Mercurial > hg
view tests/test-remotefilelog-datapack.py @ 42415:c767e655ffda
narrow: use narrow_widen wireproto command to widen in case of ellipses
Few releases ago, we introduce narrow_widen wireproto command to be used to widen
narrow repositories. Before this patch, that was used in non-ellipses cases
only. In ellipses cases, we still do exchange.pull() which can pull more data
than required.
After this patch, the client will first check whether server supports doing
ellipses widening using wireproto command or not by checking server's wireproto
capability. If the server is upto date and support latest ellipses capability,
we call the wireproto command. Otherwise we fallback to exchange.pull() like
before.
The compat code make sure that things works even if one of the client or server
is old. The initial version of this patch does not had this compat code. It's
added to help Google release things smoothly internally. I plan to drop the
compat code before the upcoming major release.
Due to change to wireproto command, the code looks a bit dirty, next patches
will clean that up.
Differential Revision: https://phab.mercurial-scm.org/D6436
| author | Pulkit Goyal <7895pulkit@gmail.com> |
|---|---|
| date | Wed, 22 May 2019 02:59:48 +0530 |
| parents | eb37d95cc486 |
| children | 2372284d9457 |
line wrap: on
line source
#!/usr/bin/env python from __future__ import absolute_import, print_function import hashlib import os import random import shutil import stat import struct import sys import tempfile import time import unittest import silenttestrunner # Load the local remotefilelog, not the system one sys.path[0:0] = [os.path.join(os.path.dirname(__file__), '..')] from mercurial.node import nullid from mercurial import ( pycompat, ui as uimod, ) from hgext.remotefilelog import ( basepack, constants, datapack, ) class datapacktestsbase(object): def __init__(self, datapackreader, paramsavailable): self.datapackreader = datapackreader self.paramsavailable = paramsavailable def setUp(self): self.tempdirs = [] def tearDown(self): for d in self.tempdirs: shutil.rmtree(d) def makeTempDir(self): tempdir = pycompat.bytestr(tempfile.mkdtemp()) self.tempdirs.append(tempdir) return tempdir def getHash(self, content): return hashlib.sha1(content).digest() def getFakeHash(self): return b''.join(pycompat.bytechr(random.randint(0, 255)) for _ in range(20)) def createPack(self, revisions=None, packdir=None): if revisions is None: revisions = [(b"filename", self.getFakeHash(), nullid, b"content")] if packdir is None: packdir = self.makeTempDir() packer = datapack.mutabledatapack(uimod.ui(), packdir, version=2) for args in revisions: filename, node, base, content = args[0:4] # meta is optional meta = None if len(args) > 4: meta = args[4] packer.add(filename, node, base, content, metadata=meta) path = packer.close() return self.datapackreader(path) def _testAddSingle(self, content): """Test putting a simple blob into a pack and reading it out. """ filename = b"foo" node = self.getHash(content) revisions = [(filename, node, nullid, content)] pack = self.createPack(revisions) if self.paramsavailable: self.assertEqual(pack.params.fanoutprefix, basepack.SMALLFANOUTPREFIX) chain = pack.getdeltachain(filename, node) self.assertEqual(content, chain[0][4]) def testAddSingle(self): self._testAddSingle(b'') def testAddSingleEmpty(self): self._testAddSingle(b'abcdef') def testAddMultiple(self): """Test putting multiple unrelated blobs into a pack and reading them out. """ revisions = [] for i in range(10): filename = b"foo%d" % i content = b"abcdef%d" % i node = self.getHash(content) revisions.append((filename, node, self.getFakeHash(), content)) pack = self.createPack(revisions) for filename, node, base, content in revisions: entry = pack.getdelta(filename, node) self.assertEqual((content, filename, base, {}), entry) chain = pack.getdeltachain(filename, node) self.assertEqual(content, chain[0][4]) def testAddDeltas(self): """Test putting multiple delta blobs into a pack and read the chain. """ revisions = [] filename = b"foo" lastnode = nullid for i in range(10): content = b"abcdef%d" % i node = self.getHash(content) revisions.append((filename, node, lastnode, content)) lastnode = node pack = self.createPack(revisions) entry = pack.getdelta(filename, revisions[0][1]) realvalue = (revisions[0][3], filename, revisions[0][2], {}) self.assertEqual(entry, realvalue) # Test that the chain for the final entry has all the others chain = pack.getdeltachain(filename, node) for i in range(10): content = b"abcdef%d" % i self.assertEqual(content, chain[-i - 1][4]) def testPackMany(self): """Pack many related and unrelated objects. """ # Build a random pack file revisions = [] blobs = {} random.seed(0) for i in range(100): filename = b"filename-%d" % i filerevs = [] for j in range(random.randint(1, 100)): content = b"content-%d" % j node = self.getHash(content) lastnode = nullid if len(filerevs) > 0: lastnode = filerevs[random.randint(0, len(filerevs) - 1)] filerevs.append(node) blobs[(filename, node, lastnode)] = content revisions.append((filename, node, lastnode, content)) pack = self.createPack(revisions) # Verify the pack contents for (filename, node, lastnode), content in sorted(blobs.items()): chain = pack.getdeltachain(filename, node) for entry in chain: expectedcontent = blobs[(entry[0], entry[1], entry[3])] self.assertEqual(entry[4], expectedcontent) def testPackMetadata(self): revisions = [] for i in range(100): filename = b'%d.txt' % i content = b'put-something-here \n' * i node = self.getHash(content) meta = {constants.METAKEYFLAG: i ** 4, constants.METAKEYSIZE: len(content), b'Z': b'random_string', b'_': b'\0' * i} revisions.append((filename, node, nullid, content, meta)) pack = self.createPack(revisions) for name, node, x, content, origmeta in revisions: parsedmeta = pack.getmeta(name, node) # flag == 0 should be optimized out if origmeta[constants.METAKEYFLAG] == 0: del origmeta[constants.METAKEYFLAG] self.assertEqual(parsedmeta, origmeta) def testGetMissing(self): """Test the getmissing() api. """ revisions = [] filename = b"foo" lastnode = nullid for i in range(10): content = b"abcdef%d" % i node = self.getHash(content) revisions.append((filename, node, lastnode, content)) lastnode = node pack = self.createPack(revisions) missing = pack.getmissing([(b"foo", revisions[0][1])]) self.assertFalse(missing) missing = pack.getmissing([(b"foo", revisions[0][1]), (b"foo", revisions[1][1])]) self.assertFalse(missing) fakenode = self.getFakeHash() missing = pack.getmissing([(b"foo", revisions[0][1]), (b"foo", fakenode)]) self.assertEqual(missing, [(b"foo", fakenode)]) def testAddThrows(self): pack = self.createPack() try: pack.add(b'filename', nullid, b'contents') self.assertTrue(False, "datapack.add should throw") except RuntimeError: pass def testBadVersionThrows(self): pack = self.createPack() path = pack.path + b'.datapack' with open(path, 'rb') as f: raw = f.read() raw = struct.pack('!B', 255) + raw[1:] os.chmod(path, os.stat(path).st_mode | stat.S_IWRITE) with open(path, 'wb+') as f: f.write(raw) try: pack = self.datapackreader(pack.path) self.assertTrue(False, "bad version number should have thrown") except RuntimeError: pass def testMissingDeltabase(self): fakenode = self.getFakeHash() revisions = [(b"filename", fakenode, self.getFakeHash(), b"content")] pack = self.createPack(revisions) chain = pack.getdeltachain(b"filename", fakenode) self.assertEqual(len(chain), 1) def testLargePack(self): """Test creating and reading from a large pack with over X entries. This causes it to use a 2^16 fanout table instead.""" revisions = [] blobs = {} total = basepack.SMALLFANOUTCUTOFF + 1 for i in pycompat.xrange(total): filename = b"filename-%d" % i content = filename node = self.getHash(content) blobs[(filename, node)] = content revisions.append((filename, node, nullid, content)) pack = self.createPack(revisions) if self.paramsavailable: self.assertEqual(pack.params.fanoutprefix, basepack.LARGEFANOUTPREFIX) for (filename, node), content in blobs.items(): actualcontent = pack.getdeltachain(filename, node)[0][4] self.assertEqual(actualcontent, content) def testPacksCache(self): """Test that we remember the most recent packs while fetching the delta chain.""" packdir = self.makeTempDir() deltachains = [] numpacks = 10 revisionsperpack = 100 for i in range(numpacks): chain = [] revision = (b'%d' % i, self.getFakeHash(), nullid, b"content") for _ in range(revisionsperpack): chain.append(revision) revision = ( b'%d' % i, self.getFakeHash(), revision[1], self.getFakeHash() ) self.createPack(chain, packdir) deltachains.append(chain) class testdatapackstore(datapack.datapackstore): # Ensures that we are not keeping everything in the cache. DEFAULTCACHESIZE = numpacks // 2 store = testdatapackstore(uimod.ui(), packdir) random.shuffle(deltachains) for randomchain in deltachains: revision = random.choice(randomchain) chain = store.getdeltachain(revision[0], revision[1]) mostrecentpack = next(iter(store.packs), None) self.assertEqual( mostrecentpack.getdeltachain(revision[0], revision[1]), chain ) self.assertEqual(randomchain.index(revision) + 1, len(chain)) # perf test off by default since it's slow def _testIndexPerf(self): random.seed(0) print("Multi-get perf test") packsizes = [ 100, 10000, 100000, 500000, 1000000, 3000000, ] lookupsizes = [ 10, 100, 1000, 10000, 100000, 1000000, ] for packsize in packsizes: revisions = [] for i in pycompat.xrange(packsize): filename = b"filename-%d" % i content = b"content-%d" % i node = self.getHash(content) revisions.append((filename, node, nullid, content)) path = self.createPack(revisions).path # Perf of large multi-get import gc gc.disable() pack = self.datapackreader(path) for lookupsize in lookupsizes: if lookupsize > packsize: continue random.shuffle(revisions) findnodes = [(rev[0], rev[1]) for rev in revisions] start = time.time() pack.getmissing(findnodes[:lookupsize]) elapsed = time.time() - start print ("%s pack %d lookups = %0.04f" % (('%d' % packsize).rjust(7), ('%d' % lookupsize).rjust(7), elapsed)) print("") gc.enable() # The perf test is meant to produce output, so we always fail the test # so the user sees the output. raise RuntimeError("perf test always fails") class datapacktests(datapacktestsbase, unittest.TestCase): def __init__(self, *args, **kwargs): datapacktestsbase.__init__(self, datapack.datapack, True) unittest.TestCase.__init__(self, *args, **kwargs) # TODO: # datapack store: # - getmissing # - GC two packs into one if __name__ == '__main__': if pycompat.iswindows: sys.exit(80) # Skip on Windows silenttestrunner.main(__name__)