netconf/grpc_client/grpc_client.py - voltha - Gitiles

 #
 # Copyright 2016 the original author or authors.
 #
 # Licensed 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.
 #

 """
 gRPC client meant to connect to a gRPC server endpoint, and query the
 end-point's schema by calling SchemaService.Schema(Empty) and all of its
 semantics are derived from the recovered schema.
 """

 import os
 import sys
 from random import randint
 from zlib import decompress

 import grpc
 from consul import Consul
 from grpc._channel import _Rendezvous
 from structlog import get_logger
 from twisted.internet import reactor
 from twisted.internet.defer import inlineCallbacks, returnValue
 from werkzeug.exceptions import ServiceUnavailable

 from common.utils.asleep import asleep
 from netconf.protos import third_party
 from netconf.protos.schema_pb2 import SchemaServiceStub
 from google.protobuf.empty_pb2 import Empty
 from common.utils.consulhelpers import get_endpoint_from_consul
 from netconf.protos.voltha_pb2  import VolthaLocalServiceStub, \
     VolthaGlobalServiceStub
 from twisted.internet import threads
 from google.protobuf import empty_pb2
 from google.protobuf.json_format import MessageToDict, ParseDict
 from simplejson import dumps, load

 log = get_logger()


 class GrpcClient(object):
     """
     Connect to a gRPC server, fetch its schema, and process the downloaded
     proto schema files.  The goal is to convert the proto schemas into yang
     schemas which would be exposed to the Netconf client.
     """
     RETRY_BACKOFF = [0.05, 0.1, 0.2, 0.5, 1, 2, 5]

     def __init__(self, consul_endpoint, work_dir,
                  grpc_endpoint='localhost:50055',
                  reconnect_callback=None,
                  on_start_callback=None):
         self.consul_endpoint = consul_endpoint
         self.grpc_endpoint = grpc_endpoint
         self.work_dir = work_dir
         self.reconnect_callback = reconnect_callback
         self.on_start_callback = on_start_callback

         self.plugin_dir = os.path.abspath(os.path.join(
             os.path.dirname(__file__), '../protoc_plugins'))

         self.channel = None
         self.local_stub = None
         self.schema = None
         self.retries = 0
         self.shutting_down = False
         self.connected = False

     def start(self):
         log.debug('starting')
         if not self.connected:
             reactor.callLater(0, self.connect)
         log.info('started')
         return self

     def stop(self):
         log.debug('stopping')
         if self.shutting_down:
             return
         self.shutting_down = True
         log.info('stopped')


     def set_on_start_callback(self, on_start_callback):
         self.on_start_callback = on_start_callback
         return self


     def set_reconnect_callback(self, reconnect_callback):
         self.reconnect_callback = reconnect_callback
         return self


     def resolve_endpoint(self, endpoint):
         ip_port_endpoint = endpoint
         if endpoint.startswith('@'):
             try:
                 ip_port_endpoint = get_endpoint_from_consul(
                     self.consul_endpoint, endpoint[1:])
                 log.info('endpoint-found',
                          endpoint=endpoint, ip_port=ip_port_endpoint)
             except Exception as e:
                 log.error('service-not-found-in-consul', endpoint=endpoint,
                           exception=repr(e))
                 return None, None
         if ip_port_endpoint:
             host, port = ip_port_endpoint.split(':', 2)
             return host, int(port)


     @inlineCallbacks
     def connect(self):
         """
         (Re-)Connect to end-point
         """
         if self.shutting_down or self.connected:
             return

         try:
             host, port = self.resolve_endpoint(self.grpc_endpoint)

             # If host and port is not set then we will retry
             if host and port:
                 log.info('grpc-endpoint-connecting', host=host, port=port)
                 self.channel = grpc.insecure_channel('{}:{}'.format(host, port))

                 # yang_from = self._retrieve_schema()
                 # log.info('proto-to-yang-schema', file=yang_from)
                 # self._compile_proto_files(yang_from)
                 self._clear_backoff()

                 if self.on_start_callback is not None:
                     reactor.callLater(0, self.on_start_callback)

                 self.connected = True
                 if self.reconnect_callback is not None:
                     reactor.callLater(0, self.reconnect_callback)

                 self.local_stub = VolthaLocalServiceStub(self.channel)
                 self.global_stub = VolthaGlobalServiceStub(self.channel)

                 return

         except _Rendezvous, e:
             if e.code() == grpc.StatusCode.UNAVAILABLE:
                 log.info('grpc-endpoint-not-available')
             else:
                 log.exception(e)
             yield self._backoff('not-available')

         except Exception, e:
             if not self.shutting_down:
                 log.exception('cannot-connect', endpoint=_endpoint)
             yield self._backoff('unknown-error')

         reactor.callLater(0, self.connect)

     def _backoff(self, msg):
         wait_time = self.RETRY_BACKOFF[min(self.retries,
                                            len(self.RETRY_BACKOFF) - 1)]
         self.retries += 1
         log.error(msg, retry_in=wait_time)
         return asleep(wait_time)

     def _clear_backoff(self):
         if self.retries:
             log.info('reconnected', after_retries=self.retries)
             self.retries = 0

     def _retrieve_schema(self):
         """
         Retrieve schema from gRPC end-point, and save all *.proto files in
         the work directory.
         """
         assert isinstance(self.channel, grpc.Channel)
         stub = SchemaServiceStub(self.channel)
         # try:
         schemas = stub.GetSchema(Empty())
         # except _Rendezvous, e:
         #     if e.code == grpc.StatusCode.UNAVAILABLE:
         #
         #     else:
         #         raise e

         os.system('mkdir -p %s' % self.work_dir)
         os.system('rm -fr /tmp/%s/*' %
                   self.work_dir.replace('/tmp/', ''))  # safer

         for proto_file in schemas.protos:
             proto_fname = proto_file.file_name
             # TODO: Do we need to process a set of files using a prefix
             # instead of just one?
             proto_content = proto_file.proto
             log.info('saving-proto', fname=proto_fname, dir=self.work_dir,
                       length=len(proto_content))
             with open(os.path.join(self.work_dir, proto_fname), 'w') as f:
                 f.write(proto_content)

             desc_content = decompress(proto_file.descriptor)
             desc_fname = proto_fname.replace('.proto', '.desc')
             log.info('saving-descriptor', fname=desc_fname, dir=self.work_dir,
                       length=len(desc_content))
             with open(os.path.join(self.work_dir, desc_fname), 'wb') as f:
                 f.write(desc_content)
         return schemas.yang_from

     def _compile_proto_files(self, yang_from):
         """
         For each *.proto file in the work directory, compile the proto
         file into the respective *_pb2.py file as well as generate the
         corresponding yang schema.
         :return: None
         """
         log.info('start')
         google_api_dir = os.path.abspath(os.path.join(
             os.path.dirname(__file__), '../protos/third_party'
         ))

         log.info('google-api', api_dir=google_api_dir)

         netconf_base_dir = os.path.abspath(os.path.join(
             os.path.dirname(__file__), '../..'
         ))
         log.info('netconf-dir', dir=netconf_base_dir)


         for fname in [f for f in os.listdir(self.work_dir)
                       if f.endswith('.proto')]:
             log.info('filename', file=fname)

             need_yang = fname == yang_from
             log.debug('compiling',
                       file=fname,
                       yang_schema_required=need_yang)
             cmd = (
                 'cd %s && '
                 'env PATH=%s PYTHONPATH=%s '
                 'python -m grpc.tools.protoc '
                 '-I. '
                 '-I%s '
                 '--python_out=. '
                 '--grpc_python_out=. '
                 '--plugin=protoc-gen-custom=%s/proto2yang.py '
                 '%s'
                 '%s' % (
                     self.work_dir,
                     ':'.join([os.environ['PATH'], self.plugin_dir]),
                     ':'.join([google_api_dir, netconf_base_dir]),
                     google_api_dir,
                     self.plugin_dir,
                     '--custom_out=. ' if need_yang else '',
                     fname)
             )
             log.debug('executing', cmd=cmd, file=fname)
             os.system(cmd)
             log.info('compiled', file=fname)

         # # test-load each _pb2 file to see all is right
         # if self.work_dir not in sys.path:
         #     sys.path.insert(0, self.work_dir)
         #
         # for fname in [f for f in os.listdir(self.work_dir)
         #               if f.endswith('_pb2.py')]:
         #     modname = fname[:-len('.py')]
         #     log.debug('test-import', modname=modname)
         #     _ = __import__(modname)

         #TODO: find a different way to test the generated yang files

     @inlineCallbacks
     def get_voltha_instance(self):
         try:
             res = yield threads.deferToThread(
                     self.local_stub.GetVolthaInstance, empty_pb2.Empty())

             out_data = MessageToDict(res, True, True)
             returnValue(out_data)
         except Exception, e:
             log.error('failure', exception=repr(e))


     #TODO: should be generated code
     @inlineCallbacks
     def invoke_voltha_api(self, key):
         # key = ''.join([service, '-', method])
         try:
             if key == 'VolthaGlobalService-GetVoltha':
                 res = yield threads.deferToThread(
                     self.global_stub.GetVoltha, empty_pb2.Empty())
             elif key == 'VolthaLocalService-GetVolthaInstance':
                 res = yield threads.deferToThread(
                     self.local_stub.GetVolthaInstance, empty_pb2.Empty())
             elif key == 'VolthaLocalService-GetHealth':
                 res = yield threads.deferToThread(
                     self.local_stub.GetHealth, empty_pb2.Empty())
             elif key == 'VolthaLocalService-ListAdapters':
                 res = yield threads.deferToThread(
                     self.local_stub.ListAdapters, empty_pb2.Empty())
             elif key == 'VolthaLocalService-ListLogicalDevices':
                 res = yield threads.deferToThread(
                     self.local_stub.ListLogicalDevices, empty_pb2.Empty())
             elif key == 'VolthaLocalService-ListDevices':
                 res = yield threads.deferToThread(
                     self.local_stub.ListDevices, empty_pb2.Empty())
             elif key == 'VolthaLocalService-ListDeviceTypes':
                 res = yield threads.deferToThread(
                     self.local_stub.ListDeviceTypes, empty_pb2.Empty())
             elif key == 'VolthaLocalService-ListDeviceGroups':
                 res = yield threads.deferToThread(
                     self.local_stub.ListDeviceGroups, empty_pb2.Empty())
             else: # for now just return voltha instance data
                 res = yield threads.deferToThread(
                     self.local_stub.GetVolthaInstance, empty_pb2.Empty())

             out_data = MessageToDict(res, True, True)
             returnValue(out_data)
         except Exception, e:
             log.error('failure', exception=repr(e))
	#
	# Copyright 2016 the original author or authors.
	#
	# Licensed 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.
	#

	"""
	gRPC client meant to connect to a gRPC server endpoint, and query the
	end-point's schema by calling SchemaService.Schema(Empty) and all of its
	semantics are derived from the recovered schema.
	"""

	import os
	import sys
	from random import randint
	from zlib import decompress

	import grpc
	from consul import Consul
	from grpc._channel import _Rendezvous
	from structlog import get_logger
	from twisted.internet import reactor
	from twisted.internet.defer import inlineCallbacks, returnValue
	from werkzeug.exceptions import ServiceUnavailable

	from common.utils.asleep import asleep
	from netconf.protos import third_party
	from netconf.protos.schema_pb2 import SchemaServiceStub
	from google.protobuf.empty_pb2 import Empty
	from common.utils.consulhelpers import get_endpoint_from_consul
	from netconf.protos.voltha_pb2 import VolthaLocalServiceStub, \
	VolthaGlobalServiceStub
	from twisted.internet import threads
	from google.protobuf import empty_pb2
	from google.protobuf.json_format import MessageToDict, ParseDict
	from simplejson import dumps, load

	log = get_logger()


	class GrpcClient(object):
	"""
	Connect to a gRPC server, fetch its schema, and process the downloaded
	proto schema files. The goal is to convert the proto schemas into yang
	schemas which would be exposed to the Netconf client.
	"""
	RETRY_BACKOFF = [0.05, 0.1, 0.2, 0.5, 1, 2, 5]

	def __init__(self, consul_endpoint, work_dir,
	grpc_endpoint='localhost:50055',
	reconnect_callback=None,
	on_start_callback=None):
	self.consul_endpoint = consul_endpoint
	self.grpc_endpoint = grpc_endpoint
	self.work_dir = work_dir
	self.reconnect_callback = reconnect_callback
	self.on_start_callback = on_start_callback

	self.plugin_dir = os.path.abspath(os.path.join(
	os.path.dirname(__file__), '../protoc_plugins'))

	self.channel = None
	self.local_stub = None
	self.schema = None
	self.retries = 0
	self.shutting_down = False
	self.connected = False

	def start(self):
	log.debug('starting')
	if not self.connected:
	reactor.callLater(0, self.connect)
	log.info('started')
	return self

	def stop(self):
	log.debug('stopping')
	if self.shutting_down:
	return
	self.shutting_down = True
	log.info('stopped')


	def set_on_start_callback(self, on_start_callback):
	self.on_start_callback = on_start_callback
	return self


	def set_reconnect_callback(self, reconnect_callback):
	self.reconnect_callback = reconnect_callback
	return self


	def resolve_endpoint(self, endpoint):
	ip_port_endpoint = endpoint
	if endpoint.startswith('@'):
	try:
	ip_port_endpoint = get_endpoint_from_consul(
	self.consul_endpoint, endpoint[1:])
	log.info('endpoint-found',
	endpoint=endpoint, ip_port=ip_port_endpoint)
	except Exception as e:
	log.error('service-not-found-in-consul', endpoint=endpoint,
	exception=repr(e))
	return None, None
	if ip_port_endpoint:
	host, port = ip_port_endpoint.split(':', 2)
	return host, int(port)


	@inlineCallbacks
	def connect(self):
	"""
	(Re-)Connect to end-point
	"""
	if self.shutting_down or self.connected:
	return

	try:
	host, port = self.resolve_endpoint(self.grpc_endpoint)

	# If host and port is not set then we will retry
	if host and port:
	log.info('grpc-endpoint-connecting', host=host, port=port)
	self.channel = grpc.insecure_channel('{}:{}'.format(host, port))

	# yang_from = self._retrieve_schema()
	# log.info('proto-to-yang-schema', file=yang_from)
	# self._compile_proto_files(yang_from)
	self._clear_backoff()

	if self.on_start_callback is not None:
	reactor.callLater(0, self.on_start_callback)

	self.connected = True
	if self.reconnect_callback is not None:
	reactor.callLater(0, self.reconnect_callback)

	self.local_stub = VolthaLocalServiceStub(self.channel)
	self.global_stub = VolthaGlobalServiceStub(self.channel)

	return

	except _Rendezvous, e:
	if e.code() == grpc.StatusCode.UNAVAILABLE:
	log.info('grpc-endpoint-not-available')
	else:
	log.exception(e)
	yield self._backoff('not-available')

	except Exception, e:
	if not self.shutting_down:
	log.exception('cannot-connect', endpoint=_endpoint)
	yield self._backoff('unknown-error')

	reactor.callLater(0, self.connect)

	def _backoff(self, msg):
	wait_time = self.RETRY_BACKOFF[min(self.retries,
	len(self.RETRY_BACKOFF) - 1)]
	self.retries += 1
	log.error(msg, retry_in=wait_time)
	return asleep(wait_time)

	def _clear_backoff(self):
	if self.retries:
	log.info('reconnected', after_retries=self.retries)
	self.retries = 0

	def _retrieve_schema(self):
	"""
	Retrieve schema from gRPC end-point, and save all *.proto files in
	the work directory.
	"""
	assert isinstance(self.channel, grpc.Channel)
	stub = SchemaServiceStub(self.channel)
	# try:
	schemas = stub.GetSchema(Empty())
	# except _Rendezvous, e:
	# if e.code == grpc.StatusCode.UNAVAILABLE:
	#
	# else:
	# raise e

	os.system('mkdir -p %s' % self.work_dir)
	os.system('rm -fr /tmp/%s/*' %
	self.work_dir.replace('/tmp/', '')) # safer

	for proto_file in schemas.protos:
	proto_fname = proto_file.file_name
	# TODO: Do we need to process a set of files using a prefix
	# instead of just one?
	proto_content = proto_file.proto
	log.info('saving-proto', fname=proto_fname, dir=self.work_dir,
	length=len(proto_content))
	with open(os.path.join(self.work_dir, proto_fname), 'w') as f:
	f.write(proto_content)

	desc_content = decompress(proto_file.descriptor)
	desc_fname = proto_fname.replace('.proto', '.desc')
	log.info('saving-descriptor', fname=desc_fname, dir=self.work_dir,
	length=len(desc_content))
	with open(os.path.join(self.work_dir, desc_fname), 'wb') as f:
	f.write(desc_content)
	return schemas.yang_from

	def _compile_proto_files(self, yang_from):
	"""
	For each *.proto file in the work directory, compile the proto
	file into the respective *_pb2.py file as well as generate the
	corresponding yang schema.
	:return: None
	"""
	log.info('start')
	google_api_dir = os.path.abspath(os.path.join(
	os.path.dirname(__file__), '../protos/third_party'
	))

	log.info('google-api', api_dir=google_api_dir)

	netconf_base_dir = os.path.abspath(os.path.join(
	os.path.dirname(__file__), '../..'
	))
	log.info('netconf-dir', dir=netconf_base_dir)


	for fname in [f for f in os.listdir(self.work_dir)
	if f.endswith('.proto')]:
	log.info('filename', file=fname)

	need_yang = fname == yang_from
	log.debug('compiling',
	file=fname,
	yang_schema_required=need_yang)
	cmd = (
	'cd %s && '
	'env PATH=%s PYTHONPATH=%s '
	'python -m grpc.tools.protoc '
	'-I. '
	'-I%s '
	'--python_out=. '
	'--grpc_python_out=. '
	'--plugin=protoc-gen-custom=%s/proto2yang.py '
	'%s'
	'%s' % (
	self.work_dir,
	':'.join([os.environ['PATH'], self.plugin_dir]),
	':'.join([google_api_dir, netconf_base_dir]),
	google_api_dir,
	self.plugin_dir,
	'--custom_out=. ' if need_yang else '',
	fname)
	)
	log.debug('executing', cmd=cmd, file=fname)
	os.system(cmd)
	log.info('compiled', file=fname)

	# # test-load each _pb2 file to see all is right
	# if self.work_dir not in sys.path:
	# sys.path.insert(0, self.work_dir)
	#
	# for fname in [f for f in os.listdir(self.work_dir)
	# if f.endswith('_pb2.py')]:
	# modname = fname[:-len('.py')]
	# log.debug('test-import', modname=modname)
	# _ = __import__(modname)

	#TODO: find a different way to test the generated yang files

	@inlineCallbacks
	def get_voltha_instance(self):
	try:
	res = yield threads.deferToThread(
	self.local_stub.GetVolthaInstance, empty_pb2.Empty())

	out_data = MessageToDict(res, True, True)
	returnValue(out_data)
	except Exception, e:
	log.error('failure', exception=repr(e))


	#TODO: should be generated code
	@inlineCallbacks
	def invoke_voltha_api(self, key):
	# key = ''.join([service, '-', method])
	try:
	if key == 'VolthaGlobalService-GetVoltha':
	res = yield threads.deferToThread(
	self.global_stub.GetVoltha, empty_pb2.Empty())
	elif key == 'VolthaLocalService-GetVolthaInstance':
	res = yield threads.deferToThread(
	self.local_stub.GetVolthaInstance, empty_pb2.Empty())
	elif key == 'VolthaLocalService-GetHealth':
	res = yield threads.deferToThread(
	self.local_stub.GetHealth, empty_pb2.Empty())
	elif key == 'VolthaLocalService-ListAdapters':
	res = yield threads.deferToThread(
	self.local_stub.ListAdapters, empty_pb2.Empty())
	elif key == 'VolthaLocalService-ListLogicalDevices':
	res = yield threads.deferToThread(
	self.local_stub.ListLogicalDevices, empty_pb2.Empty())
	elif key == 'VolthaLocalService-ListDevices':
	res = yield threads.deferToThread(
	self.local_stub.ListDevices, empty_pb2.Empty())
	elif key == 'VolthaLocalService-ListDeviceTypes':
	res = yield threads.deferToThread(
	self.local_stub.ListDeviceTypes, empty_pb2.Empty())
	elif key == 'VolthaLocalService-ListDeviceGroups':
	res = yield threads.deferToThread(
	self.local_stub.ListDeviceGroups, empty_pb2.Empty())
	else: # for now just return voltha instance data
	res = yield threads.deferToThread(
	self.local_stub.GetVolthaInstance, empty_pb2.Empty())

	out_data = MessageToDict(res, True, True)
	returnValue(out_data)
	except Exception, e:
	log.error('failure', exception=repr(e))