blob: 00f834f718bed8f73b2aa76cc83bb68564dc873d [file] [log] [blame]
# SCPFintentRerouteLat
"""
SCPFintentRerouteLat
- Test Intent Reroute Latency
- Test Algorithm:
1. Start Null Provider reroute Topology
2. Using Push-test-intents to push batch size intents from switch 1 to switch 7
3. Cut the link between switch 3 and switch 4 (the path will reroute to switch 8)
4. Get the topology time stamp
5. Get Intent reroute(Installed) time stamp from each nodes
6. Use the latest intent time stamp subtract topology time stamp
- This test will run 5 warm up by default, warm up iteration can be setup in Param file
- The intent batch size will default set to 1, 100, and 1000, also can be set in Param file
- The unit of the latency result is milliseconds
"""
class SCPFintentRerouteLat:
def __init__(self):
self.default = ''
def CASE0( self, main ):
import imp
import os
'''
- GIT
- BUILDING ONOS
Pull specific ONOS branch, then Build ONOS ono ONOS Bench.
This step is usually skipped. Because in a Jenkins driven automated
test env. We want Jenkins jobs to pull&build for flexibility to handle
different versions of ONOS.
- Construct tests variables
'''
gitPull = main.params['GIT']['gitPull']
gitBranch = main.params['GIT']['gitBranch']
main.case("Pull onos branch and build onos on Teststation.")
if gitPull == 'True':
main.step("Git Checkout ONOS branch: " + gitBranch)
stepResult = main.ONOSbench.gitCheckout(branch=gitBranch)
utilities.assert_equals(expect=main.TRUE,
actual=stepResult,
onpass="Successfully checkout onos branch.",
onfail="Failed to checkout onos branch. Exiting test...")
if not stepResult:
main.exit()
main.step("Git Pull on ONOS branch:" + gitBranch)
stepResult = main.ONOSbench.gitPull()
utilities.assert_equals(expect=main.TRUE,
actual=stepResult,
onpass="Successfully pull onos. ",
onfail="Failed to pull onos. Exiting test ...")
if not stepResult: main.exit()
main.step("Building ONOS branch: " + gitBranch)
stepResult = main.ONOSbench.cleanInstall(skipTest=True)
utilities.assert_equals(expect=main.TRUE,
actual=stepResult,
onpass="Successfully build onos.",
onfail="Failed to build onos. Exiting test...")
if not stepResult:
main.exit()
else:
main.log.warn("Skipped pulling onos and Skipped building ONOS")
main.onosIp = main.ONOSbench.getOnosIps()
main.apps = main.params['ENV']['cellApps']
main.BENCHUser = main.params['BENCH']['user']
main.BENCHIp = main.params['BENCH']['ip1']
main.MN1Ip = main.params['MN']['ip1']
main.maxNodes = int(main.params['max'])
main.skipMvn = main.params['TEST']['skipCleanInstall']
main.cellName = main.params['ENV']['cellName']
main.scale = (main.params['SCALE']).split(",")
main.timeout = int(main.params['SLEEP']['timeout'])
main.startUpSleep = int(main.params['SLEEP']['startup'])
main.installSleep = int(main.params['SLEEP']['install'])
main.verifySleep = int(main.params['SLEEP']['verify'])
main.setMasterSleep = int(main.params['SLEEP']['setmaster'])
main.verifyAttempts = int(main.params['ATTEMPTS']['verify'])
main.sampleSize = int(main.params['TEST']['sampleSize'])
main.warmUp = int(main.params['TEST']['warmUp'])
main.ingress = main.params['TEST']['ingress']
main.egress = main.params['TEST']['egress']
main.debug = main.params['TEST']['debug']
main.flowObj = main.params['TEST']['flowObj']
main.deviceCount = int(main.params['TEST']['deviceCount'])
main.end1 = main.params['TEST']['end1']
main.end2 = main.params['TEST']['end2']
main.searchTerm = main.params['SEARCHTERM']
if main.flowObj == "True":
main.flowObj = True
main.dbFileName = main.params['DATABASE']['dbFlowObj']
main.intentsList = (main.params['TEST']['FObjintents']).split(",")
else:
main.flowObj = False
main.dbFileName = main.params['DATABASE']['dbName']
main.intentsList = (main.params['TEST']['intents']).split(",")
for i in range(0, len(main.intentsList)):
main.intentsList[i] = int(main.intentsList[i])
# Create DataBase file
main.log.info("Create Database file " + main.dbFileName)
resultsDB = open(main.dbFileName, "w+")
resultsDB.close()
file1 = main.params[ "DEPENDENCY" ][ "FILE1" ]
main.dependencyPath = os.path.dirname( os.getcwd() ) + main.params[ "DEPENDENCY" ][ "PATH" ]
main.intentRerouteLatFuncs = imp.load_source(file1, main.dependencyPath + file1 + ".py")
main.record = 0
def CASE1( self, main ):
'''
clean up test environment and set up
'''
import time
main.log.info("Get ONOS cluster IP")
print(main.scale)
main.numCtrls = int(main.scale[0])
main.ONOSip = []
main.maxNumBatch = 0
main.AllONOSip = main.ONOSbench.getOnosIps()
for i in range(main.numCtrls):
main.ONOSip.append(main.AllONOSip[i])
main.log.info(main.ONOSip)
main.CLIs = []
main.log.info("Creating list of ONOS cli handles")
for i in range(main.numCtrls):
main.CLIs.append(getattr(main, 'ONOS%scli' % (i + 1)))
if not main.CLIs:
main.log.error("Failed to create the list of ONOS cli handles")
main.cleanup()
main.exit()
main.commit = main.ONOSbench.getVersion(report=True)
main.commit = main.commit.split(" ")[1]
main.log.info("Starting up %s node(s) ONOS cluster" % main.numCtrls)
main.log.info("Safety check, killing all ONOS processes" +
" before initiating environment setup")
for i in range(main.numCtrls):
main.ONOSbench.onosDie(main.ONOSip[i])
main.log.info("NODE COUNT = %s" % main.numCtrls)
main.ONOSbench.createCellFile(main.ONOSbench.ip_address,
main.cellName,
main.MN1Ip,
main.apps,
main.ONOSip)
main.step("Apply cell to environment")
cellResult = main.ONOSbench.setCell(main.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.buckBuild()
stepResult = packageResult
utilities.assert_equals(expect=main.TRUE,
actual=stepResult,
onpass="Successfully created ONOS package",
onfail="Failed to create ONOS package")
main.step("Uninstall ONOS package on all Nodes")
uninstallResult = main.TRUE
for i in range(int(main.numCtrls)):
main.log.info("Uninstalling package on ONOS Node IP: " + main.ONOSip[i])
u_result = main.ONOSbench.onosUninstall(main.ONOSip[i])
utilities.assert_equals(expect=main.TRUE, actual=u_result,
onpass="Test step PASS",
onfail="Test step FAIL")
uninstallResult = (uninstallResult and u_result)
main.step("Install ONOS package on all Nodes")
installResult = main.TRUE
for i in range(int(main.numCtrls)):
main.log.info("Installing package on ONOS Node IP: " + main.ONOSip[i])
i_result = main.ONOSbench.onosInstall(node=main.ONOSip[i])
utilities.assert_equals(expect=main.TRUE, actual=i_result,
onpass="Test step PASS",
onfail="Test step FAIL")
installResult = installResult and i_result
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="Test step PASS",
onfail="Test step FAIL" )
main.step( "Set up ONOS secure SSH" )
secureSshResult = main.TRUE
for i in range( int( main.numCtrls ) ):
secureSshResult = secureSshResult and main.ONOSbench.onosSecureSSH( node=main.ONOSip[i] )
utilities.assert_equals( expect=main.TRUE, actual=secureSshResult,
onpass="Test step PASS",
onfail="Test step FAIL" )
time.sleep(2)
main.step("Start ONOS CLI on all nodes")
cliResult = main.TRUE
main.step(" Start ONOS cli using thread ")
startCliResult = main.TRUE
pool = []
main.threadID = 0
for i in range(int(main.numCtrls)):
t = main.Thread(target=main.CLIs[i].startOnosCli,
threadID=main.threadID,
name="startOnosCli",
args=[main.ONOSip[i]],
kwargs={"onosStartTimeout": main.timeout})
pool.append(t)
t.start()
main.threadID = main.threadID + 1
for t in pool:
t.join()
startCliResult = startCliResult and t.result
time.sleep(main.startUpSleep)
# configure apps
main.CLIs[0].setCfg("org.onosproject.provider.nil.NullProviders", "deviceCount", value=main.deviceCount)
main.CLIs[0].setCfg("org.onosproject.provider.nil.NullProviders", "topoShape", value="reroute")
main.CLIs[0].setCfg("org.onosproject.provider.nil.NullProviders", "enabled", value="true")
main.CLIs[0].setCfg("org.onosproject.store.flow.impl.DistributedFlowRuleStore", "backupEnabled", value="false")
if main.flowObj:
main.CLIs[0].setCfg("org.onosproject.net.intent.impl.compiler.IntentConfigurableRegistrator",
"useFlowObjectives", value="true")
time.sleep( main.startUpSleep )
for i in range( int( main.numCtrls ) ):
main.CLIs[i].logSet( "DEBUG", "org.onosproject.metrics.topology" )
main.CLIs[i].logSet( "DEBUG", "org.onosproject.metrics.intent" )
# Balance Master
main.CLIs[0].balanceMasters()
if len(main.ONOSip) > 1:
main.CLIs[0].deviceRole(main.end1[ 'name' ], main.ONOSip[0])
main.CLIs[0].deviceRole(main.end2[ 'name' ], main.ONOSip[0])
time.sleep( main.setMasterSleep )
def CASE2( self, main ):
import time
import numpy
import datetime
import json
# from scipy import stats
ts = time.time()
print(main.intentsList)
for batchSize in main.intentsList:
main.log.report("Intent Batch size: " + str(batchSize) + "\n ")
main.LatencyList = []
main.LatencyListTopoToFirstInstalled = []
main.LatencyListFirstInstalledToLastInstalled = []
main.validRun = 0
main.invalidRun = 0
# initial a variables to record the term of startLine in karaf logs of each node
main.totalLines = []
for i in range( main.numCtrls ):
main.totalLines.append( '' )
while main.validRun <= main.warmUp + main.sampleSize and main.invalidRun <= 20:
if main.validRun >= main.warmUp:
main.log.info("================================================")
main.log.info("Starting test iteration: {} ".format( main.validRun - main.warmUp))
main.log.info("Total iteration: {}".format( main.validRun + main.invalidRun))
main.log.info("================================================")
else:
main.log.info("====================Warm Up=====================")
# push intents
main.CLIs[0].pushTestIntents(main.ingress, main.egress, batchSize,
offset=1, options="-i", timeout=main.timeout)
# check links and flows
k = 0
main.verify = main.FALSE
linkCheck = 0
flowsCheck = 0
while k <= main.verifyAttempts:
time.sleep(main.verifySleep)
summary = json.loads(main.CLIs[0].summary(timeout=main.timeout))
linkCheck = summary.get("links")
flowsCheck = summary.get("flows")
if linkCheck == main.deviceCount * 2 and flowsCheck == batchSize * (main.deviceCount - 1 ):
main.log.info("links: {}, flows: {} ".format(linkCheck, flowsCheck))
main.verify = main.TRUE
break
k += 1
if not main.verify:
main.log.warn("Links or flows number are not match!")
main.log.warn("links: {}, flows: {} ".format(linkCheck, flowsCheck))
# bring back topology
main.intentRerouteLatFuncs.bringBackTopology( main )
if main.validRun >= main.warmUp:
main.invalidRun += 1
continue
else:
main.validRun += 1
continue
# Bring link down
main.CLIs[0].link( main.end1[ 'port' ], main.end2[ 'port' ], "down",
timeout=main.timeout, showResponse=False)
main.verify = main.FALSE
k = 0
topoManagerLog = ""
while k <= main.verifyAttempts:
time.sleep(main.verifySleep)
summary = json.loads(main.CLIs[0].summary(timeout=main.timeout))
linkCheck = summary.get("links")
flowsCheck = summary.get("flows")
if linkCheck == (main.deviceCount - 1) * 2:
main.log.info("links: {}, flows: {} ".format(linkCheck, flowsCheck))
main.verify = main.TRUE
break
k += 1
if not main.verify:
main.log.warn("Links number are not match in TopologyManager log!")
main.log.warn(topoManagerLog)
# bring back topology
main.intentRerouteLatFuncs.bringBackTopology( main )
if main.validRun >= main.warmUp:
main.invalidRun += 1
continue
else:
main.validRun += 1
continue
# record the link romving time as the startLine
for i in range( main.numCtrls ):
logNum = main.intentRerouteLatFuncs.checkLog( main, i )
main.totalLines[i] = str(main.CLIs[ i ].getTimeStampFromLog( "last", "LINK_REMOVED", "time = ", " ", logNum=logNum ))
main.log.info("Node " + str( i+1 ) + ": the start timestamp is " + main.totalLines[i] + " this iteration" )
#Calculate values
lastTopologyToFirstInstalled, firstInstalledToLastInstalled, totalTime = main.intentRerouteLatFuncs.getValues( main )
if totalTime == -1:
if main.validRun >= main.warmUp:
main.invalidRun += 1
else:
main.validRun += 1
continue
else:
main.log.info("Get valid latency")
main.validRun += 1
# Verify Summary after we bring up link, and withdrawn intents
main.CLIs[0].link( main.end1[ 'port' ], main.end2[ 'port' ], "up",
timeout=main.timeout)
k = 0
main.verify = main.FALSE
linkCheck = 0
flowsCheck = 0
while k <= main.verifyAttempts:
time.sleep(main.verifySleep)
main.CLIs[0].removeAllIntents(purge=True, sync=True, timeout=main.timeout)
time.sleep(1)
main.CLIs[0].purgeWithdrawnIntents()
summary = json.loads(main.CLIs[0].summary())
linkCheck = summary.get("links")
flowsCheck = summary.get("flows")
intentCheck = summary.get("intents")
if linkCheck == main.deviceCount * 2 and flowsCheck == 0 and intentCheck == 0:
main.log.info("links: {}, flows: {}, intents: {} ".format(linkCheck, flowsCheck, intentCheck))
main.verify = main.TRUE
break
k += 1
if not main.verify:
main.log.error("links, flows, or intents are not correct!")
main.log.info("links: {}, flows: {}, intents: {} ".format(linkCheck, flowsCheck, intentCheck))
# bring back topology
main.intentRerouteLatFuncs.bringBackTopology( main )
continue
main.log.info("total negative results num: " + str( main.record ) )
aveLatency = 0
aveLatencyTopoToFirstInstalled = 0
aveLatencyFirstInstalledToLastInstalled = 0
stdLatency = 0
stdLatencyTopoToFirstInstalled = 0
stdLatencyFirstInstalledToLastInstalled = 0
aveLatency = numpy.average( main.LatencyList )
aveLatencyTopoToFirstInstalled = numpy.average( main.LatencyListTopoToFirstInstalled )
aveLatencyFirstInstalledToLastInstalled = numpy.average( main.LatencyListFirstInstalledToLastInstalled )
stdLatency = numpy.std( main.LatencyList )
stdLatencyTopoToFirstInstalled = numpy.std( main.LatencyListTopoToFirstInstalled )
stdLatencyFirstInstalledToLastInstalled = numpy.std( main.LatencyListFirstInstalledToLastInstalled )
main.log.report( "Scale: " + str( main.numCtrls ) + " \tIntent batch: " + str( batchSize ) )
main.log.report( "Total Latency average:................" + str( aveLatency ) )
main.log.report( "Latency standard deviation:..........." + str( stdLatency ) )
main.log.report( "Last Topology to first installed Latency average:................." + str( aveLatencyTopoToFirstInstalled ) )
main.log.report( "Last Topology to first installed Latency standard deviation:......" + str( stdLatencyTopoToFirstInstalled ) )
main.log.report( "First installed to last installed Latency average:................" + str( aveLatencyFirstInstalledToLastInstalled ) )
main.log.report( "First installed to last installed Latency standard deviation:....." + str( stdLatencyFirstInstalledToLastInstalled ) )
main.log.report( "________________________________________________________" )
if not (numpy.isnan(aveLatency) or numpy.isnan(stdLatency)):
# check if got NaN for result
resultsDB = open(main.dbFileName, "a")
resultsDB.write("'" + main.commit + "',")
resultsDB.write(str(main.numCtrls) + ",")
resultsDB.write(str(batchSize) + ",")
resultsDB.write(str(aveLatency) + ",")
resultsDB.write(str(stdLatency) + ",")
resultsDB.write(str(aveLatencyTopoToFirstInstalled) + ",")
resultsDB.write(str(stdLatencyTopoToFirstInstalled) + ",")
resultsDB.write(str(aveLatencyFirstInstalledToLastInstalled) + ",")
resultsDB.write(str(stdLatencyFirstInstalledToLastInstalled) + "\n")
resultsDB.close()
del main.scale[0]