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HAupgradeRollback at 23 Oct 2018 18:18:13

<img src="https://jenkins.onosproject.org/view/QA/job/postjob-VM/lastSuccessfulBuild/artifact/HAupgradeRollback_onos-1.13_20-builds_graph.jpg", alt="HAupgradeRollback", style="width:525px;height:350px;border:0">

commit b5c60cbb32f11a7c5a25168f21ee884cbf3bfbcb (HEAD -] onos-1.13, origin/onos-1.13)
Author: Gamze Abaka [gamze.abaka@netsia.com]
AuthorDate: Wed Sep 12 10:55:35 2018 +0000
Commit: Thomas Vachuska [tom@opennetworking.org]
CommitDate: Mon Oct 22 20:01:25 2018 +0000

In order to implement VOLTHA VOL-949 task (https://jira.opencord.org/browse/VOL-949) , OltPipeline (pmc-olt driver) must support meter, transition and also QinQ vlan push instructions.

Case 1: Constructing test variables and building ONOS package - PASS

For loading from params file, and pull and build the latest ONOS package

1.1 Constructing test variables - PASS
1.2 Apply cell to environment - PASS
1.3 Uninstalling ONOS package - PASS
1.4 Copying backup config files - PASS
1.5 Starting Mininet - PASS
1.6 Creating ONOS package - PASS
1.7 Installing ONOS package - PASS
1.8 Set up ONOS secure SSH - PASS
1.9 Checking ONOS service - PASS
1.10 Starting ONOS CLI sessions - PASS
1.11 Checking ONOS nodes - PASS
1.12 Checking ONOS applications - PASS
1.13 Clean up ONOS service changes - No Result
1.14 Checking ONOS nodes - PASS
1.15 Activate apps defined in the params file - No Result
1.16 Set ONOS configurations - PASS
1.17 Check app ids - PASS
1.18 Set logging levels - PASS

Case 2: Assigning devices to controllers - PASS

Assign switches to ONOS using 'ovs-vsctl' and check that an ONOS node becomes the master of the device.

2.1 Assign switches to controllers - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 21: Assigning Controller roles for switches - PASS

Check that ONOS is connected to each device. Then manually assign mastership to specific ONOS nodes using 'device-role'

21.1 Assign mastership of switches to specific controllers - PASS
21.2 Check mastership was correctly assigned - PASS

Case 3: Adding host Intents - PASS

Discover hosts by using pingall then assign predetermined host-to-host intents. After installation, check that the intent is distributed to all nodes and the state is INSTALLED

3.1 Install reactive forwarding app - PASS
3.2 Check app ids - PASS
3.3 Discovering Hosts( Via pingall for now ) - PASS
3.4 Uninstall reactive forwarding app - PASS
3.5 Check app ids - PASS
3.6 Add host intents via cli - PASS
3.7 Intent Anti-Entropy dispersion - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 5: Setting up and gathering data for current state - PASS

5.1 Check that each switch has a master - PASS
5.2 Get the Mastership of each switch from each controller - No Result
5.3 Read device roles from ONOS - PASS
5.4 Check for consistency in roles from each controller - PASS
5.5 Get the intents from each controller - PASS
5.6 Check for consistency in Intents from each controller - PASS
5.7 Get the flows from each controller - PASS
5.8 Check for consistency in Flows from each controller - PASS
5.9 Get the OF Table entries - No Result
5.10 Start continuous pings - No Result
5.11 Collecting topology information from ONOS - No Result
5.12 Host view is consistent across ONOS nodes - PASS
5.13 Each host has an IP address - PASS
5.14 Cluster view is consistent across ONOS nodes - PASS
5.15 Cluster view correct across ONOS nodes - PASS
5.16 Comparing ONOS topology to MN - PASS
5.17 Device information is correct - PASS
5.18 Links are correct - PASS
5.19 Hosts are correct - PASS

Case 14: Start Leadership Election app - PASS

14.1 Install leadership election app - PASS
14.2 Run for election on each node - PASS
14.3 Active node was elected leader? - PASS

Case 15: Check that Leadership Election is still functional - PASS

15.1 Run for election on each node - PASS
15.2 Check that each node shows the same leader and candidates - PASS
15.3 Find current leader and withdraw - PASS
15.4 Check that a new node was elected leader - PASS
15.5 Check that that new leader was the candidate of old leader - PASS
15.6 Run for election on old leader( just so everyone is in the hat ) - PASS
15.7 Check that oldLeader is a candidate, and leader if only 1 node - No Result

Case 16: Install Primitives app - PASS

16.1 Install Primitives app - PASS

Case 17: Check for basic functionality with distributed primitives - PASS

Test the methods of the distributed primitives (counters and sets) throught the cli

17.1 Increment then get a default counter on each node - PASS
17.2 Get then Increment a default counter on each node - PASS
17.3 Counters we added have the correct values - PASS
17.4 Add -8 to then get a default counter on each node - PASS
17.5 Add 5 to then get a default counter on each node - PASS
17.6 Get then add 5 to a default counter on each node - PASS
17.7 Counters we added have the correct values - PASS
17.8 Distributed Set get - PASS
17.9 Distributed Set size - PASS
17.10 Distributed Set add() - PASS
17.11 Distributed Set addAll() - PASS
17.12 Distributed Set contains() - PASS
17.13 Distributed Set containsAll() - PASS
17.14 Distributed Set remove() - PASS
17.15 Distributed Set removeAll() - PASS
17.16 Distributed Set addAll() - PASS
17.17 Distributed Set clear() - PASS
17.18 Distributed Set addAll() - PASS
17.19 Distributed Set retain() - PASS
17.20 Partitioned Transactional maps put - PASS
17.21 Partitioned Transactional maps get - PASS
17.22 Get the value of a new value - PASS
17.23 Atomic Value set() - PASS
17.24 Get the value after set() - PASS
17.25 Atomic Value compareAndSet() - PASS
17.26 Get the value after compareAndSet() - PASS
17.27 Atomic Value getAndSet() - PASS
17.28 Get the value after getAndSet() - PASS
17.29 Atomic Value destory() - PASS
17.30 Get the value after destroy() - PASS
17.31 Work Queue add() - PASS
17.32 Check the work queue stats - PASS
17.33 Work Queue addMultiple() - PASS
17.34 Check the work queue stats - PASS
17.35 Work Queue takeAndComplete() 1 - PASS
17.36 Check the work queue stats - PASS
17.37 Work Queue takeAndComplete() 2 - PASS
17.38 Check the work queue stats - PASS
17.39 Work Queue destroy() - PASS
17.40 Check the work queue stats - PASS

Case 60: Initialize upgrade - PASS

60.1 Send the command to initialize the upgrade - PASS
60.2 Check the status of the upgrade - No Result
60.3 Checking ONOS nodes - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 61: Upgrade minority of ONOS nodes - PASS

61.1 Checking ONOS Logs for errors - No Result
61.2 Upgrading['ONOS1', 'ONOS2', 'ONOS3'] ONOS nodes - PASS
61.3 Restarting ONOS CLI - PASS
61.4 Checking ONOS nodes - PASS
61.5 Rerun for election on the node(s) that were killed - PASS
61.6 Checking ONOS nodes - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 62: Start the upgrade - PASS

62.1 Send the command to switch to new version - PASS
62.2 Check the status of the upgrade - No Result
62.3 Checking ONOS nodes - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 63: Rollback the upgrade - PASS

63.1 Rollbak the upgrade - PASS
63.2 Check the status of the upgrade - No Result
63.3 Checking ONOS nodes - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 64: Reset the upgrade state - FAIL

64.1 Send the command to reset the upgrade - FAIL

Error committing the upgrade

64.2 Check the status of the upgrade - No Result

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 7: Running ONOS Constant State Tests - PASS

7.1 Check that each switch has a master - PASS
7.2 Read device roles from ONOS - PASS
7.3 Check for consistency in roles from each controller - PASS
7.4 Get the intents from each controller - PASS
7.5 Check for consistency in Intents from each controller - PASS
7.6 Compare current intents with intents before the failure - PASS
7.7 Get the OF Table entries and compare to before component failure - PASS
7.8 Leadership Election is still functional - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 15: Check that Leadership Election is still functional - PASS

15.1 Run for election on each node - PASS
15.2 Check that each node shows the same leader and candidates - PASS
15.3 Find current leader and withdraw - PASS
15.4 Check that a new node was elected leader - PASS
15.5 Check that that new leader was the candidate of old leader - PASS
15.6 Run for election on old leader( just so everyone is in the hat ) - PASS
15.7 Check that oldLeader is a candidate, and leader if only 1 node - No Result

Case 17: Check for basic functionality with distributed primitives - PASS

Test the methods of the distributed primitives (counters and sets) throught the cli

17.1 Increment then get a default counter on each node - PASS
17.2 Get then Increment a default counter on each node - PASS
17.3 Counters we added have the correct values - PASS
17.4 Add -8 to then get a default counter on each node - PASS
17.5 Add 5 to then get a default counter on each node - PASS
17.6 Get then add 5 to a default counter on each node - PASS
17.7 Counters we added have the correct values - PASS
17.8 Distributed Set get - PASS
17.9 Distributed Set size - PASS
17.10 Distributed Set add() - PASS
17.11 Distributed Set addAll() - PASS
17.12 Distributed Set contains() - PASS
17.13 Distributed Set containsAll() - PASS
17.14 Distributed Set remove() - PASS
17.15 Distributed Set removeAll() - PASS
17.16 Distributed Set addAll() - PASS
17.17 Distributed Set clear() - PASS
17.18 Distributed Set addAll() - PASS
17.19 Distributed Set retain() - PASS
17.20 Partitioned Transactional maps put - PASS
17.21 Partitioned Transactional maps get - PASS
17.22 Get the value of a new value - PASS
17.23 Atomic Value set() - PASS
17.24 Get the value after set() - PASS
17.25 Atomic Value compareAndSet() - PASS
17.26 Get the value after compareAndSet() - PASS
17.27 Atomic Value getAndSet() - PASS
17.28 Get the value after getAndSet() - PASS
17.29 Atomic Value destory() - PASS
17.30 Get the value after destroy() - PASS
17.31 Work Queue add() - PASS
17.32 Check the work queue stats - PASS
17.33 Work Queue addMultiple() - PASS
17.34 Check the work queue stats - PASS
17.35 Work Queue takeAndComplete() 1 - PASS
17.36 Check the work queue stats - PASS
17.37 Work Queue takeAndComplete() 2 - PASS
17.38 Check the work queue stats - PASS
17.39 Work Queue destroy() - PASS
17.40 Check the work queue stats - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 7: Running ONOS Constant State Tests - PASS

7.1 Check that each switch has a master - PASS
7.2 Read device roles from ONOS - PASS
7.3 Check for consistency in roles from each controller - PASS
7.4 Get the intents from each controller - PASS
7.5 Check for consistency in Intents from each controller - PASS
7.6 Compare current intents with intents before the failure - PASS
7.7 Get the OF Table entries and compare to before component failure - PASS
7.8 Leadership Election is still functional - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 15: Check that Leadership Election is still functional - PASS

15.1 Run for election on each node - PASS
15.2 Check that each node shows the same leader and candidates - PASS
15.3 Find current leader and withdraw - PASS
15.4 Check that a new node was elected leader - PASS
15.5 Check that that new leader was the candidate of old leader - PASS
15.6 Run for election on old leader( just so everyone is in the hat ) - PASS
15.7 Check that oldLeader is a candidate, and leader if only 1 node - No Result

Case 17: Check for basic functionality with distributed primitives - PASS

Test the methods of the distributed primitives (counters and sets) throught the cli

17.1 Increment then get a default counter on each node - PASS
17.2 Get then Increment a default counter on each node - PASS
17.3 Counters we added have the correct values - PASS
17.4 Add -8 to then get a default counter on each node - PASS
17.5 Add 5 to then get a default counter on each node - PASS
17.6 Get then add 5 to a default counter on each node - PASS
17.7 Counters we added have the correct values - PASS
17.8 Distributed Set get - PASS
17.9 Distributed Set size - PASS
17.10 Distributed Set add() - PASS
17.11 Distributed Set addAll() - PASS
17.12 Distributed Set contains() - PASS
17.13 Distributed Set containsAll() - PASS
17.14 Distributed Set remove() - PASS
17.15 Distributed Set removeAll() - PASS
17.16 Distributed Set addAll() - PASS
17.17 Distributed Set clear() - PASS
17.18 Distributed Set addAll() - PASS
17.19 Distributed Set retain() - PASS
17.20 Partitioned Transactional maps put - PASS
17.21 Partitioned Transactional maps get - PASS
17.22 Get the value of a new value - PASS
17.23 Atomic Value set() - PASS
17.24 Get the value after set() - PASS
17.25 Atomic Value compareAndSet() - PASS
17.26 Get the value after compareAndSet() - PASS
17.27 Atomic Value getAndSet() - PASS
17.28 Get the value after getAndSet() - PASS
17.29 Atomic Value destory() - PASS
17.30 Get the value after destroy() - PASS
17.31 Work Queue add() - PASS
17.32 Check the work queue stats - PASS
17.33 Work Queue addMultiple() - PASS
17.34 Check the work queue stats - PASS
17.35 Work Queue takeAndComplete() 1 - PASS
17.36 Check the work queue stats - PASS
17.37 Work Queue takeAndComplete() 2 - PASS
17.38 Check the work queue stats - PASS
17.39 Work Queue destroy() - PASS
17.40 Check the work queue stats - PASS

Case 9: Turn off a link to ensure that Link Discovery is working properly - PASS

9.1 Kill Link between s28 and s3 - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 10: Restore a link to ensure that Link Discovery is working properly - PASS

10.1 Bring link between s28 and s3 back up - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 11: Killing a switch to ensure it is discovered correctly - PASS

11.1 Kill s5 - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 12: Adding a switch to ensure it is discovered correctly - PASS

12.1 Add back s5 - PASS

Case 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

8.1 Comparing ONOS topology to MN topology - PASS
8.2 Hosts view is consistent across all ONOS nodes - PASS
8.3 Hosts information is correct - PASS
8.4 Host attachment points to the network - PASS
8.5 Clusters view is consistent across all ONOS nodes - PASS
8.6 There is only one SCC - PASS
8.7 Device information is correct - PASS
8.8 Links are correct - PASS
8.9 Hosts are correct - PASS
8.10 Checking ONOS nodes - PASS

Case 4: Verify connectivity by sending traffic across Intents - PASS

Ping across added host intents to check functionality and check the state of the intent

4.1 Check Intent state - PASS
4.2 Ping across added host intents - PASS
4.3 Check leadership of topics - PASS
4.4 Wait a minute then ping again - PASS

Case 13: Test Cleanup - PASS

13.1 Checking raft log size - PASS
13.2 Killing tcpdumps - No Result
13.3 Checking ONOS Logs for errors - No Result
13.4 Stopping Mininet - PASS