blob: d5dc2a7e05cdd96f09741be6206a827c98a51167 [file] [log] [blame]
# Testing the basic functionality of ONOS Next
# For sanity and driver functionality excercises only.
import time
import json
class FuncIntent:
def __init__( self ):
self.default = ''
def CASE10( self, main ):
import time
import os
import imp
"""
Startup sequence:
cell <name>
onos-verify-cell
onos-remove-raft-log
git pull
mvn clean install
onos-package
onos-install -f
onos-wait-for-start
"""
global init
global globalONOSip
try:
if type(init) is not bool:
init = False
except NameError:
init = False
main.wrapper = imp.load_source( 'FuncIntentFunction',
'/home/admin/ONLabTest/TestON/tests/' +
'FuncIntent/Dependency/' +
'FuncIntentFunction.py' )
#Local variables
cellName = main.params[ 'ENV' ][ 'cellName' ]
apps = main.params[ 'ENV' ][ 'cellApps' ]
gitBranch = main.params[ 'GIT' ][ 'branch' ]
benchIp = os.environ[ 'OCN' ]
benchUser = main.params[ 'BENCH' ][ 'user' ]
topology = main.params[ 'MININET' ][ 'topo' ]
main.numSwitch = int( main.params[ 'MININET' ][ 'switch' ] )
main.numLinks = int( main.params[ 'MININET' ][ 'links' ] )
main.numCtrls = main.params[ 'CTRL' ][ 'num' ]
main.ONOSport = []
main.hostsData = {}
PULLCODE = False
if main.params[ 'GIT' ][ 'pull' ] == 'True':
PULLCODE = True
main.case( "Setting up test environment" )
main.CLIs = []
for i in range( 1, int( main.numCtrls ) + 1 ):
main.CLIs.append( getattr( main, 'ONOScli' + str( i ) ) )
main.ONOSport.append( main.params[ 'CTRL' ][ 'port' + str( i ) ] )
# -- INIT SECTION, ONLY RUNS ONCE -- #
if init == False:
init = True
main.scale = ( main.params[ 'SCALE' ] ).split( "," )
main.numCtrls = int( main.scale[ 0 ] )
if PULLCODE:
main.step( "Git checkout and pull " + gitBranch )
main.ONOSbench.gitCheckout( gitBranch )
gitPullResult = main.ONOSbench.gitPull()
if gitPullResult == main.ERROR:
main.log.error( "Error pulling git branch" )
main.step( "Using mvn clean & install" )
cleanInstallResult = main.ONOSbench.cleanInstall()
stepResult = cleanInstallResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully compiled " +
"latest ONOS",
onfail="Failed to compile " +
"latest ONOS" )
else:
main.log.warn( "Did not pull new code so skipping mvn " +
"clean install" )
globalONOSip = main.ONOSbench.getOnosIps()
maxNodes = ( len(globalONOSip) - 2 )
main.numCtrls = int( main.scale[ 0 ] )
main.scale.remove( main.scale[ 0 ] )
main.ONOSip = []
for i in range( maxNodes ):
main.ONOSip.append( globalONOSip[i] )
#kill off all onos processes
main.log.info( "Safety check, killing all ONOS processes" +
" before initiating enviornment setup" )
for i in range(maxNodes):
main.ONOSbench.onosDie( globalONOSip[ i ] )
print "NODE COUNT = ", main.numCtrls
main.log.info( "Creating cell file" )
cellIp = []
for i in range( main.numCtrls ):
cellIp.append( str( main.ONOSip[ i ] ) )
print cellIp
main.ONOSbench.createCellFile( benchIp, cellName, "",
str( apps ), *cellIp )
main.step( "Apply cell to environment" )
cellResult = main.ONOSbench.setCell( cellName )
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.onosPackage()
stepResult = packageResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully created ONOS package",
onfail="Failed to create ONOS package" )
main.step( "Uninstalling ONOS package" )
onosUninstallResult = main.TRUE
for i in range( main.numCtrls ):
onosUninstallResult = onosUninstallResult and \
main.ONOSbench.onosUninstall( nodeIp=main.ONOSip[ i ] )
stepResult = onosUninstallResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully uninstalled ONOS package",
onfail="Failed to uninstall ONOS package" )
time.sleep( 5 )
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" )
time.sleep( 20 )
main.step( "Starting ONOS service" )
stopResult = main.TRUE
startResult = main.TRUE
onosIsUp = main.TRUE
for i in range( main.numCtrls ):
onosIsUp = onosIsUp and main.ONOSbench.isup( main.ONOSip[ i ] )
if onosIsUp == main.TRUE:
main.log.report( "ONOS instance is up and ready" )
else:
main.log.report( "ONOS instance may not be up, stop and " +
"start ONOS again " )
for i in range( main.numCtrls ):
stopResult = stopResult and \
main.ONOSbench.onosStop( main.ONOSip[ i ] )
for i in range( main.numCtrls ):
startResult = startResult and \
main.ONOSbench.onosStart( main.ONOSip[ i ] )
stepResult = onosIsUp and stopResult and startResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="ONOS service is ready",
onfail="ONOS service did not start properly" )
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" )
def CASE9( self, main ):
'''
Report errors/warnings/exceptions
'''
main.log.info( "Error report: \n" )
main.ONOSbench.logReport( globalONOSip[0],
[ "INFO", "FOLLOWER", "WARN", "flow", "ERROR" , "Except" ],
"s" )
#main.ONOSbench.logReport( globalONOSip[1], [ "INFO" ], "d" )
def CASE11( self, main ):
"""
Start mininet
"""
main.log.report( "Start Mininet topology" )
main.log.case( "Start Mininet topology" )
main.step( "Starting Mininet Topology" )
topoResult = main.Mininet1.startNet( topoFile=topology )
stepResult = topoResult
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully loaded topology",
onfail="Failed to load topology" )
# Exit if topology did not load properly
if not topoResult:
main.cleanup()
main.exit()
def CASE12( self, main ):
"""
Assign mastership to controllers
"""
import re
main.case( "Assign switches to controllers" )
main.step( "Assigning switches to controllers" )
assignResult = main.TRUE
for i in range( 1, ( main.numSwitch + 1 ) ):
main.Mininet1.assignSwController( sw=str( i ),
count=1,
ip1=main.ONOSip[ 0 ],
port1=main.ONOSport[ 0 ] )
for i in range( 1, ( main.numSwitch + 1 ) ):
response = main.Mininet1.getSwController( "s" + str( i ) )
print( "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" )
def CASE13( self, main ):
"""
Discover all hosts and store its data to a dictionary
"""
main.case( "Discover all hosts" )
stepResult = main.TRUE
main.step( "Discover all hosts using pingall " )
stepResult = main.wrapper.getHostsData( main )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="Successfully discovered hosts",
onfail="Failed to discover hosts" )
def CASE1001( 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
"""
import time
import json
import re
# Assert variables - These variable's name|format must be followed
# if you want to use the wrapper function
assert main, "There is no main"
assert main.CLIs, "There is no main.CLIs"
assert main.Mininet1, "Mininet handle should be named Mininet1"
assert main.numSwitch, "Placed the total number of switch topology in \
main.numSwitch"
main.case( "Add host intents between 2 host" )
stepResult = main.TRUE
main.step( "IPV4: Add host intents between h1 and h9" )
stepResult = main.wrapper.hostIntent( main,
name='IPV4',
host1='h1',
host2='h9',
host1Id='00:00:00:00:00:01/-1',
host2Id='00:00:00:00:00:09/-1',
sw1='s5',
sw2='s2',
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="IPV4: Add host intent successful",
onfail="IPV4: Add host intent failed" )
stepResult = main.TRUE
main.step( "DUALSTACK1: Add host intents between h3 and h11" )
stepResult = main.wrapper.hostIntent( main,
name='DUALSTACK',
host1='h3',
host2='h11',
host1Id='00:00:00:00:00:03/-1',
host2Id='00:00:00:00:00:0B/-1',
sw1='s5',
sw2='s2',
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="DUALSTACK1: Add host intent" +
" successful",
onfail="DUALSTACK1: Add host intent failed" )
stepResult = main.TRUE
main.step( "DUALSTACK2: Add host intents between h1 and h9" )
stepResult = main.wrapper.hostIntent( main,
name='DUALSTACK2',
host1='h1',
host2='h11',
sw1='s5',
sw2='s2',
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="DUALSTACK2: Add host intent" +
" successful",
onfail="DUALSTACK2: Add host intent failed" )
def CASE1002( 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
"""
import time
import json
import re
# Assert variables - These variable's name|format must be followed
# if you want to use the wrapper function
assert main, "There is no main"
assert main.CLIs, "There is no main.CLIs"
assert main.Mininet1, "Mininet handle should be named Mininet1"
assert main.numSwitch, "Placed the total number of switch topology in \
main.numSwitch"
main.case( "Add point intents between 2 devices" )
stepResult = main.TRUE
main.step( "IPV4: Add point intents between h1 and h9" )
stepResult = main.wrapper.pointIntent(
main,
name="IPV4",
host1="h1",
host2="h9",
deviceId1="of:0000000000000005/1",
deviceId2="of:0000000000000006/1",
port1="",
port2="",
ethType="IPV4",
mac1="00:00:00:00:00:01",
mac2="00:00:00:00:00:09",
bandwidth="",
lambdaAlloc=False,
ipProto="",
ip1="",
ip2="",
tcp1="",
tcp2="",
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="IPV4: Add point intent successful",
onfail="IPV4: Add point intent failed" )
stepResult = main.TRUE
main.step( "DUALSTACK1: Add point intents between h1 and h9" )
stepResult = main.wrapper.pointIntent(
main,
name="DUALSTACK1",
host1="h3",
host2="h11",
deviceId1="of:0000000000000005",
deviceId2="of:0000000000000006",
port1="3",
port2="3",
ethType="IPV4",
mac1="00:00:00:00:00:03",
mac2="00:00:00:00:00:0B",
bandwidth="",
lambdaAlloc=False,
ipProto="",
ip1="",
ip2="",
tcp1="",
tcp2="",
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="DUALSTACK1: Add point intent" +
" successful",
onfail="DUALSTACK1: Add point intent failed" )
def CASE1003( 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
"""
assert main, "There is no main"
assert main.CLIs, "There is no main.CLIs"
assert main.Mininet1, "Mininet handle should be named Mininet1"
assert main.numSwitch, "Placed the total number of switch topology in \
main.numSwitch"
main.case( "Add single point to multi point intents between devices" )
stepResult = main.TRUE
main.step( "IPV4: Add single point to multi point intents" )
hostNames = [ 'h8', 'h16', 'h24' ]
devices = [ 'of:0000000000000005/8', 'of:0000000000000006/8', \
'of:0000000000000007/8' ]
macs = [ '00:00:00:00:00:08', '00:00:00:00:00:10', '00:00:00:00:00:18' ]
stepResult = main.wrapper.singleToMultiIntent(
main,
name="IPV4",
hostNames=hostNames,
devices=devices,
ports=None,
ethType="IPV4",
macs=macs,
bandwidth="",
lambdaAlloc=False,
ipProto="",
ipAddresses="",
tcp="",
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="IPV4: Successfully added single point"
+ " to multi point intents",
onfail="IPV4: Failed to add single point" +
" to multi point intents" )
main.step( "IPV4_2: Add single point to multi point intents" )
hostNames = [ 'h8', 'h16', 'h24' ]
stepResult = main.wrapper.singleToMultiIntent(
main,
name="IPV4",
hostNames=hostNames,
ethType="IPV4",
lambdaAlloc=False )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="IPV4_2: Successfully added single point"
+ " to multi point intents",
onfail="IPV4_2: Failed to add single point" +
" to multi point intents" )
def CASE1004( 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
"""
assert main, "There is no main"
assert main.CLIs, "There is no main.CLIs"
assert main.Mininet1, "Mininet handle should be named Mininet1"
assert main.numSwitch, "Placed the total number of switch topology in \
main.numSwitch"
main.case( "Add multi point to single point intents between devices" )
stepResult = main.TRUE
main.step( "IPV4: Add multi point to single point intents" )
hostNames = [ 'h8', 'h16', 'h24' ]
devices = [ 'of:0000000000000005/8', 'of:0000000000000006/8', \
'of:0000000000000007/8' ]
macs = [ '00:00:00:00:00:08', '00:00:00:00:00:10', '00:00:00:00:00:18' ]
stepResult = main.wrapper.multiToSingleIntent(
main,
name="IPV4",
hostNames=hostNames,
devices=devices,
ports=None,
ethType="IPV4",
macs=macs,
bandwidth="",
lambdaAlloc=False,
ipProto="",
ipAddresses="",
tcp="",
sw1="s5",
sw2="s2",
expectedLink=18 )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="IPV4: Successfully added multi point"
+ " to single point intents",
onfail="IPV4: Failed to add multi point" +
" to single point intents" )
main.step( "IPV4_2: Add multi point to single point intents" )
hostNames = [ 'h8', 'h16', 'h24' ]
stepResult = main.wrapper.multiToSingleIntent(
main,
name="IPV4",
hostNames=hostNames,
ethType="IPV4",
lambdaAlloc=False )
utilities.assert_equals( expect=main.TRUE,
actual=stepResult,
onpass="IPV4_2: Successfully added multi point"
+ " to single point intents",
onfail="IPV4_2: Failed to add multi point" +
" to single point intents" )