| # CASE1 starts number of nodes specified in param file |
| # |
| # cameron@onlab.us |
| |
| class SCPFswitchLat: |
| |
| def __init__( self ): |
| self.default = '' |
| |
| def CASE1( self, main ): |
| import sys |
| import os.path |
| import os |
| import time |
| |
| global init |
| try: |
| if type(init) is not bool: |
| init = Fals |
| 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' ][ 'ip' ] |
| MN1Ip = main.params[ 'MN' ][ 'ip1' ] |
| main.maxNodes = int(main.params[ 'max' ]) |
| cellName = main.params[ 'ENV' ][ 'cellName' ] |
| homeDir = os.path.expanduser('~') |
| topoCfgFile = main.params['TEST']['topoConfigFile'] |
| topoCfgName = main.params['TEST']['topoConfigName'] |
| switchEventResultPath = main.params['DB']['switchEventResultPath'] |
| skipMvn = main.params ['TEST']['mci'] |
| testONpath = os.getcwd() #testON/bin |
| user = main.params[ 'CTRL' ][ 'user' ] |
| |
| # -- INIT SECTION, ONLY RUNS ONCE -- # |
| if init == False: |
| init = True |
| global clusterCount #number of nodes running |
| global scale |
| global commit |
| global timeToPost |
| global runNum |
| global jenkinsBuildNumber |
| global CLIs |
| CLIs = [] |
| main.ONOSIp = [] |
| |
| for i in range( 1, 8 ): |
| CLIs.append( getattr( main, 'ONOS' + str( i ) + 'cli' ) ) |
| |
| timeToPost = time.strftime('%Y-%m-%d %H:%M:%S') |
| runNum = time.strftime('%d%H%M%S') |
| |
| try: |
| jenkinsBuildNumber = str(os.environ['BUILD_NUMBER']) |
| main.log.report( 'Jenkins build number: ' + jenkinsBuildNumber ) |
| except KeyError: |
| jenkinsBuildNumber = str(0) |
| main.log.info( 'Job is not run by jenkins. ' + 'Build number set to: ' + jenkinsBuildNumber) |
| |
| clusterCount = 0 |
| main.ONOSIp = main.ONOSbench.getOnosIps() |
| |
| scale = (main.params[ 'SCALE' ]).split(",") |
| clusterCount = int(scale[0]) |
| |
| #mvn clean install, for debugging set param 'skipCleanInstall' to yes to speed up test |
| if skipMvn != "off": |
| 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" ) |
| |
| main.log.step("Grabbing commit number") |
| commit = main.ONOSbench.getVersion() #### |
| commit = (commit.split(" "))[1] |
| |
| temp = testONpath.replace("bin","") + "tests/SCPFswitchLat/Dependency/" |
| main.ONOSbench.copyMininetFile("topo-perf-1sw.py", temp, user, "localhost" ) |
| #main.ONOSbench.handle.expect(":~") |
| |
| main.step('Clearing previous DB log file') |
| print switchEventResultPath |
| fSwitchLog = open(switchEventResultPath, "w+") |
| fSwitchLog.write("") |
| fSwitchLog.close() |
| |
| # -- END OF INIT SECTION --# |
| |
| main.log.step("Adjusting scale") |
| clusterCount = int(scale[0]) |
| scale.remove(scale[0]) |
| |
| #kill off all onos processes |
| main.log.step("Safety check, killing all ONOS processes before initiating enviornment setup") |
| for node in range(main.maxNodes): |
| main.ONOSbench.onosDie(main.ONOSIp[node]) |
| |
| #Uninstall everywhere |
| main.log.step( "Cleaning Enviornment..." ) |
| for i in range(main.maxNodes): |
| main.log.info(" Uninstalling ONOS " + str(i) ) |
| main.ONOSbench.onosUninstall( main.ONOSIp[i] ) |
| main.log.info("Sleep 10 second for uninstall to settle...") |
| time.sleep(10) |
| main.ONOSbench.handle.sendline(" ") |
| main.ONOSbench.handle.expect(":~") |
| |
| #construct the cell file |
| main.log.info("Creating cell file") |
| cellIp = [] |
| for node in range (clusterCount): |
| cellIp.append(main.ONOSIp[node]) |
| |
| main.ONOSbench.createCellFile(main.ONOSbench.ip_address, 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.step('Starting mininet topology ') |
| main.Mininet1.startNet() |
| |
| main.log.report( "Initializeing " + str( clusterCount ) + " node cluster." ) |
| for node in range(clusterCount): |
| main.log.info("Starting ONOS " + str(node) + " at IP: " + main.ONOSIp[node]) |
| main.ONOSbench.onosInstall( node=main.ONOSIp[node]) |
| |
| for i in range(50): |
| time.sleep(15) |
| print "attempt " + str(i) |
| main.ONOSbench.handle.sendline("onos $OC1 summary") |
| main.ONOSbench.handle.expect(":~") |
| print main.ONOSbench.handle.before |
| if "nodes=" in main.ONOSbench.handle.before: |
| break |
| |
| for node in range(clusterCount): |
| for i in range( 2 ): |
| isup = main.ONOSbench.isup( main.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") |
| |
| #time.sleep(20) |
| |
| main.step('Start onos cli') |
| for i in range(0,clusterCount): |
| cli1 = CLIs[i].startOnosCli(main.ONOSIp[i]) |
| |
| main.step( 'Configuring application parameters' ) |
| |
| configName = 'org.onosproject.net.topology.impl.DefaultTopologyProvider' |
| configParam = 'maxEvents 1' |
| main.ONOSbench.onosCfgSet( main.ONOSIp[0], configName, configParam ) |
| configParam = 'maxBatchMs 0' |
| main.ONOSbench.onosCfgSet( main.ONOSIp[0], configName, configParam ) |
| configParam = 'maxIdleMs 0' |
| main.ONOSbench.onosCfgSet( main.ONOSIp[0], configName, configParam ) |
| |
| def CASE2(self, main): |
| print "Cluster size: " + str(clusterCount) |
| """ |
| Assign s3 to ONOSbench 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 |
| |
| ONOSUser = main.params['CTRL']['user'] |
| numIter = main.params['TEST']['numIter'] |
| iterIgnore = int(main.params['TEST']['iterIgnore']) |
| |
| deviceTimestampKey = main.params['JSON']['deviceTimestamp'] |
| graphTimestampKey = main.params['JSON']['graphTimestamp'] |
| |
| debugMode = main.params['TEST']['debugMode'] |
| onosLog = main.params['TEST']['onosLogFile'] |
| resultPath = main.params['DB']['switchEventResultPath'] |
| thresholdStr = main.params['TEST']['singleSwThreshold'] |
| thresholdObj = thresholdStr.split(',') |
| thresholdMin = int(thresholdObj[0]) |
| thresholdMax = int(thresholdObj[1]) |
| |
| # Look for 'role-request' messages, |
| # which replaces the 'vendor' messages previously seen |
| # on OVS 2.0.1 |
| tsharkTcpString = main.params[ 'TSHARK' ][ 'tcpSynAck' ] |
| tsharkFeatureReply = main.params[ 'TSHARK' ][ 'featureReply' ] |
| tsharkRoleRequest = main.params[ 'TSHARK' ][ 'roleRequest' ] |
| tsharkOfString = main.params[ 'TSHARK' ][ 'ofpRoleReply' ] |
| tsharkFinAckSequence = main.params[ 'TSHARK' ][ 'finAckSequence' ] |
| |
| tsharkOfOutput = '/tmp/tshark_of_topo.txt' |
| tsharkTcpOutput = '/tmp/tshark_tcp_topo.txt' |
| tsharkRoleOutput = '/tmp/tshark_role_request.txt' |
| tsharkFeatureOutput = '/tmp/tshark_feature_reply.txt' |
| tsharkFinAckOutput = '/tmp/tshark_fin_ack.txt' |
| |
| # Switch connect measurement list |
| # TCP Syn/Ack -> Feature Reply latency collection for each node |
| tcpToFeatureLatNodeIter = numpy.zeros((clusterCount, int(numIter))) |
| # Feature Reply -> Role Request latency collection for each node |
| featureToRoleRequestLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| # Role Request -> Role Reply latency collection for each node |
| roleRequestToRoleReplyLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| # Role Reply -> Device Update latency collection for each node |
| roleReplyToDeviceLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| # Device Update -> Graph Update latency collection for each node |
| deviceToGraphLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| endToEndLatNodeIter = numpy.zeros((clusterCount, int(numIter))) |
| |
| # Switch disconnect measurement lists |
| # Mininet Fin / Ack -> Mininet Ack |
| finAckTransactionLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| # Mininet Ack -> Device Event |
| ackToDeviceLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| # Device event -> Graph event |
| deviceToGraphDiscLatNodeIter = numpy.zeros((clusterCount, |
| int(numIter))) |
| endToEndDiscLatNodeIter = numpy.zeros((clusterCount, int(numIter))) |
| |
| assertion = main.TRUE |
| localTime = time.strftime('%x %X') |
| localTime = localTime.replace('/', '') |
| localTime = localTime.replace(' ', '_') |
| localTime = localTime.replace(':', '') |
| |
| if debugMode == 'on': |
| main.ONOSbench.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') |
| main.ONOSbench.tsharkGrep(tsharkTcpString, tsharkTcpOutput) |
| main.ONOSbench.tsharkGrep(tsharkOfString, tsharkOfOutput) |
| main.ONOSbench.tsharkGrep(tsharkRoleRequest, tsharkRoleOutput) |
| main.ONOSbench.tsharkGrep(tsharkFeatureReply, tsharkFeatureOutput) |
| |
| time.sleep(10) |
| |
| main.log.info('Assigning s3 to controller') |
| main.Mininet1.assignSwController(sw='s3', |
| ip=main.ONOSIp[0]) |
| |
| jsonStr = [] |
| for node in range (0, clusterCount): |
| metricsSwUp = CLIs[node].topologyEventsMetrics() |
| jsonStr.append(metricsSwUp) |
| |
| time.sleep(10) |
| |
| main.log.info('Stopping all Tshark processes') |
| main.ONOSbench.tsharkStop() |
| |
| time.sleep(5) |
| |
| ''' |
| main.log.info('Copying over tshark files') |
| os.system('scp ' + ONOSUser + '@' + main.ONOSIp[0] + |
| ':' + tsharkTcpOutput + ' /tmp/') |
| os.system('scp ' + ONOSUser + '@' + main.ONOSIp[0] + |
| ':' + tsharkRoleOutput + ' /tmp/') |
| os.system('scp ' + ONOSUser + '@' + main.ONOSIp[0] + |
| ':' + tsharkFeatureOutput + ' /tmp/') |
| os.system('scp ' + ONOSUser + '@' + |
| main.ONOSIp[0] + ':' + tsharkOfOutput + ' /tmp/') |
| ''' |
| |
| # Get tcp syn / ack output |
| time.sleep(1) |
| |
| 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() |
| |
| # Get Role reply output |
| ofFile = open(tsharkOfOutput, 'r') |
| lineOfp = '' |
| 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() |
| |
| # Get role request output |
| roleFile = open(tsharkRoleOutput, 'r') |
| tempText = roleFile.readline() |
| tempText = tempText.split(' ') |
| if len(tempText) > 1: |
| main.log.info('Object read in from role request capture:' + |
| str(tempText)) |
| roleTimestamp = float(tempText[1]) * 1000.0 |
| else: |
| main.log.error('Tshark output file for role request' + |
| ' returned unexpected results') |
| timeRoleRequest = 0 |
| assertion = main.FALSE |
| roleFile.close() |
| |
| # Get feature reply output |
| featureFile = open(tsharkFeatureOutput, 'r') |
| tempText = featureFile.readline() |
| tempText = tempText.split(' ') |
| if len(tempText) > 1: |
| main.log.info('Object read in from feature reply capture: '+ |
| str(tempText)) |
| if tempText[1] != ' ' and float(tempText[1]) > 1400000000.0: |
| temp = tempText[1] |
| elif tempText[2] != ' ' and float(tempText[2]) > 1400000000.0: |
| temp = tempText[2] |
| else: |
| temp = 0 |
| featureTimestamp = float(temp) * 1000.0 |
| else: |
| main.log.error('Tshark output file for feature reply' + |
| ' returned unexpected results') |
| timeFeatureReply = 0 |
| assertion = main.FALSE |
| featureFile.close() |
| |
| for node in range(0, clusterCount): |
| nodeNum = node+1 |
| #metricsSwUp = CLIs[node].topologyEventsMetrics |
| #jsonStr = metricsSwUp() |
| jsonObj = json.loads(jsonStr[node]) |
| if jsonObj: |
| graphTimestamp = jsonObj[graphTimestampKey]['value'] |
| deviceTimestamp = jsonObj[deviceTimestampKey]['value'] |
| else: |
| main.log.error( "Unexpected JSON object" ) |
| # If we could not obtain the JSON object, |
| # set the timestamps to 0, which will be |
| # excluded from the measurement later on |
| # (realized as invalid) |
| graphTimestamp = 0 |
| deviceTimestamp = 0 |
| |
| endToEnd = int(graphTimestamp) - int(t0Tcp) |
| |
| # Below are measurement breakdowns of the end-to-end |
| # measurement. |
| tcpToFeature = int(featureTimestamp) - int(t0Tcp) |
| featureToRole = int(roleTimestamp) - int(featureTimestamp) |
| roleToOfp = float(t0Ofp) - float(roleTimestamp) |
| ofpToDevice = float(deviceTimestamp) - float(t0Ofp) |
| # Timestamps gathered from ONOS are millisecond |
| # precision. They are returned as integers, thus no |
| # need to be more precise than 'int'. However, |
| # the processing seems to be mostly under 1 ms, |
| # thus this may be a problem point to handle any |
| # submillisecond output that we are unsure of. |
| # For now, this will be treated as 0 ms if less than 1 ms |
| deviceToGraph = int(graphTimestamp) - int(deviceTimestamp) |
| |
| if endToEnd >= thresholdMin and\ |
| endToEnd < thresholdMax and i >= iterIgnore: |
| endToEndLatNodeIter[node][i] = endToEnd |
| main.log.info("ONOS "+str(nodeNum)+ " end-to-end: "+ |
| str(endToEnd) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ " end-to-end "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(endToEnd)) |
| |
| if tcpToFeature >= thresholdMin and\ |
| tcpToFeature < thresholdMax and i >= iterIgnore: |
| tcpToFeatureLatNodeIter[node][i] = tcpToFeature |
| main.log.info("ONOS "+str(nodeNum)+ " tcp-to-feature: "+ |
| str(tcpToFeature) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ " tcp-to-feature "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(tcpToFeature)) |
| |
| if featureToRole >= thresholdMin and\ |
| featureToRole < thresholdMax and i >= iterIgnore: |
| featureToRoleRequestLatNodeIter[node][i] = featureToRole |
| main.log.info("ONOS "+str(nodeNum)+ " feature-to-role: "+ |
| str(featureToRole) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ " feature-to-role "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(featureToRole)) |
| |
| if roleToOfp >= thresholdMin and\ |
| roleToOfp < thresholdMax and i >= iterIgnore: |
| roleRequestToRoleReplyLatNodeIter[node][i] = roleToOfp |
| main.log.info("ONOS "+str(nodeNum)+ " role-to-reply: "+ |
| str(roleToOfp) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ " role-to-reply "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(roleToOfp)) |
| |
| if ofpToDevice >= thresholdMin and\ |
| ofpToDevice < thresholdMax and i >= iterIgnore: |
| roleReplyToDeviceLatNodeIter[node][i] = ofpToDevice |
| main.log.info("ONOS "+str(nodeNum)+ " reply-to-device: "+ |
| str(ofpToDevice) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ " reply-to-device "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(ofpToDevice)) |
| |
| if deviceToGraph >= thresholdMin and\ |
| deviceToGraph < thresholdMax and i >= iterIgnore: |
| deviceToGraphLatNodeIter[node][i] = deviceToGraph |
| main.log.info("ONOS "+str(nodeNum)+ " device-to-graph: "+ |
| str(deviceToGraph) + " ms") |
| else: |
| if deviceToGraph == 0: |
| deviceToGraphLatNodeIter[node][i] = 0 |
| main.log.info("ONOS "+str(nodeNum) + |
| " device-to-graph measurement "+ |
| "was set to 0 ms because of precision "+ |
| "uncertainty. ") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ |
| " device-to-graph "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(deviceToGraph)) |
| |
| # ******************** |
| time.sleep(5) |
| |
| # Get device id to remove |
| deviceIdJsonStr = main.ONOS1cli.devices() |
| |
| main.log.info( "Device obj obtained: " + str(deviceIdJsonStr) ) |
| deviceId = json.loads(deviceIdJsonStr) |
| |
| deviceList = [] |
| for device in deviceId: |
| deviceList.append(device['id']) |
| |
| # Measure switch down metrics |
| # TCP FIN/ACK -> TCP FIN |
| # TCP FIN -> Device Event |
| # Device Event -> Graph Event |
| # Capture switch down FIN / ACK packets |
| |
| # The -A 1 grep option allows us to grab 1 extra line after the |
| # last tshark output grepped originally |
| main.ONOSbench.tsharkGrep( tsharkFinAckSequence, tsharkFinAckOutput, |
| grepOptions = '-A 1' ) |
| |
| time.sleep( 5 ) |
| |
| removeJsonList = [] |
| main.step('Remove switch from controller') |
| main.Mininet1.deleteSwController('s3') |
| firstDevice = deviceList[0] |
| |
| time.sleep( 5 ) |
| |
| # We need to get metrics before removing |
| # device from the store below. |
| for node in range(0, clusterCount): |
| metricsSwDown = CLIs[node].topologyEventsMetrics |
| jsonStr = metricsSwDown() |
| removeJsonList.append( json.loads(jsonStr) ) |
| |
| main.ONOSbench.tsharkStop() |
| |
| main.log.info( "Removing device " +str(firstDevice)+ |
| " from ONOS" ) |
| |
| #if deviceId: |
| main.ONOS1cli.deviceRemove(firstDevice) |
| |
| #main.log.info('Copying over tshark files') |
| #os.system('scp ' + ONOSUser + '@' + main.ONOSIp[0] + ':' + tsharkFinAckOutput + ' /tmp/') |
| |
| time.sleep( 10 ) |
| finAckOutputList = [] |
| with open(tsharkFinAckOutput, 'r') as f: |
| tempLine = f.readlines() |
| main.log.info('Object read in from FinAck capture: ' + |
| "\n".join(tempLine)) |
| |
| index = 1 |
| for line in tempLine: |
| obj = line.split(' ') |
| |
| # There are at least 3 objects in field (valid |
| # tshark output is lengthy) |
| if len(obj) > 2: |
| # If first index of object is like an epoch time |
| if obj[1] != ' ' and float(obj[1]) > 1400000000.0: |
| temp = obj[1] |
| elif obj[2] != ' 'and float(obj[2]) > 1400000000.0: |
| temp = obj[2] |
| elif obj[3] != ' 'and float(obj[3]) > 1400000000.0: |
| temp = obj[3] |
| else: |
| temp = 0 |
| if index == 1: |
| tFinAck = float(temp) * 1000.0 |
| main.log.info("DEBUG-- tFinAck: " + str(tFinAck)) |
| elif index == 3: |
| tAck = float(temp) * 1000.0 |
| main.log.info("DEBUG-- tAck: " + str(tAck)) |
| else: |
| tAck = 0 |
| else: |
| main.log.error('Tshark output file for OFP' + |
| ' returned unexpected results') |
| tFinAck = 0 |
| tAck = 0 |
| assertion = main.FALSE |
| |
| index += 1 |
| main.log.info("DEBUG-- tFinAck: " + str(tFinAck)) |
| main.log.info("DEBUG-- tAck: " + str(tAck)) |
| |
| # with open() as f takes care of closing file |
| |
| time.sleep(5) |
| |
| for node in range(0, clusterCount): |
| nodeNum = node+1 |
| jsonObj = removeJsonList[node] |
| if jsonObj: |
| graphTimestamp = jsonObj[graphTimestampKey]['value'] |
| deviceTimestamp = jsonObj[deviceTimestampKey]['value'] |
| main.log.info("Graph timestamp: "+str(graphTimestamp)) |
| main.log.info("Device timestamp: "+str(deviceTimestamp)) |
| else: |
| main.log.error( "Unexpected JSON object" ) |
| # If we could not obtain the JSON object, |
| # set the timestamps to 0, which will be |
| # excluded from the measurement later on |
| # (realized as invalid) |
| graphTimestamp = 0 |
| deviceTimestamp = 0 |
| |
| finAckTransaction = float(tAck) - float(tFinAck) |
| ackToDevice = float(deviceTimestamp) - float(tAck) |
| deviceToGraph = float(graphTimestamp) - float(deviceTimestamp) |
| endToEndDisc = int(graphTimestamp) - int(tFinAck) |
| main.log.info("DEBUG-- endToEndDisc = graphTimestamp - tFinAck == (" + str(graphTimestamp) + "-" + str(tFinAck) + ")") |
| |
| if endToEndDisc >= thresholdMin and\ |
| endToEndDisc < thresholdMax and i >= iterIgnore: |
| endToEndDiscLatNodeIter[node][i] = endToEndDisc |
| main.log.info("ONOS "+str(nodeNum) + |
| "end-to-end disconnection: "+ |
| str(endToEndDisc) + " ms" ) |
| else: |
| main.log.info("ONOS " + str(nodeNum) + |
| " end-to-end disconnection "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(endToEndDisc)) |
| |
| if finAckTransaction >= thresholdMin and\ |
| finAckTransaction < thresholdMax and i >= iterIgnore: |
| finAckTransactionLatNodeIter[node][i] = finAckTransaction |
| main.log.info("ONOS "+str(nodeNum)+ |
| " fin/ack transaction: "+ |
| str(finAckTransaction) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ |
| " fin/ack transaction "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(finAckTransaction)) |
| |
| if ackToDevice >= thresholdMin and\ |
| ackToDevice < thresholdMax and i >= iterIgnore: |
| ackToDeviceLatNodeIter[node][i] = ackToDevice |
| main.log.info("ONOS "+str(nodeNum)+ |
| " ack-to-device: "+ |
| str(ackToDevice) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ |
| " ack-to-device "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(ackToDevice)) |
| |
| if deviceToGraph >= thresholdMin and\ |
| deviceToGraph < thresholdMax and i >= iterIgnore: |
| deviceToGraphDiscLatNodeIter[node][i] = deviceToGraph |
| main.log.info("ONOS "+str(nodeNum)+ |
| " device-to-graph disconnect: "+ |
| str(deviceToGraph) + " ms") |
| else: |
| main.log.info("ONOS "+str(nodeNum)+ |
| " device-to-graph disconnect "+ |
| "measurement ignored due to excess in "+ |
| "threshold or premature iteration: ") |
| main.log.info(str(deviceToGraph)) |
| |
| endToEndAvg = 0 |
| ofpToGraphAvg = 0 |
| dbCmdList = [] |
| for node in range(0, clusterCount): |
| # List of latency for each node |
| endToEndList = [] |
| tcpToFeatureList = [] |
| featureToRoleList = [] |
| roleToOfpList = [] |
| ofpToDeviceList = [] |
| deviceToGraphList = [] |
| |
| finAckTransactionList = [] |
| ackToDeviceList = [] |
| deviceToGraphDiscList = [] |
| endToEndDiscList = [] |
| |
| # LatNodeIter 2d arrays contain all iteration latency |
| # for each node of the current scale cluster size |
| # Switch connection measurements |
| # Set further acceptance criteria for measurements |
| # here if you would like to filter reporting results |
| for item in endToEndLatNodeIter[node]: |
| if item > 0.0: |
| endToEndList.append(item) |
| |
| for item in tcpToFeatureLatNodeIter[node]: |
| if item > 0.0: |
| tcpToFeatureList.append(item) |
| |
| for item in featureToRoleRequestLatNodeIter[node]: |
| if item > 0.0: |
| featureToRoleList.append(item) |
| |
| for item in roleRequestToRoleReplyLatNodeIter[node]: |
| if item > 0.0: |
| roleToOfpList.append(item) |
| |
| for item in roleReplyToDeviceLatNodeIter[node]: |
| if item >= 0.0: |
| ofpToDeviceList.append(item) |
| |
| for item in featureToRoleRequestLatNodeIter[node]: |
| if item > 0.0: |
| featureToRoleList.append(item) |
| |
| for item in deviceToGraphLatNodeIter[node]: |
| if item >= 0.0: |
| deviceToGraphList.append(item) |
| |
| # Switch disconnect measurements |
| for item in endToEndDiscLatNodeIter[node]: |
| if item > 0.0: |
| endToEndDiscList.append(item) |
| |
| for item in finAckTransactionLatNodeIter[node]: |
| if item > 0.0: |
| finAckTransactionList.append(item) |
| |
| for item in ackToDeviceLatNodeIter[node]: |
| if item > 0.0: |
| ackToDeviceList.append(item) |
| |
| for item in deviceToGraphDiscLatNodeIter[node]: |
| if item >= 0.0: |
| deviceToGraphDiscList.append(item) |
| |
| endToEndAvg = round(numpy.mean(endToEndList), 2) |
| endToEndStdDev = round(numpy.std(endToEndList), 2) |
| main.log.info("endToEndList: " + str(endToEndList)) |
| |
| tcpToFeatureAvg = round(numpy.mean(tcpToFeatureList), 2) |
| tcpToFeatureStdDev = round(numpy.std(tcpToFeatureList), 2) |
| main.log.info("tcpToFeatureList: " + str(tcpToFeatureList)) |
| |
| featureToRoleAvg = round(numpy.mean(featureToRoleList), 2) |
| featureToRoleStdDev = round(numpy.std(featureToRoleList), 2) |
| main.log.info("featureToRoleList: " + str(featureToRoleList)) |
| |
| roleToOfpAvg = round(numpy.mean(roleToOfpList), 2) |
| roleToOfpStdDev = round(numpy.std(roleToOfpList), 2) |
| main.log.info("roleToOfList: " + str(roleToOfpList)) |
| |
| ofpToDeviceAvg = round(numpy.mean(ofpToDeviceList), 2) |
| ofpToDeviceStdDev = round(numpy.std(ofpToDeviceList), 2) |
| main.log.info("ofpToDeviceList: " + str(ofpToDeviceList)) |
| |
| deviceToGraphAvg = round(numpy.mean(deviceToGraphList), 2) |
| deviceToGraphStdDev = round(numpy.std(deviceToGraphList), 2) |
| main.log.info("deviceToGraphList: " + str(deviceToGraphList)) |
| |
| endToEndDiscAvg = round(numpy.mean(endToEndDiscList), 2) |
| endToEndDiscStdDev = round(numpy.std(endToEndDiscList), 2) |
| main.log.info("endToEndDiscList: " + str(endToEndDiscList)) |
| |
| finAckAvg = round(numpy.mean(finAckTransactionList), 2) |
| finAckStdDev = round(numpy.std(finAckTransactionList), 2) |
| main.log.info("finAckTransactionList: " + str(finAckTransactionList)) |
| |
| ackToDeviceAvg = round(numpy.mean(ackToDeviceList), 2) |
| ackToDeviceStdDev = round(numpy.std(ackToDeviceList), 2) |
| main.log.info("ackToDeviceList: " + str(ackToDeviceList)) |
| |
| deviceToGraphDiscAvg = round(numpy.mean(deviceToGraphDiscList), 2) |
| deviceToGraphDiscStdDev = round(numpy.std(deviceToGraphDiscList), 2) |
| main.log.info("deviceToGraphDiscList: " + str(deviceToGraphDiscList)) |
| |
| main.log.report(' - Node ' + str(node + 1) + ' Summary - ') |
| main.log.report(' - Switch Connection Statistics - ') |
| |
| main.log.report(' End-to-end Avg: ' + str(endToEndAvg) + |
| ' ms' + ' End-to-end Std dev: ' + |
| str(endToEndStdDev) + ' ms') |
| |
| main.log.report(' Tcp-to-feature-reply Avg: ' + |
| str(tcpToFeatureAvg) + ' ms') |
| main.log.report(' Tcp-to-feature-reply Std dev: '+ |
| str(tcpToFeatureStdDev) + ' ms') |
| |
| main.log.report(' Feature-reply-to-role-request Avg: ' + |
| str(featureToRoleAvg) + ' ms') |
| main.log.report(' Feature-reply-to-role-request Std Dev: ' + |
| str(featureToRoleStdDev) + ' ms') |
| |
| main.log.report(' Role-request-to-role-reply Avg: ' + |
| str(roleToOfpAvg) +' ms') |
| main.log.report(' Role-request-to-role-reply Std dev: ' + |
| str(roleToOfpStdDev) + ' ms') |
| |
| main.log.report(' Role-reply-to-device Avg: ' + |
| str(ofpToDeviceAvg) +' ms') |
| main.log.report(' Role-reply-to-device Std dev: ' + |
| str(ofpToDeviceStdDev) + ' ms') |
| |
| main.log.report(' Device-to-graph Avg: ' + |
| str(deviceToGraphAvg) + ' ms') |
| main.log.report( 'Device-to-graph Std dev: ' + |
| str(deviceToGraphStdDev) + ' ms') |
| |
| main.log.report(' - Switch Disconnection Statistics - ') |
| main.log.report(' End-to-end switch disconnect Avg: ' + |
| str(endToEndDiscAvg) + ' ms') |
| main.log.report(' End-to-end switch disconnect Std dev: ' + |
| str(endToEndDiscStdDev) + ' ms') |
| main.log.report(' Fin/Ack-to-Ack Avg: ' + str(finAckAvg) + ' ms') |
| main.log.report(' Fin/Ack-to-Ack Std dev: ' + |
| str(finAckStdDev) + ' ms') |
| |
| main.log.report(' Ack-to-device Avg: ' + str(ackToDeviceAvg) + |
| ' ms') |
| main.log.report(' Ack-to-device Std dev: ' + str(ackToDeviceStdDev) + |
| ' ms') |
| |
| main.log.report(' Device-to-graph (disconnect) Avg: ' + |
| str(deviceToGraphDiscAvg) + ' ms') |
| main.log.report(' Device-to-graph (disconnect) Std dev: ' + |
| str(deviceToGraphDiscStdDev) + ' ms') |
| |
| # For database schema, refer to Amazon web services |
| dbCmdList.append( |
| "INSERT INTO switch_latency_details VALUES('" + |
| timeToPost + "','switch_latency_results'," + |
| jenkinsBuildNumber + ',' + str(clusterCount) + ",'baremetal" + |
| str(node + 1) + "'," + |
| str(endToEndAvg) + ',' + |
| str(tcpToFeatureAvg) + ',' + |
| str(featureToRoleAvg) + ',' + |
| str(roleToOfpAvg) + ',' + |
| str(ofpToDeviceAvg) + ',' + |
| str(deviceToGraphAvg) + ',' + |
| str(endToEndDiscAvg) + ',' + |
| str(finAckAvg) + ',' + |
| str(ackToDeviceAvg) + ',' + |
| str(deviceToGraphDiscAvg) + |
| ');') |
| |
| if debugMode == 'on': |
| main.ONOSbench.cpLogsToDir('/opt/onos/log/karaf.log', |
| '/tmp/', copyFileName='sw_lat_karaf') |
| fResult = open(resultPath, 'a') |
| for line in dbCmdList: |
| if line: |
| fResult.write(line + '\n') |
| main.log.report(line) |
| fResult.close() |
| |
| assertion = main.TRUE |
| |
| utilities.assert_equals(expect=main.TRUE, actual=assertion, |
| onpass='Switch latency test successful', |
| onfail='Switch latency test failed') |
| |
| main.Mininet1.stopNet() |