/
test_analytics_uve.py
executable file
·1978 lines (1875 loc) · 82.4 KB
/
test_analytics_uve.py
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#!/usr/bin/env python
#
# Copyright (c) 2013 Juniper Networks, Inc. All rights reserved.
#
#
# analytics_uvetest.py
#
# UVE and Alarm tests
#
import os
import sys
import threading
threading._DummyThread._Thread__stop = lambda x: 42
import signal
import gevent
from gevent import monkey
monkey.patch_all()
import unittest
import testtools
import fixtures
import socket
from utils.util import obj_to_dict, find_buildroot
from utils.analytics_fixture import AnalyticsFixture
from utils.generator_fixture import GeneratorFixture
from mockredis import mockredis
from mockzoo import mockzoo
import logging
import time
from opserver.sandesh.viz.constants import *
from opserver.sandesh.viz.constants import _OBJECT_TABLES
from sandesh_common.vns.ttypes import Module
from sandesh_common.vns.constants import ModuleNames
import platform
logging.basicConfig(level=logging.INFO,
format='%(asctime)s %(levelname)s %(message)s')
builddir = find_buildroot(os.getcwd())
class AnalyticsUveTest(testtools.TestCase, fixtures.TestWithFixtures):
@classmethod
def setUpClass(cls):
if (os.getenv('LD_LIBRARY_PATH', '').find('build/lib') < 0):
if (os.getenv('DYLD_LIBRARY_PATH', '').find('build/lib') < 0):
assert(False)
cls.redis_port = AnalyticsUveTest.get_free_port()
mockredis.start_redis(cls.redis_port)
@classmethod
def tearDownClass(cls):
mockredis.stop_redis(cls.redis_port)
#@unittest.skip('Skipping non-cassandra test with vizd')
def test_00_nocassandra(self):
'''
This test starts redis,vizd,opserver and qed
Then it checks that the collector UVE (via redis)
can be accessed from opserver.
'''
logging.info("%%% test_00_nocassandra %%%")
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, self.__class__.redis_port, 0))
assert vizd_obj.verify_on_setup()
return True
# end test_00_nocassandra
#@unittest.skip('Skipping VM UVE test')
def test_01_vm_uve(self):
'''
This test starts redis, vizd, opserver, qed, and a python generator
that simulates vrouter and sends UveVirtualMachineAgentTrace messages.
Then it checks that the VM UVE (via redis) can be accessed from
opserver.
'''
logging.info("%%% test_01_vm_uve %%%")
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, self.__class__.redis_port, 0))
assert vizd_obj.verify_on_setup()
collectors = [vizd_obj.get_collector()]
generator_obj = self.useFixture(
GeneratorFixture("contrail-vrouter-agent", collectors,
logging, vizd_obj.get_opserver_port()))
assert generator_obj.verify_on_setup()
generator_obj.send_vm_uve(vm_id='abcd',
num_vm_ifs=5,
msg_count=5)
assert generator_obj.verify_vm_uve(vm_id='abcd',
num_vm_ifs=5,
msg_count=5)
# Delete the VM UVE and verify that the deleted flag is set
# in the UVE cache
generator_obj.delete_vm_uve('abcd')
assert generator_obj.verify_vm_uve_cache(vm_id='abcd', delete=True)
# Add the VM UVE with the same vm_id and verify that the deleted flag
# is cleared in the UVE cache
generator_obj.send_vm_uve(vm_id='abcd',
num_vm_ifs=5,
msg_count=5)
assert generator_obj.verify_vm_uve_cache(vm_id='abcd')
assert generator_obj.verify_vm_uve(vm_id='abcd',
num_vm_ifs=5,
msg_count=5)
# Generate VM with vm_id containing XML control character
generator_obj.send_vm_uve(vm_id='<abcd&>', num_vm_ifs=2, msg_count=2)
assert generator_obj.verify_vm_uve(vm_id='<abcd&>', num_vm_ifs=2,
msg_count=2)
return True
# end test_01_vm_uve
#@unittest.skip('Skipping VM UVE test')
def test_02_vm_uve_with_password(self):
'''
This test starts redis, vizd, opserver, qed, and a python generator
that simulates vrouter and sends UveVirtualMachineAgentTrace messages.
Then it checks that the VM UVE (via redis) can be accessed from
opserver.
'''
logging.info("%%% test_02_vm_uve_with_password %%%")
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, -1, 0,
redis_password='contrail'))
assert vizd_obj.verify_on_setup()
collectors = [vizd_obj.get_collector()]
generator_obj = self.useFixture(
GeneratorFixture("contrail-vrouter-agent", collectors,
logging, vizd_obj.get_opserver_port()))
assert generator_obj.verify_on_setup()
generator_obj.send_vm_uve(vm_id='abcd',
num_vm_ifs=5,
msg_count=5)
assert generator_obj.verify_vm_uve(vm_id='abcd',
num_vm_ifs=5,
msg_count=5)
return True
# end test_02_vm_uve_with_password
#@unittest.skip('verify redis-uve restart')
def test_03_redis_uve_restart(self):
logging.info('%%% test_03_redis_uve_restart %%%')
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, -1, 0,
start_kafka = True))
assert vizd_obj.verify_on_setup()
collectors = [vizd_obj.get_collector()]
alarm_gen1 = self.useFixture(
GeneratorFixture('vrouter-agent', collectors, logging,
None, hostname=socket.gethostname()))
alarm_gen1.verify_on_setup()
# send vrouter UVE without build_info !!!
# check for PartialSysinfo alarm
alarm_gen1.send_vrouterinfo("myvrouter1")
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute"))
self.verify_uve_resync(vizd_obj)
# Alarm should return after redis restart
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute"))
# should there be a return True here?
# end test_03_redis_uve_restart
#@unittest.skip('verify redis-uve restart')
def test_04_redis_uve_restart_with_password(self):
logging.info('%%% test_04_redis_uve_restart_with_password %%%')
vizd_obj = self.useFixture(
AnalyticsFixture(logging,
builddir, -1, 0,
redis_password='contrail'))
self.verify_uve_resync(vizd_obj)
return True
# end test_04_redis_uve_restart
def verify_uve_resync(self, vizd_obj):
assert vizd_obj.verify_on_setup()
assert vizd_obj.verify_collector_redis_uve_connection(
vizd_obj.collectors[0])
assert vizd_obj.verify_opserver_redis_uve_connection(
vizd_obj.opserver)
# verify redis-uve list
host = socket.gethostname()
gen_list = [host+':Analytics:contrail-collector:0',
host+':Analytics:contrail-query-engine:0',
host+':Analytics:contrail-analytics-api:0']
assert vizd_obj.verify_generator_uve_list(gen_list)
# stop redis-uve
vizd_obj.redis_uves[0].stop()
assert vizd_obj.verify_collector_redis_uve_connection(
vizd_obj.collectors[0], False)
assert vizd_obj.verify_opserver_redis_uve_connection(
vizd_obj.opserver, False)
# start redis-uve and verify that contrail-collector and Opserver are
# connected to the redis-uve
vizd_obj.redis_uves[0].start()
assert vizd_obj.verify_collector_redis_uve_connection(
vizd_obj.collectors[0])
assert vizd_obj.verify_opserver_redis_uve_connection(
vizd_obj.opserver)
# verify that UVEs are resynced with redis-uve
assert vizd_obj.verify_generator_uve_list(gen_list)
@unittest.skip('Skipping contrail-collector HA test')
def test_05_collector_ha(self):
logging.info('%%% test_05_collector_ha %%%')
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, -1, 0,
collector_ha_test=True))
assert vizd_obj.verify_on_setup()
# OpServer, AlarmGen and QE are started with collectors[0] as
# primary and collectors[1] as secondary
exp_genlist = ['contrail-collector', 'contrail-analytics-api',
'contrail-query-engine']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[0],
exp_genlist)
# start the contrail-vrouter-agent with collectors[1] as primary and
# collectors[0] as secondary
collectors = [vizd_obj.collectors[1].get_addr(),
vizd_obj.collectors[0].get_addr()]
vr_agent = self.useFixture(
GeneratorFixture("contrail-vrouter-agent", collectors,
logging, vizd_obj.get_opserver_port()))
assert vr_agent.verify_on_setup()
exp_genlist = ['contrail-collector', 'contrail-vrouter-agent']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[1],
exp_genlist)
# stop collectors[0] and verify that OpServer, AlarmGen and QE switch
# from primary to secondary collector
vizd_obj.collectors[0].stop()
exp_genlist = ['contrail-collector', 'contrail-vrouter-agent',
'contrail-analytics-api',
'contrail-query-engine']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[1],
exp_genlist)
# start collectors[0]
vizd_obj.collectors[0].start()
exp_genlist = ['contrail-collector']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[0],
exp_genlist)
# verify that the old UVEs are flushed from redis when collector restarts
exp_genlist = [vizd_obj.collectors[0].get_generator_id()]
assert vizd_obj.verify_generator_list_in_redis(\
vizd_obj.collectors[0].get_redis_uve(),
exp_genlist)
# stop collectors[1] and verify that OpServer, AlarmGen and QE switch
# from secondary to primary and contrail-vrouter-agent from primary to
# secondary
vizd_obj.collectors[1].stop()
exp_genlist = ['contrail-collector', 'contrail-vrouter-agent',
'contrail-analytics-api',
'contrail-query-engine']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[0],
exp_genlist)
# verify the generator list in redis
exp_genlist = [vizd_obj.collectors[0].get_generator_id(),
vr_agent.get_generator_id(),
vizd_obj.opserver.get_generator_id(),
vizd_obj.query_engine.get_generator_id()]
assert vizd_obj.verify_generator_list_in_redis(\
vizd_obj.collectors[0].get_redis_uve(),
exp_genlist)
# stop QE
vizd_obj.query_engine.stop()
exp_genlist = ['contrail-collector', 'contrail-vrouter-agent',
'contrail-analytics-api']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[0],
exp_genlist)
# verify the generator list in redis
exp_genlist = [vizd_obj.collectors[0].get_generator_id(),
vizd_obj.opserver.get_generator_id(),
vr_agent.get_generator_id()]
assert vizd_obj.verify_generator_list_in_redis(\
vizd_obj.collectors[0].get_redis_uve(),
exp_genlist)
# start a python generator and QE with collectors[1] as the primary and
# collectors[0] as the secondary. On generator startup, verify
# that they connect to the secondary collector, if the
# connection to the primary fails
vr2_collectors = [vizd_obj.collectors[1].get_addr(),
vizd_obj.collectors[0].get_addr()]
vr2_agent = self.useFixture(
GeneratorFixture("contrail-snmp-collector", collectors,
logging, vizd_obj.get_opserver_port()))
assert vr2_agent.verify_on_setup()
vizd_obj.query_engine.set_primary_collector(
vizd_obj.collectors[1].get_addr())
vizd_obj.query_engine.set_secondary_collector(
vizd_obj.collectors[0].get_addr())
vizd_obj.query_engine.start()
exp_genlist = ['contrail-collector', 'contrail-vrouter-agent',
'contrail-analytics-api', 'contrail-snmp-collector',
'contrail-query-engine']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[0],
exp_genlist)
# stop the collectors[0] - both collectors[0] and collectors[1] are down
# send the VM UVE and verify that the VM UVE is synced after connection
# to the collector
vizd_obj.collectors[0].stop()
# Make sure the connection to the collector is teared down before
# sending the VM UVE
while True:
if vr_agent.verify_on_setup() is False:
break
vr_agent.send_vm_uve(vm_id='abcd-1234-efgh-5678',
num_vm_ifs=5, msg_count=5)
vizd_obj.collectors[1].start()
exp_genlist = ['contrail-collector', 'contrail-vrouter-agent',
'contrail-analytics-api', 'contrail-snmp-collector',
'contrail-query-engine']
assert vizd_obj.verify_generator_list(vizd_obj.collectors[1],
exp_genlist)
assert vr_agent.verify_vm_uve(vm_id='abcd-1234-efgh-5678',
num_vm_ifs=5, msg_count=5)
# end test_05_collector_ha
#@unittest.skip('Skipping AlarmGen basic test')
def test_06_alarmgen_basic(self):
'''
This test starts the analytics processes.
It enables partition 0 on alarmgen, and confirms
that it got enabled
'''
logging.info("%%% test_06_alarmgen_basic %%%")
if AnalyticsUveTest._check_skip_kafka() is True:
return True
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, self.__class__.redis_port, 0,
start_kafka = True))
assert vizd_obj.verify_on_setup()
assert(vizd_obj.verify_uvetable_alarm("ObjectCollectorInfo",
"ObjectCollectorInfo:" + socket.gethostname(),
"default-global-system-config:process-status"))
# setup generator for sending Vrouter build_info
collector = vizd_obj.collectors[0].get_addr()
alarm_gen1 = self.useFixture(
GeneratorFixture('vrouter-agent', [collector], logging,
None, hostname=socket.gethostname()))
alarm_gen1.verify_on_setup()
# send vrouter UVE without build_info !!!
# check for PartialSysinfo alarm
alarm_gen1.send_vrouterinfo("myvrouter1")
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute",
rules=[{"and_list": [{
"condition": {
"operation": "==",
"operand1": "ObjectVRouter.build_info",
"operand2": {
"json_value": "null"
}
},
"match": [{"json_operand1_value": "null"}]
}]}]
))
# Now try to clear the alarm by sending build_info
alarm_gen1.send_vrouterinfo("myvrouter1", b_info = True)
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute",
is_set=False))
# send vrouter UVE without build_info !!!
# check for PartialSysinfo alarm
alarm_gen1.send_vrouterinfo("myvrouter1", deleted = True)
alarm_gen1.send_vrouterinfo("myvrouter1")
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute"))
# Now try to clear the alarm by deleting the UVE
alarm_gen1.send_vrouterinfo("myvrouter1", deleted = True)
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute",
is_set=False))
alarm_gen2 = self.useFixture(
GeneratorFixture('vrouter-agent', [collector], logging,
None, hostname=socket.gethostname(), inst = "1"))
alarm_gen2.verify_on_setup()
# send vrouter UVE without build_info !!!
# check for PartialSysinfo alarm
alarm_gen2.send_vrouterinfo("myvrouter2")
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter2",
"default-global-system-config:partial-sysinfo-compute"))
# Now try to clear the alarm by disconnecting the generator
alarm_gen2._sandesh_instance._client._connection.set_admin_state(\
down=True)
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter2",
"default-global-system-config:partial-sysinfo-compute",
is_set=False))
# send vrouter UVE of myvrouter without build_info again !!!
# check for PartialSysinfo alarm
alarm_gen1.send_vrouterinfo("myvrouter1")
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute"))
# Verify that we can give up partition ownership
assert(vizd_obj.set_alarmgen_partition(0,0) == 'true')
assert(vizd_obj.verify_alarmgen_partition(0,'false'))
# Give up the other partitions
assert(vizd_obj.set_alarmgen_partition(1,0) == 'true')
assert(vizd_obj.set_alarmgen_partition(2,0) == 'true')
assert(vizd_obj.set_alarmgen_partition(3,0) == 'true')
# Confirm that alarms are all gone
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
None, None))
# Get the partitions again
assert(vizd_obj.set_alarmgen_partition(0,1) == 'true')
assert(vizd_obj.set_alarmgen_partition(1,1) == 'true')
assert(vizd_obj.set_alarmgen_partition(2,1) == 'true')
assert(vizd_obj.set_alarmgen_partition(3,1) == 'true')
assert(vizd_obj.verify_alarmgen_partition(0,'true'))
# The PartialSysinfo alarm on myvrouter should return
assert(vizd_obj.verify_uvetable_alarm("ObjectVRouter",
"ObjectVRouter:myvrouter1",
"default-global-system-config:partial-sysinfo-compute"))
return True
# end test_06_alarmgen_basic
#@unittest.skip('Skipping Alarm test')
def test_07_alarm(self):
'''
This test starts redis, collectors, analytics-api and
python generators that simulates alarm generator. This
test sends alarms from alarm generators and verifies the
retrieval of alarms from analytics-api.
'''
logging.info('%%% test_07_alarm %%%')
if AnalyticsUveTest._check_skip_kafka() is True:
return True
# collector_ha_test flag is set to True, because we wanna test
# retrieval of alarms across multiple redis servers.
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, -1, 0,
collector_ha_test=True,
start_kafka = True))
assert vizd_obj.verify_on_setup()
# create alarm-generator and attach it to the first collector.
collectors = [vizd_obj.collectors[0].get_addr(),
vizd_obj.collectors[1].get_addr()]
alarm_gen1 = self.useFixture(
GeneratorFixture('contrail-alarm-gen', [collectors[0]], logging,
None, hostname=socket.gethostname()+'_1'))
alarm_gen1.verify_on_setup()
# send process state alarm for analytics-node
alarms = alarm_gen1.create_process_state_alarm(
'contrail-query-engine')
alarm_gen1.send_alarm(socket.gethostname()+'_1', alarms,
COLLECTOR_INFO_TABLE)
analytics_tbl = _OBJECT_TABLES[COLLECTOR_INFO_TABLE].log_query_name
# send proces state alarm for control-node
alarms = alarm_gen1.create_process_state_alarm('contrail-dns')
alarm_gen1.send_alarm('<&'+socket.gethostname()+'_1>', alarms,
BGP_ROUTER_TABLE)
control_tbl = _OBJECT_TABLES[BGP_ROUTER_TABLE].log_query_name
# create another alarm-generator and attach it to the second collector.
alarm_gen2 = self.useFixture(
GeneratorFixture('contrail-alarm-gen', [collectors[1]], logging,
None, hostname=socket.gethostname()+'_2'))
alarm_gen2.verify_on_setup()
# send process state alarm for analytics-node
alarms = alarm_gen2.create_process_state_alarm(
'contrail-topology')
alarm_gen2.send_alarm(socket.gethostname()+'_2', alarms,
COLLECTOR_INFO_TABLE)
keys = [socket.gethostname()+'_1', socket.gethostname()+'_2']
assert(vizd_obj.verify_alarm_list_include(analytics_tbl,
expected_alarms=keys))
assert(vizd_obj.verify_alarm(analytics_tbl, keys[0], obj_to_dict(
alarm_gen1.alarms[COLLECTOR_INFO_TABLE][keys[0]].data)))
assert(vizd_obj.verify_alarm(analytics_tbl, keys[1], obj_to_dict(
alarm_gen2.alarms[COLLECTOR_INFO_TABLE][keys[1]].data)))
keys = ['<&'+socket.gethostname()+'_1>']
assert(vizd_obj.verify_alarm_list_include(control_tbl, expected_alarms=keys))
assert(vizd_obj.verify_alarm(control_tbl, keys[0], obj_to_dict(
alarm_gen1.alarms[BGP_ROUTER_TABLE][keys[0]].data)))
# delete analytics-node alarm generated by alarm_gen2
alarm_gen2.delete_alarm(socket.gethostname()+'_2',
COLLECTOR_INFO_TABLE)
# verify analytics-node alarms
keys = [socket.gethostname()+'_1']
assert(vizd_obj.verify_alarm_list_include(analytics_tbl,
expected_alarms=keys))
ukeys = [socket.gethostname()+'_2']
assert(vizd_obj.verify_alarm_list_exclude(analytics_tbl,
unexpected_alms=ukeys))
assert(vizd_obj.verify_alarm(analytics_tbl, keys[0], obj_to_dict(
alarm_gen1.alarms[COLLECTOR_INFO_TABLE][keys[0]].data)))
assert(vizd_obj.verify_alarm(analytics_tbl, ukeys[0], {}))
# Disconnect alarm_gen1 from Collector and verify that all
# alarms generated by alarm_gen1 is removed by the Collector.
alarm_gen1.disconnect_from_collector()
ukeys = [socket.gethostname()+'_1']
assert(vizd_obj.verify_alarm_list_exclude(analytics_tbl,
unexpected_alms=ukeys))
assert(vizd_obj.verify_alarm(analytics_tbl, ukeys[0], {}))
ukeys = ['<&'+socket.gethostname()+'_1']
assert(vizd_obj.verify_alarm_list_exclude(control_tbl,
unexpected_alms=ukeys))
assert(vizd_obj.verify_alarm(control_tbl, ukeys[0], {}))
# update analytics-node alarm in disconnect state
alarms = alarm_gen1.create_process_state_alarm(
'contrail-snmp-collector')
alarm_gen1.send_alarm(socket.gethostname()+'_1', alarms,
COLLECTOR_INFO_TABLE)
# Connect alarm_gen1 to Collector and verify that all
# alarms generated by alarm_gen1 is synced with Collector.
alarm_gen1.connect_to_collector()
keys = [socket.gethostname()+'_1']
assert(vizd_obj.verify_alarm_list_include(analytics_tbl,
expected_alarms=keys))
assert(vizd_obj.verify_alarm(analytics_tbl, keys[0], obj_to_dict(
alarm_gen1.alarms[COLLECTOR_INFO_TABLE][keys[0]].data)))
keys = ['<&'+socket.gethostname()+'_1>']
assert(vizd_obj.verify_alarm_list_include(control_tbl,
expected_alarms=keys))
assert(vizd_obj.verify_alarm(control_tbl, keys[0], obj_to_dict(
alarm_gen1.alarms[BGP_ROUTER_TABLE][keys[0]].data)))
# end test_07_alarm
#@unittest.skip('Skipping UVE/Alarm Filter test')
def test_08_uve_alarm_filter(self):
'''
This test verifies the filter options kfilt, sfilt, mfilt and cfilt
in the UVE/Alarm GET and POST methods.
'''
logging.info('%%% test_08_uve_alarm_filter %%%')
if AnalyticsUveTest._check_skip_kafka() is True:
return True
vizd_obj = self.useFixture(
AnalyticsFixture(logging, builddir, -1, 0,
collector_ha_test=True, start_kafka = True))
assert vizd_obj.verify_on_setup()
collectors = [vizd_obj.collectors[0].get_addr(),
vizd_obj.collectors[1].get_addr()]
api_server_name = socket.gethostname()+'_1'
api_server = self.useFixture(
GeneratorFixture('contrail-api', [collectors[0]], logging,
None, node_type='Config',
hostname=api_server_name))
vr_agent_name = socket.gethostname()+'_2'
vr_agent = self.useFixture(
GeneratorFixture('contrail-vrouter-agent', [collectors[1]],
logging, None, node_type='Compute',
hostname=vr_agent_name))
alarm_gen1_name = socket.gethostname()+'_1'
alarm_gen1 = self.useFixture(
GeneratorFixture('contrail-alarm-gen', [collectors[0]], logging,
None, node_type='Analytics',
hostname=alarm_gen1_name))
alarm_gen2_name = socket.gethostname()+'_3'
alarm_gen2 = self.useFixture(
GeneratorFixture('contrail-alarm-gen', [collectors[1]], logging,
None, node_type='Analytics',
hostname=alarm_gen2_name))
api_server.verify_on_setup()
vr_agent.verify_on_setup()
alarm_gen1.verify_on_setup()
alarm_gen2.verify_on_setup()
vn_list = ['default-domain:project1:vn1',
'default-domain:project1:vn2',
'default-domain:project2:vn1',
'default-domain:project2:vn1&']
# generate UVEs for the filter test
api_server.send_vn_config_uve(name=vn_list[0],
partial_conn_nw=[vn_list[1]],
num_acl_rules=2)
api_server.send_vn_config_uve(name=vn_list[1],
num_acl_rules=3)
vr_agent.send_vn_agent_uve(name=vn_list[1], num_acl_rules=3,
ipkts=2, ibytes=1024)
vr_agent.send_vn_agent_uve(name=vn_list[2], ipkts=4, ibytes=128)
vr_agent.send_vn_agent_uve(name=vn_list[3], ipkts=8, ibytes=256)
# generate Alarms for the filter test
alarms = alarm_gen1.create_alarm('InPktsThreshold')
alarms += alarm_gen1.create_alarm('InBytesThreshold', ack=True)
alarm_gen1.send_alarm(vn_list[1], alarms, VN_TABLE)
alarms = alarm_gen2.create_alarm('ConfigNotPresent', ack=False)
alarm_gen2.send_alarm(vn_list[2], alarms, VN_TABLE)
alarms = alarm_gen2.create_alarm('ConfigNotPresent', ack=False)
alarm_gen2.send_alarm(vn_list[3], alarms, VN_TABLE)
filt_test = [
# no filter
{
'uve_list_get': [
'default-domain:project1:vn1',
'default-domain:project1:vn2',
'default-domain:project2:vn1',
'default-domain:project2:vn1&'
],
'get_alarms': {
'virtual-network': [
{ 'name' : 'default-domain:project1:vn2',
'value' : { 'UVEAlarms': {
'alarms': [
{
'type': 'InPktsThreshold',
},
{
'type': 'InBytesThreshold',
'ack': True
}
]
} }
},
{ 'name' : 'default-domain:project2:vn1',
'value' : { 'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
} }
},
{ 'name' : 'default-domain:project2:vn1&',
'value' : { 'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
} }
},
]
},
'uve_get_post': {
'value': [
{
'name': 'default-domain:project1:vn1',
'value': {
'UveVirtualNetworkConfig': {
'partially_connected_networks': [
'default-domain:project1:vn2'
],
'total_acl_rules': 2
}
}
},
{
'name': 'default-domain:project1:vn2',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 2,
'in_bytes': 1024,
'total_acl_rules': 3
},
'UveVirtualNetworkConfig': {
'total_acl_rules': 3
},
'UVEAlarms': {
'alarms': [
{
'type': 'InPktsThreshold',
},
{
'type': 'InBytesThreshold',
'ack': True
}
]
}
}
},
{
'name': 'default-domain:project2:vn1',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 4,
'in_bytes': 128
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
},
{
'name': 'default-domain:project2:vn1&',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 8,
'in_bytes': 256
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
}
]
},
},
# kfilt
{
'kfilt': ['*'],
'uve_list_get': [
'default-domain:project1:vn1',
'default-domain:project1:vn2',
'default-domain:project2:vn1',
'default-domain:project2:vn1&'
],
'uve_get_post': {
'value': [
{
'name': 'default-domain:project1:vn1',
'value': {
'UveVirtualNetworkConfig': {
'partially_connected_networks': [
'default-domain:project1:vn2'
],
'total_acl_rules': 2
}
}
},
{
'name': 'default-domain:project1:vn2',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 2,
'in_bytes': 1024,
'total_acl_rules': 3
},
'UveVirtualNetworkConfig': {
'total_acl_rules': 3
},
'UVEAlarms': {
'alarms': [
{
'type': 'InPktsThreshold',
},
{
'type': 'InBytesThreshold',
'ack': True
}
]
}
}
},
{
'name': 'default-domain:project2:vn1',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 4,
'in_bytes': 128
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
},
{
'name': 'default-domain:project2:vn1&',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 8,
'in_bytes': 256
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
}
]
},
},
{
'kfilt': ['default-domain:project1:*',
'default-domain:project2:*'],
'uve_list_get': [
'default-domain:project1:vn1',
'default-domain:project1:vn2',
'default-domain:project2:vn1',
'default-domain:project2:vn1&'
],
'uve_get_post': {
'value': [
{
'name': 'default-domain:project1:vn1',
'value': {
'UveVirtualNetworkConfig': {
'partially_connected_networks': [
'default-domain:project1:vn2'
],
'total_acl_rules': 2
}
}
},
{
'name': 'default-domain:project1:vn2',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 2,
'in_bytes': 1024,
'total_acl_rules': 3
},
'UveVirtualNetworkConfig': {
'total_acl_rules': 3
},
'UVEAlarms': {
'alarms': [
{
'type': 'InPktsThreshold',
},
{
'type': 'InBytesThreshold',
'ack': True
}
]
}
}
},
{
'name': 'default-domain:project2:vn1',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 4,
'in_bytes': 128
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
},
{
'name': 'default-domain:project2:vn1&',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 8,
'in_bytes': 256
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
}
]
},
},
{
'kfilt': ['default-domain:project1:vn1',
'default-domain:project2:*'],
'uve_list_get': [
'default-domain:project1:vn1',
'default-domain:project2:vn1',
'default-domain:project2:vn1&'
],
'uve_get_post': {
'value': [
{
'name': 'default-domain:project1:vn1',
'value': {
'UveVirtualNetworkConfig': {
'partially_connected_networks': [
'default-domain:project1:vn2'
],
'total_acl_rules': 2
}
}
},
{
'name': 'default-domain:project2:vn1',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 4,
'in_bytes': 128
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
},
{
'name': 'default-domain:project2:vn1&',
'value': {
'UveVirtualNetworkAgent': {
'in_tpkts': 8,
'in_bytes': 256
},
'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',
'ack': False
}
]
}
}
}
]
},
},
{
'kfilt': [
'default-domain:project2:*',
'invalid-vn:*'
],
'get_alarms': {
'virtual-network': [
{ 'name' : 'default-domain:project2:vn1',
'value' : { 'UVEAlarms': {
'alarms': [
{
'type': 'ConfigNotPresent',