commit aeeb33ef1c57c619549db52f1bdfda246f4a6150 (HEAD, origin/master, origin/HEAD, master)
Author: Bri Prebilic Cole [bri@onlab.us]
AuthorDate: Thu Jul 9 15:15:54 2015 -0700
Commit: Gerrit Code Review [gerrit@onlab.us]
CommitDate: Thu Jul 9 23:59:32 2015 +0000

ONOS-2328 GUI -- Started work on seeing multiple links between devices on the topology view. Device links are now grouped based on what device they are between. Also minor bug fixes and investigations into other bugs. WIP.

<iframe src="https://onos-jenkins.onlab.us/job/HASanity/plot/Plot-HA/getPlot?index=0&width=500&height=300"noborder="0" width="500" height="300" scrolling="yes" seamless="seamless"></iframe>

Case 1: Setting up test environment - PASS

Setup the test environment including installing ONOS, starting Mininet and ONOScli sessions.

• 1.1 Applying cell variable to environment - No Result
• 1.2 Starting Mininet - PASS
• 1.3 Git checkout and pull master - PASS
• 1.4 Using mvn clean install - PASS
• 1.5 Creating ONOS package - PASS
• 1.6 Installing ONOS package - PASS
• 1.7 Checking if ONOS is up yet - PASS
• 1.8 App Ids check - 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 - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 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 8: Compare ONOS Topology view to Mininet topology - PASS

Compare topology objects between Mininet and ONOS

• 8.1 Comparing ONOS topology to MN - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 Checking ONOS nodes - 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 sendind traffic across Intents - PASS

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

• 4.1 Ping across added host intents - PASS
• 4.2 Check Intent state - 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 - PASS
• 5.3 Check for consistency in roles from each controller - PASS
• 5.4 Get the intents from each controller - PASS
• 5.5 Check for consistency in Intents from each controller - PASS
• 5.6 Get the flows from each controller - PASS
• 5.7 Check for consistency in Flows from each controller - PASS
• 5.8 Get the OF Table entries - No Result
• 5.9 Start continuous pings - No Result
• 5.10 Collecting topology information from ONOS - No Result
• 5.11 Host view is consistent across ONOS nodes - PASS
• 5.12 Each host has an IP address - PASS
• 5.13 Cluster view is consistent across ONOS nodes - PASS
• 5.14 Cluster view correct across ONOS nodes - PASS
• 5.15 Comparing ONOS topology to MN - PASS
• 5.16 Device information is correct - PASS
• 5.17 Links are correct - PASS
• 5.18 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 Check that each node shows the same leader - PASS

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 and get a default counter on each node - PASS
• 17.2 Increment and get an in memory counter on each node - PASS
• 17.3 Check counters are consistant across nodes - PASS
• 17.4 Counters we added have the correct values - PASS
• 17.5 Distributed Set get - PASS
• 17.6 Distributed Set size - PASS
• 17.7 Distributed Set add() - PASS
• 17.8 Distributed Set addAll() - PASS
• 17.9 Distributed Set contains() - PASS
• 17.10 Distributed Set containsAll() - PASS
• 17.11 Distributed Set remove() - PASS
• 17.12 Distributed Set removeAll() - PASS
• 17.13 Distributed Set addAll() - PASS
• 17.14 Distributed Set clear() - PASS
• 17.15 Distributed Set addAll() - PASS
• 17.16 Distributed Set retain() - PASS

Case 6: Wait 60 seconds instead of inducing a failure - 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 - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 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 Compare switch roles from before failure - PASS
• 7.5 Get the intents and compare across all nodes - PASS
• 7.6 Check for consistency in Intents from each controller - PASS
• 7.7 Compare current intents with intents before the failure - PASS
• 7.8 Get the OF Table entries and compare to before component failure - PASS
• 7.9 Check the continuous pings to ensure that no packets were dropped during component failure - PASS
• 7.10 Leadership Election is still functional - PASS

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

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

• 4.1 Ping across added host intents - PASS
• 4.2 Check Intent state - 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 Check that each node shows the same leader - PASS
• 15.2 Find current leader and withdraw - PASS
• 15.3 Make sure new leader is elected - PASS
• 15.4 Run for election on old leader( just so everyone is in the hat ) - PASS
• 15.5 Leader did not change when old leader re-ran - 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 and get a default counter on each node - PASS
• 17.2 Increment and get an in memory counter on each node - PASS
• 17.3 Check counters are consistant across nodes - PASS
• 17.4 Counters we added have the correct values - PASS
• 17.5 Distributed Set get - PASS
• 17.6 Distributed Set size - PASS
• 17.7 Distributed Set add() - PASS
• 17.8 Distributed Set addAll() - PASS
• 17.9 Distributed Set contains() - PASS
• 17.10 Distributed Set containsAll() - PASS
• 17.11 Distributed Set remove() - PASS
• 17.12 Distributed Set removeAll() - PASS
• 17.13 Distributed Set addAll() - PASS
• 17.14 Distributed Set clear() - PASS
• 17.15 Distributed Set addAll() - PASS
• 17.16 Distributed Set retain() - PASS

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

• 9.1 Kill Link between s3 and s28 - 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 - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 Checking ONOS nodes - PASS

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

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

• 4.1 Ping across added host intents - PASS
• 4.2 Check Intent state - 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 s3 and s28 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 - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 Checking ONOS nodes - PASS

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

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

• 4.1 Ping across added host intents - PASS
• 4.2 Check Intent state - 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 - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 Checking ONOS nodes - PASS

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

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

• 4.1 Ping across added host intents - PASS
• 4.2 Check Intent state - 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 - No Result
• 8.2 Collecting topology information from ONOS - PASS
• 8.3 Hosts view is consistent across all ONOS nodes - PASS
• 8.4 Hosts information is correct - PASS
• 8.5 Host attachment points to the network - PASS
• 8.6 Clusters view is consistent across all ONOS nodes - PASS
• 8.7 There is only one SCC - PASS
• 8.8 Device information is correct - PASS
• 8.9 Links are correct - PASS
• 8.10 Hosts are correct - PASS
• 8.11 Checking ONOS nodes - PASS

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

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

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

Case 13: Test Cleanup - PASS

• 13.1 Killing tcpdumps - No Result
• 13.2 Copying MN pcap and ONOS log files to test station - No Result
• 13.3 Stopping Mininet - PASS
• 13.4 Checking ONOS Logs for errors - No Result
• 13.5 Packing and rotating pcap archives - No Result