Mercurial > hg-stable
view tests/test-revlog-raw.py @ 43564:d053d3f10b6a
packaging: stage installed files for Inno
Previously, the Inno installer maintained its own mapping of
source files to install location. (We have to maintain a
similar mapping in the WiX installer.)
Managing the explicit file layout for Windows packages is
cumbersome and redundant. Every time you want to change the
layout you need to change N locations. We frequently forget
to do this and we only find out when people install Mercurial
from our packages at release time.
This commit starts the process of consolidating and simplifying
the logic for managing the install layout on Windows.
We introduce a list of install layout rules. These are simply
source filenames (which can contain wildcards) and destination
paths.
The Inno packaging code has been updated to assemble all
files into a staging directory that mirrors the final install
layout. The list of files to add to the installer is derived
by walking this staging directory and dynamically emitting
the proper entries for the Inno Setup script.
I diffed the file layout before and after this commit and
there is no difference.
Another benefit of this change is that it facilitates easier
testing of the Windows install layout. Before, in order to
test the final install layout, you needed to build an installer
and run it. Now, you can stage files into the final layout
and test from there, without running the installer. This
should cut down on overhead when changing Windows code.
Differential Revision: https://phab.mercurial-scm.org/D7159
author | Gregory Szorc <gregory.szorc@gmail.com> |
---|---|
date | Wed, 23 Oct 2019 18:39:28 -0700 |
parents | 2372284d9457 |
children | 9d2b2df2c2ba |
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# test revlog interaction about raw data (flagprocessor) from __future__ import absolute_import, print_function import collections import hashlib import sys from mercurial import ( encoding, node, revlog, transaction, vfs, ) from mercurial.revlogutils import ( deltas, flagutil, ) # TESTTMP is optional. This makes it convenient to run without run-tests.py tvfs = vfs.vfs(encoding.environ.get(b'TESTTMP', b'/tmp')) # Enable generaldelta otherwise revlog won't use delta as expected by the test tvfs.options = { b'generaldelta': True, b'revlogv1': True, b'sparse-revlog': True, } # The test wants to control whether to use delta explicitly, based on # "storedeltachains". revlog.revlog._isgooddeltainfo = lambda self, d, textlen: self._storedeltachains def abort(msg): print('abort: %s' % msg) # Return 0 so run-tests.py could compare the output. sys.exit() # Register a revlog processor for flag EXTSTORED. # # It simply prepends a fixed header, and replaces '1' to 'i'. So it has # insertion and replacement, and may be interesting to test revlog's line-based # deltas. _extheader = b'E\n' def readprocessor(self, rawtext): # True: the returned text could be used to verify hash text = rawtext[len(_extheader) :].replace(b'i', b'1') return text, True, {} def writeprocessor(self, text, sidedata): # False: the returned rawtext shouldn't be used to verify hash rawtext = _extheader + text.replace(b'1', b'i') return rawtext, False def rawprocessor(self, rawtext): # False: do not verify hash. Only the content returned by "readprocessor" # can be used to verify hash. return False flagutil.addflagprocessor( revlog.REVIDX_EXTSTORED, (readprocessor, writeprocessor, rawprocessor) ) # Utilities about reading and appending revlog def newtransaction(): # A transaction is required to write revlogs report = lambda msg: None return transaction.transaction(report, tvfs, {'plain': tvfs}, b'journal') def newrevlog(name=b'_testrevlog.i', recreate=False): if recreate: tvfs.tryunlink(name) rlog = revlog.revlog(tvfs, name) return rlog def appendrev(rlog, text, tr, isext=False, isdelta=True): '''Append a revision. If isext is True, set the EXTSTORED flag so flag processor will be used (and rawtext is different from text). If isdelta is True, force the revision to be a delta, otherwise it's full text. ''' nextrev = len(rlog) p1 = rlog.node(nextrev - 1) p2 = node.nullid if isext: flags = revlog.REVIDX_EXTSTORED else: flags = revlog.REVIDX_DEFAULT_FLAGS # Change storedeltachains temporarily, to override revlog's delta decision rlog._storedeltachains = isdelta try: rlog.addrevision(text, tr, nextrev, p1, p2, flags=flags) return nextrev except Exception as ex: abort('rev %d: failed to append: %s' % (nextrev, ex)) finally: # Restore storedeltachains. It is always True, see revlog.__init__ rlog._storedeltachains = True def addgroupcopy(rlog, tr, destname=b'_destrevlog.i', optimaldelta=True): '''Copy revlog to destname using revlog.addgroup. Return the copied revlog. This emulates push or pull. They use changegroup. Changegroup requires repo to work. We don't have a repo, so a dummy changegroup is used. If optimaldelta is True, use optimized delta parent, so the destination revlog could probably reuse it. Otherwise it builds sub-optimal delta, and the destination revlog needs more work to use it. This exercises some revlog.addgroup (and revlog._addrevision(text=None)) code path, which is not covered by "appendrev" alone. ''' class dummychangegroup(object): @staticmethod def deltachunk(pnode): pnode = pnode or node.nullid parentrev = rlog.rev(pnode) r = parentrev + 1 if r >= len(rlog): return {} if optimaldelta: deltaparent = parentrev else: # suboptimal deltaparent deltaparent = min(0, parentrev) if not rlog.candelta(deltaparent, r): deltaparent = -1 return { b'node': rlog.node(r), b'p1': pnode, b'p2': node.nullid, b'cs': rlog.node(rlog.linkrev(r)), b'flags': rlog.flags(r), b'deltabase': rlog.node(deltaparent), b'delta': rlog.revdiff(deltaparent, r), } def deltaiter(self): chain = None for chunkdata in iter(lambda: self.deltachunk(chain), {}): node = chunkdata[b'node'] p1 = chunkdata[b'p1'] p2 = chunkdata[b'p2'] cs = chunkdata[b'cs'] deltabase = chunkdata[b'deltabase'] delta = chunkdata[b'delta'] flags = chunkdata[b'flags'] chain = node yield (node, p1, p2, cs, deltabase, delta, flags) def linkmap(lnode): return rlog.rev(lnode) dlog = newrevlog(destname, recreate=True) dummydeltas = dummychangegroup().deltaiter() dlog.addgroup(dummydeltas, linkmap, tr) return dlog def lowlevelcopy(rlog, tr, destname=b'_destrevlog.i'): '''Like addgroupcopy, but use the low level revlog._addrevision directly. It exercises some code paths that are hard to reach easily otherwise. ''' dlog = newrevlog(destname, recreate=True) for r in rlog: p1 = rlog.node(r - 1) p2 = node.nullid if r == 0 or (rlog.flags(r) & revlog.REVIDX_EXTSTORED): text = rlog.rawdata(r) cachedelta = None else: # deltaparent cannot have EXTSTORED flag. deltaparent = max( [-1] + [ p for p in range(r) if rlog.flags(p) & revlog.REVIDX_EXTSTORED == 0 ] ) text = None cachedelta = (deltaparent, rlog.revdiff(deltaparent, r)) flags = rlog.flags(r) ifh = dfh = None try: ifh = dlog.opener(dlog.indexfile, b'a+') if not dlog._inline: dfh = dlog.opener(dlog.datafile, b'a+') dlog._addrevision( rlog.node(r), text, tr, r, p1, p2, flags, cachedelta, ifh, dfh ) finally: if dfh is not None: dfh.close() if ifh is not None: ifh.close() return dlog # Utilities to generate revisions for testing def genbits(n): '''Given a number n, generate (2 ** (n * 2) + 1) numbers in range(2 ** n). i.e. the generated numbers have a width of n bits. The combination of two adjacent numbers will cover all possible cases. That is to say, given any x, y where both x, and y are in range(2 ** n), there is an x followed immediately by y in the generated sequence. ''' m = 2 ** n # Gray Code. See https://en.wikipedia.org/wiki/Gray_code gray = lambda x: x ^ (x >> 1) reversegray = dict((gray(i), i) for i in range(m)) # Generate (n * 2) bit gray code, yield lower n bits as X, and look for # the next unused gray code where higher n bits equal to X. # For gray codes whose higher bits are X, a[X] of them have been used. a = [0] * m # Iterate from 0. x = 0 yield x for i in range(m * m): x = reversegray[x] y = gray(a[x] + x * m) & (m - 1) assert a[x] < m a[x] += 1 x = y yield x def gentext(rev): '''Given a revision number, generate dummy text''' return b''.join(b'%d\n' % j for j in range(-1, rev % 5)) def writecases(rlog, tr): '''Write some revisions interested to the test. The test is interested in 3 properties of a revision: - Is it a delta or a full text? (isdelta) This is to catch some delta application issues. - Does it have a flag of EXTSTORED? (isext) This is to catch some flag processor issues. Especially when interacted with revlog deltas. - Is its text empty? (isempty) This is less important. It is intended to try to catch some careless checks like "if text" instead of "if text is None". Note: if flag processor is involved, raw text may be not empty. Write 65 revisions. So that all combinations of the above flags for adjacent revisions are covered. That is to say, len(set( (r.delta, r.ext, r.empty, (r+1).delta, (r+1).ext, (r+1).empty) for r in range(len(rlog) - 1) )) is 64. Where "r.delta", "r.ext", and "r.empty" are booleans matching properties mentioned above. Return expected [(text, rawtext)]. ''' result = [] for i, x in enumerate(genbits(3)): isdelta, isext, isempty = bool(x & 1), bool(x & 2), bool(x & 4) if isempty: text = b'' else: text = gentext(i) rev = appendrev(rlog, text, tr, isext=isext, isdelta=isdelta) # Verify text, rawtext, and rawsize if isext: rawtext = writeprocessor(None, text, {})[0] else: rawtext = text if rlog.rawsize(rev) != len(rawtext): abort('rev %d: wrong rawsize' % rev) if rlog.revision(rev, raw=False) != text: abort('rev %d: wrong text' % rev) if rlog.rawdata(rev) != rawtext: abort('rev %d: wrong rawtext' % rev) result.append((text, rawtext)) # Verify flags like isdelta, isext work as expected # isdelta can be overridden to False if this or p1 has isext set if bool(rlog.deltaparent(rev) > -1) and not isdelta: abort('rev %d: isdelta is unexpected' % rev) if bool(rlog.flags(rev)) != isext: abort('rev %d: isext is ineffective' % rev) return result # Main test and checking def checkrevlog(rlog, expected): '''Check if revlog has expected contents. expected is [(text, rawtext)]''' # Test using different access orders. This could expose some issues # depending on revlog caching (see revlog._cache). for r0 in range(len(rlog) - 1): r1 = r0 + 1 for revorder in [[r0, r1], [r1, r0]]: for raworder in [[True], [False], [True, False], [False, True]]: nlog = newrevlog() for rev in revorder: for raw in raworder: if raw: t = nlog.rawdata(rev) else: t = nlog.revision(rev) if t != expected[rev][int(raw)]: abort( 'rev %d: corrupted %stext' % (rev, raw and 'raw' or '') ) slicingdata = [ ([0, 1, 2, 3, 55, 56, 58, 59, 60], [[0, 1], [2], [58], [59, 60]], 10), ([0, 1, 2, 3, 55, 56, 58, 59, 60], [[0, 1], [2], [58], [59, 60]], 10), ( [-1, 0, 1, 2, 3, 55, 56, 58, 59, 60], [[-1, 0, 1], [2], [58], [59, 60]], 10, ), ] def slicingtest(rlog): oldmin = rlog._srmingapsize try: # the test revlog is small, we remove the floor under which we # slicing is diregarded. rlog._srmingapsize = 0 for item in slicingdata: chain, expected, target = item result = deltas.slicechunk(rlog, chain, targetsize=target) result = list(result) if result != expected: print('slicing differ:') print(' chain: %s' % chain) print(' target: %s' % target) print(' expected: %s' % expected) print(' result: %s' % result) finally: rlog._srmingapsize = oldmin def md5sum(s): return hashlib.md5(s).digest() def _maketext(*coord): """create piece of text according to range of integers The test returned use a md5sum of the integer to make it less compressible""" pieces = [] for start, size in coord: num = range(start, start + size) p = [md5sum(b'%d' % r) for r in num] pieces.append(b'\n'.join(p)) return b'\n'.join(pieces) + b'\n' data = [ _maketext((0, 120), (456, 60)), _maketext((0, 120), (345, 60)), _maketext((0, 120), (734, 60)), _maketext((0, 120), (734, 60), (923, 45)), _maketext((0, 120), (734, 60), (234, 45)), _maketext((0, 120), (734, 60), (564, 45)), _maketext((0, 120), (734, 60), (361, 45)), _maketext((0, 120), (734, 60), (489, 45)), _maketext((0, 120), (123, 60)), _maketext((0, 120), (145, 60)), _maketext((0, 120), (104, 60)), _maketext((0, 120), (430, 60)), _maketext((0, 120), (430, 60), (923, 45)), _maketext((0, 120), (430, 60), (234, 45)), _maketext((0, 120), (430, 60), (564, 45)), _maketext((0, 120), (430, 60), (361, 45)), _maketext((0, 120), (430, 60), (489, 45)), _maketext((0, 120), (249, 60)), _maketext((0, 120), (832, 60)), _maketext((0, 120), (891, 60)), _maketext((0, 120), (543, 60)), _maketext((0, 120), (120, 60)), _maketext((0, 120), (60, 60), (768, 30)), _maketext((0, 120), (60, 60), (260, 30)), _maketext((0, 120), (60, 60), (450, 30)), _maketext((0, 120), (60, 60), (361, 30)), _maketext((0, 120), (60, 60), (886, 30)), _maketext((0, 120), (60, 60), (116, 30)), _maketext((0, 120), (60, 60), (567, 30), (629, 40)), _maketext((0, 120), (60, 60), (569, 30), (745, 40)), _maketext((0, 120), (60, 60), (777, 30), (700, 40)), _maketext((0, 120), (60, 60), (618, 30), (398, 40), (158, 10)), ] def makesnapshot(tr): rl = newrevlog(name=b'_snaprevlog3.i', recreate=True) for i in data: appendrev(rl, i, tr) return rl snapshots = [-1, 0, 6, 8, 11, 17, 19, 21, 25, 30] def issnapshottest(rlog): result = [] if rlog.issnapshot(-1): result.append(-1) for rev in rlog: if rlog.issnapshot(rev): result.append(rev) if snapshots != result: print('snapshot differ:') print(' expected: %s' % snapshots) print(' got: %s' % result) snapshotmapall = {0: [6, 8, 11, 17, 19, 25], 8: [21], -1: [0, 30]} snapshotmap15 = {0: [17, 19, 25], 8: [21], -1: [30]} def findsnapshottest(rlog): resultall = collections.defaultdict(list) deltas._findsnapshots(rlog, resultall, 0) resultall = dict(resultall.items()) if resultall != snapshotmapall: print('snapshot map differ:') print(' expected: %s' % snapshotmapall) print(' got: %s' % resultall) result15 = collections.defaultdict(list) deltas._findsnapshots(rlog, result15, 15) result15 = dict(result15.items()) if result15 != snapshotmap15: print('snapshot map differ:') print(' expected: %s' % snapshotmap15) print(' got: %s' % result15) def maintest(): with newtransaction() as tr: rl = newrevlog(recreate=True) expected = writecases(rl, tr) checkrevlog(rl, expected) print('local test passed') # Copy via revlog.addgroup rl1 = addgroupcopy(rl, tr) checkrevlog(rl1, expected) rl2 = addgroupcopy(rl, tr, optimaldelta=False) checkrevlog(rl2, expected) print('addgroupcopy test passed') # Copy via revlog.clone rl3 = newrevlog(name=b'_destrevlog3.i', recreate=True) rl.clone(tr, rl3) checkrevlog(rl3, expected) print('clone test passed') # Copy via low-level revlog._addrevision rl4 = lowlevelcopy(rl, tr) checkrevlog(rl4, expected) print('lowlevelcopy test passed') slicingtest(rl) print('slicing test passed') rl5 = makesnapshot(tr) issnapshottest(rl5) print('issnapshot test passed') findsnapshottest(rl5) print('findsnapshot test passed') try: maintest() except Exception as ex: abort('crashed: %s' % ex)