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# Copyright (C) 2005, 2006 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
"""Copying of history from one branch to another.
The basic plan is that every branch knows the history of everything
that has merged into it. As the first step of a merge, pull, or
branch operation we copy history from the source into the destination
branch.
The copying is done in a slightly complicated order. We don't want to
add a revision to the store until everything it refers to is also
stored, so that if a revision is present we can totally recreate it.
However, we can't know what files are included in a revision until we
read its inventory. So we query the inventory store of the source for
the ids we need, and then pull those ids and then return to the inventories.
"""
import bzrlib
import bzrlib.errors as errors
from bzrlib.errors import InstallFailed
from bzrlib.progress import ProgressPhase
from bzrlib.revision import is_null, NULL_REVISION
from bzrlib.symbol_versioning import (deprecated_function,
deprecated_method,
)
from bzrlib.trace import mutter
import bzrlib.ui
from bzrlib.versionedfile import filter_absent
# TODO: Avoid repeatedly opening weaves so many times.
# XXX: This doesn't handle ghost (not present in branch) revisions at
# all yet. I'm not sure they really should be supported.
# NOTE: This doesn't copy revisions which may be present but not
# merged into the last revision. I'm not sure we want to do that.
# - get a list of revisions that need to be pulled in
# - for each one, pull in that revision file
# and get the inventory, and store the inventory with right
# parents.
# - and get the ancestry, and store that with right parents too
# - and keep a note of all file ids and version seen
# - then go through all files; for each one get the weave,
# and add in all file versions
class RepoFetcher(object):
"""Pull revisions and texts from one repository to another.
last_revision
if set, try to limit to the data this revision references.
after running:
count_copied -- number of revisions copied
This should not be used directly, it's essential a object to encapsulate
the logic in InterRepository.fetch().
"""
def __init__(self, to_repository, from_repository, last_revision=None, pb=None,
find_ghosts=True):
"""Create a repo fetcher.
:param find_ghosts: If True search the entire history for ghosts.
"""
# result variables.
self.failed_revisions = []
self.count_copied = 0
if to_repository.has_same_location(from_repository):
# repository.fetch should be taking care of this case.
raise errors.BzrError('RepoFetcher run '
'between two objects at the same location: '
'%r and %r' % (to_repository, from_repository))
self.to_repository = to_repository
self.from_repository = from_repository
# must not mutate self._last_revision as its potentially a shared instance
self._last_revision = last_revision
self.find_ghosts = find_ghosts
if pb is None:
self.pb = bzrlib.ui.ui_factory.nested_progress_bar()
self.nested_pb = self.pb
else:
self.pb = pb
self.nested_pb = None
self.from_repository.lock_read()
try:
self.to_repository.lock_write()
try:
self.to_repository.start_write_group()
try:
self.__fetch()
except:
self.to_repository.abort_write_group()
raise
else:
self.to_repository.commit_write_group()
finally:
try:
if self.nested_pb is not None:
self.nested_pb.finished()
finally:
self.to_repository.unlock()
finally:
self.from_repository.unlock()
def __fetch(self):
"""Primary worker function.
This initialises all the needed variables, and then fetches the
requested revisions, finally clearing the progress bar.
"""
self.to_weaves = self.to_repository.weave_store
self.from_weaves = self.from_repository.weave_store
self.count_total = 0
self.file_ids_names = {}
pp = ProgressPhase('Transferring', 4, self.pb)
try:
pp.next_phase()
search = self._revids_to_fetch()
if search is None:
return
if getattr(self, '_fetch_everything_for_search', None) is not None:
self._fetch_everything_for_search(search, pp)
else:
# backward compatibility
self._fetch_everything_for_revisions(search.get_keys, pp)
finally:
self.pb.clear()
def _fetch_everything_for_search(self, search, pp):
"""Fetch all data for the given set of revisions."""
# The first phase is "file". We pass the progress bar for it directly
# into item_keys_introduced_by, which has more information about how
# that phase is progressing than we do. Progress updates for the other
# phases are taken care of in this function.
# XXX: there should be a clear owner of the progress reporting. Perhaps
# item_keys_introduced_by should have a richer API than it does at the
# moment, so that it can feed the progress information back to this
# function?
phase = 'file'
pb = bzrlib.ui.ui_factory.nested_progress_bar()
try:
revs = search.get_keys()
graph = self.from_repository.get_graph()
revs = list(graph.iter_topo_order(revs))
data_to_fetch = self.from_repository.item_keys_introduced_by(revs,
pb)
for knit_kind, file_id, revisions in data_to_fetch:
if knit_kind != phase:
phase = knit_kind
# Make a new progress bar for this phase
pb.finished()
pp.next_phase()
pb = bzrlib.ui.ui_factory.nested_progress_bar()
if knit_kind == "file":
self._fetch_weave_text(file_id, revisions)
elif knit_kind == "inventory":
# Before we process the inventory we generate the root
# texts (if necessary) so that the inventories references
# will be valid.
self._generate_root_texts(revs)
# NB: This currently reopens the inventory weave in source;
# using a full get_data_stream instead would avoid this.
self._fetch_inventory_weave(revs, pb)
elif knit_kind == "signatures":
# Nothing to do here; this will be taken care of when
# _fetch_revision_texts happens.
pass
elif knit_kind == "revisions":
self._fetch_revision_texts(revs, pb)
else:
raise AssertionError("Unknown knit kind %r" % knit_kind)
finally:
if pb is not None:
pb.finished()
self.count_copied += len(revs)
def _revids_to_fetch(self):
"""Determines the exact revisions needed from self.from_repository to
install self._last_revision in self.to_repository.
If no revisions need to be fetched, then this just returns None.
"""
mutter('fetch up to rev {%s}', self._last_revision)
if self._last_revision is NULL_REVISION:
# explicit limit of no revisions needed
return None
if (self._last_revision is not None and
self.to_repository.has_revision(self._last_revision)):
return None
try:
return self.to_repository.search_missing_revision_ids(
self.from_repository, self._last_revision,
find_ghosts=self.find_ghosts)
except errors.NoSuchRevision:
raise InstallFailed([self._last_revision])
def _fetch_weave_text(self, file_id, required_versions):
to_weave = self.to_weaves.get_weave_or_empty(file_id,
self.to_repository.get_transaction())
from_weave = self.from_weaves.get_weave(file_id,
self.from_repository.get_transaction())
# Fetch all the texts.
to_weave.insert_record_stream(from_weave.get_record_stream(
required_versions, 'topological', False))
def _fetch_inventory_weave(self, revs, pb):
pb.update("fetch inventory", 0, 2)
to_weave = self.to_repository.get_inventory_weave()
child_pb = bzrlib.ui.ui_factory.nested_progress_bar()
try:
# just merge, this is optimisable and its means we don't
# copy unreferenced data such as not-needed inventories.
pb.update("fetch inventory", 1, 3)
from_weave = self.from_repository.get_inventory_weave()
pb.update("fetch inventory", 2, 3)
# we fetch only the referenced inventories because we do not
# know for unselected inventories whether all their required
# texts are present in the other repository - it could be
# corrupt.
to_weave.insert_record_stream(from_weave.get_record_stream(revs,
'topological', False))
finally:
child_pb.finished()
def _generate_root_texts(self, revs):
"""This will be called by __fetch between fetching weave texts and
fetching the inventory weave.
Subclasses should override this if they need to generate root texts
after fetching weave texts.
"""
pass
class GenericRepoFetcher(RepoFetcher):
"""This is a generic repo to repo fetcher.
This makes minimal assumptions about repo layout and contents.
It triggers a reconciliation after fetching to ensure integrity.
"""
def _fetch_revision_texts(self, revs, pb):
"""Fetch revision object texts"""
to_txn = self.to_transaction = self.to_repository.get_transaction()
count = 0
total = len(revs)
to_store = self.to_repository._revision_store
for rev in revs:
pb.update('copying revisions', count, total)
try:
sig_text = self.from_repository.get_signature_text(rev)
to_store.add_revision_signature_text(rev, sig_text, to_txn)
except errors.NoSuchRevision:
# not signed.
pass
self._copy_revision(rev, to_txn)
count += 1
# fixup inventory if needed:
# this is expensive because we have no inverse index to current ghosts.
# but on local disk its a few seconds and sftp push is already insane.
# so we just-do-it.
# FIXME: repository should inform if this is needed.
self.to_repository.reconcile()
def _copy_revision(self, rev, to_txn):
to_store = self.to_repository._revision_store
to_store.add_revision(self.from_repository.get_revision(rev), to_txn)
class KnitRepoFetcher(RepoFetcher):
"""This is a knit format repository specific fetcher.
This differs from the GenericRepoFetcher by not doing a
reconciliation after copying, and using knit joining to
copy revision texts.
"""
def _fetch_revision_texts(self, revs, pb):
# may need to be a InterRevisionStore call here.
from_transaction = self.from_repository.get_transaction()
to_transaction = self.to_repository.get_transaction()
to_sf = self.to_repository._revision_store.get_signature_file(
to_transaction)
from_sf = self.from_repository._revision_store.get_signature_file(
from_transaction)
# A missing signature is just skipped.
to_sf.insert_record_stream(filter_absent(from_sf.get_record_stream(revs,
'unordered', False)))
self._fetch_just_revision_texts(revs, from_transaction, to_transaction)
def _fetch_just_revision_texts(self, version_ids, from_transaction,
to_transaction):
to_rf = self.to_repository._revision_store.get_revision_file(
to_transaction)
from_rf = self.from_repository._revision_store.get_revision_file(
from_transaction)
to_rf.insert_record_stream(from_rf.get_record_stream(version_ids,
'topological', False))
class Inter1and2Helper(object):
"""Helper for operations that convert data from model 1 and 2
This is for use by fetchers and converters.
"""
def __init__(self, source, target):
"""Constructor.
:param source: The repository data comes from
:param target: The repository data goes to
"""
self.source = source
self.target = target
def iter_rev_trees(self, revs):
"""Iterate through RevisionTrees efficiently.
Additionally, the inventory's revision_id is set if unset.
Trees are retrieved in batches of 100, and then yielded in the order
they were requested.
:param revs: A list of revision ids
"""
# In case that revs is not a list.
revs = list(revs)
while revs:
for tree in self.source.revision_trees(revs[:100]):
if tree.inventory.revision_id is None:
tree.inventory.revision_id = tree.get_revision_id()
yield tree
revs = revs[100:]
def _find_root_ids(self, revs, parent_map, graph):
revision_root = {}
planned_versions = {}
for tree in self.iter_rev_trees(revs):
revision_id = tree.inventory.root.revision
root_id = tree.get_root_id()
planned_versions.setdefault(root_id, []).append(revision_id)
revision_root[revision_id] = root_id
# Find out which parents we don't already know root ids for
parents = set()
for revision_parents in parent_map.itervalues():
parents.update(revision_parents)
parents.difference_update(revision_root.keys() + [NULL_REVISION])
# Limit to revisions present in the versionedfile
parents = graph.get_parent_map(parents).keys()
for tree in self.iter_rev_trees(parents):
root_id = tree.get_root_id()
revision_root[tree.get_revision_id()] = root_id
return revision_root, planned_versions
def generate_root_texts(self, revs):
"""Generate VersionedFiles for all root ids.
:param revs: the revisions to include
"""
to_store = self.target.weave_store
graph = self.source.get_graph()
parent_map = graph.get_parent_map(revs)
revision_root, planned_versions = self._find_root_ids(
revs, parent_map, graph)
for root_id, versions in planned_versions.iteritems():
versionedfile = to_store.get_weave_or_empty(root_id,
self.target.get_transaction())
parent_texts = {}
for revision_id in versions:
if revision_id in versionedfile:
continue
parents = parent_map[revision_id]
# We drop revision parents with different file-ids, because
# a version cannot have a version with another file-id as its
# parent.
# When a parent revision is a ghost, we guess that its root id
# was unchanged.
parents = tuple(p for p in parents if p != NULL_REVISION
and revision_root.get(p, root_id) == root_id)
result = versionedfile.add_lines_with_ghosts(
revision_id, parents, [], parent_texts)
parent_texts[revision_id] = result[2]
def regenerate_inventory(self, revs):
"""Generate a new inventory versionedfile in target, convertin data.
The inventory is retrieved from the source, (deserializing it), and
stored in the target (reserializing it in a different format).
:param revs: The revisions to include
"""
for tree in self.iter_rev_trees(revs):
parents = tree.get_parent_ids()
self.target.add_inventory(tree.get_revision_id(), tree.inventory,
parents)
def fetch_revisions(self, revision_ids):
for revision in self.source.get_revisions(revision_ids):
self.target.add_revision(revision.revision_id, revision)
class Model1toKnit2Fetcher(GenericRepoFetcher):
"""Fetch from a Model1 repository into a Knit2 repository
"""
def __init__(self, to_repository, from_repository, last_revision=None,
pb=None, find_ghosts=True):
self.helper = Inter1and2Helper(from_repository, to_repository)
GenericRepoFetcher.__init__(self, to_repository, from_repository,
last_revision, pb, find_ghosts)
def _generate_root_texts(self, revs):
self.helper.generate_root_texts(revs)
def _fetch_inventory_weave(self, revs, pb):
self.helper.regenerate_inventory(revs)
def _copy_revision(self, rev, to_txn):
self.helper.fetch_revisions([rev])
class Knit1to2Fetcher(KnitRepoFetcher):
"""Fetch from a Knit1 repository into a Knit2 repository"""
def __init__(self, to_repository, from_repository, last_revision=None,
pb=None, find_ghosts=True):
self.helper = Inter1and2Helper(from_repository, to_repository)
KnitRepoFetcher.__init__(self, to_repository, from_repository,
last_revision, pb, find_ghosts)
def _generate_root_texts(self, revs):
self.helper.generate_root_texts(revs)
def _fetch_inventory_weave(self, revs, pb):
self.helper.regenerate_inventory(revs)
def _fetch_just_revision_texts(self, version_ids, from_transaction,
to_transaction):
self.helper.fetch_revisions(version_ids)
class RemoteToOtherFetcher(GenericRepoFetcher):
def _fetch_everything_for_search(self, search, pp):
data_stream = self.from_repository.get_data_stream_for_search(search)
self.to_repository.insert_data_stream(data_stream)
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