Beispiel #1
0
def call_function(func_call_socket, pusher_cache, policy):
    # Parse the received protobuf for this function call.
    call = FunctionCall()
    call.ParseFromString(func_call_socket.recv())

    # If there is no response key set for this request, we generate a random
    # UUID.
    if not call.response_key:
        call.response_key = str(uuid.uuid4())

    # Filter the arguments for CloudburstReferences, and use the policy engine to
    # pick a node for this request.
    refs = list(
        filter(lambda arg: type(arg) == CloudburstReference,
               map(lambda arg: serializer.load(arg), call.arguments.values)))
    result = policy.pick_executor(refs)

    response = GenericResponse()
    if result is None:
        response.success = False
        response.error = NO_RESOURCES
        func_call_socket.send(response.SerializeToString())
        return

    # Forward the request on to the chosen executor node.
    ip, tid = result
    sckt = pusher_cache.get(utils.get_exec_address(ip, tid))
    sckt.send(call.SerializeToString())

    # Send a success response to the user with the response key.
    response.success = True
    response.response_id = call.response_key
    func_call_socket.send(response.SerializeToString())
Beispiel #2
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def call_function_from_queue(func_call_queue_socket, pusher_cache, policy):
    call = FunctionCall()
    call.ParseFromString(func_call_queue_socket.recv())

    # If there is no response key set for this request, we generate a random
    # UUID.
    if not call.response_key:
        call.response_key = str(uuid.uuid4())

    if call.source_hint == STORAGE:
        # It means the invocation is from storage,
        # so we parse the arguments in a different way
        # TODO remove loc from the original call
        loc_set = set(call.locations)
        result = policy.pick_executor_with_loc(call.name, loc_set)

        if result is None:
            logging.error('No executor available for STORAGE CALL')
            return

        ip, tid = result
        logging.info(
            'Pick executor %s:%d for STORAGE CALL %s with locations %s' %
            (ip, tid, call.name, loc_set))

        sckt = pusher_cache.get(utils.get_exec_address(ip, tid))
        sckt.send(call.SerializeToString())
Beispiel #3
0
def exec_function(exec_socket, kvs, user_library, cache, function_cache):
    call = FunctionCall()
    call.ParseFromString(exec_socket.recv())

    fargs = [serializer.load(arg) for arg in call.arguments.values]

    if call.name in function_cache:
        f = function_cache[call.name]
    else:
        f = utils.retrieve_function(call.name, kvs, user_library,
                                    call.consistency)

    if not f:
        logging.info('Function %s not found! Returning an error.' %
                     (call.name))
        sutils.error.error = FUNC_NOT_FOUND
        result = ('ERROR', sutils.error.SerializeToString())
    else:
        function_cache[call.name] = f
        try:
            if call.consistency == NORMAL:
                result = _exec_func_normal(kvs, f, fargs, user_library, cache)
                logging.info('Finished executing %s: %s!' %
                             (call.name, str(result)))
            else:
                dependencies = {}
                result = _exec_func_causal(kvs,
                                           f,
                                           fargs,
                                           user_library,
                                           dependencies=dependencies)
        except Exception as e:
            logging.exception('Unexpected error %s while executing function.' %
                              (str(e)))
            sutils.error.error = EXECUTION_ERROR
            result = ('ERROR: ' + str(e), sutils.error.SerializeToString())

    if call.consistency == NORMAL:
        result = serializer.dump_lattice(result)
        succeed = kvs.put(call.response_key, result)
    else:
        result = serializer.dump_lattice(result,
                                         MultiKeyCausalLattice,
                                         causal_dependencies=dependencies)
        succeed = kvs.causal_put(call.response_key, result)

    if not succeed:
        logging.info(f'Unsuccessful attempt to put key {call.response_key} ' +
                     'into the KVS.')
Beispiel #4
0
    def test_call_function_with_refs(self):
        '''
        Creates a scenario where the policy should deterministically pick the
        same executor to run a request on: There is one reference, and it's
        cached only on the node we create in this test.
        '''
        # Add a new executor for which we will construct cached references.
        ip_address = '192.168.0.1'
        new_key = (ip_address, 2)
        self.policy.unpinned_executors.add(new_key)

        # Create a new reference and add its metadata.
        ref_name = 'reference'
        self.policy.key_locations[ref_name] = [ip_address]

        # Create a function call that asks for this reference.
        call = FunctionCall()
        call.name = 'function'
        call.request_id = 12
        val = call.arguments.values.add()
        serializer.dump(CloudburstReference(ref_name, True), val)
        self.socket.inbox.append(call.SerializeToString(0))

        # Execute the scheduling policy.
        call_function(self.socket, self.pusher_cache, self.policy)

        # Check that the correct number of messages were sent.
        self.assertEqual(len(self.socket.outbox), 1)
        self.assertEqual(len(self.pusher_cache.socket.outbox), 1)

        # Extract and deserialize the messages.
        response = GenericResponse()
        forwarded = FunctionCall()
        response.ParseFromString(self.socket.outbox[0])
        forwarded.ParseFromString(self.pusher_cache.socket.outbox[0])

        self.assertTrue(response.success)
        self.assertEqual(response.response_id, forwarded.response_key)
        self.assertEqual(forwarded.name, call.name)
        self.assertEqual(forwarded.request_id, call.request_id)

        # Makes sure that the correct executor was chosen.
        self.assertEqual(len(self.pusher_cache.addresses), 1)
        self.assertEqual(self.pusher_cache.addresses[0],
                         utils.get_exec_address(*new_key))
Beispiel #5
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    def test_call_function_no_refs(self):
        '''
        A basic test that makes sure that an executor is successfully chosen
        when there is only one possible executor to choose from.
        '''
        # Create a new function call for a function that doesn't exist.
        call = FunctionCall()
        call.name = 'function'
        call.request_id = 12

        # Add an argument to thhe function.
        val = call.arguments.values.add()
        serializer.dump(2, val)
        self.socket.inbox.append(call.SerializeToString())

        # Execute the scheduling policy.
        call_function(self.socket, self.pusher_cache, self.policy)

        # Check that the correct number of messages were sent.
        self.assertEqual(len(self.socket.outbox), 1)
        self.assertEqual(len(self.pusher_cache.socket.outbox), 1)

        # Extract and deserialize the messages.
        response = GenericResponse()
        forwarded = FunctionCall()
        response.ParseFromString(self.socket.outbox[0])
        forwarded.ParseFromString(self.pusher_cache.socket.outbox[0])

        self.assertTrue(response.success)
        self.assertEqual(response.response_id, forwarded.response_key)
        self.assertEqual(forwarded.name, call.name)
        self.assertEqual(forwarded.request_id, call.request_id)

        # Makes sure that the correct executor was chosen.
        self.assertEqual(len(self.pusher_cache.addresses), 1)
        self.assertEqual(self.pusher_cache.addresses[0],
                         utils.get_exec_address(*self.executor_key))
Beispiel #6
0
def exec_function(exec_socket,
                  kvs,
                  user_library,
                  cache,
                  function_cache,
                  has_ephe=False):
    call = FunctionCall()
    call.ParseFromString(exec_socket.recv())

    fargs = [serializer.load(arg) for arg in call.arguments.values]

    if call.name in function_cache:
        f = function_cache[call.name]
    else:
        f = utils.retrieve_function(call.name, kvs, user_library,
                                    call.consistency)

    if not f:
        logging.info('Function %s not found! Returning an error.' %
                     (call.name))
        sutils.error.error = FUNC_NOT_FOUND
        result = ('ERROR', sutils.error.SerializeToString())
    else:
        function_cache[call.name] = f

        # We set the session as the response key from scheduler
        # It should be uuid and identical
        if has_ephe:
            user_library.session = call.response_key
        try:
            if call.consistency == NORMAL:
                result = _exec_func_normal(kvs, f, fargs, user_library, cache)
                logging.info('Finished executing %s: %s!' %
                             (call.name, str(result)))
            else:
                dependencies = {}
                result = _exec_func_causal(kvs,
                                           f,
                                           fargs,
                                           user_library,
                                           dependencies=dependencies)
        except Exception as e:
            logging.exception('Unexpected error %s while executing function.' %
                              (str(e)))
            sutils.error.error = EXECUTION_ERROR
            result = ('ERROR: ' + str(e), sutils.error.SerializeToString())

    # When we use ephe kvs for coordination, we do not write the results to anna
    # Instead, we presume the function will put the result mannually
    if not has_ephe:
        if call.consistency == NORMAL:
            result = serializer.dump_lattice(result)
            succeed = kvs.put(call.response_key, result)
        else:
            result = serializer.dump_lattice(result,
                                             MultiKeyCausalLattice,
                                             causal_dependencies=dependencies)
            succeed = kvs.causal_put(call.response_key, result)

        if not succeed:
            logging.info(
                f'Unsuccessful attempt to put key {call.response_key} ' +
                'into the KVS.')