Beispiel #1
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  def __init__(self, strategy):
    """Initializes the cluster instance."""

    self._num_workers = strategy._num_workers
    self._num_ps = strategy._num_ps

    # Ignore PS failures reported by workers due to transient connection errors.
    # Transient connectivity issues between workers and PS are relayed by the
    # workers to the client, leading the client to believe that there are PS
    # failures. The difference between transient vs. permanent PS failure is the
    # number of reports from the workers. When this env var is set to a positive
    # integer K, the client ignores up to K reports of a failed PS task. I.e.,
    # only when there are more than K trials of executing closures fail due to
    # errors from the same PS instance do we consider the PS instance encounters
    # a failure.
    # TODO(b/164279603): Remove this workaround when the underlying connectivity
    # issue in gRPC server is resolved.
    self._transient_ps_failures_threshold = int(os.environ.get(
        "TF_CLIENT_IGNORE_TRANSIENT_PS_FAILURES", 3))
    self._potential_ps_failures_lock = threading.Lock()
    self._potential_ps_failures_count = [0] * self._num_ps

    self._closure_queue = _CoordinatedClosureQueue()
    self.failure_handler = WorkerPreemptionHandler(context.get_server_def(),
                                                   self)
    worker_device_strings = [
        "/job:worker/replica:0/task:%d" % i for i in range(self._num_workers)
    ]
    self.workers = [
        Worker(i, w, self) for i, w in enumerate(worker_device_strings)
    ]
Beispiel #2
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        def copy_tensor(composite_tensor_obj):
          """Copy a remote tensor to local (coordinator)."""
          if isinstance(composite_tensor_obj, input_lib.DistributedIterator):
            # A DistributedIterator cannot be copied to local; users should not
            # access that anyway.
            return composite_tensor_obj

          with ops.device("/job:%s" % context.get_server_def().job_name):
            # Copying to local (the coordinator) with `tf.device`.
            return array_ops.identity(composite_tensor_obj)
Beispiel #3
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    def testKillAndStartTask(self):
        self.assertTrue(context.check_alive("/job:worker/replica:0/task:0"))

        # It is not allowed to start a task before killing it.
        with self.assertRaises(ValueError):
            self._cluster.start_task("worker", 0)

        self._cluster.kill_task("worker", 0)
        self.assertFalse(context.check_alive("/job:worker/replica:0/task:0"))

        # The task is already killed.
        with self.assertRaises(ValueError):
            self._cluster.kill_task("worker", 0)

        self._cluster.start_task("worker", 0)

        # Without a call to update_server_def, the next check_alive will return
        # False. Alternatively sleeping for 2 seconds here also works.
        context.context().update_server_def(context.get_server_def())

        self.assertTrue(context.check_alive("/job:worker/replica:0/task:0"))
Beispiel #4
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  def __init__(self, cluster_resolver, client_name="chief"):
    """Initializes the cluster instance and connect to the remote cluster."""
    if client_name in ["worker", "ps"]:
      raise ValueError("Client name should not be 'worker' or 'ps'.")
    cluster_spec = cluster_resolver.cluster_spec()

    self._num_workers = len(cluster_spec.as_dict().get("worker", ()))
    self._num_ps = len(cluster_spec.as_dict().get("ps", ()))
    device_filters = server_lib.ClusterDeviceFilters()
    # For any worker, only the devices on PS and chief nodes are visible
    for i in range(self._num_workers):
      device_filters.set_device_filters(
          "worker", i, ["/job:ps", "/job:%s" % client_name])
    # Similarly for any ps, only the devices on workers and chief are visible
    for i in range(self._num_ps):
      device_filters.set_device_filters(
          "ps", i, ["/job:worker", "/job:%s" % client_name])

    context.context().mirroring_policy = context.MIRRORING_ALL
    # Allow at most one outstanding RPC for each worker at a certain time. This
    # is to simplify worker failure handling in the runtime
    os.environ["TF_ENABLE_EAGER_CLIENT_STREAMING_ENQUEUE"] = "False"
    remote.connect_to_cluster(cluster_spec,
                              job_name=client_name,
                              protocol=cluster_resolver.rpc_layer,
                              cluster_device_filters=device_filters)

    self._cancellation_mgr = cancellation.CancellationManager()
    self._closure_queue = _CoordinatedClosureQueue(self._cancellation_mgr)
    self.failure_handler = WorkerPreemptionHandler(context.get_server_def())
    worker_device_strings = [
        "/job:worker/replica:0/task:%d" % i for i in range(self._num_workers)
    ]
    self.workers = [
        Worker(i, w, self) for i, w in enumerate(worker_device_strings)
    ]
Beispiel #5
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def connect_to_cluster(cluster_spec_or_resolver,
                       job_name="localhost",
                       task_index=0,
                       protocol=None,
                       make_master_device_default=True):
    """Connects to the given cluster.

  Will make devices on the cluster available to use. Note that calling this more
  than once will work, but will invalidate any tensor handles on the old remote
  devices.

  If the given local job name is not present in the cluster specification, it
  will be automatically added, using an unused port on the localhost.

  Args:
    cluster_spec_or_resolver: A `ClusterSpec` or `ClusterResolver` describing
      the cluster.
    job_name: The name of the local job.
    task_index: The local task index.
    protocol: The communication protocol, such as `"grpc"`. If unspecified, will
      use the default from `python/platform/remote_utils.py`.
    make_master_device_default: If True and a cluster resolver is passed, will
      automatically enter the master task device scope, which indicates the
      master becomes the default device to run ops. It won't do anything if
      a cluster spec is passed. Will throw an error if the caller is currently
      already in some device scope.
  """
    if not context.executing_eagerly():
        raise ValueError(
            "`tf.config.experimental_connect_to_cluster` can only be called in "
            "eager mode.")
    protocol = protocol or remote_utils.get_default_communication_protocol()
    if isinstance(cluster_spec_or_resolver, server_lib.ClusterSpec):
        cluster_spec = cluster_spec_or_resolver
    elif isinstance(cluster_spec_or_resolver,
                    cluster_resolver.ClusterResolver):
        if cluster_spec_or_resolver.master() in _LOCAL_MASTERS:
            # Do nothing if the master is local.
            return
        cluster_spec = cluster_spec_or_resolver.cluster_spec()
    else:
        raise ValueError(
            "`cluster_spec_or_resolver` must be a `ClusterSpec` or a "
            "`ClusterResolver`.")

    cluster_def = copy.deepcopy(cluster_spec.as_cluster_def())

    # Automatically add local job, if not part of the cluster spec.
    if job_name not in cluster_spec.jobs:
        local_port = pywrap_tensorflow.TF_PickUnusedPortOrDie()
        job_def = cluster_def.job.add()
        job_def.name = job_name
        # TODO(fishx): Update this to make sure remote worker has valid ip address
        # to connect with local.
        job_def.tasks[0] = "localhost:{}".format(local_port)

    server_def = ServerDef(cluster=cluster_def,
                           job_name=job_name,
                           task_index=task_index,
                           protocol=protocol,
                           default_session_config=context.context().config)

    if context.get_server_def() is None:
        context.set_server_def(server_def)
    else:
        context.update_server_def(server_def)

    if make_master_device_default and isinstance(
            cluster_spec_or_resolver, cluster_resolver.ClusterResolver
    ) and cluster_spec_or_resolver.master():
        master = cluster_spec_or_resolver.master()
        master_job_name = None
        master_task_id = None
        for job_name in cluster_spec.jobs:
            for task_id in cluster_spec.task_indices(job_name):
                task_address = cluster_spec.task_address(job_name, task_id)
                if master in task_address or task_address in master:
                    master_job_name = job_name
                    master_task_id = task_id
                    break

        if not master_job_name:
            raise ValueError(
                "`make_master_device_default` is set to True but cannot find "
                "master %s in the cluster" % master)

        master_device = "/job:{}/replica:0/task:{}".format(
            master_job_name, master_task_id)
        master_device = device_util.canonicalize(master_device)
        current_device = device_util.current()
        if current_device:
            current_device = device_util.canonicalize(current_device)
        if current_device and current_device != master_device:
            raise ValueError(
                "`connect_to_cluster` is called inside existing device "
                "scope %s, which is different from the master device "
                "scope %s to enter. This is not allowed." %
                (current_device, master_device))
        # TODO(b/138389076): Think of the entering device scope behavior in the
        # failure recovery case when dealing with preemptions.
        if not current_device:
            logging.info("Entering into master device scope: %s",
                         master_device)
            ops.device(master_device).__enter__()
def connect_to_cluster(cluster_spec_or_resolver,
                       job_name="localhost",
                       task_index=0,
                       protocol=None,
                       make_master_device_default=True,
                       cluster_device_filters=None):
    """Connects to the given cluster.

  Will make devices on the cluster available to use. Note that calling this more
  than once will work, but will invalidate any tensor handles on the old remote
  devices.

  If the given local job name is not present in the cluster specification, it
  will be automatically added, using an unused port on the localhost.

  Device filters can be specified to isolate groups of remote tasks to avoid
  undesired accesses between workers. Workers accessing resources or launching
  ops / functions on filtered remote devices will result in errors (unknown
  devices). For any remote task, if no device filter is present, all cluster
  devices will be visible; if any device filter is specified, it can only
  see devices matching at least one filter. Devices on the task itself are
  always visible. Device filters can be particially specified.

  For example, for a cluster set up for parameter server training, the following
  device filters might be specified:

  ```python
  cdf = tf.config.experimental.ClusterDeviceFilters()
  # For any worker, only the devices on PS nodes and itself are visible
  for i in range(num_workers):
    cdf.set_device_filters('worker', i, ['/job:ps'])
  # Similarly for any ps, only the devices on workers and itself are visible
  for i in range(num_ps):
    cdf.set_device_filters('ps', i, ['/job:worker'])

  tf.config.experimental_connect_to_cluster(cluster_def,
                                            cluster_device_filters=cdf)
  ```

  Args:
    cluster_spec_or_resolver: A `ClusterSpec` or `ClusterResolver` describing
      the cluster.
    job_name: The name of the local job.
    task_index: The local task index.
    protocol: The communication protocol, such as `"grpc"`. If unspecified, will
      use the default from `python/platform/remote_utils.py`.
    make_master_device_default: If True and a cluster resolver is passed, will
      automatically enter the master task device scope, which indicates the
      master becomes the default device to run ops. It won't do anything if
      a cluster spec is passed. Will throw an error if the caller is currently
      already in some device scope.
    cluster_device_filters: an instance of
      `tf.train.experimental/ClusterDeviceFilters` that specify device filters
      to the remote tasks in cluster.
  """
    if not context.executing_eagerly():
        raise ValueError(
            "`tf.config.experimental_connect_to_cluster` can only be called in "
            "eager mode.")
    protocol = protocol or remote_utils.get_default_communication_protocol()
    if isinstance(cluster_spec_or_resolver, server_lib.ClusterSpec):
        cluster_spec = cluster_spec_or_resolver
    elif isinstance(cluster_spec_or_resolver,
                    cluster_resolver.ClusterResolver):
        if cluster_spec_or_resolver.master() in _LOCAL_MASTERS:
            # Do nothing if the master is local.
            return
        cluster_spec = cluster_spec_or_resolver.cluster_spec()
    else:
        raise ValueError(
            "`cluster_spec_or_resolver` must be a `ClusterSpec` or a "
            "`ClusterResolver`.")

    cluster_def = copy.deepcopy(cluster_spec.as_cluster_def())
    if cluster_device_filters:
        if isinstance(cluster_device_filters, server_lib.ClusterDeviceFilters):
            cluster_device_filters = copy.deepcopy(
                cluster_device_filters._as_cluster_device_filters())  # pylint: disable=protected-access
        else:
            raise ValueError("`cluster_device_filters` must be an instance of "
                             "`tf.train.experimental.ClusterDeviceFilters`.")

    # Automatically add local job, if not part of the cluster spec.
    if job_name not in cluster_spec.jobs:
        local_port = pywrap_tfe.TF_PickUnusedPortOrDie()
        job_def = cluster_def.job.add()
        job_def.name = job_name

        ipstr = _get_local_ip_address(local_port)
        if ipstr:
            job_def.tasks[0] = "{}:{}".format(ipstr, local_port)
        else:
            job_def.tasks[0] = "localhost:{}".format(local_port)

    server_def = ServerDef(cluster=cluster_def,
                           job_name=job_name,
                           task_index=task_index,
                           protocol=protocol,
                           default_session_config=context.context().config,
                           cluster_device_filters=cluster_device_filters)

    if context.get_server_def() is None:
        context.set_server_def(server_def)
    else:
        context.update_server_def(server_def)

    if make_master_device_default and isinstance(
            cluster_spec_or_resolver, cluster_resolver.ClusterResolver
    ) and cluster_spec_or_resolver.master():
        master = cluster_spec_or_resolver.master()
        master_job_name = None
        master_task_id = None
        for job_name in cluster_spec.jobs:
            for task_id in cluster_spec.task_indices(job_name):
                task_address = cluster_spec.task_address(job_name, task_id)
                if master in task_address or task_address in master:
                    master_job_name = job_name
                    master_task_id = task_id
                    break

        if not master_job_name:
            raise ValueError(
                "`make_master_device_default` is set to True but cannot find "
                "master %s in the cluster" % master)

        master_device = "/job:{}/replica:0/task:{}".format(
            master_job_name, master_task_id)
        master_device = device_util.canonicalize(master_device)
        current_device = device_util.current()
        if current_device:
            current_device = device_util.canonicalize(current_device)
        if current_device and current_device != master_device:
            raise ValueError(
                "`connect_to_cluster` is called inside existing device "
                "scope %s, which is different from the master device "
                "scope %s to enter. This is not allowed." %
                (current_device, master_device))
        # TODO(b/138389076): Think of the entering device scope behavior in the
        # failure recovery case when dealing with preemptions.
        if not current_device:
            logging.info("Entering into master device scope: %s",
                         master_device)
            ops.device(master_device).__enter__()