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|
# Copyright (C) 2005, 2006 Canonical Ltd
# Authors: Robert Collins <robert.collins@canonical.com>
#
# 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""Tests for WorkingTreeFormat4"""
import os
import time
from bzrlib import (
bzrdir,
dirstate,
errors,
inventory,
osutils,
workingtree_4,
)
from bzrlib.lockdir import LockDir
from bzrlib.tests import TestCaseWithTransport, TestSkipped
from bzrlib.tree import InterTree
class TestWorkingTreeFormat4(TestCaseWithTransport):
"""Tests specific to WorkingTreeFormat4."""
def test_disk_layout(self):
control = bzrdir.BzrDirMetaFormat1().initialize(self.get_url())
control.create_repository()
control.create_branch()
tree = workingtree_4.WorkingTreeFormat4().initialize(control)
# we want:
# format 'Bazaar Working Tree format 4'
# stat-cache = ??
t = control.get_workingtree_transport(None)
self.assertEqualDiff('Bazaar Working Tree Format 4 (bzr 0.15)\n',
t.get('format').read())
self.assertFalse(t.has('inventory.basis'))
# no last-revision file means 'None' or 'NULLREVISION'
self.assertFalse(t.has('last-revision'))
state = dirstate.DirState.on_file(t.local_abspath('dirstate'))
state.lock_read()
try:
self.assertEqual([], state.get_parent_ids())
finally:
state.unlock()
def test_uses_lockdir(self):
"""WorkingTreeFormat4 uses its own LockDir:
- lock is a directory
- when the WorkingTree is locked, LockDir can see that
"""
# this test could be factored into a subclass of tests common to both
# format 3 and 4, but for now its not much of an issue as there is only
# one in common.
t = self.get_transport()
tree = self.make_workingtree()
self.assertIsDirectory('.bzr', t)
self.assertIsDirectory('.bzr/checkout', t)
self.assertIsDirectory('.bzr/checkout/lock', t)
our_lock = LockDir(t, '.bzr/checkout/lock')
self.assertEquals(our_lock.peek(), None)
tree.lock_write()
self.assertTrue(our_lock.peek())
tree.unlock()
self.assertEquals(our_lock.peek(), None)
def make_workingtree(self, relpath=''):
url = self.get_url(relpath)
if relpath:
self.build_tree([relpath + '/'])
dir = bzrdir.BzrDirMetaFormat1().initialize(url)
repo = dir.create_repository()
branch = dir.create_branch()
try:
return workingtree_4.WorkingTreeFormat4().initialize(dir)
except errors.NotLocalUrl:
raise TestSkipped('Not a local URL')
def test_dirstate_stores_all_parent_inventories(self):
tree = self.make_workingtree()
# We're going to build in tree a working tree
# with three parent trees, with some files in common.
# We really don't want to do commit or merge in the new dirstate-based
# tree, because that might not work yet. So instead we build
# revisions elsewhere and pull them across, doing by hand part of the
# work that merge would do.
subtree = self.make_branch_and_tree('subdir')
# writelock the tree so its repository doesn't get readlocked by
# the revision tree locks. This works around the bug where we dont
# permit lock upgrading.
subtree.lock_write()
self.addCleanup(subtree.unlock)
self.build_tree(['subdir/file-a',])
subtree.add(['file-a'], ['id-a'])
rev1 = subtree.commit('commit in subdir')
subtree2 = subtree.bzrdir.sprout('subdir2').open_workingtree()
self.build_tree(['subdir2/file-b'])
subtree2.add(['file-b'], ['id-b'])
rev2 = subtree2.commit('commit in subdir2')
subtree.flush()
subtree3 = subtree.bzrdir.sprout('subdir3').open_workingtree()
rev3 = subtree3.commit('merge from subdir2')
repo = tree.branch.repository
repo.fetch(subtree.branch.repository, rev1)
repo.fetch(subtree2.branch.repository, rev2)
repo.fetch(subtree3.branch.repository, rev3)
# will also pull the others...
# create repository based revision trees
rev1_revtree = repo.revision_tree(rev1)
rev2_revtree = repo.revision_tree(rev2)
rev3_revtree = repo.revision_tree(rev3)
# tree doesn't contain a text merge yet but we'll just
# set the parents as if a merge had taken place.
# this should cause the tree data to be folded into the
# dirstate.
tree.set_parent_trees([
(rev1, rev1_revtree),
(rev2, rev2_revtree),
(rev3, rev3_revtree), ])
# create tree-sourced revision trees
rev1_tree = tree.revision_tree(rev1)
rev1_tree.lock_read()
self.addCleanup(rev1_tree.unlock)
rev2_tree = tree.revision_tree(rev2)
rev2_tree.lock_read()
self.addCleanup(rev2_tree.unlock)
rev3_tree = tree.revision_tree(rev3)
rev3_tree.lock_read()
self.addCleanup(rev3_tree.unlock)
# now we should be able to get them back out
self.assertTreesEqual(rev1_revtree, rev1_tree)
self.assertTreesEqual(rev2_revtree, rev2_tree)
self.assertTreesEqual(rev3_revtree, rev3_tree)
def test_dirstate_doesnt_read_parents_from_repo_when_setting(self):
"""Setting parent trees on a dirstate working tree takes
the trees it's given and doesn't need to read them from the
repository.
"""
tree = self.make_workingtree()
subtree = self.make_branch_and_tree('subdir')
rev1 = subtree.commit('commit in subdir')
rev1_tree = subtree.basis_tree()
rev1_tree.lock_read()
self.addCleanup(rev1_tree.unlock)
tree.branch.pull(subtree.branch)
# break the repository's legs to make sure it only uses the trees
# it's given; any calls to forbidden methods will raise an
# AssertionError
repo = tree.branch.repository
repo.get_revision = self.fail
repo.get_inventory = self.fail
repo.get_inventory_xml = self.fail
# try to set the parent trees.
tree.set_parent_trees([(rev1, rev1_tree)])
def test_dirstate_doesnt_read_from_repo_when_returning_cache_tree(self):
"""Getting parent trees from a dirstate tree does not read from the
repos inventory store. This is an important part of the dirstate
performance optimisation work.
"""
tree = self.make_workingtree()
subtree = self.make_branch_and_tree('subdir')
# writelock the tree so its repository doesn't get readlocked by
# the revision tree locks. This works around the bug where we dont
# permit lock upgrading.
subtree.lock_write()
self.addCleanup(subtree.unlock)
rev1 = subtree.commit('commit in subdir')
rev1_tree = subtree.basis_tree()
rev1_tree.lock_read()
rev1_tree.inventory
self.addCleanup(rev1_tree.unlock)
rev2 = subtree.commit('second commit in subdir', allow_pointless=True)
rev2_tree = subtree.basis_tree()
rev2_tree.lock_read()
rev2_tree.inventory
self.addCleanup(rev2_tree.unlock)
tree.branch.pull(subtree.branch)
# break the repository's legs to make sure it only uses the trees
# it's given; any calls to forbidden methods will raise an
# AssertionError
repo = tree.branch.repository
# dont uncomment this: the revision object must be accessed to
# answer 'get_parent_ids' for the revision tree- dirstate does not
# cache the parents of a parent tree at this point.
#repo.get_revision = self.fail
repo.get_inventory = self.fail
repo.get_inventory_xml = self.fail
# set the parent trees.
tree.set_parent_trees([(rev1, rev1_tree), (rev2, rev2_tree)])
# read the first tree
result_rev1_tree = tree.revision_tree(rev1)
# read the second
result_rev2_tree = tree.revision_tree(rev2)
# compare - there should be no differences between the handed and
# returned trees
self.assertTreesEqual(rev1_tree, result_rev1_tree)
self.assertTreesEqual(rev2_tree, result_rev2_tree)
def test_dirstate_doesnt_cache_non_parent_trees(self):
"""Getting parent trees from a dirstate tree does not read from the
repos inventory store. This is an important part of the dirstate
performance optimisation work.
"""
tree = self.make_workingtree()
# make a tree that we can try for, which is able to be returned but
# must not be
subtree = self.make_branch_and_tree('subdir')
rev1 = subtree.commit('commit in subdir')
tree.branch.pull(subtree.branch)
# check it fails
self.assertRaises(errors.NoSuchRevision, tree.revision_tree, rev1)
def test_no_dirstate_outside_lock(self):
# temporary test until the code is mature enough to test from outside.
"""Getting a dirstate object fails if there is no lock."""
def lock_and_call_current_dirstate(tree, lock_method):
getattr(tree, lock_method)()
tree.current_dirstate()
tree.unlock()
tree = self.make_workingtree()
self.assertRaises(errors.ObjectNotLocked, tree.current_dirstate)
lock_and_call_current_dirstate(tree, 'lock_read')
self.assertRaises(errors.ObjectNotLocked, tree.current_dirstate)
lock_and_call_current_dirstate(tree, 'lock_write')
self.assertRaises(errors.ObjectNotLocked, tree.current_dirstate)
lock_and_call_current_dirstate(tree, 'lock_tree_write')
self.assertRaises(errors.ObjectNotLocked, tree.current_dirstate)
def test_new_dirstate_on_new_lock(self):
# until we have detection for when a dirstate can be reused, we
# want to reparse dirstate on every new lock.
known_dirstates = set()
def lock_and_compare_all_current_dirstate(tree, lock_method):
getattr(tree, lock_method)()
state = tree.current_dirstate()
self.assertFalse(state in known_dirstates)
known_dirstates.add(state)
tree.unlock()
tree = self.make_workingtree()
# lock twice with each type to prevent silly per-lock-type bugs.
# each lock and compare looks for a unique state object.
lock_and_compare_all_current_dirstate(tree, 'lock_read')
lock_and_compare_all_current_dirstate(tree, 'lock_read')
lock_and_compare_all_current_dirstate(tree, 'lock_tree_write')
lock_and_compare_all_current_dirstate(tree, 'lock_tree_write')
lock_and_compare_all_current_dirstate(tree, 'lock_write')
lock_and_compare_all_current_dirstate(tree, 'lock_write')
def test_constructing_invalid_interdirstate_raises(self):
tree = self.make_workingtree()
rev_id = tree.commit('first post')
rev_id2 = tree.commit('second post')
rev_tree = tree.branch.repository.revision_tree(rev_id)
# Exception is not a great thing to raise, but this test is
# very short, and code is used to sanity check other tests, so
# a full error object is YAGNI.
self.assertRaises(
Exception, workingtree_4.InterDirStateTree, rev_tree, tree)
self.assertRaises(
Exception, workingtree_4.InterDirStateTree, tree, rev_tree)
def test_revtree_to_revtree_not_interdirstate(self):
# we should not get a dirstate optimiser for two repository sourced
# revtrees. we can't prove a negative, so we dont do exhaustive tests
# of all formats; though that could be written in the future it doesn't
# seem well worth it.
tree = self.make_workingtree()
rev_id = tree.commit('first post')
rev_id2 = tree.commit('second post')
rev_tree = tree.branch.repository.revision_tree(rev_id)
rev_tree2 = tree.branch.repository.revision_tree(rev_id2)
optimiser = InterTree.get(rev_tree, rev_tree2)
self.assertIsInstance(optimiser, InterTree)
self.assertFalse(isinstance(optimiser, workingtree_4.InterDirStateTree))
optimiser = InterTree.get(rev_tree2, rev_tree)
self.assertIsInstance(optimiser, InterTree)
self.assertFalse(isinstance(optimiser, workingtree_4.InterDirStateTree))
def test_revtree_not_in_dirstate_to_dirstate_not_interdirstate(self):
# we should not get a dirstate optimiser when the revision id for of
# the source is not in the dirstate of the target.
tree = self.make_workingtree()
rev_id = tree.commit('first post')
rev_id2 = tree.commit('second post')
rev_tree = tree.branch.repository.revision_tree(rev_id)
tree.lock_read()
optimiser = InterTree.get(rev_tree, tree)
self.assertIsInstance(optimiser, InterTree)
self.assertFalse(isinstance(optimiser, workingtree_4.InterDirStateTree))
optimiser = InterTree.get(tree, rev_tree)
self.assertIsInstance(optimiser, InterTree)
self.assertFalse(isinstance(optimiser, workingtree_4.InterDirStateTree))
tree.unlock()
def test_empty_basis_to_dirstate_tree(self):
# we should get a InterDirStateTree for doing
# 'changes_from' from the first basis dirstate revision tree to a
# WorkingTree4.
tree = self.make_workingtree()
tree.lock_read()
basis_tree = tree.basis_tree()
basis_tree.lock_read()
optimiser = InterTree.get(basis_tree, tree)
tree.unlock()
basis_tree.unlock()
self.assertIsInstance(optimiser, workingtree_4.InterDirStateTree)
def test_nonempty_basis_to_dirstate_tree(self):
# we should get a InterDirStateTree for doing
# 'changes_from' from a non-null basis dirstate revision tree to a
# WorkingTree4.
tree = self.make_workingtree()
tree.commit('first post')
tree.lock_read()
basis_tree = tree.basis_tree()
basis_tree.lock_read()
optimiser = InterTree.get(basis_tree, tree)
tree.unlock()
basis_tree.unlock()
self.assertIsInstance(optimiser, workingtree_4.InterDirStateTree)
def test_empty_basis_revtree_to_dirstate_tree(self):
# we should get a InterDirStateTree for doing
# 'changes_from' from an empty repository based rev tree to a
# WorkingTree4.
tree = self.make_workingtree()
tree.lock_read()
basis_tree = tree.branch.repository.revision_tree(tree.last_revision())
basis_tree.lock_read()
optimiser = InterTree.get(basis_tree, tree)
tree.unlock()
basis_tree.unlock()
self.assertIsInstance(optimiser, workingtree_4.InterDirStateTree)
def test_nonempty_basis_revtree_to_dirstate_tree(self):
# we should get a InterDirStateTree for doing
# 'changes_from' from a non-null repository based rev tree to a
# WorkingTree4.
tree = self.make_workingtree()
tree.commit('first post')
tree.lock_read()
basis_tree = tree.branch.repository.revision_tree(tree.last_revision())
basis_tree.lock_read()
optimiser = InterTree.get(basis_tree, tree)
tree.unlock()
basis_tree.unlock()
self.assertIsInstance(optimiser, workingtree_4.InterDirStateTree)
def test_tree_to_basis_in_other_tree(self):
# we should get a InterDirStateTree when
# the source revid is in the dirstate object of the target and
# the dirstates are different. This is largely covered by testing
# with repository revtrees, so is just for extra confidence.
tree = self.make_workingtree('a')
tree.commit('first post')
tree2 = self.make_workingtree('b')
tree2.pull(tree.branch)
basis_tree = tree.basis_tree()
tree2.lock_read()
basis_tree.lock_read()
optimiser = InterTree.get(basis_tree, tree2)
tree2.unlock()
basis_tree.unlock()
self.assertIsInstance(optimiser, workingtree_4.InterDirStateTree)
def test_merged_revtree_to_tree(self):
# we should get a InterDirStateTree when
# the source tree is a merged tree present in the dirstate of target.
tree = self.make_workingtree('a')
tree.commit('first post')
tree.commit('tree 1 commit 2')
tree2 = self.make_workingtree('b')
tree2.pull(tree.branch)
tree2.commit('tree 2 commit 2')
tree.merge_from_branch(tree2.branch)
second_parent_tree = tree.revision_tree(tree.get_parent_ids()[1])
second_parent_tree.lock_read()
tree.lock_read()
optimiser = InterTree.get(second_parent_tree, tree)
tree.unlock()
second_parent_tree.unlock()
self.assertIsInstance(optimiser, workingtree_4.InterDirStateTree)
def test_id2path(self):
tree = self.make_workingtree('tree')
self.build_tree(['tree/a', 'tree/b'])
tree.add(['a'], ['a-id'])
self.assertEqual(u'a', tree.id2path('a-id'))
self.assertRaises(errors.NoSuchId, tree.id2path, 'a')
tree.commit('a')
tree.add(['b'], ['b-id'])
try:
new_path = u'b\u03bcrry'
tree.rename_one('a', new_path)
except UnicodeEncodeError:
# support running the test on non-unicode platforms
new_path = 'c'
tree.rename_one('a', new_path)
self.assertEqual(new_path, tree.id2path('a-id'))
tree.commit(u'b\xb5rry')
tree.unversion(['a-id'])
self.assertRaises(errors.NoSuchId, tree.id2path, 'a-id')
self.assertEqual('b', tree.id2path('b-id'))
self.assertRaises(errors.NoSuchId, tree.id2path, 'c-id')
def test_unique_root_id_per_tree(self):
# each time you initialize a new tree, it gets a different root id
format_name = 'dirstate-with-subtree'
tree1 = self.make_branch_and_tree('tree1',
format=format_name)
tree2 = self.make_branch_and_tree('tree2',
format=format_name)
self.assertNotEqual(tree1.get_root_id(), tree2.get_root_id())
# when you branch, it inherits the same root id
rev1 = tree1.commit('first post')
tree3 = tree1.bzrdir.sprout('tree3').open_workingtree()
self.assertEqual(tree3.get_root_id(), tree1.get_root_id())
def test_set_root_id(self):
# similar to some code that fails in the dirstate-plus-subtree branch
# -- setting the root id while adding a parent seems to scramble the
# dirstate invariants. -- mbp 20070303
def validate():
wt.lock_read()
try:
wt.current_dirstate()._validate()
finally:
wt.unlock()
wt = self.make_workingtree('tree')
wt.set_root_id('TREE-ROOTID')
validate()
wt.commit('somenthing')
validate()
# now switch and commit again
wt.set_root_id('tree-rootid')
validate()
wt.commit('again')
validate()
def test_default_root_id(self):
tree = self.make_branch_and_tree('tag', format='dirstate-tags')
self.assertEqual(inventory.ROOT_ID, tree.get_root_id())
tree = self.make_branch_and_tree('subtree',
format='dirstate-with-subtree')
self.assertNotEqual(inventory.ROOT_ID, tree.get_root_id())
def test_non_subtree_with_nested_trees(self):
# prior to dirstate, st/diff/commit ignored nested trees.
# dirstate, as opposed to dirstate-with-subtree, should
# behave the same way.
tree = self.make_branch_and_tree('.', format='dirstate')
self.assertFalse(tree.supports_tree_reference())
self.build_tree(['dir/'])
# for testing easily.
tree.set_root_id('root')
tree.add(['dir'], ['dir-id'])
subtree = self.make_branch_and_tree('dir')
# the most primitive operation: kind
self.assertEqual('directory', tree.kind('dir-id'))
# a diff against the basis should give us a directory and the root (as
# the root is new too).
tree.lock_read()
expected = [('dir-id',
(None, u'dir'),
True,
(False, True),
(None, 'root'),
(None, u'dir'),
(None, 'directory'),
(None, False)),
('root', (None, u''), True, (False, True), (None, None),
(None, u''), (None, 'directory'), (None, 0))]
self.assertEqual(expected, list(tree.iter_changes(tree.basis_tree(),
specific_files=['dir'])))
tree.unlock()
# do a commit, we want to trigger the dirstate fast-path too
tree.commit('first post')
# change the path for the subdir, which will trigger getting all
# its data:
os.rename('dir', 'also-dir')
# now the diff will use the fast path
tree.lock_read()
expected = [('dir-id',
(u'dir', u'dir'),
True,
(True, True),
('root', 'root'),
('dir', 'dir'),
('directory', None),
(False, False))]
self.assertEqual(expected, list(tree.iter_changes(tree.basis_tree())))
tree.unlock()
def test_with_subtree_supports_tree_references(self):
# dirstate-with-subtree should support tree-references.
tree = self.make_branch_and_tree('.', format='dirstate-with-subtree')
self.assertTrue(tree.supports_tree_reference())
# having checked this is on, the tree interface, and intertree
# interface tests, will proceed to test the subtree support of
# workingtree_4.
def test_iter_changes_ignores_unversioned_dirs(self):
"""iter_changes should not descend into unversioned directories."""
tree = self.make_branch_and_tree('.', format='dirstate')
# We have an unversioned directory at the root, a versioned one with
# other versioned files and an unversioned directory, and another
# versioned dir with nothing but an unversioned directory.
self.build_tree(['unversioned/',
'unversioned/a',
'unversioned/b/',
'versioned/',
'versioned/unversioned/',
'versioned/unversioned/a',
'versioned/unversioned/b/',
'versioned2/',
'versioned2/a',
'versioned2/unversioned/',
'versioned2/unversioned/a',
'versioned2/unversioned/b/',
])
tree.add(['versioned', 'versioned2', 'versioned2/a'])
tree.commit('one', rev_id='rev-1')
# Trap osutils._walkdirs_utf8 to spy on what dirs have been accessed.
returned = []
orig_walkdirs = osutils._walkdirs_utf8
def reset():
osutils._walkdirs_utf8 = orig_walkdirs
self.addCleanup(reset)
def walkdirs_spy(*args, **kwargs):
for val in orig_walkdirs(*args, **kwargs):
returned.append(val[0][0])
yield val
osutils._walkdirs_utf8 = walkdirs_spy
basis = tree.basis_tree()
tree.lock_read()
self.addCleanup(tree.unlock)
basis.lock_read()
self.addCleanup(basis.unlock)
changes = [c[1] for c in
tree.iter_changes(basis, want_unversioned=True)]
self.assertEqual([(None, 'unversioned'),
(None, 'versioned/unversioned'),
(None, 'versioned2/unversioned'),
], changes)
self.assertEqual(['', 'versioned', 'versioned2'], returned)
del returned[:] # reset
changes = [c[1] for c in tree.iter_changes(basis)]
self.assertEqual([], changes)
self.assertEqual(['', 'versioned', 'versioned2'], returned)
def test_iter_changes_unversioned_error(self):
""" Check if a PathsNotVersionedError is correctly raised and the
paths list contains all unversioned entries only.
"""
tree = self.make_branch_and_tree('tree')
self.build_tree_contents([('tree/bar', '')])
tree.add(['bar'], ['bar-id'])
tree.lock_read()
self.addCleanup(tree.unlock)
tree_iter_changes = lambda files: [
c for c in tree.iter_changes(tree.basis_tree(), specific_files=files,
require_versioned=True)
]
e = self.assertRaises(errors.PathsNotVersionedError,
tree_iter_changes, ['bar', 'foo'])
self.assertEqual(e.paths, ['foo'])
def get_tree_with_cachable_file_foo(self):
tree = self.make_branch_and_tree('.')
self.build_tree(['foo'])
tree.add(['foo'], ['foo-id'])
# a 4 second old timestamp is always hashable - sucks to delay
# the test suite, but not testing this is worse.
time.sleep(4)
return tree
def test_commit_updates_hash_cache(self):
tree = self.get_tree_with_cachable_file_foo()
revid = tree.commit('a commit')
# tree's dirstate should now have a valid stat entry for foo.
tree.lock_read()
self.addCleanup(tree.unlock)
entry = tree._get_entry(path='foo')
expected_sha1 = osutils.sha_file_by_name('foo')
self.assertEqual(expected_sha1, entry[1][0][1])
def test_observed_sha1_cachable(self):
tree = self.get_tree_with_cachable_file_foo()
expected_sha1 = osutils.sha_file_by_name('foo')
statvalue = os.lstat("foo")
tree.lock_write()
try:
tree._observed_sha1("foo-id", "foo", (expected_sha1, statvalue))
self.assertEqual(expected_sha1,
tree._get_entry(path="foo")[1][0][1])
finally:
tree.unlock()
tree = tree.bzrdir.open_workingtree()
tree.lock_read()
self.addCleanup(tree.unlock)
self.assertEqual(expected_sha1, tree._get_entry(path="foo")[1][0][1])
def test_observed_sha1_new_file(self):
tree = self.make_branch_and_tree('.')
self.build_tree(['foo'])
tree.add(['foo'], ['foo-id'])
tree.lock_read()
try:
current_sha1 = tree._get_entry(path="foo")[1][0][1]
finally:
tree.unlock()
tree.lock_write()
try:
tree._observed_sha1("foo-id", "foo",
(osutils.sha_file_by_name('foo'), os.lstat("foo")))
# Must not have changed
self.assertEqual(current_sha1,
tree._get_entry(path="foo")[1][0][1])
finally:
tree.unlock()
def test_get_file_with_stat_id_only(self):
# Explicit test to ensure we get a lstat value from WT4 trees.
tree = self.make_branch_and_tree('.')
self.build_tree(['foo'])
tree.add(['foo'], ['foo-id'])
tree.lock_read()
self.addCleanup(tree.unlock)
file_obj, statvalue = tree.get_file_with_stat('foo-id')
expected = os.lstat('foo')
self.assertEqualStat(expected, statvalue)
self.assertEqual(["contents of foo\n"], file_obj.readlines())
class TestCorruptDirstate(TestCaseWithTransport):
"""Tests for how we handle when the dirstate has been corrupted."""
def create_wt4(self):
control = bzrdir.BzrDirMetaFormat1().initialize(self.get_url())
control.create_repository()
control.create_branch()
tree = workingtree_4.WorkingTreeFormat4().initialize(control)
return tree
def test_invalid_rename(self):
tree = self.create_wt4()
# Create a corrupted dirstate
tree.lock_write()
try:
# We need a parent, or we always compare with NULL
tree.commit('init')
state = tree.current_dirstate()
state._read_dirblocks_if_needed()
# Now add in an invalid entry, a rename with a dangling pointer
state._dirblocks[1][1].append((('', 'foo', 'foo-id'),
[('f', '', 0, False, ''),
('r', 'bar', 0 , False, '')]))
self.assertListRaises(errors.CorruptDirstate,
tree.iter_changes, tree.basis_tree())
finally:
tree.unlock()
def get_simple_dirblocks(self, state):
"""Extract the simple information from the DirState.
This returns the dirblocks, only with the sha1sum and stat details
filtered out.
"""
simple_blocks = []
for block in state._dirblocks:
simple_block = (block[0], [])
for entry in block[1]:
# Include the key for each entry, and for each parent include
# just the minikind, so we know if it was
# present/absent/renamed/etc
simple_block[1].append((entry[0], [i[0] for i in entry[1]]))
simple_blocks.append(simple_block)
return simple_blocks
def test_update_basis_with_invalid_delta(self):
"""When given an invalid delta, it should abort, and not be saved."""
self.build_tree(['dir/', 'dir/file'])
tree = self.create_wt4()
tree.lock_write()
self.addCleanup(tree.unlock)
tree.add(['dir', 'dir/file'], ['dir-id', 'file-id'])
first_revision_id = tree.commit('init')
root_id = tree.path2id('')
state = tree.current_dirstate()
state._read_dirblocks_if_needed()
self.assertEqual([
('', [(('', '', root_id), ['d', 'd'])]),
('', [(('', 'dir', 'dir-id'), ['d', 'd'])]),
('dir', [(('dir', 'file', 'file-id'), ['f', 'f'])]),
], self.get_simple_dirblocks(state))
tree.remove(['dir/file'])
self.assertEqual([
('', [(('', '', root_id), ['d', 'd'])]),
('', [(('', 'dir', 'dir-id'), ['d', 'd'])]),
('dir', [(('dir', 'file', 'file-id'), ['a', 'f'])]),
], self.get_simple_dirblocks(state))
# Make sure the removal is written to disk
tree.flush()
# self.assertRaises(Exception, tree.update_basis_by_delta,
new_dir = inventory.InventoryDirectory('dir-id', 'new-dir', root_id)
new_dir.revision = 'new-revision-id'
new_file = inventory.InventoryFile('file-id', 'new-file', root_id)
new_file.revision = 'new-revision-id'
self.assertRaises(errors.InconsistentDelta,
tree.update_basis_by_delta, 'new-revision-id',
[('dir', 'new-dir', 'dir-id', new_dir),
('dir/file', 'new-dir/new-file', 'file-id', new_file),
])
del state
# Now when we re-read the file it should not have been modified
tree.unlock()
tree.lock_read()
self.assertEqual(first_revision_id, tree.last_revision())
state = tree.current_dirstate()
state._read_dirblocks_if_needed()
self.assertEqual([
('', [(('', '', root_id), ['d', 'd'])]),
('', [(('', 'dir', 'dir-id'), ['d', 'd'])]),
('dir', [(('dir', 'file', 'file-id'), ['a', 'f'])]),
], self.get_simple_dirblocks(state))
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