upstream/mercurial-mirror Files · hgext/convert/monotone.py

bookmarks: use recordchange instead of writing if transaction is active...

bookmarks: use recordchange instead of writing if transaction is active Before this patch, 'bmstore.write()' always write in-memory bookmark changes into '.hg/bookmarks' regardless of transaction activity. If 'bmstore.write()' is invoked inside a transaction and it writes changes into '.hg/bookmarks', then: - original bookmarks aren't restored at failure of that transaction This breaks "all or nothing" policy of the transaction. BTW, "hg rollback" can restore bookmarks successfully even before this patch, because original bookmarks are saved into '.hg/journal.bookmarks' at the beginning of the transaction, and it (actually renamed as '.hg/undo.bookmarks') is used by "hg rollback". - uncommitted bookmark changes are visible to other processes This is a kind of "dirty read" For example, 'rebase.rebase()' implies 'bmstore.write()', and it may be executed inside the transaction of "hg unshelve". Then, intentional aborting at the end of "hg unshelve" transaction doesn't restore original bookmarks (this is obviously a bug). This patch uses 'bmstore.recordchange()' instead of actual writing by 'bmstore._writerepo()', if any transaction is active This patch also removes meaningless restoring bmstore explicitly at the end of "hg shelve". This patch doesn't choose fixing each 'bmstore.write()' callers as like below, because writing similar code here and there is very redundant. before: bmstore.write() after: tr = repo.currenttransaction() if tr: bmstore.recordchange(tr) else: bmstore.write() Even though 'bmstore.write()' itself may have to be discarded by putting bookmark operations into transaction scope, this patch chose fixing it to implement "transactional dirstate" at first.

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      # monotone.py - monotone support for the convert extension

      #

      #  Copyright 2008, 2009 Mikkel Fahnoe Jorgensen <mikkel@dvide.com> and

      #  others

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      import os, re

      from mercurial import util

      from common import NoRepo, commit, converter_source, checktool

      from common import commandline

      from mercurial.i18n import _

      class monotone_source(converter_source, commandline):

          def __init__(self, ui, path=None, revs=None):

              converter_source.__init__(self, ui, path, revs)

              if revs and len(revs) > 1:

                  raise util.Abort(_('monotone source does not support specifying '

                                     'multiple revs'))

              commandline.__init__(self, ui, 'mtn')

              self.ui = ui

              self.path = path

              self.automatestdio = False

              self.revs = revs

              norepo = NoRepo(_("%s does not look like a monotone repository")

                              % path)

              if not os.path.exists(os.path.join(path, '_MTN')):

                  # Could be a monotone repository (SQLite db file)

                  try:

                      f = file(path, 'rb')

                      header = f.read(16)

                      f.close()

                  except IOError:

                      header = ''

                  if header != 'SQLite format 3\x00':

                      raise norepo

              # regular expressions for parsing monotone output

              space    = r'\s*'

              name     = r'\s+"((?:\\"|[^"])*)"\s*'

              value    = name

              revision = r'\s+\[(\w+)\]\s*'

              lines    = r'(?:.|\n)+'

              self.dir_re      = re.compile(space + "dir" + name)

              self.file_re     = re.compile(space + "file" + name +

                                            "content" + revision)

              self.add_file_re = re.compile(space + "add_file" + name +

                                            "content" + revision)

              self.patch_re    = re.compile(space + "patch" + name +

                                            "from" + revision + "to" + revision)

              self.rename_re   = re.compile(space + "rename" + name + "to" + name)

              self.delete_re   = re.compile(space + "delete" + name)

              self.tag_re      = re.compile(space + "tag" + name + "revision" +

                                            revision)

              self.cert_re     = re.compile(lines + space + "name" + name +

                                            "value" + value)

              attr = space + "file" + lines + space + "attr" + space

              self.attr_execute_re = re.compile(attr  + '"mtn:execute"' +

                                                space + '"true"')

              # cached data

              self.manifest_rev = None

              self.manifest = None

              self.files = None

              self.dirs  = None

              checktool('mtn', abort=False)

          def mtnrun(self, *args, **kwargs):

              if self.automatestdio:

                  return self.mtnrunstdio(*args, **kwargs)

              else:

                  return self.mtnrunsingle(*args, **kwargs)

          def mtnrunsingle(self, *args, **kwargs):

              kwargs['d'] = self.path

              return self.run0('automate', *args, **kwargs)

          def mtnrunstdio(self, *args, **kwargs):

              # Prepare the command in automate stdio format

              command = []

              for k, v in kwargs.iteritems():

                  command.append("%s:%s" % (len(k), k))

                  if v:

                      command.append("%s:%s" % (len(v), v))

              if command:

                  command.insert(0, 'o')

                  command.append('e')

              command.append('l')

              for arg in args:

                  command += "%s:%s" % (len(arg), arg)

              command.append('e')

              command = ''.join(command)

              self.ui.debug("mtn: sending '%s'\n" % command)

              self.mtnwritefp.write(command)

              self.mtnwritefp.flush()

              return self.mtnstdioreadcommandoutput(command)

          def mtnstdioreadpacket(self):

              read = None

              commandnbr = ''

              while read != ':':

                  read = self.mtnreadfp.read(1)

                  if not read:

                      raise util.Abort(_('bad mtn packet - no end of commandnbr'))

                  commandnbr += read

              commandnbr = commandnbr[:-1]

              stream = self.mtnreadfp.read(1)

              if stream not in 'mewptl':

                  raise util.Abort(_('bad mtn packet - bad stream type %s') % stream)

              read = self.mtnreadfp.read(1)

              if read != ':':

                  raise util.Abort(_('bad mtn packet - no divider before size'))

              read = None

              lengthstr = ''

              while read != ':':

                  read = self.mtnreadfp.read(1)

                  if not read:

                      raise util.Abort(_('bad mtn packet - no end of packet size'))

                  lengthstr += read

              try:

                  length = long(lengthstr[:-1])

              except TypeError:

                  raise util.Abort(_('bad mtn packet - bad packet size %s')

                      % lengthstr)

              read = self.mtnreadfp.read(length)

              if len(read) != length:

                  raise util.Abort(_("bad mtn packet - unable to read full packet "

                      "read %s of %s") % (len(read), length))

              return (commandnbr, stream, length, read)

          def mtnstdioreadcommandoutput(self, command):

              retval = []

              while True:

                  commandnbr, stream, length, output = self.mtnstdioreadpacket()

                  self.ui.debug('mtn: read packet %s:%s:%s\n' %

                      (commandnbr, stream, length))

                  if stream == 'l':

                      # End of command

                      if output != '0':

                          raise util.Abort(_("mtn command '%s' returned %s") %

                              (command, output))

                      break

                  elif stream in 'ew':

                      # Error, warning output

                      self.ui.warn(_('%s error:\n') % self.command)

                      self.ui.warn(output)

                  elif stream == 'p':

                      # Progress messages

                      self.ui.debug('mtn: ' + output)

                  elif stream == 'm':

                      # Main stream - command output

                      retval.append(output)

              return ''.join(retval)

          def mtnloadmanifest(self, rev):

              if self.manifest_rev == rev:

                  return

              self.manifest = self.mtnrun("get_manifest_of", rev).split("\n\n")

              self.manifest_rev = rev

              self.files = {}

              self.dirs = {}

              for e in self.manifest:

                  m = self.file_re.match(e)

                  if m:

                      attr = ""

                      name = m.group(1)

                      node = m.group(2)

                      if self.attr_execute_re.match(e):

                          attr += "x"

                      self.files[name] = (node, attr)

                  m = self.dir_re.match(e)

                  if m:

                      self.dirs[m.group(1)] = True

          def mtnisfile(self, name, rev):

              # a non-file could be a directory or a deleted or renamed file

              self.mtnloadmanifest(rev)

              return name in self.files

          def mtnisdir(self, name, rev):

              self.mtnloadmanifest(rev)

              return name in self.dirs

          def mtngetcerts(self, rev):

              certs = {"author":"<missing>", "date":"<missing>",

                  "changelog":"<missing>", "branch":"<missing>"}

              certlist = self.mtnrun("certs", rev)

              # mtn < 0.45:

              #   key "test@selenic.com"

              # mtn >= 0.45:

              #   key [ff58a7ffb771907c4ff68995eada1c4da068d328]

              certlist = re.split('\n\n      key ["\[]', certlist)

              for e in certlist:

                  m = self.cert_re.match(e)

                  if m:

                      name, value = m.groups()

                      value = value.replace(r'\"', '"')

                      value = value.replace(r'\\', '\\')

                      certs[name] = value

              # Monotone may have subsecond dates: 2005-02-05T09:39:12.364306

              # and all times are stored in UTC

              certs["date"] = certs["date"].split('.')[0] + " UTC"

              return certs

          # implement the converter_source interface:

          def getheads(self):

              if not self.revs:

                  return self.mtnrun("leaves").splitlines()

              else:

                  return self.revs

          def getchanges(self, rev, full):

              if full:

                  raise util.Abort(_("convert from monotone do not support --full"))

              revision = self.mtnrun("get_revision", rev).split("\n\n")

              files = {}

              ignoremove = {}

              renameddirs = []

              copies = {}

              for e in revision:

                  m = self.add_file_re.match(e)

                  if m:

                      files[m.group(1)] = rev

                      ignoremove[m.group(1)] = rev

                  m = self.patch_re.match(e)

                  if m:

                      files[m.group(1)] = rev

                  # Delete/rename is handled later when the convert engine

                  # discovers an IOError exception from getfile,

                  # but only if we add the "from" file to the list of changes.

                  m = self.delete_re.match(e)

                  if m:

                      files[m.group(1)] = rev

                  m = self.rename_re.match(e)

                  if m:

                      toname = m.group(2)

                      fromname = m.group(1)

                      if self.mtnisfile(toname, rev):

                          ignoremove[toname] = 1

                          copies[toname] = fromname

                          files[toname] = rev

                          files[fromname] = rev

                      elif self.mtnisdir(toname, rev):

                          renameddirs.append((fromname, toname))

              # Directory renames can be handled only once we have recorded

              # all new files

              for fromdir, todir in renameddirs:

                  renamed = {}

                  for tofile in self.files:

                      if tofile in ignoremove:

                          continue

                      if tofile.startswith(todir + '/'):

                          renamed[tofile] = fromdir + tofile[len(todir):]

                          # Avoid chained moves like:

                          # d1(/a) => d3/d1(/a)

                          # d2 => d3

                          ignoremove[tofile] = 1

                  for tofile, fromfile in renamed.items():

                      self.ui.debug (_("copying file in renamed directory "

                                       "from '%s' to '%s'")

                                     % (fromfile, tofile), '\n')

                      files[tofile] = rev

                      copies[tofile] = fromfile

                  for fromfile in renamed.values():

                      files[fromfile] = rev

              return (files.items(), copies, set())

          def getfile(self, name, rev):

              if not self.mtnisfile(name, rev):

                  return None, None

              try:

                  data = self.mtnrun("get_file_of", name, r=rev)

              except Exception:

                  return None, None

              self.mtnloadmanifest(rev)

              node, attr = self.files.get(name, (None, ""))

              return data, attr

          def getcommit(self, rev):

              extra = {}

              certs = self.mtngetcerts(rev)

              if certs.get('suspend') == certs["branch"]:

                  extra['close'] = 1

              return commit(

                  author=certs["author"],

                  date=util.datestr(util.strdate(certs["date"], "%Y-%m-%dT%H:%M:%S")),

                  desc=certs["changelog"],

                  rev=rev,

                  parents=self.mtnrun("parents", rev).splitlines(),

                  branch=certs["branch"],

                  extra=extra)

          def gettags(self):

              tags = {}

              for e in self.mtnrun("tags").split("\n\n"):

                  m = self.tag_re.match(e)

                  if m:

                      tags[m.group(1)] = m.group(2)

              return tags

          def getchangedfiles(self, rev, i):

              # This function is only needed to support --filemap

              # ... and we don't support that

              raise NotImplementedError

          def before(self):

              # Check if we have a new enough version to use automate stdio

              version = 0.0

              try:

                  versionstr = self.mtnrunsingle("interface_version")

                  version = float(versionstr)

              except Exception:

                  raise util.Abort(_("unable to determine mtn automate interface "

                      "version"))

              if version >= 12.0:

                  self.automatestdio = True

                  self.ui.debug("mtn automate version %s - using automate stdio\n" %

                      version)

                  # launch the long-running automate stdio process

                  self.mtnwritefp, self.mtnreadfp = self._run2('automate', 'stdio',

                      '-d', self.path)

                  # read the headers

                  read = self.mtnreadfp.readline()

                  if read != 'format-version: 2\n':

                      raise util.Abort(_('mtn automate stdio header unexpected: %s')

                          % read)

                  while read != '\n':

                      read = self.mtnreadfp.readline()

                      if not read:

                          raise util.Abort(_("failed to reach end of mtn automate "

                              "stdio headers"))

              else:

                  self.ui.debug("mtn automate version %s - not using automate stdio "

                      "(automate >= 12.0 - mtn >= 0.46 is needed)\n" % version)

          def after(self):

              if self.automatestdio:

                  self.mtnwritefp.close()

                  self.mtnwritefp = None

                  self.mtnreadfp.close()

                  self.mtnreadfp = None

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				# monotone.py - monotone support for the convert extension
				#
				# Copyright 2008, 2009 Mikkel Fahnoe Jorgensen <mikkel@dvide.com> and
				# others
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				import os, re
				from mercurial import util
				from common import NoRepo, commit, converter_source, checktool
				from common import commandline
				from mercurial.i18n import _

				class monotone_source(converter_source, commandline):
				def __init__(self, ui, path=None, revs=None):
				converter_source.__init__(self, ui, path, revs)
				if revs and len(revs) > 1:
				raise util.Abort(_('monotone source does not support specifying '
				'multiple revs'))
				commandline.__init__(self, ui, 'mtn')

				self.ui = ui
				self.path = path
				self.automatestdio = False
				self.revs = revs

				norepo = NoRepo(_("%s does not look like a monotone repository")
				% path)
				if not os.path.exists(os.path.join(path, '_MTN')):
				# Could be a monotone repository (SQLite db file)
				try:
				f = file(path, 'rb')
				header = f.read(16)
				f.close()
				except IOError:
				header = ''
				if header != 'SQLite format 3\x00':
				raise norepo

				# regular expressions for parsing monotone output
				space = r'\s*'
				name = r'\s+"((?:\\"\|[^"]))"\s'
				value = name
				revision = r'\s+\[(\w+)\]\s*'
				lines = r'(?:.\|\n)+'

				self.dir_re = re.compile(space + "dir" + name)
				self.file_re = re.compile(space + "file" + name +
				"content" + revision)
				self.add_file_re = re.compile(space + "add_file" + name +
				"content" + revision)
				self.patch_re = re.compile(space + "patch" + name +
				"from" + revision + "to" + revision)
				self.rename_re = re.compile(space + "rename" + name + "to" + name)
				self.delete_re = re.compile(space + "delete" + name)
				self.tag_re = re.compile(space + "tag" + name + "revision" +
				revision)
				self.cert_re = re.compile(lines + space + "name" + name +
				"value" + value)

				attr = space + "file" + lines + space + "attr" + space
				self.attr_execute_re = re.compile(attr + '"mtn:execute"' +
				space + '"true"')

				# cached data
				self.manifest_rev = None
				self.manifest = None
				self.files = None
				self.dirs = None

				checktool('mtn', abort=False)

				def mtnrun(self, args, *kwargs):
				if self.automatestdio:
				return self.mtnrunstdio(args, *kwargs)
				else:
				return self.mtnrunsingle(args, *kwargs)

				def mtnrunsingle(self, args, *kwargs):
				kwargs['d'] = self.path
				return self.run0('automate', args, *kwargs)

				def mtnrunstdio(self, args, *kwargs):
				# Prepare the command in automate stdio format
				command = []
				for k, v in kwargs.iteritems():
				command.append("%s:%s" % (len(k), k))
				if v:
				command.append("%s:%s" % (len(v), v))
				if command:
				command.insert(0, 'o')
				command.append('e')

				command.append('l')
				for arg in args:
				command += "%s:%s" % (len(arg), arg)
				command.append('e')
				command = ''.join(command)

				self.ui.debug("mtn: sending '%s'\n" % command)
				self.mtnwritefp.write(command)
				self.mtnwritefp.flush()

				return self.mtnstdioreadcommandoutput(command)

				def mtnstdioreadpacket(self):
				read = None
				commandnbr = ''
				while read != ':':
				read = self.mtnreadfp.read(1)
				if not read:
				raise util.Abort(_('bad mtn packet - no end of commandnbr'))
				commandnbr += read
				commandnbr = commandnbr[:-1]

				stream = self.mtnreadfp.read(1)
				if stream not in 'mewptl':
				raise util.Abort(_('bad mtn packet - bad stream type %s') % stream)

				read = self.mtnreadfp.read(1)
				if read != ':':
				raise util.Abort(_('bad mtn packet - no divider before size'))

				read = None
				lengthstr = ''
				while read != ':':
				read = self.mtnreadfp.read(1)
				if not read:
				raise util.Abort(_('bad mtn packet - no end of packet size'))
				lengthstr += read
				try:
				length = long(lengthstr[:-1])
				except TypeError:
				raise util.Abort(_('bad mtn packet - bad packet size %s')
				% lengthstr)

				read = self.mtnreadfp.read(length)
				if len(read) != length:
				raise util.Abort(_("bad mtn packet - unable to read full packet "
				"read %s of %s") % (len(read), length))

				return (commandnbr, stream, length, read)

				def mtnstdioreadcommandoutput(self, command):
				retval = []
				while True:
				commandnbr, stream, length, output = self.mtnstdioreadpacket()
				self.ui.debug('mtn: read packet %s:%s:%s\n' %
				(commandnbr, stream, length))

				if stream == 'l':
				# End of command
				if output != '0':
				raise util.Abort(_("mtn command '%s' returned %s") %
				(command, output))
				break
				elif stream in 'ew':
				# Error, warning output
				self.ui.warn(_('%s error:\n') % self.command)
				self.ui.warn(output)
				elif stream == 'p':
				# Progress messages
				self.ui.debug('mtn: ' + output)
				elif stream == 'm':
				# Main stream - command output
				retval.append(output)

				return ''.join(retval)

				def mtnloadmanifest(self, rev):
				if self.manifest_rev == rev:
				return
				self.manifest = self.mtnrun("get_manifest_of", rev).split("\n\n")
				self.manifest_rev = rev
				self.files = {}
				self.dirs = {}

				for e in self.manifest:
				m = self.file_re.match(e)
				if m:
				attr = ""
				name = m.group(1)
				node = m.group(2)
				if self.attr_execute_re.match(e):
				attr += "x"
				self.files[name] = (node, attr)
				m = self.dir_re.match(e)
				if m:
				self.dirs[m.group(1)] = True

				def mtnisfile(self, name, rev):
				# a non-file could be a directory or a deleted or renamed file
				self.mtnloadmanifest(rev)
				return name in self.files

				def mtnisdir(self, name, rev):
				self.mtnloadmanifest(rev)
				return name in self.dirs

				def mtngetcerts(self, rev):
				certs = {"author":"<missing>", "date":"<missing>",
				"changelog":"<missing>", "branch":"<missing>"}
				certlist = self.mtnrun("certs", rev)
				# mtn < 0.45:
				# key "test@selenic.com"
				# mtn >= 0.45:
				# key [ff58a7ffb771907c4ff68995eada1c4da068d328]
				certlist = re.split('\n\n key ["\[]', certlist)
				for e in certlist:
				m = self.cert_re.match(e)
				if m:
				name, value = m.groups()
				value = value.replace(r'\"', '"')
				value = value.replace(r'\\', '\\')
				certs[name] = value
				# Monotone may have subsecond dates: 2005-02-05T09:39:12.364306
				# and all times are stored in UTC
				certs["date"] = certs["date"].split('.')[0] + " UTC"
				return certs

				# implement the converter_source interface:

				def getheads(self):
				if not self.revs:
				return self.mtnrun("leaves").splitlines()
				else:
				return self.revs

				def getchanges(self, rev, full):
				if full:
				raise util.Abort(_("convert from monotone do not support --full"))
				revision = self.mtnrun("get_revision", rev).split("\n\n")
				files = {}
				ignoremove = {}
				renameddirs = []
				copies = {}
				for e in revision:
				m = self.add_file_re.match(e)
				if m:
				files[m.group(1)] = rev
				ignoremove[m.group(1)] = rev
				m = self.patch_re.match(e)
				if m:
				files[m.group(1)] = rev
				# Delete/rename is handled later when the convert engine
				# discovers an IOError exception from getfile,
				# but only if we add the "from" file to the list of changes.
				m = self.delete_re.match(e)
				if m:
				files[m.group(1)] = rev
				m = self.rename_re.match(e)
				if m:
				toname = m.group(2)
				fromname = m.group(1)
				if self.mtnisfile(toname, rev):
				ignoremove[toname] = 1
				copies[toname] = fromname
				files[toname] = rev
				files[fromname] = rev
				elif self.mtnisdir(toname, rev):
				renameddirs.append((fromname, toname))

				# Directory renames can be handled only once we have recorded
				# all new files
				for fromdir, todir in renameddirs:
				renamed = {}
				for tofile in self.files:
				if tofile in ignoremove:
				continue
				if tofile.startswith(todir + '/'):
				renamed[tofile] = fromdir + tofile[len(todir):]
				# Avoid chained moves like:
				# d1(/a) => d3/d1(/a)
				# d2 => d3
				ignoremove[tofile] = 1
				for tofile, fromfile in renamed.items():
				self.ui.debug (_("copying file in renamed directory "
				"from '%s' to '%s'")
				% (fromfile, tofile), '\n')
				files[tofile] = rev
				copies[tofile] = fromfile
				for fromfile in renamed.values():
				files[fromfile] = rev

				return (files.items(), copies, set())

				def getfile(self, name, rev):
				if not self.mtnisfile(name, rev):
				return None, None
				try:
				data = self.mtnrun("get_file_of", name, r=rev)
				except Exception:
				return None, None
				self.mtnloadmanifest(rev)
				node, attr = self.files.get(name, (None, ""))
				return data, attr

				def getcommit(self, rev):
				extra = {}
				certs = self.mtngetcerts(rev)
				if certs.get('suspend') == certs["branch"]:
				extra['close'] = 1
				return commit(
				author=certs["author"],
				date=util.datestr(util.strdate(certs["date"], "%Y-%m-%dT%H:%M:%S")),
				desc=certs["changelog"],
				rev=rev,
				parents=self.mtnrun("parents", rev).splitlines(),
				branch=certs["branch"],
				extra=extra)

				def gettags(self):
				tags = {}
				for e in self.mtnrun("tags").split("\n\n"):
				m = self.tag_re.match(e)
				if m:
				tags[m.group(1)] = m.group(2)
				return tags

				def getchangedfiles(self, rev, i):
				# This function is only needed to support --filemap
				# ... and we don't support that
				raise NotImplementedError

				def before(self):
				# Check if we have a new enough version to use automate stdio
				version = 0.0
				try:
				versionstr = self.mtnrunsingle("interface_version")
				version = float(versionstr)
				except Exception:
				raise util.Abort(_("unable to determine mtn automate interface "
				"version"))

				if version >= 12.0:
				self.automatestdio = True
				self.ui.debug("mtn automate version %s - using automate stdio\n" %
				version)

				# launch the long-running automate stdio process
				self.mtnwritefp, self.mtnreadfp = self._run2('automate', 'stdio',
				'-d', self.path)
				# read the headers
				read = self.mtnreadfp.readline()
				if read != 'format-version: 2\n':
				raise util.Abort(_('mtn automate stdio header unexpected: %s')
				% read)
				while read != '\n':
				read = self.mtnreadfp.readline()
				if not read:
				raise util.Abort(_("failed to reach end of mtn automate "
				"stdio headers"))
				else:
				self.ui.debug("mtn automate version %s - not using automate stdio "
				"(automate >= 12.0 - mtn >= 0.46 is needed)\n" % version)

				def after(self):
				if self.automatestdio:
				self.mtnwritefp.close()
				self.mtnwritefp = None
				self.mtnreadfp.close()
				self.mtnreadfp = None