troubleshooting cinder issues

API Request

A user sends a request to create a volume via the OpenStack CLI, Private Cloud Director dashboard, or direct API call. The cinder-api service receives this request, authenticates the user with Keystone, and raises a POST https://<FQDN>/v3/<TENANT_UUID>/volumes volume request, which further creates a Cinder database entry for the volume with a status of creating. The below cinder-api pod logs sample shows the POST request, Volume size and successful issue for volume creation request.

INFO cinder.api.openstack.wsgi [None [REQ-ID] [USER_ID] [TENANT_ID] - - default default] POST https:/<FQDN>/v3/<TENANT_UUID>/volumes
INFO cinder.api.v3.volumes [None [REQ-ID] [USER_ID] [TENANT_ID] - - default default] Create volume of 2 GB
INFO cinder.volume.api [None [REQ-ID] [USER_ID] [TENANT_ID] - - default default] Availability Zones retrieved successfully.
INFO cinder.volume.api [None [REQ-ID] [USER_ID] [TENANT_ID] - - default default] Create volume request issued successfully.

Cinder-Scheduler

The request is passed to the cinder-scheduler. This component makes a decision on where to store the volumes using filters like Capacity Filters, Availability zone filters and many other filters. More filters can be found here to decide which storage backend (e.g., Ceph, LVM) is the best place to create the volume based on size, type, and availability.

Volume Service Action

The scheduler sends the request to the pf9-cindervolume-base service responsible for the chosen backend. This service is the worker that uses a specific storage driver to command the backend.

Backend Provisioning

The storage backend (the actual storage system) receives the commands and provisions the physical or logical block device. Here, on the underlying Cinder hosts, the /var/log/pf9/cindervolume-base.log will show the requested raw volume specifications, which include Volume name, Volume UUID and Volume size.

INFO cinder.volume.flows.manager.create_volume [[REQ-ID] None service] Volume [VOLUME_UUID]: being created as raw with specification: {'status': 'creating', 'volume_name': 'volume-[VOLUME_UUID]', 'volume_size': 2}

Status Update

Once the backend confirms the volume is created, the pf9-cindervolume-base service sends the update request to the cinder database, changing the volume's status to available. Here, on the underlying Cinder hosts, the /var/log/pf9/cindervolume-base.log will show the final status that volume is created.

INFO cinder.volume.flows.manager.create_volume [[REQ-ID] None service] Volume volume-[VOLUME_UUID] ([VOLUME_UUID]): created successfully
INFO cinder.volume.manager [[REQ-ID] None service] Created volume successfully.

User Request (via Nova)

A user requests to attach an existing, available volume to a specific VM. This request goes to the nova-api-osapi service, not the Cinder API.

INFO nova.osapi_compute.wsgi.server [None [REQ-ID] [USER_ID] [TENANT_ID] - - default default] [IP],[IP] "POST /v2.1/[PROJECT_UUID]/servers/[VM_UUID]/os-volume_attachments HTTP/1.1" status: 200 len: 569 time: 0.8244848

Nova to Cinder Communication

The pf9-ostackhost service on the host where the VM is running calls the cinder-api to get the connection information for the volume. Once volume information is received it further attach the volume as shown in /var/log/pf9/ostackhost.log logs.

INFO nova.compute.manager [[REQ-ID] [USER_NAME] [TENANT_NAME]] [instance: [VM_UUID]] Attaching volume [VOLUME_UUID] to /dev/vdx

Cinder Prepares the Attachment

The cinder-api passes the request to the pf9-cindervolume-base service. Cinder performs necessary actions to "reserve" the volume and prepares it for attachment. It then generates the required connection details (e.g., the iSCSI target, Ceph RBD path). Once that is successful the /var/log/pf9/cindervolume-base.log logs will shows the attachment successful message. Volume status will be "reserved".

INFO cinder.volume.manager [[REQ-ID] None service] attachment_update completed successfully.
INFO cinder.volume.manager [[REQ-ID] None service] Volume connection completed successfully.

Cinder Responds to Nova

Cinder sends these connection details back to nova-compute to the pf9-ostackhost service on the host.

Nova Makes the Connection

Once pf9-ostackhost receives the connection info, pf9-ostackhost service uses the host's operating system and hypervisor (e.g., QEMU/KVM) to connect the VM to the storage volume. Volume status will be "attaching".

Final Status Update

Once the connection is successful, pf9-ostackhost service informs Cinder, and Cinder updates the volume's status in its database to in-use and records which VM it's attached to.

User Request (via Nova)

A user requests to delete an existing volume via the OpenStack CLI, Private Cloud Director dashboard, or direct API call. This validates the user's authentication token with Keystone, performs a permission check, and changes the volume status in the database to deleting. This request DELETE /v3/{project_id}/volumes/{volume_id} goes to cinder-api service.

Further Validation

Cinder-service checks Volume state. If it is in available, error, error_restoring, error_extending then the normal delete operation is performed. If the volume state is in-use (attached), then normal delete will be rejected unless force delete option is used.

Cinder Prepares for Delete

The RPC request is routed to the pf9-cindervolume-base service hosting the volume (no scheduler step needed for delete). Backend driver/manager attempts to terminate connections and detach (best-effort). If connector cleanup fails, delete may fail with error_deleting. Driver delete_volume() removes the LUN/target/extent from the storage backend. Further the /var/log/pf9/cindervolume-base.log shows the volume device mapper is being deleted.

Cinder Volume Deletion Confirmation

On successful backend delete, quotas for volumes and gigabytes are decremented and further the /var/log/pf9/cindervolume-base.log show the volume is successfully deleted.

Final Status Update

Cinder service pf9-cindervolume-base sends the database update request to cinder DB.

Check volume services

Check if all cinder volume hosts are enabled and running.

List and inspect affected volumes

List all volumes, grep for the affected volumes, and get volume details like host information, status, and errors.

Check management plane pods (Self-Hosted only)

The management plane has a cinder-api & cinder-scheduler pod to provide the volume service. Check if the cinder-api & cinder-scheduler pods are running in the workload region namespace. Review these pods:

• Check if they are in "CrashLoopBackOff/OOMKilled/Pending/Error/Init" state.

• Verify if all containers in the pods are Running.

• See the events section in pod describe output.

• Review pod logs using REQ_ID or VM_UUID for relevant details.

Verify pf9-cindervolume-base service

Once the underlying cinder host is identified review the pf9-cindervolume-base service status; it should be up and running.

Review logs for errors

Review the /var/log/pf9/cindervolume-base.log logs, check if there are any errors related to the Volume UUID.

Contact Support

If these steps prove insufficient to resolve the issue, kindly reach out to the Platform9 Support Team for additional assistance.