upstream/mercurial-mirror Files · mercurial/lock.py

exchangev2: fetch manifest revisions...

exchangev2: fetch manifest revisions Now that the server has support for retrieving manifest data, we can implement the client bits to call it. We teach the changeset fetching code to capture the manifest revisions that are encountered on incoming changesets. We then feed this into a new function which filters out known manifests and then batches up manifest data requests to the server. This is different from the previous wire protocol in a few notable ways. First, the client fetches manifest data separately and explicitly. Before, we'd ask the server for data pertaining to some changesets (via a "getbundle" command) and manifests (and files) would be sent automatically. Providing an API for looking up just manifest data separately gives clients much more flexibility for manifest management. For example, a client may choose to only fetch manifest data on demand instead of prefetching it (i.e. partial clone). Second, we send N commands to the server for manifest retrieval instead of 1. This property has a few nice side-effects. One is that the deterministic nature of the requests lends itself to server-side caching. For example, say the remote has 50,000 manifests. If the server is configured to cache responses, each time a new commit arrives, you will have a cache miss and need to regenerate all outgoing data. But if you makes N requests requesting 10,000 manifests each, a new commit will still yield cache hits on the initial, unchanged manifest batches/requests. A derived benefit from these properties is that resumable clone is conceptually simpler to implement. When making a monolithic request for all of the repository data, recovering from an interrupted clone is hard because the server was in the driver's seat and was maintaining state about all the data that needed transferred. With the client driving fetching, the client can persist the set of unfetched entities and retry/resume a fetch if something goes wrong. Or we can fetch all data N changesets at a time and slowly build up a repository. This approach is drastically easier to implement when we have server APIs exposing low-level repository primitives (such as manifests and files). We don't yet support tree manifests. But it should be possible to implement that with the existing wire protocol command. Differential Revision: https://phab.mercurial-scm.org/D4489

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      # lock.py - simple advisory locking scheme for mercurial

      #

      # Copyright 2005, 2006 Matt Mackall <mpm@selenic.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 contextlib

      import errno

      import os

      import signal

      import socket

      import time

      import warnings

      from .i18n import _

      from . import (

          encoding,

          error,

          pycompat,

          util,

      )

      from .utils import (

          procutil,

      )

      def _getlockprefix():

          """Return a string which is used to differentiate pid namespaces

          It's useful to detect "dead" processes and remove stale locks with

          confidence. Typically it's just hostname. On modern linux, we include an

          extra Linux-specific pid namespace identifier.

          """

          result = encoding.strtolocal(socket.gethostname())

          if pycompat.sysplatform.startswith('linux'):

              try:

                  result += '/%x' % os.stat('/proc/self/ns/pid').st_ino

              except OSError as ex:

                  if ex.errno not in (errno.ENOENT, errno.EACCES, errno.ENOTDIR):

                      raise

          return result

      @contextlib.contextmanager

      def _delayedinterrupt():

          """Block signal interrupt while doing something critical

          This makes sure that the code block wrapped by this context manager won't

          be interrupted.

          For Windows developers: It appears not possible to guard time.sleep()

          from CTRL_C_EVENT, so please don't use time.sleep() to test if this is

          working.

          """

          assertedsigs = []

          blocked = False

          orighandlers = {}

          def raiseinterrupt(num):

              if (num == getattr(signal, 'SIGINT', None) or

                  num == getattr(signal, 'CTRL_C_EVENT', None)):

                  raise KeyboardInterrupt

              else:

                  raise error.SignalInterrupt

          def catchterm(num, frame):

              if blocked:

                  assertedsigs.append(num)

              else:

                  raiseinterrupt(num)

          try:

              # save handlers first so they can be restored even if a setup is

              # interrupted between signal.signal() and orighandlers[] =.

              for name in ['CTRL_C_EVENT', 'SIGINT', 'SIGBREAK', 'SIGHUP', 'SIGTERM']:

                  num = getattr(signal, name, None)

                  if num and num not in orighandlers:

                      orighandlers[num] = signal.getsignal(num)

              try:

                  for num in orighandlers:

                      signal.signal(num, catchterm)

              except ValueError:

                  pass # in a thread? no luck

              blocked = True

              yield

          finally:

              # no simple way to reliably restore all signal handlers because

              # any loops, recursive function calls, except blocks, etc. can be

              # interrupted. so instead, make catchterm() raise interrupt.

              blocked = False

              try:

                  for num, handler in orighandlers.items():

                      signal.signal(num, handler)

              except ValueError:

                  pass # in a thread?

          # re-raise interrupt exception if any, which may be shadowed by a new

          # interrupt occurred while re-raising the first one

          if assertedsigs:

              raiseinterrupt(assertedsigs[0])

      def trylock(ui, vfs, lockname, timeout, warntimeout, *args, **kwargs):

          """return an acquired lock or raise an a LockHeld exception

          This function is responsible to issue warnings and or debug messages about

          the held lock while trying to acquires it."""

          def printwarning(printer, locker):

              """issue the usual "waiting on lock" message through any channel"""

              # show more details for new-style locks

              if ':' in locker:

                  host, pid = locker.split(":", 1)

                  msg = (_("waiting for lock on %s held by process %r on host %r\n")

                         % (pycompat.bytestr(l.desc), pycompat.bytestr(pid),

                            pycompat.bytestr(host)))

              else:

                  msg = (_("waiting for lock on %s held by %r\n")

                         % (l.desc, pycompat.bytestr(locker)))

              printer(msg)

          l = lock(vfs, lockname, 0, *args, dolock=False, **kwargs)

          debugidx = 0 if (warntimeout and timeout) else -1

          warningidx = 0

          if not timeout:

              warningidx = -1

          elif warntimeout:

              warningidx = warntimeout

          delay = 0

          while True:

              try:

                  l._trylock()

                  break

              except error.LockHeld as inst:

                  if delay == debugidx:

                      printwarning(ui.debug, inst.locker)

                  if delay == warningidx:

                      printwarning(ui.warn, inst.locker)

                  if timeout <= delay:

                      raise error.LockHeld(errno.ETIMEDOUT, inst.filename,

                                           l.desc, inst.locker)

                  time.sleep(1)

                  delay += 1

          l.delay = delay

          if l.delay:

              if 0 <= warningidx <= l.delay:

                  ui.warn(_("got lock after %d seconds\n") % l.delay)

              else:

                  ui.debug("got lock after %d seconds\n" % l.delay)

          if l.acquirefn:

              l.acquirefn()

          return l

      class lock(object):

          '''An advisory lock held by one process to control access to a set

          of files.  Non-cooperating processes or incorrectly written scripts

          can ignore Mercurial's locking scheme and stomp all over the

          repository, so don't do that.

          Typically used via localrepository.lock() to lock the repository

          store (.hg/store/) or localrepository.wlock() to lock everything

          else under .hg/.'''

          # lock is symlink on platforms that support it, file on others.

          # symlink is used because create of directory entry and contents

          # are atomic even over nfs.

          # old-style lock: symlink to pid

          # new-style lock: symlink to hostname:pid

          _host = None

          def __init__(self, vfs, fname, timeout=-1, releasefn=None, acquirefn=None,

                       desc=None, inheritchecker=None, parentlock=None,

                       signalsafe=True, dolock=True):

              self.vfs = vfs

              self.f = fname

              self.held = 0

              self.timeout = timeout

              self.releasefn = releasefn

              self.acquirefn = acquirefn

              self.desc = desc

              self._inheritchecker = inheritchecker

              self.parentlock = parentlock

              self._parentheld = False

              self._inherited = False

              if signalsafe:

                  self._maybedelayedinterrupt = _delayedinterrupt

              else:

                  self._maybedelayedinterrupt = util.nullcontextmanager

              self.postrelease  = []

              self.pid = self._getpid()

              if dolock:

                  self.delay = self.lock()

                  if self.acquirefn:

                      self.acquirefn()

          def __enter__(self):

              return self

          def __exit__(self, exc_type, exc_value, exc_tb):

              self.release()

          def __del__(self):

              if self.held:

                  warnings.warn(r"use lock.release instead of del lock",

                          category=DeprecationWarning,

                          stacklevel=2)

                  # ensure the lock will be removed

                  # even if recursive locking did occur

                  self.held = 1

              self.release()

          def _getpid(self):

              # wrapper around procutil.getpid() to make testing easier

              return procutil.getpid()

          def lock(self):

              timeout = self.timeout

              while True:

                  try:

                      self._trylock()

                      return self.timeout - timeout

                  except error.LockHeld as inst:

                      if timeout != 0:

                          time.sleep(1)

                          if timeout > 0:

                              timeout -= 1

                          continue

                      raise error.LockHeld(errno.ETIMEDOUT, inst.filename, self.desc,

                                           inst.locker)

          def _trylock(self):

              if self.held:

                  self.held += 1

                  return

              if lock._host is None:

                  lock._host = _getlockprefix()

              lockname = '%s:%d' % (lock._host, self.pid)

              retry = 5

              while not self.held and retry:

                  retry -= 1

                  try:

                      with self._maybedelayedinterrupt():

                          self.vfs.makelock(lockname, self.f)

                          self.held = 1

                  except (OSError, IOError) as why:

                      if why.errno == errno.EEXIST:

                          locker = self._readlock()

                          if locker is None:

                              continue

                          # special case where a parent process holds the lock -- this

                          # is different from the pid being different because we do

                          # want the unlock and postrelease functions to be called,

                          # but the lockfile to not be removed.

                          if locker == self.parentlock:

                              self._parentheld = True

                              self.held = 1

                              return

                          locker = self._testlock(locker)

                          if locker is not None:

                              raise error.LockHeld(errno.EAGAIN,

                                                   self.vfs.join(self.f), self.desc,

                                                   locker)

                      else:

                          raise error.LockUnavailable(why.errno, why.strerror,

                                                      why.filename, self.desc)

              if not self.held:

                  # use empty locker to mean "busy for frequent lock/unlock

                  # by many processes"

                  raise error.LockHeld(errno.EAGAIN,

                                       self.vfs.join(self.f), self.desc, "")

          def _readlock(self):

              """read lock and return its value

              Returns None if no lock exists, pid for old-style locks, and host:pid

              for new-style locks.

              """

              try:

                  return self.vfs.readlock(self.f)

              except (OSError, IOError) as why:

                  if why.errno == errno.ENOENT:

                      return None

                  raise

          def _testlock(self, locker):

              if locker is None:

                  return None

              try:

                  host, pid = locker.split(":", 1)

              except ValueError:

                  return locker

              if host != lock._host:

                  return locker

              try:

                  pid = int(pid)

              except ValueError:

                  return locker

              if procutil.testpid(pid):

                  return locker

              # if locker dead, break lock.  must do this with another lock

              # held, or can race and break valid lock.

              try:

                  l = lock(self.vfs, self.f + '.break', timeout=0)

                  self.vfs.unlink(self.f)

                  l.release()

              except error.LockError:

                  return locker

          def testlock(self):

              """return id of locker if lock is valid, else None.

              If old-style lock, we cannot tell what machine locker is on.

              with new-style lock, if locker is on this machine, we can

              see if locker is alive.  If locker is on this machine but

              not alive, we can safely break lock.

              The lock file is only deleted when None is returned.

              """

              locker = self._readlock()

              return self._testlock(locker)

          @contextlib.contextmanager

          def inherit(self):

              """context for the lock to be inherited by a Mercurial subprocess.

              Yields a string that will be recognized by the lock in the subprocess.

              Communicating this string to the subprocess needs to be done separately

              -- typically by an environment variable.

              """

              if not self.held:

                  raise error.LockInheritanceContractViolation(

                      'inherit can only be called while lock is held')

              if self._inherited:

                  raise error.LockInheritanceContractViolation(

                      'inherit cannot be called while lock is already inherited')

              if self._inheritchecker is not None:

                  self._inheritchecker()

              if self.releasefn:

                  self.releasefn()

              if self._parentheld:

                  lockname = self.parentlock

              else:

                  lockname = b'%s:%d' % (lock._host, self.pid)

              self._inherited = True

              try:

                  yield lockname

              finally:

                  if self.acquirefn:

                      self.acquirefn()

                  self._inherited = False

          def release(self):

              """release the lock and execute callback function if any

              If the lock has been acquired multiple times, the actual release is

              delayed to the last release call."""

              if self.held > 1:

                  self.held -= 1

              elif self.held == 1:

                  self.held = 0

                  if self._getpid() != self.pid:

                      # we forked, and are not the parent

                      return

                  try:

                      if self.releasefn:

                          self.releasefn()

                  finally:

                      if not self._parentheld:

                          try:

                              self.vfs.unlink(self.f)

                          except OSError:

                              pass

                  # The postrelease functions typically assume the lock is not held

                  # at all.

                  if not self._parentheld:

                      for callback in self.postrelease:

                          callback()

                      # Prevent double usage and help clear cycles.

                      self.postrelease = None

      def release(*locks):

          for lock in locks:

              if lock is not None:

                  lock.release()

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				# lock.py - simple advisory locking scheme for mercurial
				#
				# Copyright 2005, 2006 Matt Mackall <mpm@selenic.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 contextlib
				import errno
				import os
				import signal
				import socket
				import time
				import warnings

				from .i18n import _

				from . import (
				encoding,
				error,
				pycompat,
				util,
				)

				from .utils import (
				procutil,
				)

				def _getlockprefix():
				"""Return a string which is used to differentiate pid namespaces

				It's useful to detect "dead" processes and remove stale locks with
				confidence. Typically it's just hostname. On modern linux, we include an
				extra Linux-specific pid namespace identifier.
				"""
				result = encoding.strtolocal(socket.gethostname())
				if pycompat.sysplatform.startswith('linux'):
				try:
				result += '/%x' % os.stat('/proc/self/ns/pid').st_ino
				except OSError as ex:
				if ex.errno not in (errno.ENOENT, errno.EACCES, errno.ENOTDIR):
				raise
				return result

				@contextlib.contextmanager
				def _delayedinterrupt():
				"""Block signal interrupt while doing something critical

				This makes sure that the code block wrapped by this context manager won't
				be interrupted.

				For Windows developers: It appears not possible to guard time.sleep()
				from CTRL_C_EVENT, so please don't use time.sleep() to test if this is
				working.
				"""
				assertedsigs = []
				blocked = False
				orighandlers = {}

				def raiseinterrupt(num):
				if (num == getattr(signal, 'SIGINT', None) or
				num == getattr(signal, 'CTRL_C_EVENT', None)):
				raise KeyboardInterrupt
				else:
				raise error.SignalInterrupt
				def catchterm(num, frame):
				if blocked:
				assertedsigs.append(num)
				else:
				raiseinterrupt(num)

				try:
				# save handlers first so they can be restored even if a setup is
				# interrupted between signal.signal() and orighandlers[] =.
				for name in ['CTRL_C_EVENT', 'SIGINT', 'SIGBREAK', 'SIGHUP', 'SIGTERM']:
				num = getattr(signal, name, None)
				if num and num not in orighandlers:
				orighandlers[num] = signal.getsignal(num)
				try:
				for num in orighandlers:
				signal.signal(num, catchterm)
				except ValueError:
				pass # in a thread? no luck

				blocked = True
				yield
				finally:
				# no simple way to reliably restore all signal handlers because
				# any loops, recursive function calls, except blocks, etc. can be
				# interrupted. so instead, make catchterm() raise interrupt.
				blocked = False
				try:
				for num, handler in orighandlers.items():
				signal.signal(num, handler)
				except ValueError:
				pass # in a thread?

				# re-raise interrupt exception if any, which may be shadowed by a new
				# interrupt occurred while re-raising the first one
				if assertedsigs:
				raiseinterrupt(assertedsigs[0])

				def trylock(ui, vfs, lockname, timeout, warntimeout, args, *kwargs):
				"""return an acquired lock or raise an a LockHeld exception

				This function is responsible to issue warnings and or debug messages about
				the held lock while trying to acquires it."""

				def printwarning(printer, locker):
				"""issue the usual "waiting on lock" message through any channel"""
				# show more details for new-style locks
				if ':' in locker:
				host, pid = locker.split(":", 1)
				msg = (_("waiting for lock on %s held by process %r on host %r\n")
				% (pycompat.bytestr(l.desc), pycompat.bytestr(pid),
				pycompat.bytestr(host)))
				else:
				msg = (_("waiting for lock on %s held by %r\n")
				% (l.desc, pycompat.bytestr(locker)))
				printer(msg)

				l = lock(vfs, lockname, 0, args, dolock=False, *kwargs)

				debugidx = 0 if (warntimeout and timeout) else -1
				warningidx = 0
				if not timeout:
				warningidx = -1
				elif warntimeout:
				warningidx = warntimeout

				delay = 0
				while True:
				try:
				l._trylock()
				break
				except error.LockHeld as inst:
				if delay == debugidx:
				printwarning(ui.debug, inst.locker)
				if delay == warningidx:
				printwarning(ui.warn, inst.locker)
				if timeout <= delay:
				raise error.LockHeld(errno.ETIMEDOUT, inst.filename,
				l.desc, inst.locker)
				time.sleep(1)
				delay += 1

				l.delay = delay
				if l.delay:
				if 0 <= warningidx <= l.delay:
				ui.warn(_("got lock after %d seconds\n") % l.delay)
				else:
				ui.debug("got lock after %d seconds\n" % l.delay)
				if l.acquirefn:
				l.acquirefn()
				return l

				class lock(object):
				'''An advisory lock held by one process to control access to a set
				of files. Non-cooperating processes or incorrectly written scripts
				can ignore Mercurial's locking scheme and stomp all over the
				repository, so don't do that.

				Typically used via localrepository.lock() to lock the repository
				store (.hg/store/) or localrepository.wlock() to lock everything
				else under .hg/.'''

				# lock is symlink on platforms that support it, file on others.

				# symlink is used because create of directory entry and contents
				# are atomic even over nfs.

				# old-style lock: symlink to pid
				# new-style lock: symlink to hostname:pid

				_host = None

				def __init__(self, vfs, fname, timeout=-1, releasefn=None, acquirefn=None,
				desc=None, inheritchecker=None, parentlock=None,
				signalsafe=True, dolock=True):
				self.vfs = vfs
				self.f = fname
				self.held = 0
				self.timeout = timeout
				self.releasefn = releasefn
				self.acquirefn = acquirefn
				self.desc = desc
				self._inheritchecker = inheritchecker
				self.parentlock = parentlock
				self._parentheld = False
				self._inherited = False
				if signalsafe:
				self._maybedelayedinterrupt = _delayedinterrupt
				else:
				self._maybedelayedinterrupt = util.nullcontextmanager
				self.postrelease = []
				self.pid = self._getpid()
				if dolock:
				self.delay = self.lock()
				if self.acquirefn:
				self.acquirefn()

				def __enter__(self):
				return self

				def __exit__(self, exc_type, exc_value, exc_tb):
				self.release()

				def __del__(self):
				if self.held:
				warnings.warn(r"use lock.release instead of del lock",
				category=DeprecationWarning,
				stacklevel=2)

				# ensure the lock will be removed
				# even if recursive locking did occur
				self.held = 1

				self.release()

				def _getpid(self):
				# wrapper around procutil.getpid() to make testing easier
				return procutil.getpid()

				def lock(self):
				timeout = self.timeout
				while True:
				try:
				self._trylock()
				return self.timeout - timeout
				except error.LockHeld as inst:
				if timeout != 0:
				time.sleep(1)
				if timeout > 0:
				timeout -= 1
				continue
				raise error.LockHeld(errno.ETIMEDOUT, inst.filename, self.desc,
				inst.locker)

				def _trylock(self):
				if self.held:
				self.held += 1
				return
				if lock._host is None:
				lock._host = _getlockprefix()
				lockname = '%s:%d' % (lock._host, self.pid)
				retry = 5
				while not self.held and retry:
				retry -= 1
				try:
				with self._maybedelayedinterrupt():
				self.vfs.makelock(lockname, self.f)
				self.held = 1
				except (OSError, IOError) as why:
				if why.errno == errno.EEXIST:
				locker = self._readlock()
				if locker is None:
				continue

				# special case where a parent process holds the lock -- this
				# is different from the pid being different because we do
				# want the unlock and postrelease functions to be called,
				# but the lockfile to not be removed.
				if locker == self.parentlock:
				self._parentheld = True
				self.held = 1
				return
				locker = self._testlock(locker)
				if locker is not None:
				raise error.LockHeld(errno.EAGAIN,
				self.vfs.join(self.f), self.desc,
				locker)
				else:
				raise error.LockUnavailable(why.errno, why.strerror,
				why.filename, self.desc)

				if not self.held:
				# use empty locker to mean "busy for frequent lock/unlock
				# by many processes"
				raise error.LockHeld(errno.EAGAIN,
				self.vfs.join(self.f), self.desc, "")

				def _readlock(self):
				"""read lock and return its value

				Returns None if no lock exists, pid for old-style locks, and host:pid
				for new-style locks.
				"""
				try:
				return self.vfs.readlock(self.f)
				except (OSError, IOError) as why:
				if why.errno == errno.ENOENT:
				return None
				raise

				def _testlock(self, locker):
				if locker is None:
				return None
				try:
				host, pid = locker.split(":", 1)
				except ValueError:
				return locker
				if host != lock._host:
				return locker
				try:
				pid = int(pid)
				except ValueError:
				return locker
				if procutil.testpid(pid):
				return locker
				# if locker dead, break lock. must do this with another lock
				# held, or can race and break valid lock.
				try:
				l = lock(self.vfs, self.f + '.break', timeout=0)
				self.vfs.unlink(self.f)
				l.release()
				except error.LockError:
				return locker

				def testlock(self):
				"""return id of locker if lock is valid, else None.

				If old-style lock, we cannot tell what machine locker is on.
				with new-style lock, if locker is on this machine, we can
				see if locker is alive. If locker is on this machine but
				not alive, we can safely break lock.

				The lock file is only deleted when None is returned.

				"""
				locker = self._readlock()
				return self._testlock(locker)

				@contextlib.contextmanager
				def inherit(self):
				"""context for the lock to be inherited by a Mercurial subprocess.

				Yields a string that will be recognized by the lock in the subprocess.
				Communicating this string to the subprocess needs to be done separately
				-- typically by an environment variable.
				"""
				if not self.held:
				raise error.LockInheritanceContractViolation(
				'inherit can only be called while lock is held')
				if self._inherited:
				raise error.LockInheritanceContractViolation(
				'inherit cannot be called while lock is already inherited')
				if self._inheritchecker is not None:
				self._inheritchecker()
				if self.releasefn:
				self.releasefn()
				if self._parentheld:
				lockname = self.parentlock
				else:
				lockname = b'%s:%d' % (lock._host, self.pid)
				self._inherited = True
				try:
				yield lockname
				finally:
				if self.acquirefn:
				self.acquirefn()
				self._inherited = False

				def release(self):
				"""release the lock and execute callback function if any

				If the lock has been acquired multiple times, the actual release is
				delayed to the last release call."""
				if self.held > 1:
				self.held -= 1
				elif self.held == 1:
				self.held = 0
				if self._getpid() != self.pid:
				# we forked, and are not the parent
				return
				try:
				if self.releasefn:
				self.releasefn()
				finally:
				if not self._parentheld:
				try:
				self.vfs.unlink(self.f)
				except OSError:
				pass
				# The postrelease functions typically assume the lock is not held
				# at all.
				if not self._parentheld:
				for callback in self.postrelease:
				callback()
				# Prevent double usage and help clear cycles.
				self.postrelease = None

				def release(*locks):
				for lock in locks:
				if lock is not None:
				lock.release()