| """ |
| 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/>. |
| """ |
| import json |
| 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, cellApps, mininetIp, useSSH, ips, installMax=False ): |
| """ |
| Description: |
| create a new cell |
| Required: |
| * cellName - The name of the cell. |
| * cellApps - The ONOS apps string. |
| * mininetIp - Mininet IP address. |
| * useSSH - True for using ssh when creating a cell |
| * ips - ip( s ) of the node( s ). |
| Returns: |
| """ |
| try: |
| apps = main.apps |
| except ( NameError, AttributeError ): |
| apps = cellApps |
| self.command( "createCellFile", |
| args=[ main.ONOSbench.ip_address, |
| cellName, |
| mininetIp, |
| 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.info( ctrl.name + " is up and ready" ) |
| else: |
| main.log.warn( ctrl.name + " may not be up." ) |
| return onosIsUp |
| |
| 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 ) |
| i += 1 |
| 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 nodesCheck( self ): |
| results = True |
| nodesOutput = self.command( "nodes", specificDriver=2 ) |
| ips = sorted( self.getIps( activeOnly=True ) ) |
| for i in nodesOutput: |
| try: |
| current = json.loads( i ) |
| activeIps = [] |
| currentResult = False |
| for node in current: |
| if node[ 'state' ] == 'READY': |
| activeIps.append( node[ 'ip' ] ) |
| activeIps.sort() |
| if ips == activeIps: |
| currentResult = True |
| except ( ValueError, TypeError ): |
| main.log.error( "Error parsing nodes output" ) |
| main.log.warn( repr( i ) ) |
| currentResult = False |
| results = results and currentResult |
| return results |
| |
| 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: |
| # Partition logs |
| ret = ret and n.server.folderSize( "/opt/onos/apache-karaf-*/data/db/partitions/*/*.log", |
| size=maxSize, unit=units, ignoreRoot=False ) |
| return ret |