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gerrit.onosproject.org / OnosSystemTest / 8d7c77814ae603972743dfc02a617fb787a2c369 / . / TestON / tests / FUNC / FUNCintent / FUNCintent.py
blob: 8adb52a5df39ba169f0f99a792b78465c5ff2daa [file] [log] [blame]
# Testing the basic intent functionality of ONOS
class FUNCintent:
def __init__( self ):
self.default = ''
def CASE1( self, main ):
import imp
import re
"""
- Construct tests variables
- GIT ( optional )
- Checkout ONOS master branch
- Pull latest ONOS code
- Building ONOS ( optional )
- Install ONOS package
- Build ONOS package
"""
main.case( "Constructing test variables and building ONOS package" )
main.step( "Constructing test variables" )
main.caseExplanation = "This test case is mainly for loading " +\
"from params file, and pull and build the " +\
" latest ONOS package"
stepResult = main.FALSE
# Test variables
try:
main.testOnDirectory = re.sub( "(/tests)$", "", main.testDir )
main.apps = main.params[ 'ENV' ][ 'cellApps' ]
gitBranch = main.params[ 'GIT' ][ 'branch' ]
main.dependencyPath = main.testOnDirectory + \
main.params[ 'DEPENDENCY' ][ 'path' ]
main.topology = main.params[ 'DEPENDENCY' ][ 'topology' ]
main.scale = ( main.params[ 'SCALE' ][ 'size' ] ).split( "," )
if main.ONOSbench.maxNodes:
main.maxNodes = int( main.ONOSbench.maxNodes )
else:
main.maxNodes = 0
wrapperFile1 = main.params[ 'DEPENDENCY' ][ 'wrapper1' ]
wrapperFile2 = main.params[ 'DEPENDENCY' ][ 'wrapper2' ]
wrapperFile3 = main.params[ 'DEPENDENCY' ][ 'wrapper3' ]
main.startUpSleep = int( main.params[ 'SLEEP' ][ 'startup' ] )
main.checkIntentSleep = int( main.params[ 'SLEEP' ][ 'checkintent' ] )
main.removeIntentSleep = int( main.params[ 'SLEEP' ][ 'removeintent' ] )
main.rerouteSleep = int( main.params[ 'SLEEP' ][ 'reroute' ] )
main.fwdSleep = int( main.params[ 'SLEEP' ][ 'fwd' ] )
main.checkConnectionSleep = int( main.params[ 'SLEEP' ][ 'checkConnection' ] )
main.checkFlowCountSleep = int( main.params[ 'SLEEP' ][ 'checkFlowCount' ] )
main.checkIntentHostSleep = int( main.params[ 'SLEEP' ][ 'checkIntentHost' ] )
main.checkIntentPointSleep = int( main.params[ 'SLEEP' ][ 'checkIntentPoint' ] )
main.checkTopoAttempts = int( main.params[ 'SLEEP' ][ 'topoAttempts' ] )
main.flowDurationSleep = int( main.params[ 'SLEEP' ][ 'flowDuration' ] )
gitPull = main.params[ 'GIT' ][ 'pull' ]
main.numSwitch = int( main.params[ 'MININET' ][ 'switch' ] )
main.numLinks = int( main.params[ 'MININET' ][ 'links' ] )
main.cellData = {} # for creating cell file
main.hostsData = {}
main.CLIs = []
main.ONOSip = []
main.scapyHostNames = main.params[ 'SCAPY' ][ 'HOSTNAMES' ].split( ',' )
main.scapyHosts = [] # List of scapy hosts for iterating
main.assertReturnString = '' # Assembled assert return string
main.cycle = 0 # How many times FUNCintent has run through its tests
main.ONOSip = main.ONOSbench.getOnosIps()
main.log.debug( "Found ONOS ips: {}".format( main.ONOSip ) )
# Assigning ONOS cli handles to a list
for i in range( 1, main.maxNodes + 1 ):
main.CLIs.append( getattr( main, 'ONOScli' + str( i ) ) )
# -- INIT SECTION, ONLY RUNS ONCE -- #
main.startUp = imp.load_source( wrapperFile1,
main.dependencyPath +
wrapperFile1 +
".py" )
main.intents = imp.load_source( wrapperFile2,
main.dependencyPath +
wrapperFile2 +
".py" )
main.topo = imp.load_source( wrapperFile3,
main.dependencyPath +
wrapperFile3 +
".py" )
copyResult1 = main.ONOSbench.scp( main.Mininet1,
main.dependencyPath +
main.topology,
main.Mininet1.home + "custom/",
direction="to" )
if main.CLIs:
stepResult = main.TRUE
else:
main.log.error( "Did not properly created list of ONOS CLI handle" )
stepResult = main.FALSE
except Exception as e:
main.log.exception( e )
main.cleanup()
main.exit()
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully construct " +
"test variables ",
onfail="Failed to construct test variables" )
main.ONOSbench.getVersion( report=True )
def CASE2( self, main ):
"""
- Set up cell
- Create cell file
- Set cell file
- Verify cell file
- Kill ONOS process
- Uninstall ONOS cluster
- Verify ONOS start up
- Install ONOS cluster
- Connect to cli
"""
import time
main.cycle += 1
# main.scale[ 0 ] determines the current number of ONOS controller
main.numCtrls = int( main.scale[ 0 ] )
main.flowCompiler = "Flow Rules"
main.initialized = main.TRUE
main.case( "Starting up " + str( main.numCtrls ) +
" node(s) ONOS cluster" )
main.caseExplanation = "Set up ONOS with " + str( main.numCtrls ) +\
" node(s) ONOS cluster"
#kill off all onos processes
main.log.info( "Safety check, killing all ONOS processes" +
" before initiating environment setup" )
main.step( "Uninstalling ONOS package" )
onosUninstallResult = main.TRUE
for ip in main.ONOSip:
onosUninstallResult = onosUninstallResult and \
main.ONOSbench.onosUninstall( nodeIp=ip )
stepResult = onosUninstallResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully uninstalled ONOS package",
onfail="Failed to uninstall ONOS package" )
for i in range( main.maxNodes ):
main.ONOSbench.onosDie( main.ONOSip[ i ] )
main.log.debug( "NODE COUNT = " + str( main.numCtrls ) )
tempOnosIp = []
for i in range( main.numCtrls ):
tempOnosIp.append( main.ONOSip[ i ] )
main.ONOSbench.createCellFile( main.ONOSbench.ip_address,
"temp", main.Mininet1.ip_address,
main.apps, tempOnosIp, main.ONOScli1.user_name )
main.step( "Apply cell to environment" )
cellResult = main.ONOSbench.setCell( "temp" )
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( "Installing ONOS package" )
onosInstallResult = main.TRUE
for i in range( main.numCtrls ):
onosInstallResult = onosInstallResult and \
main.ONOSbench.onosInstall( node=main.ONOSip[ i ] )
stepResult = onosInstallResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully installed ONOS package",
onfail="Failed to install ONOS package" )
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" )
main.log.info( "Sleeping {} seconds".format( main.startUpSleep ) )
time.sleep( main.startUpSleep )
main.step( "Checking ONOS is running" )
stopResult = main.TRUE
startResult = main.TRUE
onosIsUp = main.TRUE
for i in range( main.numCtrls ):
isUp = main.ONOSbench.isup( main.ONOSip[ i ] )
onosIsUp = onosIsUp and isUp
if isUp == main.TRUE:
main.log.report( "ONOS instance {0} is up and ready".format( i + 1 ) )
else:
main.log.report( "ONOS instance {0} may not be up, stop and ".format( i + 1 ) +
"start ONOS again " )
stopResult = stopResult and main.ONOSbench.onosStop( main.ONOSip[ i ] )
startResult = startResult and main.ONOSbench.onosStart( main.ONOSip[ i ] )
if not startResult or stopResult:
main.log.report( "ONOS instance {0} did not start correctly.".format( i + 1 ) )
stepResult = onosIsUp and stopResult and startResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="ONOS service is ready on all nodes",
onfail="ONOS service did not start properly on all nodes" )
main.step( "Start ONOS cli" )
cliResult = main.TRUE
for i in range( main.numCtrls ):
cliResult = cliResult and \
main.CLIs[ i ].startOnosCli( main.ONOSip[ i ] )
stepResult = cliResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully start ONOS cli",
onfail="Failed to start ONOS cli" )
if not stepResult:
main.initialized = main.FALSE
# Remove the first element in main.scale list
main.scale.remove( main.scale[ 0 ] )
main.intents.report( main )
def CASE8( self, main ):
"""
Compare ONOS Topology to Mininet Topology
"""
import json
main.case( "Compare ONOS Topology view to Mininet topology" )
main.caseExplanation = "Compare topology elements between Mininet" +\
" and ONOS"
main.log.info( "Gathering topology information from Mininet" )
devicesResults = main.FALSE # Overall Boolean for device correctness
linksResults = main.FALSE # Overall Boolean for link correctness
hostsResults = main.FALSE # Overall Boolean for host correctness
deviceFails = [] # Nodes where devices are incorrect
linkFails = [] # Nodes where links are incorrect
hostFails = [] # Nodes where hosts are incorrect
attempts = main.checkTopoAttempts # Remaining Attempts
mnSwitches = main.Mininet1.getSwitches()
mnLinks = main.Mininet1.getLinks()
mnHosts = main.Mininet1.getHosts()
main.step( "Comparing Mininet topology to ONOS topology" )
while ( attempts >= 0 ) and\
( not devicesResults or not linksResults or not hostsResults ):
main.log.info( "Sleeping {} seconds".format( 2 ) )
time.sleep( 2 )
if not devicesResults:
devices = main.topo.getAllDevices( main )
ports = main.topo.getAllPorts( main )
devicesResults = main.TRUE
deviceFails = [] # Reset for each failed attempt
if not linksResults:
links = main.topo.getAllLinks( main )
linksResults = main.TRUE
linkFails = [] # Reset for each failed attempt
if not hostsResults:
hosts = main.topo.getAllHosts( main )
hostsResults = main.TRUE
hostFails = [] # Reset for each failed attempt
# Check for matching topology on each node
for controller in range( main.numCtrls ):
controllerStr = str( controller + 1 ) # ONOS node number
# Compare Devices
if devices[ controller ] and ports[ controller ] and\
"Error" not in devices[ controller ] and\
"Error" not in ports[ controller ]:
try:
deviceData = json.loads( devices[ controller ] )
portData = json.loads( ports[ controller ] )
except( TypeError, ValueError ):
main.log.error( "Could not load json: {0} or {1}".format( str( devices[ controller ] ), str( ports[ controller ] ) ) )
currentDevicesResult = main.FALSE
else:
currentDevicesResult = main.Mininet1.compareSwitches(
mnSwitches, deviceData, portData )
else:
currentDevicesResult = main.FALSE
if not currentDevicesResult:
deviceFails.append( controllerStr )
devicesResults = devicesResults and currentDevicesResult
# Compare Links
if links[ controller ] and "Error" not in links[ controller ]:
try:
linkData = json.loads( links[ controller ] )
except( TypeError, ValueError ):
main.log.error( "Could not load json:" + str( links[ controller ] ) )
currentLinksResult = main.FALSE
else:
currentLinksResult = main.Mininet1.compareLinks(
mnSwitches, mnLinks, linkData )
else:
currentLinksResult = main.FALSE
if not currentLinksResult:
linkFails.append( controllerStr )
linksResults = linksResults and currentLinksResult
# Compare Hosts
if hosts[ controller ] and "Error" not in hosts[ controller ]:
try:
hostData = json.loads( hosts[ controller ] )
except( TypeError, ValueError ):
main.log.error( "Could not load json:" + str( hosts[ controller ] ) )
currentHostsResult = main.FALSE
else:
currentHostsResult = main.Mininet1.compareHosts(
mnHosts, hostData )
else:
currentHostsResult = main.FALSE
if not currentHostsResult:
hostFails.append( controllerStr )
hostsResults = hostsResults and currentHostsResult
# Decrement Attempts Remaining
attempts -= 1
utilities.assert_equals( expect=[],
actual=deviceFails,
onpass="ONOS correctly discovered all devices",
onfail="ONOS incorrectly discovered devices on nodes: " +
str( deviceFails ) )
utilities.assert_equals( expect=[],
actual=linkFails,
onpass="ONOS correctly discovered all links",
onfail="ONOS incorrectly discovered links on nodes: " +
str( linkFails ) )
utilities.assert_equals( expect=[],
actual=hostFails,
onpass="ONOS correctly discovered all hosts",
onfail="ONOS incorrectly discovered hosts on nodes: " +
str( hostFails ) )
topoResults = hostsResults and linksResults and devicesResults
utilities.assert_equals( expect=main.TRUE,
actual=topoResults,
onpass="ONOS correctly discovered the topology",
onfail="ONOS incorrectly discovered the topology" )
def CASE10( self, main ):
"""
Start Mininet topology with OF 1.0 switches
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.OFProtocol = "1.0"
main.log.report( "Start Mininet topology with OF 1.0 switches" )
main.case( "Start Mininet topology with OF 1.0 switches" )
main.caseExplanation = "Start mininet topology with OF 1.0 " +\
"switches to test intents, exits out if " +\
"topology did not start correctly"
main.step( "Starting Mininet topology with OF 1.0 switches" )
args = "--switch ovs,protocols=OpenFlow10"
topoResult = main.Mininet1.startNet( topoFile=main.dependencyPath +
main.topology,
args=args )
stepResult = topoResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully loaded topology",
onfail="Failed to load topology" )
# Set flag to test cases if topology did not load properly
if not topoResult:
main.initialized = main.FALSE
main.skipCase()
def CASE11( self, main ):
"""
Start Mininet topology with OF 1.3 switches
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.OFProtocol = "1.3"
main.log.report( "Start Mininet topology with OF 1.3 switches" )
main.case( "Start Mininet topology with OF 1.3 switches" )
main.caseExplanation = "Start mininet topology with OF 1.3 " +\
"switches to test intents, exits out if " +\
"topology did not start correctly"
main.step( "Starting Mininet topology with OF 1.3 switches" )
args = "--switch ovs,protocols=OpenFlow13"
topoResult = main.Mininet1.startNet( topoFile=main.dependencyPath +
main.topology,
args=args )
stepResult = topoResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully loaded topology",
onfail="Failed to load topology" )
# Set flag to skip test cases if topology did not load properly
if not topoResult:
main.initialized = main.FALSE
def CASE12( self, main ):
"""
Assign mastership to controllers
"""
import re
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.case( "Assign switches to controllers" )
main.step( "Assigning switches to controllers" )
main.caseExplanation = "Assign OF " + main.OFProtocol +\
" switches to ONOS nodes"
switchList = []
# Creates a list switch name, use getSwitch() function later...
for i in range( 1, ( main.numSwitch + 1 ) ):
switchList.append( 's' + str( i ) )
tempONOSip = []
for i in range( main.numCtrls ):
tempONOSip.append( main.ONOSip[ i ] )
assignResult = main.Mininet1.assignSwController( sw=switchList,
ip=tempONOSip,
port="6653" )
if not assignResult:
main.log.error( "Problem assigning mastership of switches" )
main.initialized = main.FALSE
main.skipCase()
for i in range( 1, ( main.numSwitch + 1 ) ):
response = main.Mininet1.getSwController( "s" + str( i ) )
main.log.debug( "Response is " + str( response ) )
if re.search( "tcp:" + main.ONOSip[ 0 ], response ):
assignResult = assignResult and main.TRUE
else:
assignResult = main.FALSE
stepResult = assignResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully assigned switches" +
"to controller",
onfail="Failed to assign switches to " +
"controller" )
if not stepResult:
main.initialized = main.FALSE
def CASE13( self, main ):
"""
Create Scapy components
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.case( "Create scapy components" )
main.step( "Create scapy components" )
scapyResult = main.TRUE
for hostName in main.scapyHostNames:
main.Scapy1.createHostComponent( hostName )
main.scapyHosts.append( getattr( main, hostName ) )
main.step( "Start scapy components" )
for host in main.scapyHosts:
host.startHostCli()
host.startScapy()
host.updateSelf()
main.log.debug( host.name )
main.log.debug( host.hostIp )
main.log.debug( host.hostMac )
utilities.assert_equals( expect=main.TRUE,
actual=scapyResult,
onpass="Successfully created Scapy Components",
onfail="Failed to discover Scapy Components" )
if not scapyResult:
main.initialized = main.FALSE
def CASE14( self, main ):
"""
Discover all hosts with fwd and pingall and store its data in a dictionary
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.case( "Discover all hosts" )
main.step( "Pingall hosts and confirm ONOS discovery" )
utilities.retry( f=main.intents.fwdPingall, retValue=main.FALSE, args=[ main ] )
stepResult = utilities.retry( f=main.intents.confirmHostDiscovery, retValue=main.FALSE,
args=[ main ], attempts=main.checkTopoAttempts, sleep=2 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully discovered hosts",
onfail="Failed to discover hosts" )
if not stepResult:
main.initialized = main.FALSE
main.skipCase()
main.step( "Populate hostsData" )
stepResult = main.intents.populateHostData( main )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully populated hostsData",
onfail="Failed to populate hostsData" )
if not stepResult:
main.initialized = main.FALSE
def CASE15( self, main ):
"""
Discover all hosts with scapy arp packets and store its data to a dictionary
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.case( "Discover all hosts using scapy" )
main.step( "Send packets from each host to the first host and confirm onos discovery" )
if len( main.scapyHosts ) < 1:
main.log.error( "No scapy hosts have been created" )
main.initialized = main.FALSE
main.skipCase()
# Send ARP packets from each scapy host component
main.intents.sendDiscoveryArp( main, main.scapyHosts )
stepResult = utilities.retry( f=main.intents.confirmHostDiscovery,
retValue=main.FALSE, args=[ main ],
attempts=main.checkTopoAttempts, sleep=2 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="ONOS correctly discovered all hosts",
onfail="ONOS incorrectly discovered hosts" )
if not stepResult:
main.initialized = main.FALSE
main.skipCase()
main.step( "Populate hostsData" )
stepResult = main.intents.populateHostData( main )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully populated hostsData",
onfail="Failed to populate hostsData" )
if not stepResult:
main.initialized = main.FALSE
def CASE16( self, main ):
"""
Balance Masters
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.stop()
main.skipCase()
main.case( "Balance mastership of switches" )
main.step( "Balancing mastership of switches" )
balanceResult = utilities.retry( f=main.CLIs[ 0 ].balanceMasters, retValue=main.FALSE, args=[] )
utilities.assert_equals( expect=main.TRUE,
actual=balanceResult,
onpass="Successfully balanced mastership of switches",
onfail="Failed to balance mastership of switches" )
if not balanceResult:
main.initialized = main.FALSE
def CASE17( self, main ):
"""
Use Flow Objectives
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
main.case( "Enable intent compilation using Flow Objectives" )
main.step( "Enabling Flow Objectives" )
main.flowCompiler = "Flow Objectives"
cmd = "org.onosproject.net.intent.impl.compiler.IntentConfigurableRegistrator"
stepResult = main.CLIs[ 0 ].setCfg( component=cmd,
propName="useFlowObjectives", value="true" )
stepResult &= main.CLIs[ 0 ].setCfg( component=cmd,
propName="defaultFlowObjectiveCompiler",
value='org.onosproject.net.intent.impl.compiler.LinkCollectionIntentObjectiveCompiler' )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully activated Flow Objectives",
onfail="Failed to activate Flow Objectives" )
if not balanceResult:
main.initialized = main.FALSE
def CASE18( self, main ):
"""
Stop mininet and remove scapy host
"""
main.log.report( "Stop Mininet and Scapy" )
main.case( "Stop Mininet and Scapy" )
main.caseExplanation = "Stopping the current mininet topology " +\
"to start up fresh"
main.step( "Stopping and Removing Scapy Host Components" )
scapyResult = main.TRUE
for host in main.scapyHosts:
scapyResult = scapyResult and host.stopScapy()
main.log.info( "Stopped Scapy Host: {0}".format( host.name ) )
for host in main.scapyHosts:
scapyResult = scapyResult and main.Scapy1.removeHostComponent( host.name )
main.log.info( "Removed Scapy Host Component: {0}".format( host.name ) )
main.scapyHosts = []
main.scapyHostIPs = []
utilities.assert_equals( expect=main.TRUE,
actual=scapyResult,
onpass="Successfully stopped scapy and removed host components",
onfail="Failed to stop mininet and scapy" )
main.step( "Stopping Mininet Topology" )
mininetResult = main.Mininet1.stopNet()
utilities.assert_equals( expect=main.TRUE,
actual=mininetResult,
onpass="Successfully stopped mininet and scapy",
onfail="Failed to stop mininet and scapy" )
# Exit if topology did not load properly
if not ( mininetResult and scapyResult ):
main.cleanup()
main.exit()
def CASE19( self, main ):
"""
Copy the karaf.log files after each testcase cycle
"""
main.log.report( "Copy karaf logs" )
main.case( "Copy karaf logs" )
main.caseExplanation = "Copying the karaf logs to preserve them through" +\
"reinstalling ONOS"
main.step( "Copying karaf logs" )
stepResult = main.TRUE
scpResult = main.TRUE
copyResult = main.TRUE
for i in range( main.numCtrls ):
main.node = main.CLIs[ i ]
ip = main.ONOSip[ i ]
main.node.ip_address = ip
scpResult = scpResult and main.ONOSbench.scp( main.node,
"/opt/onos/log/karaf.log",
"/tmp/karaf.log",
direction="from" )
copyResult = copyResult and main.ONOSbench.cpLogsToDir( "/tmp/karaf.log", main.logdir,
copyFileName=( "karaf.log.node{0}.cycle{1}".format( str( i + 1 ), str( main.cycle ) ) ) )
if scpResult and copyResult:
stepResult = main.TRUE and stepResult
else:
stepResult = main.FALSE and stepResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully copied remote ONOS logs",
onfail="Failed to copy remote ONOS logs" )
def CASE1000( self, main ):
"""
Add host intents between 2 host:
- Discover hosts
- Add host intents
- Check intents
- Verify flows
- Ping hosts
- Reroute
- Link down
- Verify flows
- Check topology
- Ping hosts
- Link up
- Verify flows
- Check topology
- Ping hosts
- Remove intents
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
# Assert variables - These variable's name|format must be followed
# if you want to use the wrapper function
assert main, "There is no main"
try:
assert main.CLIs
except AssertionError:
main.log.error( "There is no main.CLIs, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.Mininet1
except AssertionError:
main.log.error( "Mininet handle should be named Mininet1, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.numSwitch
except AssertionError:
main.log.error( "Place the total number of switch topology in " +
main.numSwitch )
main.initialized = main.FALSE
main.skipCase()
# Save leader candidates
intentLeadersOld = main.CLIs[ 0 ].leaderCandidates()
main.testName = "Host Intents"
main.case( main.testName + " Test - " + str( main.numCtrls ) +
" NODE(S) - OF " + main.OFProtocol + " - Using " + main.flowCompiler )
main.caseExplanation = "This test case tests Host intents using " +\
str( main.numCtrls ) + " node(s) cluster;\n" +\
"Different type of hosts will be tested in " +\
"each step such as IPV4, Dual stack, VLAN " +\
"etc;\nThe test will use OF " + main.OFProtocol +\
" OVS running in Mininet and compile intents" +\
" using " + main.flowCompiler
main.step( "IPV4: Add host intents between h1 and h9" )
main.assertReturnString = "Assertion Result for IPV4 host intent with mac addresses\n"
host1 = { "name": "h1", "id": "00:00:00:00:00:01/-1" }
host2 = { "name": "h9", "id": "00:00:00:00:00:09/-1" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="IPV4",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="IPV4",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "DUALSTACK1: Add host intents between h3 and h11" )
main.assertReturnString = "Assertion Result for dualstack IPV4 with MAC addresses\n"
host1 = { "name": "h3", "id": "00:00:00:00:00:03/-1" }
host2 = { "name": "h11", "id": "00:00:00:00:00:0B/-1 " }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="DUALSTACK",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="DUALSTACK",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "DUALSTACK2: Add host intents between h1 and h11" )
main.assertReturnString = "Assertion Result for dualstack2 host intent\n"
host1 = { "name": "h1" }
host2 = { "name": "h11" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="DUALSTACK2",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="DUALSTACK2",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "1HOP: Add host intents between h1 and h3" )
main.assertReturnString = "Assertion Result for 1HOP for IPV4 same switch\n"
host1 = { "name": "h1" }
host2 = { "name": "h3" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="1HOP",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="1HOP",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN1: Add vlan host intents between h4 and h12" )
main.assertReturnString = "Assertion Result vlan IPV4\n"
host1 = { "name": "h4", "id": "00:00:00:00:00:04/100", "vlan": "100" }
host2 = { "name": "h12", "id": "00:00:00:00:00:0C/100", "vlan": "100" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="VLAN1",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="VLAN1",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN2: Add vlan host intents between h4 and h13" )
main.assertReturnString = "Assertion Result vlan IPV4\n"
host1 = { "name": "h5", "vlan": "200" }
host2 = { "name": "h12", "vlan": "100" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="VLAN2",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="VLAN2",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "Encapsulation: Add host intents between h1 and h9" )
main.assertReturnString = "Assertion Result for VLAN Encapsulated host intent\n"
host1 = { "name": "h1", "id": "00:00:00:00:00:01/-1" }
host2 = { "name": "h9", "id": "00:00:00:00:00:09/-1" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="ENCAPSULATION",
onosNode=0,
host1=host1,
host2=host2,
encap="VLAN" )
if installResult:
testResult = main.intents.testHostIntent( main,
name="ENCAPSULATION",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
# Testing MPLS would require kernel version of 4.1 or higher ( Current version is 3.13 )
# main.step( "Encapsulation: Add host intents between h1 and h9" )
# main.assertReturnString = "Assertion Result for MPLS Encapsulated host intent\n"
# host1 = { "name": "h1", "id": "00:00:00:00:00:01/-1" }
# host2 = { "name": "h9", "id": "00:00:00:00:00:09/-1" }
# testResult = main.FALSE
# installResult = main.intents.installHostIntent( main,
# name="ENCAPSULATION",
# onosNode=0,
# host1=host1,
# host2=host2,
# encap="MPLS" )
# if installResult:
# testResult = main.intents.testHostIntent( main,
# name="ENCAPSULATION",
# intentId=installResult,
# onosNode=0,
# host1=host1,
# host2=host2,
# sw1="s5",
# sw2="s2",
# expectedLink=18 )
# else:
# main.CLIs[ 0 ].removeAllIntents( purge=True )
#
# utilities.assert_equals( expect=main.TRUE,
# actual=testResult,
# onpass=main.assertReturnString,
# onfail=main.assertReturnString )
main.step( "Confirm that ONOS leadership is unchanged" )
intentLeadersNew = main.CLIs[ 0 ].leaderCandidates()
testResult = main.intents.checkLeaderChange( intentLeadersOld,
intentLeadersNew )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass="ONOS Leaders Unchanged",
onfail="ONOS Leader Mismatch" )
main.intents.report( main )
def CASE2000( self, main ):
"""
Add point intents between 2 hosts:
- Get device ids | ports
- Add point intents
- Check intents
- Verify flows
- Ping hosts
- Reroute
- Link down
- Verify flows
- Check topology
- Ping hosts
- Link up
- Verify flows
- Check topology
- Ping hosts
- Remove intents
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
# Assert variables - These variable's name|format must be followed
# if you want to use the wrapper function
assert main, "There is no main"
try:
assert main.CLIs
except AssertionError:
main.log.error( "There is no main.CLIs, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.Mininet1
except AssertionError:
main.log.error( "Mininet handle should be named Mininet1, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.numSwitch
except AssertionError:
main.log.error( "Place the total number of switch topology in " +
main.numSwitch )
main.initialized = main.FALSE
main.skipCase()
main.testName = "Point Intents"
main.case( main.testName + " Test - " + str( main.numCtrls ) +
" NODE(S) - OF " + main.OFProtocol + " - Using " + main.flowCompiler )
main.caseExplanation = "This test case will test point to point" +\
" intents using " + str( main.numCtrls ) +\
" node(s) cluster;\n" +\
"Different type of hosts will be tested in " +\
"each step such as IPV4, Dual stack, VLAN etc" +\
";\nThe test will use OF " + main.OFProtocol +\
" OVS running in Mininet and compile intents" +\
" using " + main.flowCompiler
# No option point intents
main.step( "NOOPTION: Add point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for NOOPTION point intent\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1" }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "IPV4: Add point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for IPV4 point intent\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1", "mac": "00:00:00:00:00:01" }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1", "mac": "00:00:00:00:00:09" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="IPV4",
senders=senders,
recipients=recipients,
ethType="IPV4" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="IPV4",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "Protected: Add point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for protected point intent\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1", "mac": "00:00:00:00:00:01" }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1", "mac": "00:00:00:00:00:09" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="Protected",
senders=senders,
recipients=recipients,
protected=True )
if installResult:
testResult = main.intents.testPointIntent(
main,
name="Protected",
intentId=installResult,
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
protected=True,
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "IPV4_2: Add point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for IPV4 no mac address point intents\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1" }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="IPV4_2",
senders=senders,
recipients=recipients,
ethType="IPV4" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="IPV4_2",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "SDNIP-ICMP: Add point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for SDNIP-ICMP IPV4 using TCP point intents\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1", "mac": "00:00:00:00:00:01",
"ip":( main.h1.hostIp + "/24" ) }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1", "mac": "00:00:00:00:00:09",
"ip":( main.h9.hostIp + "/24" ) }
]
ipProto = main.params[ 'SDNIP' ][ 'ipPrototype' ]
# Uneccessary, not including this in the selectors
tcpSrc = main.params[ 'SDNIP' ][ 'srcPort' ]
tcpDst = main.params[ 'SDNIP' ][ 'dstPort' ]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="SDNIP-ICMP",
senders=senders,
recipients=recipients,
ethType="IPV4",
ipProto=ipProto,
tcpSrc=tcpSrc,
tcpDst=tcpDst )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="SDNIP_ICMP",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18,
useTCP=True )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "SDNIP-TCP: Add point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for SDNIP-TCP IPV4 using ICMP point intents\n"
mac1 = main.hostsData[ 'h1' ][ 'mac' ]
mac2 = main.hostsData[ 'h9' ][ 'mac' ]
ip1 = str( main.hostsData[ 'h1' ][ 'ipAddresses' ][ 0 ] ) + "/32"
ip2 = str( main.hostsData[ 'h9' ][ 'ipAddresses' ][ 0 ] ) + "/32"
ipProto = main.params[ 'SDNIP' ][ 'tcpProto' ]
tcp1 = main.params[ 'SDNIP' ][ 'srcPort' ]
tcp2 = main.params[ 'SDNIP' ][ 'dstPort' ]
stepResult = main.intents.pointIntentTcp(
main,
name="SDNIP-TCP",
host1="h1",
host2="h9",
deviceId1="of:0000000000000005/1",
deviceId2="of:0000000000000006/1",
mac1=mac1,
mac2=mac2,
ethType="IPV4",
ipProto=ipProto,
ip1=ip1,
ip2=ip2,
tcp1=tcp1,
tcp2=tcp2 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "DUALSTACK1: Add point intents between h3 and h11" )
main.assertReturnString = "Assertion Result for Dualstack1 IPV4 with mac address point intents\n"
senders = [
{ "name": "h3", "device": "of:0000000000000005/3", "mac": "00:00:00:00:00:03" }
]
recipients = [
{ "name": "h11", "device": "of:0000000000000006/3", "mac": "00:00:00:00:00:0B" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="DUALSTACK1",
senders=senders,
recipients=recipients,
ethType="IPV4" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="DUALSTACK1",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN: Add point intents between h5 and h21" )
main.assertReturnString = "Assertion Result for VLAN IPV4 with mac address point intents\n"
senders = [
{ "name": "h5", "device": "of:0000000000000005/5", "mac": "00:00:00:00:00:05", "vlan": "200" }
]
recipients = [
{ "name": "h21", "device": "of:0000000000000007/5", "mac": "00:00:00:00:00:15", "vlan": "200" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="VLAN",
senders=senders,
recipients=recipients )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="VLAN",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN: Add point intents between h5 and h21" )
main.assertReturnString = "Assertion Result for VLAN IPV4 point intents with VLAN treatment\n"
senders = [
{ "name": "h4", "vlan": "100" }
]
recipients = [
{ "name": "h21", "vlan": "200" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="VLAN2",
senders=senders,
recipients=recipients,
setVlan=200 )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="VLAN2",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "1HOP: Add point intents between h1 and h3" )
main.assertReturnString = "Assertion Result for 1HOP IPV4 with no mac address point intents\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1", "mac": "00:00:00:00:00:01" }
]
recipients = [
{ "name": "h3", "device": "of:0000000000000005/3", "mac": "00:00:00:00:00:03" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="1HOP IPV4",
senders=senders,
recipients=recipients,
ethType="IPV4" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="1HOP IPV4",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "Add point to point intents using VLAN Encapsulation" )
main.assertReturnString = "Assertion Result for VLAN Encapsulation Point Intent"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1" }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="ENCAPSULATION",
senders=senders,
recipients=recipients,
encap="VLAN" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="ENCAPSULATION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "BANDWIDTH ALLOCATION: Checking bandwidth allocation for point intents between h1 and h9" )
main.assertReturnString = "Assertion Result for BANDWIDTH ALLOCATION for point intent\n"
senders = [
{ "name": "h1", "device": "of:0000000000000005/1" }
]
recipients = [
{ "name": "h9", "device": "of:0000000000000006/1" }
]
testResult = main.FALSE
installResult = main.intents.installPointIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
bandwidth=100 )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
# Testing MPLS would require kernel version of 4.1 or higher ( Current version is 3.13 )
# main.step( "Add point to point intents using MPLS Encapsulation" )
# main.assertReturnString = "Assertion Result for MPLS Encapsulation Point Intent"
# senders = [
# { "name": "h1", "device": "of:0000000000000005/1" }
# ]
# recipients = [
# { "name": "h9", "device": "of:0000000000000006/1" }
# ]
# testResult = main.FALSE
# installResult = main.intents.installPointIntent(
# main,
# name="ENCAPSULATION",
# senders=senders,
# recipients=recipients,
# encap="MPLS" )
#
# if installResult:
# testResult = main.intents.testPointIntent(
# main,
# intentId=installResult,
# name="ENCAPSULATION",
# senders=senders,
# recipients=recipients,
# sw1="s5",
# sw2="s2",
# expectedLink=18 )
# else:
# main.CLIs[ 0 ].removeAllIntents( purge=True )
#
# utilities.assert_equals( expect=main.TRUE,
# actual=testResult,
# onpass=main.assertReturnString,
# onfail=main.assertReturnString )
main.intents.report( main )
def CASE3000( self, main ):
"""
Add single point to multi point intents
- Get device ids
- Add single point to multi point intents
- Check intents
- Verify flows
- Ping hosts
- Reroute
- Link down
- Verify flows
- Check topology
- Ping hosts
- Link up
- Verify flows
- Check topology
- Ping hosts
- Remove intents
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
assert main, "There is no main"
try:
assert main.CLIs
except AssertionError:
main.log.error( "There is no main.CLIs, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.Mininet1
except AssertionError:
main.log.error( "Mininet handle should be named Mininet1, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.numSwitch
except AssertionError:
main.log.error( "Place the total number of switch topology in " +
main.numSwitch )
main.initialized = main.FALSE
main.skipCase()
main.testName = "Single to Multi Point Intents"
main.case( main.testName + " Test - " + str( main.numCtrls ) +
" NODE(S) - OF " + main.OFProtocol + " - Using " + main.flowCompiler )
main.caseExplanation = "This test case will test single point to" +\
" multi point intents using " +\
str( main.numCtrls ) + " node(s) cluster;\n" +\
"Different type of hosts will be tested in " +\
"each step such as IPV4, Dual stack, VLAN etc" +\
";\nThe test will use OF " + main.OFProtocol +\
" OVS running in Mininet and compile intents" +\
" using " + main.flowCompiler
main.step( "NOOPTION: Install and test single point to multi point intents" )
main.assertReturnString = "Assertion results for IPV4 single to multi point intent with no options set\n"
senders = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
recipients = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
badSenders = [ { "name": "h9" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h17" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "IPV4: Install and test single point to multi point intents" )
main.assertReturnString = "Assertion results for IPV4 single to multi point intent with IPV4 type and MAC addresses\n"
senders = [
{ "name": "h8", "device": "of:0000000000000005/8", "mac": "00:00:00:00:00:08" }
]
recipients = [
{ "name": "h16", "device": "of:0000000000000006/8", "mac": "00:00:00:00:00:10" },
{ "name": "h24", "device": "of:0000000000000007/8", "mac": "00:00:00:00:00:18" }
]
badSenders = [ { "name": "h9" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h17" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="IPV4",
senders=senders,
recipients=recipients,
ethType="IPV4",
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="IPV4",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "IPV4_2: Add single point to multi point intents" )
main.assertReturnString = "Assertion results for IPV4 single to multi point intent with IPV4 type and no MAC addresses\n"
senders = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
recipients = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
badSenders = [ { "name": "h9" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h17" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="IPV4_2",
senders=senders,
recipients=recipients,
ethType="IPV4",
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="IPV4_2",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN: Add single point to multi point intents" )
main.assertReturnString = "Assertion results for IPV4 single to multi point intent with IPV4 type and MAC addresses in the same VLAN\n"
senders = [
{ "name": "h4", "device": "of:0000000000000005/4", "mac": "00:00:00:00:00:04", "vlan": "100" }
]
recipients = [
{ "name": "h12", "device": "of:0000000000000006/4", "mac": "00:00:00:00:00:0C", "vlan": "100" },
{ "name": "h20", "device": "of:0000000000000007/4", "mac": "00:00:00:00:00:14", "vlan": "100" }
]
badSenders = [ { "name": "h13" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h21" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="VLAN",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="VLAN",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN: Add single point to multi point intents" )
main.assertReturnString = "Assertion results for single to multi point intent with VLAN treatment\n"
senders = [
{ "name": "h5", "vlan": "200" }
]
recipients = [
{ "name": "h12", "device": "of:0000000000000006/4", "mac": "00:00:00:00:00:0C", "vlan": "100" },
{ "name": "h20", "device": "of:0000000000000007/4", "mac": "00:00:00:00:00:14", "vlan": "100" }
]
badSenders = [ { "name": "h13" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h21" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="VLAN2",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
setVlan=100 )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="VLAN2",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
# Does not support Single point to multi point encapsulation
# main.step( "ENCAPSULATION: Install and test single point to multi point intents" )
# main.assertReturnString = "Assertion results for VLAN Encapsulation single to multi point intent\n"
# senders = [
# { "name": "h8", "device": "of:0000000000000005/8" }
# ]
# recipients = [
# { "name": "h16", "device": "of:0000000000000006/8" },
# { "name": "h24", "device": "of:0000000000000007/8" }
# ]
# badSenders = [ { "name": "h9" } ] # Senders that are not in the intent
# badRecipients = [ { "name": "h17" } ] # Recipients that are not in the intent
# testResult = main.FALSE
# installResult = main.intents.installSingleToMultiIntent(
# main,
# name="ENCAPSULATION",
# senders=senders,
# recipients=recipients,
# sw1="s5",
# sw2="s2",
# encap="VLAN" )
#
# if installResult:
# testResult = main.intents.testPointIntent(
# main,
# intentId=installResult,
# name="ENCAPSULATION",
# senders=senders,
# recipients=recipients,
# badSenders=badSenders,
# badRecipients=badRecipients,
# sw1="s5",
# sw2="s2",
# expectedLink=18 )
# else:
# main.CLIs[ 0 ].removeAllIntents( purge=True )
#
# utilities.assert_equals( expect=main.TRUE,
# actual=testResult,
# onpass=main.assertReturnString,
# onfail=main.assertReturnString )
main.intents.report( main )
def CASE4000( self, main ):
"""
Add multi point to single point intents
- Get device ids
- Add multi point to single point intents
- Check intents
- Verify flows
- Ping hosts
- Reroute
- Link down
- Verify flows
- Check topology
- Ping hosts
- Link up
- Verify flows
- Check topology
- Ping hosts
- Remove intents
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
assert main, "There is no main"
try:
assert main.CLIs
except AssertionError:
main.log.error( "There is no main.CLIs, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.Mininet1
except AssertionError:
main.log.error( "Mininet handle should be named Mininet1, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.numSwitch
except AssertionError:
main.log.error( "Place the total number of switch topology in " +
main.numSwitch )
main.initialized = main.FALSE
main.skipCase()
main.testName = "Multi To Single Point Intents"
main.case( main.testName + " Test - " + str( main.numCtrls ) +
" NODE(S) - OF " + main.OFProtocol + " - Using " + main.flowCompiler )
main.caseExplanation = "This test case will test single point to" +\
" multi point intents using " +\
str( main.numCtrls ) + " node(s) cluster;\n" +\
"Different type of hosts will be tested in " +\
"each step such as IPV4, Dual stack, VLAN etc" +\
";\nThe test will use OF " + main.OFProtocol +\
" OVS running in Mininet and compile intents" +\
" using " + main.flowCompiler
main.step( "NOOPTION: Add multi point to single point intents" )
main.assertReturnString = "Assertion results for NOOPTION multi to single point intent\n"
senders = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
recipients = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
badSenders = [ { "name": "h17" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h9" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "IPV4: Add multi point to single point intents" )
main.assertReturnString = "Assertion results for IPV4 multi to single point intent with IPV4 type and MAC addresses\n"
senders = [
{ "name": "h16", "device": "of:0000000000000006/8", "mac": "00:00:00:00:00:10" },
{ "name": "h24", "device": "of:0000000000000007/8", "mac": "00:00:00:00:00:18" }
]
recipients = [
{ "name": "h8", "device": "of:0000000000000005/8", "mac": "00:00:00:00:00:08" }
]
badSenders = [ { "name": "h17" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h9" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="IPV4",
senders=senders,
recipients=recipients,
ethType="IPV4",
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="IPV4",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "IPV4_2: Add multi point to single point intents" )
main.assertReturnString = "Assertion results for IPV4 multi to single point intent with IPV4 type and no MAC addresses\n"
senders = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
recipients = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
badSenders = [ { "name": "h17" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h9" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="IPV4_2",
senders=senders,
recipients=recipients,
ethType="IPV4",
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="IPV4_2",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "VLAN: Add multi point to single point intents" )
main.assertReturnString = "Assertion results for IPV4 multi to single point intent with IPV4 type and no MAC addresses in the same VLAN\n"
senders = [
{ "name": "h13", "device": "of:0000000000000006/5", "vlan": "200" },
{ "name": "h21", "device": "of:0000000000000007/5", "vlan": "200" }
]
recipients = [
{ "name": "h5", "device": "of:0000000000000005/5", "vlan": "200" }
]
badSenders = [ { "name": "h12" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h20" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="VLAN",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="VLAN",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
# Right now this fails because of this bug: https://jira.onosproject.org/browse/ONOS-4383
main.step( "VLAN: Add multi point to single point intents" )
main.assertReturnString = "Assertion results for multi to single point intent with VLAN ID treatment\n"
senders = [
{ "name": "h13", "device": "of:0000000000000006/5", "vlan": "200" },
{ "name": "h21", "device": "of:0000000000000007/5", "vlan": "200" }
]
recipients = [
{ "name": "h4", "vlan": "100" }
]
badSenders = [ { "name": "h12" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h20" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="VLAN2",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
setVlan=100 )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="VLAN2",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "ENCAPSULATION: Add multi point to single point intents" )
main.assertReturnString = "Assertion results for VLAN Encapsulation multi to single point intent\n"
senders = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
recipients = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
badSenders = [ { "name": "h17" } ] # Senders that are not in the intent
badRecipients = [ { "name": "h9" } ] # Recipients that are not in the intent
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="ENCAPSULATION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
encap="VLAN" )
if installResult:
testResult = main.intents.testPointIntent(
main,
intentId=installResult,
name="ENCAPSULATION",
senders=senders,
recipients=recipients,
badSenders=badSenders,
badRecipients=badRecipients,
sw1="s5",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
#Testing MPLS would require kernel version of 4.1 or higher ( Current version is 3.13 )
#main.step( "ENCAPSULATION: Add multi point to single point intents" )
#main.assertReturnString = "Assertion results for MPLS Encapsulation multi to single point intent\n"
#senders = [
# { "name": "h16", "device": "of:0000000000000006/8" },
# { "name": "h24", "device": "of:0000000000000007/8" }
# ]
#recipients = [
# { "name": "h8", "device": "of:0000000000000005/8" }
# ]
#badSenders = [ { "name": "h17" } ] # Senders that are not in the intent
#badRecipients = [ { "name": "h9" } ] # Recipients that are not in the intent
#testResult = main.FALSE
#installResult = main.intents.installMultiToSingleIntent(
# main,
# name="ENCAPSULATION",
# senders=senders,
# recipients=recipients,
# sw1="s5",
# sw2="s2",
# encap="MPLS" )
#
#if installResult:
# testResult = main.intents.testPointIntent(
# main,
# intentId=installResult,
# name="ENCAPSULATION",
# senders=senders,
# recipients=recipients,
# badSenders=badSenders,
# badRecipients=badRecipients,
# sw1="s5",
# sw2="s2",
# expectedLink=18 )
#else:
# main.CLIs[ 0 ].removeAllIntents( purge=True )
#
#utilities.assert_equals( expect=main.TRUE,
# actual=testResult,
# onpass=main.assertReturnString,
# onfail=main.assertReturnString )
main.intents.report( main )
def CASE5000( self, main ):
"""
Tests Host Mobility
Modifies the topology location of h1
"""
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
assert main, "There is no main"
try:
assert main.CLIs
except AssertionError:
main.log.error( "There is no main.CLIs, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.Mininet1
except AssertionError:
main.log.error( "Mininet handle should be named Mininet1, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.numSwitch
except AssertionError:
main.log.error( "Place the total number of switch topology in " +
main.numSwitch )
main.initialized = main.FALSE
main.skipCase()
main.case( "Test host mobility with host intents " + " - " + str( main.numCtrls ) +
" NODE(S) - OF " + main.OFProtocol + " - Using " + main.flowCompiler )
main.step( "Testing host mobility by moving h1 from s5 to s6" )
main.log.info( "Moving h1 from s5 to s6" )
main.Mininet1.moveHost( "h1", "s5", "s6" )
# Send discovery ping from moved host
# Moving the host brings down the default interfaces and creates a new one.
# Scapy is restarted on this host to detect the new interface
main.h1.stopScapy()
main.h1.startScapy()
# Discover new host location in ONOS and populate host data.
# Host 1 IP and MAC should be unchanged
main.intents.sendDiscoveryArp( main, [ main.h1 ] )
main.intents.populateHostData( main )
h1PostMove = main.hostsData[ "h1" ][ "location" ][ 0:19 ]
utilities.assert_equals( expect="of:0000000000000006",
actual=h1PostMove,
onpass="Mobility: Successfully moved h1 to s6",
onfail="Mobility: Failed to move h1 to s6" +
" to single point intents" +
" with IPV4 type and MAC addresses" +
" in the same VLAN" )
main.step( "IPV4: Add host intents between h1 and h9" )
main.assertReturnString = "Assert result for IPV4 host intent between h1, moved, and h9\n"
host1 = { "name": "h1", "id": "00:00:00:00:00:01/-1" }
host2 = { "name": "h9", "id": "00:00:00:00:00:09/-1" }
testResult = main.FALSE
installResult = main.intents.installHostIntent( main,
name="IPV4 Mobility IPV4",
onosNode=0,
host1=host1,
host2=host2 )
if installResult:
testResult = main.intents.testHostIntent( main,
name="Host Mobility IPV4",
intentId=installResult,
onosNode=0,
host1=host1,
host2=host2,
sw1="s6",
sw2="s2",
expectedLink=18 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.intents.report( main )
def CASE6000( self, main ):
"""
Tests Multi to Single Point Intent and Single to Multi Point Intent End Point Failure
"""
# At some later point discussion on this behavior in MPSP and SPMP intents
# will be reoppened and this test case may need to be updated to reflect
# the outcomes of that discussion
if main.initialized == main.FALSE:
main.log.error( "Test components did not start correctly, skipping further tests" )
main.skipCase()
assert main, "There is no main"
try:
assert main.CLIs
except AssertionError:
main.log.error( "There is no main.CLIs, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.Mininet1
except AssertionError:
main.log.error( "Mininet handle should be named Mininet1, skipping test cases" )
main.initialized = main.FALSE
main.skipCase()
try:
assert main.numSwitch
except AssertionError:
main.log.error( "Place the total number of switch topology in " + main.numSwitch )
main.initialized = main.FALSE
main.skipCase()
main.case( "Test Multi to Single End Point Failure" + " - " + str( main.numCtrls ) +
" NODE(S) - OF " + main.OFProtocol + " - Using " + main.flowCompiler )
main.step( "Installing Multi to Single Point intents with no options set" )
main.assertReturnString = "Assertion results for IPV4 multi to single " +\
"point intent end point failure with no options set\n"
senders = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
recipients = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
isolatedSenders = [
{ "name": "h24" }
]
isolatedRecipients = []
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testEndPointFail(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
isolatedSenders=isolatedSenders,
isolatedRecipients=isolatedRecipients,
sw1="s6",
sw2="s2",
sw3="s4",
sw4="s1",
sw5="s3",
expectedLink1=16,
expectedLink2=14 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "Installing Multi to Single Point intents with partial failure allowed" )
main.assertReturnString = "Assertion results for IPV4 multi to single " +\
"with partial failures allowed\n"
senders = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
recipients = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
isolatedSenders = [
{ "name": "h24" }
]
isolatedRecipients = []
testResult = main.FALSE
installResult = main.intents.installMultiToSingleIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
partial=True )
if installResult:
testResult = main.intents.testEndPointFail(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
isolatedSenders=isolatedSenders,
isolatedRecipients=isolatedRecipients,
sw1="s6",
sw2="s2",
sw3="s4",
sw4="s1",
sw5="s3",
expectedLink1=16,
expectedLink2=14,
partial=True )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.step( "NOOPTION: Install and test single point to multi point intents" )
main.assertReturnString = "Assertion results for IPV4 single to multi " +\
"point intent with no options set\n"
senders = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
recipients = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
isolatedSenders = []
isolatedRecipients = [
{ "name": "h24" }
]
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2" )
if installResult:
testResult = main.intents.testEndPointFail(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
isolatedSenders=isolatedSenders,
isolatedRecipients=isolatedRecipients,
sw1="s6",
sw2="s2",
sw3="s4",
sw4="s1",
sw5="s3",
expectedLink1=16,
expectedLink2=14 )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
# Right now this functionality doesn't work properly in SPMP intents
main.step( "NOOPTION: Install and test single point to multi point " +
"intents with partial failures allowed" )
main.assertReturnString = "Assertion results for IPV4 single to multi " +\
"point intent with partial failures allowed\n"
senders = [
{ "name": "h8", "device": "of:0000000000000005/8" }
]
recipients = [
{ "name": "h16", "device": "of:0000000000000006/8" },
{ "name": "h24", "device": "of:0000000000000007/8" }
]
isolatedSenders = []
isolatedRecipients = [
{ "name": "h24" }
]
testResult = main.FALSE
installResult = main.intents.installSingleToMultiIntent(
main,
name="NOOPTION",
senders=senders,
recipients=recipients,
sw1="s5",
sw2="s2",
partial=True )
if installResult:
testResult = main.intents.testEndPointFail(
main,
intentId=installResult,
name="NOOPTION",
senders=senders,
recipients=recipients,
isolatedSenders=isolatedSenders,
isolatedRecipients=isolatedRecipients,
sw1="s6",
sw2="s2",
sw3="s4",
sw4="s1",
sw5="s3",
expectedLink1=16,
expectedLink2=14,
partial=True )
else:
main.CLIs[ 0 ].removeAllIntents( purge=True )
utilities.assert_equals( expect=main.TRUE,
actual=testResult,
onpass=main.assertReturnString,
onfail=main.assertReturnString )
main.intents.report( main )