upstream/mercurial-mirror Files · mercurial/wireprototypes.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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      # Copyright 2018 Gregory Szorc <gregory.szorc@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

      from .node import (

          bin,

          hex,

      )

      from .i18n import _

      from . import (

          error,

          util,

      )

      from .utils import (

          interfaceutil,

      )

      # Names of the SSH protocol implementations.

      SSHV1 = 'ssh-v1'

      # These are advertised over the wire. Increment the counters at the end

      # to reflect BC breakages.

      SSHV2 = 'exp-ssh-v2-0001'

      HTTP_WIREPROTO_V2 = 'exp-http-v2-0001'

      # All available wire protocol transports.

      TRANSPORTS = {

          SSHV1: {

              'transport': 'ssh',

              'version': 1,

          },

          SSHV2: {

              'transport': 'ssh',

              # TODO mark as version 2 once all commands are implemented.

              'version': 1,

          },

          'http-v1': {

              'transport': 'http',

              'version': 1,

          },

          HTTP_WIREPROTO_V2: {

              'transport': 'http',

              'version': 2,

          }

      }

      class bytesresponse(object):

          """A wire protocol response consisting of raw bytes."""

          def __init__(self, data):

              self.data = data

      class ooberror(object):

          """wireproto reply: failure of a batch of operation

          Something failed during a batch call. The error message is stored in

          `self.message`.

          """

          def __init__(self, message):

              self.message = message

      class pushres(object):

          """wireproto reply: success with simple integer return

          The call was successful and returned an integer contained in `self.res`.

          """

          def __init__(self, res, output):

              self.res = res

              self.output = output

      class pusherr(object):

          """wireproto reply: failure

          The call failed. The `self.res` attribute contains the error message.

          """

          def __init__(self, res, output):

              self.res = res

              self.output = output

      class streamres(object):

          """wireproto reply: binary stream

          The call was successful and the result is a stream.

          Accepts a generator containing chunks of data to be sent to the client.

          ``prefer_uncompressed`` indicates that the data is expected to be

          uncompressable and that the stream should therefore use the ``none``

          engine.

          """

          def __init__(self, gen=None, prefer_uncompressed=False):

              self.gen = gen

              self.prefer_uncompressed = prefer_uncompressed

      class streamreslegacy(object):

          """wireproto reply: uncompressed binary stream

          The call was successful and the result is a stream.

          Accepts a generator containing chunks of data to be sent to the client.

          Like ``streamres``, but sends an uncompressed data for "version 1" clients

          using the application/mercurial-0.1 media type.

          """

          def __init__(self, gen=None):

              self.gen = gen

      # list of nodes encoding / decoding

      def decodelist(l, sep=' '):

          if l:

              return [bin(v) for v in  l.split(sep)]

          return []

      def encodelist(l, sep=' '):

          try:

              return sep.join(map(hex, l))

          except TypeError:

              raise

      # batched call argument encoding

      def escapebatcharg(plain):

          return (plain

                  .replace(':', ':c')

                  .replace(',', ':o')

                  .replace(';', ':s')

                  .replace('=', ':e'))

      def unescapebatcharg(escaped):

          return (escaped

                  .replace(':e', '=')

                  .replace(':s', ';')

                  .replace(':o', ',')

                  .replace(':c', ':'))

      # mapping of options accepted by getbundle and their types

      #

      # Meant to be extended by extensions. It is extensions responsibility to ensure

      # such options are properly processed in exchange.getbundle.

      #

      # supported types are:

      #

      # :nodes: list of binary nodes

      # :csv:   list of comma-separated values

      # :scsv:  list of comma-separated values return as set

      # :plain: string with no transformation needed.

      GETBUNDLE_ARGUMENTS = {

          'heads':  'nodes',

          'bookmarks': 'boolean',

          'common': 'nodes',

          'obsmarkers': 'boolean',

          'phases': 'boolean',

          'bundlecaps': 'scsv',

          'listkeys': 'csv',

          'cg': 'boolean',

          'cbattempted': 'boolean',

          'stream': 'boolean',

      }

      class baseprotocolhandler(interfaceutil.Interface):

          """Abstract base class for wire protocol handlers.

          A wire protocol handler serves as an interface between protocol command

          handlers and the wire protocol transport layer. Protocol handlers provide

          methods to read command arguments, redirect stdio for the duration of

          the request, handle response types, etc.

          """

          name = interfaceutil.Attribute(

              """The name of the protocol implementation.

              Used for uniquely identifying the transport type.

              """)

          def getargs(args):

              """return the value for arguments in <args>

              For version 1 transports, returns a list of values in the same

              order they appear in ``args``. For version 2 transports, returns

              a dict mapping argument name to value.

              """

          def getprotocaps():

              """Returns the list of protocol-level capabilities of client

              Returns a list of capabilities as declared by the client for

              the current request (or connection for stateful protocol handlers)."""

          def getpayload():

              """Provide a generator for the raw payload.

              The caller is responsible for ensuring that the full payload is

              processed.

              """

          def mayberedirectstdio():

              """Context manager to possibly redirect stdio.

              The context manager yields a file-object like object that receives

              stdout and stderr output when the context manager is active. Or it

              yields ``None`` if no I/O redirection occurs.

              The intent of this context manager is to capture stdio output

              so it may be sent in the response. Some transports support streaming

              stdio to the client in real time. For these transports, stdio output

              won't be captured.

              """

          def client():

              """Returns a string representation of this client (as bytes)."""

          def addcapabilities(repo, caps):

              """Adds advertised capabilities specific to this protocol.

              Receives the list of capabilities collected so far.

              Returns a list of capabilities. The passed in argument can be returned.

              """

          def checkperm(perm):

              """Validate that the client has permissions to perform a request.

              The argument is the permission required to proceed. If the client

              doesn't have that permission, the exception should raise or abort

              in a protocol specific manner.

              """

      class commandentry(object):

          """Represents a declared wire protocol command."""

          def __init__(self, func, args='', transports=None,

                       permission='push'):

              self.func = func

              self.args = args

              self.transports = transports or set()

              self.permission = permission

          def _merge(self, func, args):

              """Merge this instance with an incoming 2-tuple.

              This is called when a caller using the old 2-tuple API attempts

              to replace an instance. The incoming values are merged with

              data not captured by the 2-tuple and a new instance containing

              the union of the two objects is returned.

              """

              return commandentry(func, args=args, transports=set(self.transports),

                                  permission=self.permission)

          # Old code treats instances as 2-tuples. So expose that interface.

          def __iter__(self):

              yield self.func

              yield self.args

          def __getitem__(self, i):

              if i == 0:

                  return self.func

              elif i == 1:

                  return self.args

              else:

                  raise IndexError('can only access elements 0 and 1')

      class commanddict(dict):

          """Container for registered wire protocol commands.

          It behaves like a dict. But __setitem__ is overwritten to allow silent

          coercion of values from 2-tuples for API compatibility.

          """

          def __setitem__(self, k, v):

              if isinstance(v, commandentry):

                  pass

              # Cast 2-tuples to commandentry instances.

              elif isinstance(v, tuple):

                  if len(v) != 2:

                      raise ValueError('command tuples must have exactly 2 elements')

                  # It is common for extensions to wrap wire protocol commands via

                  # e.g. ``wireproto.commands[x] = (newfn, args)``. Because callers

                  # doing this aren't aware of the new API that uses objects to store

                  # command entries, we automatically merge old state with new.

                  if k in self:

                      v = self[k]._merge(v[0], v[1])

                  else:

                      # Use default values from @wireprotocommand.

                      v = commandentry(v[0], args=v[1],

                                       transports=set(TRANSPORTS),

                                       permission='push')

              else:

                  raise ValueError('command entries must be commandentry instances '

                                   'or 2-tuples')

              return super(commanddict, self).__setitem__(k, v)

          def commandavailable(self, command, proto):

              """Determine if a command is available for the requested protocol."""

              assert proto.name in TRANSPORTS

              entry = self.get(command)

              if not entry:

                  return False

              if proto.name not in entry.transports:

                  return False

              return True

      def supportedcompengines(ui, role):

          """Obtain the list of supported compression engines for a request."""

          assert role in (util.CLIENTROLE, util.SERVERROLE)

          compengines = util.compengines.supportedwireengines(role)

          # Allow config to override default list and ordering.

          if role == util.SERVERROLE:

              configengines = ui.configlist('server', 'compressionengines')

              config = 'server.compressionengines'

          else:

              # This is currently implemented mainly to facilitate testing. In most

              # cases, the server should be in charge of choosing a compression engine

              # because a server has the most to lose from a sub-optimal choice. (e.g.

              # CPU DoS due to an expensive engine or a network DoS due to poor

              # compression ratio).

              configengines = ui.configlist('experimental',

                                            'clientcompressionengines')

              config = 'experimental.clientcompressionengines'

          # No explicit config. Filter out the ones that aren't supposed to be

          # advertised and return default ordering.

          if not configengines:

              attr = 'serverpriority' if role == util.SERVERROLE else 'clientpriority'

              return [e for e in compengines

                      if getattr(e.wireprotosupport(), attr) > 0]

          # If compression engines are listed in the config, assume there is a good

          # reason for it (like server operators wanting to achieve specific

          # performance characteristics). So fail fast if the config references

          # unusable compression engines.

          validnames = set(e.name() for e in compengines)

          invalidnames = set(e for e in configengines if e not in validnames)

          if invalidnames:

              raise error.Abort(_('invalid compression engine defined in %s: %s') %

                                (config, ', '.join(sorted(invalidnames))))

          compengines = [e for e in compengines if e.name() in configengines]

          compengines = sorted(compengines,

                               key=lambda e: configengines.index(e.name()))

          if not compengines:

              raise error.Abort(_('%s config option does not specify any known '

                                  'compression engines') % config,

                                hint=_('usable compression engines: %s') %

                                ', '.sorted(validnames))

          return compengines

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				# Copyright 2018 Gregory Szorc <gregory.szorc@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

				from .node import (
				bin,
				hex,
				)
				from .i18n import _
				from . import (
				error,
				util,
				)
				from .utils import (
				interfaceutil,
				)

				# Names of the SSH protocol implementations.
				SSHV1 = 'ssh-v1'
				# These are advertised over the wire. Increment the counters at the end
				# to reflect BC breakages.
				SSHV2 = 'exp-ssh-v2-0001'
				HTTP_WIREPROTO_V2 = 'exp-http-v2-0001'

				# All available wire protocol transports.
				TRANSPORTS = {
				SSHV1: {
				'transport': 'ssh',
				'version': 1,
				},
				SSHV2: {
				'transport': 'ssh',
				# TODO mark as version 2 once all commands are implemented.
				'version': 1,
				},
				'http-v1': {
				'transport': 'http',
				'version': 1,
				},
				HTTP_WIREPROTO_V2: {
				'transport': 'http',
				'version': 2,
				}
				}

				class bytesresponse(object):
				"""A wire protocol response consisting of raw bytes."""
				def __init__(self, data):
				self.data = data

				class ooberror(object):
				"""wireproto reply: failure of a batch of operation

				Something failed during a batch call. The error message is stored in
				`self.message`.
				"""
				def __init__(self, message):
				self.message = message

				class pushres(object):
				"""wireproto reply: success with simple integer return

				The call was successful and returned an integer contained in `self.res`.
				"""
				def __init__(self, res, output):
				self.res = res
				self.output = output

				class pusherr(object):
				"""wireproto reply: failure

				The call failed. The `self.res` attribute contains the error message.
				"""
				def __init__(self, res, output):
				self.res = res
				self.output = output

				class streamres(object):
				"""wireproto reply: binary stream

				The call was successful and the result is a stream.

				Accepts a generator containing chunks of data to be sent to the client.

				``prefer_uncompressed`` indicates that the data is expected to be
				uncompressable and that the stream should therefore use the ``none``
				engine.
				"""
				def __init__(self, gen=None, prefer_uncompressed=False):
				self.gen = gen
				self.prefer_uncompressed = prefer_uncompressed

				class streamreslegacy(object):
				"""wireproto reply: uncompressed binary stream

				The call was successful and the result is a stream.

				Accepts a generator containing chunks of data to be sent to the client.

				Like ``streamres``, but sends an uncompressed data for "version 1" clients
				using the application/mercurial-0.1 media type.
				"""
				def __init__(self, gen=None):
				self.gen = gen

				# list of nodes encoding / decoding
				def decodelist(l, sep=' '):
				if l:
				return [bin(v) for v in l.split(sep)]
				return []

				def encodelist(l, sep=' '):
				try:
				return sep.join(map(hex, l))
				except TypeError:
				raise

				# batched call argument encoding

				def escapebatcharg(plain):
				return (plain
				.replace(':', ':c')
				.replace(',', ':o')
				.replace(';', ':s')
				.replace('=', ':e'))

				def unescapebatcharg(escaped):
				return (escaped
				.replace(':e', '=')
				.replace(':s', ';')
				.replace(':o', ',')
				.replace(':c', ':'))

				# mapping of options accepted by getbundle and their types
				#
				# Meant to be extended by extensions. It is extensions responsibility to ensure
				# such options are properly processed in exchange.getbundle.
				#
				# supported types are:
				#
				# :nodes: list of binary nodes
				# :csv: list of comma-separated values
				# :scsv: list of comma-separated values return as set
				# :plain: string with no transformation needed.
				GETBUNDLE_ARGUMENTS = {
				'heads': 'nodes',
				'bookmarks': 'boolean',
				'common': 'nodes',
				'obsmarkers': 'boolean',
				'phases': 'boolean',
				'bundlecaps': 'scsv',
				'listkeys': 'csv',
				'cg': 'boolean',
				'cbattempted': 'boolean',
				'stream': 'boolean',
				}

				class baseprotocolhandler(interfaceutil.Interface):
				"""Abstract base class for wire protocol handlers.

				A wire protocol handler serves as an interface between protocol command
				handlers and the wire protocol transport layer. Protocol handlers provide
				methods to read command arguments, redirect stdio for the duration of
				the request, handle response types, etc.
				"""

				name = interfaceutil.Attribute(
				"""The name of the protocol implementation.

				Used for uniquely identifying the transport type.
				""")

				def getargs(args):
				"""return the value for arguments in <args>

				For version 1 transports, returns a list of values in the same
				order they appear in ``args``. For version 2 transports, returns
				a dict mapping argument name to value.
				"""

				def getprotocaps():
				"""Returns the list of protocol-level capabilities of client

				Returns a list of capabilities as declared by the client for
				the current request (or connection for stateful protocol handlers)."""

				def getpayload():
				"""Provide a generator for the raw payload.

				The caller is responsible for ensuring that the full payload is
				processed.
				"""

				def mayberedirectstdio():
				"""Context manager to possibly redirect stdio.

				The context manager yields a file-object like object that receives
				stdout and stderr output when the context manager is active. Or it
				yields ``None`` if no I/O redirection occurs.

				The intent of this context manager is to capture stdio output
				so it may be sent in the response. Some transports support streaming
				stdio to the client in real time. For these transports, stdio output
				won't be captured.
				"""

				def client():
				"""Returns a string representation of this client (as bytes)."""

				def addcapabilities(repo, caps):
				"""Adds advertised capabilities specific to this protocol.

				Receives the list of capabilities collected so far.

				Returns a list of capabilities. The passed in argument can be returned.
				"""

				def checkperm(perm):
				"""Validate that the client has permissions to perform a request.

				The argument is the permission required to proceed. If the client
				doesn't have that permission, the exception should raise or abort
				in a protocol specific manner.
				"""

				class commandentry(object):
				"""Represents a declared wire protocol command."""
				def __init__(self, func, args='', transports=None,
				permission='push'):
				self.func = func
				self.args = args
				self.transports = transports or set()
				self.permission = permission

				def _merge(self, func, args):
				"""Merge this instance with an incoming 2-tuple.

				This is called when a caller using the old 2-tuple API attempts
				to replace an instance. The incoming values are merged with
				data not captured by the 2-tuple and a new instance containing
				the union of the two objects is returned.
				"""
				return commandentry(func, args=args, transports=set(self.transports),
				permission=self.permission)

				# Old code treats instances as 2-tuples. So expose that interface.
				def __iter__(self):
				yield self.func
				yield self.args

				def __getitem__(self, i):
				if i == 0:
				return self.func
				elif i == 1:
				return self.args
				else:
				raise IndexError('can only access elements 0 and 1')

				class commanddict(dict):
				"""Container for registered wire protocol commands.

				It behaves like a dict. But __setitem__ is overwritten to allow silent
				coercion of values from 2-tuples for API compatibility.
				"""
				def __setitem__(self, k, v):
				if isinstance(v, commandentry):
				pass
				# Cast 2-tuples to commandentry instances.
				elif isinstance(v, tuple):
				if len(v) != 2:
				raise ValueError('command tuples must have exactly 2 elements')

				# It is common for extensions to wrap wire protocol commands via
				# e.g. ``wireproto.commands[x] = (newfn, args)``. Because callers
				# doing this aren't aware of the new API that uses objects to store
				# command entries, we automatically merge old state with new.
				if k in self:
				v = self[k]._merge(v[0], v[1])
				else:
				# Use default values from @wireprotocommand.
				v = commandentry(v[0], args=v[1],
				transports=set(TRANSPORTS),
				permission='push')
				else:
				raise ValueError('command entries must be commandentry instances '
				'or 2-tuples')

				return super(commanddict, self).__setitem__(k, v)

				def commandavailable(self, command, proto):
				"""Determine if a command is available for the requested protocol."""
				assert proto.name in TRANSPORTS

				entry = self.get(command)

				if not entry:
				return False

				if proto.name not in entry.transports:
				return False

				return True

				def supportedcompengines(ui, role):
				"""Obtain the list of supported compression engines for a request."""
				assert role in (util.CLIENTROLE, util.SERVERROLE)

				compengines = util.compengines.supportedwireengines(role)

				# Allow config to override default list and ordering.
				if role == util.SERVERROLE:
				configengines = ui.configlist('server', 'compressionengines')
				config = 'server.compressionengines'
				else:
				# This is currently implemented mainly to facilitate testing. In most
				# cases, the server should be in charge of choosing a compression engine
				# because a server has the most to lose from a sub-optimal choice. (e.g.
				# CPU DoS due to an expensive engine or a network DoS due to poor
				# compression ratio).
				configengines = ui.configlist('experimental',
				'clientcompressionengines')
				config = 'experimental.clientcompressionengines'

				# No explicit config. Filter out the ones that aren't supposed to be
				# advertised and return default ordering.
				if not configengines:
				attr = 'serverpriority' if role == util.SERVERROLE else 'clientpriority'
				return [e for e in compengines
				if getattr(e.wireprotosupport(), attr) > 0]

				# If compression engines are listed in the config, assume there is a good
				# reason for it (like server operators wanting to achieve specific
				# performance characteristics). So fail fast if the config references
				# unusable compression engines.
				validnames = set(e.name() for e in compengines)
				invalidnames = set(e for e in configengines if e not in validnames)
				if invalidnames:
				raise error.Abort(_('invalid compression engine defined in %s: %s') %
				(config, ', '.join(sorted(invalidnames))))

				compengines = [e for e in compengines if e.name() in configengines]
				compengines = sorted(compengines,
				key=lambda e: configengines.index(e.name()))

				if not compengines:
				raise error.Abort(_('%s config option does not specify any known '
				'compression engines') % config,
				hint=_('usable compression engines: %s') %
				', '.sorted(validnames))

				return compengines