Introduce a new helper framework for buffer synchronization

Daniel Vetter daniel at ffwll.ch
Mon May 20 17:13:04 EDT 2013


On Sat, May 18, 2013 at 03:47:43PM +0900, Inki Dae wrote:
> 2013/5/15 Rob Clark <robdclark at gmail.com>
> 
> > On Wed, May 15, 2013 at 1:19 AM, Inki Dae <inki.dae at samsung.com> wrote:
> > >
> > >
> > >> -----Original Message-----
> > >> From: Rob Clark [mailto:robdclark at gmail.com]
> > >> Sent: Tuesday, May 14, 2013 10:39 PM
> > >> To: Inki Dae
> > >> Cc: linux-fbdev; DRI mailing list; Kyungmin Park; myungjoo.ham; YoungJun
> > >> Cho; linux-arm-kernel at lists.infradead.org; linux-media at vger.kernel.org
> > >> Subject: Re: Introduce a new helper framework for buffer synchronization
> > >>
> > >> On Mon, May 13, 2013 at 10:52 PM, Inki Dae <inki.dae at samsung.com>
> > wrote:
> > >> >> well, for cache management, I think it is a better idea.. I didn't
> > >> >> really catch that this was the motivation from the initial patch, but
> > >> >> maybe I read it too quickly.  But cache can be decoupled from
> > >> >> synchronization, because CPU access is not asynchronous.  For
> > >> >> userspace/CPU access to buffer, you should:
> > >> >>
> > >> >>   1) wait for buffer
> > >> >>   2) prepare-access
> > >> >>   3)  ... do whatever cpu access to buffer ...
> > >> >>   4) finish-access
> > >> >>   5) submit buffer for new dma-operation
> > >> >>
> > >> >
> > >> >
> > >> > For data flow from CPU to DMA device,
> > >> > 1) wait for buffer
> > >> > 2) prepare-access (dma_buf_begin_cpu_access)
> > >> > 3) cpu access to buffer
> > >> >
> > >> >
> > >> > For data flow from DMA device to CPU
> > >> > 1) wait for buffer
> > >>
> > >> Right, but CPU access isn't asynchronous (from the point of view of
> > >> the CPU), so there isn't really any wait step at this point.  And if
> > >> you do want the CPU to be able to signal a fence from userspace for
> > >> some reason, you probably what something file/fd based so the
> > >> refcnting/cleanup when process dies doesn't leave some pending DMA
> > >> action wedged.  But I don't really see the point of that complexity
> > >> when the CPU access isn't asynchronous in the first place.
> > >>
> > >
> > > There was my missing comments, please see the below sequence.
> > >
> > > For data flow from CPU to DMA device and then from DMA device to CPU,
> > > 1) wait for buffer <- at user side - ioctl(fd, DMA_BUF_GET_FENCE, ...)
> > >         - including prepare-access (dma_buf_begin_cpu_access)
> > > 2) cpu access to buffer
> > > 3) wait for buffer <- at device driver
> > >         - but CPU is already accessing the buffer so blocked.
> > > 4) signal <- at user side - ioctl(fd, DMA_BUF_PUT_FENCE, ...)
> > > 5) the thread, blocked at 3), is waked up by 4).
> > >         - and then finish-access (dma_buf_end_cpu_access)
> >
> > right, I understand you can have background threads, etc, in
> > userspace.  But there are already plenty of synchronization primitives
> > that can be used for cpu->cpu synchronization, either within the same
> > process or between multiple processes.  For cpu access, even if it is
> > handled by background threads/processes, I think it is better to use
> > the traditional pthreads or unix synchronization primitives.  They
> > have existed forever, they are well tested, and they work.
> >
> > So while it seems nice and orthogonal/clean to couple cache and
> > synchronization and handle dma->cpu and cpu->cpu and cpu->dma in the
> > same generic way, but I think in practice we have to make things more
> > complex than they otherwise need to be to do this.  Otherwise I think
> > we'll be having problems with badly behaved or crashing userspace.
> >
> >
> Right, this is very important. I think it's not esay to solve this
> issue. Aand at least for ARM based embedded system, such feature is useful
> to us; coupling cache operation and buffer synchronization. I'd like to
> collect other opinions and advices to solve this issue.

Maybe we have a bit a misunderstanding here. The kernel really should take
care of sync and cache coherency, and I agree that with the current
dma_buf code (and the proposed fences) that part is still a bit hazy. But
the kernel should not allow userspace to block access to a buffer until
userspace is done. It should only sync with any oustanding fences and
flush buffers before that userspace access happens.

Then the kernel would again flush caches on the next dma access (which
hopefully is only started once userspace completed access). Atm this isn't
possible in an efficient way since the dma_buf api only exposes map/unmap
attachment and not a function to just sync an existing mapping like
dma_sync_single_for_device. I guess we should add a
dma_buf_sync_attachment interface for that - we already have range-based
cpu sync support with the begin/end_cpu_access interfaces.

Yours, Daniel
-- 
Daniel Vetter
Software Engineer, Intel Corporation
+41 (0) 79 365 57 48 - http://blog.ffwll.ch



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