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|
# Copyright (C) 2005, 2007 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 os
import re
import sys
import bzrlib
from bzrlib import (
bzrdir,
errors,
merge,
repository,
versionedfile,
)
from bzrlib.branch import Branch
from bzrlib.bzrdir import BzrDir
from bzrlib.repofmt import knitrepo
from bzrlib.tests import TestCaseWithTransport
from bzrlib.tests.http_utils import TestCaseWithWebserver
from bzrlib.tests.test_revision import make_branches
from bzrlib.trace import mutter
from bzrlib.upgrade import Convert
from bzrlib.workingtree import WorkingTree
# These tests are a bit old; please instead add new tests into
# interrepository_implementations/ so they'll run on all relevant
# combinations.
def has_revision(branch, revision_id):
return branch.repository.has_revision(revision_id)
def fetch_steps(self, br_a, br_b, writable_a):
"""A foreign test method for testing fetch locally and remotely."""
# TODO RBC 20060201 make this a repository test.
repo_b = br_b.repository
self.assertFalse(repo_b.has_revision(br_a.revision_history()[3]))
self.assertTrue(repo_b.has_revision(br_a.revision_history()[2]))
self.assertEquals(len(br_b.revision_history()), 7)
self.assertEquals(br_b.fetch(br_a, br_a.revision_history()[2])[0], 0)
# branch.fetch is not supposed to alter the revision history
self.assertEquals(len(br_b.revision_history()), 7)
self.assertFalse(repo_b.has_revision(br_a.revision_history()[3]))
# fetching the next revision up in sample data copies one revision
self.assertEquals(br_b.fetch(br_a, br_a.revision_history()[3])[0], 1)
self.assertTrue(repo_b.has_revision(br_a.revision_history()[3]))
self.assertFalse(has_revision(br_a, br_b.revision_history()[6]))
self.assertTrue(br_a.repository.has_revision(br_b.revision_history()[5]))
# When a non-branch ancestor is missing, it should be unlisted...
# as its not reference from the inventory weave.
br_b4 = self.make_branch('br_4')
count, failures = br_b4.fetch(br_b)
self.assertEqual(count, 7)
self.assertEqual(failures, [])
self.assertEqual(writable_a.fetch(br_b)[0], 1)
self.assertTrue(has_revision(br_a, br_b.revision_history()[3]))
self.assertTrue(has_revision(br_a, br_b.revision_history()[4]))
br_b2 = self.make_branch('br_b2')
self.assertEquals(br_b2.fetch(br_b)[0], 7)
self.assertTrue(has_revision(br_b2, br_b.revision_history()[4]))
self.assertTrue(has_revision(br_b2, br_a.revision_history()[2]))
self.assertFalse(has_revision(br_b2, br_a.revision_history()[3]))
br_a2 = self.make_branch('br_a2')
self.assertEquals(br_a2.fetch(br_a)[0], 9)
self.assertTrue(has_revision(br_a2, br_b.revision_history()[4]))
self.assertTrue(has_revision(br_a2, br_a.revision_history()[3]))
self.assertTrue(has_revision(br_a2, br_a.revision_history()[2]))
br_a3 = self.make_branch('br_a3')
# pulling a branch with no revisions grabs nothing, regardless of
# whats in the inventory.
self.assertEquals(br_a3.fetch(br_a2)[0], 0)
for revno in range(4):
self.assertFalse(
br_a3.repository.has_revision(br_a.revision_history()[revno]))
self.assertEqual(br_a3.fetch(br_a2, br_a.revision_history()[2])[0], 3)
# pull the 3 revisions introduced by a@u-0-3
fetched = br_a3.fetch(br_a2, br_a.revision_history()[3])[0]
self.assertEquals(fetched, 3, "fetched %d instead of 3" % fetched)
# InstallFailed should be raised if the branch is missing the revision
# that was requested.
self.assertRaises(errors.InstallFailed, br_a3.fetch, br_a2, 'pizza')
# TODO: Test trying to fetch from a branch that points to a revision not
# actually present in its repository. Not every branch format allows you
# to directly point to such revisions, so it's a bit complicated to
# construct. One way would be to uncommit and gc the revision, but not
# every branch supports that. -- mbp 20070814
#TODO: test that fetch correctly does reweaving when needed. RBC 20051008
# Note that this means - updating the weave when ghosts are filled in to
# add the right parents.
class TestFetch(TestCaseWithTransport):
def test_fetch(self):
#highest indices a: 5, b: 7
br_a, br_b = make_branches(self, format='dirstate-tags')
fetch_steps(self, br_a, br_b, br_a)
def test_fetch_self(self):
wt = self.make_branch_and_tree('br')
self.assertEqual(wt.branch.fetch(wt.branch), (0, []))
def test_fetch_root_knit(self):
"""Ensure that knit2.fetch() updates the root knit
This tests the case where the root has a new revision, but there are no
corresponding filename, parent, contents or other changes.
"""
knit1_format = bzrdir.BzrDirMetaFormat1()
knit1_format.repository_format = knitrepo.RepositoryFormatKnit1()
knit2_format = bzrdir.BzrDirMetaFormat1()
knit2_format.repository_format = knitrepo.RepositoryFormatKnit3()
# we start with a knit1 repository because that causes the
# root revision to change for each commit, even though the content,
# parent, name, and other attributes are unchanged.
tree = self.make_branch_and_tree('tree', knit1_format)
tree.set_root_id('tree-root')
tree.commit('rev1', rev_id='rev1')
tree.commit('rev2', rev_id='rev2')
# Now we convert it to a knit2 repository so that it has a root knit
Convert(tree.basedir, knit2_format)
tree = WorkingTree.open(tree.basedir)
branch = self.make_branch('branch', format=knit2_format)
branch.pull(tree.branch, stop_revision='rev1')
repo = branch.repository
repo.lock_read()
try:
# Make sure fetch retrieved only what we requested
self.assertEqual({('tree-root', 'rev1'):()},
repo.texts.get_parent_map(
[('tree-root', 'rev1'), ('tree-root', 'rev2')]))
finally:
repo.unlock()
branch.pull(tree.branch)
# Make sure that the next revision in the root knit was retrieved,
# even though the text, name, parent_id, etc., were unchanged.
repo.lock_read()
try:
# Make sure fetch retrieved only what we requested
self.assertEqual({('tree-root', 'rev2'):(('tree-root', 'rev1'),)},
repo.texts.get_parent_map([('tree-root', 'rev2')]))
finally:
repo.unlock()
def test_fetch_incompatible(self):
knit_tree = self.make_branch_and_tree('knit', format='knit')
knit3_tree = self.make_branch_and_tree('knit3',
format='dirstate-with-subtree')
knit3_tree.commit('blah')
e = self.assertRaises(errors.IncompatibleRepositories,
knit_tree.branch.fetch, knit3_tree.branch)
self.assertContainsRe(str(e),
r"(?m).*/knit.*\nis not compatible with\n.*/knit3/.*\n"
r"different rich-root support")
class TestMergeFetch(TestCaseWithTransport):
def test_merge_fetches_unrelated(self):
"""Merge brings across history from unrelated source"""
wt1 = self.make_branch_and_tree('br1')
br1 = wt1.branch
wt1.commit(message='rev 1-1', rev_id='1-1')
wt1.commit(message='rev 1-2', rev_id='1-2')
wt2 = self.make_branch_and_tree('br2')
br2 = wt2.branch
wt2.commit(message='rev 2-1', rev_id='2-1')
wt2.merge_from_branch(br1, from_revision='null:')
self._check_revs_present(br2)
def test_merge_fetches(self):
"""Merge brings across history from source"""
wt1 = self.make_branch_and_tree('br1')
br1 = wt1.branch
wt1.commit(message='rev 1-1', rev_id='1-1')
dir_2 = br1.bzrdir.sprout('br2')
br2 = dir_2.open_branch()
wt1.commit(message='rev 1-2', rev_id='1-2')
wt2 = dir_2.open_workingtree()
wt2.commit(message='rev 2-1', rev_id='2-1')
wt2.merge_from_branch(br1)
self._check_revs_present(br2)
def _check_revs_present(self, br2):
for rev_id in '1-1', '1-2', '2-1':
self.assertTrue(br2.repository.has_revision(rev_id))
rev = br2.repository.get_revision(rev_id)
self.assertEqual(rev.revision_id, rev_id)
self.assertTrue(br2.repository.get_inventory(rev_id))
class TestMergeFileHistory(TestCaseWithTransport):
def setUp(self):
super(TestMergeFileHistory, self).setUp()
wt1 = self.make_branch_and_tree('br1')
br1 = wt1.branch
self.build_tree_contents([('br1/file', 'original contents\n')])
wt1.add('file', 'this-file-id')
wt1.commit(message='rev 1-1', rev_id='1-1')
dir_2 = br1.bzrdir.sprout('br2')
br2 = dir_2.open_branch()
wt2 = dir_2.open_workingtree()
self.build_tree_contents([('br1/file', 'original from 1\n')])
wt1.commit(message='rev 1-2', rev_id='1-2')
self.build_tree_contents([('br1/file', 'agreement\n')])
wt1.commit(message='rev 1-3', rev_id='1-3')
self.build_tree_contents([('br2/file', 'contents in 2\n')])
wt2.commit(message='rev 2-1', rev_id='2-1')
self.build_tree_contents([('br2/file', 'agreement\n')])
wt2.commit(message='rev 2-2', rev_id='2-2')
def test_merge_fetches_file_history(self):
"""Merge brings across file histories"""
br2 = Branch.open('br2')
br1 = Branch.open('br1')
wt2 = WorkingTree.open('br2').merge_from_branch(br1)
br2.lock_read()
self.addCleanup(br2.unlock)
for rev_id, text in [('1-2', 'original from 1\n'),
('1-3', 'agreement\n'),
('2-1', 'contents in 2\n'),
('2-2', 'agreement\n')]:
self.assertEqualDiff(
br2.repository.revision_tree(
rev_id).get_file_text('this-file-id'), text)
class TestHttpFetch(TestCaseWithWebserver):
# FIXME RBC 20060124 this really isn't web specific, perhaps an
# instrumented readonly transport? Can we do an instrumented
# adapter and use self.get_readonly_url ?
def test_fetch(self):
#highest indices a: 5, b: 7
br_a, br_b = make_branches(self)
br_rem_a = Branch.open(self.get_readonly_url('branch1'))
fetch_steps(self, br_rem_a, br_b, br_a)
def _count_log_matches(self, target, logs):
"""Count the number of times the target file pattern was fetched in an http log"""
get_succeeds_re = re.compile(
'.*"GET .*%s HTTP/1.1" 20[06] - "-" "bzr/%s' %
( target, bzrlib.__version__))
c = 0
for line in logs:
if get_succeeds_re.match(line):
c += 1
return c
def test_weaves_are_retrieved_once(self):
self.build_tree(("source/", "source/file", "target/"))
# This test depends on knit dasta storage.
wt = self.make_branch_and_tree('source', format='dirstate-tags')
branch = wt.branch
wt.add(["file"], ["id"])
wt.commit("added file")
open("source/file", 'w').write("blah\n")
wt.commit("changed file")
target = BzrDir.create_branch_and_repo("target/")
source = Branch.open(self.get_readonly_url("source/"))
self.assertEqual(target.fetch(source), (2, []))
# this is the path to the literal file. As format changes
# occur it needs to be updated. FIXME: ask the store for the
# path.
self.log("web server logs are:")
http_logs = self.get_readonly_server().logs
self.log('\n'.join(http_logs))
# unfortunately this log entry is branch format specific. We could
# factor out the 'what files does this format use' to a method on the
# repository, which would let us to this generically. RBC 20060419
# RBC 20080408: Or perhaps we can assert that no files are fully read
# twice?
self.assertEqual(1, self._count_log_matches('/ce/id.kndx', http_logs))
self.assertEqual(1, self._count_log_matches('/ce/id.knit', http_logs))
self.assertEqual(1, self._count_log_matches('inventory.kndx', http_logs))
# this r-h check test will prevent regressions, but it currently already
# passes, before the patch to cache-rh is applied :[
self.assertTrue(1 >= self._count_log_matches('revision-history',
http_logs))
self.assertTrue(1 >= self._count_log_matches('last-revision',
http_logs))
# FIXME naughty poking in there.
self.get_readonly_server().logs = []
# check there is nothing more to fetch. We take care to re-use the
# existing transport so that the request logs we're about to examine
# aren't cluttered with redundant probes for a smart server.
# XXX: Perhaps this further parameterisation: test http with smart
# server, and test http without smart server?
source = Branch.open(
self.get_readonly_url("source/"),
possible_transports=[source.bzrdir.root_transport])
self.assertEqual(target.fetch(source), (0, []))
# should make just two requests
http_logs = self.get_readonly_server().logs
self.log("web server logs are:")
self.log('\n'.join(http_logs))
self.assertEqual(1, self._count_log_matches('branch-format', http_logs))
self.assertEqual(1, self._count_log_matches('branch/format', http_logs))
self.assertEqual(1, self._count_log_matches('repository/format',
http_logs))
self.assertTrue(1 >= self._count_log_matches('revision-history',
http_logs))
self.assertTrue(1 >= self._count_log_matches('last-revision',
http_logs))
self.assertEqual(4, len(http_logs))
class TestKnitToPackFetch(TestCaseWithTransport):
def find_get_record_stream(self, calls):
"""In a list of calls, find 'get_record_stream' calls.
This also ensures that there is only one get_record_stream call.
"""
get_record_call = None
for call in calls:
if call[0] == 'get_record_stream':
self.assertIs(None, get_record_call,
"there should only be one call to"
" get_record_stream")
get_record_call = call
self.assertIsNot(None, get_record_call,
"there should be exactly one call to "
" get_record_stream")
return get_record_call
def test_fetch_with_deltas_no_delta_closure(self):
tree = self.make_branch_and_tree('source', format='dirstate')
target = self.make_repository('target', format='pack-0.92')
self.build_tree(['source/file'])
tree.set_root_id('root-id')
tree.add('file', 'file-id')
tree.commit('one', rev_id='rev-one')
source = tree.branch.repository
source.texts = versionedfile.RecordingVersionedFilesDecorator(
source.texts)
source.signatures = versionedfile.RecordingVersionedFilesDecorator(
source.signatures)
source.revisions = versionedfile.RecordingVersionedFilesDecorator(
source.revisions)
source.inventories = versionedfile.RecordingVersionedFilesDecorator(
source.inventories)
# precondition
self.assertTrue(target._fetch_uses_deltas)
target.fetch(source, revision_id='rev-one')
self.assertEqual(('get_record_stream', [('file-id', 'rev-one')],
target._fetch_order, False),
self.find_get_record_stream(source.texts.calls))
self.assertEqual(('get_record_stream', [('rev-one',)],
target._fetch_order, False),
self.find_get_record_stream(source.inventories.calls))
# Because of bugs in the old fetch code, revisions could accidentally
# have deltas present in knits. However, it was never intended, so we
# always for include_delta_closure=True, to make sure we get fulltexts.
# bug #261339
self.assertEqual(('get_record_stream', [('rev-one',)],
target._fetch_order, True),
self.find_get_record_stream(source.revisions.calls))
# XXX: Signatures is special, and slightly broken. The
# standard item_keys_introduced_by actually does a lookup for every
# signature to see if it exists, rather than waiting to do them all at
# once at the end. The fetch code then does an all-at-once and just
# allows for some of them to be missing.
# So we know there will be extra calls, but the *last* one is the one
# we care about.
signature_calls = source.signatures.calls[-1:]
self.assertEqual(('get_record_stream', [('rev-one',)],
target._fetch_order, True),
self.find_get_record_stream(signature_calls))
def test_fetch_no_deltas_with_delta_closure(self):
tree = self.make_branch_and_tree('source', format='dirstate')
target = self.make_repository('target', format='pack-0.92')
self.build_tree(['source/file'])
tree.set_root_id('root-id')
tree.add('file', 'file-id')
tree.commit('one', rev_id='rev-one')
source = tree.branch.repository
source.texts = versionedfile.RecordingVersionedFilesDecorator(
source.texts)
source.signatures = versionedfile.RecordingVersionedFilesDecorator(
source.signatures)
source.revisions = versionedfile.RecordingVersionedFilesDecorator(
source.revisions)
source.inventories = versionedfile.RecordingVersionedFilesDecorator(
source.inventories)
target._fetch_uses_deltas = False
target.fetch(source, revision_id='rev-one')
self.assertEqual(('get_record_stream', [('file-id', 'rev-one')],
target._fetch_order, True),
self.find_get_record_stream(source.texts.calls))
self.assertEqual(('get_record_stream', [('rev-one',)],
target._fetch_order, True),
self.find_get_record_stream(source.inventories.calls))
self.assertEqual(('get_record_stream', [('rev-one',)],
target._fetch_order, True),
self.find_get_record_stream(source.revisions.calls))
# XXX: Signatures is special, and slightly broken. The
# standard item_keys_introduced_by actually does a lookup for every
# signature to see if it exists, rather than waiting to do them all at
# once at the end. The fetch code then does an all-at-once and just
# allows for some of them to be missing.
# So we know there will be extra calls, but the *last* one is the one
# we care about.
signature_calls = source.signatures.calls[-1:]
self.assertEqual(('get_record_stream', [('rev-one',)],
target._fetch_order, True),
self.find_get_record_stream(signature_calls))
class Test1To2Fetch(TestCaseWithTransport):
"""Tests for Model1To2 failure modes"""
def make_tree_and_repo(self):
self.tree = self.make_branch_and_tree('tree', format='pack-0.92')
self.repo = self.make_repository('rich-repo', format='rich-root-pack')
self.repo.lock_write()
self.addCleanup(self.repo.unlock)
def do_fetch_order_test(self, first, second):
"""Test that fetch works no matter what the set order of revision is.
This test depends on the order of items in a set, which is
implementation-dependant, so we test A, B and then B, A.
"""
self.make_tree_and_repo()
self.tree.commit('Commit 1', rev_id=first)
self.tree.commit('Commit 2', rev_id=second)
self.repo.fetch(self.tree.branch.repository, second)
def test_fetch_order_AB(self):
"""See do_fetch_order_test"""
self.do_fetch_order_test('A', 'B')
def test_fetch_order_BA(self):
"""See do_fetch_order_test"""
self.do_fetch_order_test('B', 'A')
def get_parents(self, file_id, revision_id):
self.repo.lock_read()
try:
parent_map = self.repo.texts.get_parent_map([(file_id, revision_id)])
return parent_map[(file_id, revision_id)]
finally:
self.repo.unlock()
def test_fetch_ghosts(self):
self.make_tree_and_repo()
self.tree.commit('first commit', rev_id='left-parent')
self.tree.add_parent_tree_id('ghost-parent')
fork = self.tree.bzrdir.sprout('fork', 'null:').open_workingtree()
fork.commit('not a ghost', rev_id='not-ghost-parent')
self.tree.branch.repository.fetch(fork.branch.repository,
'not-ghost-parent')
self.tree.add_parent_tree_id('not-ghost-parent')
self.tree.commit('second commit', rev_id='second-id')
self.repo.fetch(self.tree.branch.repository, 'second-id')
root_id = self.tree.get_root_id()
self.assertEqual(
((root_id, 'left-parent'), (root_id, 'ghost-parent'),
(root_id, 'not-ghost-parent')),
self.get_parents(root_id, 'second-id'))
def make_two_commits(self, change_root, fetch_twice):
self.make_tree_and_repo()
self.tree.commit('first commit', rev_id='first-id')
if change_root:
self.tree.set_root_id('unique-id')
self.tree.commit('second commit', rev_id='second-id')
if fetch_twice:
self.repo.fetch(self.tree.branch.repository, 'first-id')
self.repo.fetch(self.tree.branch.repository, 'second-id')
def test_fetch_changed_root(self):
self.make_two_commits(change_root=True, fetch_twice=False)
self.assertEqual((), self.get_parents('unique-id', 'second-id'))
def test_two_fetch_changed_root(self):
self.make_two_commits(change_root=True, fetch_twice=True)
self.assertEqual((), self.get_parents('unique-id', 'second-id'))
def test_two_fetches(self):
self.make_two_commits(change_root=False, fetch_twice=True)
self.assertEqual((('TREE_ROOT', 'first-id'),),
self.get_parents('TREE_ROOT', 'second-id'))
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