TestON/tests/HA/HAfullNetPartition/HAfullNetPartition.py - OnosSystemTest - Gitiles

 """
 Copyright 2016 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/>.
 """
 """
 Description: This test is to determine if ONOS can handle
              a full network partion

 List of test cases:
 CASE1: Compile ONOS and push it to the test machines
 CASE2: Assign devices to controllers
 CASE21: Assign mastership to controllers
 CASE3: Assign intents
 CASE4: Ping across added host intents
 CASE5: Reading state of ONOS
 CASE61: The Failure inducing case.
 CASE62: The Failure recovery case.
 CASE7: Check state after control plane failure
 CASE8: Compare topo
 CASE9: Link s3-s28 down
 CASE10: Link s3-s28 up
 CASE11: Switch down
 CASE12: Switch up
 CASE13: Clean up
 CASE14: start election app on all onos nodes
 CASE15: Check that Leadership Election is still functional
 CASE16: Install Distributed Primitives app
 CASE17: Check for basic functionality with distributed primitives
 """
 class HAfullNetPartition:

     def __init__( self ):
         self.default = ''

     def CASE1( self, main ):
         """
         CASE1 is to compile ONOS and push it to the test machines

         Startup sequence:
         cell <name>
         onos-verify-cell
         NOTE: temporary - onos-remove-raft-logs
         onos-uninstall
         start mininet
         git pull
         mvn clean install
         onos-package
         onos-install -f
         onos-wait-for-start
         start cli sessions
         start tcpdump
         """
         main.log.info( "ONOS HA test: Partition ONOS nodes into two sub-clusters - " +
                          "initialization" )
         # set global variables
         # These are for csv plotting in jenkins
         main.HAlabels = []
         main.HAdata = []
         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()
         try:
             from tests.HA.dependencies.HA import HA
             main.HA = HA()
             # load some variables from the params file
             cellName = main.params[ 'ENV' ][ 'cellName' ]
             main.apps = main.params[ 'ENV' ][ 'appString' ]
             stepResult = main.testSetUp.envSetup()
         except Exception as e:
             main.testSetUp.envSetupException( e )
         main.testSetUp.evnSetupConclusion( stepResult )

         main.testSetUp.ONOSSetUp( main.Cluster, cellName=cellName, removeLog=True,
                                   extraApply=[ main.HA.startingMininet,
                                                main.HA.customizeOnosGenPartitions ],
                                   extraClean=main.HA.cleanUpGenPartition )
         main.HA.initialSetUp()

     def CASE2( self, main ):
         """
         Assign devices to controllers
         """
         main.HA.assignDevices( main )

     def CASE21( self, main ):
         """
         Assign mastership to controllers
         """
         main.HA.assignMastership( main )

     def CASE3( self, main ):
         """
         Assign intents
         """
         main.HA.assignIntents( main )

     def CASE4( self, main ):
         """
         Ping across added host intents
         """
         main.HA.pingAcrossHostIntent( main )

     def CASE5( self, main ):
         """
         Reading state of ONOS
         """
         main.HA.readingState( main )

     def CASE61( self, main ):
         """
         The Failure case.
         """
         import pexpect
         import time
         assert main, "main not defined"
         assert utilities.assert_equals, "utilities.assert_equals not defined"
         main.case( "Partition ONOS nodes into two distinct partitions" )

         main.step( "Checking ONOS Logs for errors" )
         for ctrl in main.Cluster.runningNodes:
             main.log.debug( "Checking logs for errors on " + ctrl.name + ":" )
             main.log.warn( main.ONOSbench.checkLogs( ctrl.ipAddress ) )

         main.log.debug( main.Cluster.next().CLI.roles( jsonFormat=False ) )

         n = len( main.Cluster.runningNodes )  # Number of nodes
         p = ( ( n + 1 ) / 2 ) + 1  # Number of partitions
         main.partition = [ 0 ]  # ONOS node to partition, listed by index in main.nodes
         if n > 3:
             main.partition.append( p - 1 )
             # NOTE: This only works for cluster sizes of 3,5, or 7.

         main.step( "Partitioning ONOS nodes" )
         nodeList = [ str( i + 1 ) for i in main.partition ]
         main.log.info( "Nodes to be partitioned: " + str( nodeList ) )
         partitionResults = main.TRUE
         for i in range( 0, n ):
             iCtrl = main.Cluster.runningNodes[ i ]
             this = iCtrl.Bench.sshToNode( iCtrl.ipAddress )
             if i not in main.partition:
                 for j in main.partition:
                     foe = main.Cluster.runningNodes[ j ]
                     main.log.warn( "Setting IP Tables rule from {} to {}. ".format( iCtrl.ipAddress,
                                                                                     foe.ipAddress ) )
                     # CMD HERE
                     try:
                         cmdStr = "sudo iptables -A {} -d {} -s {} -j DROP".format( "INPUT",
                                                                                    iCtrl.ipAddress,
                                                                                    foe.ipAddress )
                         this.sendline( cmdStr )
                         this.expect( "\$" )
                         main.log.debug( this.before )
                     except pexpect.EOF:
                         main.log.error( iCtrl.name + ": EOF exception found" )
                         main.log.error( iCtrl.name + ":    " + this.before )
                         main.cleanAndExit()
                     except Exception:
                         main.log.exception( iCtrl.name + ": Uncaught exception!" )
                         main.cleanAndExit()
             else:
                 for j in range( 0, n ):
                     if j not in main.partition:
                         foe = main.Cluster.runningNodes[ j ]
                         main.log.warn( "Setting IP Tables rule from {} to {}. ".format( iCtrl.ipAddress,
                                                                                         foe.ipAddress ) )
                         # CMD HERE
                         cmdStr = "sudo iptables -A {} -d {} -s {} -j DROP".format( "INPUT",
                                                                                    iCtrl.ipAddress,
                                                                                    foe.ipAddress )
                         try:
                             this.sendline( cmdStr )
                             this.expect( "\$" )
                             main.log.debug( this.before )
                         except pexpect.EOF:
                             main.log.error( iCtrl.name + ": EOF exception found" )
                             main.log.error( iCtrl.name + ":    " + this.before )
                             main.cleanAndExit()
                         except Exception:
                             main.log.exception( iCtrl.name + ": Uncaught exception!" )
                             main.cleanAndExit()
                 main.Cluster.runningNodes[ i ].active = False
             iCtrl.Bench.exitFromSsh( this, iCtrl.ipAddress )
         # NOTE: When dynamic clustering is finished, we need to start checking
         #       main.partion nodes still work when partitioned
         utilities.assert_equals( expect=main.TRUE, actual=partitionResults,
                                  onpass="Firewall rules set successfully",
                                  onfail="Error setting firewall rules" )

         main.step( "Sleeping 60 seconds" )
         time.sleep( 60 )

     def CASE62( self, main ):
         """
         Healing Partition
         """
         assert main, "main not defined"
         assert utilities.assert_equals, "utilities.assert_equals not defined"
         assert main.partition, "main.partition not defined"
         main.case( "Healing Partition" )

         main.step( "Deleteing firewall rules" )
         healResults = main.TRUE
         for ctrl in main.Cluster.runningNodes:
             cmdStr = "sudo iptables -F"
             handle = ctrl.Bench.sshToNode( ctrl.ipAddress )
             handle.sendline( cmdStr )
             handle.expect( "\$" )
             main.log.debug( handle.before )
             ctrl.Bench.exitFromSsh( handle, ctrl.ipAddress )
         utilities.assert_equals( expect=main.TRUE, actual=healResults,
                                  onpass="Firewall rules removed",
                                  onfail="Error removing firewall rules" )

         for node in main.partition:
             main.Cluster.runningNodes[ node ].active = True

         main.step( "Checking ONOS nodes" )
         nodeResults = utilities.retry( main.Cluster.nodesCheck,
                                        False,
                                        sleep=15,
                                        attempts=50 )

         utilities.assert_equals( expect=True, actual=nodeResults,
                                  onpass="Nodes check successful",
                                  onfail="Nodes check NOT successful" )

         if not nodeResults:
             for ctrl in main.Cluster.active():
                 main.log.debug( "{} components not ACTIVE: \n{}".format(
                     ctrl.name,
                     ctrl.CLI.sendline( "scr:list | grep -v ACTIVE" ) ) )
             main.log.error( "Failed to start ONOS, stopping test" )
             main.cleanAndExit()

     def CASE7( self, main ):
         """
         Check state after ONOS failure
         """
         main.HA.checkStateAfterEvent( main, afterWhich=0 )

         main.step( "Leadership Election is still functional" )
         # Test of LeadershipElection
         leaderList = []

         partitioned = []
         for i in main.partition:
             partitioned.append( main.Cluster.runningNodes[ i ].ipAddress )
         leaderResult = main.TRUE

         for ctrl in main.Cluster.active():
             leaderN = ctrl.CLI.electionTestLeader()
             leaderList.append( leaderN )
             if leaderN == main.FALSE:
                 # error in response
                 main.log.error( "Something is wrong with " +
                                  "electionTestLeader function, check the" +
                                  " error logs" )
                 leaderResult = main.FALSE
             elif leaderN is None:
                 main.log.error( ctrl.name +
                                  " shows no leader for the election-app was" +
                                  " elected after the old one died" )
                 leaderResult = main.FALSE
             elif leaderN in partitioned:
                 main.log.error( ctrl.name + " shows " + str( leaderN ) +
                                  " as leader for the election-app, but it " +
                                  "was partitioned" )
                 leaderResult = main.FALSE
         if len( set( leaderList ) ) != 1:
             leaderResult = main.FALSE
             main.log.error(
                 "Inconsistent view of leader for the election test app" )
             # TODO: print the list
         utilities.assert_equals(
             expect=main.TRUE,
             actual=leaderResult,
             onpass="Leadership election passed",
             onfail="Something went wrong with Leadership election" )

     def CASE8( self, main ):
         """
         Compare topo
         """
         main.HA.compareTopo( main )

     def CASE9( self, main ):
         """
         Link s3-s28 down
         """
         main.HA.linkDown( main )

     def CASE10( self, main ):
         """
         Link s3-s28 up
         """
         main.HA.linkUp( main )

     def CASE11( self, main ):
         """
         Switch Down
         """
         # NOTE: You should probably run a topology check after this
         main.HA.switchDown( main )

     def CASE12( self, main ):
         """
         Switch Up
         """
         # NOTE: You should probably run a topology check after this
         main.HA.switchUp( main )

     def CASE13( self, main ):
         """
         Clean up
         """
         main.HA.cleanUp( main )

     def CASE14( self, main ):
         """
         start election app on all onos nodes
         """
         main.HA.startElectionApp( main )

     def CASE15( self, main ):
         """
         Check that Leadership Election is still functional
             15.1 Run election on each node
             15.2 Check that each node has the same leaders and candidates
             15.3 Find current leader and withdraw
             15.4 Check that a new node was elected leader
             15.5 Check that that new leader was the candidate of old leader
             15.6 Run for election on old leader
             15.7 Check that oldLeader is a candidate, and leader if only 1 node
             15.8 Make sure that the old leader was added to the candidate list

             old and new variable prefixes refer to data from before vs after
                 withdrawl and later before withdrawl vs after re-election
         """
         main.HA.isElectionFunctional( main )

     def CASE16( self, main ):
         """
         Install Distributed Primitives app
         """
         main.HA.installDistributedPrimitiveApp( main )

     def CASE17( self, main ):
         """
         Check for basic functionality with distributed primitives
         """
         main.HA.checkDistPrimitivesFunc( main )
	"""
	Copyright 2016 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/>.
	"""
	"""
	Description: This test is to determine if ONOS can handle
	a full network partion

	List of test cases:
	CASE1: Compile ONOS and push it to the test machines
	CASE2: Assign devices to controllers
	CASE21: Assign mastership to controllers
	CASE3: Assign intents
	CASE4: Ping across added host intents
	CASE5: Reading state of ONOS
	CASE61: The Failure inducing case.
	CASE62: The Failure recovery case.
	CASE7: Check state after control plane failure
	CASE8: Compare topo
	CASE9: Link s3-s28 down
	CASE10: Link s3-s28 up
	CASE11: Switch down
	CASE12: Switch up
	CASE13: Clean up
	CASE14: start election app on all onos nodes
	CASE15: Check that Leadership Election is still functional
	CASE16: Install Distributed Primitives app
	CASE17: Check for basic functionality with distributed primitives
	"""
	class HAfullNetPartition:

	def __init__( self ):
	self.default = ''

	def CASE1( self, main ):
	"""
	CASE1 is to compile ONOS and push it to the test machines

	Startup sequence:
	cell <name>
	onos-verify-cell
	NOTE: temporary - onos-remove-raft-logs
	onos-uninstall
	start mininet
	git pull
	mvn clean install
	onos-package
	onos-install -f
	onos-wait-for-start
	start cli sessions
	start tcpdump
	"""
	main.log.info( "ONOS HA test: Partition ONOS nodes into two sub-clusters - " +
	"initialization" )
	# set global variables
	# These are for csv plotting in jenkins
	main.HAlabels = []
	main.HAdata = []
	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()
	try:
	from tests.HA.dependencies.HA import HA
	main.HA = HA()
	# load some variables from the params file
	cellName = main.params[ 'ENV' ][ 'cellName' ]
	main.apps = main.params[ 'ENV' ][ 'appString' ]
	stepResult = main.testSetUp.envSetup()
	except Exception as e:
	main.testSetUp.envSetupException( e )
	main.testSetUp.evnSetupConclusion( stepResult )

	main.testSetUp.ONOSSetUp( main.Cluster, cellName=cellName, removeLog=True,
	extraApply=[ main.HA.startingMininet,
	main.HA.customizeOnosGenPartitions ],
	extraClean=main.HA.cleanUpGenPartition )
	main.HA.initialSetUp()

	def CASE2( self, main ):
	"""
	Assign devices to controllers
	"""
	main.HA.assignDevices( main )

	def CASE21( self, main ):
	"""
	Assign mastership to controllers
	"""
	main.HA.assignMastership( main )

	def CASE3( self, main ):
	"""
	Assign intents
	"""
	main.HA.assignIntents( main )

	def CASE4( self, main ):
	"""
	Ping across added host intents
	"""
	main.HA.pingAcrossHostIntent( main )

	def CASE5( self, main ):
	"""
	Reading state of ONOS
	"""
	main.HA.readingState( main )

	def CASE61( self, main ):
	"""
	The Failure case.
	"""
	import pexpect
	import time
	assert main, "main not defined"
	assert utilities.assert_equals, "utilities.assert_equals not defined"
	main.case( "Partition ONOS nodes into two distinct partitions" )

	main.step( "Checking ONOS Logs for errors" )
	for ctrl in main.Cluster.runningNodes:
	main.log.debug( "Checking logs for errors on " + ctrl.name + ":" )
	main.log.warn( main.ONOSbench.checkLogs( ctrl.ipAddress ) )

	main.log.debug( main.Cluster.next().CLI.roles( jsonFormat=False ) )

	n = len( main.Cluster.runningNodes ) # Number of nodes
	p = ( ( n + 1 ) / 2 ) + 1 # Number of partitions
	main.partition = [ 0 ] # ONOS node to partition, listed by index in main.nodes
	if n > 3:
	main.partition.append( p - 1 )
	# NOTE: This only works for cluster sizes of 3,5, or 7.

	main.step( "Partitioning ONOS nodes" )
	nodeList = [ str( i + 1 ) for i in main.partition ]
	main.log.info( "Nodes to be partitioned: " + str( nodeList ) )
	partitionResults = main.TRUE
	for i in range( 0, n ):
	iCtrl = main.Cluster.runningNodes[ i ]
	this = iCtrl.Bench.sshToNode( iCtrl.ipAddress )
	if i not in main.partition:
	for j in main.partition:
	foe = main.Cluster.runningNodes[ j ]
	main.log.warn( "Setting IP Tables rule from {} to {}. ".format( iCtrl.ipAddress,
	foe.ipAddress ) )
	# CMD HERE
	try:
	cmdStr = "sudo iptables -A {} -d {} -s {} -j DROP".format( "INPUT",
	iCtrl.ipAddress,
	foe.ipAddress )
	this.sendline( cmdStr )
	this.expect( "\$" )
	main.log.debug( this.before )
	except pexpect.EOF:
	main.log.error( iCtrl.name + ": EOF exception found" )
	main.log.error( iCtrl.name + ": " + this.before )
	main.cleanAndExit()
	except Exception:
	main.log.exception( iCtrl.name + ": Uncaught exception!" )
	main.cleanAndExit()
	else:
	for j in range( 0, n ):
	if j not in main.partition:
	foe = main.Cluster.runningNodes[ j ]
	main.log.warn( "Setting IP Tables rule from {} to {}. ".format( iCtrl.ipAddress,
	foe.ipAddress ) )
	# CMD HERE
	cmdStr = "sudo iptables -A {} -d {} -s {} -j DROP".format( "INPUT",
	iCtrl.ipAddress,
	foe.ipAddress )
	try:
	this.sendline( cmdStr )
	this.expect( "\$" )
	main.log.debug( this.before )
	except pexpect.EOF:
	main.log.error( iCtrl.name + ": EOF exception found" )
	main.log.error( iCtrl.name + ": " + this.before )
	main.cleanAndExit()
	except Exception:
	main.log.exception( iCtrl.name + ": Uncaught exception!" )
	main.cleanAndExit()
	main.Cluster.runningNodes[ i ].active = False
	iCtrl.Bench.exitFromSsh( this, iCtrl.ipAddress )
	# NOTE: When dynamic clustering is finished, we need to start checking
	# main.partion nodes still work when partitioned
	utilities.assert_equals( expect=main.TRUE, actual=partitionResults,
	onpass="Firewall rules set successfully",
	onfail="Error setting firewall rules" )

	main.step( "Sleeping 60 seconds" )
	time.sleep( 60 )

	def CASE62( self, main ):
	"""
	Healing Partition
	"""
	assert main, "main not defined"
	assert utilities.assert_equals, "utilities.assert_equals not defined"
	assert main.partition, "main.partition not defined"
	main.case( "Healing Partition" )

	main.step( "Deleteing firewall rules" )
	healResults = main.TRUE
	for ctrl in main.Cluster.runningNodes:
	cmdStr = "sudo iptables -F"
	handle = ctrl.Bench.sshToNode( ctrl.ipAddress )
	handle.sendline( cmdStr )
	handle.expect( "\$" )
	main.log.debug( handle.before )
	ctrl.Bench.exitFromSsh( handle, ctrl.ipAddress )
	utilities.assert_equals( expect=main.TRUE, actual=healResults,
	onpass="Firewall rules removed",
	onfail="Error removing firewall rules" )

	for node in main.partition:
	main.Cluster.runningNodes[ node ].active = True

	main.step( "Checking ONOS nodes" )
	nodeResults = utilities.retry( main.Cluster.nodesCheck,
	False,
	sleep=15,
	attempts=50 )

	utilities.assert_equals( expect=True, actual=nodeResults,
	onpass="Nodes check successful",
	onfail="Nodes check NOT successful" )

	if not nodeResults:
	for ctrl in main.Cluster.active():
	main.log.debug( "{} components not ACTIVE: \n{}".format(
	ctrl.name,
	ctrl.CLI.sendline( "scr:list \| grep -v ACTIVE" ) ) )
	main.log.error( "Failed to start ONOS, stopping test" )
	main.cleanAndExit()

	def CASE7( self, main ):
	"""
	Check state after ONOS failure
	"""
	main.HA.checkStateAfterEvent( main, afterWhich=0 )

	main.step( "Leadership Election is still functional" )
	# Test of LeadershipElection
	leaderList = []

	partitioned = []
	for i in main.partition:
	partitioned.append( main.Cluster.runningNodes[ i ].ipAddress )
	leaderResult = main.TRUE

	for ctrl in main.Cluster.active():
	leaderN = ctrl.CLI.electionTestLeader()
	leaderList.append( leaderN )
	if leaderN == main.FALSE:
	# error in response
	main.log.error( "Something is wrong with " +
	"electionTestLeader function, check the" +
	" error logs" )
	leaderResult = main.FALSE
	elif leaderN is None:
	main.log.error( ctrl.name +
	" shows no leader for the election-app was" +
	" elected after the old one died" )
	leaderResult = main.FALSE
	elif leaderN in partitioned:
	main.log.error( ctrl.name + " shows " + str( leaderN ) +
	" as leader for the election-app, but it " +
	"was partitioned" )
	leaderResult = main.FALSE
	if len( set( leaderList ) ) != 1:
	leaderResult = main.FALSE
	main.log.error(
	"Inconsistent view of leader for the election test app" )
	# TODO: print the list
	utilities.assert_equals(
	expect=main.TRUE,
	actual=leaderResult,
	onpass="Leadership election passed",
	onfail="Something went wrong with Leadership election" )

	def CASE8( self, main ):
	"""
	Compare topo
	"""
	main.HA.compareTopo( main )

	def CASE9( self, main ):
	"""
	Link s3-s28 down
	"""
	main.HA.linkDown( main )

	def CASE10( self, main ):
	"""
	Link s3-s28 up
	"""
	main.HA.linkUp( main )

	def CASE11( self, main ):
	"""
	Switch Down
	"""
	# NOTE: You should probably run a topology check after this
	main.HA.switchDown( main )

	def CASE12( self, main ):
	"""
	Switch Up
	"""
	# NOTE: You should probably run a topology check after this
	main.HA.switchUp( main )

	def CASE13( self, main ):
	"""
	Clean up
	"""
	main.HA.cleanUp( main )

	def CASE14( self, main ):
	"""
	start election app on all onos nodes
	"""
	main.HA.startElectionApp( main )

	def CASE15( self, main ):
	"""
	Check that Leadership Election is still functional
	15.1 Run election on each node
	15.2 Check that each node has the same leaders and candidates
	15.3 Find current leader and withdraw
	15.4 Check that a new node was elected leader
	15.5 Check that that new leader was the candidate of old leader
	15.6 Run for election on old leader
	15.7 Check that oldLeader is a candidate, and leader if only 1 node
	15.8 Make sure that the old leader was added to the candidate list

	old and new variable prefixes refer to data from before vs after
	withdrawl and later before withdrawl vs after re-election
	"""
	main.HA.isElectionFunctional( main )

	def CASE16( self, main ):
	"""
	Install Distributed Primitives app
	"""
	main.HA.installDistributedPrimitiveApp( main )

	def CASE17( self, main ):
	"""
	Check for basic functionality with distributed primitives
	"""
	main.HA.checkDistPrimitivesFunc( main )