_UNIX', 'PYTHON3_BIN_RELDIR', 'PYTHON3_BIN_RELDIR_UNIX', 'GIT_BIN_RELDIR', 'GIT_BIN_RELDIR_UNIX', 'GIT_PROGRAM', ))): @classmethod def empty(cls): return cls(**{k: None for k in cls._fields}) def maybe_install(self, name, dst_path): """Installs template |name| to |dst_path| if it has changed. This loads the template |name| from THIS_DIR, resolves template parameters, and installs it to |dst_path|. See `maybe_update` for more information. Args: name (str): The name of the template to install. dst_path (str): The destination filesystem path. Returns (bool): True if |dst_path| was updated, False otherwise. """ template_path = os.path.join(THIS_DIR, name) with open(template_path, 'r') as fd: t = string.Template(fd.read()) return maybe_update(t.safe_substitute(self._asdict()), dst_path) def maybe_update(content, dst_path): """Writes |content| to |dst_path| if |dst_path| does not already match. This function will ensure that there is a file at |dst_path| containing |content|. If |dst_path| already exists and contains |content|, no operation will be performed, preserving filesystem modification times and avoiding potential write contention. Args: content (str): The file content. dst_path (str): The destination filesystem path. Returns (bool): True if |dst_path| was updated, False otherwise. """ # If the path already exists and matches the new content, refrain from writing # a new one. if os.path.exists(dst_path): with open(dst_path, 'r') as fd: if fd.read() == content: return False logging.debug('Updating %r', dst_path) with open(dst_path, 'w') as fd: fd.write(content) return True def maybe_copy(src_path, dst_path): """Writes the content of |src_path| to |dst_path| if needed. See `maybe_update` for more information. Args: src_path (str): The content source filesystem path. dst_path (str): The destination filesystem path. Returns (bool): True if |dst_path| was updated, False otherwise. """ with open(src_path, 'r') as fd: content = fd.read() return maybe_update(content, dst_path) def call_if_outdated(stamp_path, stamp_version, fn): """Invokes |fn| if the stamp at |stamp_path| doesn't match |stamp_version|. This can be used to keep a filesystem record of whether an operation has been performed. The record is stored at |stamp_path|. To invalidate a record, change the value of |stamp_version|. After |fn| completes successfully, |stamp_path| will be updated to match |stamp_version|, preventing the same update from happening in the future. Args: stamp_path (str): The filesystem path of the stamp file. stamp_version (str): The desired stamp version. fn (callable): A callable to invoke if the current stamp version doesn't match |stamp_version|. Returns (bool): True if an update occurred. """ stamp_version = stamp_version.strip() if os.path.isfile(stamp_path): with open(stamp_path, 'r') as fd: current_version = fd.read().strip() if current_version == stamp_version: return False fn() with open(stamp_path, 'w') as fd: fd.write(stamp_version) return True def _in_use(path): """Checks if a Windows file is in use. When Windows is using an executable, it prevents other writers from modifying or deleting that executable. We can safely test for an in-use file by opening it in write mode and checking whether or not there was an error. Returns (bool): True if the file was in use, False if not. """ try: with open(path, 'r+'): return False except IOError: return True def _toolchain_in_use(toolchain_path): """Returns (bool): True if a toolchain rooted at |path| is in use. """ # Look for Python files that may be in use. for python_dir in ( os.path.join(toolchain_path, 'python', 'bin'), # CIPD toolchain_path, # Legacy ZIP distributions. ): for component in ( os.path.join(python_dir, 'python.exe'), os.path.join(python_dir, 'DLLs', 'unicodedata.pyd'), ): if os.path.isfile(component) and _in_use(component): return True # Look for Pytho:n 3 files that may be in use. python_dir = os.path.join(toolchain_path, 'python3', 'bin') for component in ( os.path.join(python_dir, 'python3.exe'), os.path.join(python_dir, 'DLLs', 'unicodedata.pyd'), ): if os.path.isfile(component) and _in_use(component): return True return False def _check_call(argv, stdin_input=None, **kwargs): """Wrapper for subprocess.check_call that adds logging.""" logging.info('running %r', argv) if stdin_input is not None: kwargs['stdin'] = subprocess.PIPE proc = subprocess.Popen(argv, **kwargs) proc.communicate(input=stdin_input) if proc.returncode: raise subprocess.CalledProcessError(proc.returncode, argv, None) def _safe_rmtree(path): if not os.path.exists(path): return def _make_writable_and_remove(path): st = os.stat(path) new_mode = st.st_mode | 0200 if st.st_mode == new_mode: return False try: os.chmod(path, new_mode) os.remove(path) return True except Exception: return False def _on_error(function, path, excinfo): if not _make_writable_and_remove(path): logging.warning('Failed to %s: %s (%s)', function, path, excinfo) shutil.rmtree(path, onerror=_on_error) def clean_up_old_installations(skip_dir): """Removes Python installations other than |skip_dir|. This includes an "in-use" check against the "python.exe" in a given directory to avoid removing Python executables that are currently ruinning. We need this because our Python bootstrap may be run after (and by) other software that is using the bootstrapped Python! """ root_contents = os.listdir(ROOT_DIR) for f in ('win_tools-*_bin', 'python27*_bin', 'git-*_bin'): for entry in fnmatch.filter(root_contents, f): full_entry = os.path.join(ROOT_DIR, entry) if full_entry == skip_dir or not os.path.isdir(full_entry): continue logging.info('Cleaning up old installation %r', entry) if not _toolchain_in_use(full_entry): _safe_rmtree(full_entry) else: logging.info('Toolchain at %r is in-use; skipping', full_entry) # Version of "git_postprocess" system configuration (see |git_postprocess|). GIT_POSTPROCESS_VERSION = '2' def git_get_mingw_dir(git_directory): """Returns (str) The "mingw" directory in a Git installation, or None.""" for candidate in ('mingw64', 'mingw32'): mingw_dir = os.path.join(git_directory, candidate) if os.path.isdir(mingw_dir): return mingw_dir return None def git_postprocess(template, git_directory): # Update depot_tools files for "git help " mingw_dir = git_get_mingw_dir(git_directory) if mingw_dir: docsrc = os.path.join(ROOT_DIR, 'man', 'html') git_docs_dir = os.path.join(mingw_dir, 'share', 'doc', 'git-doc') for name in os.listdir(docsrc): maybe_copy( os.path.join(docsrc, name), os.path.join(git_docs_dir, name)) else: logging.info('Could not find mingw directory for %r.', git_directory) # Create Git templates and configure its base layout. for stub_name, relpath in STUBS.iteritems(): stub_template = template._replace(GIT_PROGRAM=relpath) stub_template.maybe_install( 'git.template.bat', os.path.join(ROOT_DIR, stub_name)) # Set-up our system configuration environment. The following set of # parameters is versioned by "GIT_POSTPROCESS_VERSION". If they change, # update "GIT_POSTPROCESS_VERSION" accordingly. def configure_git_system(): git_bat_path = os.path.join(ROOT_DIR, 'git.bat') _check_call([git_bat_path, 'config', '--system', 'core.autocrlf', 'false']) _check_call([git_bat_path, 'config', '--system', 'core.filemode', 'false']) _check_call([git_bat_path, 'config', '--system', 'core.preloadindex', 'true']) _check_call([git_bat_path, 'config', '--system', 'core.fscache', 'true']) _check_call([git_bat_path, 'config', '--system', 'protocol.version', '2']) call_if_outdated( os.path.join(git_directory, '.git_postprocess'), GIT_POSTPROCESS_VERSION, configure_git_system) def main(argv): parser = argparse.ArgumentParser() parser.add_argument('--verbose', action='store_true') parser.add_argument('--win-tools-name', required=True, help='The directory of the Python installation.') parser.add_argument('--bleeding-edge', action='store_true', help='Force bleeding edge Git.') args = parser.parse_args(argv) logging.basicConfig(level=logging.DEBUG if args.verbose else logging.WARN) template = Template.empty()._replace( PYTHON_RELDIR=os.path.join(args.win_tools_name, 'python'), PYTHON_BIN_RELDIR=os.path.join(args.win_tools_name, 'python', 'bin'), PYTHON_BIN_RELDIR_UNIX=posixpath.join( args.win_tools_name, 'python', 'bin'), PYTHON3_BIN_RELDIR=os.path.join(args.win_tools_name, 'python3', 'bin'), PYTHON3_BIN_RELDIR_UNIX=posixpath.join( args.win_tools_name, 'python3', 'bin'), GIT_BIN_RELDIR=os.path.join(args.win_tools_name, 'git'), GIT_BIN_RELDIR_UNIX=posixpath.join(args.win_tools_name, 'git')) win_tools_dir = os.path.join(ROOT_DIR, args.win_tools_name) git_postprocess(template, os.path.join(win_tools_dir, 'git')) # Clean up any old Python and Git installations. clean_up_old_installations(win_tools_dir) # Emit our Python bin depot-tools-relative directory. This is ready by # "python.bat" to identify the path of the current Python installation. # # We use this indirection so that upgrades can change this pointer to # redirect "python.bat" to a new Python installation. We can't just update # "python.bat" because batch file executions reload the batch file and seek # to the previous cursor in between every command, so changing the batch # file contents could invalidate any existing executions. # # The intention is that the batch file itself never needs to change when # switching Python versions. maybe_update( template.PYTHON_BIN_RELDIR, os.path.join(ROOT_DIR, 'python_bin_reldir.txt')) maybe_update( template.PYTHON3_BIN_RELDIR, os.path.join(ROOT_DIR, 'python3_bin_reldir.txt')) python_bat_template = ('python27.new.bat' if not args.bleeding_edge else 'python27.bleeding_edge.bat') python3_bat_template = ('python3.new.bat' if not args.bleeding_edge else 'python3.bleeding_edge.bat') # Re-evaluate and regenerate our root templated files. for src_name, dst_name in ( ('git-bash.template.sh', 'git-bash'), (python_bat_template, 'python.bat'), (python3_bat_template, 'python3.bat'), ): template.maybe_install(src_name, os.path.join(ROOT_DIR, dst_name)) return 0 if __name__ == '__main__': sys.exit(main(sys.argv[1:]))