Merge branch 'devl/newFunctionality' of https://github.com/OPENNETWORKINGLAB/ONLabTest into devl/newFunctionality
diff --git a/TestON/core/teston.py b/TestON/core/teston.py
index 7199280..1d41acf 100644
--- a/TestON/core/teston.py
+++ b/TestON/core/teston.py
@@ -32,6 +32,7 @@
import new
import xmldict
import importlib
+import os
module = new.module("test")
import openspeak
global path, drivers_path, core_path, tests_path,logs_path
@@ -164,11 +165,19 @@
driverClass = getattr(driverModule, driverName)
driverObject = driverClass()
+ try:
+ self.componentDictionary[component]['host'] = os.environ[str( self.componentDictionary[component]['host'])]
+ except KeyError:
+ self.log.info("Missing OC environment variable! Using stored IPs")
+ except Exception as inst:
+ self.log.error("Uncaught exception: " + str(inst))
+
connect_result = driverObject.connect(user_name = self.componentDictionary[component]['user'] if ('user' in self.componentDictionary[component].keys()) else getpass.getuser(),
ip_address= self.componentDictionary[component]['host'] if ('host' in self.componentDictionary[component].keys()) else 'localhost',
pwd = self.componentDictionary[component]['password'] if ('password' in self.componentDictionary[component].keys()) else 'changeme',
port = self.componentDictionary[component]['port'] if ('port' in self.componentDictionary[component].keys()) else None,
options = driver_options)
+
if not connect_result:
self.log.error("Exiting form the test execution because the connecting to the "+component+" component failed.")
self.exit()
diff --git a/TestON/drivers/common/cli/emulator/mininetclidriver.py b/TestON/drivers/common/cli/emulator/mininetclidriver.py
index 820d9ce..3b5a5c7 100644
--- a/TestON/drivers/common/cli/emulator/mininetclidriver.py
+++ b/TestON/drivers/common/cli/emulator/mininetclidriver.py
@@ -1378,20 +1378,30 @@
response = main.FALSE
return response
- def arping( self, src, dest, destmac ):
- self.handle.sendline( '' )
- self.handle.expect( [ "mininet", pexpect.EOF, pexpect.TIMEOUT ] )
-
- self.handle.sendline( src + ' arping ' + dest )
+ def arping( self, host="", ip="10.128.20.211" ):
+ """
+ Description:
+ Sends arp message from mininet host for hosts discovery
+ Required:
+ host - hosts name
+ Optional:
+ ip - ip address that does not exist in the network so there would
+ be no reply.
+ """
+ cmd = " py " + host + ".cmd(\"arping -c 1 " + ip + "\")"
try:
- self.handle.expect( [ destmac, pexpect.EOF, pexpect.TIMEOUT ] )
- main.log.info( self.name + ": ARP successful" )
- self.handle.expect( [ "mininet", pexpect.EOF, pexpect.TIMEOUT ] )
+ main.log.warn( "Sending: " + cmd )
+ self.handle.sendline( cmd )
+ response = self.handle.before
+ self.handle.sendline( "" )
+ self.handle.expect( "mininet>" )
return main.TRUE
- except Exception:
- main.log.warn( self.name + ": ARP FAILURE" )
- self.handle.expect( [ "mininet", pexpect.EOF, pexpect.TIMEOUT ] )
- return main.FALSE
+
+ except pexpect.EOF:
+ main.log.error( self.name + ": EOF exception found" )
+ main.log.error( self.name + ": " + self.handle.before )
+ main.cleanup()
+ main.exit()
def decToHex( self, num ):
return hex( num ).split( 'x' )[ 1 ]
@@ -1912,6 +1922,7 @@
hostStr = handlePy.replace( "]", "" )
hostStr = hostStr.replace( "'", "" )
hostStr = hostStr.replace( "[", "" )
+ hostStr = hostStr.replace( " ", "" )
hostList = hostStr.split( "," )
return hostList
diff --git a/TestON/drivers/common/cli/emulator/remotemininetdriver.py b/TestON/drivers/common/cli/emulator/remotemininetdriver.py
index e95e5c1..71bf427 100644
--- a/TestON/drivers/common/cli/emulator/remotemininetdriver.py
+++ b/TestON/drivers/common/cli/emulator/remotemininetdriver.py
@@ -95,6 +95,31 @@
main.log.warn( outputs )
return main.TRUE
+ def arping( self, host="", ip="10.128.20.211" ):
+ """
+ Description:
+ Sends arp message from mininet host for hosts discovery
+ Required:
+ host - hosts name
+ Optional:
+ ip - ip address that does not exist in the network so there would
+ be no reply.
+ """
+ cmd = " py " + host + ".cmd(\"arping -c 1 " + ip + "\")"
+ try:
+ main.log.warn( "Sending: " + cmd )
+ self.handle.sendline( cmd )
+ response = self.handle.before
+ self.handle.sendline( "" )
+ self.handle.expect( "mininet>" )
+ return main.TRUE
+
+ except pexpect.EOF:
+ main.log.error( self.name + ": EOF exception found" )
+ main.log.error( self.name + ": " + self.handle.before )
+ main.cleanup()
+ main.exit()
+
def pingLong( self, **pingParams ):
"""
Starts a continuous ping on the mininet host outputting
@@ -344,29 +369,49 @@
main.cleanup()
main.exit()
- def runOpticalMnScript( self, ctrllerIP = None ):
+ def runOpticalMnScript( self,name = 'onos', ctrllerIP = None ):
import time
+ import types
"""
- This function is only meant for Packet Optical.
- It runs python script "opticalTest.py" to create the
- packet layer( mn ) and optical topology
-
- TODO: If no ctrllerIP is provided, a default
+ Description:
+ This function is only meant for Packet Optical.
+ It runs python script "opticalTest.py" to create the
+ packet layer( mn ) and optical topology
+ Optional:
+ name - Name of onos directory. (ONOS | onos)
+ Required:
+ ctrllerIP = Controller(s) IP address
+ TODO: If no ctrllerIP is provided, a default
$OC1 can be accepted
"""
try:
self.handle.sendline( "" )
self.handle.expect( "\$" )
- self.handle.sendline( "cd ~/onos/tools/test/topos" )
+ self.handle.sendline( "cd ~/" + name + "/tools/test/topos" )
self.handle.expect( "topos\$" )
if ctrllerIP == None:
main.log.info( "You need to specify the IP" )
return main.FALSE
else:
- cmd = "sudo -E python opticalTest.py " + ctrllerIP
+ controller = ''
+ if isinstance( ctrllerIP, types.ListType ):
+ for i in xrange( len( ctrllerIP ) ):
+ controller += ctrllerIP[i] + ' '
+ main.log.info( "Mininet topology is being loaded with " +
+ "controllers: " + controller )
+ elif isinstance( ctrllerIP, types.StringType ):
+ controller = ctrllerIP
+ main.log.info( "Mininet topology is being loaded with " +
+ "controller: " + controller )
+ else:
+ main.log.info( "You need to specify a valid IP" )
+ return main.FALSE
+ cmd = "sudo -E python opticalTest.py " + controller
+ main.log.info( self.name + ": cmd = " + cmd )
self.handle.sendline( cmd )
self.handle.expect( "Press ENTER to push Topology.json" )
- time.sleep(15)
+ time.sleep(30)
+ self.handle.sendline( "" )
self.handle.sendline( "" )
self.handle.expect("mininet>")
return main.TRUE
diff --git a/TestON/drivers/common/cli/onosdriver.py b/TestON/drivers/common/cli/onosdriver.py
index a78f4f2..81351ed 100644
--- a/TestON/drivers/common/cli/onosdriver.py
+++ b/TestON/drivers/common/cli/onosdriver.py
@@ -567,6 +567,8 @@
# on here.
appString = "export ONOS_APPS=" + appString
mnString = "export OCN="
+ if mnIpAddrs == "":
+ mnString = ""
onosString = "export OC"
tempCount = 1
@@ -1239,8 +1241,8 @@
return main.ERROR
output = ""
# Is the number of switches is what we expected
- devices = topology.get( 'deviceCount', False )
- links = topology.get( 'linkCount', False )
+ devices = topology.get( 'devices', False )
+ links = topology.get( 'links', False )
if not devices or not links:
return main.ERROR
switchCheck = ( int( devices ) == int( numoswitch ) )
@@ -1901,6 +1903,156 @@
main.cleanup()
main.exit()
+ def getOnosIps(self):
+
+ import os
+
+ # reads env for OC variables, also saves file with OC variables. If file and env conflict
+ # priority goes to env. If file has OCs that are not in the env, the file OCs are used.
+ # In other words, if the env is set, the test will use those values.
+
+ # returns a list of ip addresses for the onos nodes, will work with up to 7 nodes + OCN and OCI
+ # returns in format [ OC1 ip, OC2 ...ect. , OCN, OCI ]
+
+ envONOSIps = {}
+
+ x = 1
+ while True:
+ try:
+ temp = os.environ[ 'OC' + str(x) ]
+ except KeyError:
+ break
+ envONOSIps[ ("OC" + str(x)) ] = temp
+ x += 1
+
+ try:
+ temp = os.environ[ 'OCN' ]
+ envONOSIps[ "OCN" ] = temp
+ except KeyError:
+ main.log.info("OCN not set in env")
+
+ try:
+ temp = os.environ[ 'OCI' ]
+ envONOSIps[ "OCI" ] = temp
+ except:
+ main.log.error("OCI not set in env")
+
+ print(str(envONOSIps))
+
+ order = [ "OC1", "OC2", "OC3","OC4","OC5","OC6","OC7","OCN","OCI" ]
+ ONOSIps = []
+
+ try:
+ if os.path.exists("myIps"):
+ ipFile = open("myIps","r+")
+ else:
+ ipFile = open("myIps","w+")
+
+ fileONOSIps = ipFile.readlines()
+ ipFile.close()
+
+ print str(fileONOSIps)
+
+ if str(fileONOSIps) == "[]":
+ ipFile = open("myIps","w+")
+ for key in envONOSIps:
+ ipFile.write(key+ "=" + envONOSIps[key] + "\n")
+ ipFile.close()
+ for i in order:
+ if i in envONOSIps:
+ ONOSIps.append(envONOSIps[i])
+
+ return ONOSIps
+
+ else:
+ fileDict = {}
+ for line in fileONOSIps:
+ line = line.replace("\n","")
+ line = line.split("=")
+ key = line[0]
+ value = line[1]
+ fileDict[key] = value
+
+ for x in envONOSIps:
+ if x in fileDict:
+ if envONOSIps[x] == fileDict[x]:
+ continue
+ else:
+ fileDict[x] = envONOSIps[x]
+ else:
+ fileDict[x] = envONOSIps[x]
+
+ ipFile = open("myIps","w+")
+ for key in order:
+ if key in fileDict:
+ ipFile.write(key + "=" + fileDict[key] + "\n")
+ ONOSIps.append(fileDict[key])
+ ipFile.close()
+
+ return ONOSIps
+
+ except IOError as a:
+ main.log.error(a)
+
+ except Exception as a:
+ main.log.error(a)
+
+
+ def logReport(self, nodeIp, searchTerms, outputMode="s"):
+ '''
+ - accepts either a list or a string for "searchTerms" these
+ terms will be searched for in the log and have their
+ instances counted
+
+ - nodeIp is the ip of the node whos log is to be scanned
+
+ - output modes:
+ "s" - Simple. Quiet output mode that just prints
+ the occurances of each search term
+
+ "d" - Detailed. Prints occurances as well as the entire
+ line for each of the last 5 occurances
+ '''
+ main.log.info("========================== Log Report ===========================\n")
+
+ if type(searchTerms) is str:
+ searchTerms = [searchTerms]
+
+ logLines = [ [" "] for i in range(len(searchTerms)) ]
+
+ for term in range(len(searchTerms)):
+ logLines[term][0] = searchTerms[term]
+
+
+ for term in range(len(searchTerms)):
+ cmd = "onos-ssh " + nodeIp + " cat /opt/onos/log/karaf.log | grep " + searchTerms[term]
+ self.handle.sendline(cmd)
+ self.handle.expect(":~")
+ before = (self.handle.before).splitlines()
+
+ count = [searchTerms[term],0]
+
+ for line in before:
+ if searchTerms[term] in line and "grep" not in line:
+ count[1] += 1
+ if before.index(line) > ( len(before) - 7 ):
+ logLines[term].append(line)
+
+ main.log.info( str(count[0]) + ": " + str(count[1]) )
+ if term == len(searchTerms)-1:
+ print("\n")
+
+ if outputMode != "s" and outputMode != "S":
+ outputString = ""
+ for i in logLines:
+ outputString = i[0] + ": \n"
+ for x in range(1,len(i)):
+ outputString += ( i[x] + "\n" )
+
+ if outputString != (i[0] + ": \n"):
+ main.log.info(outputString)
+
+ main.log.info("================================================================\n")
def getOnosIpFromEnv(self):
@@ -1966,14 +2118,14 @@
return ONOSIps
-
+
def onosErrorLog(self, nodeIp):
cmd = "onos-ssh " + nodeIp + " cat /opt/onos/log/karaf.log | grep WARN"
self.handle.sendline(cmd)
self.handle.expect(":~")
before = (self.handle.before).splitlines()
-
+
warnings = []
for line in before:
@@ -2044,4 +2196,3 @@
if len(exceptions) > 0:
main.log.info(msg3)
main.log.info("===============================================================\n")
-
diff --git a/TestON/tests/FuncIntent/Dependency/FuncIntentFunction.py b/TestON/tests/FuncIntent/Dependency/FuncIntentFunction.py
new file mode 100644
index 0000000..caaa864
--- /dev/null
+++ b/TestON/tests/FuncIntent/Dependency/FuncIntentFunction.py
@@ -0,0 +1,543 @@
+"""
+ Wrapper functions for FuncIntent
+ This functions include Onosclidriver and Mininetclidriver driver functions
+"""
+def __init__( self ):
+ self.default = ''
+
+def hostIntent( main,
+ name="",
+ host1="",
+ host2="",
+ host1Id="",
+ host2Id="",
+ mac1="",
+ mac2="",
+ vlan1="-1",
+ vlan2="-1",
+ sw1="",
+ sw2="",
+ expectedLink=0 ):
+ """
+ Add host intents
+ """
+ import time
+
+ # Assert variables
+ assert main, "There is no main variable"
+ assert name, "variable name is empty"
+ assert host1 and host2, "You must specify hosts"
+
+ global itemName
+ itemName = name
+ h1Name = host1
+ h2Name = host2
+ h1Id = host1Id
+ h2Id = host2Id
+ h1Mac = mac1
+ h2Mac = mac2
+ vlan1 = vlan1
+ vlan2 = vlan2
+ intentsId = []
+ stepResult = main.TRUE
+ pingResult = main.TRUE
+ intentResult = main.TRUE
+ flowResult = main.TRUE
+ topoResult = main.TRUE
+ linkDownResult = main.TRUE
+ linkUpResult = main.TRUE
+
+ if main.hostsData:
+ if not h1Mac:
+ h1Mac = main.hostsData[ h1Name ][ 'mac' ]
+ if not h2Mac:
+ h2Mac = main.hostsData[ h2Name ][ 'mac' ]
+ print '1', main.hostsData[ h1Name ]
+ print '2', main.hostsData[ h2Name ]
+ if main.hostsData[ h1Name ][ 'vlan' ] != '-1':
+ print 'vlan1', main.hostsData[ h1Name ][ 'vlan' ]
+ vlan1 = main.hostsData[ h1Name ][ 'vlan' ]
+ if main.hostsData[ h2Name ][ 'vlan' ] != '-1':
+ print 'vlan2', main.hostsData[ h2Name ][ 'vlan' ]
+ vlan2 = main.hostsData[ h2Name ][ 'vlan' ]
+ if not h1Id:
+ h1Id = main.hostsData[ h1Name ][ 'id' ]
+ if not h2Id:
+ h2Id = main.hostsData[ h2Name ][ 'id' ]
+
+ assert h1Id and h2Id, "You must specify host IDs"
+ if not ( h1Id and h2Id ):
+ main.log.info( "There are no host IDs" )
+ return main.FALSE
+
+ # Discover hosts using arping
+ main.log.info( itemName + ": Discover host using arping" )
+ main.Mininet1.arping( host=h1Name )
+ main.Mininet1.arping( host=h2Name )
+ host1 = main.CLIs[ 0 ].getHost( mac=h1Mac )
+ host2 = main.CLIs[ 0 ].getHost( mac=h2Mac )
+
+ # Adding host intents
+ main.log.info( itemName + ": Adding host intents" )
+ intent1 = main.CLIs[ 0 ].addHostIntent( hostIdOne=h1Id,
+ hostIdTwo=h2Id )
+ intentsId.append( intent1 )
+ time.sleep( 5 )
+ intent2 = main.CLIs[ 0 ].addHostIntent( hostIdOne=h2Id,
+ hostIdTwo=h1Id )
+ intentsId.append( intent2 )
+
+ # Check intents state
+ time.sleep( 50 )
+ intentResult = checkIntentState( main, intentsId )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Ping hosts
+ pingHost( main, h1Name, h2Name )
+ # Ping hosts again...
+ pingResult = pingHost( main, h1Name, h2Name )
+ time.sleep( 5 )
+
+ # Test rerouting if these variables exist
+ if sw1 and sw2 and expectedLink:
+ # link down
+ link( main, sw1, sw2, "down" )
+ intentResult = intentResult and checkIntentState( main, intentsId )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Check OnosTopology
+ topoResult = checkTopology( main, expectedLink )
+
+ # Ping hosts
+ pingResult = pingResult and pingHost( main, h1Name, h2Name )
+
+ intentResult = checkIntentState( main, intentsId )
+
+ # link up
+ link( main, sw1, sw2, "up" )
+ time.sleep( 5 )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Check OnosTopology
+ topoResult = checkTopology( main, expectedLink )
+
+ # Ping hosts
+ pingResult = pingResult and pingHost( main, h1Name, h2Name )
+
+ # Remove intents
+ for intent in intentsId:
+ main.CLIs[ 0 ].removeIntent( intentId=intent, purge=True )
+
+ print main.CLIs[ 0 ].intents()
+ stepResult = pingResult and linkDownResult and linkUpResult \
+ and intentResult
+
+ return stepResult
+
+def pointIntent( main,
+ name="",
+ host1="",
+ host2="",
+ deviceId1="",
+ deviceId2="",
+ port1="",
+ port2="",
+ ethType="",
+ mac1="",
+ mac2="",
+ bandwidth="",
+ lambdaAlloc=False,
+ ipProto="",
+ ip1="",
+ ip2="",
+ tcp1="",
+ tcp2="",
+ sw1="",
+ sw2="",
+ expectedLink=0 ):
+ """
+ Add Point intents
+ """
+ import time
+ assert main, "There is no main variable"
+ assert name, "variable name is empty"
+ assert host1 and host2, "You must specify hosts"
+
+ global itemName
+ itemName = name
+ h1Name = host1
+ h2Name = host2
+ intentsId = []
+
+ pingResult = main.TRUE
+ intentResult = main.TRUE
+ flowResult = main.TRUE
+ topoResult = main.TRUE
+ linkDownResult = main.TRUE
+ linkUpResult = main.TRUE
+
+ # Adding bidirectional point intents
+ main.log.info( itemName + ": Adding host intents" )
+ intent1 = main.CLIs[ 0 ].addPointIntent( ingressDevice=deviceId1,
+ egressDevice=deviceId2,
+ portIngress=port1,
+ portEgress=port2,
+ ethType=ethType,
+ ethSrc=mac1,
+ ethDst=mac2,
+ bandwidth=bandwidth,
+ lambdaAlloc=lambdaAlloc,
+ ipProto=ipProto,
+ ipSrc=ip1,
+ ipDst=ip2,
+ tcpSrc=tcp1,
+ tcpDst=tcp2 )
+
+ intentsId.append( intent1 )
+ time.sleep( 5 )
+ intent2 = main.CLIs[ 0 ].addPointIntent( ingressDevice=deviceId2,
+ egressDevice=deviceId1,
+ portIngress=port2,
+ portEgress=port1,
+ ethType=ethType,
+ ethSrc=mac2,
+ ethDst=mac1,
+ bandwidth=bandwidth,
+ lambdaAlloc=lambdaAlloc,
+ ipProto=ipProto,
+ ipSrc=ip2,
+ ipDst=ip1,
+ tcpSrc=tcp2,
+ tcpDst=tcp1 )
+ intentsId.append( intent2 )
+
+ # Check intents state
+ time.sleep( 50 )
+ intentResult = checkIntentState( main, intentsId )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Ping hosts
+ pingHost( main, h1Name, h2Name )
+ # Ping hosts again...
+ pingResult = pingHost( main, h1Name, h2Name )
+ time.sleep( 5 )
+
+ if sw1 and sw2 and expectedLink:
+ # link down
+ link( main, sw1, sw2, "down" )
+ intentResult = intentResult and checkIntentState( main, intentsId )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Check OnosTopology
+ topoResult = checkTopology( main, expectedLink )
+
+ # Ping hosts
+ pingResult = pingResult and pingHost( main, h1Name, h2Name )
+
+ intentResult = checkIntentState( main, intentsId )
+
+ # link up
+ link( main, sw1, sw2, "up" )
+ time.sleep( 5 )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Check OnosTopology
+ topoResult = checkTopology( main, expectedLink )
+
+ # Ping hosts
+ pingResult = pingResult and pingHost( main, h1Name, h2Name )
+
+ # Remove intents
+ for intent in intentsId:
+ main.CLIs[ 0 ].removeIntent( intentId=intent, purge=True )
+
+ print main.CLIs[ 0 ].intents()
+ stepResult = pingResult and linkDownResult and linkUpResult \
+ and intentResult
+
+ return stepResult
+
+def singleToMultiIntent( main,
+ name="",
+ hostNames="",
+ devices="",
+ ports=None,
+ ethType="",
+ macs=None,
+ bandwidth="",
+ lambdaAlloc=False,
+ ipProto="",
+ ipAddresses="",
+ tcp="",
+ sw1="",
+ sw2="",
+ expectedLink=0 ):
+ """
+ Add Single to Multi Point intents
+ If main.hostsData is not defined, variables data should be passed in the
+ same order index wise.
+ eg. hostName = [ 'h1', 'h2' ,.. ]
+ devices = [ 'of:0000000000000001', 'of:0000000000000002', ...]
+ ports = [ '1', '1', ..]
+ ...
+ """
+ import time
+ assert main, "There is no main variable"
+ assert name, "variable name is empty"
+ assert hostNames, "You must specify hosts"
+ assert devices or main.hostsData, "You must specify devices"
+
+ global itemName
+ itemName = name
+ tempHostsData = {}
+ intentsId = []
+
+ if hostNames and devices:
+ if len( hostNames ) != len( devices ):
+ main.log.error( "hosts and devices does not have the same length" )
+ print "hostNames = ", len( hostNames )
+ print "devices = ", len( devices )
+ return main.FALSE
+ if ports:
+ if len( ports ) != len( devices ):
+ main.log.error( "Ports and devices does " +
+ "not have the same length" )
+ print "devices = ", len( devices )
+ print "ports = ", len( ports )
+ return main.FALSE
+ else:
+ main.log.info( "Device Ports are not specified" )
+ elif hostNames and not devices and main.hostsData:
+ main.log.info( "singleToMultiIntent function is using main.hostsData" )
+ print main.hostsData
+
+ pingResult = main.TRUE
+ intentResult = main.TRUE
+ flowResult = main.TRUE
+ topoResult = main.TRUE
+ linkDownResult = main.TRUE
+ linkUpResult = main.TRUE
+
+ # Adding bidirectional point intents
+ main.log.info( itemName + ": Adding host intents" )
+ intent1 = main.CLIs[ 0 ].addSinglepointToMultipointIntent(
+ ingressDevice=deviceId1,
+ egressDevice=deviceId2,
+ portIngress=port1,
+ portEgress=port2,
+ ethType=ethType,
+ ethSrc=mac1,
+ ethDst=mac2,
+ bandwidth=bandwidth,
+ lambdaAlloc=lambdaAlloc,
+ ipProto=ipProto,
+ ipSrc=ip1,
+ ipDst=ip2,
+ tcpSrc=tcp1,
+ tcpDst=tcp2 )
+
+ intentsId.append( intent1 )
+ time.sleep( 5 )
+ intent2 = main.CLIs[ 0 ].addPointIntent( ingressDevice=deviceId2,
+ egressDevice=deviceId1,
+ portIngress=port2,
+ portEgress=port1,
+ ethType=ethType,
+ ethSrc=mac2,
+ ethDst=mac1,
+ bandwidth=bandwidth,
+ lambdaAlloc=lambdaAlloc,
+ ipProto=ipProto,
+ ipSrc=ip2,
+ ipDst=ip1,
+ tcpSrc=tcp2,
+ tcpDst=tcp1 )
+ intentsId.append( intent2 )
+
+ # Check intents state
+ time.sleep( 50 )
+ intentResult = checkIntentState( main, intentsId )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Ping hosts
+ pingHost( main, h1Name, h2Name )
+ # Ping hosts again...
+ pingResult = pingHost( main, h1Name, h2Name )
+ time.sleep( 5 )
+
+ if sw1 and sw2 and expectedLink:
+ # link down
+ link( main, sw1, sw2, "down" )
+ intentResult = intentResult and checkIntentState( main, intentsId )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Check OnosTopology
+ topoResult = checkTopology( main, expectedLink )
+
+ # Ping hosts
+ pingResult = pingResult and pingHost( main, h1Name, h2Name )
+
+ intentResult = checkIntentState( main, intentsId )
+
+ # link up
+ link( main, sw1, sw2, "up" )
+ time.sleep( 5 )
+
+ # Verify flows
+ checkFlowsState( main )
+
+ # Check OnosTopology
+ topoResult = checkTopology( main, expectedLink )
+
+ # Ping hosts
+ pingResult = pingResult and pingHost( main, h1Name, h2Name )
+
+ # Remove intents
+ for intent in intentsId:
+ main.CLIs[ 0 ].removeIntent( intentId=intent, purge=True )
+
+ print main.CLIs[ 0 ].intents()
+ stepResult = pingResult and linkDownResult and linkUpResult \
+ and intentResult
+
+ return stepResult
+
+def link( main, sw1, sw2, option):
+
+ # link down
+ main.log.info( itemName + ": Bring link " + option + "between " +
+ sw1 + " and " + sw2 )
+ main.Mininet1.link( end1=sw1, end2=sw2, option=option )
+
+def pingAllHost( main, hosts ):
+ # Ping all host in the hosts list variable
+ import itertools
+
+ main.log.info( itemName + ": Ping host list - " + hosts )
+ hostCombination = itertools.permutation( hosts, 2 )
+ pingResult = main.TRUE
+ for hostPair in hostCombination:
+ pingResult = pingResult and main.Mininet.pingHost(
+ src=hostPair[ 0 ],
+ target=hostPair[ 1 ] )
+ return pingResult
+
+def pingHost( main, h1Name, h2Name ):
+
+ # Ping hosts
+ main.log.info( itemName + ": Ping " + h1Name + " and " +
+ h2Name )
+ pingResult1 = main.Mininet1.pingHost( src=h1Name , target=h2Name )
+ if not pingResult1:
+ main.log.info( itemName + ": " + h1Name + " cannot ping "
+ + h2Name )
+ pingResult2 = main.Mininet1.pingHost( src=h2Name , target=h1Name )
+ if not pingResult2:
+ main.log.info( itemName + ": " + h2Name + " cannot ping "
+ + h1Name )
+ pingResult = pingResult1 and pingResult2
+ if pingResult:
+ main.log.info( itemName + ": Successfully pinged " +
+ "both hosts" )
+ else:
+ main.log.info( itemName + ": Failed to ping " +
+ "both hosts" )
+ return pingResult
+
+def getHostsData( main ):
+ """
+ Use fwd app and pingall to discover all the hosts
+ """
+ """
+ hosts json format:
+ """
+ import json
+ activateResult = main.TRUE
+ appCheck = main.TRUE
+ main.log.info( "Activating reactive forwarding app " )
+ activateResult = main.CLIs[ 0 ].activateApp( "org.onosproject.fwd" )
+
+ for i in range( main.numCtrls ):
+ appCheck = appCheck and main.CLIs[ i ].appToIDCheck()
+
+ if appCheck != main.TRUE:
+ main.log.warn( main.CLIs[ 0 ].apps() )
+ main.log.warn( main.CLIs[ 0 ].appIDs() )
+
+ pingResult = main.Mininet1.pingall()
+ hostsJson = json.loads( main.CLIs[ 0 ].hosts() )
+ hosts = main.Mininet1.getHosts()
+ for host in hosts:
+ main.hostsData[ host ] = {}
+ main.hostsData[ host ][ 'mac' ] = \
+ main.Mininet1.getMacAddress( host ).upper()
+ for hostj in hostsJson:
+ if main.hostsData[ host ][ 'mac' ] == hostj[ 'mac' ]:
+ main.hostsData[ host ][ 'id' ] = hostj[ 'id' ]
+ main.hostsData[ host ][ 'vlan' ] = hostj[ 'vlan' ]
+ main.hostsData[ host ][ 'location' ] = \
+ hostj[ 'location' ][ 'elementId' ] + '/' + \
+ hostj[ 'location' ][ 'port' ]
+ main.hostsData[ host ][ 'ipAddresses' ] = hostj[ 'ipAddresses' ]
+
+ main.log.info( "Deactivating reactive forwarding app " )
+ activateResult = main.CLIs[ 0 ].deactivateApp( "org.onosproject.fwd" )
+ print main.hostsData
+ return pingResult
+
+def checkTopology( main, expectedLink ):
+ statusResult = main.TRUE
+ # Check onos topology
+ main.log.info( itemName + ": Checking ONOS topology " )
+
+ for i in range( main.numCtrls ):
+ topologyResult = main.CLIs[ i ].topology()
+ statusResult = main.ONOSbench.checkStatus( topologyResult,
+ main.numSwitch,
+ expectedLink )\
+ and statusResult
+ if not statusResult:
+ main.log.info( itemName + ": Topology mismatch" )
+ else:
+ main.log.info( itemName + ": Topology match" )
+ return statusResult
+
+def checkIntentState( main, intentsId ):
+
+ main.log.info( itemName + ": Check host intents state" )
+ for i in range( main.numCtrls ):
+ intentResult = main.CLIs[ i ].checkIntentState( intentsId=intentsId )
+ if not intentResult:
+ main.log.info( itemName + ": Check host intents state again")
+ for i in range( main.numCtrls ):
+ intentResult = main.CLIs[ i ].checkIntentState(
+ intentsId=intentsId )
+ return intentResult
+
+def checkFlowsState( main ):
+
+ main.log.info( itemName + ": Check flows state" )
+ checkFlowsResult = main.CLIs[ 0 ].checkFlowsState()
+ return checkFlowsResult
+
+def printMsg( main, h1Name, h2Name ):
+ main.log.info("PINGING HOST INSIDE printMSG")
+ pingHost( main, itemName, h1Name, h2Name )
+ print 'lala'
+
diff --git a/TestON/tests/TopoPerfNext/__init__.py b/TestON/tests/FuncIntent/Dependency/__init__.py
similarity index 100%
copy from TestON/tests/TopoPerfNext/__init__.py
copy to TestON/tests/FuncIntent/Dependency/__init__.py
diff --git a/TestON/tests/FuncIntent/FuncIntent.params b/TestON/tests/FuncIntent/FuncIntent.params
index 3d2ef8a..6a346bc 100755
--- a/TestON/tests/FuncIntent/FuncIntent.params
+++ b/TestON/tests/FuncIntent/FuncIntent.params
@@ -1,11 +1,11 @@
<PARAMS>
- <testcases>10,11,12,1001,10,12,1001</testcases>
-
+ <testcases>10,11,12,13,1001,1002</testcases>
+
<SCALE>1,3</SCALE>
<availableNodes>3</availableNodes>
<ENV>
- <cellName>single_func</cellName>
+ <cellName>functionality</cellName>
<cellApps>drivers,openflow,proxyarp,mobility</cellApps>
</ENV>
<GIT>
@@ -23,7 +23,7 @@
</CTRL>
<BENCH>
<user>admin</user>
- <ip1>10.128.10.20</ip1>
+ <ip1>OCN</ip1>
</BENCH>
<MININET>
<switch>7</switch>
diff --git a/TestON/tests/FuncIntent/FuncIntent.py b/TestON/tests/FuncIntent/FuncIntent.py
index 1db5752..d3583e6 100644
--- a/TestON/tests/FuncIntent/FuncIntent.py
+++ b/TestON/tests/FuncIntent/FuncIntent.py
@@ -15,6 +15,7 @@
def CASE10( self, main ):
import time
import os
+ import imp
"""
Startup sequence:
cell <name>
@@ -27,22 +28,29 @@
onos-wait-for-start
"""
global init
+ global globalONOSip
try:
if type(init) is not bool:
init = False
except NameError:
init = False
+
+ main.wrapper = imp.load_source( 'FuncIntentFunction',
+ '/home/admin/ONLabTest/TestON/tests/' +
+ 'FuncIntent/Dependency/' +
+ 'FuncIntentFunction.py' )
#Local variables
cellName = main.params[ 'ENV' ][ 'cellName' ]
apps = main.params[ 'ENV' ][ 'cellApps' ]
gitBranch = main.params[ 'GIT' ][ 'branch' ]
- #benchIp = main.params[ 'BENCH' ][ 'ip1' ]
+ benchIp = os.environ[ 'OCN' ]
benchUser = main.params[ 'BENCH' ][ 'user' ]
topology = main.params[ 'MININET' ][ 'topo' ]
- #maxNodes = int( main.params[ 'availableNodes' ] )
main.numSwitch = int( main.params[ 'MININET' ][ 'switch' ] )
main.numLinks = int( main.params[ 'MININET' ][ 'links' ] )
main.numCtrls = main.params[ 'CTRL' ][ 'num' ]
+ main.ONOSport = []
+ main.hostsData = {}
PULLCODE = False
if main.params[ 'GIT' ][ 'pull' ] == 'True':
PULLCODE = True
@@ -50,13 +58,12 @@
main.CLIs = []
for i in range( 1, int( main.numCtrls ) + 1 ):
main.CLIs.append( getattr( main, 'ONOScli' + str( i ) ) )
+ main.ONOSport.append( main.params[ 'CTRL' ][ 'port' + str( i ) ] )
# -- INIT SECTION, ONLY RUNS ONCE -- #
if init == False:
init = True
- #main.ONOSip = []
- main.ONOSport = []
main.scale = ( main.params[ 'SCALE' ] ).split( "," )
main.numCtrls = int( main.scale[ 0 ] )
@@ -78,42 +85,24 @@
else:
main.log.warn( "Did not pull new code so skipping mvn " +
"clean install" )
- # Populate main.ONOSip with ips from params
- #for i in range( 1, maxNodes + 1):
- # main.ONOSip.append( main.params[ 'CTRL' ][ 'ip' + str( i ) ] )
- # main.ONOSport.append( main.params[ 'CTRL' ][ 'port' +
- # str( i ) ])
-
- ONOSip = main.ONOSbench.getOnosIpFromEnv()
- main.log.info("\t\t CLUSTER IPs: \n\n" + str(ONOSip) + "\n\n")
+
+ globalONOSip = main.ONOSbench.getOnosIps()
+
+ maxNodes = ( len(globalONOSip) - 2 )
main.numCtrls = int( main.scale[ 0 ] )
main.scale.remove( main.scale[ 0 ] )
-
+
+ main.ONOSip = []
+ for i in range( maxNodes ):
+ main.ONOSip.append( globalONOSip[i] )
+
#kill off all onos processes
main.log.info( "Safety check, killing all ONOS processes" +
" before initiating enviornment setup" )
- for i in range( maxNodes ):
- main.ONOSbench.onosDie( main.ONOSip[ i ] )
- """
- main.step( "Apply cell to environment" )
- cellResult = main.ONOSbench.setCell( cellName )
- verifyResult = main.ONOSbench.verifyCell()
- stepResult = cellResult and verifyResult
- utilities.assert_equals( expect=main.TRUE,
- actual=stepResult,
- onpass="Successfully applied cell to " + \
- "environment",
- onfail="Failed to apply cell to environment " )
- """
- """main.step( "Removing raft logs" )
- removeRaftResult = main.ONOSbench.onosRemoveRaftLogs()
- stepResult = removeRaftResult
- utilities.assert_equals( expect=main.TRUE,
- actual=stepResult,
- onpass="Successfully removed raft logs",
- onfail="Failed to remove raft logs" )
- """
+ for i in range(maxNodes):
+ main.ONOSbench.onosDie( globalONOSip[ i ] )
+
print "NODE COUNT = ", main.numCtrls
main.log.info( "Creating cell file" )
cellIp = []
@@ -143,7 +132,7 @@
main.step( "Uninstalling ONOS package" )
onosUninstallResult = main.TRUE
- for i in range( main.numCtrls):
+ for i in range( main.numCtrls ):
onosUninstallResult = onosUninstallResult and \
main.ONOSbench.onosUninstall( nodeIp=main.ONOSip[ i ] )
stepResult = onosUninstallResult
@@ -154,7 +143,7 @@
time.sleep( 5 )
main.step( "Installing ONOS package" )
onosInstallResult = main.TRUE
- for i in range( main.numCtrls):
+ for i in range( main.numCtrls ):
onosInstallResult = onosInstallResult and \
main.ONOSbench.onosInstall( node=main.ONOSip[ i ] )
stepResult = onosInstallResult
@@ -163,7 +152,7 @@
onpass="Successfully installed ONOS package",
onfail="Failed to install ONOS package" )
- time.sleep( 5 )
+ time.sleep( 20 )
main.step( "Starting ONOS service" )
stopResult = main.TRUE
startResult = main.TRUE
@@ -186,7 +175,7 @@
actual=stepResult,
onpass="ONOS service is ready",
onfail="ONOS service did not start properly" )
-
+
main.step( "Start ONOS cli" )
cliResult = main.TRUE
for i in range( main.numCtrls ):
@@ -198,6 +187,16 @@
onpass="Successfully start ONOS cli",
onfail="Failed to start ONOS cli" )
+ def CASE9( self, main ):
+ '''
+ Report errors/warnings/exceptions
+ '''
+ main.log.info( "Error report: \n" )
+ main.ONOSbench.logReport( globalONOSip[0],
+ [ "INFO", "FOLLOWER", "WARN", "flow", "ERROR" , "Except" ],
+ "s" )
+ #main.ONOSbench.logReport( globalONOSip[1], [ "INFO" ], "d" )
+
def CASE11( self, main ):
"""
Start mininet
@@ -223,6 +222,7 @@
"""
import re
+ main.case( "Assign switches to controllers" )
main.step( "Assigning switches to controllers" )
assignResult = main.TRUE
for i in range( 1, ( main.numSwitch + 1 ) ):
@@ -244,6 +244,19 @@
"to controller",
onfail="Failed to assign switches to " +
"controller" )
+ def CASE13( self, main ):
+ """
+ Discover all hosts and store its data to a dictionary
+ """
+ main.case( "Discover all hosts" )
+
+ stepResult = main.TRUE
+ main.step( "Discover all hosts using pingall " )
+ stepResult = main.wrapper.getHostsData( main )
+ utilities.assert_equals( expect=main.FALSE,
+ actual=stepResult,
+ onpass="Successfully discovered hosts",
+ onfail="Failed to discover hosts" )
def CASE1001( self, main ):
"""
@@ -251,12 +264,16 @@
- Discover hosts
- Add host intents
- Check intents
- - Check flows
+ - Verify flows
- Ping hosts
- Reroute
- Link down
+ - Verify flows
+ - Check topology
- Ping hosts
- Link up
+ - Verify flows
+ - Check topology
- Ping hosts
- Remove intents
"""
@@ -270,203 +287,146 @@
'id':'00:00:00:00:00:0X/-X' } , 'host2':
{ 'name': '', 'MAC': '00:00:00:00:00:0X',
'id':'00:00:00:00:00:0X/-X'}, 'link': { 'switch1': '',
- 'switch2': '', 'num':'' } }
+ 'switch2': '', 'expect':'' } }
"""
- # Local variables
- items = []
- ipv4 = { 'name': 'IPV4', 'host1':
- { 'name': 'h1', 'MAC': '00:00:00:00:00:01',
- 'id':'00:00:00:00:00:01/-1' } , 'host2':
- { 'name': 'h9', 'MAC': '00:00:00:00:00:09',
- 'id':'00:00:00:00:00:09/-1'}, 'link': { 'switch1': 's5',
- 'switch2': 's2', 'num':'18' } }
- dualStack1 = { 'name': 'DUALSTACK1', 'host1':
- { 'name': 'h3', 'MAC': '00:00:00:00:00:03',
- 'id':'00:00:00:00:00:03/-1' } , 'host2':
- { 'name': 'h11', 'MAC': '00:00:00:00:00:0B',
- 'id':'00:00:00:00:00:0B/-1'}, 'link': { 'switch1': 's5',
- 'switch2': 's2', 'num':'18' } }
- items.append( ipv4 )
- items.append( dualStack1 )
- # Global variables
-
- main.log.case( "Add host intents between 2 host" )
-
- for item in items:
- stepResult = main.TRUE
- itemName = item[ 'name' ]
- h1Name = item[ 'host1' ][ 'name' ]
- h2Name = item[ 'host2' ][ 'name' ]
- h1Mac = item[ 'host1' ][ 'MAC' ]
- h2Mac = item[ 'host2' ][ 'MAC' ]
- h1Id = item[ 'host1' ][ 'id']
- h2Id = item[ 'host2' ][ 'id']
- # Link down/up for rerouting
- sw1 = item[ 'link' ][ 'switch1' ]
- sw2 = item[ 'link' ][ 'switch2' ]
- remLink = item[ 'link' ][ 'num' ]
- pingResult = main.TRUE
- statusResult = main.TRUE
- linkDownResult = main.TRUE
- linkUpResult = main.TRUE
- intentsId = []
- main.step( itemName + ": Add host intents between " + h1Name
- + " and " + h2Name )
- main.log.info( itemName + ": Discover host using arping" )
- main.Mininet1.arping( host=h1Name )
- main.Mininet1.arping( host=h2Name )
- host1 = main.CLIs[ 0 ].getHost( mac=h1Mac )
- host2 = main.CLIs[ 0 ].getHost( mac=h2Mac )
- print host1
- print host2
- # Adding intents
- main.log.info( itemName + ": Adding host intents" )
- intent1 = main.CLIs[ 0 ].addHostIntent( hostIdOne=h1Id,
- hostIdTwo=h2Id )
- intentsId.append( intent1 )
- time.sleep( 5 )
- intent2 = main.CLIs[ 0 ].addHostIntent( hostIdOne=h2Id,
- hostIdTwo=h1Id )
- intentsId.append( intent2 )
- # Checking intents
- main.log.info( itemName + ": Check host intents state" )
- time.sleep( 30 )
- for i in range( main.numCtrls ):
- intentResult = main.CLIs[ i ].checkIntentState(
- intentsId=intentsId )
- if not intentResult:
- main.log.info( itemName + ": Check host intents state" +
- " again")
- for i in range( main.numCtrls ):
- intentResult = main.CLIs[ i ].checkIntentState(
- intentsId=intentsId )
- # Ping hosts
- time.sleep( 10 )
- main.log.info( itemName + ": Ping " + h1Name + " and " +
- h2Name )
- pingResult1 = main.Mininet1.pingHost( src=h1Name , target=h2Name )
- if not pingResult1:
- main.log.info( itemName + ": " + h1Name + " cannot ping "
- + h2Name )
- pingResult2 = main.Mininet1.pingHost( src=h2Name , target=h1Name )
- if not pingResult2:
- main.log.info( itemName + ": " + h2Name + " cannot ping "
- + h1Name )
- pingResult = pingResult1 and pingResult2
- if pingResult:
- main.log.info( itemName + ": Successfully pinged " +
- "both hosts" )
- else:
- main.log.info( itemName + ": Failed to ping " +
- "both hosts" )
- # Rerouting ( link down )
- main.log.info( itemName + ": Bring link down between " +
- sw1 + " and " + sw2 )
- main.Mininet1.link( end1=sw1,
- end2=sw2,
- option="down" )
- time.sleep( 5 )
- # Check onos topology
- main.log.info( itemName + ": Checking ONOS topology " )
+ # Assert variables - These variable's name|format must be followed
+ # if you want to use the wrapper function
+ assert main, "There is no main"
+ assert main.CLIs, "There is no main.CLIs"
+ assert main.Mininet1, "Mininet handle should be named Mininet1"
+ assert main.numSwitch, "Placed the total number of switch topology in \
+ main.numSwitch"
- for i in range( main.numCtrls ):
- topologyResult = main.CLIs[ i ].topology()
- linkDownResult = main.ONOSbench.checkStatus( topologyResult,
- main.numSwitch,
- remLink )\
- and linkDownResult
- if not linkDownResult:
- main.log.info( itemName + ": Topology mismatch" )
- else:
- main.log.info( itemName + ": Topology match" )
+ main.case( "Add host intents between 2 host" )
- # Ping hosts
- main.log.info( itemName + ": Ping " + h1Name + " and " +
- h2Name )
- pingResult1 = main.Mininet1.pingHost( src=h1Name , target=h2Name )
- if not pingResult1:
- main.log.info( itemName + ": " + h1Name + " cannot ping "
- + h2Name )
- pingResult2 = main.Mininet1.pingHost( src=h2Name , target=h1Name )
- if not pingResult2:
- main.log.info( itemName + ": " + h2Name + " cannot ping "
- + h1Name )
- pingResult = pingResult1 and pingResult2
- if pingResult:
- main.log.info( itemName + ": Successfully pinged " +
- "both hosts" )
- else:
- main.log.info( itemName + ": Failed to ping " +
- "both hosts" )
- # link up
- main.log.info( itemName + ": Bring link up between " +
- sw1 + " and " + sw2 )
- main.Mininet1.link( end1=sw1,
- end2=sw2,
- option="up" )
- time.sleep( 5 )
+ stepResult = main.TRUE
+ main.step( "IPV4: Add host intents between h1 and h9" )
+ stepResult = main.wrapper.hostIntent( main,
+ name='IPV4',
+ host1='h1',
+ host2='h9',
+ host1Id='00:00:00:00:00:01/-1',
+ host2Id='00:00:00:00:00:09/-1',
+ sw1='s5',
+ sw2='s2',
+ expectedLink=18 )
- # Check onos topology
- main.log.info( itemName + ": Checking ONOS topology " )
- for i in range( main.numCtrls ):
- topologyResult = main.CLIs[ i ].topology()
- linkUpResult = main.ONOSbench.checkStatus( topologyResult,
- main.numSwitch,
- main.numLinks )\
- and linkUpResult
- if not linkUpResult:
- main.log.info( itemName + ": Topology mismatch" )
- else:
- main.log.info( itemName + ": Topology match" )
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="IPV4: Add host intent successful",
+ onfail="IPV4: Add host intent failed" )
+ stepResult = main.TRUE
- # Ping hosts
- main.log.info( itemName + ": Ping " + h1Name + " and " +
- h2Name )
- pingResult1 = main.Mininet1.pingHost( src=h1Name , target=h2Name )
- if not pingResult1:
- main.log.info( itemName + ": " + h1Name + " cannot ping "
- + h2Name )
- pingResult2 = main.Mininet1.pingHost( src=h2Name , target=h1Name )
- if not pingResult2:
- main.log.info( itemName + ": " + h2Name + " cannot ping "
- + h1Name )
- pingResult = pingResult1 and pingResult2
- if pingResult:
- main.log.info( itemName + ": Successfully pinged " +
- "both hosts" )
- else:
- main.log.info( itemName + ": Failed to ping " +
- "both hosts" )
+ main.step( "DUALSTACK: Add host intents between h3 and h11" )
+ stepResult = main.wrapper.hostIntent( main,
+ name='DUALSTACK',
+ host1='h3',
+ host2='h11',
+ host1Id='00:00:00:00:00:03/-1',
+ host2Id='00:00:00:00:00:0B/-1',
+ sw1='s5',
+ sw2='s2',
+ expectedLink=18 )
- # Remove intents
- for intent in intentsId:
- main.CLIs[ 0 ].removeIntent( intentId=intent, purge=True )
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="DUALSTACK: Add host intent successful",
+ onfail="DUALSTACK: Add host intent failed" )
- print main.CLIs[ 0 ].intents()
- stepResult = pingResult and linkDownResult and linkUpResult \
- and intentResult
- utilities.assert_equals( expect=main.TRUE,
- actual=stepResult,
- onpass=itemName +
- ": host intent successful",
- onfail=itemName +
- ": Add host intent failed" )
def CASE1002( self, main ):
"""
Add point intents between 2 hosts:
- - Get device ids
+ - Get device ids | ports
- Add point intents
- Check intents
- - Check flows
+ - Verify flows
- Ping hosts
- Reroute
- Link down
+ - Verify flows
+ - Check topology
- Ping hosts
- Link up
+ - Verify flows
+ - Check topology
- Ping hosts
- Remove intents
"""
+ import time
+ import json
+ import re
+ """
+ Create your item(s) here
+ item = { 'name':'', 'host1': { 'name': '' },
+ 'host2': { 'name': '' },
+ 'ingressDevice':'' , 'egressDevice':'',
+ 'ingressPort':'', 'egressPort':'',
+ 'option':{ 'ethType':'', 'ethSrc':'', 'ethDst':'' } ,
+ 'link': { 'switch1': '', 'switch2':'', 'expect':'' } }
+
+ """
+
+ # Assert variables - These variable's name|format must be followed
+ # if you want to use the wrapper function
+ assert main, "There is no main"
+ assert main.CLIs, "There is no main.CLIs"
+ assert main.Mininet1, "Mininet handle should be named Mininet1"
+ assert main.numSwitch, "Placed the total number of switch topology in \
+ main.numSwitch"
+
+ ipv4 = { 'name':'IPV4', 'ingressDevice':'of:0000000000000005/1' ,
+ 'host1': { 'name': 'h1' }, 'host2': { 'name': 'h9' },
+ 'egressDevice':'of:0000000000000006/1', 'option':
+ { 'ethType':'IPV4', 'ethSrc':'00:00:00:00:00:01',
+ 'ethDst':'00:00:00:00:00:09' }, 'link': { 'switch1':'s5',
+ 'switch2':'s2', 'expect':'18' } }
+
+ """
+ ipv4 = { 'name':'IPV4', 'ingressDevice':'of:0000000000000005/1' ,
+ 'host1': { 'name': 'h1' }, 'host2': { 'name': 'h9' },
+ 'egressDevice':'of:0000000000000006/1', 'option':
+ { 'ethType':'IPV4', 'ethSrc':'00:00:00:00:00:01' },
+ 'link': { 'switch1':'s5', 'switch2':'s2', 'expect':'18' } }
+ """
+ dualStack1 = { 'name':'IPV4', 'ingressDevice':'0000000000000005/3' ,
+ 'host1': { 'name': 'h3' }, 'host2': { 'name': 'h11' },
+ 'egressDevice':'0000000000000006/3', 'option':
+ { 'ethType':'IPV4', 'ethSrc':'00:00:00:00:00:03',
+ 'ethDst':'00:00:00:00:00:0B' }, 'link': { 'switch1':'s5',
+ 'switch2':'s2', 'expect':'18' } }
+
+ main.case( "Add point intents between 2 devices" )
+
+ stepResult = main.TRUE
+ main.step( "IPV4: Add point intents between h1 and h9" )
+ stepResult = main.wrapper.pointIntent(
+ main,
+ name="IPV4",
+ host1="h1",
+ host2="h9",
+ deviceId1="of:0000000000000005/1",
+ deviceId2="of:0000000000000006/1",
+ port1="",
+ port2="",
+ ethType="IPV4",
+ mac1="00:00:00:00:00:01",
+ mac2="00:00:00:00:00:09",
+ bandwidth="",
+ lambdaAlloc=False,
+ ipProto="",
+ ip1="",
+ ip2="",
+ tcp1="",
+ tcp2="",
+ sw1="s5",
+ sw2="s2",
+ expectedLink=18 )
+
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="IPV4: Add point intent successful",
+ onfail="IPV4: Add point intent failed" )
def CASE1003( self, main ):
"""
@@ -474,12 +434,16 @@
- Get device ids
- Add single point to multi point intents
- Check intents
- - Check flows
+ - Verify flows
- Ping hosts
- Reroute
- Link down
+ - Verify flows
+ - Check topology
- Ping hosts
- Link up
+ - Verify flows
+ - Check topology
- Ping hosts
- Remove intents
"""
@@ -490,12 +454,16 @@
- Get device ids
- Add multi point to single point intents
- Check intents
- - Check flows
+ - Verify flows
- Ping hosts
- Reroute
- Link down
+ - Verify flows
+ - Check topology
- Ping hosts
- Link up
+ - Verify flows
+ - Check topology
- Ping hosts
- Remove intents
"""
diff --git a/TestON/tests/FuncIntent/FuncIntent.topo b/TestON/tests/FuncIntent/FuncIntent.topo
index e85b397..e6613de 100755
--- a/TestON/tests/FuncIntent/FuncIntent.topo
+++ b/TestON/tests/FuncIntent/FuncIntent.topo
@@ -2,7 +2,7 @@
<COMPONENT>
<ONOSbench>
- <host>10.128.5.55</host>
+ <host>OCN</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosDriver</type>
@@ -13,7 +13,7 @@
</ONOSbench>
<ONOScli1>
- <host>10.128.5.55</host>
+ <host>OCN</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -22,7 +22,7 @@
</ONOScli1>
<ONOScli2>
- <host>10.128.5.55</host>
+ <host>OCN</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -31,7 +31,7 @@
</ONOScli2>
<ONOScli3>
- <host>10.128.5.55</host>
+ <host>OCN</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -40,7 +40,7 @@
</ONOScli3>
<Mininet1>
- <host>10.128.10.20</host>
+ <host>OCN</host>
<user>admin</user>
<password>onos_test</password>
<type>MininetCliDriver</type>
diff --git a/TestON/tests/TopoPerfNext/__init__.py b/TestON/tests/FuncIntent/__init__.py
similarity index 100%
copy from TestON/tests/TopoPerfNext/__init__.py
copy to TestON/tests/FuncIntent/__init__.py
diff --git a/TestON/tests/FuncStartTemplate/FuncStartTemplate.params b/TestON/tests/FuncStartTemplate/FuncStartTemplate.params
new file mode 100755
index 0000000..310e5f8
--- /dev/null
+++ b/TestON/tests/FuncStartTemplate/FuncStartTemplate.params
@@ -0,0 +1,34 @@
+<PARAMS>
+
+ <testcases>10,9,10,9</testcases>
+
+ <SCALE>3,1</SCALE>
+ <availableNodes>3</availableNodes>
+ <ENV>
+ <cellName>single_func</cellName>
+ <cellApps>drivers,openflow,proxyarp,mobility</cellApps>
+ </ENV>
+ <GIT>
+ <pull>False</pull>
+ <branch>master</branch>
+ </GIT>
+ <CTRL>
+ <num>3</num>
+ <ip1>OC1</ip1>
+ <port1>6633</port1>
+ <ip2>OC2</ip2>
+ <port2>6633</port2>
+ <ip3>OC3</ip3>
+ <port3>6633</port3>
+ </CTRL>
+ <BENCH>
+ <user>admin</user>
+ <ip1>OCN</ip1>
+ </BENCH>
+ <MININET>
+ <switch>7</switch>
+ <links>20</links>
+ <topo>~/mininet/custom/newFuncTopo.py</topo>
+ </MININET>
+
+</PARAMS>
diff --git a/TestON/tests/FuncStartTemplate/FuncStartTemplate.py b/TestON/tests/FuncStartTemplate/FuncStartTemplate.py
new file mode 100644
index 0000000..4beefae
--- /dev/null
+++ b/TestON/tests/FuncStartTemplate/FuncStartTemplate.py
@@ -0,0 +1,231 @@
+
+# Testing the basic functionality of ONOS Next
+# For sanity and driver functionality excercises only.
+
+import time
+import json
+
+time.sleep( 1 )
+
+class FuncStartTemplate:
+
+ def __init__( self ):
+ self.default = ''
+
+ def CASE10( self, main ):
+ import time
+ import os
+ """
+ Startup sequence:
+ cell <name>
+ onos-verify-cell
+ onos-remove-raft-log
+ git pull
+ mvn clean install
+ onos-package
+ onos-install -f
+ onos-wait-for-start
+ """
+ global init
+ global globalONOSip
+ try:
+ if type(init) is not bool:
+ init = False
+ except NameError:
+ init = False
+
+ #Local variables
+ cellName = main.params[ 'ENV' ][ 'cellName' ]
+ apps = main.params[ 'ENV' ][ 'cellApps' ]
+ gitBranch = main.params[ 'GIT' ][ 'branch' ]
+ benchIp = os.environ[ 'OCN' ]
+ benchUser = main.params[ 'BENCH' ][ 'user' ]
+ topology = main.params[ 'MININET' ][ 'topo' ]
+ main.numSwitch = int( main.params[ 'MININET' ][ 'switch' ] )
+ main.numLinks = int( main.params[ 'MININET' ][ 'links' ] )
+ main.numCtrls = main.params[ 'CTRL' ][ 'num' ]
+ PULLCODE = False
+ if main.params[ 'GIT' ][ 'pull' ] == 'True':
+ PULLCODE = True
+ main.case( "Setting up test environment" )
+ main.CLIs = []
+ for i in range( 1, int( main.numCtrls ) + 1 ):
+ main.CLIs.append( getattr( main, 'ONOScli' + str( i ) ) )
+
+ # -- INIT SECTION, ONLY RUNS ONCE -- #
+ if init == False:
+ init = True
+
+ main.ONOSport = []
+ main.scale = ( main.params[ 'SCALE' ] ).split( "," )
+ main.numCtrls = int( main.scale[ 0 ] )
+
+ if PULLCODE:
+ main.step( "Git checkout and pull " + gitBranch )
+ main.ONOSbench.gitCheckout( gitBranch )
+ gitPullResult = main.ONOSbench.gitPull()
+ if gitPullResult == main.ERROR:
+ main.log.error( "Error pulling git branch" )
+ main.step( "Using mvn clean & install" )
+ cleanInstallResult = main.ONOSbench.cleanInstall()
+ stepResult = cleanInstallResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully compiled " +
+ "latest ONOS",
+ onfail="Failed to compile " +
+ "latest ONOS" )
+ else:
+ main.log.warn( "Did not pull new code so skipping mvn " +
+ "clean install" )
+
+ globalONOSip = main.ONOSbench.getOnosIps()
+
+ maxNodes = ( len(globalONOSip) - 2 )
+
+ main.numCtrls = int( main.scale[ 0 ] )
+ main.scale.remove( main.scale[ 0 ] )
+
+ main.ONOSip = []
+ for i in range( maxNodes ):
+ main.ONOSip.append( globalONOSip[i] )
+
+
+
+ #kill off all onos processes
+ main.log.info( "Safety check, killing all ONOS processes" +
+ " before initiating enviornment setup" )
+ for i in range(maxNodes):
+ main.ONOSbench.onosDie( globalONOSip[ i ] )
+
+ """
+ main.step( "Apply cell to environment" )
+ cellResult = main.ONOSbench.setCell( cellName )
+ verifyResult = main.ONOSbench.verifyCell()
+ stepResult = cellResult and verifyResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully applied cell to " + \
+ "environment",
+ onfail="Failed to apply cell to environment " )
+ """
+ """main.step( "Removing raft logs" )
+ removeRaftResult = main.ONOSbench.onosRemoveRaftLogs()
+ stepResult = removeRaftResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully removed raft logs",
+ onfail="Failed to remove raft logs" )
+ """
+
+ print "NODE COUNT = ", main.numCtrls
+ main.log.info( "Creating cell file" )
+ cellIp = []
+ for i in range( main.numCtrls ):
+ cellIp.append( str( main.ONOSip[ i ] ) )
+ print cellIp
+ main.ONOSbench.createCellFile( benchIp, cellName, "",
+ str( apps ), *cellIp )
+
+ main.step( "Apply cell to environment" )
+ cellResult = main.ONOSbench.setCell( cellName )
+ verifyResult = main.ONOSbench.verifyCell()
+ stepResult = cellResult and verifyResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully applied cell to " + \
+ "environment",
+ onfail="Failed to apply cell to environment " )
+
+ main.step( "Creating ONOS package" )
+ packageResult = main.ONOSbench.onosPackage()
+ stepResult = packageResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully created ONOS package",
+ onfail="Failed to create ONOS package" )
+
+ main.step( "Uninstalling ONOS package" )
+ onosUninstallResult = main.TRUE
+ for i in range( main.numCtrls ):
+ onosUninstallResult = onosUninstallResult and \
+ main.ONOSbench.onosUninstall( nodeIp=main.ONOSip[ i ] )
+ stepResult = onosUninstallResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully uninstalled ONOS package",
+ onfail="Failed to uninstall ONOS package" )
+ time.sleep( 5 )
+ main.step( "Installing ONOS package" )
+ onosInstallResult = main.TRUE
+ for i in range( main.numCtrls ):
+ onosInstallResult = onosInstallResult and \
+ main.ONOSbench.onosInstall( node=main.ONOSip[ i ] )
+ stepResult = onosInstallResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully installed ONOS package",
+ onfail="Failed to install ONOS package" )
+
+ time.sleep( 20 )
+ main.step( "Starting ONOS service" )
+ stopResult = main.TRUE
+ startResult = main.TRUE
+ onosIsUp = main.TRUE
+ for i in range( main.numCtrls ):
+ onosIsUp = onosIsUp and main.ONOSbench.isup( main.ONOSip[ i ] )
+ if onosIsUp == main.TRUE:
+ main.log.report( "ONOS instance is up and ready" )
+ else:
+ main.log.report( "ONOS instance may not be up, stop and " +
+ "start ONOS again " )
+ for i in range( main.numCtrls ):
+ stopResult = stopResult and \
+ main.ONOSbench.onosStop( main.ONOSip[ i ] )
+ for i in range( main.numCtrls ):
+ startResult = startResult and \
+ main.ONOSbench.onosStart( main.ONOSip[ i ] )
+ stepResult = onosIsUp and stopResult and startResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="ONOS service is ready",
+ onfail="ONOS service did not start properly" )
+
+ main.step( "Start ONOS cli" )
+ cliResult = main.TRUE
+ for i in range( main.numCtrls ):
+ cliResult = cliResult and \
+ main.CLIs[i].startOnosCli( main.ONOSip[ i ] )
+ stepResult = cliResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully start ONOS cli",
+ onfail="Failed to start ONOS cli" )
+
+ def CASE9( self, main ):
+ '''
+ Report errors/warnings/exceptions
+ '''
+ main.log.info("Error report: \n")
+ main.ONOSbench.logReport( globalONOSip[0], [ "INFO","FOLLOWER","WARN","flow","ERROR","Except" ], "s" )
+ #main.ONOSbench.logReport( globalONOSip[1], [ "INFO" ], "d" )
+
+ def CASE11( self, main ):
+ """
+ Start mininet
+ """
+ main.log.report( "Start Mininet topology" )
+ main.log.case( "Start Mininet topology" )
+
+ main.step( "Starting Mininet Topology" )
+ topoResult = main.Mininet1.startNet( topoFile=topology )
+ stepResult = topoResult
+ utilities.assert_equals( expect=main.TRUE,
+ actual=stepResult,
+ onpass="Successfully loaded topology",
+ onfail="Failed to load topology" )
+ # Exit if topology did not load properly
+ if not topoResult:
+ main.cleanup()
+ main.exit()
+
diff --git a/TestON/tests/FuncStartTemplate/FuncStartTemplate.topo b/TestON/tests/FuncStartTemplate/FuncStartTemplate.topo
new file mode 100755
index 0000000..2321da0
--- /dev/null
+++ b/TestON/tests/FuncStartTemplate/FuncStartTemplate.topo
@@ -0,0 +1,52 @@
+<TOPOLOGY>
+ <COMPONENT>
+
+ <ONOSbench>
+ <host>OCN</host>
+ <user>admin</user>
+ <password>onos_test</password>
+ <type>OnosDriver</type>
+ <connect_order>1</connect_order>
+ <COMPONENTS>
+ <home>~/onos</home>
+ </COMPONENTS>
+ </ONOSbench>
+
+ <ONOScli1>
+ <host>OCN</host>
+ <user>admin</user>
+ <password>onos_test</password>
+ <type>OnosCliDriver</type>
+ <connect_order>2</connect_order>
+ <COMPONENTS> </COMPONENTS>
+ </ONOScli1>
+
+ <ONOScli2>
+ <host>OCN</host>
+ <user>admin</user>
+ <password>onos_test</password>
+ <type>OnosCliDriver</type>
+ <connect_order>3</connect_order>
+ <COMPONENTS> </COMPONENTS>
+ </ONOScli2>
+
+ <ONOScli3>
+ <host>OCN</host>
+ <user>admin</user>
+ <password>onos_test</password>
+ <type>OnosCliDriver</type>
+ <connect_order>4</connect_order>
+ <COMPONENTS> </COMPONENTS>
+ </ONOScli3>
+
+ <Mininet1>
+ <host>OCN</host>
+ <user>admin</user>
+ <password>onos_test</password>
+ <type>MininetCliDriver</type>
+ <connect_order>5</connect_order>
+ <COMPONENTS> </COMPONENTS>
+ </Mininet1>
+
+ </COMPONENT>
+</TOPOLOGY>
diff --git a/TestON/tests/TopoPerfNext/__init__.py b/TestON/tests/FuncStartTemplate/__init__.py
similarity index 100%
copy from TestON/tests/TopoPerfNext/__init__.py
copy to TestON/tests/FuncStartTemplate/__init__.py
diff --git a/TestON/tests/ScaleOutTemplate/ScaleOutTemplate.py b/TestON/tests/ScaleOutTemplate/ScaleOutTemplate.py
deleted file mode 100644
index 4400262..0000000
--- a/TestON/tests/ScaleOutTemplate/ScaleOutTemplate.py
+++ /dev/null
@@ -1,125 +0,0 @@
-# ScaleOutTemplate
-#
-# CASE1 starts number of nodes specified in param file
-#
-# cameron@onlab.us
-
-import sys
-import os.path
-
-
-class ScaleOutTemplate:
-
- def __init__( self ):
- self.default = ''
-
- def CASE1( self, main ):
-
- import time
- global init
- try:
- if type(init) is not bool:
- init = False
- except NameError:
- init = False
-
- #Load values from params file
- checkoutBranch = main.params[ 'GIT' ][ 'checkout' ]
- gitPull = main.params[ 'GIT' ][ 'autopull' ]
- cellName = main.params[ 'ENV' ][ 'cellName' ]
- Apps = main.params[ 'ENV' ][ 'cellApps' ]
- BENCHIp = main.params[ 'BENCH' ][ 'ip1' ]
- BENCHUser = main.params[ 'BENCH' ][ 'user' ]
- MN1Ip = main.params[ 'MN' ][ 'ip1' ]
- maxNodes = int(main.params[ 'availableNodes' ])
- skipMvn = main.params[ 'TEST' ][ 'skipCleanInstall' ]
- cellName = main.params[ 'ENV' ][ 'cellName' ]
-
- # -- INIT SECTION, ONLY RUNS ONCE -- #
- if init == False:
- init = True
- global clusterCount #number of nodes running
- global ONOSIp #list of ONOS IP addresses
- global scale
-
- clusterCount = 0
- ONOSIp = [ 0 ]
- scale = (main.params[ 'SCALE' ]).split(",")
- clusterCount = int(scale[0])
-
- #Populate ONOSIp with ips from params
- for i in range(1, maxNodes + 1):
- ipString = 'ip' + str(i)
- ONOSIp.append(main.params[ 'CTRL' ][ ipString ])
-
- #mvn clean install, for debugging set param 'skipCleanInstall' to yes to speed up test
- if skipMvn != "yes":
- mvnResult = main.ONOSbench.cleanInstall()
-
- #git
- main.step( "Git checkout and pull " + checkoutBranch )
- if gitPull == 'on':
- checkoutResult = main.ONOSbench.gitCheckout( checkoutBranch )
- pullResult = main.ONOSbench.gitPull()
-
- else:
- checkoutResult = main.TRUE
- pullResult = main.TRUE
- main.log.info( "Skipped git checkout and pull" )
-
- # -- END OF INIT SECTION --#
-
- clusterCount = int(scale[0])
- scale.remove(scale[0])
-
- #kill off all onos processes
- main.log.step("Safety check, killing all ONOS processes")
- main.log.step("before initiating enviornment setup")
- for node in range(1, maxNodes + 1):
- main.ONOSbench.onosDie(ONOSIp[node])
-
- #Uninstall everywhere
- main.log.step( "Cleaning Enviornment..." )
- for i in range(1, maxNodes + 1):
- main.log.info(" Uninstalling ONOS " + str(i) )
- main.ONOSbench.onosUninstall( ONOSIp[i] )
-
- #construct the cell file
- main.log.info("Creating cell file")
- cellIp = []
- for node in range (1, clusterCount + 1):
- cellIp.append(ONOSIp[node])
-
- main.ONOSbench.createCellFile(BENCHIp,cellName,MN1Ip,str(Apps), *cellIp)
-
- main.step( "Set Cell" )
- main.ONOSbench.setCell(cellName)
-
- main.step( "Creating ONOS package" )
- packageResult = main.ONOSbench.onosPackage()
-
- main.step( "verify cells" )
- verifyCellResult = main.ONOSbench.verifyCell()
-
- main.log.report( "Initializeing " + str( clusterCount ) + " node cluster." )
- for node in range(1, clusterCount + 1):
- main.log.info("Starting ONOS " + str(node) + " at IP: " + ONOSIp[node])
- main.ONOSbench.onosInstall( ONOSIp[node])
-
- for node in range(1, clusterCount + 1):
- for i in range( 2 ):
- isup = main.ONOSbench.isup( ONOSIp[node] )
- if isup:
- main.log.info("ONOS " + str(node) + " is up\n")
- break
- if not isup:
- main.log.report( "ONOS " + str(node) + " didn't start!" )
- main.log.info("Startup sequence complete")
-
- def CASE2( self, main ):
-
- print ("clusterCount: " + str(clusterCount))
- print ("scale: " + str(scale))
- print ("ONOSIp: " + str(ONOSIp))
- print ("INIT: " + str(init))
-
diff --git a/TestON/tests/TopoPerfNext/Backup/TopoPerfNext.py b/TestON/tests/TopoPerfNext/Backup/TopoPerfNext.py
deleted file mode 100644
index cc40b94..0000000
--- a/TestON/tests/TopoPerfNext/Backup/TopoPerfNext.py
+++ /dev/null
@@ -1,1710 +0,0 @@
-#TopoPerfNext
-#
-#Topology Performance test for ONOS-next
-#
-#andrew@onlab.us
-#
-#If your machine does not come with numpy
-#run the following command:
-#sudo apt-get install python-numpy python-scipy
-
-import time
-import sys
-import os
-import re
-
-class TopoPerfNext:
- def __init__(self):
- self.default = ''
-
- def CASE1(self, main):
- '''
- ONOS startup sequence
- '''
- import time
-
- ## Global cluster count for scale-out purposes
- global cluster_count
- #Set initial cluster count
- cluster_count = 1
- ##
-
- cell_name = main.params['ENV']['cellName']
-
- git_pull = main.params['GIT']['autoPull']
- checkout_branch = main.params['GIT']['checkout']
-
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS3_ip = main.params['CTRL']['ip3']
-
- #### Hardcoded ONOS nodes particular to my env ####
- ONOS4_ip = "10.128.174.4"
- ONOS5_ip = "10.128.174.5"
- ONOS6_ip = "10.128.174.6"
- ONOS7_ip = "10.128.174.7"
- #### ####
-
- MN1_ip = main.params['MN']['ip1']
- BENCH_ip = main.params['BENCH']['ip']
-
- topo_cfg_file = main.params['TEST']['topo_config_file']
- topo_cfg_name = main.params['TEST']['topo_config_name']
-
- main.case("Setting up test environment")
- main.log.info("Copying topology event accumulator config"+\
- " to ONOS /package/etc")
- main.ONOSbench.handle.sendline("cp ~/"+\
- topo_cfg_file+\
- " ~/ONOS/tools/package/etc/"+\
- topo_cfg_name)
- main.ONOSbench.handle.expect("\$")
-
- main.log.report("Setting up test environment")
-
- main.step("Cleaning previously installed ONOS if any")
- main.ONOSbench.onos_uninstall(node_ip=ONOS2_ip)
- main.ONOSbench.onos_uninstall(node_ip=ONOS3_ip)
- main.ONOSbench.onos_uninstall(node_ip=ONOS4_ip)
- main.ONOSbench.onos_uninstall(node_ip=ONOS5_ip)
- main.ONOSbench.onos_uninstall(node_ip=ONOS6_ip)
- main.ONOSbench.onos_uninstall(node_ip=ONOS7_ip)
-
- main.step("Creating cell file")
- cell_file_result = main.ONOSbench.create_cell_file(
- BENCH_ip, cell_name, MN1_ip, "onos-core,onos-app-metrics",
- ONOS1_ip)
-
- main.step("Applying cell file to environment")
- cell_apply_result = main.ONOSbench.set_cell(cell_name)
- verify_cell_result = main.ONOSbench.verify_cell()
-
- #NOTE: This step may be removed after proper
- # copy cat log functionality
- main.step("Removing raft/copy-cat logs from ONOS nodes")
- main.ONOSbench.onos_remove_raft_logs()
- time.sleep(30)
-
- main.step("Git checkout and pull "+checkout_branch)
- if git_pull == 'on':
- checkout_result = \
- main.ONOSbench.git_checkout(checkout_branch)
- pull_result = main.ONOSbench.git_pull()
- else:
- checkout_result = main.TRUE
- pull_result = main.TRUE
- main.log.info("Skipped git checkout and pull")
-
- main.log.report("Commit information - ")
- main.ONOSbench.get_version(report=True)
-
- main.step("Using mvn clean & install")
- mvn_result = main.ONOSbench.clean_install()
- mvn_result = main.TRUE
-
- main.step("Set cell for ONOS cli env")
- main.ONOS1cli.set_cell(cell_name)
- #main.ONOS2cli.set_cell(cell_name)
- #main.ONOS3cli.set_cell(cell_name)
-
- main.step("Creating ONOS package")
- package_result = main.ONOSbench.onos_package()
-
- main.step("Installing ONOS package")
- install1_result = main.ONOSbench.onos_install(node=ONOS1_ip)
- #install2_result = main.ONOSbench.onos_install(node=ONOS2_ip)
- #install3_result = main.ONOSbench.onos_install(node=ONOS3_ip)
-
- time.sleep(10)
-
- main.step("Start onos cli")
- cli1 = main.ONOS1cli.start_onos_cli(ONOS1_ip)
- #cli2 = main.ONOS2cli.start_onos_cli(ONOS2_ip)
- #cli3 = main.ONOS3cli.start_onos_cli(ONOS3_ip)
-
- utilities.assert_equals(expect=main.TRUE,
- actual= cell_file_result and cell_apply_result and\
- verify_cell_result and checkout_result and\
- pull_result and mvn_result and\
- install1_result, #and install2_result and\
- #install3_result,
- onpass="Test Environment setup successful",
- onfail="Failed to setup test environment")
-
- def CASE2(self, main):
- '''
- Assign s1 to ONOS1 and measure latency
-
- There are 4 levels of latency measurements to this test:
- 1) End-to-end measurement: Complete end-to-end measurement
- from TCP (SYN/ACK) handshake to Graph change
- 2) OFP-to-graph measurement: 'ONOS processing' snippet of
- measurement from OFP Vendor message to Graph change
- 3) OFP-to-device measurement: 'ONOS processing without
- graph change' snippet of measurement from OFP vendor
- message to Device change timestamp
- 4) T0-to-device measurement: Measurement that includes
- the switch handshake to devices timestamp without
- the graph view change. (TCP handshake -> Device
- change)
- '''
- import time
- import subprocess
- import json
- import requests
- import os
- import numpy
- global cluster_count
-
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS3_ip = main.params['CTRL']['ip3']
- ONOS4_ip = main.params['CTRL']['ip4']
- ONOS5_ip = main.params['CTRL']['ip5']
- ONOS6_ip = main.params['CTRL']['ip6']
- ONOS7_ip = main.params['CTRL']['ip7']
-
- ONOS_user = main.params['CTRL']['user']
-
- default_sw_port = main.params['CTRL']['port1']
-
- #Number of iterations of case
- num_iter = main.params['TEST']['numIter']
- #Number of first 'x' iterations to ignore:
- iter_ignore = int(main.params['TEST']['iterIgnore'])
-
- #Timestamp 'keys' for json metrics output.
- #These are subject to change, hence moved into params
- deviceTimestamp = main.params['JSON']['deviceTimestamp']
- graphTimestamp = main.params['JSON']['graphTimestamp']
-
- debug_mode = main.params['TEST']['debugMode']
- onos_log = main.params['TEST']['onosLogFile']
-
- #Threshold for the test
- threshold_str = main.params['TEST']['singleSwThreshold']
- threshold_obj = threshold_str.split(",")
- threshold_min = int(threshold_obj[0])
- threshold_max = int(threshold_obj[1])
-
- #List of switch add latency collected from
- #all iterations
- latency_end_to_end_list = []
- latency_ofp_to_graph_list = []
- latency_ofp_to_device_list = []
- latency_t0_to_device_list = []
- latency_tcp_to_ofp_list = []
-
- #Directory/file to store tshark results
- tshark_of_output = "/tmp/tshark_of_topo.txt"
- tshark_tcp_output = "/tmp/tshark_tcp_topo.txt"
-
- #String to grep in tshark output
- tshark_tcp_string = "TCP 74 "+default_sw_port
- tshark_of_string = "OFP 86 Vendor"
-
- #Initialize assertion to TRUE
- assertion = main.TRUE
-
- local_time = time.strftime('%x %X')
- local_time = local_time.replace("/","")
- local_time = local_time.replace(" ","_")
- local_time = local_time.replace(":","")
- if debug_mode == 'on':
- main.ONOS1.tshark_pcap("eth0",
- "/tmp/single_sw_lat_pcap_"+local_time)
-
- main.log.info("Debug mode is on")
-
- main.log.report("Latency of adding one switch to controller")
- main.log.report("First "+str(iter_ignore)+" iterations ignored"+
- " for jvm warmup time")
- main.log.report("Total iterations of test: "+str(num_iter))
-
- for i in range(0, int(num_iter)):
- main.log.info("Starting tshark capture")
-
- #* TCP [ACK, SYN] is used as t0_a, the
- # very first "exchange" between ONOS and
- # the switch for end-to-end measurement
- #* OFP [Stats Reply] is used for t0_b
- # the very last OFP message between ONOS
- # and the switch for ONOS measurement
- main.ONOS1.tshark_grep(tshark_tcp_string,
- tshark_tcp_output)
- main.ONOS1.tshark_grep(tshark_of_string,
- tshark_of_output)
-
- #Wait and ensure tshark is started and
- #capturing
- time.sleep(10)
-
- main.log.info("Assigning s1 to controller")
-
- main.Mininet1.assign_sw_controller(sw="1",
- ip1=ONOS1_ip, port1=default_sw_port)
-
- #Wait and ensure switch is assigned
- #before stopping tshark
- time.sleep(30)
-
- main.log.info("Stopping all Tshark processes")
- main.ONOS1.stop_tshark()
-
- #tshark output is saved in ONOS. Use subprocess
- #to copy over files to TestON for parsing
- main.log.info("Copying over tshark files")
-
- #TCP CAPTURE ****
- #Copy the tshark output from ONOS machine to
- #TestON machine in tshark_tcp_output directory>file
- os.system("scp "+ONOS_user+"@"+ONOS1_ip+":"+
- tshark_tcp_output+" /tmp/")
- tcp_file = open(tshark_tcp_output, 'r')
- temp_text = tcp_file.readline()
- temp_text = temp_text.split(" ")
-
- main.log.info("Object read in from TCP capture: "+
- str(temp_text))
- if len(temp_text) > 1:
- t0_tcp = float(temp_text[1])*1000.0
- else:
- main.log.error("Tshark output file for TCP"+
- " returned unexpected results")
- t0_tcp = 0
- assertion = main.FALSE
-
- tcp_file.close()
- #****************
-
- #OF CAPTURE ****
- os.system("scp "+ONOS_user+"@"+ONOS1_ip+":"+
- tshark_of_output+" /tmp/")
- of_file = open(tshark_of_output, 'r')
-
- line_ofp = ""
- #Read until last line of file
- while True:
- temp_text = of_file.readline()
- if temp_text !='':
- line_ofp = temp_text
- else:
- break
- obj = line_ofp.split(" ")
-
- main.log.info("Object read in from OFP capture: "+
- str(line_ofp))
-
- if len(line_ofp) > 1:
- t0_ofp = float(obj[1])*1000.0
- else:
- main.log.error("Tshark output file for OFP"+
- " returned unexpected results")
- t0_ofp = 0
- assertion = main.FALSE
-
- of_file.close()
- #****************
-
- json_str_1 = main.ONOS1cli.topology_events_metrics()
- #Initialize scale-out variables
- json_str_2 = ""
- json_str_3 = ""
- json_str_4 = ""
- json_str_5 = ""
- json_str_6 = ""
- json_str_7 = ""
-
- json_obj_1 = json.loads(json_str_1)
- json_obj_2 = json.loads(json_str_2)
- json_obj_3 = json.loads(json_str_3)
- #Initialize scale-out variables
- json_obj_4 = ""
- json_obj_5 = ""
- json_obj_6 = ""
- json_obj_7 = ""
-
- #Include scale-out measurements when applicable
- if cluster_count == 5:
- json_str_4 = main.ONOS4cli.topology_events_metrics()
- json_str_5 = main.ONOS5cli.topology_events_metrics()
-
- json_obj_4 = json.loads(json_str_4)
- json_obj_5 = json.loads(json_str_5)
- elif cluster_count == 6:
- main.log.info("TODO: create even number cluster events")
- elif cluster_count == 7:
- json_str_6 = main.ONOS6cli.topology_events_metrics()
- json_str_7 = main.ONOS7cli.topology_events_metrics()
-
- json_obj_6 = json.loads(json_str_6)
- json_obj_7 = json.loads(json_str_7)
-
- #Obtain graph timestamp. This timestsamp captures
- #the epoch time at which the topology graph was updated.
- graph_timestamp_1 = \
- json_obj_1[graphTimestamp]['value']
- graph_timestamp_2 = \
- json_obj_2[graphTimestamp]['value']
- graph_timestamp_3 = \
- json_obj_3[graphTimestamp]['value']
-
- #Obtain device timestamp. This timestamp captures
- #the epoch time at which the device event happened
- device_timestamp_1 = \
- json_obj_1[deviceTimestamp]['value']
- device_timestamp_2 = \
- json_obj_2[deviceTimestamp]['value']
- device_timestamp_3 = \
- json_obj_3[deviceTimestamp]['value']
-
- #t0 to device processing latency
- delta_device_1 = int(device_timestamp_1) - int(t0_tcp)
- delta_device_2 = int(device_timestamp_2) - int(t0_tcp)
- delta_device_3 = int(device_timestamp_3) - int(t0_tcp)
-
- #Get average of delta from all instances
- avg_delta_device = \
- (int(delta_device_1)+\
- int(delta_device_2)+\
- int(delta_device_3)) / 3
-
- #Ensure avg delta meets the threshold before appending
- if avg_delta_device > 0.0 and avg_delta_device < 10000\
- and int(i) > iter_ignore:
- latency_t0_to_device_list.append(avg_delta_device)
- else:
- main.log.info("Results for t0-to-device ignored"+\
- "due to excess in threshold / warmup iteration.")
-
- #t0 to graph processing latency (end-to-end)
- delta_graph_1 = int(graph_timestamp_1) - int(t0_tcp)
- delta_graph_2 = int(graph_timestamp_2) - int(t0_tcp)
- delta_graph_3 = int(graph_timestamp_3) - int(t0_tcp)
-
- #Get average of delta from all instances
- #TODO: use max delta graph
- #max_delta_graph = max(three)
- avg_delta_graph = \
- (int(delta_graph_1)+\
- int(delta_graph_2)+\
- int(delta_graph_3)) / 3
-
- #Ensure avg delta meets the threshold before appending
- if avg_delta_graph > 0.0 and avg_delta_graph < 10000\
- and int(i) > iter_ignore:
- latency_end_to_end_list.append(avg_delta_graph)
- else:
- main.log.info("Results for end-to-end ignored"+\
- "due to excess in threshold")
-
- #ofp to graph processing latency (ONOS processing)
- delta_ofp_graph_1 = int(graph_timestamp_1) - int(t0_ofp)
- delta_ofp_graph_2 = int(graph_timestamp_2) - int(t0_ofp)
- delta_ofp_graph_3 = int(graph_timestamp_3) - int(t0_ofp)
-
- avg_delta_ofp_graph = \
- (int(delta_ofp_graph_1)+\
- int(delta_ofp_graph_2)+\
- int(delta_ofp_graph_3)) / 3
-
- if avg_delta_ofp_graph > threshold_min \
- and avg_delta_ofp_graph < threshold_max\
- and int(i) > iter_ignore:
- latency_ofp_to_graph_list.append(avg_delta_ofp_graph)
- elif avg_delta_ofp_graph > (-10) and \
- avg_delta_ofp_graph < 0.0 and\
- int(i) > iter_ignore:
- main.log.info("Sub-millisecond result likely; "+
- "negative result was rounded to 0")
- #NOTE: Current metrics framework does not
- #support sub-millisecond accuracy. Therefore,
- #if the result is negative, we can reasonably
- #conclude sub-millisecond results and just
- #append the best rounded effort - 0 ms.
- latency_ofp_to_graph_list.append(0)
- else:
- main.log.info("Results for ofp-to-graph "+\
- "ignored due to excess in threshold")
-
- #ofp to device processing latency (ONOS processing)
- delta_ofp_device_1 = float(device_timestamp_1) - float(t0_ofp)
- delta_ofp_device_2 = float(device_timestamp_2) - float(t0_ofp)
- delta_ofp_device_3 = float(device_timestamp_3) - float(t0_ofp)
-
- avg_delta_ofp_device = \
- (float(delta_ofp_device_1)+\
- float(delta_ofp_device_2)+\
- float(delta_ofp_device_3)) / 3
-
- #NOTE: ofp - delta measurements are occasionally negative
- # due to system time misalignment.
- latency_ofp_to_device_list.append(avg_delta_ofp_device)
-
- delta_ofp_tcp = int(t0_ofp) - int(t0_tcp)
- if delta_ofp_tcp > threshold_min \
- and delta_ofp_tcp < threshold_max and\
- int(i) > iter_ignore:
- latency_tcp_to_ofp_list.append(delta_ofp_tcp)
- else:
- main.log.info("Results fo tcp-to-ofp "+\
- "ignored due to excess in threshold")
-
- #TODO:
- #Fetch logs upon threshold excess
-
- main.log.info("ONOS1 delta end-to-end: "+
- str(delta_graph_1) + " ms")
- main.log.info("ONOS2 delta end-to-end: "+
- str(delta_graph_2) + " ms")
- main.log.info("ONOS3 delta end-to-end: "+
- str(delta_graph_3) + " ms")
-
- main.log.info("ONOS1 delta OFP - graph: "+
- str(delta_ofp_graph_1) + " ms")
- main.log.info("ONOS2 delta OFP - graph: "+
- str(delta_ofp_graph_2) + " ms")
- main.log.info("ONOS3 delta OFP - graph: "+
- str(delta_ofp_graph_3) + " ms")
-
- main.log.info("ONOS1 delta device - t0: "+
- str(delta_device_1) + " ms")
- main.log.info("ONOS2 delta device - t0: "+
- str(delta_device_2) + " ms")
- main.log.info("ONOS3 delta device - t0: "+
- str(delta_device_3) + " ms")
-
- main.log.info("TCP to OFP delta: "+
- str(delta_ofp_tcp) + " ms")
- #main.log.info("ONOS1 delta OFP - device: "+
- # str(delta_ofp_device_1) + " ms")
- #main.log.info("ONOS2 delta OFP - device: "+
- # str(delta_ofp_device_2) + " ms")
- #main.log.info("ONOS3 delta OFP - device: "+
- # str(delta_ofp_device_3) + " ms")
-
- main.step("Remove switch from controller")
- main.Mininet1.delete_sw_controller("s1")
-
- time.sleep(5)
-
- #END of for loop iteration
-
- #If there is at least 1 element in each list,
- #pass the test case
- if len(latency_end_to_end_list) > 0 and\
- len(latency_ofp_to_graph_list) > 0 and\
- len(latency_ofp_to_device_list) > 0 and\
- len(latency_t0_to_device_list) > 0 and\
- len(latency_tcp_to_ofp_list) > 0:
- assertion = main.TRUE
- elif len(latency_end_to_end_list) == 0:
- #The appending of 0 here is to prevent
- #the min,max,sum functions from failing
- #below
- latency_end_to_end_list.append(0)
- assertion = main.FALSE
- elif len(latency_ofp_to_graph_list) == 0:
- latency_ofp_to_graph_list.append(0)
- assertion = main.FALSE
- elif len(latency_ofp_to_device_list) == 0:
- latency_ofp_to_device_list.append(0)
- assertion = main.FALSE
- elif len(latency_t0_to_device_list) == 0:
- latency_t0_to_device_list.append(0)
- assertion = main.FALSE
- elif len(latency_tcp_to_ofp_list) == 0:
- latency_tcp_to_ofp_list.append(0)
- assertion = main.FALSE
-
- #Calculate min, max, avg of latency lists
- latency_end_to_end_max = \
- int(max(latency_end_to_end_list))
- latency_end_to_end_min = \
- int(min(latency_end_to_end_list))
- latency_end_to_end_avg = \
- (int(sum(latency_end_to_end_list)) / \
- len(latency_end_to_end_list))
- latency_end_to_end_std_dev = \
- str(round(numpy.std(latency_end_to_end_list),1))
-
- latency_ofp_to_graph_max = \
- int(max(latency_ofp_to_graph_list))
- latency_ofp_to_graph_min = \
- int(min(latency_ofp_to_graph_list))
- latency_ofp_to_graph_avg = \
- (int(sum(latency_ofp_to_graph_list)) / \
- len(latency_ofp_to_graph_list))
- latency_ofp_to_graph_std_dev = \
- str(round(numpy.std(latency_ofp_to_graph_list),1))
-
- latency_ofp_to_device_max = \
- int(max(latency_ofp_to_device_list))
- latency_ofp_to_device_min = \
- int(min(latency_ofp_to_device_list))
- latency_ofp_to_device_avg = \
- (int(sum(latency_ofp_to_device_list)) / \
- len(latency_ofp_to_device_list))
- latency_ofp_to_device_std_dev = \
- str(round(numpy.std(latency_ofp_to_device_list),1))
-
- latency_t0_to_device_max = \
- int(max(latency_t0_to_device_list))
- latency_t0_to_device_min = \
- int(min(latency_t0_to_device_list))
- latency_t0_to_device_avg = \
- (int(sum(latency_t0_to_device_list)) / \
- len(latency_t0_to_device_list))
- latency_ofp_to_device_std_dev = \
- str(round(numpy.std(latency_t0_to_device_list),1))
-
- latency_tcp_to_ofp_max = \
- int(max(latency_tcp_to_ofp_list))
- latency_tcp_to_ofp_min = \
- int(min(latency_tcp_to_ofp_list))
- latency_tcp_to_ofp_avg = \
- (int(sum(latency_tcp_to_ofp_list)) / \
- len(latency_tcp_to_ofp_list))
- latency_tcp_to_ofp_std_dev = \
- str(round(numpy.std(latency_tcp_to_ofp_list),1))
-
- main.log.report("Switch add - End-to-end latency: "+\
- "Avg: "+str(latency_end_to_end_avg)+" ms "+
- "Std Deviation: "+latency_end_to_end_std_dev+" ms")
- main.log.report("Switch add - OFP-to-Graph latency: "+\
- "Note: results are not accurate to sub-millisecond. "+
- "Any sub-millisecond results are rounded to 0 ms. ")
- main.log.report("Avg: "+str(latency_ofp_to_graph_avg)+" ms "+
- "Std Deviation: "+latency_ofp_to_graph_std_dev+" ms")
- main.log.report("Switch add - TCP-to-OFP latency: "+\
- "Avg: "+str(latency_tcp_to_ofp_avg)+" ms "+
- "Std Deviation: "+latency_tcp_to_ofp_std_dev+" ms")
-
- if debug_mode == 'on':
- main.ONOS1.cp_logs_to_dir("/opt/onos/log/karaf.log",
- "/tmp/", copy_file_name="sw_lat_karaf")
-
- utilities.assert_equals(expect=main.TRUE, actual=assertion,
- onpass="Switch latency test successful",
- onfail="Switch latency test failed")
-
- def CASE3(self, main):
- '''
- Bring port up / down and measure latency.
- Port enable / disable is simulated by ifconfig up / down
-
- In ONOS-next, we must ensure that the port we are
- manipulating is connected to another switch with a valid
- connection. Otherwise, graph view will not be updated.
- '''
- import time
- import subprocess
- import os
- import requests
- import json
- import numpy
-
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS3_ip = main.params['CTRL']['ip3']
- ONOS_user = main.params['CTRL']['user']
-
- default_sw_port = main.params['CTRL']['port1']
-
- assertion = main.TRUE
- #Number of iterations of case
- num_iter = main.params['TEST']['numIter']
-
- #Timestamp 'keys' for json metrics output.
- #These are subject to change, hence moved into params
- deviceTimestamp = main.params['JSON']['deviceTimestamp']
- graphTimestamp = main.params['JSON']['graphTimestamp']
-
- debug_mode = main.params['TEST']['debugMode']
-
- local_time = time.strftime('%x %X')
- local_time = local_time.replace("/","")
- local_time = local_time.replace(" ","_")
- local_time = local_time.replace(":","")
- if debug_mode == 'on':
- main.ONOS1.tshark_pcap("eth0",
- "/tmp/port_lat_pcap_"+local_time)
-
- #Threshold for this test case
- up_threshold_str = main.params['TEST']['portUpThreshold']
- down_threshold_str = main.params['TEST']['portDownThreshold']
-
- up_threshold_obj = up_threshold_str.split(",")
- down_threshold_obj = down_threshold_str.split(",")
-
- up_threshold_min = int(up_threshold_obj[0])
- up_threshold_max = int(up_threshold_obj[1])
-
- down_threshold_min = int(down_threshold_obj[0])
- down_threshold_max = int(down_threshold_obj[1])
-
- #NOTE: Some hardcoded variables you may need to configure
- # besides the params
-
- tshark_port_status = "OFP 130 Port Status"
-
- tshark_port_up = "/tmp/tshark_port_up.txt"
- tshark_port_down = "/tmp/tshark_port_down.txt"
- interface_config = "s1-eth1"
-
- main.log.report("Port enable / disable latency")
- main.log.report("Simulated by ifconfig up / down")
- main.log.report("Total iterations of test: "+str(num_iter))
-
- main.step("Assign switches s1 and s2 to controller 1")
- main.Mininet1.assign_sw_controller(sw="1",ip1=ONOS1_ip,
- port1=default_sw_port)
- main.Mininet1.assign_sw_controller(sw="2",ip1=ONOS1_ip,
- port1=default_sw_port)
-
- #Give enough time for metrics to propagate the
- #assign controller event. Otherwise, these events may
- #carry over to our measurements
- time.sleep(15)
-
- port_up_device_to_ofp_list = []
- port_up_graph_to_ofp_list = []
- port_down_device_to_ofp_list = []
- port_down_graph_to_ofp_list = []
-
- for i in range(0, int(num_iter)):
- main.step("Starting wireshark capture for port status down")
- main.ONOS1.tshark_grep(tshark_port_status,
- tshark_port_down)
-
- time.sleep(5)
-
- #Disable interface that is connected to switch 2
- main.step("Disable port: "+interface_config)
- main.Mininet1.handle.sendline("sh ifconfig "+
- interface_config+" down")
- main.Mininet1.handle.expect("mininet>")
-
- time.sleep(3)
- main.ONOS1.tshark_stop()
-
- main.step("Obtain t1 by metrics call")
- json_str_up_1 = main.ONOS1cli.topology_events_metrics()
- json_str_up_2 = main.ONOS2cli.topology_events_metrics()
- json_str_up_3 = main.ONOS3cli.topology_events_metrics()
-
- json_obj_1 = json.loads(json_str_up_1)
- json_obj_2 = json.loads(json_str_up_2)
- json_obj_3 = json.loads(json_str_up_3)
-
- #Copy tshark output file from ONOS to TestON instance
- #/tmp directory
- os.system("scp "+ONOS_user+"@"+ONOS1_ip+":"+
- tshark_port_down+" /tmp/")
-
- f_port_down = open(tshark_port_down, 'r')
- #Get first line of port down event from tshark
- f_line = f_port_down.readline()
- obj_down = f_line.split(" ")
- if len(f_line) > 0:
- timestamp_begin_pt_down = int(float(obj_down[1])*1000)
- main.log.info("Port down begin timestamp: "+
- str(timestamp_begin_pt_down))
- else:
- main.log.info("Tshark output file returned unexpected"+
- " results: "+str(obj_down))
- timestamp_begin_pt_down = 0
-
- f_port_down.close()
-
- main.log.info("TEST tshark obj: "+str(obj_down))
-
- time.sleep(3)
-
- #Obtain graph timestamp. This timestsamp captures
- #the epoch time at which the topology graph was updated.
- graph_timestamp_1 = \
- json_obj_1[graphTimestamp]['value']
- graph_timestamp_2 = \
- json_obj_2[graphTimestamp]['value']
- graph_timestamp_3 = \
- json_obj_3[graphTimestamp]['value']
-
- main.log.info("TEST graph timestamp ONOS1: "+
- str(graph_timestamp_1))
-
- #Obtain device timestamp. This timestamp captures
- #the epoch time at which the device event happened
- device_timestamp_1 = \
- json_obj_1[deviceTimestamp]['value']
- device_timestamp_2 = \
- json_obj_2[deviceTimestamp]['value']
- device_timestamp_3 = \
- json_obj_3[deviceTimestamp]['value']
-
- #Get delta between graph event and OFP
- pt_down_graph_to_ofp_1 = int(graph_timestamp_1) -\
- int(timestamp_begin_pt_down)
- pt_down_graph_to_ofp_2 = int(graph_timestamp_2) -\
- int(timestamp_begin_pt_down)
- pt_down_graph_to_ofp_3 = int(graph_timestamp_3) -\
- int(timestamp_begin_pt_down)
-
- #Get delta between device event and OFP
- pt_down_device_to_ofp_1 = int(device_timestamp_1) -\
- int(timestamp_begin_pt_down)
- pt_down_device_to_ofp_2 = int(device_timestamp_2) -\
- int(timestamp_begin_pt_down)
- pt_down_device_to_ofp_3 = int(device_timestamp_3) -\
- int(timestamp_begin_pt_down)
-
- #Caluclate average across clusters
- pt_down_graph_to_ofp_avg =\
- (int(pt_down_graph_to_ofp_1) +
- int(pt_down_graph_to_ofp_2) +
- int(pt_down_graph_to_ofp_3)) / 3
- pt_down_device_to_ofp_avg = \
- (int(pt_down_device_to_ofp_1) +
- int(pt_down_device_to_ofp_2) +
- int(pt_down_device_to_ofp_3)) / 3
-
- if pt_down_graph_to_ofp_avg > down_threshold_min and \
- pt_down_graph_to_ofp_avg < down_threshold_max:
- port_down_graph_to_ofp_list.append(
- pt_down_graph_to_ofp_avg)
- main.log.info("Port down: graph to ofp avg: "+
- str(pt_down_graph_to_ofp_avg) + " ms")
- else:
- main.log.info("Average port down graph-to-ofp result" +
- " exceeded the threshold: "+
- str(pt_down_graph_to_ofp_avg))
-
- if pt_down_device_to_ofp_avg > 0 and \
- pt_down_device_to_ofp_avg < 1000:
- port_down_device_to_ofp_list.append(
- pt_down_device_to_ofp_avg)
- main.log.info("Port down: device to ofp avg: "+
- str(pt_down_device_to_ofp_avg) + " ms")
- else:
- main.log.info("Average port down device-to-ofp result" +
- " exceeded the threshold: "+
- str(pt_down_device_to_ofp_avg))
-
- #Port up events
- main.step("Enable port and obtain timestamp")
- main.step("Starting wireshark capture for port status up")
- main.ONOS1.tshark_grep(tshark_port_status, tshark_port_up)
- time.sleep(5)
-
- main.Mininet1.handle.sendline("sh ifconfig "+
- interface_config+" up")
- main.Mininet1.handle.expect("mininet>")
-
- #Allow time for tshark to capture event
- time.sleep(3)
- main.ONOS1.tshark_stop()
-
- #Obtain metrics shortly afterwards
- #This timestsamp captures
- #the epoch time at which the topology graph was updated.
- main.step("Obtain t1 by REST call")
- json_str_up_1 = main.ONOS1cli.topology_events_metrics()
- json_str_up_2 = main.ONOS2cli.topology_events_metrics()
- json_str_up_3 = main.ONOS3cli.topology_events_metrics()
-
- json_obj_1 = json.loads(json_str_up_1)
- json_obj_2 = json.loads(json_str_up_2)
- json_obj_3 = json.loads(json_str_up_3)
-
- os.system("scp "+ONOS_user+"@"+ONOS1_ip+":"+
- tshark_port_up+" /tmp/")
-
- f_port_up = open(tshark_port_up, 'r')
- f_line = f_port_up.readline()
- obj_up = f_line.split(" ")
- if len(f_line) > 0:
- timestamp_begin_pt_up = int(float(obj_up[1])*1000)
- main.log.info("Port up begin timestamp: "+
- str(timestamp_begin_pt_up))
- else:
- main.log.info("Tshark output file returned unexpected"+
- " results.")
- timestamp_begin_pt_up = 0
-
- f_port_up.close()
-
- graph_timestamp_1 = \
- json_obj_1[graphTimestamp]['value']
- graph_timestamp_2 = \
- json_obj_2[graphTimestamp]['value']
- graph_timestamp_3 = \
- json_obj_3[graphTimestamp]['value']
-
- #Obtain device timestamp. This timestamp captures
- #the epoch time at which the device event happened
- device_timestamp_1 = \
- json_obj_1[deviceTimestamp]['value']
- device_timestamp_2 = \
- json_obj_2[deviceTimestamp]['value']
- device_timestamp_3 = \
- json_obj_3[deviceTimestamp]['value']
-
- #Get delta between graph event and OFP
- pt_up_graph_to_ofp_1 = int(graph_timestamp_1) -\
- int(timestamp_begin_pt_up)
- pt_up_graph_to_ofp_2 = int(graph_timestamp_2) -\
- int(timestamp_begin_pt_up)
- pt_up_graph_to_ofp_3 = int(graph_timestamp_3) -\
- int(timestamp_begin_pt_up)
-
- #Get delta between device event and OFP
- pt_up_device_to_ofp_1 = int(device_timestamp_1) -\
- int(timestamp_begin_pt_up)
- pt_up_device_to_ofp_2 = int(device_timestamp_2) -\
- int(timestamp_begin_pt_up)
- pt_up_device_to_ofp_3 = int(device_timestamp_3) -\
- int(timestamp_begin_pt_up)
-
- main.log.info("ONOS1 delta G2O: "+str(pt_up_graph_to_ofp_1))
- main.log.info("ONOS2 delta G2O: "+str(pt_up_graph_to_ofp_2))
- main.log.info("ONOS3 delta G2O: "+str(pt_up_graph_to_ofp_3))
-
- main.log.info("ONOS1 delta D2O: "+str(pt_up_device_to_ofp_1))
- main.log.info("ONOS2 delta D2O: "+str(pt_up_device_to_ofp_2))
- main.log.info("ONOS3 delta D2O: "+str(pt_up_device_to_ofp_3))
-
- pt_up_graph_to_ofp_avg = \
- (int(pt_up_graph_to_ofp_1) +
- int(pt_up_graph_to_ofp_2) +
- int(pt_up_graph_to_ofp_3)) / 3
-
- pt_up_device_to_ofp_avg = \
- (int(pt_up_device_to_ofp_1) +
- int(pt_up_device_to_ofp_2) +
- int(pt_up_device_to_ofp_3)) / 3
-
- if pt_up_graph_to_ofp_avg > up_threshold_min and \
- pt_up_graph_to_ofp_avg < up_threshold_max:
- port_up_graph_to_ofp_list.append(
- pt_up_graph_to_ofp_avg)
- main.log.info("Port down: graph to ofp avg: "+
- str(pt_up_graph_to_ofp_avg) + " ms")
- else:
- main.log.info("Average port up graph-to-ofp result"+
- " exceeded the threshold: "+
- str(pt_up_graph_to_ofp_avg))
-
- if pt_up_device_to_ofp_avg > up_threshold_min and \
- pt_up_device_to_ofp_avg < up_threshold_max:
- port_up_device_to_ofp_list.append(
- pt_up_device_to_ofp_avg)
- main.log.info("Port up: device to ofp avg: "+
- str(pt_up_device_to_ofp_avg) + " ms")
- else:
- main.log.info("Average port up device-to-ofp result"+
- " exceeded the threshold: "+
- str(pt_up_device_to_ofp_avg))
-
- #END ITERATION FOR LOOP
-
- #Check all list for latency existence and set assertion
- if (port_down_graph_to_ofp_list and port_down_device_to_ofp_list\
- and port_up_graph_to_ofp_list and port_up_device_to_ofp_list):
- assertion = main.TRUE
-
- #Calculate and report latency measurements
- port_down_graph_to_ofp_min = min(port_down_graph_to_ofp_list)
- port_down_graph_to_ofp_max = max(port_down_graph_to_ofp_list)
- port_down_graph_to_ofp_avg = \
- (sum(port_down_graph_to_ofp_list) /
- len(port_down_graph_to_ofp_list))
- port_down_graph_to_ofp_std_dev = \
- str(round(numpy.std(port_down_graph_to_ofp_list),1))
-
- main.log.report("Port down graph-to-ofp "+
- "Avg: "+str(port_down_graph_to_ofp_avg)+" ms "+
- "Std Deviation: "+port_down_graph_to_ofp_std_dev+" ms")
-
- port_down_device_to_ofp_min = min(port_down_device_to_ofp_list)
- port_down_device_to_ofp_max = max(port_down_device_to_ofp_list)
- port_down_device_to_ofp_avg = \
- (sum(port_down_device_to_ofp_list) /\
- len(port_down_device_to_ofp_list))
- port_down_device_to_ofp_std_dev = \
- str(round(numpy.std(port_down_device_to_ofp_list),1))
-
- main.log.report("Port down device-to-ofp "+
- "Avg: "+str(port_down_device_to_ofp_avg)+" ms "+
- "Std Deviation: "+port_down_device_to_ofp_std_dev+" ms")
-
- port_up_graph_to_ofp_min = min(port_up_graph_to_ofp_list)
- port_up_graph_to_ofp_max = max(port_up_graph_to_ofp_list)
- port_up_graph_to_ofp_avg = \
- (sum(port_up_graph_to_ofp_list) /\
- len(port_up_graph_to_ofp_list))
- port_up_graph_to_ofp_std_dev = \
- str(round(numpy.std(port_up_graph_to_ofp_list),1))
-
- main.log.report("Port up graph-to-ofp "+
- "Avg: "+str(port_up_graph_to_ofp_avg)+" ms "+
- "Std Deviation: "+port_up_graph_to_ofp_std_dev+" ms")
-
- port_up_device_to_ofp_min = min(port_up_device_to_ofp_list)
- port_up_device_to_ofp_max = max(port_up_device_to_ofp_list)
- port_up_device_to_ofp_avg = \
- (sum(port_up_device_to_ofp_list) /\
- len(port_up_device_to_ofp_list))
- port_up_device_to_ofp_std_dev = \
- str(round(numpy.std(port_up_device_to_ofp_list),1))
-
- main.log.report("Port up device-to-ofp "+
- "Avg: "+str(port_up_device_to_ofp_avg)+" ms "+
- "Std Deviation: "+port_up_device_to_ofp_std_dev+" ms")
-
- utilities.assert_equals(expect=main.TRUE, actual=assertion,
- onpass="Port discovery latency calculation successful",
- onfail="Port discovery test failed")
-
- def CASE4(self, main):
- '''
- Link down event using loss rate 100%
-
- Important:
- Use a simple 2 switch topology with 1 link between
- the two switches. Ensure that mac addresses of the
- switches are 1 / 2 respectively
- '''
- import time
- import subprocess
- import os
- import requests
- import json
- import numpy
-
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS3_ip = main.params['CTRL']['ip3']
- ONOS_user = main.params['CTRL']['user']
-
- default_sw_port = main.params['CTRL']['port1']
-
- #Number of iterations of case
- num_iter = main.params['TEST']['numIter']
-
- #Timestamp 'keys' for json metrics output.
- #These are subject to change, hence moved into params
- deviceTimestamp = main.params['JSON']['deviceTimestamp']
- linkTimestamp = main.params['JSON']['linkTimestamp']
- graphTimestamp = main.params['JSON']['graphTimestamp']
-
- debug_mode = main.params['TEST']['debugMode']
-
- local_time = time.strftime('%x %X')
- local_time = local_time.replace("/","")
- local_time = local_time.replace(" ","_")
- local_time = local_time.replace(":","")
- if debug_mode == 'on':
- main.ONOS1.tshark_pcap("eth0",
- "/tmp/link_lat_pcap_"+local_time)
-
- #Threshold for this test case
- up_threshold_str = main.params['TEST']['linkUpThreshold']
- down_threshold_str = main.params['TEST']['linkDownThreshold']
-
- up_threshold_obj = up_threshold_str.split(",")
- down_threshold_obj = down_threshold_str.split(",")
-
- up_threshold_min = int(up_threshold_obj[0])
- up_threshold_max = int(up_threshold_obj[1])
-
- down_threshold_min = int(down_threshold_obj[0])
- down_threshold_max = int(down_threshold_obj[1])
-
- assertion = main.TRUE
- #Link event timestamp to system time list
- link_down_link_to_system_list = []
- link_up_link_to_system_list = []
- #Graph event timestamp to system time list
- link_down_graph_to_system_list = []
- link_up_graph_to_system_list = []
-
- main.log.report("Link up / down discovery latency between "+
- "two switches")
- main.log.report("Simulated by setting loss-rate 100%")
- main.log.report("'tc qdisc add dev <intfs> root netem loss 100%'")
- main.log.report("Total iterations of test: "+str(num_iter))
-
- main.step("Assign all switches")
- main.Mininet1.assign_sw_controller(sw="1",
- ip1=ONOS1_ip, port1=default_sw_port)
- main.Mininet1.assign_sw_controller(sw="2",
- ip1=ONOS1_ip, port1=default_sw_port)
-
- main.step("Verifying switch assignment")
- result_s1 = main.Mininet1.get_sw_controller(sw="s1")
- result_s2 = main.Mininet1.get_sw_controller(sw="s2")
-
- #Allow time for events to finish before taking measurements
- time.sleep(10)
-
- link_down1 = False
- link_down2 = False
- link_down3 = False
- #Start iteration of link event test
- for i in range(0, int(num_iter)):
- main.step("Getting initial system time as t0")
-
- #System time in epoch ms
- timestamp_link_down_t0 = time.time() * 1000
- #Link down is simulated by 100% loss rate using traffic
- #control command
- main.Mininet1.handle.sendline(
- "sh tc qdisc add dev s1-eth1 root netem loss 100%")
-
- #TODO: Iterate through 'links' command to verify that
- # link s1 -> s2 went down (loop timeout 30 seconds)
- # on all 3 ONOS instances
- main.log.info("Checking ONOS for link update")
- loop_count = 0
- while( not (link_down1 and link_down2 and link_down3)\
- and loop_count < 30 ):
- json_str1 = main.ONOS1cli.links()
- json_str2 = main.ONOS2cli.links()
- json_str3 = main.ONOS3cli.links()
-
- if not (json_str1 and json_str2 and json_str3):
- main.log.error("CLI command returned error ")
- break
- else:
- json_obj1 = json.loads(json_str1)
- json_obj2 = json.loads(json_str2)
- json_obj3 = json.loads(json_str3)
- for obj1 in json_obj1:
- if '01' not in obj1['src']['device']:
- link_down1 = True
- main.log.info("Link down from "+
- "s1 -> s2 on ONOS1 detected")
- for obj2 in json_obj2:
- if '01' not in obj2['src']['device']:
- link_down2 = True
- main.log.info("Link down from "+
- "s1 -> s2 on ONOS2 detected")
- for obj3 in json_obj3:
- if '01' not in obj3['src']['device']:
- link_down3 = True
- main.log.info("Link down from "+
- "s1 -> s2 on ONOS3 detected")
-
- loop_count += 1
- #If CLI doesn't like the continuous requests
- #and exits in this loop, increase the sleep here.
- #Consequently, while loop timeout will increase
- time.sleep(1)
-
- #Give time for metrics measurement to catch up
- #NOTE: May need to be configured more accurately
- time.sleep(10)
- #If we exited the while loop and link down 1,2,3 are still
- #false, then ONOS has failed to discover link down event
- if not (link_down1 and link_down2 and link_down3):
- main.log.info("Link down discovery failed")
-
- link_down_lat_graph1 = 0
- link_down_lat_graph2 = 0
- link_down_lat_graph3 = 0
- link_down_lat_device1 = 0
- link_down_lat_device2 = 0
- link_down_lat_device3 = 0
-
- assertion = main.FALSE
- else:
- json_topo_metrics_1 =\
- main.ONOS1cli.topology_events_metrics()
- json_topo_metrics_2 =\
- main.ONOS2cli.topology_events_metrics()
- json_topo_metrics_3 =\
- main.ONOS3cli.topology_events_metrics()
- json_topo_metrics_1 = json.loads(json_topo_metrics_1)
- json_topo_metrics_2 = json.loads(json_topo_metrics_2)
- json_topo_metrics_3 = json.loads(json_topo_metrics_3)
-
- main.log.info("Obtaining graph and device timestamp")
- graph_timestamp_1 = \
- json_topo_metrics_1[graphTimestamp]['value']
- graph_timestamp_2 = \
- json_topo_metrics_2[graphTimestamp]['value']
- graph_timestamp_3 = \
- json_topo_metrics_3[graphTimestamp]['value']
-
- link_timestamp_1 = \
- json_topo_metrics_1[linkTimestamp]['value']
- link_timestamp_2 = \
- json_topo_metrics_2[linkTimestamp]['value']
- link_timestamp_3 = \
- json_topo_metrics_3[linkTimestamp]['value']
-
- if graph_timestamp_1 and graph_timestamp_2 and\
- graph_timestamp_3 and link_timestamp_1 and\
- link_timestamp_2 and link_timestamp_3:
- link_down_lat_graph1 = int(graph_timestamp_1) -\
- int(timestamp_link_down_t0)
- link_down_lat_graph2 = int(graph_timestamp_2) -\
- int(timestamp_link_down_t0)
- link_down_lat_graph3 = int(graph_timestamp_3) -\
- int(timestamp_link_down_t0)
-
- link_down_lat_link1 = int(link_timestamp_1) -\
- int(timestamp_link_down_t0)
- link_down_lat_link2 = int(link_timestamp_2) -\
- int(timestamp_link_down_t0)
- link_down_lat_link3 = int(link_timestamp_3) -\
- int(timestamp_link_down_t0)
- else:
- main.log.error("There was an error calculating"+
- " the delta for link down event")
- link_down_lat_graph1 = 0
- link_down_lat_graph2 = 0
- link_down_lat_graph3 = 0
-
- link_down_lat_device1 = 0
- link_down_lat_device2 = 0
- link_down_lat_device3 = 0
-
- main.log.info("Link down latency ONOS1 iteration "+
- str(i)+" (end-to-end): "+
- str(link_down_lat_graph1)+" ms")
- main.log.info("Link down latency ONOS2 iteration "+
- str(i)+" (end-to-end): "+
- str(link_down_lat_graph2)+" ms")
- main.log.info("Link down latency ONOS3 iteration "+
- str(i)+" (end-to-end): "+
- str(link_down_lat_graph3)+" ms")
-
- main.log.info("Link down latency ONOS1 iteration "+
- str(i)+" (link-event-to-system-timestamp): "+
- str(link_down_lat_link1)+" ms")
- main.log.info("Link down latency ONOS2 iteration "+
- str(i)+" (link-event-to-system-timestamp): "+
- str(link_down_lat_link2)+" ms")
- main.log.info("Link down latency ONOS3 iteration "+
- str(i)+" (link-event-to-system-timestamp): "+
- str(link_down_lat_link3))
-
- #Calculate avg of node calculations
- link_down_lat_graph_avg =\
- (link_down_lat_graph1 +
- link_down_lat_graph2 +
- link_down_lat_graph3) / 3
- link_down_lat_link_avg =\
- (link_down_lat_link1 +
- link_down_lat_link2 +
- link_down_lat_link3) / 3
-
- #Set threshold and append latency to list
- if link_down_lat_graph_avg > down_threshold_min and\
- link_down_lat_graph_avg < down_threshold_max:
- link_down_graph_to_system_list.append(
- link_down_lat_graph_avg)
- else:
- main.log.info("Link down latency exceeded threshold")
- main.log.info("Results for iteration "+str(i)+
- "have been omitted")
- if link_down_lat_link_avg > down_threshold_min and\
- link_down_lat_link_avg < down_threshold_max:
- link_down_link_to_system_list.append(
- link_down_lat_link_avg)
- else:
- main.log.info("Link down latency exceeded threshold")
- main.log.info("Results for iteration "+str(i)+
- "have been omitted")
-
- #NOTE: To remove loss rate and measure latency:
- # 'sh tc qdisc del dev s1-eth1 root'
- timestamp_link_up_t0 = time.time() * 1000
- main.Mininet1.handle.sendline("sh tc qdisc del dev "+
- "s1-eth1 root")
- main.Mininet1.handle.expect("mininet>")
-
- main.log.info("Checking ONOS for link update")
-
- link_down1 = True
- link_down2 = True
- link_down3 = True
- loop_count = 0
- while( (link_down1 and link_down2 and link_down3)\
- and loop_count < 30 ):
- json_str1 = main.ONOS1cli.links()
- json_str2 = main.ONOS2cli.links()
- json_str3 = main.ONOS3cli.links()
- if not (json_str1 and json_str2 and json_str3):
- main.log.error("CLI command returned error ")
- break
- else:
- json_obj1 = json.loads(json_str1)
- json_obj2 = json.loads(json_str2)
- json_obj3 = json.loads(json_str3)
-
- for obj1 in json_obj1:
- if '01' in obj1['src']['device']:
- link_down1 = False
- main.log.info("Link up from "+
- "s1 -> s2 on ONOS1 detected")
- for obj2 in json_obj2:
- if '01' in obj2['src']['device']:
- link_down2 = False
- main.log.info("Link up from "+
- "s1 -> s2 on ONOS2 detected")
- for obj3 in json_obj3:
- if '01' in obj3['src']['device']:
- link_down3 = False
- main.log.info("Link up from "+
- "s1 -> s2 on ONOS3 detected")
-
- loop_count += 1
- time.sleep(1)
-
- if (link_down1 and link_down2 and link_down3):
- main.log.info("Link up discovery failed")
-
- link_up_lat_graph1 = 0
- link_up_lat_graph2 = 0
- link_up_lat_graph3 = 0
- link_up_lat_device1 = 0
- link_up_lat_device2 = 0
- link_up_lat_device3 = 0
-
- assertion = main.FALSE
- else:
- json_topo_metrics_1 =\
- main.ONOS1cli.topology_events_metrics()
- json_topo_metrics_2 =\
- main.ONOS2cli.topology_events_metrics()
- json_topo_metrics_3 =\
- main.ONOS3cli.topology_events_metrics()
- json_topo_metrics_1 = json.loads(json_topo_metrics_1)
- json_topo_metrics_2 = json.loads(json_topo_metrics_2)
- json_topo_metrics_3 = json.loads(json_topo_metrics_3)
-
- main.log.info("Obtaining graph and device timestamp")
- graph_timestamp_1 = \
- json_topo_metrics_1[graphTimestamp]['value']
- graph_timestamp_2 = \
- json_topo_metrics_2[graphTimestamp]['value']
- graph_timestamp_3 = \
- json_topo_metrics_3[graphTimestamp]['value']
-
- link_timestamp_1 = \
- json_topo_metrics_1[linkTimestamp]['value']
- link_timestamp_2 = \
- json_topo_metrics_2[linkTimestamp]['value']
- link_timestamp_3 = \
- json_topo_metrics_3[linkTimestamp]['value']
-
- if graph_timestamp_1 and graph_timestamp_2 and\
- graph_timestamp_3 and link_timestamp_1 and\
- link_timestamp_2 and link_timestamp_3:
- link_up_lat_graph1 = int(graph_timestamp_1) -\
- int(timestamp_link_up_t0)
- link_up_lat_graph2 = int(graph_timestamp_2) -\
- int(timestamp_link_up_t0)
- link_up_lat_graph3 = int(graph_timestamp_3) -\
- int(timestamp_link_up_t0)
-
- link_up_lat_link1 = int(link_timestamp_1) -\
- int(timestamp_link_up_t0)
- link_up_lat_link2 = int(link_timestamp_2) -\
- int(timestamp_link_up_t0)
- link_up_lat_link3 = int(link_timestamp_3) -\
- int(timestamp_link_up_t0)
- else:
- main.log.error("There was an error calculating"+
- " the delta for link down event")
- link_up_lat_graph1 = 0
- link_up_lat_graph2 = 0
- link_up_lat_graph3 = 0
-
- link_up_lat_device1 = 0
- link_up_lat_device2 = 0
- link_up_lat_device3 = 0
-
- if debug_mode == 'on':
- main.log.info("Link up latency ONOS1 iteration "+
- str(i)+" (end-to-end): "+
- str(link_up_lat_graph1)+" ms")
- main.log.info("Link up latency ONOS2 iteration "+
- str(i)+" (end-to-end): "+
- str(link_up_lat_graph2)+" ms")
- main.log.info("Link up latency ONOS3 iteration "+
- str(i)+" (end-to-end): "+
- str(link_up_lat_graph3)+" ms")
-
- main.log.info("Link up latency ONOS1 iteration "+
- str(i)+" (link-event-to-system-timestamp): "+
- str(link_up_lat_link1)+" ms")
- main.log.info("Link up latency ONOS2 iteration "+
- str(i)+" (link-event-to-system-timestamp): "+
- str(link_up_lat_link2)+" ms")
- main.log.info("Link up latency ONOS3 iteration "+
- str(i)+" (link-event-to-system-timestamp): "+
- str(link_up_lat_link3))
-
- #Calculate avg of node calculations
- link_up_lat_graph_avg =\
- (link_up_lat_graph1 +
- link_up_lat_graph2 +
- link_up_lat_graph3) / 3
- link_up_lat_link_avg =\
- (link_up_lat_link1 +
- link_up_lat_link2 +
- link_up_lat_link3) / 3
-
- #Set threshold and append latency to list
- if link_up_lat_graph_avg > up_threshold_min and\
- link_up_lat_graph_avg < up_threshold_max:
- link_up_graph_to_system_list.append(
- link_up_lat_graph_avg)
- else:
- main.log.info("Link up latency exceeded threshold")
- main.log.info("Results for iteration "+str(i)+
- "have been omitted")
- if link_up_lat_link_avg > up_threshold_min and\
- link_up_lat_link_avg < up_threshold_max:
- link_up_link_to_system_list.append(
- link_up_lat_link_avg)
- else:
- main.log.info("Link up latency exceeded threshold")
- main.log.info("Results for iteration "+str(i)+
- "have been omitted")
-
- #Calculate min, max, avg of list and report
- link_down_min = min(link_down_graph_to_system_list)
- link_down_max = max(link_down_graph_to_system_list)
- link_down_avg = sum(link_down_graph_to_system_list) / \
- len(link_down_graph_to_system_list)
- link_up_min = min(link_up_graph_to_system_list)
- link_up_max = max(link_up_graph_to_system_list)
- link_up_avg = sum(link_up_graph_to_system_list) / \
- len(link_up_graph_to_system_list)
- link_down_std_dev = \
- str(round(numpy.std(link_down_graph_to_system_list),1))
- link_up_std_dev = \
- str(round(numpy.std(link_up_graph_to_system_list),1))
-
- main.log.report("Link down latency " +
- "Avg: "+str(link_down_avg)+" ms "+
- "Std Deviation: "+link_down_std_dev+" ms")
- main.log.report("Link up latency "+
- "Avg: "+str(link_up_avg)+" ms "+
- "Std Deviation: "+link_up_std_dev+" ms")
-
- utilities.assert_equals(expect=main.TRUE, actual=assertion,
- onpass="Link discovery latency calculation successful",
- onfail="Link discovery latency case failed")
-
- def CASE5(self, main):
- '''
- 100 Switch discovery latency
-
- Important:
- This test case can be potentially dangerous if
- your machine has previously set iptables rules.
- One of the steps of the test case will flush
- all existing iptables rules.
- Note:
- You can specify the number of switches in the
- params file to adjust the switch discovery size
- (and specify the corresponding topology in Mininet1
- .topo file)
- '''
- import time
- import subprocess
- import os
- import requests
- import json
-
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS3_ip = main.params['CTRL']['ip3']
- MN1_ip = main.params['MN']['ip1']
- ONOS_user = main.params['CTRL']['user']
-
- default_sw_port = main.params['CTRL']['port1']
-
- #Number of iterations of case
- num_iter = main.params['TEST']['numIter']
- num_sw = main.params['TEST']['numSwitch']
-
- #Timestamp 'keys' for json metrics output.
- #These are subject to change, hence moved into params
- deviceTimestamp = main.params['JSON']['deviceTimestamp']
- graphTimestamp = main.params['JSON']['graphTimestamp']
-
- debug_mode = main.params['TEST']['debugMode']
-
- local_time = time.strftime('%X')
- local_time = local_time.replace("/","")
- local_time = local_time.replace(" ","_")
- local_time = local_time.replace(":","")
- if debug_mode == 'on':
- main.ONOS1.tshark_pcap("eth0",
- "/tmp/100_sw_lat_pcap_"+local_time)
-
- #Threshold for this test case
- sw_disc_threshold_str = main.params['TEST']['swDisc100Threshold']
- sw_disc_threshold_obj = sw_disc_threshold_str.split(",")
- sw_disc_threshold_min = int(sw_disc_threshold_obj[0])
- sw_disc_threshold_max = int(sw_disc_threshold_obj[1])
-
- tshark_ofp_output = "/tmp/tshark_ofp_"+num_sw+"sw.txt"
- tshark_tcp_output = "/tmp/tshark_tcp_"+num_sw+"sw.txt"
-
- tshark_ofp_result_list = []
- tshark_tcp_result_list = []
-
- sw_discovery_lat_list = []
-
- main.case(num_sw+" Switch discovery latency")
- main.step("Assigning all switches to ONOS1")
- for i in range(1, int(num_sw)+1):
- main.Mininet1.assign_sw_controller(
- sw=str(i),
- ip1=ONOS1_ip,
- port1=default_sw_port)
-
- #Ensure that nodes are configured with ptpd
- #Just a warning message
- main.log.info("Please check ptpd configuration to ensure"+\
- " All nodes' system times are in sync")
- time.sleep(5)
-
- for i in range(0, int(num_iter)):
-
- main.step("Set iptables rule to block incoming sw connections")
- #Set iptables rule to block incoming switch connections
- #The rule description is as follows:
- # Append to INPUT rule,
- # behavior DROP that matches following:
- # * packet type: tcp
- # * source IP: MN1_ip
- # * destination PORT: 6633
- main.ONOS1.handle.sendline(
- "sudo iptables -A INPUT -p tcp -s "+MN1_ip+
- " --dport "+default_sw_port+" -j DROP")
- main.ONOS1.handle.expect("\$")
- # Append to OUTPUT rule,
- # behavior DROP that matches following:
- # * packet type: tcp
- # * source IP: MN1_ip
- # * destination PORT: 6633
- main.ONOS1.handle.sendline(
- "sudo iptables -A OUTPUT -p tcp -s "+MN1_ip+
- " --dport "+default_sw_port+" -j DROP")
- main.ONOS1.handle.expect("\$")
- #Give time to allow rule to take effect
- #NOTE: Sleep period may need to be configured
- # based on the number of switches in the topology
- main.log.info("Please wait for switch connection to "+
- "time out")
- time.sleep(60)
-
- #Gather vendor OFP with tshark
- main.ONOS1.tshark_grep("OFP 86 Vendor",
- tshark_ofp_output)
- main.ONOS1.tshark_grep("TCP 74 ",
- tshark_tcp_output)
-
- #NOTE: Remove all iptables rule quickly (flush)
- # Before removal, obtain TestON timestamp at which
- # removal took place
- # (ensuring nodes are configured via ptp)
- # sudo iptables -F
-
- t0_system = time.time() * 1000
- main.ONOS1.handle.sendline(
- "sudo iptables -F")
-
- #Counter to track loop count
- counter_loop = 0
- counter_avail1 = 0
- counter_avail2 = 0
- counter_avail3 = 0
- onos1_dev = False
- onos2_dev = False
- onos3_dev = False
- while counter_loop < 60:
- #Continue to check devices for all device
- #availability. When all devices in all 3
- #ONOS instances indicate that devices are available
- #obtain graph event timestamp for t1.
- device_str_obj1 = main.ONOS1cli.devices()
- device_str_obj2 = main.ONOS2cli.devices()
- device_str_obj3 = main.ONOS3cli.devices()
-
- device_json1 = json.loads(device_str_obj1)
- device_json2 = json.loads(device_str_obj2)
- device_json3 = json.loads(device_str_obj3)
-
- for device1 in device_json1:
- if device1['available'] == True:
- counter_avail1 += 1
- if counter_avail1 == int(num_sw):
- onos1_dev = True
- main.log.info("All devices have been "+
- "discovered on ONOS1")
- else:
- counter_avail1 = 0
- for device2 in device_json2:
- if device2['available'] == True:
- counter_avail2 += 1
- if counter_avail2 == int(num_sw):
- onos2_dev = True
- main.log.info("All devices have been "+
- "discovered on ONOS2")
- else:
- counter_avail2 = 0
- for device3 in device_json3:
- if device3['available'] == True:
- counter_avail3 += 1
- if counter_avail3 == int(num_sw):
- onos3_dev = True
- main.log.info("All devices have been "+
- "discovered on ONOS3")
- else:
- counter_avail3 = 0
-
- if onos1_dev and onos2_dev and onos3_dev:
- main.log.info("All devices have been discovered "+
- "on all ONOS instances")
- json_str_topology_metrics_1 =\
- main.ONOS1cli.topology_events_metrics()
- json_str_topology_metrics_2 =\
- main.ONOS2cli.topology_events_metrics()
- json_str_topology_metrics_3 =\
- main.ONOS3cli.topology_events_metrics()
-
- #Exit while loop if all devices discovered
- break
-
- counter_loop += 1
- #Give some time in between CLI calls
- #(will not affect measurement)
- time.sleep(3)
-
- main.ONOS1.tshark_stop()
-
- os.system("scp "+ONOS_user+"@"+ONOS1_ip+":"+
- tshark_ofp_output+" /tmp/")
- os.system("scp "+ONOS_user+"@"+ONOS1_ip+":"+
- tshark_tcp_output+" /tmp/")
-
- #TODO: Automate OFP output analysis
- #Debug mode - print out packets captured at runtime
- if debug_mode == 'on':
- ofp_file = open(tshark_ofp_output, 'r')
- main.log.info("Tshark OFP Vendor output: ")
- for line in ofp_file:
- tshark_ofp_result_list.append(line)
- main.log.info(line)
- ofp_file.close()
-
- tcp_file = open(tshark_tcp_output, 'r')
- main.log.info("Tshark TCP 74 output: ")
- for line in tcp_file:
- tshark_tcp_result_list.append(line)
- main.log.info(line)
- tcp_file.close()
-
- json_obj_1 = json.loads(json_str_topology_metrics_1)
- json_obj_2 = json.loads(json_str_topology_metrics_2)
- json_obj_3 = json.loads(json_str_topology_metrics_3)
-
- graph_timestamp_1 = \
- json_obj_1[graphTimestamp]['value']
- graph_timestamp_2 = \
- json_obj_2[graphTimestamp]['value']
- graph_timestamp_3 = \
- json_obj_3[graphTimestamp]['value']
-
- graph_lat_1 = int(graph_timestamp_1) - int(t0_system)
- graph_lat_2 = int(graph_timestamp_2) - int(t0_system)
- graph_lat_3 = int(graph_timestamp_3) - int(t0_system)
-
- avg_graph_lat = \
- (int(graph_lat_1) +\
- int(graph_lat_2) +\
- int(graph_lat_3)) / 3
-
- if avg_graph_lat > sw_disc_threshold_min \
- and avg_graph_lat < sw_disc_threshold_max:
- sw_discovery_lat_list.append(
- avg_graph_lat)
- else:
- main.log.info("100 Switch discovery latency "+
- "exceeded the threshold.")
-
- #END ITERATION FOR LOOP
-
- sw_lat_min = min(sw_discovery_lat_list)
- sw_lat_max = max(sw_discovery_lat_list)
- sw_lat_avg = sum(sw_discovery_lat_list) /\
- len(sw_discovery_lat_list)
-
- main.log.report("100 Switch discovery lat "+\
- "Min: "+str(sw_lat_min)+" ms"+\
- "Max: "+str(sw_lat_max)+" ms"+\
- "Avg: "+str(sw_lat_avg)+" ms")
-
- def CASE6(self, main):
- '''
- Increase number of nodes and initiate CLI
- '''
- import time
-
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS3_ip = main.params['CTRL']['ip3']
- ONOS4_ip = main.params['CTRL']['ip4']
- ONOS5_ip = main.params['CTRL']['ip5']
- ONOS6_ip = main.params['CTRL']['ip6']
- ONOS7_ip = main.params['CTRL']['ip7']
-
- cell_name = main.params['ENV']['cellName']
-
- global cluster_count
-
- #Cluster size increased everytime the case is defined
- cluster_count += 2
-
- main.log.report("Increasing cluster size to "+
- str(cluster_count))
-
- install_result = main.FALSE
- if cluster_count == 5:
- main.log.info("Installing nodes 4 and 5")
- node4_result = \
- main.ONOSbench.onos_install(node=ONOS4_ip)
- node5_result = \
- main.ONOSbench.onos_install(node=ONOS5_ip)
- install_result = node4_result and node5_result
-
- time.sleep(5)
-
- main.ONOS4cli.start_onos_cli(ONOS4_ip)
- main.ONOS5cli.start_onos_cli(ONOS5_ip)
-
- elif cluster_count == 7:
- main.log.info("Installing nodes 4 and 5")
- node6_result = \
- main.ONOSbench.onos_install(node=ONOS6_ip)
- node7_result = \
- main.ONOSbench.onos_install(node=ONOS7_ip)
- install_result = node6_result and node7_result
-
- time.sleep(5)
-
- main.ONOS6cli.start_onos_cli(ONOS6_ip)
- main.ONOS7cli.start_onos_cli(ONOS7_ip)
-
-
-
-
diff --git a/TestON/tests/TopoPerfNext/TopoPerfNext.py b/TestON/tests/TopoPerfNext/TopoPerfNext.py
deleted file mode 100644
index 0f37909..0000000
--- a/TestON/tests/TopoPerfNext/TopoPerfNext.py
+++ /dev/null
@@ -1,2006 +0,0 @@
-# TopoPerfNext
-#
-# Topology Performance test for ONOS-next
-#
-# andrew@onlab.us
-#
-# If your machine does not come with numpy
-# run the following command:
-# sudo apt-get install python-numpy python-scipy
-
-import time
-import sys
-import os
-import re
-
-
-class TopoPerfNext:
-
- def __init__( self ):
- self.default = ''
-
- def CASE1( self, main ):
- """
- ONOS startup sequence
- """
- import time
-
- # Global cluster count for scale-out purposes
- global clusterCount
- #TODO: fix run number implementation
- global runNum
- global timeToPost
-
- #Test run time
- timeToPost = time.strftime("%Y-%m-%d %H:%M:%S")
- # Set initial cluster count
- clusterCount = 1
- ##
-
- runNum = time.strftime("%d%H%M%S")
-
- cellName = main.params[ 'ENV' ][ 'cellName' ]
-
- gitPull = main.params[ 'GIT' ][ 'autoPull' ]
- checkoutBranch = main.params[ 'GIT' ][ 'checkout' ]
-
- ONOS1Ip = main.params[ 'CTRL' ][ 'ip1' ]
- ONOS2Ip = main.params[ 'CTRL' ][ 'ip2' ]
- ONOS3Ip = main.params[ 'CTRL' ][ 'ip3' ]
- ONOS4Ip = main.params[ 'CTRL' ][ 'ip4' ]
- ONOS5Ip = main.params[ 'CTRL' ][ 'ip5' ]
- ONOS6Ip = main.params[ 'CTRL' ][ 'ip6' ]
- ONOS7Ip = main.params[ 'CTRL' ][ 'ip7' ]
-
- MN1Ip = main.params[ 'MN' ][ 'ip1' ]
- BENCHIp = main.params[ 'BENCH' ][ 'ip' ]
-
- topoCfgFile = main.params[ 'TEST' ][ 'topoConfigFile' ]
- topoCfgName = main.params[ 'TEST' ][ 'topoConfigName' ]
-
- portEventResultPath = main.params[ 'DB' ][ 'portEventResultPath' ]
- switchEventResultPath = main.params[ 'DB' ][ 'switchEventResultPath' ]
-
- mvnCleanInstall = main.params[ 'TEST' ][ 'mci' ]
-
- main.case( "Setting up test environment" )
- main.log.info( "Copying topology event accumulator config" +
- " to ONOS /package/etc" )
- main.ONOSbench.handle.sendline( "cp ~/" +
- topoCfgFile +
- " ~/ONOS/tools/package/etc/" +
- topoCfgName )
- main.ONOSbench.handle.expect( "\$" )
-
- main.log.report( "Setting up test environment" )
-
- main.step( "Starting mininet topology " )
- main.Mininet1.startNet()
-
- main.step( "Cleaning previously installed ONOS if any" )
- main.ONOSbench.onosUninstall( nodeIp=ONOS2Ip )
- main.ONOSbench.onosUninstall( nodeIp=ONOS3Ip )
- main.ONOSbench.onosUninstall( nodeIp=ONOS4Ip )
- main.ONOSbench.onosUninstall( nodeIp=ONOS5Ip )
- main.ONOSbench.onosUninstall( nodeIp=ONOS6Ip )
- main.ONOSbench.onosUninstall( nodeIp=ONOS7Ip )
-
- main.step( "Clearing previous DB log files" )
- fPortLog = open(portEventResultPath, 'w')
- fPortLog.write('')
- fPortLog.close()
- fSwitchLog = open(switchEventResultPath, 'w')
- fSwitchLog.write('')
- fSwitchLog.close()
-
- main.step( "Creating cell file" )
- cellFileResult = main.ONOSbench.createCellFile(
- BENCHIp, cellName, MN1Ip,
- ("onos-core,onos-api,webconsole,onos-app-metrics,onos-app-gui,"
- "onos-cli,onos-openflow"),
- ONOS1Ip )
-
- main.step( "Applying cell file to environment" )
- cellApplyResult = main.ONOSbench.setCell( cellName )
- verifyCellResult = main.ONOSbench.verifyCell()
-
- # NOTE: This step may be removed after proper
- # copy cat log functionality
- main.step( "Removing raft/copy-cat logs from ONOS nodes" )
- main.ONOSbench.onosRemoveRaftLogs()
- time.sleep( 30 )
-
- main.step( "Git checkout and pull " + checkoutBranch )
- if gitPull == 'on':
- # checkoutResult = \
- # main.ONOSbench.gitCheckout( checkoutBranch )
- checkoutResult = main.TRUE
- pullResult = main.ONOSbench.gitPull()
- else:
- checkoutResult = main.TRUE
- pullResult = main.TRUE
- main.log.info( "Skipped git checkout and pull" )
-
- main.log.report( "Commit information - " )
- main.ONOSbench.getVersion( report=True )
-
- main.step( "Using mvn clean & install" )
- if mvnCleanInstall == 'on':
- mvnResult = main.ONOSbench.cleanInstall()
- elif mvnCleanInstall == 'off':
- main.log.info("mci turned off by settings")
- mvnResult = main.TRUE
-
- main.step( "Set cell for ONOS cli env" )
- main.ONOS1cli.setCell( cellName )
-
- main.step( "Creating ONOS package" )
- packageResult = main.ONOSbench.onosPackage()
-
- main.step( "Installing ONOS package" )
- install1Result = main.ONOSbench.onosInstall( node=ONOS1Ip )
-
- time.sleep( 10 )
-
- main.step( "Start onos cli" )
- cli1 = main.ONOS1cli.startOnosCli( ONOS1Ip )
-
- utilities.assert_equals( expect=main.TRUE,
- actual=cellFileResult and cellApplyResult and
- verifyCellResult and checkoutResult and
- pullResult and mvnResult and
- install1Result, # and install2Result and
- # install3Result,
- onpass="Test Environment setup successful",
- onfail="Failed to setup test environment" )
-
- def CASE2( self, main ):
- """
- Assign s1 to ONOS1 and measure latency
-
- There are 4 levels of latency measurements to this test:
- 1 ) End-to-end measurement: Complete end-to-end measurement
- from TCP ( SYN/ACK ) handshake to Graph change
- 2 ) OFP-to-graph measurement: 'ONOS processing' snippet of
- measurement from OFP Vendor message to Graph change
- 3 ) OFP-to-device measurement: 'ONOS processing without
- graph change' snippet of measurement from OFP vendor
- message to Device change timestamp
- 4 ) T0-to-device measurement: Measurement that includes
- the switch handshake to devices timestamp without
- the graph view change. ( TCP handshake -> Device
- change )
- """
- import time
- import subprocess
- import json
- import requests
- import os
- import numpy
- global clusterCount
- global timeToPost
-
- ONOS1Ip = main.params[ 'CTRL' ][ 'ip1' ]
- ONOS2Ip = main.params[ 'CTRL' ][ 'ip2' ]
- ONOS3Ip = main.params[ 'CTRL' ][ 'ip3' ]
- ONOS4Ip = main.params[ 'CTRL' ][ 'ip4' ]
- ONOS5Ip = main.params[ 'CTRL' ][ 'ip5' ]
- ONOS6Ip = main.params[ 'CTRL' ][ 'ip6' ]
- ONOS7Ip = main.params[ 'CTRL' ][ 'ip7' ]
-
- ONOSUser = main.params[ 'CTRL' ][ 'user' ]
-
- defaultSwPort = main.params[ 'CTRL' ][ 'port1' ]
-
- # Number of iterations of case
- numIter = main.params[ 'TEST' ][ 'numIter' ]
- # Number of first 'x' iterations to ignore:
- iterIgnore = int( main.params[ 'TEST' ][ 'iterIgnore' ] )
-
- # Timestamp 'keys' for json metrics output.
- # These are subject to change, hence moved into params
- deviceTimestamp = main.params[ 'JSON' ][ 'deviceTimestamp' ]
- graphTimestamp = main.params[ 'JSON' ][ 'graphTimestamp' ]
-
- debugMode = main.params[ 'TEST' ][ 'debugMode' ]
- onosLog = main.params[ 'TEST' ][ 'onosLogFile' ]
- resultPath = main.params[ 'DB' ][ 'switchEventResultPath' ]
-
- # Threshold for the test
- thresholdStr = main.params[ 'TEST' ][ 'singleSwThreshold' ]
- thresholdObj = thresholdStr.split( "," )
- thresholdMin = int( thresholdObj[ 0 ] )
- thresholdMax = int( thresholdObj[ 1 ] )
-
- # List of switch add latency collected from
- # all iterations
- latencyEndToEndList = []
- latencyOfpToGraphList = []
- latencyOfpToDeviceList = []
- latencyT0ToDeviceList = []
- latencyTcpToOfpList = []
-
- # Initialize 2d array for [node][iteration] storage
- endToEndLatNodeIter = numpy.zeros(( clusterCount, int(numIter) ))
- ofpToGraphLatNodeIter = numpy.zeros(( clusterCount, int(numIter) ))
- # tcp-to-ofp measurements are same throughout each iteration
- tcpToOfpLatIter = []
-
- # Directory/file to store tshark results
- tsharkOfOutput = "/tmp/tshark_of_topo.txt"
- tsharkTcpOutput = "/tmp/tshark_tcp_topo.txt"
-
- # String to grep in tshark output
- tsharkTcpString = "TCP 74 " + defaultSwPort
- tsharkOfString = "OFP 86 Vendor"
-
- # Initialize assertion to TRUE
- assertion = main.TRUE
-
- localTime = time.strftime( '%x %X' )
- localTime = localTime.replace( "/", "" )
- localTime = localTime.replace( " ", "_" )
- localTime = localTime.replace( ":", "" )
- if debugMode == 'on':
- main.ONOS1.tsharkPcap( "eth0",
- "/tmp/single_sw_lat_pcap_" + localTime )
-
- main.log.info( "Debug mode is on" )
-
- main.log.report( "Latency of adding one switch to controller" )
- main.log.report( "First " + str( iterIgnore ) + " iterations ignored" +
- " for jvm warmup time" )
- main.log.report( "Total iterations of test: " + str( numIter ) )
-
- for i in range( 0, int( numIter ) ):
- main.log.info( "Starting tshark capture" )
-
- #* TCP [ ACK, SYN ] is used as t0A, the
- # very first "exchange" between ONOS and
- # the switch for end-to-end measurement
- #* OFP [ Stats Reply ] is used for t0B
- # the very last OFP message between ONOS
- # and the switch for ONOS measurement
- main.ONOS1.tsharkGrep( tsharkTcpString,
- tsharkTcpOutput )
- main.ONOS1.tsharkGrep( tsharkOfString,
- tsharkOfOutput )
-
- # Wait and ensure tshark is started and
- # capturing
- time.sleep( 10 )
-
- main.log.info( "Assigning s1 to controller" )
-
- main.Mininet1.assignSwController(
- sw="1",
- ip1=ONOS1Ip,
- port1=defaultSwPort )
-
- # Wait and ensure switch is assigned
- # before stopping tshark
- time.sleep( 30 )
-
- main.log.info( "Stopping all Tshark processes" )
- main.ONOS1.stopTshark()
-
- # tshark output is saved in ONOS. Use subprocess
- # to copy over files to TestON for parsing
- main.log.info( "Copying over tshark files" )
-
- # TCP CAPTURE ****
- # Copy the tshark output from ONOS machine to
- # TestON machine in tsharkTcpOutput directory>file
- os.system( "scp " + ONOSUser + "@" + ONOS1Ip + ":" +
- tsharkTcpOutput + " /tmp/" )
- tcpFile = open( tsharkTcpOutput, 'r' )
- tempText = tcpFile.readline()
- tempText = tempText.split( " " )
-
- main.log.info( "Object read in from TCP capture: " +
- str( tempText ) )
- if len( tempText ) > 1:
- t0Tcp = float( tempText[ 1 ] ) * 1000.0
- else:
- main.log.error( "Tshark output file for TCP" +
- " returned unexpected results" )
- t0Tcp = 0
- assertion = main.FALSE
-
- tcpFile.close()
- #****************
-
- # OF CAPTURE ****
- os.system( "scp " + ONOSUser + "@" + ONOS1Ip + ":" +
- tsharkOfOutput + " /tmp/" )
- ofFile = open( tsharkOfOutput, 'r' )
-
- lineOfp = ""
- # Read until last line of file
- while True:
- tempText = ofFile.readline()
- if tempText != '':
- lineOfp = tempText
- else:
- break
- obj = lineOfp.split( " " )
-
- main.log.info( "Object read in from OFP capture: " +
- str( lineOfp ) )
-
- if len( obj ) > 1:
- t0Ofp = float( obj[ 1 ] ) * 1000.0
- else:
- main.log.error( "Tshark output file for OFP" +
- " returned unexpected results" )
- t0Ofp = 0
- assertion = main.FALSE
-
- ofFile.close()
- #****************
-
- jsonStr1 = main.ONOS1cli.topologyEventsMetrics()
- # Initialize scale-out variables
- jsonStr2 = ""
- jsonStr3 = ""
- jsonStr4 = ""
- jsonStr5 = ""
- jsonStr6 = ""
- jsonStr7 = ""
-
- jsonObj1 = json.loads( jsonStr1 )
- # Initialize scale-out variables
- jsonObj2 = ""
- jsonObj3 = ""
- jsonObj4 = ""
- jsonObj5 = ""
- jsonObj6 = ""
- jsonObj7 = ""
-
- # Obtain graph timestamp. This timestsamp captures
- # the epoch time at which the topology graph was updated.
- graphTimestamp1 = \
- jsonObj1[ graphTimestamp ][ 'value' ]
- # Obtain device timestamp. This timestamp captures
- # the epoch time at which the device event happened
- deviceTimestamp1 = \
- jsonObj1[ deviceTimestamp ][ 'value' ]
-
- # t0 to device processing latency
- deltaDevice1 = int( deviceTimestamp1 ) - int( t0Tcp )
- # t0 to graph processing latency ( end-to-end )
- deltaGraph1 = int( graphTimestamp1 ) - int( t0Tcp )
- # ofp to graph processing latency ( ONOS processing )
- deltaOfpGraph1 = int( graphTimestamp1 ) - int( t0Ofp )
- # ofp to device processing latency ( ONOS processing )
- deltaOfpDevice1 = float( deviceTimestamp1 ) - float( t0Ofp )
- # tcp to ofp processing latency ( switch connection )
- deltaTcpOfp1 = int(t0Ofp) - int(t0Tcp)
-
- if deltaTcpOfp1 > thresholdMin and deltaTcpOfp1 < thresholdMax\
- and i >= iterIgnore:
- tcpToOfpLatIter.append(deltaTcpOfp1)
- main.log.info("iter"+str(i)+" tcp-to-ofp: "+
- str(deltaTcpOfp1)+" ms")
- else:
- tcpToOfpLatIter.append(0)
- main.log.info("iter"+str(i)+" tcp-to-ofp: "+
- str(deltaTcpOfp1)+" ms - ignored this iteration")
-
- # Store initial measurements in data array
- #This measurement is for node 1
-
- if deltaGraph1 > thresholdMin and deltaGraph1 < thresholdMax\
- and i >= iterIgnore:
- endToEndLatNodeIter[0][i] = deltaGraph1
- main.log.info("ONOS1 iter"+str(i)+" end-to-end: "+
- str(deltaGraph1)+" ms")
- else:
- main.log.info("ONOS1 iter"+str(i)+" end-to-end: "+
- str(deltaGraph1)+" ms - ignored this iteration")
-
-
- if deltaOfpGraph1 > thresholdMin and deltaOfpGraph1 < thresholdMax\
- and i >= iterIgnore:
- ofpToGraphLatNodeIter[0][i] = deltaOfpGraph1
-
- main.log.info("ONOS1 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph1)+" ms")
-
- # TODO: Create even cluster number events
-
- # Include scale-out measurements when applicable
- if clusterCount >= 3:
- jsonStr2 = main.ONOS2cli.topologyEventsMetrics()
- jsonStr3 = main.ONOS3cli.topologyEventsMetrics()
- jsonObj2 = json.loads( jsonStr2 )
- jsonObj3 = json.loads( jsonStr3 )
- graphTimestamp2 = \
- jsonObj2[ graphTimestamp ][ 'value' ]
- graphTimestamp3 = \
- jsonObj3[ graphTimestamp ][ 'value' ]
- deviceTimestamp2 = \
- jsonObj2[ deviceTimestamp ][ 'value' ]
- deviceTimestamp3 = \
- jsonObj3[ deviceTimestamp ][ 'value' ]
- deltaDevice2 = int( deviceTimestamp2 ) - int( t0Tcp )
- deltaDevice3 = int( deviceTimestamp3 ) - int( t0Tcp )
- deltaGraph2 = int( graphTimestamp2 ) - int( t0Tcp )
- deltaGraph3 = int( graphTimestamp3 ) - int( t0Tcp )
- deltaOfpGraph2 = int( graphTimestamp2 ) - int( t0Ofp )
- deltaOfpGraph3 = int( graphTimestamp3 ) - int( t0Ofp )
- deltaOfpDevice2 = float( deviceTimestamp2 ) -\
- float( t0Ofp )
- deltaOfpDevice3 = float( deviceTimestamp3 ) -\
- float( t0Ofp )
-
- if deltaGraph2 > thresholdMin and\
- deltaGraph2 < thresholdMax and i >= iterIgnore:
- endToEndLatNodeIter[1][i] = deltaGraph2
- main.log.info("ONOS2 iter"+str(i)+" end-to-end: "+
- str(deltaGraph2)+" ms")
-
- if deltaOfpGraph2 > thresholdMin and\
- deltaOfpGraph2 < thresholdMax and i >= iterIgnore:
- ofpToGraphLatNodeIter[1][i] = deltaOfpGraph2
- main.log.info("ONOS2 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph2)+" ms")
-
- if deltaGraph3 > thresholdMin and\
- deltaGraph3 < thresholdMax and i >= iterIgnore:
- endToEndLatNodeIter[2][i] = deltaGraph3
- main.log.info("ONOS3 iter"+str(i)+" end-to-end: "+
- str(deltaGraph3)+" ms")
-
- if deltaOfpGraph3 > thresholdMin and\
- deltaOfpGraph3 < thresholdMax and i >= iterIgnore:
- ofpToGraphLatNodeIter[2][i] = deltaOfpGraph3
- main.log.info("ONOS3 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph3)+" ms")
-
- if clusterCount >= 5:
- jsonStr4 = main.ONOS4cli.topologyEventsMetrics()
- jsonStr5 = main.ONOS5cli.topologyEventsMetrics()
- jsonObj4 = json.loads( jsonStr4 )
- jsonObj5 = json.loads( jsonStr5 )
- graphTimestamp4 = \
- jsonObj4[ graphTimestamp ][ 'value' ]
- graphTimestamp5 = \
- jsonObj5[ graphTimestamp ][ 'value' ]
- deviceTimestamp4 = \
- jsonObj4[ deviceTimestamp ][ 'value' ]
- deviceTimestamp5 = \
- jsonObj5[ deviceTimestamp ][ 'value' ]
- deltaDevice4 = int( deviceTimestamp4 ) - int( t0Tcp )
- deltaDevice5 = int( deviceTimestamp5 ) - int( t0Tcp )
- deltaGraph4 = int( graphTimestamp4 ) - int( t0Tcp )
- deltaGraph5 = int( graphTimestamp5 ) - int( t0Tcp )
- deltaOfpGraph4 = int( graphTimestamp4 ) - int( t0Ofp )
- deltaOfpGraph5 = int( graphTimestamp5 ) - int( t0Ofp )
- deltaOfpDevice4 = float( deviceTimestamp4 ) -\
- float( t0Ofp )
- deltaOfpDevice5 = float( deviceTimestamp5 ) -\
- float( t0Ofp )
-
- if deltaGraph4 > thresholdMin and\
- deltaGraph4 < thresholdMax and i >= iterIgnore:
- endToEndLatNodeIter[3][i] = deltaGraph4
- main.log.info("ONOS4 iter"+str(i)+" end-to-end: "+
- str(deltaGraph4)+" ms")
-
- #TODO:
- if deltaOfpGraph4 > thresholdMin and\
- deltaOfpGraph4 < thresholdMax and i >= iterIgnore:
- ofpToGraphLatNodeIter[3][i] = deltaOfpGraph4
- main.log.info("ONOS4 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph4)+" ms")
-
- if deltaGraph5 > thresholdMin and\
- deltaGraph5 < thresholdMax and i >= iterIgnore:
- endToEndLatNodeIter[4][i] = deltaGraph5
- main.log.info("ONOS5 iter"+str(i)+" end-to-end: "+
- str(deltaGraph5)+" ms")
-
- if deltaOfpGraph5 > thresholdMin and\
- deltaOfpGraph5 < thresholdMax and i >= iterIgnore:
- ofpToGraphLatNodeIter[4][i] = deltaOfpGraph5
- main.log.info("ONOS5 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph5)+" ms")
-
- if clusterCount >= 7:
- jsonStr6 = main.ONOS6cli.topologyEventsMetrics()
- jsonStr7 = main.ONOS7cli.topologyEventsMetrics()
- jsonObj6 = json.loads( jsonStr6 )
- jsonObj7 = json.loads( jsonStr7 )
- graphTimestamp6 = \
- jsonObj6[ graphTimestamp ][ 'value' ]
- graphTimestamp7 = \
- jsonObj7[ graphTimestamp ][ 'value' ]
- deviceTimestamp6 = \
- jsonObj6[ deviceTimestamp ][ 'value' ]
- deviceTimestamp7 = \
- jsonObj7[ deviceTimestamp ][ 'value' ]
- deltaDevice6 = int( deviceTimestamp6 ) - int( t0Tcp )
- deltaDevice7 = int( deviceTimestamp7 ) - int( t0Tcp )
- deltaGraph6 = int( graphTimestamp6 ) - int( t0Tcp )
- deltaGraph7 = int( graphTimestamp7 ) - int( t0Tcp )
- deltaOfpGraph6 = int( graphTimestamp6 ) - int( t0Ofp )
- deltaOfpGraph7 = int( graphTimestamp7 ) - int( t0Ofp )
- deltaOfpDevice6 = float( deviceTimestamp6 ) -\
- float( t0Ofp )
- deltaOfpDevice7 = float( deviceTimestamp7 ) -\
- float( t0Ofp )
-
- if deltaGraph6 > thresholdMin and\
- deltaGraph6 < thresholdMax and i >= iterIgnore:
- endToEndLatNodeIter[5][i] = deltaGraph6
- main.log.info("ONOS6 iter"+str(i)+" end-to-end: "+
- str(deltaGraph6)+" ms")
-
- #TODO:
- if deltaOfpGraph6 > thresholdMin and\
- deltaOfpGraph6 < thresholdMax and i >= iterIgnore:
- ofpToGraphLatNodeIter[5][i] = deltaOfpGraph6
- main.log.info("ONOS6 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph6)+" ms")
-
- if deltaGraph7 > thresholdMin and\
- deltaGraph7 < thresholdMax and i >= iterIgnore:
- endToEndLatNodeIter[6][i] = deltaGraph7
- main.log.info("ONOS7 iter"+str(i)+" end-to-end: "+
- str(deltaGraph7)+" ms")
-
- if deltaOfpGraph7 > thresholdMin and\
- deltaOfpGraph7 < thresholdMax and i >= iterIgnore:
- ofpToGraphLatNodeIter[6][i] = deltaOfpGraph7
- main.log.info("ONOS7 iter"+str(i)+" ofp-to-graph: "+
- str(deltaOfpGraph7)+" ms")
-
- main.log.info("Switch up discovery latency")
-
- main.log.info("Starting tshark capture")
-
- main.step( "Remove switch from controller" )
- main.Mininet1.deleteSwController( "s1" )
-
- #TODO: del controller does not have an OFP message.
- # However, we can capture TCP Fin,Ack as T0
-
- time.sleep( 5 )
-
- # END of for loop iteration
-
- #str( round( numpy.std( latencyT0ToDeviceList ), 1 ) )
-
- endToEndAvg = 0
- ofpToGraphAvg = 0
- endToEndList = []
- ofpToGraphList = []
- dbCmdList = []
-
- for node in range( 0, clusterCount ):
- # The latency 2d array was initialized to 0.
- # If an iteration was ignored, then we have some 0's in
- # our calculation. To avoid having this interfere with our
- # results, we must delete any index where 0 is found...
- # WARN: Potentially, we could have latency that hovers at
- # 0 ms once we have optimized code. FIXME for when this is
- # the case. Being able to obtain sub-millisecond accuracy
- # can prevent this from happening
- for item in endToEndLatNodeIter[node]:
- if item > 0.0:
- endToEndList.append(item)
- for item in ofpToGraphLatNodeIter[node]:
- if item > 0.0:
- ofpToGraphList.append(item)
-
- endToEndAvg = round(numpy.mean(endToEndList), 2)
- ofpToGraphAvg = numpy.mean(ofpToGraphList)
- endToEndStd = round(numpy.std(endToEndList), 2)
-
- main.log.report( " - Node "+str(node+1)+" Summary - " )
- main.log.report( " End-to-end Avg: "+
- str(round(endToEndAvg,2))+" ms"+
- " End-to-end Std dev: "+
- str(round(endToEndStd,2))+" ms")
-
- dbCmdList.append(
- "INSERT INTO switch_latency_tests VALUES("
- "'"+timeToPost+"','switch_latency_results',"
- ""+runNum+","+str(clusterCount)+",'baremetal"+str(node+1)+"',"
- ""+str(endToEndAvg)+","+str(endToEndStd)+",0,0);"
- )
- #main.log.report( " Ofp-to-graph Avg: "+
- # str(round(ofpToGraphAvg,2))+" ms"+
- # " Ofp-to-graph Std dev: "+
- # str(round(numpy.std(ofpToGraphList),2))+
- # " ms")
-
- if debugMode == 'on':
- main.ONOS1.cpLogsToDir( "/opt/onos/log/karaf.log",
- "/tmp/", copyFileName="sw_lat_karaf" )
-
- #Write to file for posting to DB
- fResult = open(resultPath, 'a')
- for line in dbCmdList:
- if line:
- fResult.write(line+"\n")
- fResult.close()
-
- #TODO: correct assert
- assertion = main.TRUE
-
- utilities.assert_equals( expect=main.TRUE, actual=assertion,
- onpass="Switch latency test successful",
- onfail="Switch latency test failed" )
-
- def CASE3( self, main ):
- """
- Bring port up / down and measure latency.
- Port enable / disable is simulated by ifconfig up / down
-
- In ONOS-next, we must ensure that the port we are
- manipulating is connected to another switch with a valid
- connection. Otherwise, graph view will not be updated.
- """
- import time
- import subprocess
- import os
- import requests
- import json
- import numpy
- global clusterCount
- global runNum
- global timeToPost
-
- ONOS1Ip = main.params[ 'CTRL' ][ 'ip1' ]
- ONOS2Ip = main.params[ 'CTRL' ][ 'ip2' ]
- ONOS3Ip = main.params[ 'CTRL' ][ 'ip3' ]
- ONOSUser = main.params[ 'CTRL' ][ 'user' ]
-
- defaultSwPort = main.params[ 'CTRL' ][ 'port1' ]
-
- assertion = main.TRUE
- # Number of iterations of case
- numIter = main.params[ 'TEST' ][ 'numIter' ]
- iterIgnore = int( main.params[ 'TEST' ][ 'iterIgnore' ] )
-
- # Timestamp 'keys' for json metrics output.
- # These are subject to change, hence moved into params
- deviceTimestamp = main.params[ 'JSON' ][ 'deviceTimestamp' ]
- graphTimestamp = main.params[ 'JSON' ][ 'graphTimestamp' ]
-
- debugMode = main.params[ 'TEST' ][ 'debugMode' ]
- postToDB = main.params[ 'DB' ][ 'postToDB' ]
- resultPath = main.params[ 'DB' ][ 'portEventResultPath' ]
-
- localTime = time.strftime( '%x %X' )
- localTime = localTime.replace( "/", "" )
- localTime = localTime.replace( " ", "_" )
- localTime = localTime.replace( ":", "" )
- if debugMode == 'on':
- main.ONOS1.tsharkPcap( "eth0",
- "/tmp/port_lat_pcap_" + localTime )
-
- # Threshold for this test case
- upThresholdStr = main.params[ 'TEST' ][ 'portUpThreshold' ]
- downThresholdStr = main.params[ 'TEST' ][ 'portDownThreshold' ]
-
- upThresholdObj = upThresholdStr.split( "," )
- downThresholdObj = downThresholdStr.split( "," )
-
- upThresholdMin = int( upThresholdObj[ 0 ] )
- upThresholdMax = int( upThresholdObj[ 1 ] )
-
- downThresholdMin = int( downThresholdObj[ 0 ] )
- downThresholdMax = int( downThresholdObj[ 1 ] )
-
- # NOTE: Some hardcoded variables you may need to configure
- # besides the params
-
- tsharkPortStatus = "OFP 130 Port Status"
-
- tsharkPortUp = "/tmp/tshark_port_up.txt"
- tsharkPortDown = "/tmp/tshark_port_down.txt"
- interfaceConfig = "s1-eth1"
-
- main.log.report( "Port enable / disable latency" )
- main.log.report( "Simulated by ifconfig up / down" )
- main.log.report( "Total iterations of test: " + str( numIter ) )
-
- main.step( "Assign switches s1 and s2 to controller 1" )
- main.Mininet1.assignSwController( sw="1", ip1=ONOS1Ip,
- port1=defaultSwPort )
- main.Mininet1.assignSwController( sw="2", ip1=ONOS1Ip,
- port1=defaultSwPort )
-
- # Give enough time for metrics to propagate the
- # assign controller event. Otherwise, these events may
- # carry over to our measurements
- time.sleep( 15 )
-
- portUpDeviceToOfpList = []
- portUpGraphToOfpList = []
- portDownDeviceToOfpList = []
- portDownGraphToOfpList = []
-
- # Initialize 2d array filled with 0's
- # arraySizeFormat[clusterCount][numIter]
- portUpDevNodeIter = numpy.zeros(( clusterCount, int(numIter) ))
- portUpGraphNodeIter = numpy.zeros(( clusterCount, int(numIter) ))
- portDownDevNodeIter = numpy.zeros(( clusterCount, int(numIter) ))
- portDownGraphNodeIter = numpy.zeros(( clusterCount, int(numIter) ))
-
- for i in range( 0, int( numIter ) ):
- main.step( "Starting wireshark capture for port status down" )
- main.ONOS1.tsharkGrep( tsharkPortStatus,
- tsharkPortDown )
-
- time.sleep( 5 )
-
- # Disable interface that is connected to switch 2
- main.step( "Disable port: " + interfaceConfig )
- main.Mininet1.handle.sendline( "sh ifconfig " +
- interfaceConfig + " down" )
- main.Mininet1.handle.expect( "mininet>" )
-
- time.sleep( 3 )
- main.ONOS1.tsharkStop()
-
- # Copy tshark output file from ONOS to TestON instance
- #/tmp directory
- os.system( "scp " + ONOSUser + "@" + ONOS1Ip + ":" +
- tsharkPortDown + " /tmp/" )
-
- fPortDown = open( tsharkPortDown, 'r' )
- # Get first line of port down event from tshark
- fLine = fPortDown.readline()
- objDown = fLine.split( " " )
- if len( fLine ) > 0:
- # NOTE: objDown[ 1 ] is a very unreliable
- # way to determine the timestamp. If
- # results seem way off, check the object
- # itself by printing it out
- timestampBeginPtDown = int( float( objDown[ 1 ] ) * 1000 )
- # For some reason, wireshark decides to record the
- # timestamp at the 3rd object position instead of
- # 2nd at unpredictable times. This statement is
- # used to capture that odd behavior and use the
- # correct epoch time
- if timestampBeginPtDown < 1400000000000:
- timestampBeginPtDown = \
- int( float( objDown[ 2 ] ) * 1000 )
-
- main.log.info( "Port down begin timestamp: " +
- str( timestampBeginPtDown ) )
- else:
- main.log.info( "Tshark output file returned unexpected" +
- " results: " + str( objDown ) )
- timestampBeginPtDown = 0
- fPortDown.close()
-
- main.step( "Obtain t1 by metrics call" )
- jsonStrUp1 = main.ONOS1cli.topologyEventsMetrics()
- jsonObj1 = json.loads( jsonStrUp1 )
- # Obtain graph timestamp. This timestsamp captures
- # the epoch time at which the topology graph was updated.
- graphTimestamp1 = \
- jsonObj1[ graphTimestamp ][ 'value' ]
- # Obtain device timestamp. This timestamp captures
- # the epoch time at which the device event happened
- deviceTimestamp1 = \
- jsonObj1[ deviceTimestamp ][ 'value' ]
- # Get delta between graph event and OFP
- ptDownGraphToOfp1 = int( graphTimestamp1 ) -\
- int( timestampBeginPtDown )
- # Get delta between device event and OFP
- ptDownDeviceToOfp1 = int( deviceTimestamp1 ) -\
- int( timestampBeginPtDown )
-
- if ptDownGraphToOfp1 > downThresholdMin and\
- ptDownGraphToOfp1 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[0][i] = ptDownGraphToOfp1
- main.log.info("iter"+str(i)+" port down graph-to-ofp: "+
- str(ptDownGraphToOfp1)+" ms")
- else:
- main.log.info("iter"+str(i)+" skipped. Result: "+
- str(ptDownGraphToOfp1)+" ms")
- if ptDownDeviceToOfp1 > downThresholdMin and\
- ptDownDeviceToOfp1 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[0][i] = ptDownDeviceToOfp1
- main.log.info("iter"+str(i)+" port down device-to-ofp: "+
- str(ptDownDeviceToOfp1)+" ms")
- else:
- main.log.info("iter"+str(i)+" skipped. Result: "+
- str(ptDownDeviceToOfp1)+" ms")
-
- if clusterCount >= 3:
- jsonStrUp2 = main.ONOS2cli.topologyEventsMetrics()
- jsonStrUp3 = main.ONOS3cli.topologyEventsMetrics()
- jsonObj2 = json.loads( jsonStrUp2 )
- jsonObj3 = json.loads( jsonStrUp3 )
- graphTimestamp2 = \
- jsonObj2[ graphTimestamp ][ 'value' ]
- graphTimestamp3 = \
- jsonObj3[ graphTimestamp ][ 'value' ]
- deviceTimestamp2 = \
- jsonObj2[ deviceTimestamp ][ 'value' ]
- deviceTimestamp3 = \
- jsonObj3[ deviceTimestamp ][ 'value' ]
- ptDownGraphToOfp2 = int( graphTimestamp2 ) -\
- int( timestampBeginPtDown )
- ptDownGraphToOfp3 = int( graphTimestamp3 ) -\
- int( timestampBeginPtDown )
- ptDownDeviceToOfp2 = int( deviceTimestamp2 ) -\
- int( timestampBeginPtDown )
- ptDownDeviceToOfp3 = int( deviceTimestamp3 ) -\
- int( timestampBeginPtDown )
-
- if ptDownGraphToOfp2 > downThresholdMin and\
- ptDownGraphToOfp2 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[1][i] = ptDownGraphToOfp2
- main.log.info("ONOS2 iter"+str(i)+" graph-to-ofp: "+
- str(ptDownGraphToOfp2)+" ms")
-
- if ptDownDeviceToOfp2 > downThresholdMin and\
- ptDownDeviceToOfp2 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[1][i] = ptDownDeviceToOfp2
- main.log.info("ONOS2 iter"+str(i)+" device-to-ofp: "+
- str(ptDownDeviceToOfp2)+" ms")
-
- if ptDownGraphToOfp3 > downThresholdMin and\
- ptDownGraphToOfp3 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[2][i] = ptDownGraphToOfp3
- main.log.info("ONOS3 iter"+str(i)+" graph-to-ofp: "+
- str(ptDownGraphToOfp3)+" ms")
-
- if ptDownDeviceToOfp3 > downThresholdMin and\
- ptDownDeviceToOfp3 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[2][i] = ptDownDeviceToOfp3
- main.log.info("ONOS3 iter"+str(i)+" device-to-ofp: "+
- str(ptDownDeviceToOfp3)+" ms")
-
- if clusterCount >= 5:
- jsonStrUp4 = main.ONOS4cli.topologyEventsMetrics()
- jsonStrUp5 = main.ONOS5cli.topologyEventsMetrics()
- jsonObj4 = json.loads( jsonStrUp4 )
- jsonObj5 = json.loads( jsonStrUp5 )
- graphTimestamp4 = \
- jsonObj4[ graphTimestamp ][ 'value' ]
- graphTimestamp5 = \
- jsonObj5[ graphTimestamp ][ 'value' ]
- deviceTimestamp4 = \
- jsonObj4[ deviceTimestamp ][ 'value' ]
- deviceTimestamp5 = \
- jsonObj5[ deviceTimestamp ][ 'value' ]
- ptDownGraphToOfp4 = int( graphTimestamp4 ) -\
- int( timestampBeginPtDown )
- ptDownGraphToOfp5 = int( graphTimestamp5 ) -\
- int( timestampBeginPtDown )
- ptDownDeviceToOfp4 = int( deviceTimestamp4 ) -\
- int( timestampBeginPtDown )
- ptDownDeviceToOfp5 = int( deviceTimestamp5 ) -\
- int( timestampBeginPtDown )
-
- if ptDownGraphToOfp4 > downThresholdMin and\
- ptDownGraphToOfp4 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[3][i] = ptDownGraphToOfp4
- main.log.info("ONOS4 iter"+str(i)+" graph-to-ofp: "+
- str(ptDownGraphToOfp4)+" ms")
-
- if ptDownDeviceToOfp4 > downThresholdMin and\
- ptDownDeviceToOfp4 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[3][i] = ptDownDeviceToOfp4
- main.log.info("ONOS4 iter"+str(i)+" device-to-ofp: "+
- str(ptDownDeviceToOfp4)+" ms")
-
- if ptDownGraphToOfp5 > downThresholdMin and\
- ptDownGraphToOfp5 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[4][i] = ptDownGraphToOfp5
- main.log.info("ONOS5 iter"+str(i)+" graph-to-ofp: "+
- str(ptDownGraphToOfp5)+" ms")
-
- if ptDownDeviceToOfp5 > downThresholdMin and\
- ptDownDeviceToOfp5 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[4][i] = ptDownDeviceToOfp5
- main.log.info("ONOS5 iter"+str(i)+" device-to-ofp: "+
- str(ptDownDeviceToOfp5)+" ms")
-
- if clusterCount >= 7:
- jsonStrUp6 = main.ONOS6cli.topologyEventsMetrics()
- jsonStrUp7 = main.ONOS7cli.topologyEventsMetrics()
- jsonObj6 = json.loads( jsonStrUp6 )
- jsonObj7 = json.loads( jsonStrUp7 )
- graphTimestamp6 = \
- jsonObj6[ graphTimestamp ][ 'value' ]
- graphTimestamp7 = \
- jsonObj7[ graphTimestamp ][ 'value' ]
- deviceTimestamp6 = \
- jsonObj6[ deviceTimestamp ][ 'value' ]
- deviceTimestamp7 = \
- jsonObj7[ deviceTimestamp ][ 'value' ]
- ptDownGraphToOfp6 = int( graphTimestamp6 ) -\
- int( timestampBeginPtDown )
- ptDownGraphToOfp7 = int( graphTimestamp7 ) -\
- int( timestampBeginPtDown )
- ptDownDeviceToOfp6 = int( deviceTimestamp6 ) -\
- int( timestampBeginPtDown )
- ptDownDeviceToOfp7 = int( deviceTimestamp7 ) -\
- int( timestampBeginPtDown )
-
- if ptDownGraphToOfp6 > downThresholdMin and\
- ptDownGraphToOfp6 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[5][i] = ptDownGraphToOfp6
- main.log.info("ONOS6 iter"+str(i)+" graph-to-ofp: "+
- str(ptDownGraphToOfp6)+" ms")
-
- if ptDownDeviceToOfp6 > downThresholdMin and\
- ptDownDeviceToOfp6 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[5][i] = ptDownDeviceToOfp6
- main.log.info("ONOS6 iter"+str(i)+" device-to-ofp: "+
- str(ptDownDeviceToOfp6)+" ms")
-
- if ptDownGraphToOfp7 > downThresholdMin and\
- ptDownGraphToOfp7 < downThresholdMax and i > iterIgnore:
- portDownGraphNodeIter[6][i] = ptDownGraphToOfp7
- main.log.info("ONOS7 iter"+str(i)+" graph-to-ofp: "+
- str(ptDownGraphToOfp7)+" ms")
-
- if ptDownDeviceToOfp7 > downThresholdMin and\
- ptDownDeviceToOfp7 < downThresholdMax and i > iterIgnore:
- portDownDevNodeIter[6][i] = ptDownDeviceToOfp7
- main.log.info("ONOS7 iter"+str(i)+" device-to-ofp: "+
- str(ptDownDeviceToOfp7)+" ms")
-
- time.sleep( 3 )
-
- # Port up events
- main.step( "Enable port and obtain timestamp" )
- main.step( "Starting wireshark capture for port status up" )
- main.ONOS1.tsharkGrep( tsharkPortStatus, tsharkPortUp )
- time.sleep( 5 )
-
- main.Mininet1.handle.sendline( "sh ifconfig " +
- interfaceConfig + " up" )
- main.Mininet1.handle.expect( "mininet>" )
-
- # Allow time for tshark to capture event
- time.sleep( 5 )
- main.ONOS1.tsharkStop()
-
- time.sleep( 3 )
- os.system( "scp " + ONOSUser + "@" + ONOS1Ip + ":" +
- tsharkPortUp + " /tmp/" )
- fPortUp = open( tsharkPortUp, 'r' )
- fLine = fPortUp.readline()
- objUp = fLine.split( " " )
- if len( fLine ) > 0:
- timestampBeginPtUp = int( float( objUp[ 1 ] ) * 1000 )
- if timestampBeginPtUp < 1400000000000:
- timestampBeginPtUp = \
- int( float( objUp[ 2 ] ) * 1000 )
- main.log.info( "Port up begin timestamp: " +
- str( timestampBeginPtUp ) )
- else:
- main.log.info( "Tshark output file returned unexpected" +
- " results." )
- timestampBeginPtUp = 0
- fPortUp.close()
-
- # Obtain metrics shortly afterwards
- # This timestsamp captures
- # the epoch time at which the topology graph was updated.
- main.step( "Obtain t1 by REST call" )
- jsonStrUp1 = main.ONOS1cli.topologyEventsMetrics()
- jsonObj1 = json.loads( jsonStrUp1 )
- graphTimestamp1 = \
- jsonObj1[ graphTimestamp ][ 'value' ]
- # Obtain device timestamp. This timestamp captures
- # the epoch time at which the device event happened
- deviceTimestamp1 = \
- jsonObj1[ deviceTimestamp ][ 'value' ]
- # Get delta between graph event and OFP
- ptUpGraphToOfp1 = int( graphTimestamp1 ) -\
- int( timestampBeginPtUp )
- # Get delta between device event and OFP
- ptUpDeviceToOfp1 = int( deviceTimestamp1 ) -\
- int( timestampBeginPtUp )
-
- if ptUpGraphToOfp1 > upThresholdMin and\
- ptUpGraphToOfp1 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[0][i] = ptUpGraphToOfp1
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp1)+" ms")
- else:
- main.log.info("iter"+str(i)+" skipped. Result: "+
- str(ptUpGraphToOfp1)+" ms")
-
- if ptUpDeviceToOfp1 > upThresholdMin and\
- ptUpDeviceToOfp1 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[0][i] = ptUpDeviceToOfp1
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp1)+" ms")
- else:
- main.log.info("iter"+str(i)+" skipped. Result: "+
- str(ptUpDeviceToOfp1)+" ms")
-
- if clusterCount >= 3:
- jsonStrUp2 = main.ONOS2cli.topologyEventsMetrics()
- jsonStrUp3 = main.ONOS3cli.topologyEventsMetrics()
- jsonObj2 = json.loads( jsonStrUp2 )
- jsonObj3 = json.loads( jsonStrUp3 )
- graphTimestamp2 = \
- jsonObj2[ graphTimestamp ][ 'value' ]
- graphTimestamp3 = \
- jsonObj3[ graphTimestamp ][ 'value' ]
- deviceTimestamp2 = \
- jsonObj2[ deviceTimestamp ][ 'value' ]
- deviceTimestamp3 = \
- jsonObj3[ deviceTimestamp ][ 'value' ]
- ptUpGraphToOfp2 = int( graphTimestamp2 ) -\
- int( timestampBeginPtUp )
- ptUpGraphToOfp3 = int( graphTimestamp3 ) -\
- int( timestampBeginPtUp )
- ptUpDeviceToOfp2 = int( deviceTimestamp2 ) -\
- int( timestampBeginPtUp )
- ptUpDeviceToOfp3 = int( deviceTimestamp3 ) -\
- int( timestampBeginPtUp )
-
- if ptUpGraphToOfp2 > upThresholdMin and\
- ptUpGraphToOfp2 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[1][i] = ptUpGraphToOfp2
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp2)+" ms")
-
- if ptUpDeviceToOfp2 > upThresholdMin and\
- ptUpDeviceToOfp2 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[1][i] = ptUpDeviceToOfp2
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp2)+" ms")
-
- if ptUpGraphToOfp3 > upThresholdMin and\
- ptUpGraphToOfp3 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[2][i] = ptUpGraphToOfp3
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp3)+" ms")
-
- if ptUpDeviceToOfp3 > upThresholdMin and\
- ptUpDeviceToOfp3 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[2][i] = ptUpDeviceToOfp3
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp3)+" ms")
-
- if clusterCount >= 5:
- jsonStrUp4 = main.ONOS4cli.topologyEventsMetrics()
- jsonStrUp5 = main.ONOS5cli.topologyEventsMetrics()
- jsonObj4 = json.loads( jsonStrUp4 )
- jsonObj5 = json.loads( jsonStrUp5 )
- graphTimestamp4 = \
- jsonObj4[ graphTimestamp ][ 'value' ]
- graphTimestamp5 = \
- jsonObj5[ graphTimestamp ][ 'value' ]
- deviceTimestamp4 = \
- jsonObj4[ deviceTimestamp ][ 'value' ]
- deviceTimestamp5 = \
- jsonObj5[ deviceTimestamp ][ 'value' ]
- ptUpGraphToOfp4 = int( graphTimestamp4 ) -\
- int( timestampBeginPtUp )
- ptUpGraphToOfp5 = int( graphTimestamp5 ) -\
- int( timestampBeginPtUp )
- ptUpDeviceToOfp4 = int( deviceTimestamp4 ) -\
- int( timestampBeginPtUp )
- ptUpDeviceToOfp5 = int( deviceTimestamp5 ) -\
- int( timestampBeginPtUp )
-
- if ptUpGraphToOfp4 > upThresholdMin and\
- ptUpGraphToOfp4 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[3][i] = ptUpGraphToOfp4
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp4)+" ms")
-
- if ptUpDeviceToOfp4 > upThresholdMin and\
- ptUpDeviceToOfp4 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[3][i] = ptUpDeviceToOfp4
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp4)+" ms")
-
- if ptUpGraphToOfp5 > upThresholdMin and\
- ptUpGraphToOfp5 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[4][i] = ptUpGraphToOfp5
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp5)+" ms")
-
- if ptUpDeviceToOfp5 > upThresholdMin and\
- ptUpDeviceToOfp5 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[4][i] = ptUpDeviceToOfp5
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp5)+" ms")
-
- if clusterCount >= 7:
- jsonStrUp6 = main.ONOS6cli.topologyEventsMetrics()
- jsonStrUp7 = main.ONOS7cli.topologyEventsMetrics()
- jsonObj6 = json.loads( jsonStrUp6 )
- jsonObj7 = json.loads( jsonStrUp7 )
- graphTimestamp6 = \
- jsonObj6[ graphTimestamp ][ 'value' ]
- graphTimestamp7 = \
- jsonObj7[ graphTimestamp ][ 'value' ]
- deviceTimestamp6 = \
- jsonObj6[ deviceTimestamp ][ 'value' ]
- deviceTimestamp7 = \
- jsonObj7[ deviceTimestamp ][ 'value' ]
- ptUpGraphToOfp6 = int( graphTimestamp6 ) -\
- int( timestampBeginPtUp )
- ptUpGraphToOfp7 = int( graphTimestamp7 ) -\
- int( timestampBeginPtUp )
- ptUpDeviceToOfp6 = int( deviceTimestamp6 ) -\
- int( timestampBeginPtUp )
- ptUpDeviceToOfp7 = int( deviceTimestamp7 ) -\
- int( timestampBeginPtUp )
-
- if ptUpGraphToOfp6 > upThresholdMin and\
- ptUpGraphToOfp6 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[5][i] = ptUpGraphToOfp6
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp6)+" ms")
-
- if ptUpDeviceToOfp6 > upThresholdMin and\
- ptUpDeviceToOfp6 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[5][i] = ptUpDeviceToOfp6
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp6)+" ms")
-
- if ptUpGraphToOfp7 > upThresholdMin and\
- ptUpGraphToOfp7 < upThresholdMax and i > iterIgnore:
- portUpGraphNodeIter[6][i] = ptUpGraphToOfp7
- main.log.info("iter"+str(i)+" port up graph-to-ofp: "+
- str(ptUpGraphToOfp7)+" ms")
-
- if ptUpDeviceToOfp7 > upThresholdMin and\
- ptUpDeviceToOfp7 < upThresholdMax and i > iterIgnore:
- portUpDevNodeIter[6][i] = ptUpDeviceToOfp7
- main.log.info("iter"+str(i)+" port up device-to-ofp: "+
- str(ptUpDeviceToOfp7)+" ms")
-
- # END ITERATION FOR LOOP
-
- portUpDevList = []
- portUpGraphList = []
- portDownDevList = []
- portDownGraphList = []
-
- portUpDevAvg = 0
- portUpGraphAvg = 0
- portDownDevAvg = 0
- portDownGraphAvg = 0
-
- dbCmdList = []
-
- for node in range( 0, clusterCount ):
-
- # NOTE:
- # Currently the 2d array is initialized with 0's.
- # We want to avoid skewing our results if the array
- # was not modified with the correct latency.
- for item in portUpDevNodeIter[node]:
- if item > 0.0:
- portUpDevList.append(item)
- for item in portUpGraphNodeIter[node]:
- if item > 0.0:
- portUpGraphList.append(item)
- for item in portDownDevNodeIter[node]:
- if item > 0.0:
- portDownDevList.append(item)
- for item in portDownGraphNodeIter[node]:
- if item > 0.0:
- portDownGraphList.append(item)
-
- portUpDevAvg = round(numpy.mean(portUpDevList), 2)
- portUpGraphAvg = round(numpy.mean(portUpGraphList), 2)
- portDownDevAvg = round(numpy.mean(portDownDevList), 2)
- portDownGraphAvg = round(numpy.mean(portDownGraphList), 2)
-
- portUpStdDev = round(numpy.std(portUpGraphList),2)
- portDownStdDev = round(numpy.std(portDownGraphList),2)
-
- main.log.report( " - Node "+str(node+1)+" Summary - " )
- #main.log.report( " Port up ofp-to-device "+
- # str(round(portUpDevAvg, 2))+" ms")
- main.log.report( " Port up ofp-to-graph "+
- str(portUpGraphAvg)+" ms")
- #main.log.report( " Port down ofp-to-device "+
- # str(round(portDownDevAvg, 2))+" ms")
- main.log.report( " Port down ofp-to-graph "+
- str(portDownGraphAvg)+" ms")
-
- dbCmdList.append(
- "INSERT INTO port_latency_tests VALUES("
- "'"+timeToPost+"','port_latency_results',"
- ""+runNum+","+str(clusterCount)+",'baremetal"+str(node+1)+"',"
- ""+str(portUpGraphAvg)+","+str(portUpStdDev)+
- ","+str(portDownGraphAvg)+","+str(portDownStdDev)+");"
- )
-
- #Write to file for posting to DB
- fResult = open(resultPath, 'a')
- for line in dbCmdList:
- if line:
- fResult.write(line+"\n")
- fResult.close()
-
- print dbCmdList
-
- # Remove switches from controller for next test
- main.Mininet1.deleteSwController( "s1" )
- main.Mininet1.deleteSwController( "s2" )
-
- #TODO: correct assertion
-
- utilities.assert_equals(
- expect=main.TRUE,
- actual=assertion,
- onpass="Port discovery latency calculation successful",
- onfail="Port discovery test failed" )
-
- def CASE4( self, main ):
- """
- Link down event using loss rate 100%
-
- Important:
- Use a simple 2 switch topology with 1 link between
- the two switches. Ensure that mac addresses of the
- switches are 1 / 2 respectively
- """
- import time
- import subprocess
- import os
- import requests
- import json
- import numpy
-
- ONOS1Ip = main.params[ 'CTRL' ][ 'ip1' ]
- ONOS2Ip = main.params[ 'CTRL' ][ 'ip2' ]
- ONOS3Ip = main.params[ 'CTRL' ][ 'ip3' ]
- ONOSUser = main.params[ 'CTRL' ][ 'user' ]
-
- defaultSwPort = main.params[ 'CTRL' ][ 'port1' ]
-
- # Number of iterations of case
- numIter = main.params[ 'TEST' ][ 'numIter' ]
-
- # Timestamp 'keys' for json metrics output.
- # These are subject to change, hence moved into params
- deviceTimestamp = main.params[ 'JSON' ][ 'deviceTimestamp' ]
- linkTimestamp = main.params[ 'JSON' ][ 'linkTimestamp' ]
- graphTimestamp = main.params[ 'JSON' ][ 'graphTimestamp' ]
-
- debugMode = main.params[ 'TEST' ][ 'debugMode' ]
-
- localTime = time.strftime( '%x %X' )
- localTime = localTime.replace( "/", "" )
- localTime = localTime.replace( " ", "_" )
- localTime = localTime.replace( ":", "" )
- if debugMode == 'on':
- main.ONOS1.tsharkPcap( "eth0",
- "/tmp/link_lat_pcap_" + localTime )
-
- # Threshold for this test case
- upThresholdStr = main.params[ 'TEST' ][ 'linkUpThreshold' ]
- downThresholdStr = main.params[ 'TEST' ][ 'linkDownThreshold' ]
-
- upThresholdObj = upThresholdStr.split( "," )
- downThresholdObj = downThresholdStr.split( "," )
-
- upThresholdMin = int( upThresholdObj[ 0 ] )
- upThresholdMax = int( upThresholdObj[ 1 ] )
-
- downThresholdMin = int( downThresholdObj[ 0 ] )
- downThresholdMax = int( downThresholdObj[ 1 ] )
-
- assertion = main.TRUE
- # Link event timestamp to system time list
- linkDownLinkToSystemList = []
- linkUpLinkToSystemList = []
- # Graph event timestamp to system time list
- linkDownGraphToSystemList = []
- linkUpGraphToSystemList = []
-
- main.log.report( "Link up / down discovery latency between " +
- "two switches" )
- main.log.report( "Simulated by setting loss-rate 100%" )
- main.log.report( "'tc qdisc add dev <intfs> root netem loss 100%'" )
- main.log.report( "Total iterations of test: " + str( numIter ) )
-
- main.step( "Assign all switches" )
- main.Mininet1.assignSwController( sw="1",
- ip1=ONOS1Ip, port1=defaultSwPort )
- main.Mininet1.assignSwController( sw="2",
- ip1=ONOS1Ip, port1=defaultSwPort )
-
- main.step( "Verifying switch assignment" )
- resultS1 = main.Mininet1.getSwController( sw="s1" )
- resultS2 = main.Mininet1.getSwController( sw="s2" )
-
- # Allow time for events to finish before taking measurements
- time.sleep( 10 )
-
- linkDown1 = False
- linkDown2 = False
- linkDown3 = False
- # Start iteration of link event test
- for i in range( 0, int( numIter ) ):
- main.step( "Getting initial system time as t0" )
-
- # System time in epoch ms
- timestampLinkDownT0 = time.time() * 1000
- # Link down is simulated by 100% loss rate using traffic
- # control command
- main.Mininet1.handle.sendline(
- "sh tc qdisc add dev s1-eth1 root netem loss 100%" )
-
- # TODO: Iterate through 'links' command to verify that
- # link s1 -> s2 went down ( loop timeout 30 seconds )
- # on all 3 ONOS instances
- main.log.info( "Checking ONOS for link update" )
- loopCount = 0
- while( not ( linkDown1 and linkDown2 and linkDown3 )
- and loopCount < 30 ):
- jsonStr1 = main.ONOS1cli.links()
- jsonStr2 = main.ONOS2cli.links()
- jsonStr3 = main.ONOS3cli.links()
-
- if not ( jsonStr1 and jsonStr2 and jsonStr3 ):
- main.log.error( "CLI command returned error " )
- break
- else:
- jsonObj1 = json.loads( jsonStr1 )
- jsonObj2 = json.loads( jsonStr2 )
- jsonObj3 = json.loads( jsonStr3 )
- for obj1 in jsonObj1:
- if '01' not in obj1[ 'src' ][ 'device' ]:
- linkDown1 = True
- main.log.info( "Link down from " +
- "s1 -> s2 on ONOS1 detected" )
- for obj2 in jsonObj2:
- if '01' not in obj2[ 'src' ][ 'device' ]:
- linkDown2 = True
- main.log.info( "Link down from " +
- "s1 -> s2 on ONOS2 detected" )
- for obj3 in jsonObj3:
- if '01' not in obj3[ 'src' ][ 'device' ]:
- linkDown3 = True
- main.log.info( "Link down from " +
- "s1 -> s2 on ONOS3 detected" )
-
- loopCount += 1
- # If CLI doesn't like the continuous requests
- # and exits in this loop, increase the sleep here.
- # Consequently, while loop timeout will increase
- time.sleep( 1 )
-
- # Give time for metrics measurement to catch up
- # NOTE: May need to be configured more accurately
- time.sleep( 10 )
- # If we exited the while loop and link down 1,2,3 are still
- # false, then ONOS has failed to discover link down event
- if not ( linkDown1 and linkDown2 and linkDown3 ):
- main.log.info( "Link down discovery failed" )
-
- linkDownLatGraph1 = 0
- linkDownLatGraph2 = 0
- linkDownLatGraph3 = 0
- linkDownLatDevice1 = 0
- linkDownLatDevice2 = 0
- linkDownLatDevice3 = 0
-
- assertion = main.FALSE
- else:
- jsonTopoMetrics1 =\
- main.ONOS1cli.topologyEventsMetrics()
- jsonTopoMetrics2 =\
- main.ONOS2cli.topologyEventsMetrics()
- jsonTopoMetrics3 =\
- main.ONOS3cli.topologyEventsMetrics()
- jsonTopoMetrics1 = json.loads( jsonTopoMetrics1 )
- jsonTopoMetrics2 = json.loads( jsonTopoMetrics2 )
- jsonTopoMetrics3 = json.loads( jsonTopoMetrics3 )
-
- main.log.info( "Obtaining graph and device timestamp" )
- graphTimestamp1 = \
- jsonTopoMetrics1[ graphTimestamp ][ 'value' ]
- graphTimestamp2 = \
- jsonTopoMetrics2[ graphTimestamp ][ 'value' ]
- graphTimestamp3 = \
- jsonTopoMetrics3[ graphTimestamp ][ 'value' ]
-
- linkTimestamp1 = \
- jsonTopoMetrics1[ linkTimestamp ][ 'value' ]
- linkTimestamp2 = \
- jsonTopoMetrics2[ linkTimestamp ][ 'value' ]
- linkTimestamp3 = \
- jsonTopoMetrics3[ linkTimestamp ][ 'value' ]
-
- if graphTimestamp1 and graphTimestamp2 and\
- graphTimestamp3 and linkTimestamp1 and\
- linkTimestamp2 and linkTimestamp3:
- linkDownLatGraph1 = int( graphTimestamp1 ) -\
- int( timestampLinkDownT0 )
- linkDownLatGraph2 = int( graphTimestamp2 ) -\
- int( timestampLinkDownT0 )
- linkDownLatGraph3 = int( graphTimestamp3 ) -\
- int( timestampLinkDownT0 )
-
- linkDownLatLink1 = int( linkTimestamp1 ) -\
- int( timestampLinkDownT0 )
- linkDownLatLink2 = int( linkTimestamp2 ) -\
- int( timestampLinkDownT0 )
- linkDownLatLink3 = int( linkTimestamp3 ) -\
- int( timestampLinkDownT0 )
- else:
- main.log.error( "There was an error calculating" +
- " the delta for link down event" )
- linkDownLatGraph1 = 0
- linkDownLatGraph2 = 0
- linkDownLatGraph3 = 0
-
- linkDownLatDevice1 = 0
- linkDownLatDevice2 = 0
- linkDownLatDevice3 = 0
-
- main.log.info( "Link down latency ONOS1 iteration " +
- str( i ) + " (end-to-end): " +
- str( linkDownLatGraph1 ) + " ms" )
- main.log.info( "Link down latency ONOS2 iteration " +
- str( i ) + " (end-to-end): " +
- str( linkDownLatGraph2 ) + " ms" )
- main.log.info( "Link down latency ONOS3 iteration " +
- str( i ) + " (end-to-end): " +
- str( linkDownLatGraph3 ) + " ms" )
-
- main.log.info( "Link down latency ONOS1 iteration " +
- str( i ) + " (link-event-to-system-timestamp): " +
- str( linkDownLatLink1 ) + " ms" )
- main.log.info( "Link down latency ONOS2 iteration " +
- str( i ) + " (link-event-to-system-timestamp): " +
- str( linkDownLatLink2 ) + " ms" )
- main.log.info( "Link down latency ONOS3 iteration " +
- str( i ) + " (link-event-to-system-timestamp): " +
- str( linkDownLatLink3 ) )
-
- # Calculate avg of node calculations
- linkDownLatGraphAvg =\
- ( linkDownLatGraph1 +
- linkDownLatGraph2 +
- linkDownLatGraph3 ) / 3
- linkDownLatLinkAvg =\
- ( linkDownLatLink1 +
- linkDownLatLink2 +
- linkDownLatLink3 ) / 3
-
- # Set threshold and append latency to list
- if linkDownLatGraphAvg > downThresholdMin and\
- linkDownLatGraphAvg < downThresholdMax:
- linkDownGraphToSystemList.append(
- linkDownLatGraphAvg )
- else:
- main.log.info( "Link down latency exceeded threshold" )
- main.log.info( "Results for iteration " + str( i ) +
- "have been omitted" )
- if linkDownLatLinkAvg > downThresholdMin and\
- linkDownLatLinkAvg < downThresholdMax:
- linkDownLinkToSystemList.append(
- linkDownLatLinkAvg )
- else:
- main.log.info( "Link down latency exceeded threshold" )
- main.log.info( "Results for iteration " + str( i ) +
- "have been omitted" )
-
- # NOTE: To remove loss rate and measure latency:
- # 'sh tc qdisc del dev s1-eth1 root'
- timestampLinkUpT0 = time.time() * 1000
- main.Mininet1.handle.sendline( "sh tc qdisc del dev " +
- "s1-eth1 root" )
- main.Mininet1.handle.expect( "mininet>" )
-
- main.log.info( "Checking ONOS for link update" )
-
- linkDown1 = True
- linkDown2 = True
- linkDown3 = True
- loopCount = 0
- while( ( linkDown1 and linkDown2 and linkDown3 )
- and loopCount < 30 ):
- jsonStr1 = main.ONOS1cli.links()
- jsonStr2 = main.ONOS2cli.links()
- jsonStr3 = main.ONOS3cli.links()
- if not ( jsonStr1 and jsonStr2 and jsonStr3 ):
- main.log.error( "CLI command returned error " )
- break
- else:
- jsonObj1 = json.loads( jsonStr1 )
- jsonObj2 = json.loads( jsonStr2 )
- jsonObj3 = json.loads( jsonStr3 )
-
- for obj1 in jsonObj1:
- if '01' in obj1[ 'src' ][ 'device' ]:
- linkDown1 = False
- main.log.info( "Link up from " +
- "s1 -> s2 on ONOS1 detected" )
- for obj2 in jsonObj2:
- if '01' in obj2[ 'src' ][ 'device' ]:
- linkDown2 = False
- main.log.info( "Link up from " +
- "s1 -> s2 on ONOS2 detected" )
- for obj3 in jsonObj3:
- if '01' in obj3[ 'src' ][ 'device' ]:
- linkDown3 = False
- main.log.info( "Link up from " +
- "s1 -> s2 on ONOS3 detected" )
-
- loopCount += 1
- time.sleep( 1 )
-
- if ( linkDown1 and linkDown2 and linkDown3 ):
- main.log.info( "Link up discovery failed" )
-
- linkUpLatGraph1 = 0
- linkUpLatGraph2 = 0
- linkUpLatGraph3 = 0
- linkUpLatDevice1 = 0
- linkUpLatDevice2 = 0
- linkUpLatDevice3 = 0
-
- assertion = main.FALSE
- else:
- jsonTopoMetrics1 =\
- main.ONOS1cli.topologyEventsMetrics()
- jsonTopoMetrics2 =\
- main.ONOS2cli.topologyEventsMetrics()
- jsonTopoMetrics3 =\
- main.ONOS3cli.topologyEventsMetrics()
- jsonTopoMetrics1 = json.loads( jsonTopoMetrics1 )
- jsonTopoMetrics2 = json.loads( jsonTopoMetrics2 )
- jsonTopoMetrics3 = json.loads( jsonTopoMetrics3 )
-
- main.log.info( "Obtaining graph and device timestamp" )
- graphTimestamp1 = \
- jsonTopoMetrics1[ graphTimestamp ][ 'value' ]
- graphTimestamp2 = \
- jsonTopoMetrics2[ graphTimestamp ][ 'value' ]
- graphTimestamp3 = \
- jsonTopoMetrics3[ graphTimestamp ][ 'value' ]
-
- linkTimestamp1 = \
- jsonTopoMetrics1[ linkTimestamp ][ 'value' ]
- linkTimestamp2 = \
- jsonTopoMetrics2[ linkTimestamp ][ 'value' ]
- linkTimestamp3 = \
- jsonTopoMetrics3[ linkTimestamp ][ 'value' ]
-
- if graphTimestamp1 and graphTimestamp2 and\
- graphTimestamp3 and linkTimestamp1 and\
- linkTimestamp2 and linkTimestamp3:
- linkUpLatGraph1 = int( graphTimestamp1 ) -\
- int( timestampLinkUpT0 )
- linkUpLatGraph2 = int( graphTimestamp2 ) -\
- int( timestampLinkUpT0 )
- linkUpLatGraph3 = int( graphTimestamp3 ) -\
- int( timestampLinkUpT0 )
-
- linkUpLatLink1 = int( linkTimestamp1 ) -\
- int( timestampLinkUpT0 )
- linkUpLatLink2 = int( linkTimestamp2 ) -\
- int( timestampLinkUpT0 )
- linkUpLatLink3 = int( linkTimestamp3 ) -\
- int( timestampLinkUpT0 )
- else:
- main.log.error( "There was an error calculating" +
- " the delta for link down event" )
- linkUpLatGraph1 = 0
- linkUpLatGraph2 = 0
- linkUpLatGraph3 = 0
-
- linkUpLatDevice1 = 0
- linkUpLatDevice2 = 0
- linkUpLatDevice3 = 0
-
- if debugMode == 'on':
- main.log.info( "Link up latency ONOS1 iteration " +
- str( i ) + " (end-to-end): " +
- str( linkUpLatGraph1 ) + " ms" )
- main.log.info( "Link up latency ONOS2 iteration " +
- str( i ) + " (end-to-end): " +
- str( linkUpLatGraph2 ) + " ms" )
- main.log.info( "Link up latency ONOS3 iteration " +
- str( i ) + " (end-to-end): " +
- str( linkUpLatGraph3 ) + " ms" )
-
- main.log.info(
- "Link up latency ONOS1 iteration " +
- str( i ) +
- " (link-event-to-system-timestamp): " +
- str( linkUpLatLink1 ) +
- " ms" )
- main.log.info(
- "Link up latency ONOS2 iteration " +
- str( i ) +
- " (link-event-to-system-timestamp): " +
- str( linkUpLatLink2 ) +
- " ms" )
- main.log.info(
- "Link up latency ONOS3 iteration " +
- str( i ) +
- " (link-event-to-system-timestamp): " +
- str( linkUpLatLink3 ) )
-
- # Calculate avg of node calculations
- linkUpLatGraphAvg =\
- ( linkUpLatGraph1 +
- linkUpLatGraph2 +
- linkUpLatGraph3 ) / 3
- linkUpLatLinkAvg =\
- ( linkUpLatLink1 +
- linkUpLatLink2 +
- linkUpLatLink3 ) / 3
-
- # Set threshold and append latency to list
- if linkUpLatGraphAvg > upThresholdMin and\
- linkUpLatGraphAvg < upThresholdMax:
- linkUpGraphToSystemList.append(
- linkUpLatGraphAvg )
- else:
- main.log.info( "Link up latency exceeded threshold" )
- main.log.info( "Results for iteration " + str( i ) +
- "have been omitted" )
- if linkUpLatLinkAvg > upThresholdMin and\
- linkUpLatLinkAvg < upThresholdMax:
- linkUpLinkToSystemList.append(
- linkUpLatLinkAvg )
- else:
- main.log.info( "Link up latency exceeded threshold" )
- main.log.info( "Results for iteration " + str( i ) +
- "have been omitted" )
-
- # Calculate min, max, avg of list and report
- linkDownMin = min( linkDownGraphToSystemList )
- linkDownMax = max( linkDownGraphToSystemList )
- linkDownAvg = sum( linkDownGraphToSystemList ) / \
- len( linkDownGraphToSystemList )
- linkUpMin = min( linkUpGraphToSystemList )
- linkUpMax = max( linkUpGraphToSystemList )
- linkUpAvg = sum( linkUpGraphToSystemList ) / \
- len( linkUpGraphToSystemList )
- linkDownStdDev = \
- str( round( numpy.std( linkDownGraphToSystemList ), 1 ) )
- linkUpStdDev = \
- str( round( numpy.std( linkUpGraphToSystemList ), 1 ) )
-
- main.log.report( "Link down latency " +
- "Avg: " + str( linkDownAvg ) + " ms " +
- "Std Deviation: " + linkDownStdDev + " ms" )
- main.log.report( "Link up latency " +
- "Avg: " + str( linkUpAvg ) + " ms " +
- "Std Deviation: " + linkUpStdDev + " ms" )
-
- utilities.assert_equals(
- expect=main.TRUE,
- actual=assertion,
- onpass="Link discovery latency calculation successful",
- onfail="Link discovery latency case failed" )
-
- def CASE5( self, main ):
- """
- 100 Switch discovery latency
-
- Important:
- This test case can be potentially dangerous if
- your machine has previously set iptables rules.
- One of the steps of the test case will flush
- all existing iptables rules.
- Note:
- You can specify the number of switches in the
- params file to adjust the switch discovery size
- ( and specify the corresponding topology in Mininet1
- .topo file )
- """
- import time
- import subprocess
- import os
- import requests
- import json
-
- ONOS1Ip = main.params[ 'CTRL' ][ 'ip1' ]
- ONOS2Ip = main.params[ 'CTRL' ][ 'ip2' ]
- ONOS3Ip = main.params[ 'CTRL' ][ 'ip3' ]
- MN1Ip = main.params[ 'MN' ][ 'ip1' ]
- ONOSUser = main.params[ 'CTRL' ][ 'user' ]
-
- defaultSwPort = main.params[ 'CTRL' ][ 'port1' ]
-
- # Number of iterations of case
- numIter = main.params[ 'TEST' ][ 'numIter' ]
- numSw = main.params[ 'TEST' ][ 'numSwitch' ]
-
- # Timestamp 'keys' for json metrics output.
- # These are subject to change, hence moved into params
- deviceTimestamp = main.params[ 'JSON' ][ 'deviceTimestamp' ]
- graphTimestamp = main.params[ 'JSON' ][ 'graphTimestamp' ]
-
- debugMode = main.params[ 'TEST' ][ 'debugMode' ]
-
- localTime = time.strftime( '%X' )
- localTime = localTime.replace( "/", "" )
- localTime = localTime.replace( " ", "_" )
- localTime = localTime.replace( ":", "" )
- if debugMode == 'on':
- main.ONOS1.tsharkPcap( "eth0",
- "/tmp/100_sw_lat_pcap_" + localTime )
-
- # Threshold for this test case
- swDiscThresholdStr = main.params[ 'TEST' ][ 'swDisc100Threshold' ]
- swDiscThresholdObj = swDiscThresholdStr.split( "," )
- swDiscThresholdMin = int( swDiscThresholdObj[ 0 ] )
- swDiscThresholdMax = int( swDiscThresholdObj[ 1 ] )
-
- tsharkOfpOutput = "/tmp/tshark_ofp_" + numSw + "sw.txt"
- tsharkTcpOutput = "/tmp/tshark_tcp_" + numSw + "sw.txt"
-
- tsharkOfpResultList = []
- tsharkTcpResultList = []
-
- swDiscoveryLatList = []
-
- main.case( numSw + " Switch discovery latency" )
- main.step( "Assigning all switches to ONOS1" )
- for i in range( 1, int( numSw ) + 1 ):
- main.Mininet1.assignSwController(
- sw=str( i ),
- ip1=ONOS1Ip,
- port1=defaultSwPort )
-
- # Ensure that nodes are configured with ptpd
- # Just a warning message
- main.log.info( "Please check ptpd configuration to ensure" +
- " All nodes' system times are in sync" )
- time.sleep( 5 )
-
- for i in range( 0, int( numIter ) ):
-
- main.step( "Set iptables rule to block incoming sw connections" )
- # Set iptables rule to block incoming switch connections
- # The rule description is as follows:
- # Append to INPUT rule,
- # behavior DROP that matches following:
- # * packet type: tcp
- # * source IP: MN1Ip
- # * destination PORT: 6633
- main.ONOS1.handle.sendline(
- "sudo iptables -A INPUT -p tcp -s " + MN1Ip +
- " --dport " + defaultSwPort + " -j DROP" )
- main.ONOS1.handle.expect( "\$" )
- # Append to OUTPUT rule,
- # behavior DROP that matches following:
- # * packet type: tcp
- # * source IP: MN1Ip
- # * destination PORT: 6633
- main.ONOS1.handle.sendline(
- "sudo iptables -A OUTPUT -p tcp -s " + MN1Ip +
- " --dport " + defaultSwPort + " -j DROP" )
- main.ONOS1.handle.expect( "\$" )
- # Give time to allow rule to take effect
- # NOTE: Sleep period may need to be configured
- # based on the number of switches in the topology
- main.log.info( "Please wait for switch connection to " +
- "time out" )
- time.sleep( 60 )
-
- # Gather vendor OFP with tshark
- main.ONOS1.tsharkGrep( "OFP 86 Vendor",
- tsharkOfpOutput )
- main.ONOS1.tsharkGrep( "TCP 74 ",
- tsharkTcpOutput )
-
- # NOTE: Remove all iptables rule quickly ( flush )
- # Before removal, obtain TestON timestamp at which
- # removal took place
- # ( ensuring nodes are configured via ptp )
- # sudo iptables -F
-
- t0System = time.time() * 1000
- main.ONOS1.handle.sendline(
- "sudo iptables -F" )
-
- # Counter to track loop count
- counterLoop = 0
- counterAvail1 = 0
- counterAvail2 = 0
- counterAvail3 = 0
- onos1Dev = False
- onos2Dev = False
- onos3Dev = False
- while counterLoop < 60:
- # Continue to check devices for all device
- # availability. When all devices in all 3
- # ONOS instances indicate that devices are available
- # obtain graph event timestamp for t1.
- deviceStrObj1 = main.ONOS1cli.devices()
- deviceStrObj2 = main.ONOS2cli.devices()
- deviceStrObj3 = main.ONOS3cli.devices()
-
- deviceJson1 = json.loads( deviceStrObj1 )
- deviceJson2 = json.loads( deviceStrObj2 )
- deviceJson3 = json.loads( deviceStrObj3 )
-
- for device1 in deviceJson1:
- if device1[ 'available' ]:
- counterAvail1 += 1
- if counterAvail1 == int( numSw ):
- onos1Dev = True
- main.log.info( "All devices have been " +
- "discovered on ONOS1" )
- else:
- counterAvail1 = 0
- for device2 in deviceJson2:
- if device2[ 'available' ]:
- counterAvail2 += 1
- if counterAvail2 == int( numSw ):
- onos2Dev = True
- main.log.info( "All devices have been " +
- "discovered on ONOS2" )
- else:
- counterAvail2 = 0
- for device3 in deviceJson3:
- if device3[ 'available' ]:
- counterAvail3 += 1
- if counterAvail3 == int( numSw ):
- onos3Dev = True
- main.log.info( "All devices have been " +
- "discovered on ONOS3" )
- else:
- counterAvail3 = 0
-
- if onos1Dev and onos2Dev and onos3Dev:
- main.log.info( "All devices have been discovered " +
- "on all ONOS instances" )
- jsonStrTopologyMetrics1 =\
- main.ONOS1cli.topologyEventsMetrics()
- jsonStrTopologyMetrics2 =\
- main.ONOS2cli.topologyEventsMetrics()
- jsonStrTopologyMetrics3 =\
- main.ONOS3cli.topologyEventsMetrics()
-
- # Exit while loop if all devices discovered
- break
-
- counterLoop += 1
- # Give some time in between CLI calls
- #( will not affect measurement )
- time.sleep( 3 )
-
- main.ONOS1.tsharkStop()
-
- os.system( "scp " + ONOSUser + "@" + ONOS1Ip + ":" +
- tsharkOfpOutput + " /tmp/" )
- os.system( "scp " + ONOSUser + "@" + ONOS1Ip + ":" +
- tsharkTcpOutput + " /tmp/" )
-
- # TODO: Automate OFP output analysis
- # Debug mode - print out packets captured at runtime
- if debugMode == 'on':
- ofpFile = open( tsharkOfpOutput, 'r' )
- main.log.info( "Tshark OFP Vendor output: " )
- for line in ofpFile:
- tsharkOfpResultList.append( line )
- main.log.info( line )
- ofpFile.close()
-
- tcpFile = open( tsharkTcpOutput, 'r' )
- main.log.info( "Tshark TCP 74 output: " )
- for line in tcpFile:
- tsharkTcpResultList.append( line )
- main.log.info( line )
- tcpFile.close()
-
- jsonObj1 = json.loads( jsonStrTopologyMetrics1 )
- jsonObj2 = json.loads( jsonStrTopologyMetrics2 )
- jsonObj3 = json.loads( jsonStrTopologyMetrics3 )
-
- graphTimestamp1 = \
- jsonObj1[ graphTimestamp ][ 'value' ]
- graphTimestamp2 = \
- jsonObj2[ graphTimestamp ][ 'value' ]
- graphTimestamp3 = \
- jsonObj3[ graphTimestamp ][ 'value' ]
-
- graphLat1 = int( graphTimestamp1 ) - int( t0System )
- graphLat2 = int( graphTimestamp2 ) - int( t0System )
- graphLat3 = int( graphTimestamp3 ) - int( t0System )
-
- avgGraphLat = \
- ( int( graphLat1 ) +
- int( graphLat2 ) +
- int( graphLat3 ) ) / 3
-
- if avgGraphLat > swDiscThresholdMin \
- and avgGraphLat < swDiscThresholdMax:
- swDiscoveryLatList.append(
- avgGraphLat )
- else:
- main.log.info( "100 Switch discovery latency " +
- "exceeded the threshold." )
-
- # END ITERATION FOR LOOP
-
- swLatMin = min( swDiscoveryLatList )
- swLatMax = max( swDiscoveryLatList )
- swLatAvg = sum( swDiscoveryLatList ) /\
- len( swDiscoveryLatList )
-
- main.log.report( "100 Switch discovery lat " +
- "Min: " + str( swLatMin ) + " ms" +
- "Max: " + str( swLatMax ) + " ms" +
- "Avg: " + str( swLatAvg ) + " ms" )
-
- def CASE6( self, main ):
- """
- Increase number of nodes and initiate CLI
- """
- import time
-
- ONOS1Ip = main.params[ 'CTRL' ][ 'ip1' ]
- ONOS2Ip = main.params[ 'CTRL' ][ 'ip2' ]
- ONOS3Ip = main.params[ 'CTRL' ][ 'ip3' ]
- ONOS4Ip = main.params[ 'CTRL' ][ 'ip4' ]
- ONOS5Ip = main.params[ 'CTRL' ][ 'ip5' ]
- ONOS6Ip = main.params[ 'CTRL' ][ 'ip6' ]
- ONOS7Ip = main.params[ 'CTRL' ][ 'ip7' ]
-
- cellName = main.params[ 'ENV' ][ 'cellName' ]
-
- global clusterCount
-
- # Cluster size increased everytime the case is defined
- clusterCount += 2
-
- main.log.report( "Increasing cluster size to " +
- str( clusterCount ) )
-
- installResult = main.FALSE
- if clusterCount == 3:
- main.log.info( "Installing nodes 2 and 3" )
- node2Result = \
- main.ONOSbench.onosInstall( node=ONOS2Ip )
- node3Result = \
- main.ONOSbench.onosInstall( node=ONOS3Ip )
- installResult = node2Result and node3Result
-
- time.sleep( 5 )
-
- main.ONOS2cli.startOnosCli( ONOS2Ip )
- main.ONOS3cli.startOnosCli( ONOS3Ip )
-
- elif clusterCount == 5:
- main.log.info( "Installing nodes 4 and 5" )
- node4Result = \
- main.ONOSbench.onosInstall( node=ONOS4Ip )
- node5Result = \
- main.ONOSbench.onosInstall( node=ONOS5Ip )
- installResult = node4Result and node5Result
-
- time.sleep( 5 )
-
- main.ONOS4cli.startOnosCli( ONOS4Ip )
- main.ONOS5cli.startOnosCli( ONOS5Ip )
-
- elif clusterCount == 7:
- main.log.info( "Installing nodes 6 and 7" )
- node6Result = \
- main.ONOSbench.onosInstall( node=ONOS6Ip )
- node7Result = \
- main.ONOSbench.onosInstall( node=ONOS7Ip )
- installResult = node6Result and node7Result
-
- time.sleep( 5 )
-
- main.ONOS6cli.startOnosCli( ONOS6Ip )
- main.ONOS7cli.startOnosCli( ONOS7Ip )
diff --git a/TestON/tests/TopoPerfNext/TopoPerfNext.topo b/TestON/tests/TopoPerfNext/TopoPerfNext.topo
deleted file mode 100644
index f12d192..0000000
--- a/TestON/tests/TopoPerfNext/TopoPerfNext.topo
+++ /dev/null
@@ -1,163 +0,0 @@
-<TOPOLOGY>
- <COMPONENT>
-
- <ONOSbench>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>1</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOSbench>
-
- <ONOS1cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>2</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS1cli>
-
- <ONOS2cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>3</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS2cli>
-
- <ONOS3cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>4</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS3cli>
-
- <ONOS4cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>5</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS4cli>
-
- <ONOS5cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>6</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS5cli>
-
- <ONOS6cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>7</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS6cli>
-
- <ONOS7cli>
- <host>10.128.174.10</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosCliDriver</type>
- <connect_order>8</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS7cli>
-
- <ONOS1>
- <host>10.128.174.1</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>9</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS1>
-
- <ONOS2>
- <host>10.128.174.2</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>10</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS2>
-
- <ONOS3>
- <host>10.128.174.3</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>11</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS3>
-
- <ONOS4>
- <host>10.128.174.4</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>12</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS4>
-
- <ONOS5>
- <host>10.128.174.5</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>13</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS5>
-
- <ONOS6>
- <host>10.128.174.6</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>14</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS6>
-
- <ONOS7>
- <host>10.128.174.7</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>OnosDriver</type>
- <connect_order>15</connect_order>
- <COMPONENTS> </COMPONENTS>
- </ONOS7>
-
- <Mininet1>
- <host>10.128.10.90</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>MininetCliDriver</type>
- <connect_order>16</connect_order>
- <COMPONENTS>
- <arg1> --custom topo-perf-2sw.py </arg1>
- <arg2> --arp --mac --topo mytopo</arg2>
- <arg3> </arg3>
- <controller> remote </controller>
- </COMPONENTS>
- </Mininet1>
-
- <Mininet2>
- <host>10.128.10.90</host>
- <user>admin</user>
- <password>onos_test</password>
- <type>RemoteMininetDriver</type>
- <connect_order>17</connect_order>
- <COMPONENTS> </COMPONENTS>
- </Mininet2>
-
- </COMPONENT>
-</TOPOLOGY>
diff --git a/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.params b/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.params
index ab215e9..eba319c 100644
--- a/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.params
+++ b/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.params
@@ -3,7 +3,7 @@
<ENV>
<cellName>topo_perf_test</cellName>
- <cellFeatures>"org.onosproject.metrics,org.onosproject.openflow"</cellFeatures>
+ <cellFeatures>"drivers,metrics,openflow"</cellFeatures>
</ENV>
<GIT>
@@ -13,7 +13,7 @@
</GIT>
<CTRL>
- <user>sdn</user>
+ <user>admin</user>
<ip1>10.254.1.201</ip1>
<port1>6633</port1>
<ip2>10.254.1.202</ip2>
@@ -62,7 +62,7 @@
</topoConfigName>
#Number of times to iterate each case
- <numIter>35</numIter>
+ <numIter>13</numIter>
<numSwitch>2</numSwitch>
#Number of iterations to ignore initially
<iterIgnore>2</iterIgnore>
diff --git a/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.py b/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.py
index 0f0fe55..e2245ba 100644
--- a/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.py
+++ b/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.py
@@ -272,10 +272,10 @@
metricsSwUp = CLIs[node].topologyEventsMetrics()
jsonStr.append(metricsSwUp)
- time.sleep(1)
-
main.log.info('Stopping all Tshark processes')
main.ONOS1.tsharkStop()
+
+ time.sleep(5)
main.log.info('Copying over tshark files')
os.system('scp ' + ONOSUser + '@' + nodeIpList[0] +
@@ -288,7 +288,8 @@
nodeIpList[0] + ':' + tsharkOfOutput + ' /tmp/')
# Get tcp syn / ack output
- # time.sleep(1)
+ time.sleep(1)
+
tcpFile = open(tsharkTcpOutput, 'r')
tempText = tcpFile.readline()
tempText = tempText.split(' ')
diff --git a/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.topo b/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.topo
index 6a70f60..570dece 100644
--- a/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.topo
+++ b/TestON/tests/TopoPerfNextBM/TopoPerfNextBM.topo
@@ -2,7 +2,7 @@
<COMPONENT>
<ONOSbench>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosDriver</type>
@@ -11,7 +11,7 @@
</ONOSbench>
<ONOS1cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -20,7 +20,7 @@
</ONOS1cli>
<ONOS2cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -29,7 +29,7 @@
</ONOS2cli>
<ONOS3cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -38,7 +38,7 @@
</ONOS3cli>
<ONOS4cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -47,7 +47,7 @@
</ONOS4cli>
<ONOS5cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -56,7 +56,7 @@
</ONOS5cli>
<ONOS6cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -65,7 +65,7 @@
</ONOS6cli>
<ONOS7cli>
- <host>10.128.174.10</host>
+ <host>10.254.1.200</host>
<user>admin</user>
<password>onos_test</password>
<type>OnosCliDriver</type>
@@ -74,9 +74,9 @@
</ONOS7cli>
<ONOS1>
- <host>10.128.174.1</host>
- <user>sdn</user>
- <password>rocks</password>
+ <host>10.254.1.201</host>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>9</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -84,8 +84,8 @@
<ONOS2>
<host>10.254.1.202</host>
- <user>sdn</user>
- <password>rocks</password>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>10</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -93,8 +93,8 @@
<ONOS3>
<host>10.254.1.203</host>
- <user>sdn</user>
- <password>rocks</password>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>11</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -102,8 +102,8 @@
<ONOS4>
<host>10.254.1.204</host>
- <user>sdn</user>
- <password>rocks</password>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>12</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -111,8 +111,8 @@
<ONOS5>
<host>10.254.1.205</host>
- <user>sdn</user>
- <password>rocks</password>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>13</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -120,8 +120,8 @@
<ONOS6>
<host>10.254.1.206</host>
- <user>sdn</user>
- <password>rocks</password>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>14</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -129,8 +129,8 @@
<ONOS7>
<host>10.254.1.207</host>
- <user>sdn</user>
- <password>rocks</password>
+ <user>admin</user>
+ <password>onos_test</password>
<type>OnosDriver</type>
<connect_order>15</connect_order>
<COMPONENTS> </COMPONENTS>
@@ -144,7 +144,7 @@
<connect_order>16</connect_order>
<COMPONENTS>
<arg1> --custom topo-perf-2sw.py </arg1>
- <arg2> --arp --mac --topo mytopo</arg2>
+ <arg2> --topo mytopo</arg2>
<arg3> </arg3>
<controller> remote </controller>
</COMPONENTS>
diff --git a/TestON/tests/TopoPerfNext/__init__.py b/TestON/tests/TopoPerfNextBM/__init__.py
similarity index 100%
rename from TestON/tests/TopoPerfNext/__init__.py
rename to TestON/tests/TopoPerfNextBM/__init__.py
diff --git a/TestON/tests/TopoPerfNext/TopoPerfNext.params b/TestON/tests/TopoPerfNextBM/backup/TopoPerfNextBM.params
similarity index 77%
rename from TestON/tests/TopoPerfNext/TopoPerfNext.params
rename to TestON/tests/TopoPerfNextBM/backup/TopoPerfNextBM.params
index dc2d519..d681433 100644
--- a/TestON/tests/TopoPerfNext/TopoPerfNext.params
+++ b/TestON/tests/TopoPerfNextBM/backup/TopoPerfNextBM.params
@@ -1,8 +1,9 @@
<PARAMS>
- <testcases>1,2,3,6,2,3,6,2,3,6,2,3</testcases>
+ <testcases>1,2,3,4,2,3,4,2,3,4,2,3</testcases>
<ENV>
<cellName>topo_perf_test</cellName>
+ <cellFeatures>"org.onosproject.metrics,org.onosproject.openflow"</cellFeatures>
</ENV>
<GIT>
@@ -12,7 +13,7 @@
</GIT>
<CTRL>
- <user>admin</user>
+ <user>sdn</user>
<ip1>10.128.174.1</ip1>
<port1>6633</port1>
<ip2>10.128.174.2</ip2>
@@ -35,6 +36,15 @@
<ip>10.128.174.10</ip>
</BENCH>
+ <TSHARK>
+ <ofpPortStatus>OF 1.3 146</ofpPortStatus>
+ <ofpRoleReply>OF 1.3 90 of_role_reply</ofpRoleReply>
+ <featureReply>OF 1.3 98 of_features_reply</featureReply>
+ <roleRequest>OF 1.3 90 of_role_request</roleRequest>
+ <tcpSynAck>TCP 74 6633</tcpSynAck>
+ <finAckSequence>FIN</finAckSequence>
+ </TSHARK>
+
<TEST>
#'on' or 'off' debug mode.
#If on, logging will be more verbose and
@@ -70,10 +80,10 @@
<DB>
<postToDB>on</postToDB>
<portEventResultPath>
- /home/admin/ONLabTest/TestON/tests/TopoPerfNext/portEventResultDb.log
+ /home/admin/ONLabTest/TestON/tests/TopoPerfNextBM/portEventResultDb.log
</portEventResultPath>
<switchEventResultPath>
- /home/admin/ONLabTest/TestON/tests/TopoPerfNext/switchEventResultDb.log
+ /home/admin/ONLabTest/TestON/tests/TopoPerfNextBM/switchEventResultDb.log
</switchEventResultPath>
</DB>
diff --git a/TestON/tests/TopoPerfNext/__init__.py b/TestON/tests/TopoPerfNextBM/portEventResultDb.log
similarity index 100%
copy from TestON/tests/TopoPerfNext/__init__.py
copy to TestON/tests/TopoPerfNextBM/portEventResultDb.log
diff --git a/TestON/tests/TopoPerfNext/__init__.py b/TestON/tests/TopoPerfNextBM/switchEventResultDb.log
similarity index 100%
copy from TestON/tests/TopoPerfNext/__init__.py
copy to TestON/tests/TopoPerfNextBM/switchEventResultDb.log