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# Copyright (C) 2005, 2006, 2008, 2009 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
from StringIO import StringIO
import bzrlib
from bzrlib import (
errors,
lockdir,
osutils,
)
from bzrlib.errors import BzrBadParameterNotString, NoSuchFile, ReadOnlyError
from bzrlib.lockable_files import LockableFiles, TransportLock
from bzrlib.symbol_versioning import (
deprecated_in,
)
from bzrlib.tests import (
TestCaseInTempDir,
TestNotApplicable,
)
from bzrlib.tests.test_smart import TestCaseWithSmartMedium
from bzrlib.tests.test_transactions import DummyWeave
from bzrlib.transactions import (PassThroughTransaction,
ReadOnlyTransaction,
WriteTransaction,
)
from bzrlib.transport import get_transport
# these tests are applied in each parameterized suite for LockableFiles
#
# they use an old style of parameterization, but we want to remove this class
# so won't modernize them now. - mbp 20080430
class _TestLockableFiles_mixin(object):
def test_transactions(self):
self.assertIs(self.lockable.get_transaction().__class__,
PassThroughTransaction)
self.lockable.lock_read()
try:
self.assertIs(self.lockable.get_transaction().__class__,
ReadOnlyTransaction)
finally:
self.lockable.unlock()
self.assertIs(self.lockable.get_transaction().__class__,
PassThroughTransaction)
self.lockable.lock_write()
self.assertIs(self.lockable.get_transaction().__class__,
WriteTransaction)
# check that finish is called:
vf = DummyWeave('a')
self.lockable.get_transaction().register_dirty(vf)
self.lockable.unlock()
self.assertTrue(vf.finished)
def test__escape(self):
self.assertEqual('%25', self.lockable._escape('%'))
def test__escape_empty(self):
self.assertEqual('', self.lockable._escape(''))
def test_break_lock(self):
# some locks are not breakable
self.lockable.lock_write()
try:
self.assertRaises(AssertionError, self.lockable.break_lock)
except NotImplementedError:
# this lock cannot be broken
self.lockable.unlock()
raise TestNotApplicable("%r is not breakable" % (self.lockable,))
l2 = self.get_lockable()
orig_factory = bzrlib.ui.ui_factory
# silent ui - no need for stdout
bzrlib.ui.ui_factory = bzrlib.ui.CannedInputUIFactory([True])
try:
l2.break_lock()
finally:
bzrlib.ui.ui_factory = orig_factory
try:
l2.lock_write()
l2.unlock()
finally:
self.assertRaises(errors.LockBroken, self.lockable.unlock)
self.assertFalse(self.lockable.is_locked())
def test_lock_write_returns_None_refuses_token(self):
token = self.lockable.lock_write()
self.addCleanup(self.lockable.unlock)
if token is not None:
# This test does not apply, because this lockable supports
# tokens.
raise TestNotApplicable("%r uses tokens" % (self.lockable,))
self.assertRaises(errors.TokenLockingNotSupported,
self.lockable.lock_write, token='token')
def test_lock_write_returns_token_when_given_token(self):
token = self.lockable.lock_write()
self.addCleanup(self.lockable.unlock)
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
new_lockable = self.get_lockable()
token_from_new_lockable = new_lockable.lock_write(token=token)
self.addCleanup(new_lockable.unlock)
self.assertEqual(token, token_from_new_lockable)
def test_lock_write_raises_on_token_mismatch(self):
token = self.lockable.lock_write()
self.addCleanup(self.lockable.unlock)
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
different_token = token + 'xxx'
# Re-using the same lockable instance with a different token will
# raise TokenMismatch.
self.assertRaises(errors.TokenMismatch,
self.lockable.lock_write, token=different_token)
# A separate instance for the same lockable will also raise
# TokenMismatch.
# This detects the case where a caller claims to have a lock (via
# the token) for an external resource, but doesn't (the token is
# different). Clients need a separate lock object to make sure the
# external resource is probed, whereas the existing lock object
# might cache.
new_lockable = self.get_lockable()
self.assertRaises(errors.TokenMismatch,
new_lockable.lock_write, token=different_token)
def test_lock_write_with_matching_token(self):
# If the token matches, so no exception is raised by lock_write.
token = self.lockable.lock_write()
self.addCleanup(self.lockable.unlock)
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
# The same instance will accept a second lock_write if the specified
# token matches.
self.lockable.lock_write(token=token)
self.lockable.unlock()
# Calling lock_write on a new instance for the same lockable will
# also succeed.
new_lockable = self.get_lockable()
new_lockable.lock_write(token=token)
new_lockable.unlock()
def test_unlock_after_lock_write_with_token(self):
# If lock_write did not physically acquire the lock (because it was
# passed a token), then unlock should not physically release it.
token = self.lockable.lock_write()
self.addCleanup(self.lockable.unlock)
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
new_lockable = self.get_lockable()
new_lockable.lock_write(token=token)
new_lockable.unlock()
self.assertTrue(self.lockable.get_physical_lock_status())
def test_lock_write_with_token_fails_when_unlocked(self):
# Lock and unlock to get a superficially valid token. This mimics a
# likely programming error, where a caller accidentally tries to lock
# with a token that is no longer valid (because the original lock was
# released).
token = self.lockable.lock_write()
self.lockable.unlock()
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
self.assertRaises(errors.TokenMismatch,
self.lockable.lock_write, token=token)
def test_lock_write_reenter_with_token(self):
token = self.lockable.lock_write()
try:
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
# Relock with a token.
token_from_reentry = self.lockable.lock_write(token=token)
try:
self.assertEqual(token, token_from_reentry)
finally:
self.lockable.unlock()
finally:
self.lockable.unlock()
# The lock should be unlocked on disk. Verify that with a new lock
# instance.
new_lockable = self.get_lockable()
# Calling lock_write now should work, rather than raise LockContention.
new_lockable.lock_write()
new_lockable.unlock()
def test_second_lock_write_returns_same_token(self):
first_token = self.lockable.lock_write()
try:
if first_token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
# Relock the already locked lockable. It should return the same
# token.
second_token = self.lockable.lock_write()
try:
self.assertEqual(first_token, second_token)
finally:
self.lockable.unlock()
finally:
self.lockable.unlock()
def test_leave_in_place(self):
token = self.lockable.lock_write()
try:
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
self.lockable.leave_in_place()
finally:
self.lockable.unlock()
# At this point, the lock is still in place on disk
self.assertRaises(errors.LockContention, self.lockable.lock_write)
# But should be relockable with a token.
self.lockable.lock_write(token=token)
self.lockable.unlock()
# Cleanup: we should still be able to get the lock, but we restore the
# behavior to clearing the lock when unlocking.
self.lockable.lock_write(token=token)
self.lockable.dont_leave_in_place()
self.lockable.unlock()
def test_dont_leave_in_place(self):
token = self.lockable.lock_write()
try:
if token is None:
# This test does not apply, because this lockable refuses
# tokens.
return
self.lockable.leave_in_place()
finally:
self.lockable.unlock()
# At this point, the lock is still in place on disk.
# Acquire the existing lock with the token, and ask that it is removed
# when this object unlocks, and unlock to trigger that removal.
new_lockable = self.get_lockable()
new_lockable.lock_write(token=token)
new_lockable.dont_leave_in_place()
new_lockable.unlock()
# At this point, the lock is no longer on disk, so we can lock it.
third_lockable = self.get_lockable()
third_lockable.lock_write()
third_lockable.unlock()
# This method of adapting tests to parameters is different to
# the TestProviderAdapters used elsewhere, but seems simpler for this
# case.
class TestLockableFiles_TransportLock(TestCaseInTempDir,
_TestLockableFiles_mixin):
def setUp(self):
TestCaseInTempDir.setUp(self)
transport = get_transport('.')
transport.mkdir('.bzr')
self.sub_transport = transport.clone('.bzr')
self.lockable = self.get_lockable()
self.lockable.create_lock()
def stop_server(self):
super(TestLockableFiles_TransportLock, self).stop_server()
# free the subtransport so that we do not get a 5 second
# timeout due to the SFTP connection cache.
try:
del self.sub_transport
except AttributeError:
pass
def get_lockable(self):
return LockableFiles(self.sub_transport, 'my-lock', TransportLock)
class TestLockableFiles_LockDir(TestCaseInTempDir,
_TestLockableFiles_mixin):
"""LockableFile tests run with LockDir underneath"""
def setUp(self):
TestCaseInTempDir.setUp(self)
self.transport = get_transport('.')
self.lockable = self.get_lockable()
# the lock creation here sets mode - test_permissions on branch
# tests that implicitly, but it might be a good idea to factor
# out the mode checking logic and have it applied to loackable files
# directly. RBC 20060418
self.lockable.create_lock()
def get_lockable(self):
return LockableFiles(self.transport, 'my-lock', lockdir.LockDir)
def test_lock_created(self):
self.assertTrue(self.transport.has('my-lock'))
self.lockable.lock_write()
self.assertTrue(self.transport.has('my-lock/held/info'))
self.lockable.unlock()
self.assertFalse(self.transport.has('my-lock/held/info'))
self.assertTrue(self.transport.has('my-lock'))
def test__file_modes(self):
self.transport.mkdir('readonly')
osutils.make_readonly('readonly')
lockable = LockableFiles(self.transport.clone('readonly'), 'test-lock',
lockdir.LockDir)
# The directory mode should be read-write-execute for the current user
self.assertEqual(00700, lockable._dir_mode & 00700)
# Files should be read-write for the current user
self.assertEqual(00600, lockable._file_mode & 00700)
class TestLockableFiles_RemoteLockDir(TestCaseWithSmartMedium,
_TestLockableFiles_mixin):
"""LockableFile tests run with RemoteLockDir on a branch."""
def setUp(self):
TestCaseWithSmartMedium.setUp(self)
# can only get a RemoteLockDir with some RemoteObject...
# use a branch as thats what we want. These mixin tests test the end
# to end behaviour, so stubbing out the backend and simulating would
# defeat the purpose. We test the protocol implementation separately
# in test_remote and test_smart as usual.
b = self.make_branch('foo')
self.addCleanup(b.bzrdir.transport.disconnect)
self.transport = get_transport('.')
self.lockable = self.get_lockable()
def get_lockable(self):
# getting a new lockable involves opening a new instance of the branch
branch = bzrlib.branch.Branch.open(self.get_url('foo'))
self.addCleanup(branch.bzrdir.transport.disconnect)
return branch.control_files
|