blob: 78d0d3747d628806baa23485613dee87a54f726d [file] [log] [blame]
'''
Wrapper function for SCPFswitchLat test
Assign switch and capture openflow package
remove switch and caputer openflow package
calculate latency
'''
import time
import json
def getTimestampFromLog( index, searchTerm ):
'''
Get timestamp value of the search term from log.
Args:
index: the index of cli
searchTerm: the key term of timestamp
'''
lines = main.CLIs[ index ].logSearch( mode='last', searchTerm=searchTerm )
try:
assert lines != None
logString = lines[ len ( lines ) - 1 ]
#get the target value
line = logString.split( "time = " )
key = line[ 1 ].split( " " )
return int( key[ 0 ] )
except IndexError:
main.log.warn( "Index Error!" )
return 0
except AssertionError:
main.log.warn( "Search Term Not Found" )
return 0
def processPackage( package ):
'''
split package information to dictionary
Args:
package: Package String
'''
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
'''
for l in packageList:
temp = processPackage( l )
tA = temp[ 'Ack' ]
if int( seq ) + 1 == int( tA ):
return temp[ 'Seq' ]
def arrangeTsharkFile( switchStatus, keyTerm ):
'''
Arrange different tshark messeage from overall file to different specific files
Args:
switchStatus: switch up or down
keyTerm: A dictionary that store the path name as value and the searchTerm as key
'''
with open( main.tsharkResultPath[ switchStatus ][ 'ALL' ], 'r' ) as resultFile:
resultText = resultFile.readlines()
resultFile.close()
for line in resultText:
for term in keyTerm:
if term in line:
path = '/tmp/Tshark_' + str( keyTerm[ term ] )
with open( path, 'a' ) as outputfile:
outputfile.write( line )
outputfile.close()
def checkResult( result1, result2, result3 ):
'''
Check if the inputs meet the requirement
Returns:
1 means the results are right, 0 means the results are wrong
'''
result = check( result1 ) + check( result2 ) + check( result3 )
if result < 3:
# if any result is wrong, increase the main wrong number
main.wrong[ 'checkResultIncorrect' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
return 0
return 1
def check( result ):
'''
Check the single input.
Returns:
1 means the input is good, 0 means the input is wrong
'''
if result < int( main.resultRange[ 'Min' ] ) or result > int( main.resultRange[ 'Max' ] ):
main.log.debug( str( result ) + " is not meet the requirement" )
return 0
return 1
def checkTotalWrongNum():
'''
Check if the total wrong number is bigger than the max wrong number. If it is, then exit the
test.
'''
# if there are too many wrongs in this test, then exit
if main.wrong['totalWrong'] > main.maxWrong:
main.log.error( "The total wrong number exceeds %d, test terminated" % main.maxWrong )
main.cleanup()
main.exit()
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
'''
main.log.debug( "TOTAL WRONG: " + str( main.wrong ) )
for d in ofPack[ switchStatus ]:
main.log.info( "Clean up Tshark" )
with open( main.tsharkResultPath[ switchStatus ][ d ], "w" ) as tshark:
tshark.write( "" )
# use one tshark to grep everything
# Get the grep string
grepString = ''
keyTerm = {}
for d in ofPack[ switchStatus ]:
grepString = grepString + ofPack[ switchStatus ][ d ] + '|'
# get rid of regular experssion format
cleanTerm = ofPack[ switchStatus ][ d ].replace( '\\', '' )
keyTerm[ cleanTerm ] = d
# Delete the last '|'
grepString = grepString[:-1]
# open tshark
main.log.info( "starting tshark capture" )
main.ONOSbench.tsharkGrep( grepString, main.tsharkResultPath[ switchStatus ][ 'ALL' ], grepOptions='-E' )
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 controler' )
main.Mininet1.deleteSwController( deviceName )
time.sleep( main.deleteSwSleep )
main.log.info( "Stopping all Tshark processes" )
main.ONOSbench.tsharkStop()
tempResultDict = {}
arrangeTsharkFile( switchStatus, keyTerm )
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' ], 'r' ) 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' ], "r" ) as resultFile:
ACKlines = resultFile.readlines()
resultFile.close()
AckPackage = ""
for l in ACKlines:
temp = processPackage( l )
finSeq = findSeqBySeqAck( FinAckOFseq, ACKlines )
if temp[ 'Seq' ] == finSeq:
AckPackage = l
if len( AckPackage ) > 0:
FinAckText = FinAckText.strip()
FinAckText = FinAckText.split( " " )
AckPackage = AckPackage.strip()
AckPackage = AckPackage.split( " " )
tempResultDict[ 'ACK' ] = int( float( AckPackage[ 1 ] ) * 1000 )
tempResultDict[ 'FA' ] = int( float( FinAckText[ 1 ] ) * 1000 )
else:
main.wrong[ 'skipDown' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
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 )
main.wrong[ 'TsharkValueIncorrect' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
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 = getTimestampFromLog( i - 1, searchTerm=main.searchTerm[switchStatus] )
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" )
main.wrong[ 'TypeError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
except ValueError:
main.log.warn( "Error to decode Json object!" )
main.wrong[ 'decodeJasonError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
if DeviceTime != 0:
try:
RR_Dtemp = DeviceTime - tempResultDict[ 'RR' ]
D_Gtemp = GraphTime - DeviceTime
E_Etemp = GraphTime - tempResultDict[ 'TCP' ]
check = checkResult( RR_Dtemp, D_Gtemp, E_Etemp )
if check == 1:
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 )
main.wrong[ 'TsharkValueIncorrect' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
return
except TypeError:
main.log.warn( "TypeError" )
main.wrong[ 'TypeError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
except ValueError:
main.log.warn( "Error to decode Json object!" )
main.wrong[ 'decodeJasonError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
if not warmup and check == 1:
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 )
else:
main.wrong['checkResultIncorrect'] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
main.log.debug("Skip this iteration due to the None Devicetime")
if switchStatus == "down":
# down Latency
for d in resultDict[ switchStatus ]:
FA_Atemp = 0
try:
FA_Atemp = tempResultDict[ 'ACK' ] - tempResultDict[ 'FA' ]
except KeyError:
main.log.warn( "Tshark Result was incorrect!" )
main.log.warn( tempResultDict )
main.wrong[ 'TsharkValueIncorrect' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
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 = getTimestampFromLog( i - 1, searchTerm=main.searchTerm[switchStatus] )
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" )
main.wrong[ 'TypeError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
except ValueError:
main.log.warn( "Error to decode Json object!" )
main.wrong[ 'decodeJasonError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
if DeviceTime != 0:
main.log.info( "================================================" )
try:
A_Dtemp = DeviceTime - tempResultDict[ 'ACK' ]
D_Gtemp = GraphTime - DeviceTime
E_Etemp = GraphTime - tempResultDict[ 'FA' ]
check = checkResult( A_Dtemp, D_Gtemp, E_Etemp )
if check == 1:
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 )
main.wrong[ 'TsharkValueIncorrect' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
return
except TypeError:
main.log.warn( "TypeError" )
main.wrong[ 'TypeError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
except ValueError:
main.log.warn( "Error to decode Json object!" )
main.wrong[ 'decodeJasonError' ] += 1
main.wrong[ 'totalWrong' ] += 1
checkTotalWrongNum()
break
if not warmup and check == 1:
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 )
else:
main.wrong['checkResultIncorrect'] += 1
main.wrong['totalWrong'] += 1
checkTotalWrongNum()
main.log.debug("Skip this iteration due to the None Devicetime")