blob: 0c1856493039b11e0fcde16063f54eda2ef4c8c9 [file] [log] [blame]
"""
Copyright 2015 Open Networking Foundation (ONF)
Please refer questions to either the onos test mailing list at <onos-test@onosproject.org>,
the System Testing Plans and Results wiki page at <https://wiki.onosproject.org/x/voMg>,
or the System Testing Guide page at <https://wiki.onosproject.org/x/WYQg>
TestON is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
TestON is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with TestON. If not, see <http://www.gnu.org/licenses/>.
"""
'''
SCPFportLat test
Test latency for port status change
Up & Down:
PortStatus --- Device --- Link --- Graph
yunpeng@onlab.us
'''
class SCPFportLat:
def __init__( self ):
self.default = ''
def CASE0( self, main ):
import os
import imp
'''
- 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
'''
try:
from tests.dependencies.ONOSSetup import ONOSSetup
main.testSetUp = ONOSSetup()
except ImportError:
main.log.error( "ONOSSetup not found. exiting the test" )
main.cleanAndExit()
main.testSetUp.envSetupDescription()
stepResult = main.FALSE
try:
main.MN1Ip = main.params[ 'MN' ][ 'ip1' ]
main.dependencyPath = main.testOnDirectory + \
main.params[ 'DEPENDENCY' ][ 'path' ]
main.dependencyFunc = main.params[ 'DEPENDENCY' ][ 'function' ]
main.topoName = main.params[ 'DEPENDENCY' ][ 'topology' ]
main.cellName = main.params[ 'ENV' ][ 'cellName' ]
main.apps = main.params[ 'ENV' ][ 'cellApps' ]
main.scale = ( main.params[ 'SCALE' ] ).split( "," )
main.ofportStatus = main.params[ 'TSHARK' ][ 'ofpPortStatus' ]
main.tsharkResultPath = main.params[ 'TSHARK' ][ 'tsharkReusltPath' ]
main.sampleSize = int( main.params[ 'TEST' ][ 'sampleSize' ] )
main.warmUp = int( main.params[ 'TEST' ][ 'warmUp' ] )
main.maxProcessTime = int( main.params[ 'TEST' ][ 'maxProcessTime' ] )
main.dbFileName = main.params[ 'DATABASE' ][ 'dbName' ]
main.startUpSleep = int( main.params[ 'SLEEP' ][ 'startup' ] )
main.measurementSleep = int( main.params[ 'SLEEP' ][ 'measure' ] )
main.maxScale = int( main.params[ 'max' ] )
main.defaultTopoCfg = main.params[ 'CFG' ][ 'defaultTopo' ]
main.interface = main.params[ 'TEST' ][ 'interface' ]
main.timeout = int( main.params[ 'TIMEOUT' ][ 'timeout' ] )
main.MNSleep = int( main.params[ 'SLEEP' ][ 'mininet' ] )
main.device = main.params[ 'TEST' ][ 'device' ]
main.debug = main.params[ 'TEST' ][ 'debug' ]
if main.debug == "True":
main.debug = True
else:
main.debug = False
stepResult = main.testSetUp.envSetup()
main.log.info( "Create Database file " + main.dbFileName )
resultsDB = open( main.dbFileName, "w+" )
resultsDB.close()
main.portFunc = imp.load_source( main.dependencyFunc,
main.dependencyPath +
main.dependencyFunc +
".py" )
except Exception as e:
main.testSetUp.envSetupException( e )
main.testSetUp.evnSetupConclusion( stepResult )
main.commit = main.commit.split( " " )[ 1 ]
def CASE1( self, main ):
# Clean up test environment and set up
import time
main.testSetUp.ONOSSetUp( main.Mininet1, main.Cluster, True,
cellName=main.cellName, killRemoveMax=False )
main.log.info( "Configure apps" )
main.Cluster.active( 0 ).CLI.setCfg( main.defaultTopoCfg,
"maxEvents 1" )
main.Cluster.active( 0 ).CLI.setCfg( main.defaultTopoCfg,
"maxBatchMs 0" )
main.Cluster.active( 0 ).CLI.setCfg( main.defaultTopoCfg,
"maxIdleMs 0" )
time.sleep( 1 )
main.log.info( "Copy topology file to Mininet" )
main.ONOSbench.copyMininetFile( main.topoName,
main.dependencyPath,
main.Mininet1.user_name,
main.Mininet1.ip_address )
try:
from tests.dependencies.utils import Utils
except ImportError:
main.log.error( "Utils not found exiting the test" )
main.cleanAndExit()
try:
main.Utils
except ( NameError, AttributeError ):
main.Utils = Utils()
main.Utils.mininetCleanup( main.Mininet1 )
time.sleep( main.MNSleep )
main.log.info( "Start new mininet topology" )
main.Mininet1.startNet()
main.log.info( "Assign switch to controller to ONOS node 1" )
time.sleep( 1 )
main.Mininet1.assignSwController( sw='s1',
ip=main.Cluster.active( 0 ).ipAddress )
main.Mininet1.assignSwController( sw='s2',
ip=main.Cluster.active( 0 ).ipAddress )
time.sleep( 2 )
def CASE2( self, main ):
import time
import numpy
# dictionary for each node and each timestamps
resultDict = { 'up' : {}, 'down' : {} }
for d in resultDict:
for i in range( 1, main.Cluster.numCtrls + 1 ):
resultDict[ d ][ 'node' + str( i ) ] = {}
resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ] = {}
resultDict[ d ][ 'node' + str( i ) ][ 'Std' ] = {}
resultDict[ d ][ 'node' + str( i ) ][ 'EtoE' ] = []
resultDict[ d ][ 'node' + str( i ) ][ 'PtoD' ] = []
resultDict[ d ][ 'node' + str( i ) ][ 'DtoL' ] = []
resultDict[ d ][ 'node' + str( i ) ][ 'LtoG' ] = []
for i in range( 0, main.sampleSize + main.warmUp ):
main.log.info( "==========================================" )
main.log.info( "================iteration:{}==============".format( str ( i + 1 ) ) )
if i >= main.warmUp:
# Portdown iteration
main.portFunc.capturePortStatusPack( main,
main.device,
main.interface,
"down",
resultDict,
False )
time.sleep( 2 )
# PortUp iteration
main.portFunc.capturePortStatusPack( main,
main.device,
main.interface,
"up",
resultDict,
False )
else:
# if warm up, keep old result dictionary
main.portFunc.capturePortStatusPack( main,
main.device,
main.interface,
"down",
resultDict,
True )
main.portFunc.capturePortStatusPack( main,
main.device,
main.interface,
"up",
resultDict,
True )
# Dictionary for result
maxDict = {}
maxDict[ 'down' ] = {}
maxDict[ 'up' ] = {}
maxDict[ 'down' ][ 'max' ] = 0
maxDict[ 'up' ][ 'max' ] = 0
maxDict[ 'down' ][ 'node' ] = 0
maxDict[ 'up' ][ 'node' ] = 0
EtoEtemp = 0
for d in resultDict:
for i in range( 1, main.Cluster.numCtrls + 1 ):
# calculate average and std for result, and grep the max End to End data
EtoEtemp = numpy.average( resultDict[ d ][ 'node' + str( i ) ][ 'EtoE' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'EtoE' ] = EtoEtemp
if maxDict[ d ][ 'max' ] < EtoEtemp:
# get max End to End latency
maxDict[ d ][ 'max' ] = EtoEtemp
maxDict[ d ][ 'node' ] = i
resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'PtoD' ] = numpy.average( resultDict[ d ][ 'node' + str( i ) ][ 'PtoD' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'DtoL' ] = numpy.average( resultDict[ d ][ 'node' + str( i ) ][ 'DtoL' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'LtoG' ] = numpy.average( resultDict[ d ][ 'node' + str( i ) ][ 'LtoG' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'EtoE' ] = numpy.std( resultDict[ d ][ 'node' + str( i ) ][ 'EtoE' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'PtoD' ] = numpy.std( resultDict[ d ][ 'node' + str( i ) ][ 'PtoD' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'DtoL' ] = numpy.std( resultDict[ d ][ 'node' + str( i ) ][ 'DtoL' ] )
resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'LtoG' ] = numpy.std( resultDict[ d ][ 'node' + str( i ) ][ 'LtoG' ] )
main.log.report( "=====node{} Summary:=====".format( str( i ) ) )
main.log.report( "=============Port {}=======".format( str( d ) ) )
main.log.report(
"End to End average: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'EtoE' ] ) ) )
main.log.report(
"End to End Std: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'EtoE' ] ) ) )
main.log.report(
"Package to Device average: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'PtoD' ] ) ) )
main.log.report(
"Package to Device Std: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'PtoD' ] ) ) )
main.log.report(
"Device to Link average: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'DtoL' ] ) ) )
main.log.report(
"Device to Link Std: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'DtoL' ] ) ) )
main.log.report(
"Link to Grapg average: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Ave' ][ 'LtoG' ] ) ) )
main.log.report(
"Link to Grapg Std: {}".format( str( resultDict[ d ][ 'node' + str( i ) ][ 'Std' ][ 'LtoG' ] ) ) )
with open( main.dbFileName, "a" ) as dbFile:
# Scale number
temp = str( main.Cluster.numCtrls )
temp += ",'baremetal1'"
# put result
temp += "," + str( resultDict[ 'up' ][ 'node' + str( maxDict[ 'up' ][ 'node' ] ) ][ 'Ave' ][ 'EtoE' ] )
temp += "," + str( resultDict[ 'up' ][ 'node' + str( maxDict[ 'up' ][ 'node' ] ) ][ 'Ave' ][ 'PtoD' ] )
temp += "," + str( resultDict[ 'up' ][ 'node' + str( maxDict[ 'up' ][ 'node' ] ) ][ 'Ave' ][ 'DtoL' ] )
temp += "," + str( resultDict[ 'up' ][ 'node' + str( maxDict[ 'up' ][ 'node' ] ) ][ 'Ave' ][ 'LtoG' ] )
temp += "," + str( resultDict[ 'down' ][ 'node' + str( maxDict[ 'down' ][ 'node' ] ) ][ 'Ave' ][ 'EtoE' ] )
temp += "," + str( resultDict[ 'down' ][ 'node' + str( maxDict[ 'down' ][ 'node' ] ) ][ 'Ave' ][ 'PtoD' ] )
temp += "," + str( resultDict[ 'down' ][ 'node' + str( maxDict[ 'down' ][ 'node' ] ) ][ 'Ave' ][ 'DtoL' ] )
temp += "," + str( resultDict[ 'down' ][ 'node' + str( maxDict[ 'down' ][ 'node' ] ) ][ 'Ave' ][ 'LtoG' ] )
temp += "," + str( resultDict[ 'up' ][ 'node' + str( maxDict[ 'up' ][ 'node' ] ) ][ 'Std' ][ 'EtoE' ] )
temp += "," + str( resultDict[ 'down' ][ 'node' + str( maxDict[ 'down' ][ 'node' ] ) ][ 'Std' ][ 'EtoE' ] )
temp += "\n"
dbFile.write( temp )
dbFile.close()