TestON/tests/dependencies/Cluster.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/>.
 """


 class Cluster():

     def __str__( self ):
         return self.name

     def __repr__( self ):
         controllers = []
         runningNodes = []
         for ctrl in self.controllers:
             controllers.append( str( ctrl ) )
         return "%s[%s]" % ( self.name, ", ".join( controllers ) )

     def __init__( self, ctrlList=[], name="Cluster" ):
         '''
             controllers : All the nodes
             runningNodes : Node that are specifically running from the test.
                 ie) When the test is testing different number of nodes on each
                     run.
             numCtrls : number of runningNodes
             maxCtrls : number of controllers
         '''
         self.controllers = ctrlList
         self.runningNodes = ctrlList
         self.numCtrls = len( self.runningNodes )
         self.maxCtrls = len( self.controllers )
         self.name = str( name )
         self.iterator = iter( self.active() )

     def getIps( self, activeOnly=False, allNode=False ):
         """
         Description:
             get the list of the ip. Default to get ips of running nodes.
         Required:
             * activeOnly - True for getting ips of active nodes
             * allNode - True for getting ips of all nodes
         Returns:
             Retruns ips of active nodes if activeOnly is True.
             Returns ips of all nodes if allNode is True.
         """
         ips = []
         if allNode:
             nodeList = self.controllers
         else:
             if activeOnly:
                 nodeList = self.active()
             else:
                 nodeList = self.runningNodes

         for ctrl in nodeList:
             ips.append( ctrl.ipAddress )

         return ips

     def resetActive( self ):
         """
         Description:
             reset the activeness of the runningNodes to be false
         Required:
         Returns:
         """
         for ctrl in self.runningNodes:
             ctrl.active = False

     def getRunningPos( self ):
         """
         Description:
             get the position of the active running nodes.
         Required:
         Returns:
             Retruns the list of the position of the active
             running nodes.
         """
         return [ ctrl.pos for ctrl in self.runningNodes
                  if ctrl.active ]

     def setRunningNode( self, numCtrls ):
         """
         Description:
             Set running nodes of n number of nodes.
             It will create new list of runningNodes.
             If numCtrls is a list, it will add the nodes of the
             list.
         Required:
             * numCtrls - number of nodes to be set.
         Returns:
         """
         self.runningNodes = []
         for i in numCtrls if isinstance( numCtrls, list ) else range( numCtrls ) :
             self.runningNodes.append( self.controllers[ i ] )
         self.numCtrls = len( numCtrls ) if isinstance( numCtrls, list ) else numCtrls

     def active( self, node=None ):
         """
         Description:
             get the list/controller of the active controller.
         Required:
             * node - position of the node to get from the active controller.
         Returns:
             Return a list of active controllers in the cluster if node is None
             if not, it will return the nth controller.
         """
         result = [ ctrl for ctrl in self.runningNodes
                       if ctrl.active ]
         return result if node is None else result[ node % len( result ) ]

     def next( self ):
         """
         An iterator for the cluster's controllers that
         resets when there are no more elements.

         Returns the next controller in the cluster
         """
         try:
             return self.iterator.next()
         except StopIteration:
             self.reset()
             try:
                 return self.iterator.next()
             except StopIteration:
                 raise RuntimeError( "There are no active nodes in the cluster" )

     def reset( self ):
         """
         Resets the cluster iterator.

         This should be used whenever a node's active state is changed
         and is also used internally when the iterator has been exhausted.
         """
         self.iterator = iter( self.active() )

     def createCell( self, cellName, Mininet, useSSH, ips, installMax=False ):
         """
         Description:
             create a new cell
         Required:
             * cellName - The name of the cell.
             * Mininet - a mininet driver that will be used.
             * useSSH - True for using ssh when creating a cell
             * ips - ip(s) of the node(s).
         Returns:
         """
         self.command( "createCellFile",
                       args=[ main.ONOSbench.ip_address,
                              cellName,
                              Mininet if isinstance(Mininet, str) else
                              Mininet.ip_address,
                              main.apps,
                              ips,
                              main.ONOScell.karafUser,
                              useSSH ],
                       specificDriver=1,
                       getFrom=0 if installMax else 1 )

     def uninstall( self, uninstallMax ):
         """
         Description:
             uninstalling onos
         Required:
             * uninstallMax - True for uninstalling max number of nodes
             False for uninstalling the current running nodes.
         Returns:
             Returns main.TRUE if it successfully uninstalled.
         """
         result = main.TRUE
         uninstallResult = self.command( "onosUninstall",
                                         kwargs={ "nodeIp": "ipAddress" },
                                         specificDriver=1,
                                         getFrom=0 if uninstallMax else 1,
                                         funcFromCtrl=True )
         for uninstallR in uninstallResult:
             result = result and uninstallR
         return result

     def applyCell( self, cellName, installMax=False ):
         """
         Description:
             apply the cell with cellName. It will also verify the
             cell.
         Required:
             * cellName - The name of the cell.
         Returns:
             Returns main.TRUE if it successfully set and verify cell.
         """

         setCellResult = self.command( "setCell",
                                       args=[ cellName ],
                                       specificDriver=1,
                                       getFrom=0 if installMax else 1 )
         verifyResult = self.command( "verifyCell",
                                      specificDriver=1,
                                      getFrom=0 if installMax else 1 )
         result = main.TRUE
         for i in range( len( setCellResult ) ):
             result = result and setCellResult[ i ] and verifyResult[ i ]
         return result

     def checkService( self ):
         """
         Description:
             Checking if the onos service is up. If not, it will
             start the onos service manually.
         Required:
         Returns:
             Returns main.TRUE if it successfully checked
         """
         stopResult = main.TRUE
         startResult = main.TRUE
         onosIsUp = main.TRUE
         onosUp = self.command( "isup",
                                  args=[ "ipAddress" ],
                                  specificDriver=1,
                                  getFrom=1,
                                  funcFromCtrl=True )
         for i in range( len( onosUp ) ):
             ctrl = self.controllers[ i ]
             onosIsUp = onosIsUp and onosUp[ i ]
             if onosUp[ i ] == main.TRUE:
                 main.log.report( ctrl.name + " is up and ready" )
             else:
                 main.log.report( ctrl.name + " may not be up, stop and " +
                                  "start ONOS again " )
                 stopResult = stopResult and main.ONOSbench.onosStop( ctrl.ipAddress )
                 startResult = startResult and main.ONOSbench.onosStart( ctrl.ipAddress )
                 if not startResult or stopResult:
                     main.log.report( ctrl.name + " did not start correctly." )
         return onosIsUp and stopResult and startResult

     def kill( self, killMax, stopOnos ):
         """
         Description:
             killing the onos. It will either kill the current runningnodes or
             max number of the nodes.
         Required:
             * killRemoveMax - The boolean that will decide either to kill
             only running nodes (False) or max number of nodes (True).
             * stopOnos - If wish to stop onos before killing it. True for
             enable stop , False for disable stop.
         Returns:
             Returns main.TRUE if successfully killing it.
         """
         result = main.TRUE
         killResult = self.command( "onosKill",
                                    args=[ "ipAddress" ],
                                    specificDriver=1,
                                    getFrom=0 if killMax else 1,
                                    funcFromCtrl=True )
         for i in range( len( killResult ) ):
             result = result and killResult[ i ]
             self.controllers[ i ].active = False
         return result

     def ssh( self ):
         """
         Description:
             set up ssh to the onos
         Required:
         Returns:
             Returns main.TRUE if it successfully setup the ssh to
             the onos.
         """
         result = main.TRUE
         sshResult = self.command( "onosSecureSSH",
                                    kwargs={ "node": "ipAddress" },
                                    specificDriver=1,
                                    getFrom=1,
                                    funcFromCtrl=True )
         for sshR in sshResult:
             result = result and sshR
         return result

     def install( self, installMax=True, installParallel=True ):
         """
         Description:
             Installing onos.
         Required:
             * installMax - True for installing max number of nodes
             False for installing current running nodes only.
         Returns:
             Returns main.TRUE if it successfully installed
         """
         result = main.TRUE
         threads = []
         i = 0
         for ctrl in self.controllers if installMax else self.runningNodes:
             options = "-f"
             if installMax and i >= self.numCtrls:
                 options = "-nf"
             if installParallel:
                 t = main.Thread( target=ctrl.Bench.onosInstall,
                                  name="install-" + ctrl.name,
                                  kwargs={ "node" : ctrl.ipAddress,
                                           "options" : options } )
                 threads.append( t )
                 t.start()
             else:
                 result = result and \
                             main.ONOSbench.onosInstall( node=ctrl.ipAddress, options=options )
         if installParallel:
             for t in threads:
                 t.join()
                 result = result and t.result
         return result

     def startCLIs( self ):
         """
         Description:
             starting Onos using onosCli driver
         Required:
         Returns:
             Returns main.TRUE if it successfully started.
         """
         result = main.TRUE
         cliResults = self.command( "startOnosCli",
                                    args=[ "ipAddress" ],
                                    specificDriver=2,
                                    getFrom=1,
                                    funcFromCtrl=True )
         for i in range( len( cliResults ) ):
             result = result and cliResults[ i ]
             self.controllers[ i ].active = True
         return result

     def printResult( self, results, activeList, logLevel="debug" ):
         """
         Description:
             Print the value of the list.
         Required:
             * results - list of the result
             * activeList - list of the acitve nodes.
             * logLevel - Type of log level you want it to be printed.
         Returns:
         """
         f = getattr( main.log, logLevel )
         for i in range( len( results ) ):
             f( activeList[ i ].name + "'s result : " + str( results[ i ] ) )

     def allTrueResultCheck( self, results, activeList ):
         """
         Description:
             check if all the result has main.TRUE.
         Required:
             * results - list of the result
             * activeList - list of the acitve nodes.
         Returns:
             Returns True if all == main.TRUE else
             returns False
         """
         self.printResult( results, activeList )
         return all( result == main.TRUE for result in results )

     def notEmptyResultCheck( self, results, activeList ):
         """
         Description:
             check if all the result has any contents
         Required:
             * results - list of the result
             * activeList - list of the acitve nodes.
         Returns:
             Returns True if all the results has
             something else returns False
         """
         self.printResult( results, activeList )
         return all( result for result in results )

     def identicalResultsCheck( self, results, activeList ):
         """
         Description:
             check if all the results has same output.
         Required:
             * results - list of the result
             * activeList - list of the acitve nodes.
         Returns:
             Returns True if all the results has
             same result else returns False
         """
         self.printResult( results, activeList )
         resultOne = results[ 0 ]
         return all( resultOne == result for result in results )

     def command( self, function, args=(), kwargs={}, returnBool=False,
                  specificDriver=0, contentCheck=False, getFrom=2,
                  funcFromCtrl=False ):
         """
         Description:
             execute some function of the active nodes.
         Required:
             * function - name of the function
             * args - argument of the function
             * kwargs - kwargs of the funciton
             * returnBool - True if wish to check all the result has main.TRUE
             * specificDriver - specific driver to execute the function. Since
             some of the function can be used in different drivers, it is important
             to specify which driver it will be executed from.
                 0 - any type of driver
                 1 - from bench
                 2 - from cli
                 3 - from rest
             * contentCheck - If this is True, it will check if the result has some
             contents.
             * getFrom - from which nodes
                 2 - active nodes
                 1 - current running nodes
                 0 - all nodes
             * funcFromCtrl - specific function of the args/kwargs
                  from each controller from the list of the controllers
         Returns:
             Returns results if not returnBool and not contentCheck
             Returns checkTruthValue of the result if returnBool
             Returns resultContent of the result if contentCheck
         """
         threads = []
         drivers = [ None, "Bench", "CLI", "REST" ]
         fromNode = [ self.controllers, self.runningNodes, self.active() ]
         results = []
         for ctrl in fromNode[ getFrom ]:
             try:
                 funcArgs = []
                 funcKwargs = {}
                 f = getattr( ( ctrl if not specificDriver else
                              getattr( ctrl, drivers[ specificDriver ] ) ), function )
                 if funcFromCtrl:
                     if args:
                         for i in range( len( args ) ):
                             funcArgs.append( getattr( ctrl, args[ i ] ) )
                     if kwargs:
                         for k in kwargs:
                             funcKwargs.update( { k: getattr( ctrl, kwargs[ k ] ) } )
             except AttributeError:
                 main.log.error( "Function " + function + " not found. Exiting the Test." )
                 main.cleanAndExit()
             t = main.Thread( target=f,
                              name=function + "-" + ctrl.name,
                              args=funcArgs if funcFromCtrl else args,
                              kwargs=funcKwargs if funcFromCtrl else kwargs )
             threads.append( t )
             t.start()

         for t in threads:
             t.join()
             results.append( t.result )
         if returnBool:
             return self.allTrueResultCheck( results, fromNode[ getFrom ] )
         elif contentCheck:
             return self.notEmptyResultCheck( results, fromNode[ getFrom ] )
         return results

     def checkPartitionSize( self, segmentSize='64', units='M', multiplier='3' ):
         # max segment size in bytes: 1024 * 1024 * 64
         # multiplier is somewhat arbitrary, but the idea is the logs would have
         # been compacted before this many segments are written

         maxSize = float( segmentSize ) * float( multiplier )
         ret = True
         for n in self.runningNodes:
             ret = ret and n.server.folderSize( "/opt/onos/apache-karaf-*/data/partitions/*/*.log",
                                                size=maxSize, unit=units, ignoreRoot=False )
         return ret
	"""
	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/>.
	"""


	class Cluster():

	def __str__( self ):
	return self.name

	def __repr__( self ):
	controllers = []
	runningNodes = []
	for ctrl in self.controllers:
	controllers.append( str( ctrl ) )
	return "%s[%s]" % ( self.name, ", ".join( controllers ) )

	def __init__( self, ctrlList=[], name="Cluster" ):
	'''
	controllers : All the nodes
	runningNodes : Node that are specifically running from the test.
	ie) When the test is testing different number of nodes on each
	run.
	numCtrls : number of runningNodes
	maxCtrls : number of controllers
	'''
	self.controllers = ctrlList
	self.runningNodes = ctrlList
	self.numCtrls = len( self.runningNodes )
	self.maxCtrls = len( self.controllers )
	self.name = str( name )
	self.iterator = iter( self.active() )

	def getIps( self, activeOnly=False, allNode=False ):
	"""
	Description:
	get the list of the ip. Default to get ips of running nodes.
	Required:
	* activeOnly - True for getting ips of active nodes
	* allNode - True for getting ips of all nodes
	Returns:
	Retruns ips of active nodes if activeOnly is True.
	Returns ips of all nodes if allNode is True.
	"""
	ips = []
	if allNode:
	nodeList = self.controllers
	else:
	if activeOnly:
	nodeList = self.active()
	else:
	nodeList = self.runningNodes

	for ctrl in nodeList:
	ips.append( ctrl.ipAddress )

	return ips

	def resetActive( self ):
	"""
	Description:
	reset the activeness of the runningNodes to be false
	Required:
	Returns:
	"""
	for ctrl in self.runningNodes:
	ctrl.active = False

	def getRunningPos( self ):
	"""
	Description:
	get the position of the active running nodes.
	Required:
	Returns:
	Retruns the list of the position of the active
	running nodes.
	"""
	return [ ctrl.pos for ctrl in self.runningNodes
	if ctrl.active ]

	def setRunningNode( self, numCtrls ):
	"""
	Description:
	Set running nodes of n number of nodes.
	It will create new list of runningNodes.
	If numCtrls is a list, it will add the nodes of the
	list.
	Required:
	* numCtrls - number of nodes to be set.
	Returns:
	"""
	self.runningNodes = []
	for i in numCtrls if isinstance( numCtrls, list ) else range( numCtrls ) :
	self.runningNodes.append( self.controllers[ i ] )
	self.numCtrls = len( numCtrls ) if isinstance( numCtrls, list ) else numCtrls

	def active( self, node=None ):
	"""
	Description:
	get the list/controller of the active controller.
	Required:
	* node - position of the node to get from the active controller.
	Returns:
	Return a list of active controllers in the cluster if node is None
	if not, it will return the nth controller.
	"""
	result = [ ctrl for ctrl in self.runningNodes
	if ctrl.active ]
	return result if node is None else result[ node % len( result ) ]

	def next( self ):
	"""
	An iterator for the cluster's controllers that
	resets when there are no more elements.

	Returns the next controller in the cluster
	"""
	try:
	return self.iterator.next()
	except StopIteration:
	self.reset()
	try:
	return self.iterator.next()
	except StopIteration:
	raise RuntimeError( "There are no active nodes in the cluster" )

	def reset( self ):
	"""
	Resets the cluster iterator.

	This should be used whenever a node's active state is changed
	and is also used internally when the iterator has been exhausted.
	"""
	self.iterator = iter( self.active() )

	def createCell( self, cellName, Mininet, useSSH, ips, installMax=False ):
	"""
	Description:
	create a new cell
	Required:
	* cellName - The name of the cell.
	* Mininet - a mininet driver that will be used.
	* useSSH - True for using ssh when creating a cell
	* ips - ip(s) of the node(s).
	Returns:
	"""
	self.command( "createCellFile",
	args=[ main.ONOSbench.ip_address,
	cellName,
	Mininet if isinstance(Mininet, str) else
	Mininet.ip_address,
	main.apps,
	ips,
	main.ONOScell.karafUser,
	useSSH ],
	specificDriver=1,
	getFrom=0 if installMax else 1 )

	def uninstall( self, uninstallMax ):
	"""
	Description:
	uninstalling onos
	Required:
	* uninstallMax - True for uninstalling max number of nodes
	False for uninstalling the current running nodes.
	Returns:
	Returns main.TRUE if it successfully uninstalled.
	"""
	result = main.TRUE
	uninstallResult = self.command( "onosUninstall",
	kwargs={ "nodeIp": "ipAddress" },
	specificDriver=1,
	getFrom=0 if uninstallMax else 1,
	funcFromCtrl=True )
	for uninstallR in uninstallResult:
	result = result and uninstallR
	return result

	def applyCell( self, cellName, installMax=False ):
	"""
	Description:
	apply the cell with cellName. It will also verify the
	cell.
	Required:
	* cellName - The name of the cell.
	Returns:
	Returns main.TRUE if it successfully set and verify cell.
	"""

	setCellResult = self.command( "setCell",
	args=[ cellName ],
	specificDriver=1,
	getFrom=0 if installMax else 1 )
	verifyResult = self.command( "verifyCell",
	specificDriver=1,
	getFrom=0 if installMax else 1 )
	result = main.TRUE
	for i in range( len( setCellResult ) ):
	result = result and setCellResult[ i ] and verifyResult[ i ]
	return result

	def checkService( self ):
	"""
	Description:
	Checking if the onos service is up. If not, it will
	start the onos service manually.
	Required:
	Returns:
	Returns main.TRUE if it successfully checked
	"""
	stopResult = main.TRUE
	startResult = main.TRUE
	onosIsUp = main.TRUE
	onosUp = self.command( "isup",
	args=[ "ipAddress" ],
	specificDriver=1,
	getFrom=1,
	funcFromCtrl=True )
	for i in range( len( onosUp ) ):
	ctrl = self.controllers[ i ]
	onosIsUp = onosIsUp and onosUp[ i ]
	if onosUp[ i ] == main.TRUE:
	main.log.report( ctrl.name + " is up and ready" )
	else:
	main.log.report( ctrl.name + " may not be up, stop and " +
	"start ONOS again " )
	stopResult = stopResult and main.ONOSbench.onosStop( ctrl.ipAddress )
	startResult = startResult and main.ONOSbench.onosStart( ctrl.ipAddress )
	if not startResult or stopResult:
	main.log.report( ctrl.name + " did not start correctly." )
	return onosIsUp and stopResult and startResult

	def kill( self, killMax, stopOnos ):
	"""
	Description:
	killing the onos. It will either kill the current runningnodes or
	max number of the nodes.
	Required:
	* killRemoveMax - The boolean that will decide either to kill
	only running nodes (False) or max number of nodes (True).
	* stopOnos - If wish to stop onos before killing it. True for
	enable stop , False for disable stop.
	Returns:
	Returns main.TRUE if successfully killing it.
	"""
	result = main.TRUE
	killResult = self.command( "onosKill",
	args=[ "ipAddress" ],
	specificDriver=1,
	getFrom=0 if killMax else 1,
	funcFromCtrl=True )
	for i in range( len( killResult ) ):
	result = result and killResult[ i ]
	self.controllers[ i ].active = False
	return result

	def ssh( self ):
	"""
	Description:
	set up ssh to the onos
	Required:
	Returns:
	Returns main.TRUE if it successfully setup the ssh to
	the onos.
	"""
	result = main.TRUE
	sshResult = self.command( "onosSecureSSH",
	kwargs={ "node": "ipAddress" },
	specificDriver=1,
	getFrom=1,
	funcFromCtrl=True )
	for sshR in sshResult:
	result = result and sshR
	return result

	def install( self, installMax=True, installParallel=True ):
	"""
	Description:
	Installing onos.
	Required:
	* installMax - True for installing max number of nodes
	False for installing current running nodes only.
	Returns:
	Returns main.TRUE if it successfully installed
	"""
	result = main.TRUE
	threads = []
	i = 0
	for ctrl in self.controllers if installMax else self.runningNodes:
	options = "-f"
	if installMax and i >= self.numCtrls:
	options = "-nf"
	if installParallel:
	t = main.Thread( target=ctrl.Bench.onosInstall,
	name="install-" + ctrl.name,
	kwargs={ "node" : ctrl.ipAddress,
	"options" : options } )
	threads.append( t )
	t.start()
	else:
	result = result and \
	main.ONOSbench.onosInstall( node=ctrl.ipAddress, options=options )
	if installParallel:
	for t in threads:
	t.join()
	result = result and t.result
	return result

	def startCLIs( self ):
	"""
	Description:
	starting Onos using onosCli driver
	Required:
	Returns:
	Returns main.TRUE if it successfully started.
	"""
	result = main.TRUE
	cliResults = self.command( "startOnosCli",
	args=[ "ipAddress" ],
	specificDriver=2,
	getFrom=1,
	funcFromCtrl=True )
	for i in range( len( cliResults ) ):
	result = result and cliResults[ i ]
	self.controllers[ i ].active = True
	return result

	def printResult( self, results, activeList, logLevel="debug" ):
	"""
	Description:
	Print the value of the list.
	Required:
	* results - list of the result
	* activeList - list of the acitve nodes.
	* logLevel - Type of log level you want it to be printed.
	Returns:
	"""
	f = getattr( main.log, logLevel )
	for i in range( len( results ) ):
	f( activeList[ i ].name + "'s result : " + str( results[ i ] ) )

	def allTrueResultCheck( self, results, activeList ):
	"""
	Description:
	check if all the result has main.TRUE.
	Required:
	* results - list of the result
	* activeList - list of the acitve nodes.
	Returns:
	Returns True if all == main.TRUE else
	returns False
	"""
	self.printResult( results, activeList )
	return all( result == main.TRUE for result in results )

	def notEmptyResultCheck( self, results, activeList ):
	"""
	Description:
	check if all the result has any contents
	Required:
	* results - list of the result
	* activeList - list of the acitve nodes.
	Returns:
	Returns True if all the results has
	something else returns False
	"""
	self.printResult( results, activeList )
	return all( result for result in results )

	def identicalResultsCheck( self, results, activeList ):
	"""
	Description:
	check if all the results has same output.
	Required:
	* results - list of the result
	* activeList - list of the acitve nodes.
	Returns:
	Returns True if all the results has
	same result else returns False
	"""
	self.printResult( results, activeList )
	resultOne = results[ 0 ]
	return all( resultOne == result for result in results )

	def command( self, function, args=(), kwargs={}, returnBool=False,
	specificDriver=0, contentCheck=False, getFrom=2,
	funcFromCtrl=False ):
	"""
	Description:
	execute some function of the active nodes.
	Required:
	* function - name of the function
	* args - argument of the function
	* kwargs - kwargs of the funciton
	* returnBool - True if wish to check all the result has main.TRUE
	* specificDriver - specific driver to execute the function. Since
	some of the function can be used in different drivers, it is important
	to specify which driver it will be executed from.
	0 - any type of driver
	1 - from bench
	2 - from cli
	3 - from rest
	* contentCheck - If this is True, it will check if the result has some
	contents.
	* getFrom - from which nodes
	2 - active nodes
	1 - current running nodes
	0 - all nodes
	* funcFromCtrl - specific function of the args/kwargs
	from each controller from the list of the controllers
	Returns:
	Returns results if not returnBool and not contentCheck
	Returns checkTruthValue of the result if returnBool
	Returns resultContent of the result if contentCheck
	"""
	threads = []
	drivers = [ None, "Bench", "CLI", "REST" ]
	fromNode = [ self.controllers, self.runningNodes, self.active() ]
	results = []
	for ctrl in fromNode[ getFrom ]:
	try:
	funcArgs = []
	funcKwargs = {}
	f = getattr( ( ctrl if not specificDriver else
	getattr( ctrl, drivers[ specificDriver ] ) ), function )
	if funcFromCtrl:
	if args:
	for i in range( len( args ) ):
	funcArgs.append( getattr( ctrl, args[ i ] ) )
	if kwargs:
	for k in kwargs:
	funcKwargs.update( { k: getattr( ctrl, kwargs[ k ] ) } )
	except AttributeError:
	main.log.error( "Function " + function + " not found. Exiting the Test." )
	main.cleanAndExit()
	t = main.Thread( target=f,
	name=function + "-" + ctrl.name,
	args=funcArgs if funcFromCtrl else args,
	kwargs=funcKwargs if funcFromCtrl else kwargs )
	threads.append( t )
	t.start()

	for t in threads:
	t.join()
	results.append( t.result )
	if returnBool:
	return self.allTrueResultCheck( results, fromNode[ getFrom ] )
	elif contentCheck:
	return self.notEmptyResultCheck( results, fromNode[ getFrom ] )
	return results

	def checkPartitionSize( self, segmentSize='64', units='M', multiplier='3' ):
	# max segment size in bytes: 1024 * 1024 * 64
	# multiplier is somewhat arbitrary, but the idea is the logs would have
	# been compacted before this many segments are written

	maxSize = float( segmentSize ) * float( multiplier )
	ret = True
	for n in self.runningNodes:
	ret = ret and n.server.folderSize( "/opt/onos/apache-karaf-/data/partitions//*.log",
	size=maxSize, unit=units, ignoreRoot=False )
	return ret