TestON/tests/USECASE/SegmentRouting/SRLinkFailure/dependencies/SRLinkFailFuncs.py - OnosSystemTest - Gitiles

 """
 Copyright 2017 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/>.
 """

 from tests.USECASE.SegmentRouting.dependencies.Testcaselib import Testcaselib as run
 import tests.USECASE.SegmentRouting.dependencies.cfgtranslator as translator

 class SRLinkFailFuncs():

     def __init__( self ):
         self.default = ''
         self.topo = dict()
         self.topo[ '0x1' ] = ( 0, 1, '--leaf=1 --spine=0', 'single switch' )
         self.topo[ '2x2' ] = ( 2, 2, '', '2x2 Leaf-spine' )
         self.topo[ '4x4' ] = ( 4, 4, '--leaf=4 --spine=4', '4x4 Leaf-spine' )
         main.switchType = "ovs"
         self.switchOne = 'spine101'
         self.switchTwo = 'leaf2'
         self.dpidOne = 'of:0000000000000101'
         self.dpidTwo = 'of:0000000000000002'
         self.portOne = '2'
         self.portTwo = '3'

     def runTest( self, main, caseNum, numNodes, Topo, minFlow ):
         try:
             description = "Bridging and Routing Link Failure test with " + self.topo[ Topo ][ 3 ] + " and {} Onos".format( numNodes )
             main.case( description )
             if not hasattr( main, 'apps' ):
                 run.initTest( main )
             main.cfgName = Topo
             main.Cluster.setRunningNode( numNodes )
             run.installOnos( main )
             suf = main.params.get( 'jsonFileSuffix', '')
             xconnectFile = "%s%s-xconnects.json%s" % ( main.configPath + main.forJson,
                     main.cfgName, suf )
             if main.useBmv2:
                 switchPrefix = main.params[ 'DEPENDENCY' ].get( 'switchPrefix', "bmv2" )
                 # Translate configuration file from OVS-OFDPA to BMv2 driver
                 translator.bmv2ToOfdpa( main ) # Try to cleanup if switching between switch types
                 translator.ofdpaToBmv2( main, switchPrefix=switchPrefix )
                 # translate xconnects
                 translator.bmv2ToOfdpa( main, cfgFile=xconnectFile )
                 translator.ofdpaToBmv2( main, cfgFile=xconnectFile, switchPrefix=switchPrefix )
             else:
                 translator.bmv2ToOfdpa( main )
                 translator.bmv2ToOfdpa( main, cfgFile=xconnectFile )
             if not main.persistentSetup:
                 if suf:
                     run.loadJson( main, suffix=suf )
                 else:
                     run.loadJson( main )
             run.loadChart( main )
             if hasattr( main, 'Mininet1' ):
                 run.mnDockerSetup( main )  # optionally create and setup docker image

                 # Run the test with Mininet
                 mininet_args = self.topo[ Topo ][ 2 ]
                 if main.useBmv2:
                     mininet_args += ' --switch %s' % main.switchType
                     main.log.info( "Using %s switch" % main.switchType )

                 run.startMininet( main, 'cord_fabric.py', args=mininet_args )
             else:
                 # Run the test with physical devices
                 # TODO: connect TestON to the physical network
                 pass
             # xconnects need to be loaded after topology
             run.loadXconnects( main )
             switches = self.topo[ Topo ][ 0 ] + self.topo[ Topo ][ 1 ]
             links = ( self.topo[ Topo ][ 0 ] * self.topo[ Topo ][ 1 ] ) * 2
             # pre-configured routing and bridging test
             run.verifyTopology( main, switches, links, numNodes )
             run.checkFlows( main, minFlowCount=minFlow )
             run.pingAll( main, 'CASE{}'.format( caseNum ) )
             # link failure
             run.killLink( main, self.switchOne, self.switchTwo, switches='{}'.format( switches ), links='{}'.format( links - 2 ) )
             run.pingAll( main, 'CASE{}_Failure'.format( caseNum ) )
             run.restoreLink( main, self.switchOne, self.switchTwo, '{}'.format( switches ), '{}'.format( links ),
                              True, self.dpidOne, self.dpidTwo, self.portOne, self.portTwo )
             run.checkFlows( main, minFlowCount=minFlow, tag='CASE{}_Recovery'.format( caseNum ) )
             run.pingAll( main, 'CASE{}_Recovery'.format( caseNum ) )
             run.verifyTopology( main, switches, links, numNodes )
             # TODO Dynamic config of hosts in subnet
             # TODO Dynamic config of host not in subnet
             # TODO Dynamic config of vlan xconnect
             # TODO Vrouter integration
             # TODO Mcast integration
         except Exception as e:
             main.log.exception( "Error in runTest" )
             main.skipCase( result="FAIL", msg=e )
         finally:
             run.cleanup( main )
	"""
	Copyright 2017 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/>.
	"""

	from tests.USECASE.SegmentRouting.dependencies.Testcaselib import Testcaselib as run
	import tests.USECASE.SegmentRouting.dependencies.cfgtranslator as translator

	class SRLinkFailFuncs():

	def __init__( self ):
	self.default = ''
	self.topo = dict()
	self.topo[ '0x1' ] = ( 0, 1, '--leaf=1 --spine=0', 'single switch' )
	self.topo[ '2x2' ] = ( 2, 2, '', '2x2 Leaf-spine' )
	self.topo[ '4x4' ] = ( 4, 4, '--leaf=4 --spine=4', '4x4 Leaf-spine' )
	main.switchType = "ovs"
	self.switchOne = 'spine101'
	self.switchTwo = 'leaf2'
	self.dpidOne = 'of:0000000000000101'
	self.dpidTwo = 'of:0000000000000002'
	self.portOne = '2'
	self.portTwo = '3'

	def runTest( self, main, caseNum, numNodes, Topo, minFlow ):
	try:
	description = "Bridging and Routing Link Failure test with " + self.topo[ Topo ][ 3 ] + " and {} Onos".format( numNodes )
	main.case( description )
	if not hasattr( main, 'apps' ):
	run.initTest( main )
	main.cfgName = Topo
	main.Cluster.setRunningNode( numNodes )
	run.installOnos( main )
	suf = main.params.get( 'jsonFileSuffix', '')
	xconnectFile = "%s%s-xconnects.json%s" % ( main.configPath + main.forJson,
	main.cfgName, suf )
	if main.useBmv2:
	switchPrefix = main.params[ 'DEPENDENCY' ].get( 'switchPrefix', "bmv2" )
	# Translate configuration file from OVS-OFDPA to BMv2 driver
	translator.bmv2ToOfdpa( main ) # Try to cleanup if switching between switch types
	translator.ofdpaToBmv2( main, switchPrefix=switchPrefix )
	# translate xconnects
	translator.bmv2ToOfdpa( main, cfgFile=xconnectFile )
	translator.ofdpaToBmv2( main, cfgFile=xconnectFile, switchPrefix=switchPrefix )
	else:
	translator.bmv2ToOfdpa( main )
	translator.bmv2ToOfdpa( main, cfgFile=xconnectFile )
	if not main.persistentSetup:
	if suf:
	run.loadJson( main, suffix=suf )
	else:
	run.loadJson( main )
	run.loadChart( main )
	if hasattr( main, 'Mininet1' ):
	run.mnDockerSetup( main ) # optionally create and setup docker image

	# Run the test with Mininet
	mininet_args = self.topo[ Topo ][ 2 ]
	if main.useBmv2:
	mininet_args += ' --switch %s' % main.switchType
	main.log.info( "Using %s switch" % main.switchType )

	run.startMininet( main, 'cord_fabric.py', args=mininet_args )
	else:
	# Run the test with physical devices
	# TODO: connect TestON to the physical network
	pass
	# xconnects need to be loaded after topology
	run.loadXconnects( main )
	switches = self.topo[ Topo ][ 0 ] + self.topo[ Topo ][ 1 ]
	links = ( self.topo[ Topo ][ 0 ] * self.topo[ Topo ][ 1 ] ) * 2
	# pre-configured routing and bridging test
	run.verifyTopology( main, switches, links, numNodes )
	run.checkFlows( main, minFlowCount=minFlow )
	run.pingAll( main, 'CASE{}'.format( caseNum ) )
	# link failure
	run.killLink( main, self.switchOne, self.switchTwo, switches='{}'.format( switches ), links='{}'.format( links - 2 ) )
	run.pingAll( main, 'CASE{}_Failure'.format( caseNum ) )
	run.restoreLink( main, self.switchOne, self.switchTwo, '{}'.format( switches ), '{}'.format( links ),
	True, self.dpidOne, self.dpidTwo, self.portOne, self.portTwo )
	run.checkFlows( main, minFlowCount=minFlow, tag='CASE{}_Recovery'.format( caseNum ) )
	run.pingAll( main, 'CASE{}_Recovery'.format( caseNum ) )
	run.verifyTopology( main, switches, links, numNodes )
	# TODO Dynamic config of hosts in subnet
	# TODO Dynamic config of host not in subnet
	# TODO Dynamic config of vlan xconnect
	# TODO Vrouter integration
	# TODO Mcast integration
	except Exception as e:
	main.log.exception( "Error in runTest" )
	main.skipCase( result="FAIL", msg=e )
	finally:
	run.cleanup( main )