Re: ublk-qcow2: ublk-qcow2 is available

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On 10/5/22 14:21, Stefan Hajnoczi wrote:
On Wed, 5 Oct 2022 at 00:19, Ming Lei <tom.leiming@xxxxxxxxx> wrote:
On Tue, Oct 04, 2022 at 09:53:32AM -0400, Stefan Hajnoczi wrote:
On Tue, 4 Oct 2022 at 05:44, Ming Lei <tom.leiming@xxxxxxxxx> wrote:
On Mon, Oct 03, 2022 at 03:53:41PM -0400, Stefan Hajnoczi wrote:
On Fri, Sep 30, 2022 at 05:24:11PM +0800, Ming Lei wrote:
ublk-qcow2 is available now.
Cool, thanks for sharing!

So far it provides basic read/write function, and compression and snapshot
aren't supported yet. The target/backend implementation is completely
based on io_uring, and share the same io_uring with ublk IO command
handler, just like what ublk-loop does.

Follows the main motivations of ublk-qcow2:

- building one complicated target from scratch helps libublksrv APIs/functions
   become mature/stable more quickly, since qcow2 is complicated and needs more
   requirement from libublksrv compared with other simple ones(loop, null)

- there are several attempts of implementing qcow2 driver in kernel, such as
   ``qloop`` [2], ``dm-qcow2`` [3] and ``in kernel qcow2(ro)`` [4], so ublk-qcow2
   might useful be for covering requirement in this field

- performance comparison with qemu-nbd, and it was my 1st thought to evaluate
   performance of ublk/io_uring backend by writing one ublk-qcow2 since ublksrv
   is started

- help to abstract common building block or design pattern for writing new ublk
   target/backend

So far it basically passes xfstest(XFS) test by using ublk-qcow2 block
device as TEST_DEV, and kernel building workload is verified too. Also
soft update approach is applied in meta flushing, and meta data
integrity is guaranteed, 'make test T=qcow2/040' covers this kind of
test, and only cluster leak is reported during this test.

The performance data looks much better compared with qemu-nbd, see
details in commit log[1], README[5] and STATUS[6]. And the test covers both
empty image and pre-allocated image, for example of pre-allocated qcow2
image(8GB):

- qemu-nbd (make test T=qcow2/002)
Single queue?
Yeah.

     randwrite(4k): jobs 1, iops 24605
     randread(4k): jobs 1, iops 30938
     randrw(4k): jobs 1, iops read 13981 write 14001
     rw(512k): jobs 1, iops read 724 write 728
Please try qemu-storage-daemon's VDUSE export type as well. The
command-line should be similar to this:

   # modprobe virtio_vdpa # attaches vDPA devices to host kernel
Not found virtio_vdpa module even though I enabled all the following
options:

         --- vDPA drivers
           <M>   vDPA device simulator core
           <M>     vDPA simulator for networking device
           <M>     vDPA simulator for block device
           <M>   VDUSE (vDPA Device in Userspace) support
           <M>   Intel IFC VF vDPA driver
           <M>   Virtio PCI bridge vDPA driver
           <M>   vDPA driver for Alibaba ENI

BTW, my test environment is VM and the shared data is done in VM too, and
can virtio_vdpa be used inside VM?
I hope Xie Yongji can help explain how to benchmark VDUSE.

virtio_vdpa is available inside guests too. Please check that
VIRTIO_VDPA ("vDPA driver for virtio devices") is enabled in "Virtio
drivers" menu.

   # modprobe vduse
   # qemu-storage-daemon \
       --blockdev file,filename=test.qcow2,cache.direct=of|off,aio=native,node-name=file \
       --blockdev qcow2,file=file,node-name=qcow2 \
       --object iothread,id=iothread0 \
       --export vduse-blk,id=vduse0,name=vduse0,num-queues=$(nproc),node-name=qcow2,writable=on,iothread=iothread0
   # vdpa dev add name vduse0 mgmtdev vduse

A virtio-blk device should appear and xfstests can be run on it
(typically /dev/vda unless you already have other virtio-blk devices).

Afterwards you can destroy the device using:

   # vdpa dev del vduse0

- ublk-qcow2 (make test T=qcow2/022)
There are a lot of other factors not directly related to NBD vs ublk. In
order to get an apples-to-apples comparison with qemu-* a ublk export
type is needed in qemu-storage-daemon. That way only the difference is
the ublk interface and the rest of the code path is identical, making it
possible to compare NBD, VDUSE, ublk, etc more precisely.
Maybe not true.

ublk-qcow2 uses io_uring to handle all backend IO(include meta IO) completely,
and so far single io_uring/pthread is for handling all qcow2 IOs and IO
command.
qemu-nbd doesn't use io_uring to handle the backend IO, so we don't
I tried to use it via --aio=io_uring for setting up qemu-nbd, but not succeed.

know whether the benchmark demonstrates that ublk is faster than NBD,
that the ublk-qcow2 implementation is faster than qemu-nbd's qcow2,
whether there are miscellaneous implementation differences between
ublk-qcow2 and qemu-nbd (like using the same io_uring context for both
ublk and backend IO), or something else.
The theory shouldn't be too complicated:

1) io uring passthough(pt) communication is fast than socket, and io command
is carried over io_uring pt commands, and should be fast than virio
communication too.

2) io uring io handling is fast than libaio which is taken in the
test on qemu-nbd, and all qcow2 backend io(include meta io) is handled
by io_uring.

https://github.com/ming1/ubdsrv/blob/master/tests/common/qcow2_common

3) ublk uses one single io_uring to handle all io commands and qcow2
backend IOs, so batching handling is common, and it is easy to see
dozens of IOs/io commands handled in single syscall, or even more.
I agree with the theory but theory has to be tested through
experiments in order to validate it. We can all learn from systematic
performance analysis - there might even be bottlenecks in ublk that
can be solved to improve performance further.

I'm suggesting measuring changes to just 1 variable at a time.
Otherwise it's hard to reach a conclusion about the root cause of the
performance difference. Let's learn why ublk-qcow2 performs well.
Turns out the latest Fedora 37-beta doesn't support vdpa yet, so I built
qemu from the latest github tree, and finally it starts to work. And test kernel
is v6.0 release.

Follows the test result, and all three devices are setup as single
queue, and all tests are run in single job, still done in one VM, and
the test images are stored on XFS/virito-scsi backed SSD.

The 1st group tests all three block device which is backed by empty
qcow2 image.

The 2nd group tests all the three block devices backed by pre-allocated
qcow2 image.

Except for big sequential IO(512K), there is still not small gap between
vdpa-virtio-blk and ublk.

1. run fio on block device over empty qcow2 image
1) qemu-nbd
running qcow2/001
run perf test on empty qcow2 image via nbd
         fio (nbd(/mnt/data/ublk_null_8G_nYbgF.qcow2), libaio, bs 4k, dio, hw queues:1)...
         randwrite: jobs 1, iops 8549
         randread: jobs 1, iops 34829
         randrw: jobs 1, iops read 11363 write 11333
         rw(512k): jobs 1, iops read 590 write 597


2) ublk-qcow2
running qcow2/021
run perf test on empty qcow2 image via ublk
         fio (ublk/qcow2( -f /mnt/data/ublk_null_8G_s761j.qcow2), libaio, bs 4k, dio, hw queues:1, uring_comp: 0, get_data: 0).
         randwrite: jobs 1, iops 16086
         randread: jobs 1, iops 172720
         randrw: jobs 1, iops read 35760 write 35702
         rw(512k): jobs 1, iops read 1140 write 1149

3) vdpa-virtio-blk
running debug/test_dev
run io test on specified device
         fio (vdpa(/dev/vdc), libaio, bs 4k, dio, hw queues:1)...
         randwrite: jobs 1, iops 8626
         randread: jobs 1, iops 126118
         randrw: jobs 1, iops read 17698 write 17665
         rw(512k): jobs 1, iops read 1023 write 1031


2. run fio on block device over pre-allocated qcow2 image
1) qemu-nbd
running qcow2/002
run perf test on pre-allocated qcow2 image via nbd
         fio (nbd(/mnt/data/ublk_data_8G_sc0SB.qcow2), libaio, bs 4k, dio, hw queues:1)...
         randwrite: jobs 1, iops 21439
         randread: jobs 1, iops 30336
         randrw: jobs 1, iops read 11476 write 11449
         rw(512k): jobs 1, iops read 718 write 722

2) ublk-qcow2
running qcow2/022
run perf test on pre-allocated qcow2 image via ublk
         fio (ublk/qcow2( -f /mnt/data/ublk_data_8G_yZiaJ.qcow2), libaio, bs 4k, dio, hw queues:1, uring_comp: 0, get_data: 0).
         randwrite: jobs 1, iops 98757
         randread: jobs 1, iops 110246
         randrw: jobs 1, iops read 47229 write 47161
         rw(512k): jobs 1, iops read 1416 write 1427

3) vdpa-virtio-blk
running debug/test_dev
run io test on specified device
         fio (vdpa(/dev/vdc), libaio, bs 4k, dio, hw queues:1)...
         randwrite: jobs 1, iops 47317
         randread: jobs 1, iops 74092
         randrw: jobs 1, iops read 27196 write 27234
         rw(512k): jobs 1, iops read 1447 write 1458
Thanks for including VDUSE results! ublk looks great here and worth
considering even in cases where NBD or VDUSE is already being used.

Stefan
+ Andrey Zhadchenko



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