# test_pack.py -- Compatibility tests for git packs. # Copyright (C) 2010 Google, Inc. # # Dulwich is dual-licensed under the Apache License, Version 2.0 and the GNU # General Public License as public by the Free Software Foundation; version 2.0 # or (at your option) any later version. You can redistribute it and/or # modify it under the terms of either of these two licenses. # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # You should have received a copy of the licenses; if not, see # for a copy of the GNU General Public License # and for a copy of the Apache # License, Version 2.0. # """Compatibility tests for git packs.""" import binascii import os import re import shutil import tempfile from dulwich.objects import Blob from dulwich.pack import write_pack from .. import SkipTest from ..test_pack import PackTests, a_sha, pack1_sha from .utils import require_git_version, run_git_or_fail _NON_DELTA_RE = re.compile(b"non delta: (?P\\d+) objects") def _git_verify_pack_object_list(output): pack_shas = set() for line in output.splitlines(): sha = line[:40] try: binascii.unhexlify(sha) except (TypeError, binascii.Error): continue # non-sha line pack_shas.add(sha) return pack_shas class TestPack(PackTests): """Compatibility tests for reading and writing pack files.""" def setUp(self): require_git_version((1, 5, 0)) super().setUp() self._tempdir = tempfile.mkdtemp() self.addCleanup(shutil.rmtree, self._tempdir) def test_copy(self): with self.get_pack(pack1_sha) as origpack: self.assertSucceeds(origpack.index.check) pack_path = os.path.join(self._tempdir, "Elch") write_pack(pack_path, origpack.pack_tuples()) output = run_git_or_fail(["verify-pack", "-v", pack_path]) orig_shas = {o.id for o in origpack.iterobjects()} self.assertEqual(orig_shas, _git_verify_pack_object_list(output)) def test_deltas_work(self): with self.get_pack(pack1_sha) as orig_pack: orig_blob = orig_pack[a_sha] new_blob = Blob() new_blob.data = orig_blob.data + b"x" all_to_pack = [(o, None) for o in orig_pack.iterobjects()] + [ (new_blob, None) ] pack_path = os.path.join(self._tempdir, "pack_with_deltas") write_pack(pack_path, all_to_pack, deltify=True) output = run_git_or_fail(["verify-pack", "-v", pack_path]) self.assertEqual( {x[0].id for x in all_to_pack}, _git_verify_pack_object_list(output), ) # We specifically made a new blob that should be a delta # against the blob a_sha, so make sure we really got only 3 # non-delta objects: got_non_delta = int(_NON_DELTA_RE.search(output).group("non_delta")) self.assertEqual( 3, got_non_delta, "Expected 3 non-delta objects, got %d" % got_non_delta, ) def test_delta_medium_object(self): # This tests an object set that will have a copy operation # 2**20 in size. with self.get_pack(pack1_sha) as orig_pack: orig_blob = orig_pack[a_sha] new_blob = Blob() new_blob.data = orig_blob.data + (b"x" * 2**20) new_blob_2 = Blob() new_blob_2.data = new_blob.data + b"y" all_to_pack = [ *list(orig_pack.pack_tuples()), (new_blob, None), (new_blob_2, None), ] pack_path = os.path.join(self._tempdir, "pack_with_deltas") write_pack(pack_path, all_to_pack, deltify=True) output = run_git_or_fail(["verify-pack", "-v", pack_path]) self.assertEqual( {x[0].id for x in all_to_pack}, _git_verify_pack_object_list(output), ) # We specifically made a new blob that should be a delta # against the blob a_sha, so make sure we really got only 3 # non-delta objects: got_non_delta = int(_NON_DELTA_RE.search(output).group("non_delta")) self.assertEqual( 3, got_non_delta, "Expected 3 non-delta objects, got %d" % got_non_delta, ) # We expect one object to have a delta chain length of two # (new_blob_2), so let's verify that actually happens: self.assertIn(b"chain length = 2", output) # This test is SUPER slow: over 80 seconds on a 2012-era # laptop. This is because SequenceMatcher is worst-case quadratic # on the input size. It's impractical to produce deltas for # objects this large, but it's still worth doing the right thing # when it happens. def test_delta_large_object(self): # This tests an object set that will have a copy operation # 2**25 in size. This is a copy large enough that it requires # two copy operations in git's binary delta format. raise SkipTest("skipping slow, large test") with self.get_pack(pack1_sha) as orig_pack: new_blob = Blob() new_blob.data = "big blob" + ("x" * 2**25) new_blob_2 = Blob() new_blob_2.data = new_blob.data + "y" all_to_pack = [ *list(orig_pack.pack_tuples()), (new_blob, None), (new_blob_2, None), ] pack_path = os.path.join(self._tempdir, "pack_with_deltas") write_pack(pack_path, all_to_pack, deltify=True) output = run_git_or_fail(["verify-pack", "-v", pack_path]) self.assertEqual( {x[0].id for x in all_to_pack}, _git_verify_pack_object_list(output), ) # We specifically made a new blob that should be a delta # against the blob a_sha, so make sure we really got only 4 # non-delta objects: got_non_delta = int(_NON_DELTA_RE.search(output).group("non_delta")) self.assertEqual( 4, got_non_delta, "Expected 4 non-delta objects, got %d" % got_non_delta, )