heptapod-ci: run test with python3 too
Python3 is the future^W present, it is important to run tests with it too.
Differential Revision: https://phab.mercurial-scm.org/D8013
#!/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:
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__)