Skip to content

Latest commit

 

History

History
70 lines (56 loc) · 2.62 KB

block-caching.md

File metadata and controls

70 lines (56 loc) · 2.62 KB

Block device caching strategies

Firecracker offers the possiblity of choosing the block device caching strategy. Caching strategy affects the path data written from inside the microVM takes to the host persistent storage.

How it works

When installing a block device through a PUT /drives API call, users can choose the caching strategy by inserting a cache_type field in the JSON body of the request. The available cache types are:

  • Unsafe
  • Writeback

Unsafe mode (default)

When configuring the block caching strategy to Unsafe, the device will advertise the VirtIO flush feature to the guest driver. If negotiated when activating the device, the guest driver will be able to send flush requests to the device, but the device will just acknowledge the request without actually performing any flushing on the host side. The data which was not yet committed to disk will continue to reside in the host page cache.

Writeback mode

When configuring the block caching strategy to Writeback, the device will advertise the VirtIO flush feature to the guest driver. If negotiated when activating the device, the guest driver will be able to send flush requests to the device. When the device executes a flush request, it will perform an fsync syscall on the backing block file, committing all data in the host page cache to disk.

Supported use cases

The caching strategy should be used in order to make a trade-off:

  • Unsafe
    • enhances performance as fewer syscalls and IO operations are performed when running workloads
    • sacrifices data integrity in situations where the host simply loses the contents of the page cache without committing them to the backing storage (such as a power outage)
    • recommended for use cases with ephemeral storage, such as serverless environments
  • Writeback
    • ensures that once a flush request was acknowledged by the host, the data is committed to the backing storage
    • sacrifices performance, from boot time increases to greater emulation-related latencies when running workloads
    • recommended for use cases with low power environments, such as embedded environments

How to configure it

Example sequence that configures a block device with a caching strategy:

curl --unix-socket ${socket} -i \
     -X PUT "http://localhost/drives/dummy" \
     -H "accept: application/json" \
     -H "Content-Type: application/json" \
     -d "{
             \"drive_id\": \"dummy\",
             \"path_on_host\": \"${drive_path}\",
             \"is_root_device\": false,
             \"is_read_only\": false,
             \"cache_type\": \"Writeback\"
         }"