--- /dev/null
+"""Script to Test the SFC scenarios in ONOS."""
+# !/usr/bin/python
+#
+# Copyright (c) 2015 All rights reserved
+# This program and the accompanying materials
+# are made available under the terms of the Apache License, Version 2.0
+# which accompanies this distribution, and is available at
+#
+# http://www.apache.org/licenses/LICENSE-2.0
+#
+# ###########################################################################
+# OPNFV SFC Script
+# **** Scripted by Antony Silvester - antony.silvester@huawei.com ******
+# ###########################################################################
+
+# Testcase 1 : Prerequisites configuration for SFC
+# Testcase 2 : Creation of 3 VNF Nodes and Attaching Ports
+# TestCase 3 : Configure SFC [Port pair,Port Group ,Flow classifer
+# TestCase 4 : Configure Port Chain and verify the flows are added.
+# TestCase 5 : Verify traffic with VNF node.
+# TestCase 6 : Verify the Service Chain Statistics
+# TestCase 7 : Remove the Port Chain and Verify the traffic.
+# Testcase 8 : Cleanup
+# ###########################################################################
+#
+import functest.utils.functest_logger as ft_logger
+from Sfc_fun import Sfc_fun
+
+
+class Sfc:
+ """Script to Test the SFC scenarios in ONOS."""
+ logger = ft_logger.Logger("sfc").getLogger()
+ Sfc_obj = Sfc_fun()
+ print("################################################################")
+ print(" OPNFV SFC Script ")
+ print("################################################################")
+ logger.info("Testcase 1 : Prerequisites configuration for SFC")
+ #########################################################################
+ logger.info("\t1.1 Creation of Auth-Token")
+ if (Sfc_obj.getToken() == 200):
+ logger.info("\t\tCreation of Token is successfull")
+ else:
+ logger.error("\t\t : Creation of Token is NOT successfull")
+ #########################################################################
+ logger.info("\t1.2 Creation of Network")
+ if (Sfc_obj.createNetworks() == 201):
+ logger.info("\t\tCreation of network is successfull")
+ else:
+ logger.error("\t\t : Creation of network is NOT successfull")
+ #########################################################################
+ logger.info("\t1.3 Creation of Subnetwork")
+ if (Sfc_obj.createSubnets() == 201):
+ logger.info("\t\tCreation of Subnetwork is successfull")
+ else:
+ logger.error("\t\t : Creation of Subnetwork is NOT successfull")
+ print ("\n###########################################################\n")
+ ########################################################################
+ logger.info("Testcase 2 : Creation of 3 VNF Nodes and Attaching Ports")
+ #########################################################################
+ logger.info("\t2.1 Creation of Ports")
+ if (Sfc_obj.createPorts() == 201):
+ logger.info("\t\tCreation of Port is successfull")
+ else:
+ logger.error("\t\t : Creation of Port is NOT successfull")
+ #########################################################################
+ logger.info("\t2.2 Creation of VM-Compute-Node")
+ if (Sfc_obj.createVm() == 202):
+ logger.info("\t\tCreation of VM is successfull")
+ else:
+ logger.error("\t\t : Creation of VM is NOT successfull")
+ #########################################################################
+ logger.info("\t2.3 Check VM Status")
+ if (Sfc_obj.checkVmState() == 200):
+ logger.info("\t\tVM are in active state")
+ else:
+ logger.error("\t\t : VM is NOT Active")
+ #########################################################################
+ logger.info("\t\t2.4 Router Creation")
+ if (Sfc_obj.createRouter() == 201):
+ logger.info("\t\t Router Creation is Successful")
+ else:
+ logger.error("\t\t : Router Creation is NOT Successful")
+ #########################################################################
+ logger.info("\t\t2.5 Attachement of Interface to VM")
+ if (Sfc_obj.attachInterface() == 200):
+ logger.info("\t\t Interface attached to VM")
+ else:
+ logger.error("\t\t : Interface NOT attached to VM")
+ #########################################################################
+ logger.info("\t\t2.6 Attachement of FLoating Ip to VM")
+ if (Sfc_obj.addFloatingIp() == 202):
+ logger.info("\t\t Floating Ip attached to VM SUccessful")
+ else:
+ logger.error("\t\t : Floating Ip NOT attached to VM ")
+ print ("\n###########################################################\n")
+ ########################################################################
+ logger.info("TestCase 3 : Configure SFC [Portair,PortGroup,\
+ Flow classifer")
+ #########################################################################
+ logger.info("\t3.1 Creation of Port Pair")
+ if (Sfc_obj.createPortPair() == 201):
+ logger.info("\t\tCreation of Port pair is successful")
+ else:
+ logger.error("\t\t : Creation of Port pair is NOT successful")
+
+ #########################################################################
+ logger.info("\t3.2 Getting the Port Pair ID")
+ if (Sfc_obj.getPortPair() == 200):
+ logger.info("\t\tSuccessfully got Port Pair ID")
+ else:
+ logger.error("\t\t : UnSuccessfully got Port Pair ID")
+
+ #########################################################################
+ logger.info("\t3.3 Creation of Port Pair Group")
+ if (Sfc_obj.createPortGroup() == 201):
+ logger.info("\t\tPort Pair Group successfully Created")
+ else:
+ logger.error("\t\t : Port Pair Group NOT successfully Created")
+
+ #########################################################################
+ logger.info("\t3.4 Getting Port Pair Group ID ")
+
+ if (Sfc_obj.getPortGroup() == 200):
+ logger.info("\t\tPort Pair Group ID successfully received")
+ else:
+ logger.error("\t\t : Port Pair Group ID NOT successfully received")
+
+ #########################################################################
+ logger.info("\t3.5 Creation of Flow Classifier")
+ if (Sfc_obj.createFlowClassifier() == 201):
+ logger.info("\t\tFlow Classifier successfully Created")
+ else:
+ logger.error("\t\t : Flow Classifier NOT successfully Created")
+ print ("\n###########################################################\n")
+ ########################################################################
+ logger.info("TestCase 4 : Configure Port Chain and verify the flows are\
+ added.")
+ #########################################################################
+ logger.info("\t4.1 Creation of PortChain")
+ if (Sfc_obj.createPortChain() == 201):
+ logger.info("\t\tPortChain successfully Created")
+ else:
+ logger.error("\t\tPortChain NOT successfully Created")
+ #########################################################################
+ logger.info("\t4.2 Verification of Flows Installed in OVS")
+ if (Sfc_obj.checkFlowAdded() == 200):
+ logger.info("\t\tFlows Installed successfully ")
+ else:
+ logger.error("\t\t : Flows NOT Installed successfully")
+
+ if (Sfc_obj.portChainDeviceMap() == 200):
+ logger.info("\t\t portChainDeviceMap successfully ")
+ else:
+ logger.error("\t\t:portChainDeviceMap NOT Installed successfully")
+
+ if (Sfc_obj.portChainSfMap() == 200):
+ logger.info("\t\tportChainSfMap successfully ")
+ else:
+ logger.error("\t\t : portChainSfMap NOT Installed successfully")
+ print ("\n############################################################n")
+ ########################################################################
+ logger.info("\tTestCase 5 : Verify traffic with VNF node.")
+ if (Sfc_obj.loginToVM() == "1"):
+ logger.info("\t\tSFC function Working")
+ else:
+ logger.error("\t\t : SFC function not working")
+ print ("\n###########################################################\n")
+ logger.info("TestCase 6 : Verify the Service Chain Statistics")
+ if (Sfc_obj.portChainDeviceMap() == 200):
+ logger.info("\t\tportChainDeviceMap successfully ")
+ else:
+ logger.error("\t\t:portChainDeviceMap NOT Installed successfully")
+
+ if (Sfc_obj.portChainSfMap() == 200):
+ logger.info("\t\tportChainSfMap successfully ")
+ else:
+ logger.error("\t\t : portChainSfMap NOT Installed successfully")
+ print ("\n##########################################################\n")
+ logger.info("TestCase 7 : Remove the Port Chain and Verify the traffic")
+ if (Sfc_obj.deletePortChain() == 204):
+ if (Sfc_obj.loginToVM() == "0"):
+ logger.info("\t\tSFC function is removed Successfully")
+ else:
+ logger.error("\t\t:SFC function not Removed.Have some problem")
+ if (Sfc_obj.deleteFlowClassifier() == 204):
+ if (Sfc_obj.deletePortGroup() == 204):
+ if (Sfc_obj.deletePortPair() == 204):
+ logger.info("\t\tSFC configuration is deleted \
+ successfully")
+ else:
+ logger.error("\t\t : Port pair configuration is NOT\
+ deleted successfully")
+ else:
+ logger.error("\t\t : Port Group configuration is NOT \
+ deleted successfully")
+ else:
+ logger.error("\t\t : Flow classifier configuration is NOT \
+ deleted successfully")
+ else:
+ logger.error("\t\t:PortChain configuration is NOT deleted \
+ successfully")
+ print ("\n###########################################################n")
+ #######################################################################
+ logger.info("Testcase 8 : Cleanup")
+ if (Sfc_obj.cleanup() == 204):
+ logger.info("\t\tCleanUp is successfull")
+ else:
+ logger.error("\t\t : CleanUp is NOT successfull")
+ print ("###############################################################")
+ print("############################END OF SCRIPT ######################")
--- /dev/null
+"""SFC functions."""
+import functest.utils.functest_logger as ft_logger
+import json
+from multiprocessing import Process
+from multiprocessing import Queue
+from pexpect import pxssh
+import re
+import requests
+import time
+
+
+class Sfc_fun:
+ """Defines all the def function of SFC."""
+
+ def __init__(self):
+ """Initialization of variables."""
+ self.logger = ft_logger.Logger("sfc_fun_log").getLogger()
+ self.osver = "v2.0"
+ self.token_id = 0
+ self.net_id = 0
+ self.image_id = 0
+ self.os_hostname = 'openstack_ip'
+ self.onos_hostname = 'onos_ip'
+ # Network variables #######
+ self.netname = "test_nw"
+ self.admin_state_up = True
+ self.tenant_id = 0
+ self.subnetId = 0
+ # #########################
+ # SubNet variables#########
+ self.ip_version = 4
+ self.cidr = "20.20.20.0/24"
+ self.subnetname = "test_nw_subnets"
+ # ###############################
+ # Port variable
+ self.port = "port"
+ self.port_num = []
+ self.vm_id = 0
+ self.port_ip = []
+ self.count = 0
+ self.i = 0
+ self.numTerms = 3
+ self.security_groups = []
+ self.port_security_enabled = False
+ # ###############################
+ # VM creation variable
+ self.container_format = "bare"
+ self.disk_format = "qcow2"
+ self.imagename = "TestSfcVm"
+ self.createImage = "/home/root1/devstack/files/images/\
+ firewall_block_image.img"
+
+ self.vm_name = "vm"
+ self.imageRef = "test"
+ self.flavorRef = "1"
+ self.max_count = "1"
+ self.min_count = "1"
+ self.org_nw_port = []
+ self.image_id = 0
+ self.routername = "router1"
+ self.router_id = 0
+ # #####################################
+ # Port pair
+ self.port_pair_ingress = 0
+ self.port_pair_egress = 0
+ self.port_pair_name = "PP"
+ self.port_pair_id = []
+ # ####################################
+ # Port Group
+ self.port_group_name = "PG"
+ self.port_grp_id = []
+ # ####################################
+ # FlowClassifier
+ self.source_ip_prefix = "20.20.20.0/24"
+ self.destination_ip_prefix = "20.20.20.0/24"
+ self.logical_source_port = 0
+ self.fcname = "FC"
+ self.ethertype = "IPv4"
+ # #####################################
+ self.flow_class_if = 0
+ # #####################################
+ # Port Chain variables
+ self.pcname = 'PC'
+ self.PC_id = 0
+ # #####################################
+ # Port Chain variables
+ self.flowadd = ''
+ # #####################################
+ self.ip_pool = 0
+ self.vm_public_ip = []
+ self.vm_public_id = []
+ self.net_id1 = 0
+ self.vm = []
+ self.address = 0
+ self.value = 0
+ self.pub_net_id = 0
+
+ def getToken(self):
+ """Get the keystone token value from Openstack ."""
+ url = 'http://'+self.os_hostname+':5000/'+self.osver+'/tokens'
+ data = '{"auth": {"tenantName": "admin", "passwordCredentials":\
+ { "username": "admin", "password": "admin"}}}'
+ headers = {"Accept": "application/json"}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 200):
+ json1_data = json.loads(response.content)
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.debug(json1_data)
+ self.token_id = json1_data['access']['token']['id']
+ self.tenant_id = json1_data['access']['token']['tenant']['id']
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def createNetworks(self):
+ """Creation of networks."""
+ Dicdata = {}
+ if self.netname != '':
+ Dicdata['name'] = self.netname
+ if self.admin_state_up != '':
+ Dicdata['admin_state_up'] = self.admin_state_up
+ Dicdata = {'network': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver+'/networks'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 201):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.net_id = json1_data['network']['id']
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def createSubnets(self):
+ """Creation of SubNets."""
+ Dicdata = {}
+ if self.net_id != 0:
+ Dicdata['network_id'] = self.net_id
+ if self.ip_version != '':
+ Dicdata['ip_version'] = self.ip_version
+ if self.cidr != '':
+ Dicdata['cidr'] = self.cidr
+ if self.subnetname != '':
+ Dicdata['name'] = self.subnetname
+
+ Dicdata = {'subnet': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver+'/subnets'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+
+ if (response.status_code == 201):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.subnetId = json1_data['subnet']['id']
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def createPorts(self):
+ """Creation of Ports."""
+ for x in range(self.i, self.numTerms):
+ Dicdata = {}
+ if self.net_id != '':
+ Dicdata['network_id'] = self.net_id
+ if self.port != '':
+ Dicdata['name'] = "port"+str(x)
+ if self.admin_state_up != '':
+ Dicdata['admin_state_up'] = self.admin_state_up
+ if self.security_groups != '':
+ Dicdata['security_groups'] = self.security_groups
+ if self.port_security_enabled != '':
+ Dicdata['port_security_enabled'] = self.port_security_enabled
+
+ Dicdata = {'port': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver+'/ports'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+
+ if (response.status_code == 201):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.port_num.append(json1_data['port']['id'])
+ self.port_ip.append(json1_data['port']['fixed_ips'][0]
+ ['ip_address'])
+ else:
+ return(response.status_code)
+ return(response.status_code)
+
+ def createVm(self):
+ """Creation of Instance, using firewall image."""
+ url = 'http://'+self.os_hostname+':9292/v2/images?name=TestSfcVm'
+ headers = {"Accept": "application/json", "Content-Type": "application/\
+ octet-stream", "X-Auth-Token": self.token_id}
+ response = requests.get(url, headers=headers)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tFireWall Image is available")
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.image_id = json1_data['images'][0]['id']
+ else:
+ return(response.status_code)
+
+ for y in range(0, 3):
+ Dicdata = {}
+ org_nw_port = []
+ org_nw_port.append({'port': self.port_num[y]})
+ if self.vm_name != '':
+ Dicdata['name'] = "vm"+str(y)
+ if self.imageRef != '':
+ Dicdata['imageRef'] = self.image_id
+ if self.flavorRef != '':
+ Dicdata['flavorRef'] = self.flavorRef
+ if self.max_count != '':
+ Dicdata['max_count'] = self.max_count
+ if self.min_count != '':
+ Dicdata['min_count'] = self.min_count
+ if self.org_nw_port != '':
+ Dicdata['networks'] = org_nw_port
+ Dicdata = {'server': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+
+ url = 'http://'+self.os_hostname+':8774/v2.1/'+self.tenant_id + \
+ '/servers'
+ headers = {"Accept": "application/json", "Content-Type":
+ "application/json", "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 202):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tCreation of VM is successfull")
+
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.vm_id = json1_data['server']['id']
+ self.vm.append(json1_data['server']['id'])
+ else:
+ return(response.status_code)
+
+ return(response.status_code)
+
+ def checkVmState(self):
+ """Checking the Status of the Instance."""
+ time.sleep(10)
+ for y in range(0, 3):
+ url = 'http://'+self.os_hostname + \
+ ':8774/v2.1/servers/detail?name=vm'+str(y)
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.get(url, headers=headers)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.vm_active = json1_data['servers'][0]['status']
+ if (self.vm_active == "ACTIVE"):
+ print ("\t\t\t\t\t\tVM"+str(y)+" is Active : "
+ + self.vm_active)
+ else:
+ print ("\t\t\t\t\t\tVM"+str(y)+" is NOT Active : "
+ + self.vm_active)
+ else:
+ return(response.status_code)
+ return(response.status_code)
+ time.sleep(10)
+
+ def createPortPair(self):
+ """Creation of Port Pair."""
+ for p in range(1, 2):
+ Dicdata = {}
+ if self.port_pair_ingress != '':
+ Dicdata['ingress'] = self.port_num[p]
+ if self.port_pair_egress != '':
+ egress = p
+ Dicdata['egress'] = self.port_num[egress]
+ if self.port_pair_name != '':
+ Dicdata['name'] = "PP"+str(p)
+
+ Dicdata = {'port_pair': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_pairs'
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 201):
+ print ("\t\t\t\tCreation of Port Pair PP"+str(p) +
+ "is successful")
+ else:
+ return(response.status_code)
+
+ return(response.status_code)
+
+ def getPortPair(self):
+ """Query the Portpair id value."""
+ for p in range(0, 1):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_pairs?name=PP1'
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.get(url, headers=headers)
+
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.port_pair_id.append(json1_data['port_pairs'][0]['id'])
+ else:
+ return(response.status_code)
+ return(response.status_code)
+
+ def createPortGroup(self):
+ """Creation of PortGroup."""
+ for p in range(0, 1):
+ Dicdata = {}
+ port_pair_list = []
+ port_pair_list.append(self.port_pair_id[p])
+ if self.port_group_name != '':
+ Dicdata['name'] = "PG"+str(p)
+ if self.port_pair_id != '':
+ Dicdata['port_pairs'] = port_pair_list
+
+ Dicdata = {'port_pair_group': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_pair_groups'
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 201):
+ print ("\t\t\t\tCreation of Port Group PG"+str(p) +
+ "is successful")
+ else:
+ return(response.status_code)
+
+ return(response.status_code)
+
+ def getPortGroup(self):
+ """Query the PortGroup id."""
+ for p in range(0, 1):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_pair_groups?name=PG'+str(p)
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.get(url, headers=headers)
+
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ json1_data = json.loads(response.content)
+ self.port_grp_id.append(json1_data['port_pair_groups']
+ [0]['id'])
+ else:
+ return(response.status_code)
+ return(response.status_code)
+
+ def createFlowClassifier(self):
+ """Creation of Flow Classifier."""
+ Dicdata = {}
+ if self.source_ip_prefix != '':
+ Dicdata['source_ip_prefix'] = self.source_ip_prefix
+ if self.destination_ip_prefix != '':
+ Dicdata['destination_ip_prefix'] = self.destination_ip_prefix
+ if self.logical_source_port != '':
+ Dicdata['logical_source_port'] = self.port_num[0]
+ if self.fcname != '':
+ Dicdata['name'] = "FC1"
+ if self.ethertype != '':
+ Dicdata['ethertype'] = self.ethertype
+
+ Dicdata = {'flow_classifier': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/flow_classifiers'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 201):
+ json1_data = json.loads(response.content)
+ self.flow_class_if = json1_data['flow_classifier']['id']
+ self.logger.info("\tCreation of Flow Classifier is successful")
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def createPortChain(self):
+ """Creation of PortChain."""
+ Dicdata = {}
+ flow_class_list = []
+ flow_class_list.append(self.flow_class_if)
+ port_pair_groups_list = []
+ port_pair_groups_list.append(self.port_grp_id[0])
+
+ if flow_class_list != '':
+ Dicdata['flow_classifiers'] = flow_class_list
+ if self.pcname != '':
+ Dicdata['name'] = "PC1"
+ if port_pair_groups_list != '':
+ Dicdata['port_pair_groups'] = port_pair_groups_list
+
+ Dicdata = {'port_chain': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_chains'
+ headers = {"Accept": "application/json",
+ "Content-Type": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 201):
+ self.logger.info("\tCreation of PORT CHAIN is successful")
+ json1_data = json.loads(response.content)
+ self.PC_id = json1_data['port_chain']['id']
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def checkFlowAdded(self):
+ """Check whether the Flows are downloaded successfully."""
+ time.sleep(5)
+ response = requests.get('http://' + self.onos_hostname +
+ ':8181/onos/v1/flows',
+ auth=("karaf", "karaf"))
+ if (response.status_code == 200):
+ self.logger.info("\tFlow is successfully Queries")
+ json1_data = json.loads(response.content)
+ self.flowadd = json1_data['flows'][0]['state']
+
+ if (self.flowadd == "ADDED"):
+ self.logger.info("\tFlow is successfully added to OVS")
+ return(response.status_code)
+ else:
+ return(404)
+ else:
+ return(response.status_code)
+####################################################################
+
+ def createRouter(self):
+ """Creation of Router."""
+ Dicdata = {}
+ if self.routername != '':
+ Dicdata['name'] = "router1"
+ if self.admin_state_up != '':
+ Dicdata['admin_state_up'] = self.admin_state_up
+
+ Dicdata = {'router': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver+'/routers.json'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 201):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tCreation of Router is successfull")
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.router_id = json1_data['router']['id']
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def attachInterface(self):
+ """Attachment of instance ports to the Router."""
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/networks?name=admin_floating_net'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.get(url, headers=headers)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.net_name = json1_data['networks'][0]['name']
+ if (self.net_name == "admin_floating_net"):
+ self.pub_net_id = json1_data['networks'][0]['id']
+ else:
+ return(response.status_code)
+ ############################################################
+
+ self.logger.info("\tAttachment of Instance interface to Router")
+ Dicdata = {}
+ if self.subnetId != '':
+ Dicdata['subnet_id'] = self.subnetId
+
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/routers/'+self.router_id+'/add_router_interface'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.put(url, headers=headers, data=data)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tInterface attached successfull")
+ else:
+ return(response.status_code)
+ ############################################################
+ self.logger.info("\tAttachment of Gateway to Router")
+
+ Dicdata1 = {}
+ if self.pub_net_id != 0:
+ Dicdata1['network_id'] = self.pub_net_id
+
+ Dicdata1 = {'external_gateway_info': Dicdata1}
+ Dicdata1 = {'router': Dicdata1}
+ data = json.dumps(Dicdata1, indent=4)
+ url = 'http://' + self.os_hostname+':9696/'+self.osver + \
+ '/routers/' + self.router_id
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.put(url, headers=headers, data=data)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tGateway Interface attached successfull")
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def addFloatingIp(self):
+ """Attachment of Floating Ip to the Router."""
+ for ip_num in range(0, 2):
+ Dicdata = {}
+ if self.ip_pool != '':
+ Dicdata['pool'] = ""
+
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':8774/v2.1/os-floating-ips'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tFloating ip created successfully")
+ json1_data = json.loads(response.content)
+ self.logger.debug(json1_data)
+ self.vm_public_ip.append(json1_data['floating_ip']['ip'])
+ self.vm_public_id.append(json1_data['floating_ip']['id'])
+ else:
+ self.logger.error("\tFloating ip NOT created successfully")
+
+ Dicdata1 = {}
+ if self.address != '':
+ Dicdata1['address'] = self.vm_public_ip[ip_num]
+
+ Dicdata1 = {'addFloatingIp': Dicdata1}
+ data = json.dumps(Dicdata1, indent=4)
+ url = 'http://'+self.os_hostname + \
+ ':8774/v2.1/servers/'+self.vm[ip_num]+'/action'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.post(url, headers=headers, data=data)
+ if(response.status_code == 202):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ self.logger.info("\tPublic Ip successfully added to VM")
+ else:
+ return(response.status_code)
+ return(response.status_code)
+
+ def loginToVM(self):
+ """Login to the VM to check NSH packets are received."""
+ queue1 = "0"
+
+ def vm0():
+
+ s = pxssh.pxssh()
+ hostname = self.vm_public_ip[0]
+ username = "cirros"
+ password = "cubswin:)"
+ s.login(hostname, username, password)
+ s.sendline("ping -c 5 "+str(self.port_ip[2]))
+ s.prompt() # match the prompt
+
+ ping_re = re.search("transmitted.*received", s.before).group()
+ x = re.split('\s+', ping_re)
+ if (x[1] >= "1"):
+ self.logger.info("\tPing is Successfull")
+ else:
+ self.logger.info("\tPing is NOT Successfull")
+
+ def vm1(queue1):
+ s = pxssh.pxssh()
+ hostname = self.vm_public_ip[1]
+ username = "cirros"
+ password = "cubswin:)"
+ s.login(hostname, username, password)
+ s.sendline('sudo ./firewall')
+ s.prompt()
+ output_pack = s.before
+
+ if(output_pack.find("nshc") != -1):
+ self.logger.info("\tThe packet has reached VM2 Instance")
+ queue1.put("1")
+ else:
+ self.logger.info("\tPacket not received in Instance")
+ queue1.put("0")
+
+ if (self.value == 0):
+ time.sleep(10)
+ queue1 = Queue()
+ p1 = Process(target=vm1, args=(queue1, ))
+ p1.start()
+ p2 = Process(target=vm0)
+ p2.start()
+ p1.join(10)
+ return (queue1.get())
+ else:
+ print("Thread didnt run")
+
+ """##################################################################"""
+ """ ######################## Stats Functions ################# #####"""
+ def portChainDeviceMap(self):
+ """Check the PC Device Stats in the ONOS."""
+ response = requests.get('http://' + self.onos_hostname +
+ ':8181/onos/vtn/portChainDeviceMap/' +
+ self.PC_id, auth=("karaf", "karaf"))
+ if (response.status_code == 200):
+ self.logger.info("\tPortChainDeviceMap is successfully Queries")
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def portChainSfMap(self):
+ """Check the PC SF Map Stats in the ONOS."""
+ response = requests.get('http://'+self.onos_hostname +
+ ':8181/onos/vtn/portChainSfMap/' +
+ self.PC_id, auth=("karaf", "karaf"))
+ if (response.status_code == 200):
+ self.logger.info("\tportChainSfMap is successfully Queries")
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ """###################################################################"""
+
+ def deletePortChain(self):
+ """Deletion of PortChain."""
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_chains/'+self.PC_id
+ headers = {"Accept": "application/json", "Content-Type":
+ "application/json", "X-Auth-Token": self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def deleteFlowClassifier(self):
+ """Deletion of Flow Classifier."""
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/flow_classifiers/'+self.flow_class_if
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ def deletePortGroup(self):
+ """Deletion of PortGroup."""
+ for p in range(0, 1):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_pair_groups/'+self.port_grp_id[p]
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ print ("\n\t\tPort " + self.port_grp_id[p] + "Deleted")
+ else:
+ return(response.status_code)
+ return(response.status_code)
+
+ def deletePortPair(self):
+ """Deletion of Portpair."""
+ for p in range(1, 2):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/sfc/port_pairs/'+self.port_pair_id[0]
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ else:
+ return(response.status_code)
+ return(response.status_code)
+
+ def cleanup(self):
+ """Cleanup."""
+ print ("\n\t\tDeleting the VMs")
+ for y in range(0, 3):
+ url = 'http://'+self.os_hostname+':8774/v2.1/servers/'+self.vm[y]
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ print ("\n\t\tVM"+str(y)+" is Deleted : ")
+ time.sleep(10)
+ else:
+ return(response.status_code)
+ print ("\n\t\tDeletion of Ports")
+ for x in range(self.i, self.numTerms):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/ports/'+self.port_num[x]
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.delete(url, headers=headers)
+
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ print ("\n\t\tPort" + str(x) + " Deleted")
+ else:
+ return(response.status_code)
+ print ("\n\t\tDeleting Router")
+
+ Dicdata = {}
+ Dicdata['external_gateway_info'] = {}
+ Dicdata = {'router': Dicdata}
+ data = json.dumps(Dicdata, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/routers/'+self.router_id
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.put(url, headers=headers, data=data)
+ if (response.status_code == 200):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ Dicdata1 = {}
+ if self.subnetId != '':
+ Dicdata1['subnet_id'] = self.subnetId
+ data = json.dumps(Dicdata1, indent=4)
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/routers/'+self.router_id + \
+ '/remove_router_interface.json'
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.put(url, headers=headers, data=data)
+ if (response.status_code == 200):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/routers/'+self.router_id
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ print ("\n\t\tDeletion of Router is successfull")
+ else:
+ return(response.status_code)
+ else:
+ return(response.status_code)
+ else:
+ return(response.status_code)
+
+ print ("\n\t\tDeletion of Network")
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/networks/'+self.net_id
+ headers = {"Accept": "application/json",
+ "X-Auth-Token": self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ print ("\n\t\tNetwork deleted Successfully")
+ else:
+ return(response.status_code)
+
+ print ("\n\t\t Deletion of Floating ip")
+ for ip_num in range(0, 2):
+ url = 'http://'+self.os_hostname+':9696/'+self.osver + \
+ '/floatingips/'+self.vm_public_id[ip_num]
+ headers = {"Accept": "application/json", "X-Auth-Token":
+ self.token_id}
+ response = requests.delete(url, headers=headers)
+ if (response.status_code == 204):
+ self.logger.debug(response.status_code)
+ self.logger.debug(response.content)
+ else:
+ return(response.status_code)
+ return(response.status_code)