| ''' |
| Wrapper function for SCPFswitchLat test |
| Assign switch and capture openflow package |
| remove switch and caputer openflow package |
| calculate latency |
| ''' |
| |
| |
| import time |
| import json |
| def processPackage( package ): |
| ''' |
| split package information to dictionary |
| Args: |
| package: Package String |
| |
| Returns: |
| |
| ''' |
| pacakge = package.split(" ") |
| dic = {} |
| for s in pacakge: |
| try: |
| [key, value] = s.split("=") |
| dic[key] = value |
| except: |
| continue |
| return dic |
| |
| def findSeqBySeqAck( seq, packageList): |
| ''' |
| Find specific Seq of package in packageList |
| Args: |
| seq: seq from last TCP package |
| packageList: find package in packageList |
| |
| Returns: |
| |
| ''' |
| for l in packageList: |
| temp = processPackage(l) |
| tA = temp['Ack'] |
| if int(seq) + 1 == int(tA): |
| return temp['Seq'] |
| |
| def captureOfPack( main, deviceName, ofPack, switchStatus, resultDict, warmup ): |
| ''' |
| |
| Args: |
| main: TestON class |
| deviceName: device name |
| ofPack: openflow package key word |
| switchStatus: Up -- assign, down -- remove |
| resultDict: dictionary to contain result |
| warmup: warm up boolean |
| |
| Returns: |
| |
| ''' |
| for d in ofPack[switchStatus]: |
| main.log.info("Clean up Tshark") |
| with open(main.tsharkResultPath[switchStatus][d], "w") as tshark: |
| tshark.write("") |
| main.log.info( "Starting tshark capture" ) |
| main.ONOSbench.tsharkGrep(ofPack[switchStatus][d], main.tsharkResultPath[switchStatus][d]) |
| if switchStatus == 'up': |
| # if up, assign switch to controller |
| time.sleep(main.measurementSleep) |
| main.log.info('Assigning {} to controller'.format(deviceName)) |
| main.Mininet1.assignSwController(sw=deviceName, ip=main.ONOSip[0]) |
| time.sleep(main.measurementSleep) |
| if switchStatus == 'down': |
| # if down, remove switch from topology |
| time.sleep(main.measurementSleep) |
| main.step('Remove switch from controller') |
| main.Mininet1.deleteSwController(deviceName) |
| time.sleep(10) |
| main.log.info( "Stopping all Tshark processes" ) |
| main.ONOSbench.tsharkStop() |
| tempResultDict = {} |
| if switchStatus == 'up': |
| for d in main.tsharkResultPath['up']: |
| with open(main.tsharkResultPath[switchStatus][d], "r") as resultFile: |
| # grep tshark result timestamp |
| resultText = resultFile.readlines() |
| if d == "TCP": |
| # if TCP package, we should use the latest one package |
| resultText = resultText[len(resultText) - 1] |
| else: |
| resultText = resultText[0] |
| main.log.info("Capture result:" + resultText) |
| resultText = resultText.strip() |
| resultText = resultText.split( " " ) |
| if len(resultText) > 1: |
| tempResultDict[d]= int( ( float(resultText[1]) * 1000 ) ) |
| resultFile.close() |
| elif switchStatus == 'down': |
| # if state is down, we should capture Fin/Ack and ACK package |
| # Use seq number in FIN/ACK package to located ACK package |
| with open(main.tsharkResultPath['down']['FA']) as resultFile: |
| resultText = resultFile.readlines() |
| FinAckText = resultText.pop(0) |
| resultFile.close() |
| FinAckSeq = processPackage(FinAckText)['Seq'] |
| FinAckOFseq = findSeqBySeqAck(FinAckSeq, resultText) |
| |
| with open(main.tsharkResultPath['down']['ACK']) as resultFile: |
| ACKlines = resultFile.readlines() |
| resultFile.close() |
| |
| AckPackage = "" |
| for l in ACKlines: |
| temp = processPackage(l) |
| if temp['Seq'] == findSeqBySeqAck(FinAckOFseq, ACKlines): |
| AckPackage = l |
| if len(AckPackage) > 0: |
| FinAckText = FinAckText.strip() |
| FinAckText = FinAckText.split(" ") |
| AckPackage = AckPackage.strip() |
| AckPackage = AckPackage.split(" ") |
| tempResultDict['ACK'] = float("%.2f" % (float(AckPackage[1]) * 1000) ) |
| tempResultDict['FA'] = float("%.2f" % (float(FinAckText[1]) * 1000) ) |
| else: |
| return |
| # calculate latency |
| if switchStatus == "up": |
| # up Latency |
| for d in resultDict[switchStatus]: |
| T_Ftemp = 0 |
| F_Rtemp = 0 |
| RQ_RRtemp = 0 |
| try: |
| T_Ftemp = tempResultDict['Feature'] - tempResultDict['TCP'] |
| F_Rtemp = tempResultDict['RQ'] - tempResultDict['Feature'] |
| RQ_RRtemp = tempResultDict['RR'] - tempResultDict['RQ'] |
| except KeyError: |
| main.log.warn("Tshark Result was incorrect!") |
| main.log.warn(tempResultDict) |
| return |
| if not warmup: |
| resultDict[switchStatus][d][ 'T_F' ].append( T_Ftemp ) |
| resultDict[switchStatus][d][ 'F_R' ].append( F_Rtemp ) |
| resultDict[switchStatus][d][ 'RQ_RR' ].append( RQ_RRtemp ) |
| |
| main.log.info("{} TCP to Feature: {}".format(d, str( T_Ftemp ) ) ) |
| main.log.info("{} Feature to Role Request: {}".format(d, str(F_Rtemp))) |
| main.log.info("{} Role Request to Role Reply: {}".format(d, str(RQ_RRtemp))) |
| |
| for i in range(1, main.numCtrls + 1): |
| RR_Dtemp = 0 |
| D_Gtemp = 0 |
| E_Etemp = 0 |
| main.log.info("================================================") |
| # get onos metrics timestamps |
| try: |
| response = json.loads(main.CLIs[i - 1].topologyEventsMetrics()) |
| DeviceTime = int( response.get("topologyDeviceEventTimestamp").get("value") ) |
| main.log.info("ONOS{} device Event timestamp: {}".format(i, "%.2f" % DeviceTime)) |
| GraphTime = int( response.get("topologyGraphEventTimestamp").get("value") ) |
| main.log.info("ONOS{} Graph Event timestamp: {}".format(i, GraphTime)) |
| except TypeError: |
| main.log.warn("TypeError") |
| break |
| except ValueError: |
| main.log.warn("Error to decode Json object!") |
| break |
| try: |
| RR_Dtemp = DeviceTime - tempResultDict['RR'] |
| D_Gtemp = GraphTime - DeviceTime |
| E_Etemp = GraphTime - tempResultDict['TCP'] |
| main.log.info("Role reply to Device:{}".format(RR_Dtemp)) |
| main.log.info("Device to Graph:{}".format(D_Gtemp)) |
| main.log.info("End to End:{}".format(E_Etemp)) |
| main.log.info("================================================") |
| except KeyError: |
| main.log.warn("Tshark Result was incorrect!") |
| main.log.warn(tempResultDict) |
| return |
| except TypeError: |
| main.log.warn("TypeError") |
| break |
| except ValueError: |
| main.log.warn("Error to decode Json object!") |
| break |
| if not warmup: |
| resultDict[switchStatus]['node' + str(i)][ 'RR_D' ].append( RR_Dtemp ) |
| resultDict[switchStatus]['node' + str(i)][ 'D_G' ].append( D_Gtemp ) |
| resultDict[switchStatus]['node' + str(i)][ 'E_E' ].append( E_Etemp ) |
| |
| main.log.info( "Node {} Role Reply to Device: {}".format(str(i), str(RR_Dtemp) ) ) |
| main.log.info( "Node {} Device to Graph: {}".format(str(i), str(D_Gtemp) ) ) |
| main.log.info( "Node {} End to End: {}".format(str(i), str(E_Etemp) ) ) |
| |
| if switchStatus == "down": |
| # down Latency |
| for d in resultDict[switchStatus]: |
| FA_Atemp = 0 |
| try: |
| FA_Atemp = float("%.2f" % (tempResultDict['ACK'] - tempResultDict['FA']) ) |
| except KeyError: |
| main.log.warn("Tshark Result was incorrect!") |
| main.log.warn(tempResultDict) |
| return |
| |
| if not warmup: |
| resultDict[switchStatus][d][ 'FA_A' ].append( FA_Atemp ) |
| main.log.info( "{} FIN/ACK TO ACK {}:".format(d , FA_Atemp) ) |
| for i in range(1, main.numCtrls + 1): |
| A_Dtemp = 0 |
| D_Gtemp = 0 |
| E_Etemp = 0 |
| |
| main.log.info("================================================") |
| # get onos metrics timestamps |
| try: |
| response = json.loads(main.CLIs[i - 1].topologyEventsMetrics()) |
| DeviceTime = int( response.get("topologyDeviceEventTimestamp").get("value") ) |
| main.log.info("ONOS{} device Event timestamp: {}".format(i, DeviceTime)) |
| GraphTime = int( response.get("topologyGraphEventTimestamp").get("value") ) |
| main.log.info("ONOS{} Graph Event timestamp: {}".format(i, GraphTime)) |
| except TypeError: |
| main.log.warn("TypeError") |
| break |
| except ValueError: |
| main.log.warn("Error to decode Json object!") |
| break |
| main.log.info("================================================") |
| try: |
| A_Dtemp = float("%.2f" % (DeviceTime - tempResultDict['ACK']) ) |
| D_Gtemp = GraphTime - DeviceTime |
| E_Etemp = float("%.2f" % (GraphTime - tempResultDict['FA']) ) |
| main.log.info("ACK to device: {}".format(A_Dtemp)) |
| main.log.info("Device ot Graph: {}".format(D_Gtemp)) |
| main.log.info("End to End: {}".format(E_Etemp)) |
| main.log.info("================================================") |
| except KeyError: |
| main.log.warn("Tshark Result was incorrect!") |
| main.log.warn(tempResultDict) |
| return |
| except TypeError: |
| main.log.warn("TypeError") |
| break |
| except ValueError: |
| main.log.warn("Error to decode Json object!") |
| break |
| if not warmup: |
| resultDict[switchStatus]['node' + str(i)][ 'A_D' ].append( A_Dtemp ) |
| resultDict[switchStatus]['node' + str(i)][ 'D_G' ].append( D_Gtemp ) |
| resultDict[switchStatus]['node' + str(i)][ 'E_E' ].append( E_Etemp ) |
| main.CLIs[0].removeDevice( "of:0000000000000001" ) |
| |