upstream/mercurial-mirror Files · tests/test-batching.py

wireprotov2: define and implement "manifestdata" command...

wireprotov2: define and implement "manifestdata" command The added command can be used for obtaining manifest data. Given a manifest path and set of manifest nodes, data about manifests can be retrieved. Unlike changeset data, we wish to emit deltas to describe manifest revisions. So the command uses the relatively new API for building delta requests and emitting them. The code calls into deltaparent(), which I'm not very keen of. There's still work to be done in delta generation land so implementation details of storage (e.g. exactly one delta is stored/available) don't creep into higher levels. But we can worry about this later (there is already a TODO on imanifestorage tracking this). On the subject of parent deltas, the server assumes parent revisions exist on the receiving end. This is obviously wrong for shallow clone. I've added TODOs to add a mechanism to the command to allow clients to specify desired behavior. This shouldn't be too difficult to implement. Another big change is that the client must explicitly request manifest nodes to retrieve. This is a major departure from "getbundle," where the server derives relevant manifests as it iterates changesets and sends them automatically. As implemented, the client must transmit each requested node to the server. At 20 bytes per node, we're looking at 2 MB per 100,000 nodes. Plus wire encoding overhead. This isn't ideal for clients with limited upload bandwidth. I plan to address this in the future by allowing alternate mechanisms for defining the revisions to retrieve. One idea is to define a range of changeset revisions whose manifest revisions to retrieve (similar to how "changesetdata" works). We almost certainly want an API to look up an individual manifest by node. And that's where I've chosen to start with the implementation. Again, a theme of this early exchangev2 work is I want to start by building primitives for accessing raw repository data first and see how far we can get with those before we need more complexity. Differential Revision: https://phab.mercurial-scm.org/D4488

Gregory Szorc - - Load All Authors

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      # test-batching.py - tests for transparent command batching

      #

      # Copyright 2011 Peter Arrenbrecht <peter@arrenbrecht.ch>

      #

      # 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, print_function

      import contextlib

      from mercurial import (

          localrepo,

          wireprotov1peer,

      )

      # equivalent of repo.repository

      class thing(object):

          def hello(self):

              return "Ready."

      # equivalent of localrepo.localrepository

      class localthing(thing):

          def foo(self, one, two=None):

              if one:

                  return "%s and %s" % (one, two,)

              return "Nope"

          def bar(self, b, a):

              return "%s und %s" % (b, a,)

          def greet(self, name=None):

              return "Hello, %s" % name

          @contextlib.contextmanager

          def commandexecutor(self):

              e = localrepo.localcommandexecutor(self)

              try:

                  yield e

              finally:

                  e.close()

      # usage of "thing" interface

      def use(it):

          # Direct call to base method shared between client and server.

          print(it.hello())

          # Direct calls to proxied methods. They cause individual roundtrips.

          print(it.foo("Un", two="Deux"))

          print(it.bar("Eins", "Zwei"))

          # Batched call to a couple of proxied methods.

          with it.commandexecutor() as e:

              ffoo = e.callcommand('foo', {'one': 'One', 'two': 'Two'})

              fbar = e.callcommand('bar', {'b': 'Eins', 'a': 'Zwei'})

              fbar2 = e.callcommand('bar', {'b': 'Uno', 'a': 'Due'})

          print(ffoo.result())

          print(fbar.result())

          print(fbar2.result())

      # local usage

      mylocal = localthing()

      print()

      print("== Local")

      use(mylocal)

      # demo remoting; mimicks what wireproto and HTTP/SSH do

      # shared

      def escapearg(plain):

          return (plain

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

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

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

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

      def unescapearg(escaped):

          return (escaped

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

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

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

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

      # server side

      # equivalent of wireproto's global functions

      class server(object):

          def __init__(self, local):

              self.local = local

          def _call(self, name, args):

              args = dict(arg.split('=', 1) for arg in args)

              return getattr(self, name)(**args)

          def perform(self, req):

              print("REQ:", req)

              name, args = req.split('?', 1)

              args = args.split('&')

              vals = dict(arg.split('=', 1) for arg in args)

              res = getattr(self, name)(**vals)

              print("  ->", res)

              return res

          def batch(self, cmds):

              res = []

              for pair in cmds.split(';'):

                  name, args = pair.split(':', 1)

                  vals = {}

                  for a in args.split(','):

                      if a:

                          n, v = a.split('=')

                          vals[n] = unescapearg(v)

                  res.append(escapearg(getattr(self, name)(**vals)))

              return ';'.join(res)

          def foo(self, one, two):

              return mangle(self.local.foo(unmangle(one), unmangle(two)))

          def bar(self, b, a):

              return mangle(self.local.bar(unmangle(b), unmangle(a)))

          def greet(self, name):

              return mangle(self.local.greet(unmangle(name)))

      myserver = server(mylocal)

      # local side

      # equivalent of wireproto.encode/decodelist, that is, type-specific marshalling

      # here we just transform the strings a bit to check we're properly en-/decoding

      def mangle(s):

          return ''.join(chr(ord(c) + 1) for c in s)

      def unmangle(s):

          return ''.join(chr(ord(c) - 1) for c in s)

      # equivalent of wireproto.wirerepository and something like http's wire format

      class remotething(thing):

          def __init__(self, server):

              self.server = server

          def _submitone(self, name, args):

              req = name + '?' + '&'.join(['%s=%s' % (n, v) for n, v in args])

              return self.server.perform(req)

          def _submitbatch(self, cmds):

              req = []

              for name, args in cmds:

                  args = ','.join(n + '=' + escapearg(v) for n, v in args)

                  req.append(name + ':' + args)

              req = ';'.join(req)

              res = self._submitone('batch', [('cmds', req,)])

              for r in res.split(';'):

                  yield r

          @contextlib.contextmanager

          def commandexecutor(self):

              e = wireprotov1peer.peerexecutor(self)

              try:

                  yield e

              finally:

                  e.close()

          @wireprotov1peer.batchable

          def foo(self, one, two=None):

              encargs = [('one', mangle(one),), ('two', mangle(two),)]

              encresref = wireprotov1peer.future()

              yield encargs, encresref

              yield unmangle(encresref.value)

          @wireprotov1peer.batchable

          def bar(self, b, a):

              encresref = wireprotov1peer.future()

              yield [('b', mangle(b),), ('a', mangle(a),)], encresref

              yield unmangle(encresref.value)

          # greet is coded directly. It therefore does not support batching. If it

          # does appear in a batch, the batch is split around greet, and the call to

          # greet is done in its own roundtrip.

          def greet(self, name=None):

              return unmangle(self._submitone('greet', [('name', mangle(name),)]))

      # demo remote usage

      myproxy = remotething(myserver)

      print()

      print("== Remote")

      use(myproxy)

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				# test-batching.py - tests for transparent command batching
				#
				# Copyright 2011 Peter Arrenbrecht <peter@arrenbrecht.ch>
				#
				# 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, print_function

				import contextlib

				from mercurial import (
				localrepo,
				wireprotov1peer,

				)

				# equivalent of repo.repository
				class thing(object):
				def hello(self):
				return "Ready."

				# equivalent of localrepo.localrepository
				class localthing(thing):
				def foo(self, one, two=None):
				if one:
				return "%s and %s" % (one, two,)
				return "Nope"
				def bar(self, b, a):
				return "%s und %s" % (b, a,)
				def greet(self, name=None):
				return "Hello, %s" % name

				@contextlib.contextmanager
				def commandexecutor(self):
				e = localrepo.localcommandexecutor(self)
				try:
				yield e
				finally:
				e.close()

				# usage of "thing" interface
				def use(it):

				# Direct call to base method shared between client and server.
				print(it.hello())

				# Direct calls to proxied methods. They cause individual roundtrips.
				print(it.foo("Un", two="Deux"))
				print(it.bar("Eins", "Zwei"))

				# Batched call to a couple of proxied methods.

				with it.commandexecutor() as e:
				ffoo = e.callcommand('foo', {'one': 'One', 'two': 'Two'})
				fbar = e.callcommand('bar', {'b': 'Eins', 'a': 'Zwei'})
				fbar2 = e.callcommand('bar', {'b': 'Uno', 'a': 'Due'})

				print(ffoo.result())
				print(fbar.result())
				print(fbar2.result())

				# local usage
				mylocal = localthing()
				print()
				print("== Local")
				use(mylocal)

				# demo remoting; mimicks what wireproto and HTTP/SSH do

				# shared

				def escapearg(plain):
				return (plain
				.replace(':', '::')
				.replace(',', ':,')
				.replace(';', ':;')
				.replace('=', ':='))
				def unescapearg(escaped):
				return (escaped
				.replace(':=', '=')
				.replace(':;', ';')
				.replace(':,', ',')
				.replace('::', ':'))

				# server side

				# equivalent of wireproto's global functions
				class server(object):
				def __init__(self, local):
				self.local = local
				def _call(self, name, args):
				args = dict(arg.split('=', 1) for arg in args)
				return getattr(self, name)(**args)
				def perform(self, req):
				print("REQ:", req)
				name, args = req.split('?', 1)
				args = args.split('&')
				vals = dict(arg.split('=', 1) for arg in args)
				res = getattr(self, name)(**vals)
				print(" ->", res)
				return res
				def batch(self, cmds):
				res = []
				for pair in cmds.split(';'):
				name, args = pair.split(':', 1)
				vals = {}
				for a in args.split(','):
				if a:
				n, v = a.split('=')
				vals[n] = unescapearg(v)
				res.append(escapearg(getattr(self, name)(**vals)))
				return ';'.join(res)
				def foo(self, one, two):
				return mangle(self.local.foo(unmangle(one), unmangle(two)))
				def bar(self, b, a):
				return mangle(self.local.bar(unmangle(b), unmangle(a)))
				def greet(self, name):
				return mangle(self.local.greet(unmangle(name)))
				myserver = server(mylocal)

				# local side

				# equivalent of wireproto.encode/decodelist, that is, type-specific marshalling
				# here we just transform the strings a bit to check we're properly en-/decoding
				def mangle(s):
				return ''.join(chr(ord(c) + 1) for c in s)
				def unmangle(s):
				return ''.join(chr(ord(c) - 1) for c in s)

				# equivalent of wireproto.wirerepository and something like http's wire format
				class remotething(thing):
				def __init__(self, server):
				self.server = server
				def _submitone(self, name, args):
				req = name + '?' + '&'.join(['%s=%s' % (n, v) for n, v in args])
				return self.server.perform(req)
				def _submitbatch(self, cmds):
				req = []
				for name, args in cmds:
				args = ','.join(n + '=' + escapearg(v) for n, v in args)
				req.append(name + ':' + args)
				req = ';'.join(req)
				res = self._submitone('batch', [('cmds', req,)])
				for r in res.split(';'):
				yield r

				@contextlib.contextmanager
				def commandexecutor(self):
				e = wireprotov1peer.peerexecutor(self)
				try:
				yield e
				finally:
				e.close()

				@wireprotov1peer.batchable
				def foo(self, one, two=None):
				encargs = [('one', mangle(one),), ('two', mangle(two),)]
				encresref = wireprotov1peer.future()
				yield encargs, encresref
				yield unmangle(encresref.value)

				@wireprotov1peer.batchable
				def bar(self, b, a):
				encresref = wireprotov1peer.future()
				yield [('b', mangle(b),), ('a', mangle(a),)], encresref
				yield unmangle(encresref.value)

				# greet is coded directly. It therefore does not support batching. If it
				# does appear in a batch, the batch is split around greet, and the call to
				# greet is done in its own roundtrip.
				def greet(self, name=None):
				return unmangle(self._submitone('greet', [('name', mangle(name),)]))

				# demo remote usage

				myproxy = remotething(myserver)
				print()
				print("== Remote")
				use(myproxy)