| Test cases repeated for hypervisors & host versions: 1. XenServer XS 6.0.2 2. KVM RHEL6.2 3 . Vmware ESXi 5.0
Test cases repeated for zones: 1. Basic 2. Advance | In case of XS, Host resource may go in ErrorInMaintenance mode.
[https://issues.apache.org/jira/browse/CLOUDSTACK-118 ] | | | | | | | | |
Test Case ID | Test Case Name | | Expected Results | Priority (P1 | P2 |P3) | Test Case Type( Sanity | Functional | Negative) | Execution Time | Executed on Release | Reviewed By | Status | Comments |
HA001 | Host maintenance mode Hypervisor: XEN Host: XS 6.0.0 2 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : put to maintenance mode. 4. After failover to Host 2 succeeds, deploy Vms 5. Host 1 : cancel maintenance mode. 6. Host 2 : put to maintenance mode. 7. After failover to Host 1 succeeds, deploy VMs
| 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | pass | |
HA002 | Host maintenance mode with activities Hypervisor: XEN Host: XS 6.0.0 2 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms. Acquire IP. Create port forwarding & load balancing rules for Vms. 3. While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 1 : put to maintenance mode. 4. After failover to Host 2 succeeds, deploy Vms 5. Host 1 : cancel maintenance mode. 6. While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 2 : put to maintenance mode. 7. After failover to Host 1 succeeds, deploy VMs
| 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. All ongoing activities in step 3 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. All ongoing activities in step 6 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | pass | |
HA003 | Network disconnect Hypervisor: XEN Host: XS 6.0.0 2 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Disconnect the NIC. 4. After failover to Host 2 succeeds, deploy Vms | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | pass
| |
HA004 | Network disconnect with activities Hypervisor: XEN Host: XS 6.0.0 2 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 1 : Disconnect the NIC 4. After failover to Host 2 succeeds, deploy Vms
| 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. All ongoing activities in step 3 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | pass
| |
HA005 | Host power off (not a graceful shutdown) Hypervisor: XEN Host: XS 6.0.0 2 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : power off 4. After failover to Host 2 succeeds, deploy Vms | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed.
| P1 | SANITY, FUNCTIONAL | | | | pass | |
HA006 | Host power off with activities (not a graceful shutdown) Hypervisor: XEN Host: XS 6.0.0 2 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. While activities are ongoing: Copy snapshots, recurring snapshots, create templates, download volumes. Make sure these are lengthy operations. Power off Host1 while they are still occurring. 4. After failover to Host 2 succeeds, deploy Vms | 3. Deploy Vms on host 2 should succeed. All ongoing activities in step 3 should succeed.
| P1 | SANITY, FUNCTIONAL | 1 hour | | | pass | |
HA009 HA007 | Host maintenance mode Hypervisor: XEN KVM Host: XS RHEL 6.0.0 3 Primary storage: ISCSI NICBOND NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : put to maintenance mode. 4. After failover to Host 2 succeeds, deploy Vms 5. Host 1 : cancel maintenance mode. 6. Host 2 : put to maintenance mode. 7. After failover to Host 1 succeeds, deploy VMs
| 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P2 P1 | SANITY, FUNCTIONAL | 1 hour | | | pass
| | | | | | | | | | | |
HA008 | Host maintenance mode with activities | HA010 | Network disconnect Hypervisor: XEN KVM Host: XS RHEL 6.0.0 3 Primary storage: ISCSI NICBOND NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create Create a custom compute service offering with HA. Create HA enabled Vms & . Acquire IP. Create port forwarding & load balancing rules for Vms. 3. While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 1 : Disconnect the NIC put to maintenance mode. 4. After failover to Host 2 succeeds, deploy Vms 3 5. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed.
| P2 | SANITY, FUNCTIONAL | 1 hour | | | |
| | | | | | | | | | |
| | | | | | | | | | |
| | | | | | | | | | |
HA011 | Host power off (not a graceful shutdown) Hypervisor: XEN Host: XS 6.0.0 Primary storage: ISCSI NICBOND | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : Power off (not shutdown)
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P2 | SANITY, FUNCTIONAL | | | | | | | | | | | | | | | |
HA012 | Host maintenance mode Hypervisor: XEN Host: XS 6.0.2 Primary storage: FcoE | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : put to maintenance mode.
4. After failover to Host 2 succeeds, deploy Vms
5. Host 1 : cancel maintenance mode.
6. Host 2 : put to maintenance mode.
7. After failover to Host 1 succeeds, deploy VMs
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P2 | SANITY, FUNCTIONAL | 1 hour | | | | | | | | | | | | | | |
HA013 | Network disconnect Hypervisor: XEN Host: XS 6.0.2 Primary storage: FcoE | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : Disconnect the NIC
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P2 | SANITY, FUNCTIONAL | 1 hour | | | | HA014 | Host power off (not a graceful shutdown) Hypervisor: XEN Host: XS 6.0.2 Primary storage: FcoE | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : Power off (not shutdown)
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state.
All port forwarding rules and load balancing
Rules should work.
4. Deploy Vms on host 2 should succeed.
P2 | SANITY, FUNCTIONAL | | | | | HA015 | Host maintenance mode Hypervisor: KVM Host: RHEL 6.2 Primary storage: NFS | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : put to maintenance mode.
4. After failover to Host 2 succeeds, deploy Vms
5. Host 1 : cancel maintenance mode.
6. Host 2 : put to maintenance mode.
7. After failover to Host 1 succeeds, deploy VMs
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | pass | | HA016 | Network disconnect Hypervisor: KVM Host: RHEL 6.2 Primary storage: NFS | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Host 1 : cancel maintenance mode. 6. While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 2 : put to maintenance mode. 7. After failover to Host 1 succeeds, deploy VMs | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. All ongoing activities in step 3 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. All ongoing activities in step 6 should succeed. | P1
| SANITY, FUNCTIONAL | 1 hour | | | Fail
| vms are not getting migrated with snapshot creation activity
Bug Id CLOUDSTACK-298 |
HA009 | Network disconnect Hypervisor: KVM Host: RHEL 6.3 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP.Create port forwarding & load balancing rules for Vms. 3. Host 1 : Disconnect the NIC 4. After failover to Host 2 succeeds, deploy Vms
| 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed.
| P1 | SANITY, FUNCTIONAL | 1 hour | | | pass
| |
HA010
| Network disconnect with activity Hypervisor: KVM Host: RHEL 6.3 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 1 : Disconnect the NIC 4. After failover to Host 2 succeeds, deploy Vms | 3 |
Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP.Create port forwarding & load balancing rules for Vms.
3. Host 1 : Disconnect the NIC
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state.
All port forwarding rules and load balancing
Rules should work.
4. Deploy Vms on host 2 should succeed.
P1 | SANITY, FUNCTIONAL | 1 hour | | | pass | | HA017 | Host power off (graceful shutdown) Hypervisor: KVM Host: RHEL 6.2 Primary storage: NFS | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : Power off (not shutdown)
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state.
All port forwarding rules and load balancing
Rules should work.
4. Deploy Vms on host 2 should succeed.
P1 | SANITY, FUNCTIONAL | | | | Failed CS-15180 | | HA018 | Host maintenance mode Hypervisor: KVM Host: RHEL 6.2 Primary storage: NFSOCFS2 | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding
& load balancing rules for Vms.
3. Host 1 : put to maintenance mode.
4. After failover to Host 2 succeeds, deploy Vms
5. Host 1 : cancel maintenance mode.
6. Host 2 : put to maintenance mode.
7. After failover to Host 1 succeeds, deploy VMs
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P2 | SANITY, FUNCTIONAL | 1 hour | | | hold | | HA019 | Network disconnect Hypervisor: KVM Host: RHEL 6.2 Primary storage: NFSOCFS2 | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : Disconnect the NIC
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P2 | SANITY, FUNCTIONAL | 1 hour | | | hold | | HA020 | Host power off (not a graceful shutdown) Hypervisor: KVM Host: RHEL 6.2 Primary storage: NFSOCFS2 | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : Power off (not shutdown)
4. After failover to Host 2 succeeds, deploy Vms
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P2 | SANITY, FUNCTIONAL | | | | hold | | HA021 | Host maintenance mode Hypervisor: KVM Host: RHEL 6.2 Primary storage: FcoE | 1. Create Advance zone, pod, cluster.
Add 2 hosts to cluster, secondary & primary Storage, isolated network
2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms.
3. Host 1 : put to maintenance mode.
4. After failover to Host 2 succeeds, deploy Vms
5. Host 1 : cancel maintenance mode.
6. Host 2 : put to maintenance mode.
7. After failover to Host 1 succeeds, deploy VMs
3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P2 | SANITY, FUNCTIONAL | 1 hour | | | hold | | HA022 | Network disconnect Hypervisor: KVM Host: RHEL 6.2 Primary storage: FcoE | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Disconnect the NIC 4. After failover to Host 2 succeeds, deploy Vms | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P2 | SANITY, FUNCTIONAL | 1 hour | | | hold | |
HA023 | Host power off (not a graceful shutdown) Hypervisor: KVM Host: RHEL 6.2 Primary storage: FCoE | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Power off (not shutdown) 4. After failover to Host 2 succeeds, deploy Vms | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P2 | SANITY, FUNCTIONAL | | | | hold | |
HA024 | Host maintenance mode Hypervisor: vmware Host: ESXi 4.1 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP.Create port forwarding & load balancing rules for Vms. 3. Host 1 : put to maintenance mode. 4. After failover to Host 2 succeeds, deploy Vms 5. Host 1 : cancel maintenance mode. 6. Host 2 : put to maintenance mode. 7. After failover to Host 1 succeeds, deploy VMs 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 All ongoing activities in step 3 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | | | Fail
| vms are not getting migrated with snapshot creation activity
Bug id CLOUDSTACK-298
|
HA011
| Host power off without activity (graceful shutdown) Hypervisor: KVM Host: RHEL 6.3 | HA025 | Network disconnect Hypervisor: vmware Host: ESXi 4.1 Primary storage: NFS
| 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Disconnect the NIC While activities are ongoing: Copy snapshots, recurring snapshots, create templates, download volumes. Make sure these are lengthy operations. Power off Host1 while they are still occurring. 4. After failover to Host 2 succeeds, deploy Vms 3. All Vms should failover to Host 2 succeeds, deploy Vms | 3. in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. All ongoing activities in step 3 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | Failed Pass 15186 | |
HA012 HA026
| Host power off with activity (not a graceful shutdown) Hypervisor: vmware KVM Host: ESXi 4RHEL 6.1 3 Primary storage: NFS | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms . & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Power off (not shutdown) 4. After failover to Host 2 succeeds, deploy Vms While activities are ongoing: Create snapshots, recurring snapshots, create templates, download volumes, Host 1 : Disconnect the NIC 4. After failover to Host 2 succeeds, deploy Vms | 3 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. All ongoing activities in step 3 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | | Failed 15186 | | HA027 | Fail
| vms are not getting migrated with snapshot creation activity
bug id CLOUDSTACK-298
|
HA013 | Maintenance mode with 2 hosts in cluster - Vms need not be HA enabled for being live migrated Hypervisor: XEN Host: XS 6.0.2 Host maintenance mode Hypervisor: vmware Host: ESXi 5.0 Primary storage: ISCSI NFS
| 1. Create Advance zone, pod, Have 1 host in 1 cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : put to maintenance mode. 4. After failover to Host 2 succeeds, deploy Vms 5. Host 1 : cancel maintenance mode. 6. Host 2 : put to maintenance mode. 7. After failover to Host 1 succeeds, deploy VMs
| 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. 6. All Vms should failover to Host 1 in cluster. 7. Deploy Vms on host 1 should succeed. | P1 | SANITY, FUNCTIONAL | 2. Deploy few vms.(These Vms need not be deployed with service offerings that are HA enabled). Create Static Nat/PF rules. 3. Add 1 more host to this cluster. 4. Put host1 in maintenance mode. 5. Verify Step1 in "Expected Results" 6. Add 1 more Vm. This Vm gets deployed in host2. 7. Take host1 out of maintenance mode. 8. Put host2 in maintenance mode. 9. Verify Step2 in "Expected Results"
| After step4 - Check the following - Host1 should be put in Maintenance mode suceessfully. All Vms migrate successfully to host2. Make sure that the Vms are still accessible using their existing PF rules and static Nat rules.
- After step8 - Check the following:
Host2 should be put in Maintenance mode suceessfully. All Vms migrate successfully to host1. Make sure that the Vms are still accessible using their existing PF rules and static Nat rules.
| | SANITY,FUNCTIONAL | 1 hour | | | pass | |
HA014 | Maintenance mode with 1 host in cluster | NFS | HA028 | Network disconnect Hypervisor: vmware XEN Host: ESXi 5XS 6.0.2 Primary storage: ISCSI NFS
| - Have a cluster with 1
. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create Vms. Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Disconnect the NIC 4. After failover to Host 2 succeeds, deploy Vms | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | - host.
- Deploy few vms.
- Put this host in maintenance mode.
- Verify step1 from "Expected Results"
- Cancel maintenance mode.
- Verify step2- 6 from "Expected Results"
| Verity following after step3. 1.Putting the host in maintenance mode should succeed.All VMs will be in stopped state. Verity following after step4. 2. SSVM amd CPVM are started automatically. 3. All user VMs remains in stopped state. 4. We are able to manually start the Vms successfully. 5. Make sure that the Vms are still accessible using their existing PF rules. 6. We are able to deploy more vms | P1 | SANITY,FUNCTIONAL | 1 hour
| | | Failed 15186 | NFS |
HA029 | Host power off (not a graceful shutdown) Hypervisor: vmware Host: ESXi 5.0 Primary storage: ISCSI | 1. Create Advance zone, pod, cluster. Add 2 hosts to cluster, secondary & primary Storage, isolated network 2. Create a custom compute service offering with HA. Create HA enabled Vms & Acquire IP. Create port forwarding & load balancing rules for Vms. 3. Host 1 : Power off (not shutdown) 4. After failover to Host 2 succeeds, deploy Vms | 3. All Vms should failover to Host 2 in cluster. Vms should be in running state. All port forwarding rules and load balancing Rules should work. 4. Deploy Vms on host 2 should succeed. | P1 | SANITY, FUNCTIONAL | | | | Failed CS-15180 | NFS |
pass | |
HA015
| Maintenance mode with 2 hosts in cluster with different host tag Hypervisor: XEN Host: XS 6.0.2 Primary storage: NFS
| 1-Cluster has 1 host , say host1 with host tag. 2-Deploy few VMS with host tag in service offerings 3-Add another host , host2 to this cluster with no host tag. 4-Put host1 in maintenance mode. | Host1 should be put in maintenance mode successfully. All the Vms should remain in stopped state since they cannot live migrate to host2 which has no host tags. | | SANITY, FUNCTIONAL | 1 hour
| | | Pass
| |
HA016 HA033 | Maintenance mode with 2 hosts in cluster - Vms need not be HA enabled for being live migrated Hypervisor: KVM Host: RHEL 6.3 Primary storage: NFS
| Have 1. Have 1 host in 1 cluster . 2. Deploy -Deploy few vms.(These Vms need not be deployed with service offerings that are HA enabled). Create Static Nat/PF rules . 3. Add -Add 1 more host to this cluster. 4. Put -Put host1 in maintenance mode. 5. -Verify Step1 in "Expected Results" 6. Add -Add 1 more Vm. This Vm gets deployed in host2. 7. -Take host1 out of maintenance mode. 8. Put -Put host2 in maintenance mode. 9. -Verify Step2 in "Expected Results" | After step4 - Check the following 1-Host1 should be put in Maintenance mode suceessfully. All Vms migrate successfully to host2. Make sure that the Vms are still accessible using their existing PF rules and static Nat rules.
After step8 - Check the following: 2-Host2 should be put in Maintenance mode suceessfully. All Vms migrate successfully to host1. Make sure that the Vms are still accessible using their existing PF rules and static Nat rules. | | | SANITY, FUNCTIONAL | 1 hour
| | | | | Pass
| Migration from 1>2 is happening but from 2>1 is not happening --
|
HA017 HA034 | Maintenance mode with 1 host in cluster Hypervisor: KVM Host: RHEL 6.3 Primary storage: NFS
| 1-Have a cluster with 1 host . 2-Deploy few vms . 3-Put this host in maintenance mode. 4-Verify step1 from "Expected Results" 5-Cancel maintenance mode. 6-Verify step2- 6 from "Expected Results"
| Verity following after step3 . 1.Putting the host in maintenance mode should succeed.All VMs will be in stopped state . Verity following after step4 . 2. SSVM -SSVM amd CPVM are started automatically . 3. All -All user VMs remains in stopped state. 4. We -We are able to manually start the Vms successfully. 5. Make -Make sure that the Vms are still accessible using their existing PF rules. 6. We -We are able to deploy more vms
| | SANITY, FUNCTIONAL | 1 hour
| | | pass | |
HA018 HA035
| Maintenance mode with 2 hosts in cluster with different host tag Hypervisor: KVM Host: RHEL 6.3 Primary storage: NFS
| 1-Cluster has 1 host , say host1 with host tag. 2 . -Deploy few VMS with host tag in service offerings . 3 . -Add another host , host2 to this cluster with no host tag.
4. 4-Put host1 in maintenance mode.
| 1. Host1 should be put in maintenance mode successfully. All the Vms should remain in stopped state since they cannot live migrate to host2 which has no host tags. | | SANITY, FUNCTIONAL | 1 hour
| | | pass | |