Mercurial > hg
view mercurial/archival.py @ 42050:03f6480bfdda
unshelve: disable unshelve during merge (issue5123)
As stated in the issue5123, unshelve can destroy the second parent of
the context when tried to unshelve with an uncommitted merge. This
patch makes unshelve to abort when called with an uncommitted merge.
See how shelve.mergefiles works. Commit structure looks like this:
```
... -> pctx -> tmpwctx -> shelvectx
/
/
second
merge parent
pctx = parent before merging working context(first merge parent)
tmpwctx = commited working directory after merge(with two parents)
shelvectx = shelved context
```
shelve.mergefiles first updates to pctx then it reverts shelvectx to pctx with:
```
cmdutil.revert(ui, repo, shelvectx, repo.dirstate.parents(),
*pathtofiles(repo, files),
**{'no_backup': True})
```
Reverting tmpwctx files that were merged from second parent to pctx makes them
added because they are not in pctx.
Changing this revert operation is crucial to restore parents after unshelve.
This is a complicated issue as this is not fixing a regression. Thus, for the
time being, unshelve during an uncommitted merge can be aborted.
(Details taken from http://mercurial.808500.n3.nabble.com/PATCH-V3-shelve-restore-parents-after-unshelve-issue5123-tt4036858.html#a4037408)
Differential Revision: https://phab.mercurial-scm.org/D6169
| author | Navaneeth Suresh <navaneeths1998@gmail.com> |
|---|---|
| date | Mon, 25 Mar 2019 12:33:41 +0530 |
| parents | 3d9d5e612e67 |
| children | c04e0836f039 |
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# archival.py - revision archival for mercurial # # Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import gzip import os import struct import tarfile import time import zipfile import zlib from .i18n import _ from .node import ( nullrev, ) from . import ( error, formatter, match as matchmod, pycompat, scmutil, util, vfs as vfsmod, ) stringio = util.stringio # from unzip source code: _UNX_IFREG = 0x8000 _UNX_IFLNK = 0xa000 def tidyprefix(dest, kind, prefix): '''choose prefix to use for names in archive. make sure prefix is safe for consumers.''' if prefix: prefix = util.normpath(prefix) else: if not isinstance(dest, bytes): raise ValueError('dest must be string if no prefix') prefix = os.path.basename(dest) lower = prefix.lower() for sfx in exts.get(kind, []): if lower.endswith(sfx): prefix = prefix[:-len(sfx)] break lpfx = os.path.normpath(util.localpath(prefix)) prefix = util.pconvert(lpfx) if not prefix.endswith('/'): prefix += '/' # Drop the leading '.' path component if present, so Windows can read the # zip files (issue4634) if prefix.startswith('./'): prefix = prefix[2:] if prefix.startswith('../') or os.path.isabs(lpfx) or '/../' in prefix: raise error.Abort(_('archive prefix contains illegal components')) return prefix exts = { 'tar': ['.tar'], 'tbz2': ['.tbz2', '.tar.bz2'], 'tgz': ['.tgz', '.tar.gz'], 'zip': ['.zip'], } def guesskind(dest): for kind, extensions in exts.iteritems(): if any(dest.endswith(ext) for ext in extensions): return kind return None def _rootctx(repo): # repo[0] may be hidden for rev in repo: return repo[rev] return repo[nullrev] # {tags} on ctx includes local tags and 'tip', with no current way to limit # that to global tags. Therefore, use {latesttag} as a substitute when # the distance is 0, since that will be the list of global tags on ctx. _defaultmetatemplate = br''' repo: {root} node: {ifcontains(rev, revset("wdir()"), "{p1node}{dirty}", "{node}")} branch: {branch|utf8} {ifeq(latesttagdistance, 0, join(latesttag % "tag: {tag}", "\n"), separate("\n", join(latesttag % "latesttag: {tag}", "\n"), "latesttagdistance: {latesttagdistance}", "changessincelatesttag: {changessincelatesttag}"))} '''[1:] # drop leading '\n' def buildmetadata(ctx): '''build content of .hg_archival.txt''' repo = ctx.repo() opts = { 'template': repo.ui.config('experimental', 'archivemetatemplate', _defaultmetatemplate) } out = util.stringio() fm = formatter.formatter(repo.ui, out, 'archive', opts) fm.startitem() fm.context(ctx=ctx) fm.data(root=_rootctx(repo).hex()) if ctx.rev() is None: dirty = '' if ctx.dirty(missing=True): dirty = '+' fm.data(dirty=dirty) fm.end() return out.getvalue() class tarit(object): '''write archive to tar file or stream. can write uncompressed, or compress with gzip or bzip2.''' class GzipFileWithTime(gzip.GzipFile): def __init__(self, *args, **kw): timestamp = None if r'timestamp' in kw: timestamp = kw.pop(r'timestamp') if timestamp is None: self.timestamp = time.time() else: self.timestamp = timestamp gzip.GzipFile.__init__(self, *args, **kw) def _write_gzip_header(self): self.fileobj.write('\037\213') # magic header self.fileobj.write('\010') # compression method fname = self.name if fname and fname.endswith('.gz'): fname = fname[:-3] flags = 0 if fname: flags = gzip.FNAME self.fileobj.write(pycompat.bytechr(flags)) gzip.write32u(self.fileobj, int(self.timestamp)) self.fileobj.write('\002') self.fileobj.write('\377') if fname: self.fileobj.write(fname + '\000') def __init__(self, dest, mtime, kind=''): self.mtime = mtime self.fileobj = None def taropen(mode, name='', fileobj=None): if kind == 'gz': mode = mode[0:1] if not fileobj: fileobj = open(name, mode + 'b') gzfileobj = self.GzipFileWithTime(name, pycompat.sysstr(mode + 'b'), zlib.Z_BEST_COMPRESSION, fileobj, timestamp=mtime) self.fileobj = gzfileobj return tarfile.TarFile.taropen( name, pycompat.sysstr(mode), gzfileobj) else: return tarfile.open( name, pycompat.sysstr(mode + kind), fileobj) if isinstance(dest, bytes): self.z = taropen('w:', name=dest) else: self.z = taropen('w|', fileobj=dest) def addfile(self, name, mode, islink, data): name = pycompat.fsdecode(name) i = tarfile.TarInfo(name) i.mtime = self.mtime i.size = len(data) if islink: i.type = tarfile.SYMTYPE i.mode = 0o777 i.linkname = pycompat.fsdecode(data) data = None i.size = 0 else: i.mode = mode data = stringio(data) self.z.addfile(i, data) def done(self): self.z.close() if self.fileobj: self.fileobj.close() class zipit(object): '''write archive to zip file or stream. can write uncompressed, or compressed with deflate.''' def __init__(self, dest, mtime, compress=True): if isinstance(dest, bytes): dest = pycompat.fsdecode(dest) self.z = zipfile.ZipFile(dest, r'w', compress and zipfile.ZIP_DEFLATED or zipfile.ZIP_STORED) # Python's zipfile module emits deprecation warnings if we try # to store files with a date before 1980. epoch = 315532800 # calendar.timegm((1980, 1, 1, 0, 0, 0, 1, 1, 0)) if mtime < epoch: mtime = epoch self.mtime = mtime self.date_time = time.gmtime(mtime)[:6] def addfile(self, name, mode, islink, data): i = zipfile.ZipInfo(pycompat.fsdecode(name), self.date_time) i.compress_type = self.z.compression # unzip will not honor unix file modes unless file creator is # set to unix (id 3). i.create_system = 3 ftype = _UNX_IFREG if islink: mode = 0o777 ftype = _UNX_IFLNK i.external_attr = (mode | ftype) << 16 # add "extended-timestamp" extra block, because zip archives # without this will be extracted with unexpected timestamp, # if TZ is not configured as GMT i.extra += struct.pack('<hhBl', 0x5455, # block type: "extended-timestamp" 1 + 4, # size of this block 1, # "modification time is present" int(self.mtime)) # last modification (UTC) self.z.writestr(i, data) def done(self): self.z.close() class fileit(object): '''write archive as files in directory.''' def __init__(self, name, mtime): self.basedir = name self.opener = vfsmod.vfs(self.basedir) self.mtime = mtime def addfile(self, name, mode, islink, data): if islink: self.opener.symlink(data, name) return f = self.opener(name, "w", atomictemp=False) f.write(data) f.close() destfile = os.path.join(self.basedir, name) os.chmod(destfile, mode) if self.mtime is not None: os.utime(destfile, (self.mtime, self.mtime)) def done(self): pass archivers = { 'files': fileit, 'tar': tarit, 'tbz2': lambda name, mtime: tarit(name, mtime, 'bz2'), 'tgz': lambda name, mtime: tarit(name, mtime, 'gz'), 'uzip': lambda name, mtime: zipit(name, mtime, False), 'zip': zipit, } def archive(repo, dest, node, kind, decode=True, match=None, prefix='', mtime=None, subrepos=False): '''create archive of repo as it was at node. dest can be name of directory, name of archive file, or file object to write archive to. kind is type of archive to create. decode tells whether to put files through decode filters from hgrc. match is a matcher to filter names of files to write to archive. prefix is name of path to put before every archive member. mtime is the modified time, in seconds, or None to use the changeset time. subrepos tells whether to include subrepos. ''' if kind == 'files': if prefix: raise error.Abort(_('cannot give prefix when archiving to files')) else: prefix = tidyprefix(dest, kind, prefix) def write(name, mode, islink, getdata): data = getdata() if decode: data = repo.wwritedata(name, data) archiver.addfile(prefix + name, mode, islink, data) if kind not in archivers: raise error.Abort(_("unknown archive type '%s'") % kind) ctx = repo[node] archiver = archivers[kind](dest, mtime or ctx.date()[0]) if not match: match = scmutil.matchall(repo) if repo.ui.configbool("ui", "archivemeta"): name = '.hg_archival.txt' if match(name): write(name, 0o644, False, lambda: buildmetadata(ctx)) files = [f for f in ctx.manifest().matches(match)] total = len(files) if total: files.sort() scmutil.prefetchfiles(repo, [ctx.rev()], scmutil.matchfiles(repo, files)) progress = repo.ui.makeprogress(_('archiving'), unit=_('files'), total=total) progress.update(0) for f in files: ff = ctx.flags(f) write(f, 'x' in ff and 0o755 or 0o644, 'l' in ff, ctx[f].data) progress.increment(item=f) progress.complete() if subrepos: for subpath in sorted(ctx.substate): sub = ctx.workingsub(subpath) submatch = matchmod.subdirmatcher(subpath, match) subprefix = prefix + subpath + '/' total += sub.archive(archiver, subprefix, submatch, decode) if total == 0: raise error.Abort(_('no files match the archive pattern')) archiver.done() return total