# Copyright (C) 2008 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import multiprocessing import os import optparse import platform import re import sys from event_log import EventLog from error import NoSuchProjectError from error import InvalidProjectGroupsError import progress # Number of projects to submit to a single worker process at a time. # This number represents a tradeoff between the overhead of IPC and finer # grained opportunity for parallelism. This particular value was chosen by # iterating through powers of two until the overall performance no longer # improved. The performance of this batch size is not a function of the # number of cores on the system. WORKER_BATCH_SIZE = 32 # How many jobs to run in parallel by default? This assumes the jobs are # largely I/O bound and do not hit the network. DEFAULT_LOCAL_JOBS = min(os.cpu_count(), 8) class Command(object): """Base class for any command line action in repo. """ # Singleton for all commands to track overall repo command execution and # provide event summary to callers. Only used by sync subcommand currently. # # NB: This is being replaced by git trace2 events. See git_trace2_event_log. event_log = EventLog() # Whether this command is a "common" one, i.e. whether the user would commonly # use it or it's a more uncommon command. This is used by the help command to # show short-vs-full summaries. COMMON = False # Whether this command supports running in parallel. If greater than 0, # it is the number of parallel jobs to default to. PARALLEL_JOBS = None def __init__(self, repodir=None, client=None, manifest=None, gitc_manifest=None): self.repodir = repodir self.client = client self.manifest = manifest self.gitc_manifest = gitc_manifest # Cache for the OptionParser property. self._optparse = None def WantPager(self, _opt): return False def ReadEnvironmentOptions(self, opts): """ Set options from environment variables. """ env_options = self._RegisteredEnvironmentOptions() for env_key, opt_key in env_options.items(): # Get the user-set option value if any opt_value = getattr(opts, opt_key) # If the value is set, it means the user has passed it as a command # line option, and we should use that. Otherwise we can try to set it # with the value from the corresponding environment variable. if opt_value is not None: continue env_value = os.environ.get(env_key) if env_value is not None: setattr(opts, opt_key, env_value) return opts @property def OptionParser(self): if self._optparse is None: try: me = 'repo %s' % self.NAME usage = self.helpUsage.strip().replace('%prog', me) except AttributeError: usage = 'repo %s' % self.NAME epilog = 'Run `repo help %s` to view the detailed manual.' % self.NAME self._optparse = optparse.OptionParser(usage=usage, epilog=epilog) self._CommonOptions(self._optparse) self._Options(self._optparse) return self._optparse def _CommonOptions(self, p, opt_v=True): """Initialize the option parser with common options. These will show up for *all* subcommands, so use sparingly. NB: Keep in sync with repo:InitParser(). """ g = p.add_option_group('Logging options') opts = ['-v'] if opt_v else [] g.add_option(*opts, '--verbose', dest='output_mode', action='store_true', help='show all output') g.add_option('-q', '--quiet', dest='output_mode', action='store_false', help='only show errors') if self.PARALLEL_JOBS is not None: p.add_option( '-j', '--jobs', type=int, default=self.PARALLEL_JOBS, help='number of jobs to run in parallel (default: %s)' % self.PARALLEL_JOBS) def _Options(self, p): """Initialize the option parser with subcommand-specific options.""" def _RegisteredEnvironmentOptions(self): """Get options that can be set from environment variables. Return a dictionary mapping environment variable name to option key name that it can override. Example: {'REPO_MY_OPTION': 'my_option'} Will allow the option with key value 'my_option' to be set from the value in the environment variable named 'REPO_MY_OPTION'. Note: This does not work properly for options that are explicitly set to None by the user, or options that are defined with a default value other than None. """ return {} def Usage(self): """Display usage and terminate. """ self.OptionParser.print_usage() sys.exit(1) def CommonValidateOptions(self, opt, args): """Validate common options.""" opt.quiet = opt.output_mode is False opt.verbose = opt.output_mode is True def ValidateOptions(self, opt, args): """Validate the user options & arguments before executing. This is meant to help break the code up into logical steps. Some tips: * Use self.OptionParser.error to display CLI related errors. * Adjust opt member defaults as makes sense. * Adjust the args list, but do so inplace so the caller sees updates. * Try to avoid updating self state. Leave that to Execute. """ def Execute(self, opt, args): """Perform the action, after option parsing is complete. """ raise NotImplementedError @staticmethod def ExecuteInParallel(jobs, func, inputs, callback, output=None, ordered=False): """Helper for managing parallel execution boiler plate. For subcommands that can easily split their work up. Args: jobs: How many parallel processes to use. func: The function to apply to each of the |inputs|. Usually a functools.partial for wrapping additional arguments. It will be run in a separate process, so it must be pickalable, so nested functions won't work. Methods on the subcommand Command class should work. inputs: The list of items to process. Must be a list. callback: The function to pass the results to for processing. It will be executed in the main thread and process the results of |func| as they become available. Thus it may be a local nested function. Its return value is passed back directly. It takes three arguments: - The processing pool (or None with one job). - The |output| argument. - An iterator for the results. output: An output manager. May be progress.Progess or color.Coloring. ordered: Whether the jobs should be processed in order. Returns: The |callback| function's results are returned. """ try: # NB: Multiprocessing is heavy, so don't spin it up for one job. if len(inputs) == 1 or jobs == 1: return callback(None, output, (func(x) for x in inputs)) else: with multiprocessing.Pool(jobs) as pool: submit = pool.imap if ordered else pool.imap_unordered return callback(pool, output, submit(func, inputs, chunksize=WORKER_BATCH_SIZE)) finally: if isinstance(output, progress.Progress): output.end() def _ResetPathToProjectMap(self, projects): self._by_path = dict((p.worktree, p) for p in projects) def _UpdatePathToProjectMap(self, project): self._by_path[project.worktree] = project def _GetProjectByPath(self, manifest, path): project = None if os.path.exists(path): oldpath = None while (path and path != oldpath and path != manifest.topdir): try: project = self._by_path[path] break except KeyError: oldpath = path path = os.path.dirname(path) if not project and path == manifest.topdir: try: project = self._by_path[path] except KeyError: pass else: try: project = self._by_path[path] except KeyError: pass return project def GetProjects(self, args, manifest=None, groups='', missing_ok=False, submodules_ok=False): """A list of projects that match the arguments. """ if not manifest: manifest = self.manifest all_projects_list = manifest.projects result = [] mp = manifest.manifestProject if not groups: groups = manifest.GetGroupsStr() groups = [x for x in re.split(r'[,\s]+', groups) if x] if not args: derived_projects = {} for project in all_projects_list: if submodules_ok or project.sync_s: derived_projects.update((p.name, p) for p in project.GetDerivedSubprojects()) all_projects_list.extend(derived_projects.values()) for project in all_projects_list: if (missing_ok or project.Exists) and project.MatchesGroups(groups): result.append(project) else: self._ResetPathToProjectMap(all_projects_list) for arg in args: # We have to filter by manifest groups in case the requested project is # checked out multiple times or differently based on them. projects = [project for project in manifest.GetProjectsWithName(arg) if project.MatchesGroups(groups)] if not projects: path = os.path.abspath(arg).replace('\\', '/') project = self._GetProjectByPath(manifest, path) # If it's not a derived project, update path->project mapping and # search again, as arg might actually point to a derived subproject. if (project and not project.Derived and (submodules_ok or project.sync_s)): search_again = False for subproject in project.GetDerivedSubprojects(): self._UpdatePathToProjectMap(subproject) search_again = True if search_again: project = self._GetProjectByPath(manifest, path) or project if project: projects = [project] if not projects: raise NoSuchProjectError(arg) for project in projects: if not missing_ok and not project.Exists: raise NoSuchProjectError('%s (%s)' % (arg, project.relpath)) if not project.MatchesGroups(groups): raise InvalidProjectGroupsError(arg) result.extend(projects) def _getpath(x): return x.relpath result.sort(key=_getpath) return result def FindProjects(self, args, inverse=False): result = [] patterns = [re.compile(r'%s' % a, re.IGNORECASE) for a in args] for project in self.GetProjects(''): for pattern in patterns: match = pattern.search(project.name) or pattern.search(project.relpath) if not inverse and match: result.append(project) break if inverse and match: break else: if inverse: result.append(project) result.sort(key=lambda project: project.relpath) return result class InteractiveCommand(Command): """Command which requires user interaction on the tty and must not run within a pager, even if the user asks to. """ def WantPager(self, _opt): return False class PagedCommand(Command): """Command which defaults to output in a pager, as its display tends to be larger than one screen full. """ def WantPager(self, _opt): return True class MirrorSafeCommand(object): """Command permits itself to run within a mirror, and does not require a working directory. """ class GitcAvailableCommand(object): """Command that requires GITC to be available, but does not require the local client to be a GITC client. """ class GitcClientCommand(object): """Command that requires the local client to be a GITC client. """