Exemplo n.º 1
0
    def put(self, k, v, options: dict = None):
        if options is None:
            options = {}
        k, v = create_serdes(self.__store._store_locator._serdes).serialize(k), \
               create_serdes(self.__store._store_locator._serdes).serialize(v)
        er_pair = ErPair(key=k, value=v)
        outputs = []
        partition_id = self.partitioner(k)
        egg = self.ctx.route_to_egg(self.__store._partitions[partition_id])
        inputs = [ErPartition(id=partition_id, store_locator=self.__store._store_locator)]
        output = [ErPartition(id=0, store_locator=self.__store._store_locator)]

        job_id = generate_job_id(self.__session_id, RollPair.PUT)
        job = ErJob(id=job_id,
                    name=RollPair.PUT,
                    inputs=[self.__store],
                    outputs=outputs,
                    functors=[ErFunctor(name=RollPair.PUT, body=cloudpickle.dumps(er_pair))])

        task = ErTask(id=generate_task_id(job_id, partition_id),
                      name=RollPair.PUT,
                      inputs=inputs,
                      outputs=output,
                      job=job)
        job_resp = self.__command_client.simple_sync_send(
                input=task,
                output_type=ErPair,
                endpoint=egg._command_endpoint,
                command_uri=CommandURI(f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'),
                serdes_type=self.__command_serdes
        )
        value = job_resp._value
        return value
Exemplo n.º 2
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    def count(self):
        total_partitions = self.__store._store_locator._total_partitions
        job_id = generate_job_id(self.__session_id, tag=RollPair.COUNT)
        job = ErJob(id=job_id,
                    name=RollPair.COUNT,
                    inputs=[self.ctx.populate_processor(self.__store)])
        args = list()
        for i in range(total_partitions):
            partition_input = job._inputs[0]._partitions[i]
            task = ErTask(id=generate_task_id(job_id, i),
                          name=job._name,
                          inputs=[partition_input],
                          job=job)
            args.append(([task], partition_input._processor._command_endpoint))

        futures = self.__command_client.async_call(
            args=args,
            output_types=[ErPair],
            command_uri=CommandURI(
                f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'))

        done = wait(futures, return_when=FIRST_EXCEPTION).done

        result = 0
        for future in done:
            pair = future.result()[0]
            result += self.functor_serdes.deserialize(pair._value)

        return result
Exemplo n.º 3
0
    def get(self, k, options: dict = None):
        if options is None:
            options = {}
        k = create_serdes(self.__store._store_locator._serdes).serialize(k)
        er_pair = ErPair(key=k, value=None)
        partition_id = self.partitioner(k)
        egg = self.ctx.route_to_egg(self.__store._partitions[partition_id])
        inputs = [ErPartition(id=partition_id, store_locator=self.__store._store_locator)]
        outputs = [ErPartition(id=partition_id, store_locator=self.__store._store_locator)]

        job_id = generate_job_id(self.__session_id, RollPair.GET)
        job = ErJob(id=job_id,
                    name=RollPair.GET,
                    inputs=[self.__store],
                    outputs=[self.__store],
                    functors=[ErFunctor(name=RollPair.GET, body=cloudpickle.dumps(er_pair))])

        task = ErTask(id=generate_task_id(job_id, partition_id),
                      name=RollPair.GET,
                      inputs=inputs,
                      outputs=outputs,
                      job=job)
        job_resp = self.__command_client.simple_sync_send(
                input=task,
                output_type=ErPair,
                endpoint=egg._command_endpoint,
                command_uri=self.RUN_TASK_URI,
                serdes_type=self.__command_serdes
        )

        return self.value_serdes.deserialize(job_resp._value) if job_resp._value != b'' else None
Exemplo n.º 4
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    def destroy(self, options: dict = None):
        tasks = [
            ErTask(
                id=f"{self._replicate_job_id}-partition-{self._partition_id}",
                name=RollPair.DESTROY,
                inputs=[self._er_partition],
                outputs=[],
                job=ErJob(id=self._replicate_job_id, name=RollPair.DESTROY))
        ]

        return self._cm_client.sync_send(inputs=tasks,
                                         output_types=[ErTask],
                                         endpoint=self.remote_cmd_endpoint,
                                         command_uri=RollPair.RUN_TASK_URI)
Exemplo n.º 5
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    def aggregate(self,
                  zero_value,
                  seq_op,
                  comb_op,
                  output=None,
                  options: dict = None):
        total_partitions = self.__store._store_locator._total_partitions
        job_id = generate_job_id(self.__session_id, tag=RollPair.AGGREGATE)

        serialized_zero_value = ErFunctor(name=RollPair.AGGREGATE,
                                          serdes=SerdesTypes.CLOUD_PICKLE,
                                          body=cloudpickle.dumps(zero_value))
        serialized_seq_op = ErFunctor(name=RollPair.AGGREGATE,
                                      serdes=SerdesTypes.CLOUD_PICKLE,
                                      body=cloudpickle.dumps(seq_op))
        job = ErJob(id=job_id,
                    name=RollPair.AGGREGATE,
                    inputs=[self.ctx.populate_processor(self.__store)],
                    functors=[serialized_zero_value, serialized_seq_op])
        args = list()
        for i in range(total_partitions):
            partition_input = job._inputs[0]._partitions[i]
            task = ErTask(id=generate_task_id(job_id, i),
                          name=job._name,
                          inputs=[partition_input],
                          job=job)
            args.append(([task], partition_input._processor._command_endpoint))

        futures = self.__command_client.async_call(
            args=args,
            output_types=[ErPair],
            command_uri=CommandURI(
                f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'))

        done = wait(futures, return_when=FIRST_EXCEPTION).done

        result = None
        first = True
        for future in done:
            pair = future.result()[0]
            seq_op_result = self.functor_serdes.deserialize(pair._value)
            if not first:
                result = comb_op(result, seq_op_result)
            else:
                result = seq_op_result
                first = False

        return result
Exemplo n.º 6
0
    def with_stores(self, func, others=None, options: dict = None):
        if options is None:
            options = {}
        tag = "withStores"
        if others is None:
            others = []
        total_partitions = self.get_partitions()
        for other in others:
            if other.get_partitions() != total_partitions:
                raise ValueError(
                    f"diff partitions: expected:{total_partitions}, actual:{other.get_partitions()}"
                )
        job_id = generate_job_id(self.__session_id, tag=tag)
        job = ErJob(id=job_id,
                    name=tag,
                    inputs=[
                        self.ctx.populate_processor(rp.get_store())
                        for rp in [self] + others
                    ],
                    functors=[
                        ErFunctor(name=tag,
                                  serdes=SerdesTypes.CLOUD_PICKLE,
                                  body=cloudpickle.dumps(func))
                    ],
                    options=options)
        args = list()
        for i in range(total_partitions):
            partition_self = job._inputs[0]._partitions[i]
            task = ErTask(
                id=generate_task_id(job_id, i),
                name=job._name,
                inputs=[store._partitions[i] for store in job._inputs],
                job=job)
            args.append(([task], partition_self._processor._command_endpoint))

        futures = self.__command_client.async_call(
            args=args,
            output_types=[ErPair],
            command_uri=CommandURI(
                f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'))

        result = list()
        for future in futures:
            ret_pair = future.result()[0]
            result.append((self.functor_serdes.deserialize(ret_pair._key),
                           self.functor_serdes.deserialize(ret_pair._value)))
        return result
Exemplo n.º 7
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    def write(self):
        L.info("RemoteRollPairWriteBatch write calling")
        if len(self.manual_merger) == 0:
            L.info(f"self.manual_merger={self.manual_merger}")
            return
        self.has_write_op = True
        batches = TransferPair.pair_to_bin_batch(
            sorted(self.manual_merger.items(), key=lambda kv: kv[0]))
        task_id = f"{self.adapter._replicate_job_id}-partition-{self.adapter._partition_id}"
        L.info(f"task_id={task_id}")

        tasks = [
            ErTask(id=task_id,
                   name=RollPair.PUT_BATCH,
                   inputs=[self.adapter._er_partition],
                   outputs=[self.adapter._er_partition],
                   job=ErJob(id=self.adapter._replicate_job_id,
                             name=RollPair.PUT_BATCH))
        ]

        def send_command(tasks, remote_cmd_endpoint):
            cmd_client = CommandClient()
            return cmd_client.sync_send(
                inputs=tasks,
                output_types=[ErTask],
                endpoint=remote_cmd_endpoint,
                command_uri=CommandURI(f'v1/egg-pair/runTask'))

        L.info(f"start to send cmd")
        t = Thread(target=send_command,
                   name=task_id,
                   args=[tasks, self.adapter.remote_cmd_endpoint])
        t.start()

        transfer_client = TransferClient()
        f = transfer_client.send(
            batches,
            endpoint=self.adapter.remote_transfer_endpoint,
            tag=task_id)

        f.result()
        t.join()

        self.manual_merger.clear()
        L.info("RemoteRollPairWriteBatch write called")
Exemplo n.º 8
0
    def get(self, k, options: dict = None):
        if options is None:
            options = {}
        L.debug(f"get k: {k}")
        k = create_serdes(self.__store._store_locator._serdes).serialize(k)
        er_pair = ErPair(key=k, value=None)
        outputs = []
        value = None
        partition_id = self.partitioner(k)
        egg = self.ctx.route_to_egg(self.__store._partitions[partition_id])
        L.info(
            f"partitions count: {self.__store._store_locator._total_partitions}, target partition: {partition_id}, endpoint: {egg._command_endpoint}"
        )
        inputs = [
            ErPartition(id=partition_id,
                        store_locator=self.__store._store_locator)
        ]
        output = [
            ErPartition(id=partition_id,
                        store_locator=self.__store._store_locator)
        ]

        job_id = generate_job_id(self.__session_id, RollPair.GET)
        job = ErJob(id=job_id,
                    name=RollPair.GET,
                    inputs=[self.__store],
                    outputs=outputs,
                    functors=[ErFunctor(body=cloudpickle.dumps(er_pair))])

        task = ErTask(id=generate_task_id(job_id, partition_id),
                      name=RollPair.GET,
                      inputs=inputs,
                      outputs=output,
                      job=job)
        job_resp = self.__command_client.simple_sync_send(
            input=task,
            output_type=ErPair,
            endpoint=egg._command_endpoint,
            command_uri=CommandURI(
                f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'),
            serdes_type=self.__command_serdes)

        return self.value_serdes.deserialize(
            job_resp._value) if job_resp._value != b'' else None
Exemplo n.º 9
0
    def dispatch(self, service_name: str, args, kwargs):
        if service_name not in self._service_route_table:
            raise ValueError(f'{service_name} has not been registered yet')

        _instance, _class, _method = self._service_route_table[service_name]

        if not _instance:
            _instance = _class()

        task_name = ''
        deserialized_args = list()
        for arg in args:
            task = meta_pb2.Task()
            msg_len = task.ParseFromString(arg)
            deserialized_task = ErTask.from_proto(task)
            if not task_name:
                task_name = deserialized_task._name
            deserialized_args.append(deserialized_task)

        L.debug(
            f"[CS] calling: [{service_name}], task_name={task_name}, request={deserialized_args}, len={len(args)}"
        )

        start = time.time()
        try:
            call_result = _method(_instance, *deserialized_args)
        except Exception as e:
            L.exception(
                f'Failed to dispatch to [{service_name}], task_name: {task_name}, request: {deserialized_args}'
            )
            raise e
        elapsed = time.time() - start
        if L.isEnabledFor(logging.TRACE):
            L.trace(
                f"[CS] called (elapsed={elapsed}): [{service_name}]: task_name={task_name}, request={deserialized_args}, result={call_result}"
            )
        else:
            L.debug(
                f"[CS] called (elapsed={elapsed}): [{service_name}], task_name={task_name}, request={deserialized_args}"
            )

        # todo:2: defaulting to pb message. need changes when other types of result is present
        return [call_result.to_proto().SerializeToString()]
Exemplo n.º 10
0
    def delete(self, k, options: dict = None):
        if options is None:
            options = {}
        key = create_serdes(self.__store._store_locator._serdes).serialize(k)
        er_pair = ErPair(key=key, value=None)
        outputs = []
        value = None
        partition_id = self.partitioner(key)
        egg = self.ctx.route_to_egg(self.__store._partitions[partition_id])
        L.info(egg._command_endpoint)
        L.info(f"count: {self.__store._store_locator._total_partitions}")
        inputs = [
            ErPartition(id=partition_id,
                        store_locator=self.__store._store_locator)
        ]
        output = [
            ErPartition(id=partition_id,
                        store_locator=self.__store._store_locator)
        ]

        job_id = generate_job_id(self.__session_id, RollPair.DELETE)
        job = ErJob(id=job_id,
                    name=RollPair.DELETE,
                    inputs=[self.__store],
                    outputs=outputs,
                    functors=[ErFunctor(body=cloudpickle.dumps(er_pair))])
        task = ErTask(id=generate_task_id(job_id, partition_id),
                      name=RollPair.DELETE,
                      inputs=inputs,
                      outputs=output,
                      job=job)
        L.info("start send req")
        job_resp = self.__command_client.simple_sync_send(
            input=task,
            output_type=ErPair,
            endpoint=egg._command_endpoint,
            command_uri=CommandURI(
                f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'),
            serdes_type=self.__command_serdes)
Exemplo n.º 11
0
    def cleanup(self, name, namespace, options: dict = None):
        if not namespace:
            raise ValueError('namespace cannot be blank')
        L.debug(f'cleaning up namespace={namespace}, name={name}')
        if options is None:
            options = {}
        total_partitions = options.get('total_partitions', 1)
        partitioner = options.get('partitioner', PartitionerTypes.BYTESTRING_HASH)
        store_serdes = options.get('serdes', self.default_store_serdes)

        if name == '*':
            store_type = options.get('store_type', '*')
            L.debug(f'cleaning up whole store_type={store_type}, namespace={namespace}, name={name}')
            er_store = ErStore(store_locator=ErStoreLocator(namespace=namespace,
                                                            name=name,
                                                            store_type=store_type))
            job_id = generate_job_id(namespace, tag=RollPair.CLEANUP)
            job = ErJob(id=job_id,
                        name=RollPair.DESTROY,
                        inputs=[er_store],
                        options=options)

            args = list()
            cleanup_partitions = [ErPartition(id=-1, store_locator=er_store._store_locator)]

            for server_node, eggs in self.__session._eggs.items():
                egg = eggs[0]
                task = ErTask(id=generate_task_id(job_id, egg._command_endpoint._host),
                              name=job._name,
                              inputs=cleanup_partitions,
                              job=job)
                args.append(([task], egg._command_endpoint))

            futures = self.__command_client.async_call(
                    args=args,
                    output_types=[ErTask],
                    command_uri=CommandURI(f'{RollPair.EGG_PAIR_URI_PREFIX}/{RollPair.RUN_TASK}'))

            for future in futures:
                result = future.result()

            self.get_session()._cluster_manager_client.delete_store(er_store)
        else:
            # todo:1: add combine options to pass it through
            store_options = self.__session.get_all_options()
            store_options.update(options)
            final_options = store_options.copy()

            store = ErStore(
                    store_locator=ErStoreLocator(
                            store_type=StoreTypes.ROLLPAIR_LMDB,
                            namespace=namespace,
                            name=name,
                            total_partitions=total_partitions,
                            partitioner=partitioner,
                            serdes=store_serdes),
                    options=final_options)
            task_results = self.__session._cluster_manager_client.get_store_from_namespace(store)
            L.trace('res={}'.format(task_results._stores))
            if task_results._stores is not None:
                L.trace("item count={}".format(len(task_results._stores)))
                for item in task_results._stores:
                    L.trace("item namespace={} name={}".format(item._store_locator._namespace,
                                                               item._store_locator._name))
                    rp = RollPair(er_store=item, rp_ctx=self)
                    rp.destroy()
Exemplo n.º 12
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    def _decompose_job(self, job: ErJob):
        input_total_partitions = job._inputs[0]._store_locator._total_partitions
        output_total_partitions = 0 \
            if not job._outputs \
            else job._outputs[0]._store_locator._total_partitions

        larger_total_partitions = max(input_total_partitions, output_total_partitions)

        populated_input_partitions = self.populate_processor(job._inputs[0])._partitions

        if output_total_partitions > 0:
            populated_output_partitions = self.populate_processor(job._outputs[0])._partitions
        else:
            populated_output_partitions = list()

        result = list()
        for i in range(larger_total_partitions):
            input_partitions = list()
            output_partitions = list()

            if i < input_total_partitions:
                input_processor = populated_input_partitions[i]._processor
                input_server_node_id = input_processor._server_node_id
                for input_store in job._inputs:
                    input_partitions.append(ErPartition(
                            id=i,
                            store_locator=input_store._store_locator,
                            processor=input_processor))
            else:
                input_processor = None
                input_server_node_id = None

            if i < output_total_partitions:
                output_processor = populated_output_partitions[i]._processor
                output_server_node_id = output_processor._server_node_id
                for output_store in job._outputs:
                    output_partitions.append(ErPartition(
                            id=i,
                            store_locator=output_store._store_locator,
                            processor=output_processor))
            else:
                output_processor = None
                output_server_node_id = None

            tasks = [ErTask(id=generate_task_id(job._id, i),
                           name=f'{job._name}',
                           inputs=input_partitions,
                           outputs=output_partitions,
                           job=job)]
            if input_server_node_id == output_server_node_id:
                result.append(
                        (tasks, input_processor._command_endpoint))
            else:
                if input_server_node_id is not None:
                    result.append(
                            (tasks, input_processor._command_endpoint))
                if output_server_node_id is not None:
                    result.append(
                            (tasks, output_processor._command_endpoint))

        return result