Cyborg SPDK Driver Proposal

Cyborg SPDK Driver Proposal

https://blueprints.launchpad.net/openstack-cyborg/+spec/cyborg-spdk-driver

This spec proposes to provide the initial design for Cyborg’s SPDK driver.

Problem description

SPDK is a high performance kit and provides a user space, polled-mode, asynchronous, lockless NVMe driver for storage acceleration on the backend. Our goal is to add a SPDK driver for Cyborg to manage SPDK, and further improve storage performance.

Use Cases

  • When Cinder uses Ceph as its backend, the user should be able to use the Cyborg SPDK driver to discover the SPDK accelerator backend, enumerate the list of the Ceph nodes that have installed the SPDK.
  • When Cinder directly uses SPDK’s BlobStore as its backend, the user should be able to accomplish the same life cycle management operations for SPDK as mentioned above. After enumerating the SPDK, the user can attach (install) SPDK on that node. When the task completes, the user can also detach the SPDK from the node. Last but not least the user should be able to update the latest and available SPDK.

Proposed change

In general, the goal is to develop the Cyborg SPDK driver that supports discover/list/update/attach/detach operations for SPDK framework.

SPDK framework

The SPDK framework comprises of the following components:

      +-----------userspace--------+  +--------------+
      | +------+ +------+ +------+ | | +-----------+ |
+---+ | |DPDK  | |NVMe  | |NVMe  | | | |   Ceph    | |
| N +-+-+NIC   | |Target| |Driver+-+-+ |NVMe Device| |
| I | | |Driver| |      | |      | | | +-----------+ |
| C | | +------+ +------+ +------+ | | +-----------+ |
+---+ | +------------------------+ | | | Blobstore | |
      | |     DPDK Libraries     | | | |NVMe Device| |
      | +------------------------+ | | +-----------+ |
      +----------------------------+ +---------------+

BlobStore NVMe Device Format

BlobStore owns the entire NVMe device including metadata management and data management, which defines three basic units of disk space (like logical block, page, cluster). The NVMe device is divided into clusters starting from the first logical block.

LBA 0 LBA N +———–+———–+—–+———–+ | Cluster 0 | Cluster 1 | … | Cluster N | +———–+———–+—–+———–+

Cluster0 has special format which consists of pages. Page0 is the first page of Cluster0. Super Block contains the basic information of BlobStore.

Page 0 Page 1 … Page N
Super Block Metadata Region

Each blob is allocated a non-contiguous set of pages. These pages form a linked list. In general, the BlobStore adopts direct operation of bare metal device and avoids the filesystem, which improves efficiency.

Life Cycle Management Phases

  • We should be able to add a judgement whether the backend node has SPDK kit in generic driver module. If true, initialize the DPDK environment (such as hugepage).
  • Import the generic driver module, and then we should be able to discover (probe) the system for SPDK.
  • Determined by the backend storage scenario, enumerate (list) the optimal SPDK node, returning a boolean value to judge whether the SPDK should be attached.
  • After the node where SPDK will be running is attached, we can now send a request about the information of namespaces, and then create an I/O queue pair to submit read/write requests to a namespace.
  • When Ceph is used as the backend, as the latest Ceph (such as Luminous) uses the BlueStore to be the storage engine, BlueStore and BlobStore are very similar things. We will not be able to use BlobStore to accelerate Ceph, but we can use Ioat and poller to boost speed for storage.
  • When SPDK is used as the backend, we should be able to use BlobStore to improve performance.
  • Whenever user requests, we should be able to detach the SPDK device.
  • Whenever user requests, we should be able to update SPDK to the latest and stable release.

Alternatives

None

Data model impact

  • The Cyborg SPDK driver will notify Cyborg Agent to update the database when discover/list/update/attach/detach operations take place.

REST API impact

This blueprint proposes to add the following APIs:

  • cyborg discover-driver(driver_type)
  • cyborg driver-list(driver_type)
  • cyborg install-driver(driver_id, driver_type)
  • cyborg attach-instance <instance_id>
  • cyborg detach-instance <instance_id>
  • cyborg uninstall-driver(driver_id, driver_type)
  • cyborg update-driver <driver_id, driver_type>

Security impact

None

Notifications impact

None

Other end user impact

None

Performance Impact

The SPDK can provide a user space, polled-mode, asynchronous, lockless NVMe driver for storage acceleration on the backend.

Other deployer impact

Deployers can call SPDK from the nodes which have installed SPDK after the driver has been implemented.

Developer impact

None

Implementation

Assignee(s)

Primary assignee:
luwei he <heluwei@huawei.com>

Work Items

  • Implement the cyborg-spdk-driver in this spec.
  • Propose SPDK to py-spdk. The py-spdk is designed as a SPDK client which provides the python binding.

Dependencies

  • Cyborg API Spec
  • Cyborg Agent Spec
  • Cyborg Driver Spec
  • Cyborg Conductor Spec

Testing

  • Unit tests will be added to test Cyborg SPDK driver.
  • Functional tests will be added to test Cyborg SPDK driver. For example: discover–>list–>attach,whether the workflow can be passed successfully.

Documentation Impact

Document SPDK driver in the Cyborg project

References

  • Cyborg API Spec
  • Cyborg Agent Spec
  • Cyborg Driver Spec
  • Cyborg Conductor Spec

History

Revisions
Release Description
Queens Introduced
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