#
# 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.
#
"""This module defines Providers usable from yaml, which is a specification
for where to find and how to invoke services that vend implementations of
various PTransforms."""
import collections
import hashlib
import json
import os
import subprocess
import sys
import urllib.parse
import uuid
from typing import Any
from typing import Callable
from typing import Dict
from typing import Iterable
from typing import Mapping
import yaml
from yaml.loader import SafeLoader
import apache_beam as beam
import apache_beam.dataframe.io
import apache_beam.io
import apache_beam.transforms.util
from apache_beam.portability.api import schema_pb2
from apache_beam.transforms import external
from apache_beam.transforms import window
from apache_beam.transforms.fully_qualified_named_transform import FullyQualifiedNamedTransform
from apache_beam.typehints import schemas
from apache_beam.typehints import trivial_inference
from apache_beam.utils import python_callable
from apache_beam.utils import subprocess_server
from apache_beam.version import __version__ as beam_version
[docs]class Provider:
"""Maps transform types names and args to concrete PTransform instances."""
[docs] def available(self) -> bool:
"""Returns whether this provider is available to use in this environment."""
raise NotImplementedError(type(self))
[docs] def affinity(self, other: "Provider"):
"""Returns a value approximating how good it would be for this provider
to be used immediately following a transform from the other provider
(e.g. to encourage fusion).
"""
# TODO(yaml): This is a very rough heuristic. Consider doing better.
# E.g. we could look at the the expected environments themselves.
# Possibly, we could provide multiple expansions and have the runner itself
# choose the actual implementation based on fusion (and other) criteria.
return self._affinity(other) + other._affinity(self)
def _affinity(self, other: "Provider"):
if self is other or self == other:
return 100
elif type(self) == type(other):
return 10
else:
return 0
[docs]def as_provider(name, provider_or_constructor):
if isinstance(provider_or_constructor, Provider):
return provider_or_constructor
else:
return InlineProvider({name: provider_or_constructor})
[docs]def as_provider_list(name, lst):
if not isinstance(lst, list):
return as_provider_list(name, [lst])
return [as_provider(name, x) for x in lst]
[docs]class ExternalProvider(Provider):
"""A Provider implemented via the cross language transform service."""
_provider_types: Dict[str, Callable[..., Provider]] = {}
def __init__(self, urns, service):
self._urns = urns
self._service = service
self._schema_transforms = None
[docs] @classmethod
def provider_from_spec(cls, spec):
urns = spec['transforms']
type = spec['type']
from apache_beam.yaml.yaml_transform import SafeLineLoader
config = SafeLineLoader.strip_metadata(spec.get('config', {}))
if config.get('version', None) == 'BEAM_VERSION':
config['version'] = beam_version
if type in cls._provider_types:
try:
return cls._provider_types[type](urns, **config)
except Exception as exn:
raise ValueError(
f'Unable to instantiate provider of type {type} '
f'at line {SafeLineLoader.get_line(spec)}: {exn}') from exn
else:
raise NotImplementedError(
f'Unknown provider type: {type} '
f'at line {SafeLineLoader.get_line(spec)}.')
[docs] @classmethod
def register_provider_type(cls, type_name):
def apply(constructor):
cls._provider_types[type_name] = constructor
return apply
@ExternalProvider.register_provider_type('javaJar')
def java_jar(urns, jar: str):
if not os.path.exists(jar):
parsed = urllib.parse.urlparse(jar)
if not parsed.scheme or not parsed.netloc:
raise ValueError(f'Invalid path or url: {jar}')
return ExternalJavaProvider(urns, lambda: jar)
@ExternalProvider.register_provider_type('mavenJar')
def maven_jar(
urns,
*,
artifact_id,
group_id,
version,
repository=subprocess_server.JavaJarServer.MAVEN_CENTRAL_REPOSITORY,
classifier=None,
appendix=None):
return ExternalJavaProvider(
urns,
lambda: subprocess_server.JavaJarServer.path_to_maven_jar(
artifact_id=artifact_id,
version=version,
repository=repository,
classifier=classifier,
appendix=appendix))
@ExternalProvider.register_provider_type('beamJar')
def beam_jar(
urns,
*,
gradle_target,
appendix=None,
version=beam_version,
artifact_id=None):
return ExternalJavaProvider(
urns,
lambda: subprocess_server.JavaJarServer.path_to_beam_jar(
gradle_target=gradle_target, version=version, artifact_id=artifact_id)
)
@ExternalProvider.register_provider_type('docker')
def docker(urns, **config):
raise NotImplementedError()
@ExternalProvider.register_provider_type('remote')
class RemoteProvider(ExternalProvider):
_is_available = None
def __init__(self, urns, address: str):
super().__init__(urns, service=address)
def available(self):
if self._is_available is None:
try:
with external.ExternalTransform.service(self._service) as service:
service.ready(1)
self._is_available = True
except Exception:
self._is_available = False
return self._is_available
[docs]class ExternalJavaProvider(ExternalProvider):
def __init__(self, urns, jar_provider):
super().__init__(
urns, lambda: external.JavaJarExpansionService(jar_provider()))
[docs] def available(self):
# pylint: disable=subprocess-run-check
return subprocess.run(['which', 'java'],
capture_output=True).returncode == 0
@ExternalProvider.register_provider_type('pythonPackage')
class ExternalPythonProvider(ExternalProvider):
def __init__(self, urns, packages):
super().__init__(urns, PypiExpansionService(packages))
def available(self):
return True # If we're running this script, we have Python installed.
def create_external_transform(self, urn, args):
# Python transforms are "registered" by fully qualified name.
return external.ExternalTransform(
"beam:transforms:python:fully_qualified_named",
external.ImplicitSchemaPayloadBuilder({
'constructor': urn,
'kwargs': args,
}).payload(),
self._service)
def _affinity(self, other: "Provider"):
if isinstance(other, InlineProvider):
return 50
else:
return super()._affinity(other)
# This is needed because type inference can't handle *args, **kwargs forwarding.
# TODO(BEAM-24755): Add support for type inference of through kwargs calls.
[docs]def fix_pycallable():
from apache_beam.transforms.ptransform import label_from_callable
def default_label(self):
src = self._source.strip()
last_line = src.split('\n')[-1]
if last_line[0] != ' ' and len(last_line) < 72:
return last_line
return label_from_callable(self._callable)
def _argspec_fn(self):
return self._callable
python_callable.PythonCallableWithSource.default_label = default_label
python_callable.PythonCallableWithSource._argspec_fn = property(_argspec_fn)
original_infer_return_type = trivial_inference.infer_return_type
def infer_return_type(fn, *args, **kwargs):
if isinstance(fn, python_callable.PythonCallableWithSource):
fn = fn._callable
return original_infer_return_type(fn, *args, **kwargs)
trivial_inference.infer_return_type = infer_return_type
original_fn_takes_side_inputs = (
apache_beam.transforms.util.fn_takes_side_inputs)
def fn_takes_side_inputs(fn):
if isinstance(fn, python_callable.PythonCallableWithSource):
fn = fn._callable
return original_fn_takes_side_inputs(fn)
apache_beam.transforms.util.fn_takes_side_inputs = fn_takes_side_inputs
[docs]class InlineProvider(Provider):
def __init__(self, transform_factories):
self._transform_factories = transform_factories
[docs] def available(self):
return True
[docs] def to_json(self):
return {'type': "InlineProvider"}
PRIMITIVE_NAMES_TO_ATOMIC_TYPE = {
py_type.__name__: schema_type
for (py_type, schema_type) in schemas.PRIMITIVE_TO_ATOMIC_TYPE.items()
if py_type.__module__ != 'typing'
}
[docs]def create_builtin_provider():
def with_schema(**args):
# TODO: This is preliminary.
def parse_type(spec):
if spec in PRIMITIVE_NAMES_TO_ATOMIC_TYPE:
return schema_pb2.FieldType(
atomic_type=PRIMITIVE_NAMES_TO_ATOMIC_TYPE[spec])
elif isinstance(spec, list):
if len(spec) != 1:
raise ValueError("Use single-element lists to denote list types.")
else:
return schema_pb2.FieldType(
iterable_type=schema_pb2.IterableType(
element_type=parse_type(spec[0])))
elif isinstance(spec, dict):
return schema_pb2.FieldType(
iterable_type=schema_pb2.RowType(schema=parse_schema(spec[0])))
else:
raise ValueError("Unknown schema type: {spec}")
def parse_schema(spec):
return schema_pb2.Schema(
fields=[
schema_pb2.Field(name=key, type=parse_type(value), id=ix)
for (ix, (key, value)) in enumerate(spec.items())
],
id=str(uuid.uuid4()))
named_tuple = schemas.named_tuple_from_schema(parse_schema(args))
names = list(args.keys())
def extract_field(x, name):
if isinstance(x, dict):
return x[name]
else:
return getattr(x, name)
return 'WithSchema(%s)' % ', '.join(names) >> beam.Map(
lambda x: named_tuple(*[extract_field(x, name) for name in names])
).with_output_types(named_tuple)
# Or should this be posargs, args?
# pylint: disable=dangerous-default-value
def fully_qualified_named_transform(constructor, args=(), kwargs={}):
with FullyQualifiedNamedTransform.with_filter('*'):
return constructor >> FullyQualifiedNamedTransform(
constructor, args, kwargs)
# This intermediate is needed because there is no way to specify a tuple of
# exactly zero or one PCollection in yaml (as they would be interpreted as
# PBegin and the PCollection itself respectively).
class Flatten(beam.PTransform):
def expand(self, pcolls):
if isinstance(pcolls, beam.PCollection):
pipeline_arg = {}
pcolls = (pcolls, )
elif isinstance(pcolls, dict):
pipeline_arg = {}
pcolls = tuple(pcolls.values())
else:
pipeline_arg = {'pipeline': pcolls.pipeline}
pcolls = ()
return pcolls | beam.Flatten(**pipeline_arg)
class WindowInto(beam.PTransform):
def __init__(self, windowing):
self._window_transform = self._parse_window_spec(windowing)
def expand(self, pcoll):
return pcoll | self._window_transform
@staticmethod
def _parse_window_spec(spec):
spec = dict(spec)
window_type = spec.pop('type')
# TODO: These are in seconds, perhaps parse duration strings meaningfully?
if window_type == 'global':
window_fn = window.GlobalWindows()
elif window_type == 'fixed':
window_fn = window.FixedWindows(spec.pop('size'), spec.pop('offset', 0))
elif window_type == 'sliding':
window_fn = window.SlidingWindows(
spec.pop('size'), spec.pop('period'), spec.pop('offset', 0))
elif window_type == 'sessions':
window_fn = window.FixedWindows(spec.pop('gap'))
if spec:
raise ValueError(f'Unknown parameters {spec.keys()}')
# TODO: Triggering, etc.
return beam.WindowInto(window_fn)
ios = {
key: getattr(apache_beam.io, key)
for key in dir(apache_beam.io)
if key.startswith('ReadFrom') or key.startswith('WriteTo')
}
return InlineProvider(
dict({
'Create': lambda elements,
reshuffle=True: beam.Create(elements, reshuffle),
'PyMap': lambda fn: beam.Map(
python_callable.PythonCallableWithSource(fn)),
'PyMapTuple': lambda fn: beam.MapTuple(
python_callable.PythonCallableWithSource(fn)),
'PyFlatMap': lambda fn: beam.FlatMap(
python_callable.PythonCallableWithSource(fn)),
'PyFlatMapTuple': lambda fn: beam.FlatMapTuple(
python_callable.PythonCallableWithSource(fn)),
'PyFilter': lambda keep: beam.Filter(
python_callable.PythonCallableWithSource(keep)),
'PyTransform': fully_qualified_named_transform,
'PyToRow': lambda fields: beam.Select(
**{
name: python_callable.PythonCallableWithSource(fn)
for (name, fn) in fields.items()
}),
'WithSchema': with_schema,
'Flatten': Flatten,
'WindowInto': WindowInto,
'GroupByKey': beam.GroupByKey,
},
**ios))
[docs]class PypiExpansionService:
"""Expands transforms by fully qualified name in a virtual environment
with the given dependencies.
"""
VENV_CACHE = os.path.expanduser("~/.apache_beam/cache/venvs")
def __init__(self, packages, base_python=sys.executable):
self._packages = packages
self._base_python = base_python
def _key(self):
return json.dumps({'binary': self._base_python, 'packages': self._packages})
def _venv(self):
venv = os.path.join(
self.VENV_CACHE,
hashlib.sha256(self._key().encode('utf-8')).hexdigest())
if not os.path.exists(venv):
python_binary = os.path.join(venv, 'bin', 'python')
subprocess.run([self._base_python, '-m', 'venv', venv], check=True)
subprocess.run([python_binary, '-m', 'ensurepip'], check=True)
subprocess.run([python_binary, '-m', 'pip', 'install'] + self._packages,
check=True)
with open(venv + '-requirements.txt', 'w') as fout:
fout.write('\n'.join(self._packages))
return venv
def __enter__(self):
venv = self._venv()
self._service_provider = subprocess_server.SubprocessServer(
external.ExpansionAndArtifactRetrievalStub,
[
os.path.join(venv, 'bin', 'python'),
'-m',
'apache_beam.runners.portability.expansion_service_main',
'--port',
'{{PORT}}',
'--fully_qualified_name_glob=*',
'--pickle_library=cloudpickle',
'--requirements_file=' + os.path.join(venv + '-requirements.txt')
])
self._service = self._service_provider.__enter__()
return self._service
def __exit__(self, *args):
self._service_provider.__exit__(*args)
self._service = None
[docs]def parse_providers(provider_specs):
providers = collections.defaultdict(list)
for provider_spec in provider_specs:
provider = ExternalProvider.provider_from_spec(provider_spec)
for transform_type in provider.provided_transforms():
providers[transform_type].append(provider)
# TODO: Do this better.
provider.to_json = lambda result=provider_spec: result
return providers
[docs]def merge_providers(*provider_sets):
result = collections.defaultdict(list)
for provider_set in provider_sets:
if isinstance(provider_set, Provider):
provider = provider_set
provider_set = {
transform_type: [provider]
for transform_type in provider.provided_transforms()
}
for transform_type, providers in provider_set.items():
result[transform_type].extend(providers)
return result
[docs]def standard_providers():
from apache_beam.yaml.yaml_mapping import create_mapping_provider
with open(os.path.join(os.path.dirname(__file__),
'standard_providers.yaml')) as fin:
standard_providers = yaml.load(fin, Loader=SafeLoader)
return merge_providers(
create_builtin_provider(),
create_mapping_provider(),
parse_providers(standard_providers))