def test_register(self):
# process_agent = ProcessAgent("ipc:///tmp/p1sock", "ipc:///tmp/p3sock")
context = zmq.Context()
sock = context.socket(zmq.REQ)
sock.connect(ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_INTERFACE_STATUS]['api'])
# Fail case
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.REG
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.REG
reg.path_info = ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_INTERFACE_STATUS]['push']
event_request.reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
# unregister
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.UNREG
reg.path_info = ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_INTERFACE_STATUS]['push']
event_request.reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
def test_interface_status_event(self):
context = zmq.Context()
sock1 = context.socket(zmq.PUSH)
sock1.connect(ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_INTERFACE_STATUS]['pull'])
sock = context.socket(zmq.REQ)
sock.connect(ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_INTERFACE_STATUS]['api'])
sock2 = context.socket(zmq.PULL)
sock2.bind("ipc:///tmp/sock4.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/sock4.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.event_id = 1
event_request.action.parameter = "eth0"
event_request.action.action = pb2.msg_event.START
sock1.send(event_request.SerializeToString())
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.event_id = 1
event_request.action.parameter = "eth0"
event_request.action.action = pb2.msg_event.STOP
# sock1.send(event_request.SerializeToString())
while True:
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
def test_ike_event(self):
context = zmq.Context()
sock1 = context.socket(zmq.PUSH)
sock1.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_8021X]['pull'])
sock = context.socket(zmq.REQ)
sock.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_8021X]['api'])
sock2 = context.socket(zmq.PULL)
sock2.bind("ipc:///tmp/sock4.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.REG
# reg.path_info = "ipc:///tmp/sock4.sock"
reg.path_info = ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_8021X]['api']
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
# core register
register_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.ccap_core_id = 'abcd'
reg.mgr_id = 'abcd'
reg.action = pb2.msg_core_register.REG
register_request.core_reg.CopyFrom(reg)
data = register_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.ccap_core_id = "abcd"
event_request.action.event_id = ppb2.AGENTTYPE_8021X
# msg = t_TodMessage()
# msg.TimeServers.extend(['127.0.0.1', ])
# msg.TimeOffset = 0
# parameter = msg.SerializeToString()
parameter = "enp0s3"
event_request.action.parameter = parameter
event_request.action.action = pb2.msg_event.START
sock1.send(event_request.SerializeToString())
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.event_id = ppb2.AGENTTYPE_8021X
event_request.action.parameter = parameter
event_request.action.action = pb2.msg_event.STOP
# sock1.send(event_request.SerializeToString())
while True:
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
def test_dhcp_start_checkStatus_stop(self):
print 'test dhcp start and stop action'
context = zmq.Context()
sock_push = context.socket(zmq.PUSH)
sock_push.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_DHCP]['pull'])
sock_api = context.socket(zmq.REQ)
sock_api.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_DHCP]['api'])
sock_pull = context.socket(zmq.PULL)
sock_pull.bind("ipc:///tmp/test_dhcp_agent.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/test_dhcp_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.REG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_DHCP
event_request.action.parameter = "lo"
event_request.action.action = pb2.msg_event.START
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# start a second core request in the same interface
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core_2"
reg.action = pb2.msg_core_register.REG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.ccap_core_id = "test_ccap_core_2"
event_request.action.event_id = ProcessAgent.AGENTTYPE_DHCP
event_request.action.parameter = "lo"
event_request.action.action = pb2.msg_event.START
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# test dhcp client send message to the agent
print 'DHCP client send the dhcp message to agent'
dhcp_msg = t_DhcpMessage()
dhcp_msg.InterfaceName = 'lo'
dhcp_msg.Status = dhcp_msg.UPDATED
dhcp_msg.Client = dhcp_msg.DHCPV4
dhcp_data = dhcp_msg.DHCPData
dhcp_data.TimeServers.extend(['2.2.2.2', '1.1.1.1'])
dhcp_data.LogServers.extend(['2.2.2.2', '1.1.1.1'])
dhcp_data.CCAPCores.extend([
'2.2.2.2',
])
dhcp_data.TimeOffset = 0
self.dhcp_client_transport.sock.send(dhcp_msg.SerializeToString())
time.sleep(5)
dhcp_msg.InterfaceName = 'eth0'
dhcp_msg.Status = dhcp_msg.UPDATED
self.dhcp_client_transport.sock.send(dhcp_msg.SerializeToString())
time.sleep(5)
dhcp_msg.Status = dhcp_msg.FAILED
self.dhcp_client_transport.sock.send(dhcp_msg.SerializeToString())
time.sleep(5)
dhcp_msg.Status = dhcp_msg.INITIATED
self.dhcp_client_transport.sock.send(dhcp_msg.SerializeToString())
time.sleep(5)
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_DHCP
event_request.action.parameter = "lo"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.action = pb2.msg_event.STOP
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# unregister the ccapcore
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.UNREG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# unregister the mgr
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.UNREG
reg.path_info = "ipc:///tmp/test_dhcp_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
def test_rcp_event(self):
context = zmq.Context()
sock1 = context.socket(zmq.PUSH)
sock1.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_GCP]['pull'])
sock = context.socket(zmq.REQ)
sock.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_GCP]['api'])
sock2 = context.socket(zmq.PULL)
sock2.bind("ipc:///tmp/sock4.sock")
rcp_sock = context.socket(zmq.PAIR)
rcp_sock.connect(RcpOverGcp.SOCK_ADDRESS)
mgr_sock = context.socket(zmq.REP)
mgr_sock.bind("ipc:///tmp/rpd_provision_manager_api.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/sock4.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
# core register
register_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.ccap_core_id = 'abcd'
reg.mgr_id = 'abcd'
reg.action = pb2.msg_core_register.REG
register_request.core_reg.CopyFrom(reg)
data = register_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.ccap_core_id = "abcd"
event_request.action.event_id = pb2.AGENTTYPE_GCP
event_request.action.parameter = '127.0.0.1'
event_request.action.action = pb2.msg_event.START
sock1.send(event_request.SerializeToString())
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.ccap_core_id = "abcd"
event_request.action.event_id = pb2.AGENTTYPE_GCP
event_request.action.parameter = '127.0.0.1'
event_request.action.action = pb2.msg_event.STOP
# sock1.send(event_request.SerializeToString())
# send rcp message
rcp_msg = t_RcpMessage()
rcp_msg.RcpMessageType = t_RcpMessage.REDIRECT_NOTIFICATION
rcp_msg.RedirectCCAPAddresses.extend(['1.1.1.1'])
rcp_sock.send(rcp_msg.SerializeToString())
data = mgr_sock.recv()
red_rsp = pb2.msg_magager_api()
red_rsp.ParseFromString(data)
print red_rsp
while True:
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
def test_dhcp_event(self):
context = zmq.Context()
sock1 = context.socket(zmq.PUSH)
sock1.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_DHCP]['pull'])
sock = context.socket(zmq.REQ)
sock.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_DHCP]['api'])
sock2 = context.socket(zmq.PULL)
# sock2.bind("ipc:///tmp/sock4.sock")
sock2.bind(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_DHCP]['push'])
dhcp_sock = context.socket(zmq.PUSH)
dhcp_sock.connect(DhcpAgent.SOCK_ADDRESS)
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "abcd"
reg.action = pb2.msg_manager_register.REG
reg.path_info = ProcessAgent.SockPathMapping[
ProcessAgent.AGENTTYPE_DHCP]['push']
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print 'mgr reg:', reg_rsp
# core register
register_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.ccap_core_id = 'abcd'
reg.mgr_id = 'abcd'
reg.action = pb2.msg_core_register.REG
register_request.core_reg.CopyFrom(reg)
data = register_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print 'core reg:', reg_rsp
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.ccap_core_id = "abcd"
event_request.action.event_id = pb2.AGENTTYPE_DHCP
event_request.action.parameter = 'eth1'
event_request.action.action = pb2.msg_event.START
sock1.send(event_request.SerializeToString())
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "abcd"
event_request.action.ccap_core_id = "abcd"
event_request.action.event_id = pb2.AGENTTYPE_DHCP
event_request.action.parameter = 'eth1'
event_request.action.action = pb2.msg_event.STOP
# sock1.send(event_request.SerializeToString())
# data = sock2.recv()
# red_rsp = pb2.msg_event_notification()
# red_rsp.ParseFromString(data)
# print red_rsp
# send dhcp failed message
hostip = '127.0.0.1'
dhcp_msg = t_DhcpMessage()
dhcp_msg.InterfaceName = "eth1"
dhcp_msg.Status = dhcp_msg.FAILED
# dhcp_sock.send(dhcp_msg.SerializeToString())
# send dhcp success message
dhcp_msg.Status = dhcp_msg.UPDATED
dhcp_data = dhcp_msg.DHCPData
dhcp_data.TimeServers.extend([hostip, '1.1.1.1'])
dhcp_data.LogServers.extend([hostip, '1.1.1.1'])
dhcp_data.CCAPCores.extend([
hostip,
])
dhcp_data.TimeOffset = 0
# dhcp_sock.send(dhcp_msg.SerializeToString())
while True:
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
def test_l2tp_start_checkStatus_stop(self):
context = zmq.Context()
sock_push = context.socket(zmq.PUSH)
sock_push.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_L2TP]['pull'])
sock_api = context.socket(zmq.REQ)
sock_api.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_L2TP]['api'])
sock_pull = context.socket(zmq.PULL)
sock_pull.bind("ipc:///tmp/test_l2tp_agent.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/test_l2tp_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.REG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_L2TP
event_request.action.parameter = "lo;127.0.0.1"
event_request.action.action = pb2.msg_event.START
sock_push.send(event_request.SerializeToString())
self.start_mastersim()
# we want to receive 2 notifications, 1 for check status initial, 2 for the status update
i = 2
while i > 0:
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
i -= 1
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_L2TP
event_request.action.parameter = "lo;127.0.0.1"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.action = pb2.msg_event.STOP
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# unregister the ccapcore
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.UNREG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# unregister the mgr
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.UNREG
reg.path_info = "ipc:///tmp/test_l2tp_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
def test_ptp_start_checkStatus_stop(self):
context = zmq.Context()
sock_push = context.socket(zmq.PUSH)
sock_push.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_PTP]['pull'])
sock_api = context.socket(zmq.REQ)
sock_api.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_PTP]['api'])
sock_pull = context.socket(zmq.PULL)
sock_pull.bind("ipc:///tmp/test_ptp_agent.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/test_ptp_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.REG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_PTP
event_request.action.parameter = ''
event_request.action.action = pb2.msg_event.START
sock_push.send(event_request.SerializeToString())
if self.mastersim_pid is None:
self.start_mastersim()
# we want to receive 2 notifications, 1 for check status initial, 2 for
# the status update
timeout = time.time() + 60
i = 2
while i > 0 and time.time() < timeout:
try:
data = sock_pull.recv(flags=zmq.NOBLOCK)
except Exception as e:
print "Got exception: %s" % (str(e))
time.sleep(1)
continue
else:
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
i -= 1
self.assertEqual(i, 0)
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_PTP
event_request.action.parameter = ''
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.action = pb2.msg_event.STOP
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print rsp
# unregister the ccapcore
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.UNREG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# unregister the mgr
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.UNREG
reg.path_info = "ipc:///tmp/test_ptp_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
def test_tod_start_checkStatus_stop(self):
context = zmq.Context()
sock_push = context.socket(zmq.PUSH)
sock_push.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_TOD]['pull'])
sock_api = context.socket(zmq.REQ)
sock_api.connect(
ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_TOD]['api'])
sock_pull = context.socket(zmq.PULL)
sock_pull.bind("ipc:///tmp/test_tod_agent.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/test_tod_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.REG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print reg_rsp
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_TOD
event_request.action.parameter = "127.0.0.1/10|127.0.0.1"
event_request.action.action = pb2.msg_event.START
sock_push.send(event_request.SerializeToString())
# we want to receive 2 notifications, 1 for check status initial, 2 for the status update
# but it's waste time if there is no time server, as tpc client will
# retry
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
# same parameter resend
# event_request.action.ccap_core_id = "test_ccap_core"
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
# test stop
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_TOD
event_request.action.parameter = "127.0.0.1/10|127.0.0.1"
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.action = pb2.msg_event.STOP
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
# test wrong ccap core id
event_request = pb2.msg_event_request()
event_request.action.id = "test_wrong_ccap_id"
event_request.action.event_id = ProcessAgent.AGENTTYPE_TOD
event_request.action.parameter = "0.0.0.1/10|0.0.0.1"
event_request.action.ccap_core_id = "test_wrong_ccap_id"
event_request.action.action = pb2.msg_event.START
sock_push.send(event_request.SerializeToString())
# test no parameter
event_request = pb2.msg_event_request()
event_request.action.id = "test_ccap_core"
event_request.action.event_id = ProcessAgent.AGENTTYPE_TOD
event_request.action.ccap_core_id = "test_ccap_core"
event_request.action.action = pb2.msg_event.STOP
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
# test no timeoffset and no log server
event_request.action.parameter = "10.0.0.1/|"
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print(rsp)
# test illegal parameter
event_request.action.parameter = "hahaha"
sock_push.send(event_request.SerializeToString())
data = sock_pull.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print(rsp)
# test ipc_msg_call back
# simulate tpc send to tod_agent
kill_cmd = "kill -9 `pgrep -f tpc.py`"
call(kill_cmd, shell=True)
tod_sock_push = context.socket(zmq.PUSH)
tod_sock_push.connect(TimeOfDay.SOCK_ADDRESS)
tpc_msg = t_TpcMessage()
tpc_msg.Status = tpc_msg.INITIATED
msg_str = tpc_msg.SerializeToString()
tod_sock_push.send(msg_str)
time.sleep(2)
tpc_msg.Status = tpc_msg.SUCCESS
msg_str = tpc_msg.SerializeToString()
tod_sock_push.send(msg_str)
time.sleep(2)
tpc_msg.Timestamp = 500
msg_str = tpc_msg.SerializeToString()
tod_sock_push.send(msg_str)
time.sleep(2)
tpc_msg.Timestamp = 500
msg_str = tpc_msg.SerializeToString()
tod_sock_push.send(msg_str)
time.sleep(2)
tpc_msg.Status = tpc_msg.FIRST_ATTEMPT_FAILED
msg_str = tpc_msg.SerializeToString()
tod_sock_push.send(msg_str)
time.sleep(2)
tpc_msg.Status = tpc_msg.ALL_ATTEMPTS_FAILED
msg_str = tpc_msg.SerializeToString()
tod_sock_push.send(msg_str)
time.sleep(2)
tod_sock_push.close()
# unregister the ccapcore
event_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.mgr_id = "test_mgr" # use a fake ccap id
reg.ccap_core_id = "test_ccap_core"
reg.action = pb2.msg_core_register.UNREG
event_request.core_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print(reg_rsp)
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
# unregister the mgr
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_mgr" # use a fake ccap id
reg.action = pb2.msg_manager_register.UNREG
reg.path_info = "ipc:///tmp/test_tod_agent.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock_api.send(data)
data = sock_api.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print(reg_rsp)
self.assertEqual(reg_rsp.reg_rsp.status, reg_rsp.reg_rsp.OK)
def test_rcp_event(self):
context = zmq.Context()
sock1 = context.socket(zmq.PUSH)
sock1.connect(ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_GCP]['pull'])
sock = context.socket(zmq.REQ)
sock.connect(ProcessAgent.SockPathMapping[ProcessAgent.AGENTTYPE_GCP]['api'])
sock2 = context.socket(zmq.PULL)
sock2.bind("ipc:///tmp/sock4.sock")
mgr_sock = context.socket(zmq.REP)
mgr_sock.bind("ipc:///tmp/rpd_provision_manager_api.sock")
# test the successfully register
event_request = pb2.api_request()
reg = pb2.msg_manager_register()
reg.id = "test_rcp"
reg.action = pb2.msg_manager_register.REG
reg.path_info = "ipc:///tmp/sock4.sock"
event_request.mgr_reg.CopyFrom(reg)
data = event_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print "=" * 40 + "MGR REG" + "=" * 40
print reg_rsp
# core register
register_request = pb2.api_request()
reg = pb2.msg_core_register()
reg.ccap_core_id = 'test_rcp'
reg.mgr_id = 'test_rcp'
reg.action = pb2.msg_core_register.REG
register_request.core_reg.CopyFrom(reg)
data = register_request.SerializeToString()
sock.send(data)
data = sock.recv()
reg_rsp = pb2.api_rsp()
reg_rsp.ParseFromString(data)
print "=" * 40 + "CORE REG" + "=" * 40
print reg_rsp
event_request = pb2.msg_event_request()
event_request.action.id = "test_rcp"
event_request.action.ccap_core_id = "test_rcp"
event_request.action.event_id = ProcessAgent.AGENTTYPE_GCP
event_request.action.parameter = 'lo;127.0.0.1'
event_request.action.action = pb2.msg_event.START
sock1.send(event_request.SerializeToString())
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print "=" * 40 + "START" + "=" * 40
print rsp
result = False
print "*" * 40 + 'start timer' + str(time.localtime(time.time())) + "*" * 40
self.timer = Timer(1, self.timer_cb)
self.timer.start()
while self.running:
try:
data = sock2.recv(flags=zmq.NOBLOCK)
if len(data) > 0:
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print "=" * 40 + "NTF" + "=" * 40
print rsp
if rsp.core_event.result == "DOWN":
event_request = pb2.msg_event_request()
event_request.action.id = "test_rcp"
event_request.action.ccap_core_id = "test_rcp"
event_request.action.event_id = ProcessAgent.AGENTTYPE_GCP
event_request.action.parameter = 'lo;127.0.0.1'
event_request.action.action = pb2.msg_event.STOP
sock1.send(event_request.SerializeToString())
data = sock2.recv()
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print "=" * 40 + "STOP" + "=" * 40
print rsp
result = False
self.running = False
elif rsp.core_event.result == "UP":
result = True
except zmq.Again:
pass
except Exception as e:
print "exception:%s" % str(e)
if self.timer:
self.timer.cancel()
self.assertEqual(result, True)
time.sleep(5)
try:
data = sock2.recv(flags=zmq.NOBLOCK)
if len(data) > 0:
rsp = pb2.msg_event_notification()
rsp.ParseFromString(data)
print "=" * 40 + "TIMEOUT" + "=" * 40
print rsp
self.assertEqual(rsp.core_event.result, "DOWN")
except Exception as e:
print "exception:%s" % str(e)
def api_event_callback(self, fd, eventmask):
"""Call back functions, the subclass should implement this function.
:param fd: passed from the register. the arg should contains the
transport information.
:param eventmask: passed from the dispatcher, which indicates the
event type.
:return: None
"""
# Receive the msg from the remote
if eventmask == 0 or self.api_transport.sock != fd:
self.logger.warn("Got a fake process event[%x], ignore it." %
eventmask)
return
if eventmask & self.dispatcher.EV_FD_ERR:
self.logger.error("Got an error event, handle the failure.")
# FixMe: may need more action to handle the failure
return
if self.api_transport.sock.getsockopt(zmq.EVENTS) != zmq.POLLIN:
self.logger.debug("Got a fake event, the receive is not ready!")
return
try:
data = self.api_transport.sock.recv(flags=zmq.NOBLOCK)
msg = process_agent_pb2.api_request()
msg.ParseFromString(data)
self.logger.debug("Receive an api message from the FSM:%s" %
str(msg))
# check the fields, we only processing the register fields
fields = msg.ListFields()
for field in fields:
desc, value = field
if desc.name == "mgr_reg":
self._handle_mgr_register(value)
elif desc.name == "core_reg":
self._handle_core_register(value)
else:
self.logger.error(
"Cannot handle the request since no handler for this, msg:%s.",
msg)
except zmq.Again:
pass
except Exception as e:
self.logger.error("Cannot process the event, reason:%s" % str(e))
rsp = process_agent_pb2.msg_register_rsp()
rsp.id = ""
rsp.agent_id = self.id
rsp.status = process_agent_pb2.msg_register_rsp.FAIL
rsp.reason = "Exception happens"
api_rsp = process_agent_pb2.api_rsp()
api_rsp.reg_rsp.CopyFrom(rsp)
data = api_rsp.SerializeToString()
self.send_reg_rsp(data)