Re: [RFC] libubd: library for ubd(userspace block driver based on io_uring passthrough)
From: Ming Lei
Date: Thu Jun 30 2022 - 07:45:46 EST
On Thu, Jun 30, 2022 at 05:29:07PM +0800, Ziyang Zhang wrote:
> On 2022/6/30 17:09, Ming Lei wrote:
> > On Thu, Jun 30, 2022 at 03:16:21PM +0800, Ziyang Zhang wrote:
> >> Hi, Ming
> >>
> >> On 2022/6/29 19:33, Ming Lei wrote:
> >>> On Wed, Jun 29, 2022 at 11:22:23AM +0800, Ziyang Zhang wrote:
> >>>> Hi Ming,
> >>>>
> >>>> On 2022/6/27 23:29, Ming Lei wrote:
> >>>>> Hi Ziyang,
> >>>>>
> >>>>> On Mon, Jun 27, 2022 at 04:20:55PM +0800, Ziyang Zhang wrote:
> >>>>>> Hi Ming,
> >>>>>>
> >>>>>> We are learning your ubd code and developing a library: libubd for ubd.
> >>>>>> This article explains why we need libubd and how we design it.
> >>>>>>
> >>>>>> Related threads:
> >>>>>> (1) https://lore.kernel.org/all/Yk%2Fn7UtGK1vVGFX0@T590/
> >>>>>> (2) https://lore.kernel.org/all/YnDhorlKgOKiWkiz@T590/
> >>>>>> (3) https://lore.kernel.org/all/20220509092312.254354-1-ming.lei@xxxxxxxxxx/
> >>>>>> (4) https://lore.kernel.org/all/20220517055358.3164431-1-ming.lei@xxxxxxxxxx/
> >>>>>>
> >>>>>>
> >>>>>> Userspace block driver(ubd)[1], based on io_uring passthrough,
> >>>>>> allows users to define their own backend storage in userspace
> >>>>>> and provides block devices such as /dev/ubdbX.
> >>>>>> Ming Lei has provided kernel driver code: ubd_drv.c[2]
> >>>>>> and userspace code: ubdsrv[3].
> >>>>>>
> >>>>>> ubd_drv.c simply passes all blk-mq IO requests
> >>>>>> to ubdsrv through io_uring sqes/cqes. We think the kernel code
> >>>>>> is pretty well-designed.
> >>>>>>
> >>>>>> ubdsrv is implemented by a single daemon
> >>>>>> and target(backend) IO handling(null_tgt and loop_tgt)
> >>>>>> is embedded in the daemon.
> >>>>>> While trying ubdsrv, we find ubdsrv is hard to be used
> >>>>>> by our backend.
> >>>>>
> >>>>> ubd is supposed to provide one generic framework for user space block
> >>>>> driver, and it can be used for doing lots of fun/useful thing.
> >>>>>
> >>>>> If I understand correctly, this isn't same with your use case:
> >>>>>
> >>>>> 1) your user space block driver isn't generic, and should be dedicated
> >>>>> for Alibaba's uses
> >>>>>
> >>>>> 2) your case has been there for long time, and you want to switch from other
> >>>>> approach(maybe tcmu) to ubd given ubd has better performance.
> >>>>>
> >>>>
> >>>> Yes, you are correct :)
> >>>> The idea of design libubd is actually from libtcmu.
> >>>>
> >>>> We do have some userspace storage system as the IO handling backend,
> >>>> and we need ubd to provide block drivers such as /dev/ubdbX for up layer client apps.
> >>>>
> >>>>
> >>>> I think your motivation is that provides a complete user block driver to users
> >>>> and they DO NOT change any code.
> >>>> Users DO change their code using libubd for embedding libubd into the backend.
> >>>>
> >>>>
> >>>>>> First is description of our backend:
> >>>>>>
> >>>>>> (1) a distributing system sends/receives IO requests
> >>>>>> through network.
> >>>>>>
> >>>>>> (2) The system use RPC calls among hundreds of
> >>>>>> storage servers and RPC calls are associated with data buffers
> >>>>>> allocated from a memory pool.
> >>>>>>
> >>>>>> (3) On each server for each device(/dev/vdX), our backend runs
> >>>>>> many threads to handle IO requests and manage the device.
> >>>>>>
> >>>>>> Second are reasons why ubdsrv is hard to use for us:
> >>>>>>
> >>>>>> (1) ubdsrv requires the target(backend) issues IO requests
> >>>>>> to the io_uring provided by ubdsrv but our backend
> >>>>>> uses something like RPC and does not support io_uring.
> >>>>>
> >>>>> As one generic framework, the io command has to be io_uring
> >>>>> passthrough, and the io doesn't have to be handled by io_uring.
> >>>>
> >>>> Yes, our backend define its own communicating method.
> >>>>
> >>>>>
> >>>>> But IMO io_uring is much more efficient, so I'd try to make async io
> >>>>> (io uring) as the 1st citizen in the framework, especially for new
> >>>>> driver.
> >>>>>
> >>>>> But it can support other way really, such as use io_uring with eventfd,
> >>>>> the other userspace context can handle io, then wake up io_uring context
> >>>>> via eventfd. You may not use io_uring for handling io, but you still
> >>>>> need to communicate with the context for handling io_uring passthrough
> >>>>> command, and one mechanism(such as eventfd) has to be there for the
> >>>>> communication.
> >>>>
> >>>> Ok, eventfd may be helpful.
> >>>> If you read my API, you may find ubdlib_complete_io_request().
> >>>> I think the backend io worker thread can call this function to tell the
> >>>> ubd queue thread(the io_uring context in it) to commit the IO.
> >>>
> >>> The ubdlib_complete_io_request() has to be called in the same pthread
> >>> context, that looks not flexible. When you handle IO via non-io_uring in the same
> >>> context, the cpu utilization in submission/completion side should be
> >>> higher than io_uring. And this way should be worse than the usage in
> >>> ubd/loop, that is why I suggest to use one io_uring for handling both
> >>> io command and io request if possible.
> >>
> >> ubdlib_complete_io_request() can be called in the io worker thread,
> >> not in the ubdsrv queue thread(with the io_uring context for handling uring_cmd).
> >>
> >> You can find ubd_runner.c in my libubd repo. There are many io worker
> >> threads for each ubdsrv queue to handle IO requests.
> >>
> >> Actually this idea comes from tcmu-runner. The data flow is:
> >>
> >> 1) in ubdsrv queue thread, io_uring_enter(): returns(IO reqs received from blk-mq)
> >>
> >> 2) in ubdsrv queue thread, ubdsrv_reap_requests(): iterate on each cqe(with an IO req),
> >>
> >> for READ/WRITE requests, ubd_aio_queue_io() to enqueue the IO req into a io_queue
> >> (each ubdsrv queue has one io_queue). This IO req's status is IO_HANDLING_ASYNC.
> >>
> >> for other simple(can be handled very quickly),
> >> handle it right now and call ubdlib_complete_io_request()
> >>
> >> 3) in ubdsrv queue thread, ubdsrv_commit_and_fetch(): iterate on all IO slots per ubdsrv queue
> >> and setup sqe if one IO(IO completion) is ready to commit.
> >>
> >> Here, some IO slots are still IO_HANDLING_ASYNC so no sqe is generated for them.
> >>
> >>
> >> 4) in ubdsrv queue thread, io_uring_enter(): submit all sqes and wait for cqes
> >> (io_uring_enter() will return after at least one IO req is received from blk-mq)
> >>
> >> 5) When 3) or 4) happens, at the same time in ubdsrv queue IO worker threads:
> >> each io worker thread try to deque and handle one IO req from io_queue per ubdsrv queue.
> >>
> >> After the IO worker handles the IO req(WRITE/READ), it calls ubdlib_complete_io_request()
> >> This function can mark this IO req's status to ready to commit.
> >>
> >> IO handling/completion and io_uring_enter() can happen at the same time.
> >>
> >> Besides, io_uring_enter can:
> >>
> >> 1) block and wait for cqes until at least
> >> one blk-mq req comes from queue_rq()
> >>
> >> 2) submit sqes(with last IO completion and next fetch)
> >>
> >> so I have to consider how to notify io_uring about io completion
> >> after io_uring_enter() is slept(block and wait for cqes).
> >
> > Yeah, that was exactly my question, :-)
> >
> >>
> >> In current version of ubd_runner(an async libubd target), I try to use an "unblock"
> >> io_uring_enter_timeout() and caller can set a timeout value for it.
> >> So IO completions happen after io_uring_enter_timeout() call can be committed
> >> by next io_uring_enter_timeout() call...
> >>
> >> But this is a very ugly implementation
> >> because I may waste CPU on useless loops in ubdsrv queue thread if
> >> blk-mq reqs do not income frequently.
> >>
> >> You mentioned that eventfd may be helpful and I agree with you. :)
> >> I can register an eventfd in io_uring after ubd_aio_queue_io() and write the eventfd
> >> in ubdlib_complete_io_request().
> >>
> >> I will fix my code.
> >
> > FYI, there is one example about using eventfd to wakeup io_uring, which
> > can be added to the library for your usecase:
> >
> > https://gist.github.com/1Jo1/6496d1b8b6b363c301271340e2eab95b
>
> Thanks, will take a view.
>
> >
> >>
> >>>
> >>>>
> >>>>
> >>>>
> >>>>>
> >>>>>>
> >>>>>> (2) ubdsrv forks a daemon and it takes over everything.
> >>>>>> Users should type "list/stop/del" ctrl-commands to interact with
> >>>>>> the daemon. It is inconvenient for our backend
> >>>>>> because it has threads(from a C++ thread library) running inside.
> >>>>>
> >>>>> No, list/stop/del won't interact with the daemon, and the per-queue
> >>>>> pthread is only handling IO commands(io_uring passthrough) and IO request.
> >>>>>
> >>>>
> >>>>
> >>>> Sorry I made a mistake.
> >>>>
> >>>> I mean from user's view,
> >>>> he has to type list/del/stop from cmdlind to control the daemon.
> >>>> (I know the control flow is cmdline-->ubd_drv.c-->ubdsrv daemon).
> >>>>
> >>>> This is a little weird if we try to make a ubd library.
> >>>> So I actually provides APIs in libubd for users to do these list/del/stop works.
> >>>
> >>> OK, that is fine to export APIs for admin purpose.
> >>>
> >>>>
> >>>>
> >>>>>>
> >>>>>> (3) ubdsrv PRE-allocates internal data buffers for each ubd device.
> >>>>>> The data flow is:
> >>>>>> bio vectors <-1-> ubdsrv data buffer <-2-> backend buffer(our RPC buffer).
> >>>>>> Since ubdsrv does not export its internal data buffer to backend,
> >>>>>> the second copy is unavoidable.
> >>>>>> PRE-allocating data buffer may not be a good idea for wasting memory
> >>>>>> if there are hundreds of ubd devices(/dev/ubdbX).
> >>>>>
> >>>>> The preallocation is just virtual memory, which is cheap and not pinned, but
> >>>>> ubdsrv does support buffer provided by io command, see:
> >>>>>
> >>>>> https://github.com/ming1/linux/commit/0a964a1700e11ba50227b6d633edf233bdd8a07d
> >>>>
> >>>> Actually I discussed on the design of pre-allocation in your RFC patch for ubd_drv
> >>>> but you did not reply :)
> >>>>
> >>>> I paste it here:
> >>>>
> >>>> "I am worried about the fixed-size(size is max io size, 256KiB) pre-allocated data buffers in UBDSRV
> >>>> may consume too much memory. Do you mean these pages can be reclaimed by sth like madvise()?
> >>>> If (1)swap is not set and (2)madvise() is not called, these pages may not be reclaimed."
> >>>>
> >>>> I observed that your ubdsrv use posix_memalign() to pre-allocate data buffers,
> >>>> and I have already noticed the memory cost while testing your ubdsrv with hundreds of /dev/ubdbX.
> >>>
> >>> Usually posix_memalign just allocates virtual memory which is unlimited
> >>> in 64bit arch, and pages should be allocated until the buffer is read or write.
> >>> After the READ/WRITE is done, kernel still can reclaim the pages in this
> >>> virtual memory.
> >>>
> >>> In future, we still may optimize the memory uses via madvise, such as
> >>> MADV_DONTNEED, after the slot is idle for long enough.
> >>
> >> Ok, thanks for explanation.
> >>
> >>>
> >>>>
> >>>> Another IMPORTANT problem is your commit:
> >>>> https://github.com/ming1/linux/commit/0a964a1700e11ba50227b6d633edf233bdd8a07d
> >>>> may be not helpful for WRITE requests if I understand correctly.
> >>>>
> >>>> Consider this data flow:
> >>>>
> >>>> 1. ubdsrv commits an IO req(req1, a READ req).
> >>>>
> >>>> 2. ubdsrv issues a sqe(UBD_IO_COMMIT_AND_FETCH_REQ), and sets io->addr to addr1.
> >>>> addr1 is the addr of buffer user passed.
> >>>>
> >>>>
> >>>> 3. ubd gets the sqe and commits req1, sets io->addr to addr1.
> >>>>
> >>>> 4. ubd gets IO req(req2, a WRITE req) from blk-mq(queue_rq) and commit a cqe.
> >>>>
> >>>> 5. ubd copys data to be written from biovec to addr1 in a task_work.
> >>>>
> >>>> 6. ubdsrv gets the cqe and tell the IO target to handle req2.
> >>>>
> >>>> 7. IO target handles req2. It is a WRITE req so target issues a io_uring write
> >>>> cmd(with buffer set to addr1).
> >>>>
> >>>>
> >>>>
> >>>> The problem happens in 5). You cannot know the actual data_len of an blk-mq req
> >>>> until you get one in queue_rq. So length of addr1 may be less than data_len.
> >>>
> >>> So far, the actual length of buffer has to be set as at least rq_max_blocks, since
> >>> we set it as ubd queue's max hw sectors. Yeah, you may argue memory
> >>> waste, but process virtual address is unlimited for 64bit arch, and
> >>> pages are allocated until actual read/write is started.
> >>
> >> Ok, since I allow users to config rq_max_blocks in libubd,
> >> it's users' responsibility to ensure length of user buffers
> >> is at least rq_max_blocks.
> >>
> >> Now I agree on your commit:
> >> https://github.com/ming1/linux/commit/0a964a1700e11ba50227b6d633edf233bdd8a07d
> >>
> >> Provide WRITE buffer in advance(when sending COMMIT_AND_FETCH) seems OK :)
> >>
> >>>
> >>>>>
> >>>>>>
> >>>>>> To better use ubd in more complicated scenarios, we have developed libubd.
> >>>>>> It does not assume implementation of backend and can be embedded into it.
> >>>>>> We refer to the code structure of tcmu-runner[4],
> >>>>>> which includes a library(libtcmu) for users
> >>>>>> to embed tcmu-runner inside backend's code.
> >>>>>> It:
> >>>>>>
> >>>>>> (1) Does not fork/pthread_create but embedded in backend's threads
> >>>>>
> >>>>> That is because your backend may not use io_uring, I guess.
> >>>>>
> >>>>> But it is pretty easy to move the decision of creating pthread to target
> >>>>> code, which can be done in the interface of .prepare_target().
> >>>>
> >>>> I think the library should not create any thread if we want a libubd.
> >>>
> >>> I Agree.
> >>>
> >>>>
> >>>>>
> >>>>>>
> >>>>>> (2) Provides libubd APIs for backend to add/delete ubd devices
> >>>>>> and fetch/commit IO requests
> >>>>>
> >>>>> The above could be the main job of libubd.
> >>>>
> >>>> indeed.
> >>>>
> >>>>>
> >>>>>>
> >>>>>> (3) simply passes backend-provided data buffers to ubd_drv.c in kernel,
> >>>>>> since the backend actually has no knowledge
> >>>>>> on incoming data size until it gets an IO descriptor.
> >>>>>
> >>>>> I can understand your requirement, not look at your code yet, but libubd
> >>>>> should be pretty thin from function viewpoint, and there are lots of common
> >>>>> things to abstract/share among all drivers, please see recent ubdsrv change:
> >>>>>
> >>>>> https://github.com/ming1/ubdsrv/commits/master
> >>>>>
> >>>>> in which:
> >>>>> - coroutine is added for handling target io
> >>>>> - the target interface(ubdsrv_tgt_type) has been cleaned/improved for
> >>>>> supporting complicated target
> >>>>> - c++ support
> >>>>
> >>>> Yes, I have read your coroutine code but I am not an expert of C++ 20.:(
> >>>> I think it is actually target(backend) design and ubd should not assume
> >>>> how the backend handle IOs.
> >>>>
> >>>> The work ubd in userspace has to be done is:
> >>>>
> >>>> 1) give some IO descriptors to backend, such as ubd_get_io_requests()
> >>>>
> >>>> 2) get IO completion form backend, such as ubd_complete_io_requests()
> >>>
> >>> Or the user provides/registers two callbacks: handle_io_async() and
> >>> io_complete(), the former is called when one request comes from ubd
> >>> driver, the latter(optional) is called when one io is done.
> >>>
> >>> Also you didn't mention how you notify io_uring about io completion after
> >>> io_uring_enter() is slept if your backend code doesn't use io_uring to
> >>> handle io.
> >>>
> >>> I think one communication mechanism(such as eventfd) is needed for your
> >>> case.
> >>
> >> Ok, I will try eventfd with io_uring.
> >>
> >>>
> >>>>
> >>>>
> >>>>
> >>>>>
> >>>>> IMO, libubd isn't worth of one freshly new project, and it could be integrated
> >>>>> into ubdsrv easily. The potential users could be existed usersapce
> >>>>> block driver projects.
> >>>>
> >>>> Yes, so many userspace storage systems can use ubd!
> >>>> You may look at tcmu-runner. It:
> >>>>
> >>>> 1) provides a library(libtcmu.c) for those who have a existing backend.
> >>>>
> >>>> 2) provides a runner(main.c in tcmu-runner) like your ubdsrv
> >>>> for those who just want to run it.
> >>>> And the runner is build on top of libtcmu.
> >>>>
> >>>>>
> >>>>> If you don't object, I am happy to co-work with you to add the support
> >>>>> for libubd in ubdsrv, then we can avoid to invent a wheel
> >>>>
> >>>> +1 :)
> >>>
> >>> Thinking of further, I'd suggest to split ubdsrv into two parts:
> >>>
> >>> 1) libubdsrv
> >>> - provide APIs like what you did in libubd
> >>> - provide API for notify io_uring(handling io command) that one io is
> >>> completed, and the API should support handling IO from other context
> >>> (not same with the io_uring context for handling io command).
> >>>
> >>> 2) ubd target
> >>> - built on libubdsrv, such as ubd command is built on libubdsrv, and
> >>> specific target implementation is built on the library too.
> >>>
> >>> It shouldn't be hard to work towards this direction, and I guess this
> >>> way should make current target implementation more clean.
> >>>
> >>
> >> Yes, this is like tcmu-runner's structure: a libtcmu and some target
> >> Thanks, Ming. Glad to co-work with you.
> >>
> >> I will take your advice and improve libubd(the communication mechanism, maybe eventfd).
> >
> > I have added libublk branch for working towards this direction, if we
> > cowork on libublk, please write patch against this branch, then I can
> > apply your patch directly.
> >
> > https://github.com/ming1/ubdsrv/tree/libublk
>
> Ok, but It concerns me that libubdsrv may change current ubdsrv project's structure a lot
> because:
> 1) target implementation will be built on top of libubdsrv and the target
> should create pthread(ubdsrv loop) itself.
That isn't hard, but ubdsrv project can provide generic target abstract
meantime.
>
> 2) have to remove pthread/process(daemon) in current ubdsrv to build libubdsrv.
> It was really a hard job. :-(
No, the default ubd device created in ubdsrv project still needs the
daemon implementation, but the pthread/process(daemon) can be moved
out of libubd. And it can't affect libubd requirement, can it?
Thanks,
Ming