tests/itests/voltha/test_voltha_alarm_events.py - voltha - Gitiles

 from unittest import main
 from common.utils.consulhelpers import get_endpoint_from_consul
 from tests.itests.docutests.test_utils import \
     run_long_running_command_with_timeout
 from tests.itests.voltha.rest_base import RestBase
 from google.protobuf.json_format import MessageToDict
 from voltha.protos.device_pb2 import Device
 import simplejson, jsonschema
 import re

 # ~~~~~~~ Common variables ~~~~~~~

 LOCAL_CONSUL = "localhost:8500"

 COMMANDS = dict(
     kafka_client_run="kafkacat -b {} -L",
     kafka_client_send_msg='echo hello | kafkacat -b {} -P -t voltha.alarms -c 1',
     kafka_client_alarm_check="kafkacat -o end -b {} -C -t voltha.alarms -c 2",
 )

 ALARM_SCHEMA = {
     "type": "object",
     "properties": {
         "id": {"type": "string"},
         "type": {"type": "string"},
         "category": {"type": "string"},
         "state": {"type": "string"},
         "severity": {"type": "string"},
         "resource_id": {"type": "string"},
         "raised_ts": {"type": "number"},
         "reported_ts": {"type": "number"},
         "changed_ts": {"type": "number"},
         "description": {"type": "string"},
         "context": {
             "type": "object",
             "additionalProperties": {"type": "string"}
         }
     }
 }


 # ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~


 class VolthaAlarmEventTests(RestBase):
     # Retrieve details on the REST entry point
     rest_endpoint = get_endpoint_from_consul(LOCAL_CONSUL, 'envoy-8443')

     # Construct the base_url
     base_url = 'https://' + rest_endpoint

     # Start by querying consul to get the endpoint details
     kafka_endpoint = get_endpoint_from_consul(LOCAL_CONSUL, 'kafka')

     # ~~~~~~~~~~~~ Tests ~~~~~~~~~~~~

     def test_1_alarm_topic_exists(self):
         # Produce a message to ensure that the topic exists
         cmd = COMMANDS['kafka_client_send_msg'].format(self.kafka_endpoint)
         run_long_running_command_with_timeout(cmd, 5)

         # We want to make sure that the topic is available on the system
         expected_pattern = ['voltha.alarms']

         # Start the kafka client to retrieve details on topics
         cmd = COMMANDS['kafka_client_run'].format(self.kafka_endpoint)
         kafka_client_output = run_long_running_command_with_timeout(cmd, 20)

         # Loop through the kafka client output to find the topic
         found = False
         for out in kafka_client_output:
             if all(ep in out for ep in expected_pattern):
                 found = True
                 break

         self.assertTrue(found,
                         'Failed to find topic {}'.format(expected_pattern))

     def test_2_alarm_generated_by_adapter(self):
         # Verify that REST calls can be made
         self.verify_rest()

         # Create a new device
         device = self.add_device()

         # Activate the new device
         self.activate_device(device['id'])

         # The simulated olt device should start generating alarms periodically
         alarm = self.get_alarm_event(device['id'])

         # Make sure that the schema is valid
         self.validate_alarm_event_schema(alarm)

         # Validate the constructed alarm id
         self.verify_alarm_event_id(device['id'], alarm['id'])

     # ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

     # Make sure the Voltha REST interface is available
     def verify_rest(self):
         self.get('/api/v1')

     # Create a new simulated device
     def add_device(self):
         device = Device(
             type='simulated_olt',
         )
         device = self.post('/api/v1/devices', MessageToDict(device),
                            expected_http_code=200)
         return device

     # Active the simulated device.
     # This will trigger the simulation of random alarms
     def activate_device(self, device_id):
         path = '/api/v1/devices/{}'.format(device_id)
         self.post(path + '/enable', expected_http_code=200)
         device = self.get(path)
         self.assertEqual(device['admin_state'], 'ENABLED')

     # Retrieve a sample alarm for a specific device
     def get_alarm_event(self, device_id):
         cmd = COMMANDS['kafka_client_alarm_check'].format(self.kafka_endpoint)
         kafka_client_output = run_long_running_command_with_timeout(cmd, 30)

         # Verify the kafka client output
         found = False
         alarm_data = None

         for out in kafka_client_output:
             # Catch any error that might occur while reading the kafka messages
             try:
                 alarm_data = simplejson.loads(out)
                 print alarm_data

                 if not alarm_data or 'resource_id' not in alarm_data:
                     continue
                 elif alarm_data['resource_id'] == device_id:
                     found = True
                     break

             except Exception as e:
                 continue

         self.assertTrue(
             found,
             'Failed to find kafka alarm with device id:{}'.format(device_id))

         return alarm_data

     # Verify that the alarm follows the proper schema structure
     def validate_alarm_event_schema(self, alarm):
         try:
             jsonschema.validate(alarm, ALARM_SCHEMA)
         except Exception as e:
             self.assertTrue(
                 False, 'Validation failed for alarm : {}'.format(e.message))

     # Verify that alarm identifier based on the format generated by default.
     def verify_alarm_event_id(self, device_id, alarm_id):
         prefix = re.findall(r"(voltha)\.(\w+)\.(\w+)", alarm_id)

         self.assertEqual(
             len(prefix), 1,
             'Failed to parse the alarm id: {}'.format(alarm_id))
         self.assertEqual(
             len(prefix[0]), 3,
             'Expected id format: voltha.<adapter name>.<device id>')
         self.assertEqual(
             prefix[0][0], 'voltha',
             'Expected id format: voltha.<adapter name>.<device id>')
         self.assertEqual(
             prefix[0][1], 'simulated_olt',
             'Expected id format: voltha.<adapter name>.<device id>')
         self.assertEqual(
             prefix[0][2], device_id,
             'Expected id format: voltha.<adapter name>.<device id>')


 if __name__ == '__main__':
     main()
	from unittest import main
	from common.utils.consulhelpers import get_endpoint_from_consul
	from tests.itests.docutests.test_utils import \
	run_long_running_command_with_timeout
	from tests.itests.voltha.rest_base import RestBase
	from google.protobuf.json_format import MessageToDict
	from voltha.protos.device_pb2 import Device
	import simplejson, jsonschema
	import re

	# ~~~~~~~ Common variables ~~~~~~~

	LOCAL_CONSUL = "localhost:8500"

	COMMANDS = dict(
	kafka_client_run="kafkacat -b {} -L",
	kafka_client_send_msg='echo hello \| kafkacat -b {} -P -t voltha.alarms -c 1',
	kafka_client_alarm_check="kafkacat -o end -b {} -C -t voltha.alarms -c 2",
	)

	ALARM_SCHEMA = {
	"type": "object",
	"properties": {
	"id": {"type": "string"},
	"type": {"type": "string"},
	"category": {"type": "string"},
	"state": {"type": "string"},
	"severity": {"type": "string"},
	"resource_id": {"type": "string"},
	"raised_ts": {"type": "number"},
	"reported_ts": {"type": "number"},
	"changed_ts": {"type": "number"},
	"description": {"type": "string"},
	"context": {
	"type": "object",
	"additionalProperties": {"type": "string"}
	}
	}
	}


	# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~


	class VolthaAlarmEventTests(RestBase):
	# Retrieve details on the REST entry point
	rest_endpoint = get_endpoint_from_consul(LOCAL_CONSUL, 'envoy-8443')

	# Construct the base_url
	base_url = 'https://' + rest_endpoint

	# Start by querying consul to get the endpoint details
	kafka_endpoint = get_endpoint_from_consul(LOCAL_CONSUL, 'kafka')

	# ~~~~~~~~~~~~ Tests ~~~~~~~~~~~~

	def test_1_alarm_topic_exists(self):
	# Produce a message to ensure that the topic exists
	cmd = COMMANDS['kafka_client_send_msg'].format(self.kafka_endpoint)
	run_long_running_command_with_timeout(cmd, 5)

	# We want to make sure that the topic is available on the system
	expected_pattern = ['voltha.alarms']

	# Start the kafka client to retrieve details on topics
	cmd = COMMANDS['kafka_client_run'].format(self.kafka_endpoint)
	kafka_client_output = run_long_running_command_with_timeout(cmd, 20)

	# Loop through the kafka client output to find the topic
	found = False
	for out in kafka_client_output:
	if all(ep in out for ep in expected_pattern):
	found = True
	break

	self.assertTrue(found,
	'Failed to find topic {}'.format(expected_pattern))

	def test_2_alarm_generated_by_adapter(self):
	# Verify that REST calls can be made
	self.verify_rest()

	# Create a new device
	device = self.add_device()

	# Activate the new device
	self.activate_device(device['id'])

	# The simulated olt device should start generating alarms periodically
	alarm = self.get_alarm_event(device['id'])

	# Make sure that the schema is valid
	self.validate_alarm_event_schema(alarm)

	# Validate the constructed alarm id
	self.verify_alarm_event_id(device['id'], alarm['id'])

	# ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	# Make sure the Voltha REST interface is available
	def verify_rest(self):
	self.get('/api/v1')

	# Create a new simulated device
	def add_device(self):
	device = Device(
	type='simulated_olt',
	)
	device = self.post('/api/v1/devices', MessageToDict(device),
	expected_http_code=200)
	return device

	# Active the simulated device.
	# This will trigger the simulation of random alarms
	def activate_device(self, device_id):
	path = '/api/v1/devices/{}'.format(device_id)
	self.post(path + '/enable', expected_http_code=200)
	device = self.get(path)
	self.assertEqual(device['admin_state'], 'ENABLED')

	# Retrieve a sample alarm for a specific device
	def get_alarm_event(self, device_id):
	cmd = COMMANDS['kafka_client_alarm_check'].format(self.kafka_endpoint)
	kafka_client_output = run_long_running_command_with_timeout(cmd, 30)

	# Verify the kafka client output
	found = False
	alarm_data = None

	for out in kafka_client_output:
	# Catch any error that might occur while reading the kafka messages
	try:
	alarm_data = simplejson.loads(out)
	print alarm_data

	if not alarm_data or 'resource_id' not in alarm_data:
	continue
	elif alarm_data['resource_id'] == device_id:
	found = True
	break

	except Exception as e:
	continue

	self.assertTrue(
	found,
	'Failed to find kafka alarm with device id:{}'.format(device_id))

	return alarm_data

	# Verify that the alarm follows the proper schema structure
	def validate_alarm_event_schema(self, alarm):
	try:
	jsonschema.validate(alarm, ALARM_SCHEMA)
	except Exception as e:
	self.assertTrue(
	False, 'Validation failed for alarm : {}'.format(e.message))

	# Verify that alarm identifier based on the format generated by default.
	def verify_alarm_event_id(self, device_id, alarm_id):
	prefix = re.findall(r"(voltha)\.(\w+)\.(\w+)", alarm_id)

	self.assertEqual(
	len(prefix), 1,
	'Failed to parse the alarm id: {}'.format(alarm_id))
	self.assertEqual(
	len(prefix[0]), 3,
	'Expected id format: voltha.<adapter name>.<device id>')
	self.assertEqual(
	prefix[0][0], 'voltha',
	'Expected id format: voltha.<adapter name>.<device id>')
	self.assertEqual(
	prefix[0][1], 'simulated_olt',
	'Expected id format: voltha.<adapter name>.<device id>')
	self.assertEqual(
	prefix[0][2], device_id,
	'Expected id format: voltha.<adapter name>.<device id>')


	if __name__ == '__main__':
	main()