#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You under the Apache License, Version 2.0
# (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""PipelineRunner, an abstract base runner object."""
from __future__ import absolute_import
import logging
import os
import shelve
import shutil
import tempfile
from builtins import object
__all__ = ['PipelineRunner', 'PipelineState', 'PipelineResult']
def _get_runner_map(runner_names, module_path):
"""Create a map of runner name in lower case to full import path to the
runner class.
"""
return {runner_name.lower(): module_path + runner_name
for runner_name in runner_names}
_DIRECT_RUNNER_PATH = 'apache_beam.runners.direct.direct_runner.'
_DATAFLOW_RUNNER_PATH = (
'apache_beam.runners.dataflow.dataflow_runner.')
_TEST_RUNNER_PATH = 'apache_beam.runners.test.'
_PYTHON_RPC_DIRECT_RUNNER = (
'apache_beam.runners.experimental.python_rpc_direct.'
'python_rpc_direct_runner.')
_PORTABLE_RUNNER_PATH = ('apache_beam.runners.portability.portable_runner.')
_KNOWN_PYTHON_RPC_DIRECT_RUNNER = ('PythonRPCDirectRunner',)
_KNOWN_DIRECT_RUNNERS = ('DirectRunner', 'BundleBasedDirectRunner',
'SwitchingDirectRunner')
_KNOWN_DATAFLOW_RUNNERS = ('DataflowRunner',)
_KNOWN_TEST_RUNNERS = ('TestDataflowRunner', 'TestDirectRunner')
_KNOWN_PORTABLE_RUNNERS = ('PortableRunner',)
_RUNNER_MAP = {}
_RUNNER_MAP.update(_get_runner_map(_KNOWN_DIRECT_RUNNERS,
_DIRECT_RUNNER_PATH))
_RUNNER_MAP.update(_get_runner_map(_KNOWN_DATAFLOW_RUNNERS,
_DATAFLOW_RUNNER_PATH))
_RUNNER_MAP.update(_get_runner_map(_KNOWN_PYTHON_RPC_DIRECT_RUNNER,
_PYTHON_RPC_DIRECT_RUNNER))
_RUNNER_MAP.update(_get_runner_map(_KNOWN_TEST_RUNNERS,
_TEST_RUNNER_PATH))
_RUNNER_MAP.update(_get_runner_map(_KNOWN_PORTABLE_RUNNERS,
_PORTABLE_RUNNER_PATH))
_ALL_KNOWN_RUNNERS = (
_KNOWN_DIRECT_RUNNERS + _KNOWN_DATAFLOW_RUNNERS + _KNOWN_TEST_RUNNERS +
_KNOWN_PORTABLE_RUNNERS)
def create_runner(runner_name):
"""For internal use only; no backwards-compatibility guarantees.
Creates a runner instance from a runner class name.
Args:
runner_name: Name of the pipeline runner. Possible values are listed in
_RUNNER_MAP above.
Returns:
A runner object.
Raises:
RuntimeError: if an invalid runner name is used.
"""
# Get the qualified runner name by using the lower case runner name. If that
# fails try appending the name with 'runner' and check if it matches.
# If that also fails, use the given runner name as is.
runner_name = _RUNNER_MAP.get(
runner_name.lower(),
_RUNNER_MAP.get(runner_name.lower() + 'runner', runner_name))
if '.' in runner_name:
module, runner = runner_name.rsplit('.', 1)
try:
return getattr(__import__(module, {}, {}, [runner], 0), runner)()
except ImportError:
if runner_name in _KNOWN_DATAFLOW_RUNNERS:
raise ImportError(
'Google Cloud Dataflow runner not available, '
'please install apache_beam[gcp]')
else:
raise
else:
raise ValueError(
'Unexpected pipeline runner: %s. Valid values are %s '
'or the fully qualified name of a PipelineRunner subclass.' % (
runner_name, ', '.join(_ALL_KNOWN_RUNNERS)))
[docs]class PipelineRunner(object):
"""A runner of a pipeline object.
The base runner provides a run() method for visiting every node in the
pipeline's DAG and executing the transforms computing the PValue in the node.
A custom runner will typically provide implementations for some of the
transform methods (ParDo, GroupByKey, Create, etc.). It may also
provide a new implementation for clear_pvalue(), which is used to wipe out
materialized values in order to reduce footprint.
"""
[docs] def run(self, transform, options=None):
"""Run the given transform or callable with this runner.
Blocks until the pipeline is complete. See also `PipelineRunner.run_async`.
"""
result = self.run_async(transform, options)
result.wait_until_finish()
return result
[docs] def run_async(self, transform, options=None):
"""Run the given transform or callable with this runner.
May return immediately, executing the pipeline in the background.
The returned result object can be queried for progress, and
`wait_until_finish` may be called to block until completion.
"""
# Imported here to avoid circular dependencies.
# pylint: disable=wrong-import-order, wrong-import-position
from apache_beam import PTransform
from apache_beam.pvalue import PBegin
from apache_beam.pipeline import Pipeline
p = Pipeline(runner=self, options=options)
if isinstance(transform, PTransform):
p | transform
else:
transform(PBegin(p))
return p.run()
[docs] def run_pipeline(self, pipeline):
"""Execute the entire pipeline or the sub-DAG reachable from a node.
Runners should override this method.
"""
# Imported here to avoid circular dependencies.
# pylint: disable=wrong-import-order, wrong-import-position
from apache_beam.pipeline import PipelineVisitor
class RunVisitor(PipelineVisitor):
def __init__(self, runner):
self.runner = runner
def visit_transform(self, transform_node):
try:
self.runner.run_transform(transform_node)
except:
logging.error('Error while visiting %s', transform_node.full_label)
raise
pipeline.visit(RunVisitor(self))
[docs] def apply(self, transform, input):
"""Runner callback for a pipeline.apply call.
Args:
transform: the transform to apply.
input: transform's input (typically a PCollection).
A concrete implementation of the Runner class may want to do custom
pipeline construction for a given transform. To override the behavior
for a transform class Xyz, implement an apply_Xyz method with this same
signature.
"""
for cls in transform.__class__.mro():
m = getattr(self, 'apply_%s' % cls.__name__, None)
if m:
return m(transform, input)
raise NotImplementedError(
'Execution of [%s] not implemented in runner %s.' % (transform, self))
class PValueCache(object):
"""For internal use only; no backwards-compatibility guarantees.
Local cache for arbitrary information computed for PValue objects."""
def __init__(self, use_disk_backed_cache=False):
# Cache of values computed while a runner executes a pipeline. This is a
# dictionary of PValues and their computed values. Note that in principle
# the runner could contain PValues from several pipelines without clashes
# since a PValue is associated with one and only one pipeline. The keys of
# the dictionary are tuple of PValue instance addresses obtained using id()
# and tag names converted to strings.
self._use_disk_backed_cache = use_disk_backed_cache
if use_disk_backed_cache:
self._tempdir = tempfile.mkdtemp()
self._cache = shelve.open(os.path.join(self._tempdir, 'shelve'))
else:
self._cache = {}
def __del__(self):
if self._use_disk_backed_cache:
self._cache.close()
shutil.rmtree(self._tempdir)
def __len__(self):
return len(self._cache)
def to_cache_key(self, transform, tag):
return transform.full_label, tag
def _ensure_pvalue_has_real_producer(self, pvalue):
"""Ensure the passed-in PValue has the real_producer attribute.
Args:
pvalue: A PValue instance whose cached value is requested.
During the runner's execution only the results of the primitive transforms
are cached. Whenever we are looking for a PValue that is the output of a
composite transform we need to find the output of its rightmost transform
part.
"""
if not hasattr(pvalue, 'real_producer'):
real_producer = pvalue.producer
while real_producer.parts:
real_producer = real_producer.parts[-1]
pvalue.real_producer = real_producer
def is_cached(self, pobj):
from apache_beam.pipeline import AppliedPTransform
if isinstance(pobj, AppliedPTransform):
transform = pobj
tag = None
else:
self._ensure_pvalue_has_real_producer(pobj)
transform = pobj.real_producer
tag = pobj.tag
return self.to_cache_key(transform, tag) in self._cache
def cache_output(self, transform, tag_or_value, value=None):
if value is None:
value = tag_or_value
tag = None
else:
tag = tag_or_value
self._cache[
self.to_cache_key(transform, tag)] = value
def get_pvalue(self, pvalue):
"""Gets the value associated with a PValue from the cache."""
self._ensure_pvalue_has_real_producer(pvalue)
try:
return self._cache[self.key(pvalue)]
except KeyError:
if (pvalue.tag is not None
and self.to_cache_key(pvalue.real_producer, None) in self._cache):
# This is an undeclared, empty output of a DoFn executed
# in the local runner before this output was referenced.
return []
else:
raise
def get_unwindowed_pvalue(self, pvalue):
return [v.value for v in self.get_pvalue(pvalue)]
def clear_pvalue(self, pvalue):
"""Removes a PValue from the cache."""
if self.is_cached(pvalue):
del self._cache[self.key(pvalue)]
def key(self, pobj):
self._ensure_pvalue_has_real_producer(pobj)
return self.to_cache_key(pobj.real_producer, pobj.tag)
[docs]class PipelineState(object):
"""State of the Pipeline, as returned by :attr:`PipelineResult.state`.
This is meant to be the union of all the states any runner can put a
pipeline in. Currently, it represents the values of the dataflow
API JobState enum.
"""
UNKNOWN = 'UNKNOWN' # not specified
STARTING = 'STARTING' # not yet started
STOPPED = 'STOPPED' # paused or not yet started
RUNNING = 'RUNNING' # currently running
DONE = 'DONE' # successfully completed (terminal state)
FAILED = 'FAILED' # failed (terminal state)
CANCELLED = 'CANCELLED' # explicitly cancelled (terminal state)
UPDATED = 'UPDATED' # replaced by another job (terminal state)
DRAINING = 'DRAINING' # still processing, no longer reading data
DRAINED = 'DRAINED' # draining completed (terminal state)
PENDING = 'PENDING' # the job has been created but is not yet running.
CANCELLING = 'CANCELLING' # job has been explicitly cancelled and is
# in the process of stopping
[docs] @classmethod
def is_terminal(cls, state):
return state in [cls.STOPPED, cls.DONE, cls.FAILED, cls.CANCELLED,
cls.UPDATED, cls.DRAINED]
[docs]class PipelineResult(object):
"""A :class:`PipelineResult` provides access to info about a pipeline."""
def __init__(self, state):
self._state = state
@property
def state(self):
"""Return the current state of the pipeline execution."""
return self._state
[docs] def wait_until_finish(self, duration=None):
"""Waits until the pipeline finishes and returns the final status.
Args:
duration (int): The time to wait (in milliseconds) for job to finish.
If it is set to :data:`None`, it will wait indefinitely until the job
is finished.
Raises:
~exceptions.IOError: If there is a persistent problem getting job
information.
~exceptions.NotImplementedError: If the runner does not support this
operation.
Returns:
The final state of the pipeline, or :data:`None` on timeout.
"""
raise NotImplementedError
[docs] def cancel(self):
"""Cancels the pipeline execution.
Raises:
~exceptions.IOError: If there is a persistent problem getting job
information.
~exceptions.NotImplementedError: If the runner does not support this
operation.
Returns:
The final state of the pipeline.
"""
raise NotImplementedError
[docs] def metrics(self):
"""Returns :class:`~apache_beam.metrics.metric.MetricResults` object to
query metrics from the runner.
Raises:
~exceptions.NotImplementedError: If the runner does not support this
operation.
"""
raise NotImplementedError
# pylint: disable=unused-argument
[docs] def aggregated_values(self, aggregator_or_name):
"""Return a dict of step names to values of the Aggregator."""
logging.warn('%s does not implement aggregated_values',
self.__class__.__name__)
return {}