Host maintenance mode Hypervisor: XEN Host: XS 6.0.2 Primary storage: NFS 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 : 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 | | | On Hold | |
HA008 | | | | | | | | | | |
HA007 | Network disconnect Hypervisor: XEN Host: XS 6.0.2 Primary storage: NFS 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 : 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 | |
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HA008 | Host power off (not a graceful shutdown) Hypervisor: XEN Host: XS 6.0.2 Primary storage: NFS 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 | | | | hold | |
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HA009 | Host maintenance mode 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 : 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 | |
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HA010 | Network disconnect 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 : 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 | |
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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 | | | | hold | |
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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 | | | hold | |
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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 | | | hold | |
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 | | | | hold | |
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. 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 should succeed. | P1 | SANITY, FUNCTIONAL | 1 hour | | | pass | |
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 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 | | | Failed 15186 | |
HA026 | Host power off (not a graceful shutdown) 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 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 15186 | |
HA027 | Host maintenance mode 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 : 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 | NFS |
HA028 | Network disconnect 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 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 | | | 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 |
HA030 | Host maintenance mode Hypervisor: OVM Host: 2.3 Primary storage: ISCSI |