# Copyright (C) 2008 Canonical Ltd # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA """Import processor that supports all Bazaar repository formats.""" import time from bzrlib import ( bzrdir, delta, errors, osutils, progress, ) from bzrlib.repofmt import pack_repo from bzrlib.trace import note, mutter import bzrlib.util.configobj.configobj as configobj from bzrlib.plugins.fastimport import ( branch_updater, bzr_commit_handler, cache_manager, errors as plugin_errors, helpers, idmapfile, marks_file, processor, revision_store, ) # How many commits before automatically reporting progress _DEFAULT_AUTO_PROGRESS = 1000 # How many commits before automatically checkpointing _DEFAULT_AUTO_CHECKPOINT = 10000 # How many checkpoints before automatically packing _DEFAULT_AUTO_PACK = 4 # How many inventories to cache _DEFAULT_INV_CACHE_SIZE = 10 _DEFAULT_CHK_INV_CACHE_SIZE = 100 class GenericProcessor(processor.ImportProcessor): """An import processor that handles basic imports. Current features supported: * blobs are cached in memory * files and symlinks commits are supported * checkpoints automatically happen at a configurable frequency over and above the stream requested checkpoints * timestamped progress reporting, both automatic and stream requested * some basic statistics are dumped on completion. At checkpoints and on completion, the commit-id -> revision-id map is saved to a file called 'fastimport-id-map'. If the import crashes or is interrupted, it can be started again and this file will be used to skip over already loaded revisions. The format of each line is "commit-id revision-id" so commit-ids cannot include spaces. Here are the supported parameters: * info - name of a hints file holding the analysis generated by running the fast-import-info processor in verbose mode. When importing large repositories, this parameter is needed so that the importer knows what blobs to intelligently cache. * trees - update the working trees before completing. By default, the importer updates the repository and branches and the user needs to run 'bzr update' for the branches of interest afterwards. * count - only import this many commits then exit. If not set or negative, all commits are imported. * checkpoint - automatically checkpoint every n commits over and above any checkpoints contained in the import stream. The default is 10000. * autopack - pack every n checkpoints. The default is 4. * inv-cache - number of inventories to cache. If not set, the default is 100 for CHK formats and 10 otherwise. * mode - import algorithm to use: default, experimental or classic. * import-marks - name of file to read to load mark information from * export-marks - name of file to write to save mark information to """ known_params = [ 'info', 'trees', 'count', 'checkpoint', 'autopack', 'inv-cache', 'mode', 'import-marks', 'export-marks', ] def __init__(self, bzrdir, params=None, verbose=False, prune_empty_dirs=True): processor.ImportProcessor.__init__(self, bzrdir, params, verbose) self.prune_empty_dirs = prune_empty_dirs def pre_process(self): self._start_time = time.time() self._load_info_and_params() self.cache_mgr = cache_manager.CacheManager(self.info, self.verbose, self.inventory_cache_size) if self.params.get("import-marks") is not None: mark_info = marks_file.import_marks(self.params.get("import-marks")) if mark_info is not None: self.cache_mgr.revision_ids = mark_info[0] self.skip_total = False self.first_incremental_commit = True else: self.first_incremental_commit = False self.skip_total = self._init_id_map() if self.skip_total: self.note("Found %d commits already loaded - " "skipping over these ...", self.skip_total) self._revision_count = 0 # mapping of tag name to revision_id self.tags = {} # Create the revision store to use for committing, if any self.rev_store = self._revision_store_factory() # Disable autopacking if the repo format supports it. # THIS IS A HACK - there is no sanctioned way of doing this yet. if isinstance(self.repo, pack_repo.KnitPackRepository): self._original_max_pack_count = \ self.repo._pack_collection._max_pack_count def _max_pack_count_for_import(total_revisions): return total_revisions + 1 self.repo._pack_collection._max_pack_count = \ _max_pack_count_for_import else: self._original_max_pack_count = None # Make groupcompress use the fast algorithm during importing. # We want to repack at the end anyhow when more information # is available to do a better job of saving space. try: from bzrlib import groupcompress groupcompress._FAST = True except ImportError: pass # Create a write group. This is committed at the end of the import. # Checkpointing closes the current one and starts a new one. self.repo.start_write_group() def _load_info_and_params(self): self._mode = bool(self.params.get('mode', 'default')) self._experimental = self._mode == 'experimental' # This is currently hard-coded but might be configurable via # parameters one day if that's needed repo_transport = self.repo.control_files._transport self.id_map_path = repo_transport.local_abspath("fastimport-id-map") # Load the info file, if any info_path = self.params.get('info') if info_path is not None: self.info = configobj.ConfigObj(info_path) else: self.info = None # Decide which CommitHandler to use self.supports_chk = getattr(self.repo._format, 'supports_chks', False) if self.supports_chk and self._mode == 'classic': note("Cannot use classic algorithm on CHK repositories" " - using default one instead") self._mode = 'default' if self._mode == 'classic': self.commit_handler_factory = \ bzr_commit_handler.InventoryCommitHandler else: self.commit_handler_factory = \ bzr_commit_handler.InventoryDeltaCommitHandler # Decide how often to automatically report progress # (not a parameter yet) self.progress_every = _DEFAULT_AUTO_PROGRESS if self.verbose: self.progress_every = self.progress_every / 10 # Decide how often (# of commits) to automatically checkpoint self.checkpoint_every = int(self.params.get('checkpoint', _DEFAULT_AUTO_CHECKPOINT)) # Decide how often (# of checkpoints) to automatically pack self.checkpoint_count = 0 self.autopack_every = int(self.params.get('autopack', _DEFAULT_AUTO_PACK)) # Decide how big to make the inventory cache cache_size = int(self.params.get('inv-cache', -1)) if cache_size == -1: if self.supports_chk: cache_size = _DEFAULT_CHK_INV_CACHE_SIZE else: cache_size = _DEFAULT_INV_CACHE_SIZE self.inventory_cache_size = cache_size # Find the maximum number of commits to import (None means all) # and prepare progress reporting. Just in case the info file # has an outdated count of commits, we store the max counts # at which we need to terminate separately to the total used # for progress tracking. try: self.max_commits = int(self.params['count']) if self.max_commits < 0: self.max_commits = None except KeyError: self.max_commits = None if self.info is not None: self.total_commits = int(self.info['Command counts']['commit']) if (self.max_commits is not None and self.total_commits > self.max_commits): self.total_commits = self.max_commits else: self.total_commits = self.max_commits def _revision_store_factory(self): """Make a RevisionStore based on what the repository supports.""" new_repo_api = hasattr(self.repo, 'revisions') if new_repo_api: return revision_store.RevisionStore2(self.repo) elif not self._experimental: return revision_store.RevisionStore1(self.repo) else: def fulltext_when(count): total = self.total_commits if total is not None and count == total: fulltext = True else: # Create an inventory fulltext every 200 revisions fulltext = count % 200 == 0 if fulltext: self.note("%d commits - storing inventory as full-text", count) return fulltext return revision_store.ImportRevisionStore1( self.repo, self.inventory_cache_size, fulltext_when=fulltext_when) def _process(self, command_iter): # if anything goes wrong, abort the write group if any try: processor.ImportProcessor._process(self, command_iter) except: if self.repo is not None and self.repo.is_in_write_group(): self.repo.abort_write_group() raise def post_process(self): # Commit the current write group and checkpoint the id map self.repo.commit_write_group() self._save_id_map() if self.params.get("export-marks") is not None: marks_file.export_marks(self.params.get("export-marks"), self.cache_mgr.revision_ids) # Update the branches self.note("Updating branch information ...") updater = branch_updater.BranchUpdater(self.repo, self.branch, self.cache_mgr, helpers.invert_dictset(self.cache_mgr.heads), self.cache_mgr.last_ref, self.tags) branches_updated, branches_lost = updater.update() self._branch_count = len(branches_updated) # Tell the user about branches that were not created if branches_lost: if not self.repo.is_shared(): self.warning("Cannot import multiple branches into " "a standalone branch") self.warning("Not creating branches for these head revisions:") for lost_info in branches_lost: head_revision = lost_info[1] branch_name = lost_info[0] self.note("\t %s = %s", head_revision, branch_name) # Update the working trees as requested self._tree_count = 0 remind_about_update = True if self._branch_count == 0: self.note("no branches to update") self.note("no working trees to update") remind_about_update = False elif self.params.get('trees', False): trees = self._get_working_trees(branches_updated) if trees: self._update_working_trees(trees) remind_about_update = False else: self.warning("No working trees available to update") else: # Update just the trunk. (This is always the first branch # returned by the branch updater.) trunk_branch = branches_updated[0] trees = self._get_working_trees([trunk_branch]) if trees: self._update_working_trees(trees) remind_about_update = self._branch_count > 1 # Dump the cache stats now because we clear it before the final pack if self.verbose: self.cache_mgr.dump_stats() if self._original_max_pack_count: # We earlier disabled autopacking, creating one pack every # checkpoint instead. We now pack the repository to optimise # how data is stored. self.cache_mgr.clear_all() self._pack_repository() # Finish up by dumping stats & telling the user what to do next. self.dump_stats() if remind_about_update: # This message is explicitly not timestamped. note("To refresh the working tree for other branches, " "use 'bzr update' inside that branch.") def _update_working_trees(self, trees): if self.verbose: reporter = delta._ChangeReporter() else: reporter = None for wt in trees: self.note("Updating the working tree for %s ...", wt.basedir) wt.update(reporter) self._tree_count += 1 def _pack_repository(self, final=True): # Before packing, free whatever memory we can and ensure # that groupcompress is configured to optimise disk space import gc if final: try: from bzrlib import groupcompress except ImportError: pass else: groupcompress._FAST = False gc.collect() self.note("Packing repository ...") self.repo.pack() # To be conservative, packing puts the old packs and # indices in obsolete_packs. We err on the side of # optimism and clear out that directory to save space. self.note("Removing obsolete packs ...") # TODO: Use a public API for this once one exists repo_transport = self.repo._pack_collection.transport repo_transport.clone('obsolete_packs').delete_multi( repo_transport.list_dir('obsolete_packs')) # If we're not done, free whatever memory we can if not final: gc.collect() def _get_working_trees(self, branches): """Get the working trees for branches in the repository.""" result = [] wt_expected = self.repo.make_working_trees() for br in branches: if br is None: continue elif br == self.branch: if self.working_tree: result.append(self.working_tree) elif wt_expected: try: result.append(br.bzrdir.open_workingtree()) except errors.NoWorkingTree: self.warning("No working tree for branch %s", br) return result def dump_stats(self): time_required = progress.str_tdelta(time.time() - self._start_time) rc = self._revision_count - self.skip_total bc = self._branch_count wtc = self._tree_count self.note("Imported %d %s, updating %d %s and %d %s in %s", rc, helpers.single_plural(rc, "revision", "revisions"), bc, helpers.single_plural(bc, "branch", "branches"), wtc, helpers.single_plural(wtc, "tree", "trees"), time_required) def _init_id_map(self): """Load the id-map and check it matches the repository. :return: the number of entries in the map """ # Currently, we just check the size. In the future, we might # decide to be more paranoid and check that the revision-ids # are identical as well. self.cache_mgr.revision_ids, known = idmapfile.load_id_map( self.id_map_path) existing_count = len(self.repo.all_revision_ids()) if existing_count < known: raise plugin_errors.BadRepositorySize(known, existing_count) return known def _save_id_map(self): """Save the id-map.""" # Save the whole lot every time. If this proves a problem, we can # change to 'append just the new ones' at a later time. idmapfile.save_id_map(self.id_map_path, self.cache_mgr.revision_ids) def blob_handler(self, cmd): """Process a BlobCommand.""" if cmd.mark is not None: dataref = cmd.id else: dataref = osutils.sha_strings(cmd.data) self.cache_mgr.store_blob(dataref, cmd.data) def checkpoint_handler(self, cmd): """Process a CheckpointCommand.""" # Commit the current write group and start a new one self.repo.commit_write_group() self._save_id_map() self.checkpoint_count += 1 if self.checkpoint_count % self.autopack_every == 0: self._pack_repository(final=False) self.repo.start_write_group() def commit_handler(self, cmd): """Process a CommitCommand.""" if self.skip_total and self._revision_count < self.skip_total: self.cache_mgr.track_heads(cmd) # Check that we really do know about this commit-id if not self.cache_mgr.revision_ids.has_key(cmd.id): raise plugin_errors.BadRestart(cmd.id) # Consume the file commands and free any non-sticky blobs for fc in cmd.file_iter(): pass self.cache_mgr._blobs = {} self._revision_count += 1 return if self.first_incremental_commit: self.first_incremental_commit = None parents = self.cache_mgr.track_heads(cmd) # 'Commit' the revision and report progress handler = self.commit_handler_factory(cmd, self.cache_mgr, self.rev_store, verbose=self.verbose, prune_empty_dirs=self.prune_empty_dirs) try: handler.process() except: print "ABORT: exception occurred processing commit %s" % (cmd.id) raise self.cache_mgr.revision_ids[cmd.id] = handler.revision_id self._revision_count += 1 self.report_progress("(%s)" % cmd.id) # Check if we should finish up or automatically checkpoint if (self.max_commits is not None and self._revision_count >= self.max_commits): self.note("Stopping after reaching requested count of commits") self.finished = True elif self._revision_count % self.checkpoint_every == 0: self.note("%d commits - automatic checkpoint triggered", self._revision_count) self.checkpoint_handler(None) def report_progress(self, details=''): if self._revision_count % self.progress_every == 0: if self.total_commits is not None: counts = "%d/%d" % (self._revision_count, self.total_commits) else: counts = "%d" % (self._revision_count,) minutes = (time.time() - self._start_time) / 60 revisions_added = self._revision_count - self.skip_total rate = revisions_added * 1.0 / minutes if rate > 10: rate_str = "at %.0f/minute " % rate else: rate_str = "at %.1f/minute " % rate self.note("%s commits processed %s%s" % (counts, rate_str, details)) def progress_handler(self, cmd): """Process a ProgressCommand.""" # We could use a progress bar here instead self.note("progress %s" % (cmd.message,)) def reset_handler(self, cmd): """Process a ResetCommand.""" if cmd.ref.startswith('refs/tags/'): tag_name = cmd.ref[len('refs/tags/'):] if cmd.from_ is not None: self._set_tag(tag_name, cmd.from_) elif self.verbose: self.warning("ignoring reset refs/tags/%s - no from clause" % tag_name) return if cmd.from_ is not None: self.cache_mgr.track_heads_for_ref(cmd.ref, cmd.from_) def tag_handler(self, cmd): """Process a TagCommand.""" if cmd.from_ is not None: self._set_tag(cmd.id, cmd.from_) else: self.warning("ignoring tag %s - no from clause" % cmd.id) def _set_tag(self, name, from_): """Define a tag given a name and import 'from' reference.""" bzr_tag_name = name.decode('utf-8', 'replace') bzr_rev_id = self.cache_mgr.revision_ids[from_] self.tags[bzr_tag_name] = bzr_rev_id