# encoding: utf-8 # -*- test-case-name: IPython.kernel.test.test_enginepb -*- """ Expose the IPython EngineService using the Foolscap network protocol. Foolscap is a high-performance and secure network protocol. """ __docformat__ = "restructuredtext en" #------------------------------------------------------------------------------- # Copyright (C) 2008 The IPython Development Team # # Distributed under the terms of the BSD License. The full license is in # the file COPYING, distributed as part of this software. #------------------------------------------------------------------------------- #------------------------------------------------------------------------------- # Imports #------------------------------------------------------------------------------- import os, time import cPickle as pickle from twisted.python import components, log, failure from twisted.python.failure import Failure from twisted.internet import defer, reactor, threads from twisted.internet.interfaces import IProtocolFactory from zope.interface import Interface, implements, Attribute from twisted.internet.base import DelayedCall DelayedCall.debug = True from foolscap import Referenceable, DeadReferenceError from foolscap.referenceable import RemoteReference from IPython.kernel.pbutil import packageFailure, unpackageFailure from IPython.kernel.util import printer from IPython.kernel.twistedutil import gatherBoth from IPython.kernel import newserialized from IPython.kernel.error import ProtocolError from IPython.kernel import controllerservice from IPython.kernel.controllerservice import IControllerBase from IPython.kernel.engineservice import \ IEngineBase, \ IEngineQueued, \ EngineService, \ StrictDict from IPython.kernel.pickleutil import \ can, \ canDict, \ canSequence, \ uncan, \ uncanDict, \ uncanSequence #------------------------------------------------------------------------------- # The client (Engine) side of things #------------------------------------------------------------------------------- # Expose a FC interface to the EngineService class IFCEngine(Interface): """An interface that exposes an EngineService over Foolscap. The methods in this interface are similar to those from IEngine, but their arguments and return values slightly different to reflect that FC cannot send arbitrary objects. We handle this by pickling/ unpickling that the two endpoints. If a remote or local exception is raised, the appropriate Failure will be returned instead. """ pass class FCEngineReferenceFromService(Referenceable, object): """Adapt an `IEngineBase` to an `IFCEngine` implementer. This exposes an `IEngineBase` to foolscap by adapting it to a `foolscap.Referenceable`. See the documentation of the `IEngineBase` methods for more details. """ implements(IFCEngine) def __init__(self, service): assert IEngineBase.providedBy(service), \ "IEngineBase is not provided by" + repr(service) self.service = service self.collectors = {} def remote_get_id(self): return self.service.id def remote_set_id(self, id): self.service.id = id def _checkProperties(self, result): dosync = self.service.properties.modified self.service.properties.modified = False return (dosync and pickle.dumps(self.service.properties, 2)), result def remote_execute(self, lines): d = self.service.execute(lines) d.addErrback(packageFailure) d.addCallback(self._checkProperties) d.addErrback(packageFailure) #d.addCallback(lambda r: log.msg("Got result: " + str(r))) return d #--------------------------------------------------------------------------- # Old version of push #--------------------------------------------------------------------------- def remote_push(self, pNamespace): try: namespace = pickle.loads(pNamespace) except: return defer.fail(failure.Failure()).addErrback(packageFailure) else: return self.service.push(namespace).addErrback(packageFailure) #--------------------------------------------------------------------------- # pull #--------------------------------------------------------------------------- def remote_pull(self, keys): d = self.service.pull(keys) d.addCallback(pickle.dumps, 2) d.addErrback(packageFailure) return d #--------------------------------------------------------------------------- # push/pullFuction #--------------------------------------------------------------------------- def remote_push_function(self, pNamespace): try: namespace = pickle.loads(pNamespace) except: return defer.fail(failure.Failure()).addErrback(packageFailure) else: # The usage of globals() here is an attempt to bind any pickled functions # to the globals of this module. What we really want is to have it bound # to the globals of the callers module. This will require walking the # stack. BG 10/3/07. namespace = uncanDict(namespace, globals()) return self.service.push_function(namespace).addErrback(packageFailure) def remote_pull_function(self, keys): d = self.service.pull_function(keys) if len(keys)>1: d.addCallback(canSequence) elif len(keys)==1: d.addCallback(can) d.addCallback(pickle.dumps, 2) d.addErrback(packageFailure) return d #--------------------------------------------------------------------------- # Other methods #--------------------------------------------------------------------------- def remote_get_result(self, i=None): return self.service.get_result(i).addErrback(packageFailure) def remote_reset(self): return self.service.reset().addErrback(packageFailure) def remote_kill(self): return self.service.kill().addErrback(packageFailure) def remote_keys(self): return self.service.keys().addErrback(packageFailure) #--------------------------------------------------------------------------- # push/pull_serialized #--------------------------------------------------------------------------- def remote_push_serialized(self, pNamespace): try: namespace = pickle.loads(pNamespace) except: return defer.fail(failure.Failure()).addErrback(packageFailure) else: d = self.service.push_serialized(namespace) return d.addErrback(packageFailure) def remote_pull_serialized(self, keys): d = self.service.pull_serialized(keys) d.addCallback(pickle.dumps, 2) d.addErrback(packageFailure) return d #--------------------------------------------------------------------------- # Properties interface #--------------------------------------------------------------------------- def remote_set_properties(self, pNamespace): try: namespace = pickle.loads(pNamespace) except: return defer.fail(failure.Failure()).addErrback(packageFailure) else: return self.service.set_properties(namespace).addErrback(packageFailure) def remote_get_properties(self, keys=None): d = self.service.get_properties(keys) d.addCallback(pickle.dumps, 2) d.addErrback(packageFailure) return d def remote_has_properties(self, keys): d = self.service.has_properties(keys) d.addCallback(pickle.dumps, 2) d.addErrback(packageFailure) return d def remote_del_properties(self, keys): d = self.service.del_properties(keys) d.addErrback(packageFailure) return d def remote_clear_properties(self): d = self.service.clear_properties() d.addErrback(packageFailure) return d components.registerAdapter(FCEngineReferenceFromService, IEngineBase, IFCEngine) #------------------------------------------------------------------------------- # Now the server (Controller) side of things #------------------------------------------------------------------------------- class EngineFromReference(object): """Adapt a `RemoteReference` to an `IEngineBase` implementing object. When an engine connects to a controller, it calls the `register_engine` method of the controller and passes the controller a `RemoteReference` to itself. This class is used to adapt this `RemoteReference` to an object that implements the full `IEngineBase` interface. See the documentation of `IEngineBase` for details on the methods. """ implements(IEngineBase) def __init__(self, reference): self.reference = reference self._id = None self._properties = StrictDict() self.currentCommand = None def callRemote(self, *args, **kwargs): try: return self.reference.callRemote(*args, **kwargs) except DeadReferenceError: self.notifier() self.stopNotifying(self.notifier) return defer.fail() def get_id(self): """Return the Engines id.""" return self._id def set_id(self, id): """Set the Engines id.""" self._id = id return self.callRemote('set_id', id) id = property(get_id, set_id) def syncProperties(self, r): try: psync, result = r except (ValueError, TypeError): return r else: if psync: log.msg("sync properties") pick = self.checkReturnForFailure(psync) if isinstance(pick, failure.Failure): self.properties = pick return pick else: self.properties = pickle.loads(pick) return result def _set_properties(self, dikt): self._properties.clear() self._properties.update(dikt) def _get_properties(self): if isinstance(self._properties, failure.Failure): self._properties.raiseException() return self._properties properties = property(_get_properties, _set_properties) #--------------------------------------------------------------------------- # Methods from IEngine #--------------------------------------------------------------------------- #--------------------------------------------------------------------------- # execute #--------------------------------------------------------------------------- def execute(self, lines): # self._needProperties = True d = self.callRemote('execute', lines) d.addCallback(self.syncProperties) return d.addCallback(self.checkReturnForFailure) #--------------------------------------------------------------------------- # push #--------------------------------------------------------------------------- def push(self, namespace): try: package = pickle.dumps(namespace, 2) except: return defer.fail(failure.Failure()) else: if isinstance(package, failure.Failure): return defer.fail(package) else: d = self.callRemote('push', package) return d.addCallback(self.checkReturnForFailure) #--------------------------------------------------------------------------- # pull #--------------------------------------------------------------------------- def pull(self, keys): d = self.callRemote('pull', keys) d.addCallback(self.checkReturnForFailure) d.addCallback(pickle.loads) return d #--------------------------------------------------------------------------- # push/pull_function #--------------------------------------------------------------------------- def push_function(self, namespace): try: package = pickle.dumps(canDict(namespace), 2) except: return defer.fail(failure.Failure()) else: if isinstance(package, failure.Failure): return defer.fail(package) else: d = self.callRemote('push_function', package) return d.addCallback(self.checkReturnForFailure) def pull_function(self, keys): d = self.callRemote('pull_function', keys) d.addCallback(self.checkReturnForFailure) d.addCallback(pickle.loads) # The usage of globals() here is an attempt to bind any pickled functions # to the globals of this module. What we really want is to have it bound # to the globals of the callers module. This will require walking the # stack. BG 10/3/07. if len(keys)==1: d.addCallback(uncan, globals()) elif len(keys)>1: d.addCallback(uncanSequence, globals()) return d #--------------------------------------------------------------------------- # Other methods #--------------------------------------------------------------------------- def get_result(self, i=None): return self.callRemote('get_result', i).addCallback(self.checkReturnForFailure) def reset(self): self._refreshProperties = True d = self.callRemote('reset') d.addCallback(self.syncProperties) return d.addCallback(self.checkReturnForFailure) def kill(self): #this will raise pb.PBConnectionLost on success d = self.callRemote('kill') d.addCallback(self.syncProperties) d.addCallback(self.checkReturnForFailure) d.addErrback(self.killBack) return d def killBack(self, f): log.msg('filling engine: %s' % f) return None def keys(self): return self.callRemote('keys').addCallback(self.checkReturnForFailure) #--------------------------------------------------------------------------- # Properties methods #--------------------------------------------------------------------------- def set_properties(self, properties): try: package = pickle.dumps(properties, 2) except: return defer.fail(failure.Failure()) else: if isinstance(package, failure.Failure): return defer.fail(package) else: d = self.callRemote('set_properties', package) return d.addCallback(self.checkReturnForFailure) return d def get_properties(self, keys=None): d = self.callRemote('get_properties', keys) d.addCallback(self.checkReturnForFailure) d.addCallback(pickle.loads) return d def has_properties(self, keys): d = self.callRemote('has_properties', keys) d.addCallback(self.checkReturnForFailure) d.addCallback(pickle.loads) return d def del_properties(self, keys): d = self.callRemote('del_properties', keys) d.addCallback(self.checkReturnForFailure) # d.addCallback(pickle.loads) return d def clear_properties(self): d = self.callRemote('clear_properties') d.addCallback(self.checkReturnForFailure) return d #--------------------------------------------------------------------------- # push/pull_serialized #--------------------------------------------------------------------------- def push_serialized(self, namespace): """Older version of pushSerialize.""" try: package = pickle.dumps(namespace, 2) except: return defer.fail(failure.Failure()) else: if isinstance(package, failure.Failure): return defer.fail(package) else: d = self.callRemote('push_serialized', package) return d.addCallback(self.checkReturnForFailure) def pull_serialized(self, keys): d = self.callRemote('pull_serialized', keys) d.addCallback(self.checkReturnForFailure) d.addCallback(pickle.loads) return d #--------------------------------------------------------------------------- # Misc #--------------------------------------------------------------------------- def checkReturnForFailure(self, r): """See if a returned value is a pickled Failure object. To distinguish between general pickled objects and pickled Failures, the other side should prepend the string FAILURE: to any pickled Failure. """ return unpackageFailure(r) components.registerAdapter(EngineFromReference, RemoteReference, IEngineBase) #------------------------------------------------------------------------------- # Now adapt an IControllerBase to incoming FC connections #------------------------------------------------------------------------------- class IFCControllerBase(Interface): """ Interface that tells how an Engine sees a Controller. In our architecture, the Controller listens for Engines to connect and register. This interface defines that registration method as it is exposed over the Foolscap network protocol """ def remote_register_engine(self, engineReference, id=None, pid=None, pproperties=None): """ Register new engine on the controller. Engines must call this upon connecting to the controller if they want to do work for the controller. See the documentation of `IControllerCore` for more details. """ class FCRemoteEngineRefFromService(Referenceable): """ Adapt an `IControllerBase` to an `IFCControllerBase`. """ implements(IFCControllerBase) def __init__(self, service): assert IControllerBase.providedBy(service), \ "IControllerBase is not provided by " + repr(service) self.service = service def remote_register_engine(self, engine_reference, id=None, pid=None, pproperties=None): # First adapt the engine_reference to a basic non-queued engine engine = IEngineBase(engine_reference) if pproperties: engine.properties = pickle.loads(pproperties) # Make it an IQueuedEngine before registration remote_engine = IEngineQueued(engine) # Get the ip/port of the remote side peer_address = engine_reference.tracker.broker.transport.getPeer() ip = peer_address.host port = peer_address.port reg_dict = self.service.register_engine(remote_engine, id, ip, port, pid) # Now setup callback for disconnect and unregistering the engine def notify(*args): return self.service.unregister_engine(reg_dict['id']) engine_reference.tracker.broker.notifyOnDisconnect(notify) engine.notifier = notify engine.stopNotifying = engine_reference.tracker.broker.dontNotifyOnDisconnect return reg_dict components.registerAdapter(FCRemoteEngineRefFromService, IControllerBase, IFCControllerBase)