Refactor HATests for code formating and minor cleanups
Left function renaming for seperate commit
diff --git a/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.params b/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.params
index 95a75d7..6699caf 100644
--- a/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.params
+++ b/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.params
@@ -56,6 +56,11 @@
<LinkDiscovery>.2</LinkDiscovery>
<SwitchDiscovery>.2</SwitchDiscovery>
</timers>
+ <kill>
+ <switch> s5 </switch>
+ <dpid> 0000000000005000 </dpid>
+ <links> h5 s2 s1 s6 </links>
+ </kill>
<MNtcpdump>
<intf>eth0</intf>
<port> </port>
diff --git a/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.py b/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.py
index 51ac0f6..ef23794 100644
--- a/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.py
+++ b/TestON/tests/HATestSingleInstanceRestart/HATestSingleInstanceRestart.py
@@ -1,4 +1,4 @@
-'''
+"""
Description: This test is to determine if a single
instance ONOS 'cluster' can handle a restart
@@ -18,14 +18,14 @@
CASE13: Clean up
CASE14: start election app on all onos nodes
CASE15: Check that Leadership Election is still functional
-'''
+"""
class HATestSingleInstanceRestart:
- def __init__(self) :
+ def __init__( self ):
self.default = ''
- def CASE1(self,main) :
- '''
+ def CASE1( self, main ):
+ """
CASE1 is to compile ONOS and push it to the test machines
Startup sequence:
@@ -37,18 +37,20 @@
NOTE: temporary - onos-remove-raft-logs
onos-install -f
onos-wait-for-start
- '''
- import time
- main.log.report("ONOS Single node cluster restart HA test - initialization")
- main.case("Setting up test environment")
+ """
+ main.log.report( "ONOS Single node cluster restart " +
+ "HA test - initialization" )
+ main.case( "Setting up test environment" )
+ # TODO: save all the timers and output them for plotting
# load some vairables from the params file
PULL_CODE = False
- if main.params['Git'] == 'True':
+ if main.params[ 'Git' ] == 'True':
PULL_CODE = True
- cell_name = main.params['ENV']['cellName']
- #set global variables
+ cell_name = main.params[ 'ENV' ][ 'cellName' ]
+
+ # set global variables
global ONOS1_ip
global ONOS1_port
global ONOS2_ip
@@ -65,906 +67,1045 @@
global ONOS7_port
global num_controllers
- ONOS1_ip = main.params['CTRL']['ip1']
- ONOS1_port = main.params['CTRL']['port1']
- ONOS2_ip = main.params['CTRL']['ip2']
- ONOS2_port = main.params['CTRL']['port2']
- ONOS3_ip = main.params['CTRL']['ip3']
- ONOS3_port = main.params['CTRL']['port3']
- ONOS4_ip = main.params['CTRL']['ip4']
- ONOS4_port = main.params['CTRL']['port4']
- ONOS5_ip = main.params['CTRL']['ip5']
- ONOS5_port = main.params['CTRL']['port5']
- ONOS6_ip = main.params['CTRL']['ip6']
- ONOS6_port = main.params['CTRL']['port6']
- ONOS7_ip = main.params['CTRL']['ip7']
- ONOS7_port = main.params['CTRL']['port7']
- num_controllers = int(main.params['num_controllers'])
+ ONOS1_ip = main.params[ 'CTRL' ][ 'ip1' ]
+ ONOS1_port = main.params[ 'CTRL' ][ 'port1' ]
+ ONOS2_ip = main.params[ 'CTRL' ][ 'ip2' ]
+ ONOS2_port = main.params[ 'CTRL' ][ 'port2' ]
+ ONOS3_ip = main.params[ 'CTRL' ][ 'ip3' ]
+ ONOS3_port = main.params[ 'CTRL' ][ 'port3' ]
+ ONOS4_ip = main.params[ 'CTRL' ][ 'ip4' ]
+ ONOS4_port = main.params[ 'CTRL' ][ 'port4' ]
+ ONOS5_ip = main.params[ 'CTRL' ][ 'ip5' ]
+ ONOS5_port = main.params[ 'CTRL' ][ 'port5' ]
+ ONOS6_ip = main.params[ 'CTRL' ][ 'ip6' ]
+ ONOS6_port = main.params[ 'CTRL' ][ 'port6' ]
+ ONOS7_ip = main.params[ 'CTRL' ][ 'ip7' ]
+ ONOS7_port = main.params[ 'CTRL' ][ 'port7' ]
+ num_controllers = int( main.params[ 'num_controllers' ] )
-
- main.step("Applying cell variable to environment")
- cell_result = main.ONOSbench.set_cell(cell_name)
+ main.step( "Applying cell variable to environment" )
+ cell_result = main.ONOSbench.set_cell( cell_name )
verify_result = main.ONOSbench.verify_cell()
- #FIXME:this is short term fix
- main.log.report("Removing raft logs")
+ # FIXME:this is short term fix
+ main.log.report( "Removing raft logs" )
main.ONOSbench.onos_remove_raft_logs()
- main.log.report("Uninstalling ONOS")
- main.ONOSbench.onos_uninstall(ONOS1_ip)
- main.ONOSbench.onos_uninstall(ONOS2_ip)
- main.ONOSbench.onos_uninstall(ONOS3_ip)
- main.ONOSbench.onos_uninstall(ONOS4_ip)
- main.ONOSbench.onos_uninstall(ONOS5_ip)
- main.ONOSbench.onos_uninstall(ONOS6_ip)
- main.ONOSbench.onos_uninstall(ONOS7_ip)
+ main.log.report( "Uninstalling ONOS" )
+ main.ONOSbench.onos_uninstall( ONOS1_ip )
+ main.ONOSbench.onos_uninstall( ONOS2_ip )
+ main.ONOSbench.onos_uninstall( ONOS3_ip )
+ main.ONOSbench.onos_uninstall( ONOS4_ip )
+ main.ONOSbench.onos_uninstall( ONOS5_ip )
+ main.ONOSbench.onos_uninstall( ONOS6_ip )
+ main.ONOSbench.onos_uninstall( ONOS7_ip )
clean_install_result = main.TRUE
git_pull_result = main.TRUE
- main.step("Compiling the latest version of ONOS")
+ main.step( "Compiling the latest version of ONOS" )
if PULL_CODE:
- main.step("Git checkout and pull master")
- main.ONOSbench.git_checkout("master")
+ # TODO Configure branch in params
+ main.step( "Git checkout and pull master" )
+ main.ONOSbench.git_checkout( "master" )
git_pull_result = main.ONOSbench.git_pull()
- main.step("Using mvn clean & install")
+ main.step( "Using mvn clean & install" )
clean_install_result = main.TRUE
if git_pull_result == main.TRUE:
clean_install_result = main.ONOSbench.clean_install()
else:
- main.log.warn("Did not pull new code so skipping mvn "+ \
- "clean install")
- main.ONOSbench.get_version(report=True)
+ main.log.warn( "Did not pull new code so skipping mvn " +
+ "clean install" )
+ main.ONOSbench.get_version( report=True )
- cell_result = main.ONOSbench.set_cell("SingleHA")
+ cell_result = main.ONOSbench.set_cell( "SingleHA" )
verify_result = main.ONOSbench.verify_cell()
- main.step("Creating ONOS package")
+ main.step( "Creating ONOS package" )
package_result = main.ONOSbench.onos_package()
- main.step("Installing ONOS package")
- onos1_install_result = main.ONOSbench.onos_install(options="-f",
- node=ONOS1_ip)
+ main.step( "Installing ONOS package" )
+ onos1_install_result = main.ONOSbench.onos_install( options="-f",
+ node=ONOS1_ip )
-
- main.step("Checking if ONOS is up yet")
- #TODO check bundle:list?
- for i in range(2):
- onos1_isup = main.ONOSbench.isup(ONOS1_ip)
+ main.step( "Checking if ONOS is up yet" )
+ # TODO check bundle:list?
+ for i in range( 2 ):
+ onos1_isup = main.ONOSbench.isup( ONOS1_ip )
if onos1_isup:
break
if not onos1_isup:
- main.log.report("ONOS1 didn't start!")
+ main.log.report( "ONOS1 didn't start!" )
- # TODO: if it becomes an issue, we can retry this step a few times
+ cli_result = main.ONOScli1.start_onos_cli( ONOS1_ip )
-
- cli_result = main.ONOScli1.start_onos_cli(ONOS1_ip)
-
- main.step("Start Packet Capture MN")
+ main.step( "Start Packet Capture MN" )
main.Mininet2.start_tcpdump(
- str(main.params['MNtcpdump']['folder'])+str(main.TEST)+"-MN.pcap",
- intf = main.params['MNtcpdump']['intf'],
- port = main.params['MNtcpdump']['port'])
+ str( main.params[ 'MNtcpdump' ][ 'folder' ] ) + str( main.TEST )
+ + "-MN.pcap",
+ intf=main.params[ 'MNtcpdump' ][ 'intf' ],
+ port=main.params[ 'MNtcpdump' ][ 'port' ] )
+ case1_result = ( clean_install_result and package_result and
+ cell_result and verify_result and onos1_install_result
+ and onos1_isup and cli_result )
- case1_result = (clean_install_result and package_result and
- cell_result and verify_result and onos1_install_result and
- onos1_isup and cli_result)
+ utilities.assert_equals( expect=main.TRUE, actual=case1_result,
+ onpass="Test startup successful",
+ onfail="Test startup NOT successful" )
- utilities.assert_equals(expect=main.TRUE, actual=case1_result,
- onpass="Test startup successful",
- onfail="Test startup NOT successful")
-
-
- if case1_result==main.FALSE:
+ if case1_result == main.FALSE:
main.cleanup()
main.exit()
- def CASE2(self,main) :
- '''
+ def CASE2( self, main ):
+ """
Assign mastership to controllers
- '''
- import time
- import json
+ """
import re
- main.log.report("Assigning switches to controllers")
- main.case("Assigning Controllers")
- main.step("Assign switches to controllers")
+ main.log.report( "Assigning switches to controllers" )
+ main.case( "Assigning Controllers" )
+ main.step( "Assign switches to controllers" )
- for i in range (1,29):
- main.Mininet1.assign_sw_controller(sw=str(i),
- ip1=ONOS1_ip,port1=ONOS1_port)
+ for i in range( 1, 29 ):
+ main.Mininet1.assign_sw_controller(
+ sw=str( i ),
+ ip1=ONOS1_ip, port1=ONOS1_port )
mastership_check = main.TRUE
- for i in range (1,29):
- response = main.Mininet1.get_sw_controller("s"+str(i))
+ for i in range( 1, 29 ):
+ response = main.Mininet1.get_sw_controller( "s" + str( i ) )
try:
- main.log.info(str(response))
+ main.log.info( str( response ) )
except:
- main.log.info(repr(response))
- if re.search("tcp:"+ONOS1_ip,response):
+ main.log.info( repr( response ) )
+ if re.search( "tcp:" + ONOS1_ip, response ):
mastership_check = mastership_check and main.TRUE
else:
mastership_check = main.FALSE
if mastership_check == main.TRUE:
- main.log.report("Switch mastership assigned correctly")
- utilities.assert_equals(expect = main.TRUE,actual=mastership_check,
- onpass="Switch mastership assigned correctly",
- onfail="Switches not assigned correctly to controllers")
+ main.log.report( "Switch mastership assigned correctly" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=mastership_check,
+ onpass="Switch mastership assigned correctly",
+ onfail="Switches not assigned correctly to controllers" )
-
-
- def CASE3(self,main) :
+ def CASE3( self, main ):
"""
Assign intents
"""
- #FIXME: we must reinstall intents until we have a persistant datastore!
+ # FIXME: we must reinstall intents until we have a persistant
+ # datastore!
import time
- import json
- import re
- main.log.report("Adding host intents")
- main.case("Adding host Intents")
+ main.log.report( "Adding host intents" )
+ main.case( "Adding host Intents" )
- main.step("Discovering Hosts( Via pingall for now)")
- #FIXME: Once we have a host discovery mechanism, use that instead
+ main.step( "Discovering Hosts( Via pingall for now)" )
+ # FIXME: Once we have a host discovery mechanism, use that instead
- #install onos-app-fwd
- main.log.info("Install reactive forwarding app")
- main.ONOScli1.feature_install("onos-app-fwd")
+ # install onos-app-fwd
+ main.log.info( "Install reactive forwarding app" )
+ main.ONOScli1.feature_install( "onos-app-fwd" )
- #REACTIVE FWD test
+ # REACTIVE FWD test
ping_result = main.FALSE
time1 = time.time()
ping_result = main.Mininet1.pingall()
time2 = time.time()
- main.log.info("Time for pingall: %2f seconds" % (time2 - time1))
+ main.log.info( "Time for pingall: %2f seconds" % ( time2 - time1 ) )
- #uninstall onos-app-fwd
- main.log.info("Uninstall reactive forwarding app")
- main.ONOScli1.feature_uninstall("onos-app-fwd")
- #timeout for fwd flows
- time.sleep(10)
+ # uninstall onos-app-fwd
+ main.log.info( "Uninstall reactive forwarding app" )
+ main.ONOScli1.feature_uninstall( "onos-app-fwd" )
+ # timeout for fwd flows
+ time.sleep( 10 )
- main.step("Add host intents")
- #TODO: move the host numbers to params
- import json
- intents_json= json.loads(main.ONOScli1.hosts())
+ main.step( "Add host intents" )
+ # TODO: move the host numbers to params
intent_add_result = True
- for i in range(8,18):
- main.log.info("Adding host intent between h"+str(i)+" and h"+str(i+10))
- host1 = "00:00:00:00:00:" + str(hex(i)[2:]).zfill(2).upper()
- host2 = "00:00:00:00:00:" + str(hex(i+10)[2:]).zfill(2).upper()
- host1_id = main.ONOScli1.get_host(host1)['id']
- host2_id = main.ONOScli1.get_host(host2)['id']
- #NOTE: get host can return None
+ for i in range( 8, 18 ):
+ main.log.info( "Adding host intent between h" + str( i ) +
+ " and h" + str( i + 10 ) )
+ host1 = "00:00:00:00:00:" + \
+ str( hex( i )[ 2: ] ).zfill( 2 ).upper()
+ host2 = "00:00:00:00:00:" + \
+ str( hex( i + 10 )[ 2: ] ).zfill( 2 ).upper()
+ host1_id = main.ONOScli1.get_host( host1 )[ 'id' ]
+ host2_id = main.ONOScli1.get_host( host2 )[ 'id' ]
+ # NOTE: get host can return None
if host1_id and host2_id:
- tmp_result = main.ONOScli1.add_host_intent(host1_id, host2_id )
+ tmp_result = main.ONOScli1.add_host_intent(
+ host1_id,
+ host2_id )
else:
- main.log.error("Error, get_host() failed")
+ main.log.error( "Error, get_host() failed" )
tmp_result = main.FALSE
- intent_add_result = bool(intent_add_result and tmp_result)
- utilities.assert_equals(expect=True, actual=intent_add_result,
- onpass="Switch mastership correctly assigned",
- onfail="Error in (re)assigning switch mastership")
- #TODO Check if intents all exist in datastore
- #NOTE: Do we need to print this once the test is working?
- #main.log.info(json.dumps(json.loads(main.ONOScli1.intents(json_format=True)),
- # sort_keys=True, indent=4, separators=(',', ': ') ) )
+ intent_add_result = bool( ping_result and intent_add_result
+ and tmp_result )
+ utilities.assert_equals(
+ expect=True,
+ actual=intent_add_result,
+ onpass="Switch mastership correctly assigned",
+ onfail="Error in (re)assigning switch mastership" )
+ # TODO Check if intents all exist in datastore
- def CASE4(self,main) :
+ def CASE4( self, main ):
"""
Ping across added host intents
"""
description = " Ping across added host intents"
- main.log.report(description)
- main.case(description)
+ main.log.report( description )
+ main.case( description )
Ping_Result = main.TRUE
- for i in range(8,18):
- ping = main.Mininet1.pingHost(src="h"+str(i),target="h"+str(i+10))
+ for i in range( 8, 18 ):
+ ping = main.Mininet1.pingHost(
+ src="h" + str( i ), target="h" + str( i + 10 ) )
Ping_Result = Ping_Result and ping
- if ping==main.FALSE:
- main.log.warn("Ping failed between h"+str(i)+" and h" + str(i+10))
- elif ping==main.TRUE:
- main.log.info("Ping test passed!")
+ if ping == main.FALSE:
+ main.log.warn( "Ping failed between h" + str( i ) +
+ " and h" + str( i + 10 ) )
+ elif ping == main.TRUE:
+ main.log.info( "Ping test passed!" )
Ping_Result = main.TRUE
- if Ping_Result==main.FALSE:
- main.log.report("Intents have not been installed correctly, pings failed.")
- if Ping_Result==main.TRUE:
- main.log.report("Intents have been installed correctly and verified by pings")
- utilities.assert_equals(expect = main.TRUE,actual=Ping_Result,
- onpass="Intents have been installed correctly and pings work",
- onfail ="Intents have not been installed correctly, pings failed." )
+ if Ping_Result == main.FALSE:
+ main.log.report(
+ "Intents have not been installed correctly, pings failed." )
+ if Ping_Result == main.TRUE:
+ main.log.report(
+ "Intents have been installed correctly and verified by pings" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=Ping_Result,
+ onpass="Intents have been installed correctly and pings work",
+ onfail="Intents have not been installed correctly, pings failed." )
- def CASE5(self,main) :
- '''
+ def CASE5( self, main ):
+ """
Reading state of ONOS
- '''
- import time
+ """
import json
- from subprocess import Popen, PIPE
- from sts.topology.teston_topology import TestONTopology # assumes that sts is already in you PYTHONPATH
+ # assumes that sts is already in you PYTHONPATH
+ from sts.topology.teston_topology import TestONTopology
- main.log.report("Setting up and gathering data for current state")
- main.case("Setting up and gathering data for current state")
- #The general idea for this test case is to pull the state of (intents,flows, topology,...) from each ONOS node
- #We can then compare them with eachother and also with past states
+ main.log.report( "Setting up and gathering data for current state" )
+ main.case( "Setting up and gathering data for current state" )
+ # The general idea for this test case is to pull the state of
+ # ( intents,flows, topology,... ) from each ONOS node
+ # We can then compare them with eachother and also with past states
- main.step("Get the Mastership of each switch from each controller")
+ main.step( "Get the Mastership of each switch from each controller" )
global mastership_state
mastership_state = []
- #Assert that each device has a master
+ # Assert that each device has a master
roles_not_null = main.ONOScli1.roles_not_null()
- utilities.assert_equals(expect = main.TRUE,actual=roles_not_null,
- onpass="Each device has a master",
- onfail="Some devices don't have a master assigned")
-
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=roles_not_null,
+ onpass="Each device has a master",
+ onfail="Some devices don't have a master assigned" )
ONOS1_mastership = main.ONOScli1.roles()
- #print json.dumps(json.loads(ONOS1_mastership), sort_keys=True, indent=4, separators=(',', ': '))
- #TODO: Make this a meaningful check
+ # TODO: Make this a meaningful check
if "Error" in ONOS1_mastership or not ONOS1_mastership:
- main.log.report("Error in getting ONOS roles")
- main.log.warn("ONOS1 mastership response: " + repr(ONOS1_mastership))
+ main.log.report( "Error in getting ONOS roles" )
+ main.log.warn(
+ "ONOS1 mastership response: " +
+ repr( ONOS1_mastership ) )
consistent_mastership = main.FALSE
else:
mastership_state = ONOS1_mastership
consistent_mastership = main.TRUE
-
- main.step("Get the intents from each controller")
+ main.step( "Get the intents from each controller" )
global intent_state
intent_state = []
ONOS1_intents = main.ONOScli1.intents( json_format=True )
intent_check = main.FALSE
if "Error" in ONOS1_intents or not ONOS1_intents:
- main.log.report("Error in getting ONOS intents")
- main.log.warn("ONOS1 intents response: " + repr(ONOS1_intents))
+ main.log.report( "Error in getting ONOS intents" )
+ main.log.warn( "ONOS1 intents response: " + repr( ONOS1_intents ) )
else:
intent_check = main.TRUE
-
- main.step("Get the flows from each controller")
+ main.step( "Get the flows from each controller" )
global flow_state
flow_state = []
ONOS1_flows = main.ONOScli1.flows( json_format=True )
flow_check = main.FALSE
if "Error" in ONOS1_flows or not ONOS1_flows:
- main.log.report("Error in getting ONOS intents")
- main.log.warn("ONOS1 flows repsponse: "+ ONOS1_flows)
+ main.log.report( "Error in getting ONOS intents" )
+ main.log.warn( "ONOS1 flows repsponse: " + ONOS1_flows )
else:
- #TODO: Do a better check, maybe compare flows on switches?
+ # TODO: Do a better check, maybe compare flows on switches?
flow_state = ONOS1_flows
flow_check = main.TRUE
-
- main.step("Get the OF Table entries")
+ main.step( "Get the OF Table entries" )
global flows
- flows=[]
- for i in range(1,29):
- flows.append(main.Mininet2.get_flowTable(1.3, "s"+str(i)))
+ flows = []
+ for i in range( 1, 29 ):
+ flows.append( main.Mininet2.get_flowTable( 1.3, "s" + str( i ) ) )
- #TODO: Compare switch flow tables with ONOS flow tables
+ # TODO: Compare switch flow tables with ONOS flow tables
- main.step("Create TestONTopology object")
+ main.step( "Create TestONTopology object" )
ctrls = []
count = 1
temp = ()
- temp = temp + (getattr(main,('ONOS' + str(count))),)
- temp = temp + ("ONOS"+str(count),)
- temp = temp + (main.params['CTRL']['ip'+str(count)],)
- temp = temp + (eval(main.params['CTRL']['port'+str(count)]),)
- ctrls.append(temp)
- MNTopo = TestONTopology(main.Mininet1, ctrls) # can also add Intent API info for intent operations
+ temp = temp + ( getattr( main, ( 'ONOS' + str( count ) ) ), )
+ temp = temp + ( "ONOS" + str( count ), )
+ temp = temp + ( main.params[ 'CTRL' ][ 'ip' + str( count ) ], )
+ temp = temp + \
+ ( eval( main.params[ 'CTRL' ][ 'port' + str( count ) ] ), )
+ ctrls.append( temp )
+ MNTopo = TestONTopology(
+ main.Mininet1,
+ ctrls ) # can also add Intent API info for intent operations
- main.step("Collecting topology information from ONOS")
+ main.step( "Collecting topology information from ONOS" )
devices = []
devices.append( main.ONOScli1.devices() )
- '''
+ """
hosts = []
hosts.append( main.ONOScli1.hosts() )
- '''
+ """
ports = []
ports.append( main.ONOScli1.ports() )
links = []
links.append( main.ONOScli1.links() )
-
- main.step("Comparing ONOS topology to MN")
+ main.step( "Comparing ONOS topology to MN" )
devices_results = main.TRUE
ports_results = main.TRUE
links_results = main.TRUE
- for controller in range(num_controllers):
- if devices[controller] or not "Error" in devices[controller]:
- current_devices_result = main.Mininet1.compare_switches(MNTopo, json.loads(devices[controller]))
+ for controller in range( num_controllers ):
+ controller_str = str( controller + 1 )
+ if devices[ controller ] or "Error" not in devices[ controller ]:
+ current_devices_result = main.Mininet1.compare_switches(
+ MNTopo,
+ json.loads(
+ devices[ controller ] ) )
else:
current_devices_result = main.FALSE
- utilities.assert_equals(expect=main.TRUE, actual=current_devices_result,
- onpass="ONOS"+str(int(controller+1))+" Switches view is correct",
- onfail="ONOS"+str(int(controller+1))+" Switches view is incorrect")
+ utilities.assert_equals( expect=main.TRUE,
+ actual=current_devices_result,
+ onpass="ONOS" + controller_str +
+ " Switches view is correct",
+ onfail="ONOS" + controller_str +
+ " Switches view is incorrect" )
- if ports[controller] or not "Error" in ports[controller]:
- current_ports_result = main.Mininet1.compare_ports(MNTopo, json.loads(ports[controller]))
+ if ports[ controller ] or "Error" not in ports[ controller ]:
+ current_ports_result = main.Mininet1.compare_ports(
+ MNTopo,
+ json.loads(
+ ports[ controller ] ) )
else:
current_ports_result = main.FALSE
- utilities.assert_equals(expect=main.TRUE, actual=current_ports_result,
- onpass="ONOS"+str(int(controller+1))+" ports view is correct",
- onfail="ONOS"+str(int(controller+1))+" ports view is incorrect")
+ utilities.assert_equals( expect=main.TRUE,
+ actual=current_ports_result,
+ onpass="ONOS" + controller_str +
+ " ports view is correct",
+ onfail="ONOS" + controller_str +
+ " ports view is incorrect" )
- if links[controller] or not "Error" in links[controller]:
- current_links_result = main.Mininet1.compare_links(MNTopo, json.loads(links[controller]))
+ if links[ controller ] or "Error" not in links[ controller ]:
+ current_links_result = main.Mininet1.compare_links(
+ MNTopo,
+ json.loads(
+ links[ controller ] ) )
else:
current_links_result = main.FALSE
- utilities.assert_equals(expect=main.TRUE, actual=current_links_result,
- onpass="ONOS"+str(int(controller+1))+" links view is correct",
- onfail="ONOS"+str(int(controller+1))+" links view is incorrect")
+ utilities.assert_equals( expect=main.TRUE,
+ actual=current_links_result,
+ onpass="ONOS" + controller_str +
+ " links view is correct",
+ onfail="ONOS" + controller_str +
+ " links view is incorrect" )
devices_results = devices_results and current_devices_result
ports_results = ports_results and current_ports_result
links_results = links_results and current_links_result
topo_result = devices_results and ports_results and links_results
- utilities.assert_equals(expect=main.TRUE, actual=topo_result,
- onpass="Topology Check Test successful",
- onfail="Topology Check Test NOT successful")
+ utilities.assert_equals( expect=main.TRUE, actual=topo_result,
+ onpass="Topology Check Test successful",
+ onfail="Topology Check Test NOT successful" )
final_assert = main.TRUE
final_assert = final_assert and topo_result and flow_check \
- and intent_check and consistent_mastership and roles_not_null
- utilities.assert_equals(expect=main.TRUE, actual=final_assert,
- onpass="State check successful",
- onfail="State check NOT successful")
+ and intent_check and consistent_mastership and roles_not_null
+ utilities.assert_equals( expect=main.TRUE, actual=final_assert,
+ onpass="State check successful",
+ onfail="State check NOT successful" )
-
- def CASE6(self,main) :
- '''
+ def CASE6( self, main ):
+ """
The Failure case.
- '''
+ """
import time
- main.log.report("Restart ONOS node")
- main.log.case("Restart ONOS node")
- main.ONOSbench.onos_kill(ONOS1_ip)
+ main.log.report( "Restart ONOS node" )
+ main.log.case( "Restart ONOS node" )
+ main.ONOSbench.onos_kill( ONOS1_ip )
start = time.time()
- main.step("Checking if ONOS is up yet")
+ main.step( "Checking if ONOS is up yet" )
count = 0
while count < 10:
- onos1_isup = main.ONOSbench.isup(ONOS1_ip)
+ onos1_isup = main.ONOSbench.isup( ONOS1_ip )
if onos1_isup == main.TRUE:
elapsed = time.time() - start
break
else:
count = count + 1
- cli_result = main.ONOScli1.start_onos_cli(ONOS1_ip)
+ cli_result = main.ONOScli1.start_onos_cli( ONOS1_ip )
case_results = main.TRUE and onos1_isup and cli_result
- utilities.assert_equals(expect=main.TRUE, actual=case_results,
- onpass="ONOS restart successful",
- onfail="ONOS restart NOT successful")
- main.log.info("ESTIMATE: ONOS took %s seconds to restart" % str(elapsed) )
- time.sleep(5)
+ utilities.assert_equals( expect=main.TRUE, actual=case_results,
+ onpass="ONOS restart successful",
+ onfail="ONOS restart NOT successful" )
+ main.log.info(
+ "ESTIMATE: ONOS took %s seconds to restart" %
+ str( elapsed ) )
+ time.sleep( 5 )
- def CASE7(self,main) :
- '''
+ def CASE7( self, main ):
+ """
Check state after ONOS failure
- '''
- import os
+ """
import json
- main.case("Running ONOS Constant State Tests")
+ main.case( "Running ONOS Constant State Tests" )
- #Assert that each device has a master
+ # Assert that each device has a master
roles_not_null = main.ONOScli1.roles_not_null()
- utilities.assert_equals(expect = main.TRUE,actual=roles_not_null,
- onpass="Each device has a master",
- onfail="Some devices don't have a master assigned")
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=roles_not_null,
+ onpass="Each device has a master",
+ onfail="Some devices don't have a master assigned" )
-
-
- main.step("Check if switch roles are consistent across all nodes")
+ main.step( "Check if switch roles are consistent across all nodes" )
ONOS1_mastership = main.ONOScli1.roles()
- #FIXME: Refactor this whole case for single instance
- #print json.dumps(json.loads(ONOS1_mastership), sort_keys=True, indent=4, separators=(',', ': '))
+ # FIXME: Refactor this whole case for single instance
if "Error" in ONOS1_mastership or not ONOS1_mastership:
- main.log.report("Error in getting ONOS mastership")
- main.log.warn("ONOS1 mastership response: " + repr(ONOS1_mastership))
+ main.log.report( "Error in getting ONOS mastership" )
+ main.log.warn(
+ "ONOS1 mastership response: " +
+ repr( ONOS1_mastership ) )
consistent_mastership = main.FALSE
else:
consistent_mastership = main.TRUE
- main.log.report("Switch roles are consistent across all ONOS nodes")
- utilities.assert_equals(expect = main.TRUE,actual=consistent_mastership,
- onpass="Switch roles are consistent across all ONOS nodes",
- onfail="ONOS nodes have different views of switch roles")
-
+ main.log.report(
+ "Switch roles are consistent across all ONOS nodes" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=consistent_mastership,
+ onpass="Switch roles are consistent across all ONOS nodes",
+ onfail="ONOS nodes have different views of switch roles" )
description2 = "Compare switch roles from before failure"
- main.step(description2)
+ main.step( description2 )
- current_json = json.loads(ONOS1_mastership)
- old_json = json.loads(mastership_state)
+ current_json = json.loads( ONOS1_mastership )
+ old_json = json.loads( mastership_state )
mastership_check = main.TRUE
- for i in range(1,29):
- switchDPID = str(main.Mininet1.getSwitchDPID(switch="s"+str(i)))
+ for i in range( 1, 29 ):
+ switchDPID = str(
+ main.Mininet1.getSwitchDPID(
+ switch="s" +
+ str( i ) ) )
- current = [switch['master'] for switch in current_json if switchDPID in switch['id']]
- old = [switch['master'] for switch in old_json if switchDPID in switch['id']]
+ current = [ switch[ 'master' ] for switch in current_json
+ if switchDPID in switch[ 'id' ] ]
+ old = [ switch[ 'master' ] for switch in old_json
+ if switchDPID in switch[ 'id' ] ]
if current == old:
mastership_check = mastership_check and main.TRUE
else:
- main.log.warn("Mastership of switch %s changed" % switchDPID)
+ main.log.warn( "Mastership of switch %s changed" % switchDPID )
mastership_check = main.FALSE
if mastership_check == main.TRUE:
- main.log.report("Mastership of Switches was not changed")
- utilities.assert_equals(expect=main.TRUE,actual=mastership_check,
- onpass="Mastership of Switches was not changed",
- onfail="Mastership of some switches changed")
+ main.log.report( "Mastership of Switches was not changed" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=mastership_check,
+ onpass="Mastership of Switches was not changed",
+ onfail="Mastership of some switches changed" )
mastership_check = mastership_check and consistent_mastership
-
-
- main.step("Get the intents and compare across all nodes")
+ main.step( "Get the intents and compare across all nodes" )
ONOS1_intents = main.ONOScli1.intents( json_format=True )
intent_check = main.FALSE
if "Error" in ONOS1_intents or not ONOS1_intents:
- main.log.report("Error in getting ONOS intents")
- main.log.warn("ONOS1 intents response: " + repr(ONOS1_intents))
+ main.log.report( "Error in getting ONOS intents" )
+ main.log.warn( "ONOS1 intents response: " + repr( ONOS1_intents ) )
else:
intent_check = main.TRUE
- main.log.report("Intents are consistent across all ONOS nodes")
- utilities.assert_equals(expect = main.TRUE,actual=intent_check,
- onpass="Intents are consistent across all ONOS nodes",
- onfail="ONOS nodes have different views of intents")
+ main.log.report( "Intents are consistent across all ONOS nodes" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=intent_check,
+ onpass="Intents are consistent across all ONOS nodes",
+ onfail="ONOS nodes have different views of intents" )
- #NOTE: Hazelcast has no durability, so intents are lost
- '''
- main.step("Compare current intents with intents before the failure")
+ # NOTE: Hazelcast has no durability, so intents are lost across system
+ # restarts
+ """
+ main.step( "Compare current intents with intents before the failure" )
+ # NOTE: this requires case 5 to pass for intent_state to be set.
+ # maybe we should stop the test if that fails?
if intent_state == ONOS1_intents:
same_intents = main.TRUE
- main.log.report("Intents are consistent with before failure")
- #TODO: possibly the states have changed? we may need to figure out what the aceptable states are
+ main.log.report( "Intents are consistent with before failure" )
+ # TODO: possibly the states have changed? we may need to figure out
+ # what the aceptable states are
else:
+ try:
+ main.log.warn( "ONOS1 intents: " )
+ print json.dumps( json.loads( ONOS1_intents ),
+ sort_keys=True, indent=4,
+ separators=( ',', ': ' ) )
+ except:
+ pass
same_intents = main.FALSE
- utilities.assert_equals(expect = main.TRUE,actual=same_intents,
- onpass="Intents are consistent with before failure",
- onfail="The Intents changed during failure")
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=same_intents,
+ onpass="Intents are consistent with before failure",
+ onfail="The Intents changed during failure" )
intent_check = intent_check and same_intents
- '''
-
-
-
- main.step("Get the OF Table entries and compare to before component failure")
+ """
+ main.step( "Get the OF Table entries and compare to before " +
+ "component failure" )
Flow_Tables = main.TRUE
- flows2=[]
- for i in range(28):
- main.log.info("Checking flow table on s" + str(i+1))
- tmp_flows = main.Mininet2.get_flowTable(1.3, "s"+str(i+1))
- flows2.append(tmp_flows)
- temp_result = main.Mininet2.flow_comp(flow1=flows[i],flow2=tmp_flows)
+ flows2 = []
+ for i in range( 28 ):
+ main.log.info( "Checking flow table on s" + str( i + 1 ) )
+ tmp_flows = main.Mininet2.get_flowTable( 1.3, "s" + str( i + 1 ) )
+ flows2.append( tmp_flows )
+ temp_result = main.Mininet2.flow_comp(
+ flow1=flows[ i ],
+ flow2=tmp_flows )
Flow_Tables = Flow_Tables and temp_result
if Flow_Tables == main.FALSE:
- main.log.info("Differences in flow table for switch: "+str(i+1))
+ main.log.info( "Differences in flow table for switch: s" +
+ str( i + 1 ) )
if Flow_Tables == main.TRUE:
- main.log.report("No changes were found in the flow tables")
- utilities.assert_equals(expect=main.TRUE,actual=Flow_Tables,
- onpass="No changes were found in the flow tables",
- onfail="Changes were found in the flow tables")
+ main.log.report( "No changes were found in the flow tables" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=Flow_Tables,
+ onpass="No changes were found in the flow tables",
+ onfail="Changes were found in the flow tables" )
-
- #Test of LeadershipElection
+ # Test of LeadershipElection
leader = ONOS1_ip
leader_result = main.TRUE
- for controller in range(1,num_controllers+1):
- node = getattr( main, ( 'ONOScli' + str( controller ) ) )#loop through ONOScli handlers
+ for controller in range( 1, num_controllers + 1 ):
+ # loop through ONOScli handlers
+ node = getattr( main, ( 'ONOScli' + str( controller ) ) )
leaderN = node.election_test_leader()
- #verify leader is ONOS1
- #NOTE even though we restarted ONOS, it is the only one so onos 1 must be leader
+ # verify leader is ONOS1
+ # NOTE even though we restarted ONOS, it is the only one so onos 1
+ # must be leader
if leaderN == leader:
- #all is well
+ # all is well
pass
elif leaderN == main.FALSE:
- #error in response
- main.log.report("Something is wrong with election_test_leader function, check the error logs")
+ # error in response
+ main.log.report( "Something is wrong with " +
+ "election_test_leader function, check the" +
+ " error logs" )
leader_result = main.FALSE
elif leader != leaderN:
leader_result = main.FALSE
- main.log.report("ONOS" + str(controller) + " sees "+str(leaderN) +
- " as the leader of the election app. Leader should be "+str(leader) )
+ main.log.report( "ONOS" + str( controller ) +
+ " sees " + str( leaderN ) +
+ " as the leader of the election app." +
+ " Leader should be " + str( leader ) )
if leader_result:
- main.log.report("Leadership election tests passed(consistent view of leader across listeners and a new leader was re-elected if applicable)")
- utilities.assert_equals(expect=main.TRUE, actual=leader_result,
- onpass="Leadership election passed",
- onfail="Something went wrong with Leadership election")
+ main.log.report( "Leadership election tests passed(consistent " +
+ "view of leader across listeners and a new " +
+ "leader was re-elected if applicable)" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=leader_result,
+ onpass="Leadership election passed",
+ onfail="Something went wrong with Leadership election" )
-
- result = mastership_check and intent_check and Flow_Tables and roles_not_null\
- and leader_result
- result = int(result)
+ result = ( mastership_check and intent_check and Flow_Tables and
+ roles_not_null and leader_result )
+ result = int( result )
if result == main.TRUE:
- main.log.report("Constant State Tests Passed")
- utilities.assert_equals(expect=main.TRUE,actual=result,
- onpass="Constant State Tests Passed",
- onfail="Constant state tests failed")
+ main.log.report( "Constant State Tests Passed" )
+ utilities.assert_equals( expect=main.TRUE, actual=result,
+ onpass="Constant State Tests Passed",
+ onfail="Constant state tests failed" )
- def CASE8 (self,main):
- '''
+ def CASE8( self, main ):
+ """
Compare topo
- '''
+ """
import sys
- sys.path.append("/home/admin/sts") # Trying to remove some dependancies, #FIXME add this path to params
- from sts.topology.teston_topology import TestONTopology # assumes that sts is already in you PYTHONPATH
+ # FIXME add this path to params
+ sys.path.append( "/home/admin/sts" )
+ # assumes that sts is already in you PYTHONPATH
+ from sts.topology.teston_topology import TestONTopology
import json
import time
- description ="Compare ONOS Topology view to Mininet topology"
- main.case(description)
- main.log.report(description)
- main.step("Create TestONTopology object")
+ description = "Compare ONOS Topology view to Mininet topology"
+ main.case( description )
+ main.log.report( description )
+ main.step( "Create TestONTopology object" )
ctrls = []
count = 1
temp = ()
- temp = temp + (getattr(main,('ONOS' + str(count))),)
- temp = temp + ("ONOS"+str(count),)
- temp = temp + (main.params['CTRL']['ip'+str(count)],)
- temp = temp + (eval(main.params['CTRL']['port'+str(count)]),)
- ctrls.append(temp)
- MNTopo = TestONTopology(main.Mininet1, ctrls) # can also add Intent API info for intent operations
+ temp = temp + ( getattr( main, ( 'ONOS' + str( count ) ) ), )
+ temp = temp + ( "ONOS" + str( count ), )
+ temp = temp + ( main.params[ 'CTRL' ][ 'ip' + str( count ) ], )
+ temp = temp + \
+ ( eval( main.params[ 'CTRL' ][ 'port' + str( count ) ] ), )
+ ctrls.append( temp )
+ MNTopo = TestONTopology(
+ main.Mininet1,
+ ctrls ) # can also add Intent API info for intent operations
- main.step("Comparing ONOS topology to MN")
+ main.step( "Comparing ONOS topology to MN" )
devices_results = main.TRUE
ports_results = main.TRUE
links_results = main.TRUE
topo_result = main.FALSE
elapsed = 0
count = 0
- main.step("Collecting topology information from ONOS")
+ main.step( "Collecting topology information from ONOS" )
start_time = time.time()
while topo_result == main.FALSE and elapsed < 60:
count = count + 1
if count > 1:
- MNTopo = TestONTopology(main.Mininet1, ctrls) # can also add Intent API info for intent operations
+ MNTopo = TestONTopology(
+ main.Mininet1,
+ ctrls )
cli_start = time.time()
devices = []
devices.append( main.ONOScli1.devices() )
- '''
+ """
hosts = []
hosts.append( main.ONOScli1.hosts() )
- '''
+ """
ports = []
ports.append( main.ONOScli1.ports() )
links = []
links.append( main.ONOScli1.links() )
elapsed = time.time() - start_time
- print "CLI time: " + str(time.time() - cli_start)
+ cli_time = time.time() - cli_start
+ print "CLI time: " + str( cli_time )
- for controller in range(num_controllers):
- if devices[controller] or not "Error" in devices[controller]:
- current_devices_result = main.Mininet1.compare_switches(MNTopo, json.loads(devices[controller]))
+ for controller in range( num_controllers ):
+ controller_str = str( controller + 1 )
+ if devices[ controller ] or "Error" not in devices[
+ controller ]:
+ current_devices_result = main.Mininet1.compare_switches(
+ MNTopo,
+ json.loads(
+ devices[ controller ] ) )
else:
current_devices_result = main.FALSE
- utilities.assert_equals(expect=main.TRUE, actual=current_devices_result,
- onpass="ONOS"+str(int(controller+1))+" Switches view is correct",
- onfail="ONOS"+str(int(controller+1))+" Switches view is incorrect")
+ utilities.assert_equals( expect=main.TRUE,
+ actual=current_devices_result,
+ onpass="ONOS" + controller_str +
+ " Switches view is correct",
+ onfail="ONOS" + controller_str +
+ " Switches view is incorrect" )
- if ports[controller] or not "Error" in ports[controller]:
- current_ports_result = main.Mininet1.compare_ports(MNTopo, json.loads(ports[controller]))
+ if ports[ controller ] or "Error" not in ports[ controller ]:
+ current_ports_result = main.Mininet1.compare_ports(
+ MNTopo,
+ json.loads(
+ ports[ controller ] ) )
else:
current_ports_result = main.FALSE
- utilities.assert_equals(expect=main.TRUE, actual=current_ports_result,
- onpass="ONOS"+str(int(controller+1))+" ports view is correct",
- onfail="ONOS"+str(int(controller+1))+" ports view is incorrect")
+ utilities.assert_equals( expect=main.TRUE,
+ actual=current_ports_result,
+ onpass="ONOS" + controller_str +
+ " ports view is correct",
+ onfail="ONOS" + controller_str +
+ " ports view is incorrect" )
- if links[controller] or not "Error" in links[controller]:
- current_links_result = main.Mininet1.compare_links(MNTopo, json.loads(links[controller]))
+ if links[ controller ] or "Error" not in links[ controller ]:
+ current_links_result = main.Mininet1.compare_links(
+ MNTopo,
+ json.loads(
+ links[ controller ] ) )
else:
current_links_result = main.FALSE
- utilities.assert_equals(expect=main.TRUE, actual=current_links_result,
- onpass="ONOS"+str(int(controller+1))+" links view is correct",
- onfail="ONOS"+str(int(controller+1))+" links view is incorrect")
+ utilities.assert_equals( expect=main.TRUE,
+ actual=current_links_result,
+ onpass="ONOS" + controller_str +
+ " links view is correct",
+ onfail="ONOS" + controller_str +
+ " links view is incorrect" )
devices_results = devices_results and current_devices_result
ports_results = ports_results and current_ports_result
links_results = links_results and current_links_result
topo_result = devices_results and ports_results and links_results
- topo_result = topo_result and int(count <= 2)
- main.log.report("Very crass estimate for topology discovery/convergence(note it takes about 1 seconds to read the topology from each ONOS instance): " +\
- str(elapsed) + " seconds, " + str(count) +" tries" )
+ topo_result = topo_result and int( count <= 2 )
+ note = "note it takes about " + str( int( cli_time ) ) + \
+ " seconds for the test to make all the cli calls to fetch " +\
+ "the topology from each ONOS instance"
+ main.log.report(
+ "Very crass estimate for topology discovery/convergence(" +
+ str( note ) + "): " + str( elapsed ) + " seconds, " +
+ str( count ) + " tries" )
if elapsed > 60:
- main.log.report("Giving up on topology convergence")
- utilities.assert_equals(expect=main.TRUE, actual=topo_result,
- onpass="Topology Check Test successful",
- onfail="Topology Check Test NOT successful")
+ main.log.report( "Giving up on topology convergence" )
+ utilities.assert_equals( expect=main.TRUE, actual=topo_result,
+ onpass="Topology Check Test successful",
+ onfail="Topology Check Test NOT successful" )
if topo_result == main.TRUE:
- main.log.report("ONOS topology view matches Mininet topology")
+ main.log.report( "ONOS topology view matches Mininet topology" )
-
- def CASE9 (self,main):
- '''
+ def CASE9( self, main ):
+ """
Link s3-s28 down
- '''
- #NOTE: You should probably run a topology check after this
+ """
+ import time
+ # NOTE: You should probably run a topology check after this
- link_sleep = float(main.params['timers']['LinkDiscovery'])
+ link_sleep = float( main.params[ 'timers' ][ 'LinkDiscovery' ] )
- description = "Turn off a link to ensure that Link Discovery is working properly"
- main.log.report(description)
- main.case(description)
+ description = "Turn off a link to ensure that Link Discovery " +\
+ "is working properly"
+ main.log.report( description )
+ main.case( description )
+ main.step( "Kill Link between s3 and s28" )
+ Link_Down = main.Mininet1.link( END1="s3", END2="s28", OPTION="down" )
+ main.log.info(
+ "Waiting " +
+ str( link_sleep ) +
+ " seconds for link down to be discovered" )
+ time.sleep( link_sleep )
+ utilities.assert_equals( expect=main.TRUE, actual=Link_Down,
+ onpass="Link down succesful",
+ onfail="Failed to bring link down" )
+ # TODO do some sort of check here
- main.step("Kill Link between s3 and s28")
- Link_Down = main.Mininet1.link(END1="s3",END2="s28",OPTION="down")
- main.log.info("Waiting " + str(link_sleep) + " seconds for link down to be discovered")
- time.sleep(link_sleep)
- utilities.assert_equals(expect=main.TRUE,actual=Link_Down,
- onpass="Link down succesful",
- onfail="Failed to bring link down")
- #TODO do some sort of check here
-
- def CASE10 (self,main):
- '''
+ def CASE10( self, main ):
+ """
Link s3-s28 up
- '''
- #NOTE: You should probably run a topology check after this
+ """
+ import time
+ # NOTE: You should probably run a topology check after this
- link_sleep = float(main.params['timers']['LinkDiscovery'])
+ link_sleep = float( main.params[ 'timers' ][ 'LinkDiscovery' ] )
- description = "Restore a link to ensure that Link Discovery is working properly"
- main.log.report(description)
- main.case(description)
+ description = "Restore a link to ensure that Link Discovery is " + \
+ "working properly"
+ main.log.report( description )
+ main.case( description )
- main.step("Bring link between s3 and s28 back up")
- Link_Up = main.Mininet1.link(END1="s3",END2="s28",OPTION="up")
- main.log.info("Waiting " + str(link_sleep) + " seconds for link up to be discovered")
- time.sleep(link_sleep)
- utilities.assert_equals(expect=main.TRUE,actual=Link_Up,
- onpass="Link up succesful",
- onfail="Failed to bring link up")
- #TODO do some sort of check here
+ main.step( "Bring link between s3 and s28 back up" )
+ Link_Up = main.Mininet1.link( END1="s3", END2="s28", OPTION="up" )
+ main.log.info(
+ "Waiting " +
+ str( link_sleep ) +
+ " seconds for link up to be discovered" )
+ time.sleep( link_sleep )
+ utilities.assert_equals( expect=main.TRUE, actual=Link_Up,
+ onpass="Link up succesful",
+ onfail="Failed to bring link up" )
+ # TODO do some sort of check here
-
- def CASE11 (self, main) :
- '''
+ def CASE11( self, main ):
+ """
Switch Down
- '''
- #NOTE: You should probably run a topology check after this
+ """
+ # NOTE: You should probably run a topology check after this
import time
- switch_sleep = float(main.params['timers']['SwitchDiscovery'])
+ switch_sleep = float( main.params[ 'timers' ][ 'SwitchDiscovery' ] )
description = "Killing a switch to ensure it is discovered correctly"
- main.log.report(description)
- main.case(description)
+ main.log.report( description )
+ main.case( description )
+ switch = main.params[ 'kill' ][ 'switch' ]
+ switchDPID = main.params[ 'kill' ][ 'dpid' ]
- #TODO: Make this switch parameterizable
- main.step("Kill s28 ")
- main.log.report("Deleting s28")
- main.Mininet1.del_switch("s28")
- main.log.info("Waiting " + str(switch_sleep) + " seconds for switch down to be discovered")
- time.sleep(switch_sleep)
- device = main.ONOScli1.get_device(dpid="0028")
- #Peek at the deleted switch
- main.log.warn( str(device) )
+ # TODO: Make this switch parameterizable
+ main.step( "Kill " + switch )
+ main.log.report( "Deleting " + switch )
+ main.Mininet1.del_switch( switch )
+ main.log.info( "Waiting " + str( switch_sleep ) +
+ " seconds for switch down to be discovered" )
+ time.sleep( switch_sleep )
+ device = main.ONOScli1.get_device( dpid=switchDPID )
+ # Peek at the deleted switch
+ main.log.warn( str( device ) )
result = main.FALSE
- if device and device['available'] == False:
+ if device and device[ 'available' ] is False:
result = main.TRUE
- utilities.assert_equals(expect=main.TRUE,actual=result,
- onpass="Kill switch succesful",
- onfail="Failed to kill switch?")
+ utilities.assert_equals( expect=main.TRUE, actual=result,
+ onpass="Kill switch succesful",
+ onfail="Failed to kill switch?" )
- def CASE12 (self, main) :
- '''
+ def CASE12( self, main ):
+ """
Switch Up
- '''
- #NOTE: You should probably run a topology check after this
+ """
+ # NOTE: You should probably run a topology check after this
import time
- switch_sleep = float(main.params['timers']['SwitchDiscovery'])
+ switch_sleep = float( main.params[ 'timers' ][ 'SwitchDiscovery' ] )
+ switch = main.params[ 'kill' ][ 'switch' ]
+ switchDPID = main.params[ 'kill' ][ 'dpid' ]
+ links = main.params[ 'kill' ][ 'links' ].split()
description = "Adding a switch to ensure it is discovered correctly"
- main.log.report(description)
- main.case(description)
+ main.log.report( description )
+ main.case( description )
- main.step("Add back s28")
- main.log.report("Adding back s28")
- main.Mininet1.add_switch("s28", dpid = '0000000000002800')
- #TODO: New dpid or same? Ask Thomas?
- main.Mininet1.add_link('s28', 's3')
- main.Mininet1.add_link('s28', 's6')
- main.Mininet1.add_link('s28', 'h28')
- main.Mininet1.assign_sw_controller(sw="28",
- ip1=ONOS1_ip,port1=ONOS1_port)
- main.log.info("Waiting " + str(switch_sleep) + " seconds for switch up to be discovered")
- time.sleep(switch_sleep)
- device = main.ONOScli1.get_device(dpid="0028")
- #Peek at the deleted switch
- main.log.warn( str(device) )
+ main.step( "Add back " + switch )
+ main.log.report( "Adding back " + switch )
+ main.Mininet1.add_switch( switch, dpid=switchDPID )
+ # TODO: New dpid or same? Ask Thomas?
+ for peer in links:
+ main.Mininet1.add_link( switch, peer )
+ main.Mininet1.assign_sw_controller( sw=switch.split( 's' )[ 1 ],
+ ip1=ONOS1_ip, port1=ONOS1_port )
+ main.log.info(
+ "Waiting " +
+ str( switch_sleep ) +
+ " seconds for switch up to be discovered" )
+ time.sleep( switch_sleep )
+ device = main.ONOScli1.get_device( dpid=switchDPID )
+ # Peek at the deleted switch
+ main.log.warn( str( device ) )
result = main.FALSE
- if device and device['available'] == True:
+ if device and device[ 'available' ]:
result = main.TRUE
- utilities.assert_equals(expect=main.TRUE,actual=result,
- onpass="add switch succesful",
- onfail="Failed to add switch?")
+ utilities.assert_equals( expect=main.TRUE, actual=result,
+ onpass="add switch succesful",
+ onfail="Failed to add switch?" )
- def CASE13 (self, main) :
- '''
+ def CASE13( self, main ):
+ """
Clean up
- '''
+ """
import os
import time
- #printing colors to terminal
+ # printing colors to terminal
colors = {}
- colors['cyan'] = '\033[96m'
- colors['purple'] = '\033[95m'
- colors['blue'] = '\033[94m'
- colors['green'] = '\033[92m'
- colors['yellow'] = '\033[93m'
- colors['red'] = '\033[91m'
- colors['end'] = '\033[0m'
+ colors[ 'cyan' ] = '\033[96m'
+ colors[ 'purple' ] = '\033[95m'
+ colors[ 'blue' ] = '\033[94m'
+ colors[ 'green' ] = '\033[92m'
+ colors[ 'yellow' ] = '\033[93m'
+ colors[ 'red' ] = '\033[91m'
+ colors[ 'end' ] = '\033[0m'
description = "Test Cleanup"
- main.log.report(description)
- main.case(description)
- main.step("Killing tcpdumps")
+ main.log.report( description )
+ main.case( description )
+ main.step( "Killing tcpdumps" )
main.Mininet2.stop_tcpdump()
- main.step("Checking ONOS Logs for errors")
- print colors['purple'] + "Checking logs for errors on ONOS1:" + colors['end']
- print main.ONOSbench.check_logs(ONOS1_ip)
- main.step("Copying MN pcap and ONOS log files to test station")
+ main.step( "Checking ONOS Logs for errors" )
+ print colors[ 'purple' ] + "Checking logs for errors on ONOS1:" + \
+ colors[ 'end' ]
+ print main.ONOSbench.check_logs( ONOS1_ip )
+ main.step( "Copying MN pcap and ONOS log files to test station" )
testname = main.TEST
- teststation_user = main.params['TESTONUSER']
- teststation_IP = main.params['TESTONIP']
- #NOTE: MN Pcap file is being saved to ~/packet_captures
+ teststation_user = main.params[ 'TESTONUSER' ]
+ teststation_IP = main.params[ 'TESTONIP' ]
+ # NOTE: MN Pcap file is being saved to ~/packet_captures
# scp this file as MN and TestON aren't necessarily the same vm
- #FIXME: scp
- #####mn files
- #TODO: Load these from params
- #NOTE: must end in /
+ # FIXME: scp
+ # mn files
+ # TODO: Load these from params
+ # NOTE: must end in /
log_folder = "/opt/onos/log/"
- log_files = ["karaf.log", "karaf.log.1"]
- #NOTE: must end in /
+ log_files = [ "karaf.log", "karaf.log.1" ]
+ # NOTE: must end in /
dst_dir = "~/packet_captures/"
for f in log_files:
- main.ONOSbench.handle.sendline( "scp sdn@"+ONOS1_ip+":"+log_folder+f+" "+
- teststation_user +"@"+teststation_IP+":"+\
- dst_dir + str(testname) + "-ONOS1-"+f )
- main.ONOSbench.handle.expect("\$")
+ main.ONOSbench.handle.sendline( "scp sdn@" + ONOS1_ip + ":" +
+ log_folder + f + " " +
+ teststation_user + "@" +
+ teststation_IP + ":" + dst_dir +
+ str( testname ) + "-ONOS1-" + f )
+ main.ONOSbench.handle.expect( "\$" )
print main.ONOSbench.handle.before
- #std*.log's
- #NOTE: must end in /
+ # std*.log's
+ # NOTE: must end in /
log_folder = "/opt/onos/var/"
- log_files = ["stderr.log", "stdout.log"]
- #NOTE: must end in /
+ log_files = [ "stderr.log", "stdout.log" ]
+ # NOTE: must end in /
dst_dir = "~/packet_captures/"
for f in log_files:
- main.ONOSbench.handle.sendline( "scp sdn@"+ONOS1_ip+":"+log_folder+f+" "+
- teststation_user +"@"+teststation_IP+":"+\
- dst_dir + str(testname) + "-ONOS1-"+f )
+ main.ONOSbench.handle.sendline( "scp sdn@" + ONOS1_ip + ":" +
+ log_folder + f + " " +
+ teststation_user + "@" +
+ teststation_IP + ":" + dst_dir +
+ str( testname ) + "-ONOS1-" + f )
+ # sleep so scp can finish
+ time.sleep( 10 )
+ main.step( "Packing and rotating pcap archives" )
+ os.system( "~/TestON/dependencies/rotate.sh " + str( testname ) )
+ # TODO: actually check something here
+ utilities.assert_equals( expect=main.TRUE, actual=main.TRUE,
+ onpass="Test cleanup successful",
+ onfail="Test cleanup NOT successful" )
- #sleep so scp can finish
- time.sleep(10)
- main.step("Packing and rotating pcap archives")
- os.system("~/TestON/dependencies/rotate.sh "+ str(testname))
-
-
- #TODO: actually check something here
- utilities.assert_equals(expect=main.TRUE, actual=main.TRUE,
- onpass="Test cleanup successful",
- onfail="Test cleanup NOT successful")
-
- def CASE14 ( self, main ) :
- '''
+ def CASE14( self, main ):
+ """
start election app on all onos nodes
- '''
+ """
leader_result = main.TRUE
- #install app on onos 1
- main.log.info("Install leadership election app")
- main.ONOScli1.feature_install("onos-app-election")
- #wait for election
- #check for leader
+ # install app on onos 1
+ main.log.info( "Install leadership election app" )
+ main.ONOScli1.feature_install( "onos-app-election" )
+ # wait for election
+ # check for leader
leader = main.ONOScli1.election_test_leader()
- #verify leader is ONOS1
+ # verify leader is ONOS1
if leader == ONOS1_ip:
- #all is well
+ # all is well
pass
- elif leader == None:
- #No leader elected
- main.log.report("No leader was elected")
+ elif leader is None:
+ # No leader elected
+ main.log.report( "No leader was elected" )
leader_result = main.FALSE
elif leader == main.FALSE:
- #error in response
- #TODO: add check for "Command not found:" in the driver, this means the app isn't loaded
- main.log.report("Something is wrong with election_test_leader function, check the error logs")
+ # error in response
+ # TODO: add check for "Command not found:" in the driver, this
+ # means the app isn't loaded
+ main.log.report( "Something is wrong with election_test_leader" +
+ " function, check the error logs" )
leader_result = main.FALSE
else:
- #error in response
- main.log.report("Unexpected response from election_test_leader function:'"+str(leader)+"'")
+ # error in response
+ main.log.report(
+ "Unexpected response from election_test_leader function:'" +
+ str(leader) +
+ "'" )
leader_result = main.FALSE
-
-
-
- #install on other nodes and check for leader.
- #Should be onos1 and each app should show the same leader
- for controller in range(2,num_controllers+1):
- node = getattr( main, ( 'ONOScli' + str( controller ) ) )#loop through ONOScli handlers
- node.feature_install("onos-app-election")
+ # install on other nodes and check for leader.
+ # Should be onos1 and each app should show the same leader
+ for controller in range( 2, num_controllers + 1 ):
+ # loop through ONOScli handlers
+ node = getattr( main, ( 'ONOScli' + str( controller ) ) )
+ node.feature_install( "onos-app-election" )
leaderN = node.election_test_leader()
- #verify leader is ONOS1
+ # verify leader is ONOS1
if leaderN == ONOS1_ip:
- #all is well
+ # all is well
pass
elif leaderN == main.FALSE:
- #error in response
- #TODO: add check for "Command not found:" in the driver, this means the app isn't loaded
- main.log.report("Something is wrong with election_test_leader function, check the error logs")
+ # error in response
+ # TODO: add check for "Command not found:" in the driver, this
+ # means the app isn't loaded
+ main.log.report( "Something is wrong with " +
+ "election_test_leader function, check the" +
+ " error logs" )
leader_result = main.FALSE
elif leader != leaderN:
leader_result = main.FALSE
- main.log.report("ONOS" + str(controller) + " sees "+str(leaderN) +
- " as the leader of the election app. Leader should be "+str(leader) )
+ main.log.report( "ONOS" + str( controller ) + " sees " +
+ str( leaderN ) +
+ " as the leader of the election app. Leader" +
+ " should be " +
+ str( leader ) )
if leader_result:
- main.log.report("Leadership election tests passed(consistent view of leader across listeners and a leader was elected)")
- utilities.assert_equals(expect=main.TRUE, actual=leader_result,
- onpass="Leadership election passed",
- onfail="Something went wrong with Leadership election")
+ main.log.report( "Leadership election tests passed( consistent " +
+ "view of leader across listeners and a leader " +
+ "was elected)" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=leader_result,
+ onpass="Leadership election passed",
+ onfail="Something went wrong with Leadership election" )
- def CASE15 ( self, main ) :
- '''
+ def CASE15( self, main ):
+ """
Check that Leadership Election is still functional
- '''
+ """
leader_result = main.TRUE
description = "Check that Leadership Election is still functional"
- main.log.report(description)
- main.case(description)
- main.step("Find current leader and withdraw")
+ main.log.report( description )
+ main.case( description )
+ main.step( "Find current leader and withdraw" )
leader = main.ONOScli1.election_test_leader()
- #TODO: do some sanity checking on leader before using it
+ # TODO: do some sanity checking on leader before using it
withdraw_result = main.FALSE
if leader == ONOS1_ip:
old_leader = getattr( main, "ONOScli1" )
- elif leader == None or leader == main.FALSE:
- main.log.report("Leader for the election app should be an ONOS node,"\
- +"instead got '"+str(leader)+"'")
+ elif leader is None or leader == main.FALSE:
+ main.log.report(
+ "Leader for the election app should be an ONOS node," +
+ "instead got '" +
+ str(leader) +
+ "'" )
leader_result = main.FALSE
withdraw_result = old_leader.election_test_withdraw()
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=withdraw_result,
+ onpass="App was withdrawn from election",
+ onfail="App was not withdrawn from election" )
-
- main.step("Make sure new leader is elected")
+ main.step( "Make sure new leader is elected" )
leader_list = []
- leaderN = main.ONOScli1.election_test_leader()
+ leaderN = main.ONOScli1.election_test_leader()
if leaderN == leader:
- main.log.report("ONOS"+str(controller)+" still sees " + str(leader) +\
- " as leader after they withdrew")
+ main.log.report( "ONOS still sees " + str( leaderN ) +
+ " as leader after they withdrew" )
leader_result = main.FALSE
elif leaderN == main.FALSE:
- #error in response
- #TODO: add check for "Command not found:" in the driver, this means the app isn't loaded
- main.log.report("Something is wrong with election_test_leader function, check the error logs")
+ # error in response
+ # TODO: add check for "Command not found:" in the driver, this
+ # means the app isn't loaded
+ main.log.report( "Something is wrong with election_test_leader " +
+ "function, check the error logs" )
leader_result = main.FALSE
- elif leaderN == None:
- main.log.info("There is no leader after the app withdrew from election")
+ elif leaderN is None:
+ main.log.info(
+ "There is no leader after the app withdrew from election" )
if leader_result:
- main.log.report("Leadership election tests passed(There is no leader after the old leader resigned)")
- utilities.assert_equals(expect=main.TRUE, actual=leader_result,
- onpass="Leadership election passed",
- onfail="Something went wrong with Leadership election")
+ main.log.report( "Leadership election tests passed(There is no " +
+ "leader after the old leader resigned)" )
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=leader_result,
+ onpass="Leadership election passed",
+ onfail="Something went wrong with Leadership election" )
-
- main.step("Run for election on old leader(just so everyone is in the hat)")
+ main.step(
+ "Run for election on old leader(just so everyone is in the hat)" )
run_result = old_leader.election_test_run()
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=run_result,
+ onpass="App re-ran for election",
+ onfail="App failed to run for election" )
leader = main.ONOScli1.election_test_leader()
- #verify leader is ONOS1
+ # verify leader is ONOS1
if leader == ONOS1_ip:
leader_result = main.TRUE
else:
leader_result = main.FALSE
- #TODO: assert on run and withdraw results?
+ # TODO: assert on run and withdraw results?
- utilities.assert_equals(expect=main.TRUE, actual=leader_result,
- onpass="Leadership election passed",
- onfail="ONOS1's election app was not leader after it re-ran for election")
-
+ utilities.assert_equals(
+ expect=main.TRUE,
+ actual=leader_result,
+ onpass="Leadership election passed",
+ onfail="ONOS1's election app was not leader after it re-ran " +
+ "for election" )