Mercurial > hg
view hgext/largefiles/lfutil.py @ 44763:94f4f2ec7dee stable
packaging: support building Inno installer with PyOxidizer
We want to start distributing Mercurial on Python 3 on
Windows. PyOxidizer will be our vehicle for achieving that.
This commit implements basic support for producing Inno
installers using PyOxidizer.
While it is an eventual goal of PyOxidizer to produce
installers, those features aren't yet implemented. So our
strategy for producing Mercurial installers is similar to
what we've been doing with py2exe: invoke a build system to
produce files then stage those files into a directory so they
can be turned into an installer.
We had to make significant alterations to the pyoxidizer.bzl
config file to get it to produce the files that we desire for
a Windows install. This meant differentiating the build targets
so we can target Windows specifically.
We've added a new module to hgpackaging to deal with interacting
with PyOxidizer. It is similar to pyexe: we invoke a build process
then copy files to a staging directory. Ideally these extra
files would be defined in pyoxidizer.bzl. But I don't think it
is worth doing at this time, as PyOxidizer's config files are
lacking some features to make this turnkey.
The rest of the change is introducing a variant of the
Inno installer code that invokes PyOxidizer instead of
py2exe.
Comparing the Python 2.7 based Inno installers with this
one, the following changes were observed:
* No lib/*.{pyd, dll} files
* No Microsoft.VC90.CRT.manifest
* No msvc{m,p,r}90.dll files
* python27.dll replaced with python37.dll
* Add vcruntime140.dll file
The disappearance of the .pyd and .dll files is acceptable, as
PyOxidizer has embedded these in hg.exe and loads them from
memory.
The disappearance of the *90* files is acceptable because those
provide the Visual C++ 9 runtime, as required by Python 2.7.
Similarly, the appearance of vcruntime140.dll is a requirement
of Python 3.7.
Differential Revision: https://phab.mercurial-scm.org/D8473
author | Gregory Szorc <gregory.szorc@gmail.com> |
---|---|
date | Thu, 23 Apr 2020 18:06:02 -0700 |
parents | ca82929e433d |
children | 89a2afe31e82 |
line wrap: on
line source
# Copyright 2009-2010 Gregory P. Ward # Copyright 2009-2010 Intelerad Medical Systems Incorporated # Copyright 2010-2011 Fog Creek Software # Copyright 2010-2011 Unity Technologies # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. '''largefiles utility code: must not import other modules in this package.''' from __future__ import absolute_import import contextlib import copy import os import stat from mercurial.i18n import _ from mercurial.node import hex from mercurial.pycompat import open from mercurial import ( dirstate, encoding, error, httpconnection, match as matchmod, node, pycompat, scmutil, sparse, util, vfs as vfsmod, ) from mercurial.utils import hashutil shortname = b'.hglf' shortnameslash = shortname + b'/' longname = b'largefiles' # -- Private worker functions ------------------------------------------ @contextlib.contextmanager def lfstatus(repo, value=True): oldvalue = getattr(repo, 'lfstatus', False) repo.lfstatus = value try: yield finally: repo.lfstatus = oldvalue def getminsize(ui, assumelfiles, opt, default=10): lfsize = opt if not lfsize and assumelfiles: lfsize = ui.config(longname, b'minsize', default=default) if lfsize: try: lfsize = float(lfsize) except ValueError: raise error.Abort( _(b'largefiles: size must be number (not %s)\n') % lfsize ) if lfsize is None: raise error.Abort(_(b'minimum size for largefiles must be specified')) return lfsize def link(src, dest): """Try to create hardlink - if that fails, efficiently make a copy.""" util.makedirs(os.path.dirname(dest)) try: util.oslink(src, dest) except OSError: # if hardlinks fail, fallback on atomic copy with open(src, b'rb') as srcf, util.atomictempfile(dest) as dstf: for chunk in util.filechunkiter(srcf): dstf.write(chunk) os.chmod(dest, os.stat(src).st_mode) def usercachepath(ui, hash): '''Return the correct location in the "global" largefiles cache for a file with the given hash. This cache is used for sharing of largefiles across repositories - both to preserve download bandwidth and storage space.''' return os.path.join(_usercachedir(ui), hash) def _usercachedir(ui, name=longname): '''Return the location of the "global" largefiles cache.''' path = ui.configpath(name, b'usercache') if path: return path hint = None if pycompat.iswindows: appdata = encoding.environ.get( b'LOCALAPPDATA', encoding.environ.get(b'APPDATA') ) if appdata: return os.path.join(appdata, name) hint = _(b"define %s or %s in the environment, or set %s.usercache") % ( b"LOCALAPPDATA", b"APPDATA", name, ) elif pycompat.isdarwin: home = encoding.environ.get(b'HOME') if home: return os.path.join(home, b'Library', b'Caches', name) hint = _(b"define %s in the environment, or set %s.usercache") % ( b"HOME", name, ) elif pycompat.isposix: path = encoding.environ.get(b'XDG_CACHE_HOME') if path: return os.path.join(path, name) home = encoding.environ.get(b'HOME') if home: return os.path.join(home, b'.cache', name) hint = _(b"define %s or %s in the environment, or set %s.usercache") % ( b"XDG_CACHE_HOME", b"HOME", name, ) else: raise error.Abort( _(b'unknown operating system: %s\n') % pycompat.osname ) raise error.Abort(_(b'unknown %s usercache location') % name, hint=hint) def inusercache(ui, hash): path = usercachepath(ui, hash) return os.path.exists(path) def findfile(repo, hash): '''Return store path of the largefile with the specified hash. As a side effect, the file might be linked from user cache. Return None if the file can't be found locally.''' path, exists = findstorepath(repo, hash) if exists: repo.ui.note(_(b'found %s in store\n') % hash) return path elif inusercache(repo.ui, hash): repo.ui.note(_(b'found %s in system cache\n') % hash) path = storepath(repo, hash) link(usercachepath(repo.ui, hash), path) return path return None class largefilesdirstate(dirstate.dirstate): def __getitem__(self, key): return super(largefilesdirstate, self).__getitem__(unixpath(key)) def normal(self, f): return super(largefilesdirstate, self).normal(unixpath(f)) def remove(self, f): return super(largefilesdirstate, self).remove(unixpath(f)) def add(self, f): return super(largefilesdirstate, self).add(unixpath(f)) def drop(self, f): return super(largefilesdirstate, self).drop(unixpath(f)) def forget(self, f): return super(largefilesdirstate, self).forget(unixpath(f)) def normallookup(self, f): return super(largefilesdirstate, self).normallookup(unixpath(f)) def _ignore(self, f): return False def write(self, tr=False): # (1) disable PENDING mode always # (lfdirstate isn't yet managed as a part of the transaction) # (2) avoid develwarn 'use dirstate.write with ....' super(largefilesdirstate, self).write(None) def openlfdirstate(ui, repo, create=True): ''' Return a dirstate object that tracks largefiles: i.e. its root is the repo root, but it is saved in .hg/largefiles/dirstate. ''' vfs = repo.vfs lfstoredir = longname opener = vfsmod.vfs(vfs.join(lfstoredir)) lfdirstate = largefilesdirstate( opener, ui, repo.root, repo.dirstate._validate, lambda: sparse.matcher(repo), ) # If the largefiles dirstate does not exist, populate and create # it. This ensures that we create it on the first meaningful # largefiles operation in a new clone. if create and not vfs.exists(vfs.join(lfstoredir, b'dirstate')): matcher = getstandinmatcher(repo) standins = repo.dirstate.walk( matcher, subrepos=[], unknown=False, ignored=False ) if len(standins) > 0: vfs.makedirs(lfstoredir) for standin in standins: lfile = splitstandin(standin) lfdirstate.normallookup(lfile) return lfdirstate def lfdirstatestatus(lfdirstate, repo): pctx = repo[b'.'] match = matchmod.always() unsure, s = lfdirstate.status( match, subrepos=[], ignored=False, clean=False, unknown=False ) modified, clean = s.modified, s.clean for lfile in unsure: try: fctx = pctx[standin(lfile)] except LookupError: fctx = None if not fctx or readasstandin(fctx) != hashfile(repo.wjoin(lfile)): modified.append(lfile) else: clean.append(lfile) lfdirstate.normal(lfile) return s def listlfiles(repo, rev=None, matcher=None): '''return a list of largefiles in the working copy or the specified changeset''' if matcher is None: matcher = getstandinmatcher(repo) # ignore unknown files in working directory return [ splitstandin(f) for f in repo[rev].walk(matcher) if rev is not None or repo.dirstate[f] != b'?' ] def instore(repo, hash, forcelocal=False): '''Return true if a largefile with the given hash exists in the store''' return os.path.exists(storepath(repo, hash, forcelocal)) def storepath(repo, hash, forcelocal=False): '''Return the correct location in the repository largefiles store for a file with the given hash.''' if not forcelocal and repo.shared(): return repo.vfs.reljoin(repo.sharedpath, longname, hash) return repo.vfs.join(longname, hash) def findstorepath(repo, hash): '''Search through the local store path(s) to find the file for the given hash. If the file is not found, its path in the primary store is returned. The return value is a tuple of (path, exists(path)). ''' # For shared repos, the primary store is in the share source. But for # backward compatibility, force a lookup in the local store if it wasn't # found in the share source. path = storepath(repo, hash, False) if instore(repo, hash): return (path, True) elif repo.shared() and instore(repo, hash, True): return storepath(repo, hash, True), True return (path, False) def copyfromcache(repo, hash, filename): '''Copy the specified largefile from the repo or system cache to filename in the repository. Return true on success or false if the file was not found in either cache (which should not happened: this is meant to be called only after ensuring that the needed largefile exists in the cache).''' wvfs = repo.wvfs path = findfile(repo, hash) if path is None: return False wvfs.makedirs(wvfs.dirname(wvfs.join(filename))) # The write may fail before the file is fully written, but we # don't use atomic writes in the working copy. with open(path, b'rb') as srcfd, wvfs(filename, b'wb') as destfd: gothash = copyandhash(util.filechunkiter(srcfd), destfd) if gothash != hash: repo.ui.warn( _(b'%s: data corruption in %s with hash %s\n') % (filename, path, gothash) ) wvfs.unlink(filename) return False return True def copytostore(repo, ctx, file, fstandin): wvfs = repo.wvfs hash = readasstandin(ctx[fstandin]) if instore(repo, hash): return if wvfs.exists(file): copytostoreabsolute(repo, wvfs.join(file), hash) else: repo.ui.warn( _(b"%s: largefile %s not available from local store\n") % (file, hash) ) def copyalltostore(repo, node): '''Copy all largefiles in a given revision to the store''' ctx = repo[node] for filename in ctx.files(): realfile = splitstandin(filename) if realfile is not None and filename in ctx.manifest(): copytostore(repo, ctx, realfile, filename) def copytostoreabsolute(repo, file, hash): if inusercache(repo.ui, hash): link(usercachepath(repo.ui, hash), storepath(repo, hash)) else: util.makedirs(os.path.dirname(storepath(repo, hash))) with open(file, b'rb') as srcf: with util.atomictempfile( storepath(repo, hash), createmode=repo.store.createmode ) as dstf: for chunk in util.filechunkiter(srcf): dstf.write(chunk) linktousercache(repo, hash) def linktousercache(repo, hash): '''Link / copy the largefile with the specified hash from the store to the cache.''' path = usercachepath(repo.ui, hash) link(storepath(repo, hash), path) def getstandinmatcher(repo, rmatcher=None): '''Return a match object that applies rmatcher to the standin directory''' wvfs = repo.wvfs standindir = shortname # no warnings about missing files or directories badfn = lambda f, msg: None if rmatcher and not rmatcher.always(): pats = [wvfs.join(standindir, pat) for pat in rmatcher.files()] if not pats: pats = [wvfs.join(standindir)] match = scmutil.match(repo[None], pats, badfn=badfn) else: # no patterns: relative to repo root match = scmutil.match(repo[None], [wvfs.join(standindir)], badfn=badfn) return match def composestandinmatcher(repo, rmatcher): '''Return a matcher that accepts standins corresponding to the files accepted by rmatcher. Pass the list of files in the matcher as the paths specified by the user.''' smatcher = getstandinmatcher(repo, rmatcher) isstandin = smatcher.matchfn def composedmatchfn(f): return isstandin(f) and rmatcher.matchfn(splitstandin(f)) smatcher.matchfn = composedmatchfn return smatcher def standin(filename): '''Return the repo-relative path to the standin for the specified big file.''' # Notes: # 1) Some callers want an absolute path, but for instance addlargefiles # needs it repo-relative so it can be passed to repo[None].add(). So # leave it up to the caller to use repo.wjoin() to get an absolute path. # 2) Join with '/' because that's what dirstate always uses, even on # Windows. Change existing separator to '/' first in case we are # passed filenames from an external source (like the command line). return shortnameslash + util.pconvert(filename) def isstandin(filename): '''Return true if filename is a big file standin. filename must be in Mercurial's internal form (slash-separated).''' return filename.startswith(shortnameslash) def splitstandin(filename): # Split on / because that's what dirstate always uses, even on Windows. # Change local separator to / first just in case we are passed filenames # from an external source (like the command line). bits = util.pconvert(filename).split(b'/', 1) if len(bits) == 2 and bits[0] == shortname: return bits[1] else: return None def updatestandin(repo, lfile, standin): """Re-calculate hash value of lfile and write it into standin This assumes that "lfutil.standin(lfile) == standin", for efficiency. """ file = repo.wjoin(lfile) if repo.wvfs.exists(lfile): hash = hashfile(file) executable = getexecutable(file) writestandin(repo, standin, hash, executable) else: raise error.Abort(_(b'%s: file not found!') % lfile) def readasstandin(fctx): '''read hex hash from given filectx of standin file This encapsulates how "standin" data is stored into storage layer.''' return fctx.data().strip() def writestandin(repo, standin, hash, executable): '''write hash to <repo.root>/<standin>''' repo.wwrite(standin, hash + b'\n', executable and b'x' or b'') def copyandhash(instream, outfile): '''Read bytes from instream (iterable) and write them to outfile, computing the SHA-1 hash of the data along the way. Return the hash.''' hasher = hashutil.sha1(b'') for data in instream: hasher.update(data) outfile.write(data) return hex(hasher.digest()) def hashfile(file): if not os.path.exists(file): return b'' with open(file, b'rb') as fd: return hexsha1(fd) def getexecutable(filename): mode = os.stat(filename).st_mode return ( (mode & stat.S_IXUSR) and (mode & stat.S_IXGRP) and (mode & stat.S_IXOTH) ) def urljoin(first, second, *arg): def join(left, right): if not left.endswith(b'/'): left += b'/' if right.startswith(b'/'): right = right[1:] return left + right url = join(first, second) for a in arg: url = join(url, a) return url def hexsha1(fileobj): """hexsha1 returns the hex-encoded sha1 sum of the data in the file-like object data""" h = hashutil.sha1() for chunk in util.filechunkiter(fileobj): h.update(chunk) return hex(h.digest()) def httpsendfile(ui, filename): return httpconnection.httpsendfile(ui, filename, b'rb') def unixpath(path): '''Return a version of path normalized for use with the lfdirstate.''' return util.pconvert(os.path.normpath(path)) def islfilesrepo(repo): '''Return true if the repo is a largefile repo.''' if b'largefiles' in repo.requirements and any( shortnameslash in f[0] for f in repo.store.datafiles() ): return True return any(openlfdirstate(repo.ui, repo, False)) class storeprotonotcapable(Exception): def __init__(self, storetypes): self.storetypes = storetypes def getstandinsstate(repo): standins = [] matcher = getstandinmatcher(repo) wctx = repo[None] for standin in repo.dirstate.walk( matcher, subrepos=[], unknown=False, ignored=False ): lfile = splitstandin(standin) try: hash = readasstandin(wctx[standin]) except IOError: hash = None standins.append((lfile, hash)) return standins def synclfdirstate(repo, lfdirstate, lfile, normallookup): lfstandin = standin(lfile) if lfstandin in repo.dirstate: stat = repo.dirstate._map[lfstandin] state, mtime = stat[0], stat[3] else: state, mtime = b'?', -1 if state == b'n': if normallookup or mtime < 0 or not repo.wvfs.exists(lfile): # state 'n' doesn't ensure 'clean' in this case lfdirstate.normallookup(lfile) else: lfdirstate.normal(lfile) elif state == b'm': lfdirstate.normallookup(lfile) elif state == b'r': lfdirstate.remove(lfile) elif state == b'a': lfdirstate.add(lfile) elif state == b'?': lfdirstate.drop(lfile) def markcommitted(orig, ctx, node): repo = ctx.repo() orig(node) # ATTENTION: "ctx.files()" may differ from "repo[node].files()" # because files coming from the 2nd parent are omitted in the latter. # # The former should be used to get targets of "synclfdirstate", # because such files: # - are marked as "a" by "patch.patch()" (e.g. via transplant), and # - have to be marked as "n" after commit, but # - aren't listed in "repo[node].files()" lfdirstate = openlfdirstate(repo.ui, repo) for f in ctx.files(): lfile = splitstandin(f) if lfile is not None: synclfdirstate(repo, lfdirstate, lfile, False) lfdirstate.write() # As part of committing, copy all of the largefiles into the cache. # # Using "node" instead of "ctx" implies additional "repo[node]" # lookup while copyalltostore(), but can omit redundant check for # files comming from the 2nd parent, which should exist in store # at merging. copyalltostore(repo, node) def getlfilestoupdate(oldstandins, newstandins): changedstandins = set(oldstandins).symmetric_difference(set(newstandins)) filelist = [] for f in changedstandins: if f[0] not in filelist: filelist.append(f[0]) return filelist def getlfilestoupload(repo, missing, addfunc): makeprogress = repo.ui.makeprogress with makeprogress( _(b'finding outgoing largefiles'), unit=_(b'revisions'), total=len(missing), ) as progress: for i, n in enumerate(missing): progress.update(i) parents = [p for p in repo[n].parents() if p != node.nullid] with lfstatus(repo, value=False): ctx = repo[n] files = set(ctx.files()) if len(parents) == 2: mc = ctx.manifest() mp1 = ctx.p1().manifest() mp2 = ctx.p2().manifest() for f in mp1: if f not in mc: files.add(f) for f in mp2: if f not in mc: files.add(f) for f in mc: if mc[f] != mp1.get(f, None) or mc[f] != mp2.get(f, None): files.add(f) for fn in files: if isstandin(fn) and fn in ctx: addfunc(fn, readasstandin(ctx[fn])) def updatestandinsbymatch(repo, match): '''Update standins in the working directory according to specified match This returns (possibly modified) ``match`` object to be used for subsequent commit process. ''' ui = repo.ui # Case 1: user calls commit with no specific files or # include/exclude patterns: refresh and commit all files that # are "dirty". if match is None or match.always(): # Spend a bit of time here to get a list of files we know # are modified so we can compare only against those. # It can cost a lot of time (several seconds) # otherwise to update all standins if the largefiles are # large. lfdirstate = openlfdirstate(ui, repo) dirtymatch = matchmod.always() unsure, s = lfdirstate.status( dirtymatch, subrepos=[], ignored=False, clean=False, unknown=False ) modifiedfiles = unsure + s.modified + s.added + s.removed lfiles = listlfiles(repo) # this only loops through largefiles that exist (not # removed/renamed) for lfile in lfiles: if lfile in modifiedfiles: fstandin = standin(lfile) if repo.wvfs.exists(fstandin): # this handles the case where a rebase is being # performed and the working copy is not updated # yet. if repo.wvfs.exists(lfile): updatestandin(repo, lfile, fstandin) return match lfiles = listlfiles(repo) match._files = repo._subdirlfs(match.files(), lfiles) # Case 2: user calls commit with specified patterns: refresh # any matching big files. smatcher = composestandinmatcher(repo, match) standins = repo.dirstate.walk( smatcher, subrepos=[], unknown=False, ignored=False ) # No matching big files: get out of the way and pass control to # the usual commit() method. if not standins: return match # Refresh all matching big files. It's possible that the # commit will end up failing, in which case the big files will # stay refreshed. No harm done: the user modified them and # asked to commit them, so sooner or later we're going to # refresh the standins. Might as well leave them refreshed. lfdirstate = openlfdirstate(ui, repo) for fstandin in standins: lfile = splitstandin(fstandin) if lfdirstate[lfile] != b'r': updatestandin(repo, lfile, fstandin) # Cook up a new matcher that only matches regular files or # standins corresponding to the big files requested by the # user. Have to modify _files to prevent commit() from # complaining "not tracked" for big files. match = copy.copy(match) origmatchfn = match.matchfn # Check both the list of largefiles and the list of # standins because if a largefile was removed, it # won't be in the list of largefiles at this point match._files += sorted(standins) actualfiles = [] for f in match._files: fstandin = standin(f) # For largefiles, only one of the normal and standin should be # committed (except if one of them is a remove). In the case of a # standin removal, drop the normal file if it is unknown to dirstate. # Thus, skip plain largefile names but keep the standin. if f in lfiles or fstandin in standins: if repo.dirstate[fstandin] != b'r': if repo.dirstate[f] != b'r': continue elif repo.dirstate[f] == b'?': continue actualfiles.append(f) match._files = actualfiles def matchfn(f): if origmatchfn(f): return f not in lfiles else: return f in standins match.matchfn = matchfn return match class automatedcommithook(object): '''Stateful hook to update standins at the 1st commit of resuming For efficiency, updating standins in the working directory should be avoided while automated committing (like rebase, transplant and so on), because they should be updated before committing. But the 1st commit of resuming automated committing (e.g. ``rebase --continue``) should update them, because largefiles may be modified manually. ''' def __init__(self, resuming): self.resuming = resuming def __call__(self, repo, match): if self.resuming: self.resuming = False # avoids updating at subsequent commits return updatestandinsbymatch(repo, match) else: return match def getstatuswriter(ui, repo, forcibly=None): '''Return the function to write largefiles specific status out If ``forcibly`` is ``None``, this returns the last element of ``repo._lfstatuswriters`` as "default" writer function. Otherwise, this returns the function to always write out (or ignore if ``not forcibly``) status. ''' if forcibly is None and util.safehasattr(repo, b'_largefilesenabled'): return repo._lfstatuswriters[-1] else: if forcibly: return ui.status # forcibly WRITE OUT else: return lambda *msg, **opts: None # forcibly IGNORE