[Mesa-dev] Linux Graphics Next: Userspace submission update
Christian König
ckoenig.leichtzumerken at gmail.com
Mon May 31 08:25:36 UTC 2021
Yes, exactly that's my thinking and also the reason why I'm pondering so
hard on the requirement that the memory for shared user fences should
not be modifiable by userspace directly.
Christian.
Am 29.05.21 um 05:33 schrieb Marek Olšák:
> My first email can be ignored except for the sync files. Oh well.
>
> I think I see what you mean, Christian. If we assume that an imported
> fence is always read only (the buffer with the sequence number is read
> only), only the process that created and exported the fence can signal
> it. If the fence is not signaled, the exporting process is guilty. The
> only thing the importing process must do when it's about to use the
> fence as a dependency is to notify the kernel about it. Thus, the
> kernel will always know the dependency graph. Then if the importing
> process times out, the kernel will blame any of the processes that
> passed it a fence that is still unsignaled. The kernel will blame the
> process that timed out only if all imported fences have been signaled.
> It seems pretty robust.
>
> It's the same with implicit sync except that the buffer with the
> sequence number is writable. Any process that has an implicitly-sync'd
> buffer can set the sequence number to 0 or UINT64_MAX. 0 will cause a
> timeout for the next job, while UINT64_MAX might cause a timeout a
> little later. The timeout can be mitigated by the kernel because the
> kernel knows the greatest number that should be there, but it's not
> possible to know which process is guilty (all processes holding the
> buffer handle would be suspects).
>
> Marek
>
> On Fri, May 28, 2021 at 6:25 PM Marek Olšák <maraeo at gmail.com
> <mailto:maraeo at gmail.com>> wrote:
>
> If both implicit and explicit synchronization are handled the
> same, then the kernel won't be able to identify the process that
> caused an implicit sync deadlock. The process that is stuck
> waiting for a fence can be innocent, and the kernel can't punish
> it. Likewise, the GPU reset guery that reports which process is
> guilty and innocent will only be able to report unknown. Is that OK?
>
> Marek
>
> On Fri, May 28, 2021 at 10:41 AM Christian König
> <ckoenig.leichtzumerken at gmail.com
> <mailto:ckoenig.leichtzumerken at gmail.com>> wrote:
>
> Hi Marek,
>
> well I don't think that implicit and explicit synchronization
> needs to be mutual exclusive.
>
> What we should do is to have the ability to transport an
> synchronization object with each BO.
>
> Implicit and explicit synchronization then basically become
> the same, they just transport the synchronization object
> differently.
>
> The biggest problem are the sync_files for Android, since they
> are really not easy to support at all. If Android wants to
> support user queues we would probably have to do some changes
> there.
>
> Regards,
> Christian.
>
> Am 27.05.21 um 23:51 schrieb Marek Olšák:
>> Hi,
>>
>> Since Christian believes that we can't deadlock the kernel
>> with some changes there, we just need to make everything nice
>> for userspace too. Instead of explaining how it will work, I
>> will explain the cases where future hardware (and its kernel
>> driver) will break existing userspace in order to protect
>> everybody from deadlocks. Anything that uses implicit sync
>> will be spared, so X and Wayland will be fine, assuming they
>> don't import/export fences. Those use cases that do
>> import/export fences might or might not work, depending on
>> how the fences are used.
>>
>> One of the necessities is that all fences will become future
>> fences. The semantics of imported/exported fences will change
>> completely and will have new restrictions on the usage. The
>> restrictions are:
>>
>>
>> 1) Android sync files will be impossible to support, so won't
>> be supported. (they don't allow future fences)
>>
>>
>> 2) Implicit sync and explicit sync will be mutually exclusive
>> between process. A process can either use one or the other,
>> but not both. This is meant to prevent a deadlock condition
>> with future fences where any process can malevolently
>> deadlock execution of any other process, even execution of a
>> higher-privileged process. The kernel will impose the
>> following restrictions to protect against the deadlock:
>>
>> a) a process with an implicitly-sync'd imported/exported
>> buffer can't import/export a fence from/to another process
>> b) a process with an imported/exported fence can't
>> import/export an implicitly-sync'd buffer from/to another process
>>
>> Alternative: A higher-privileged process could enforce both
>> restrictions instead of the kernel to protect itself from the
>> deadlock, but this would be a can of worms for existing
>> userspace. It would be better if the kernel just broke unsafe
>> userspace on future hw, just like sync files.
>>
>> If both implicit and explicit sync are allowed to occur
>> simultaneously, sending a future fence that will never signal
>> to any process will deadlock that process after it acquires
>> the implicit sync lock, which is a sequence number that the
>> process is required to write to memory and send an interrupt
>> from the GPU in a finite time. This is how the deadlock can
>> happen:
>>
>> * The process gets sequence number N from the kernel for an
>> implicitly-sync'd buffer.
>> * The process inserts (into the GPU user-mapped queue) a wait
>> for sequence number N-1.
>> * The process inserts a wait for a fence, but it doesn't know
>> that it will never signal ==> deadlock.
>> ...
>> * The process inserts a command to write sequence number N to
>> a predetermined memory location. (which will make the buffer
>> idle and send an interrupt to the kernel)
>> ...
>> * The kernel will terminate the process because it has never
>> received the interrupt. (i.e. a less-privileged process just
>> killed a more-privileged process)
>>
>> It's the interrupt for implicit sync that never arrived that
>> caused the termination, and the only way another process can
>> cause it is by sending a fence that will never signal. Thus,
>> importing/exporting fences from/to other processes can't be
>> allowed simultaneously with implicit sync.
>>
>>
>> 3) Compositors (and other privileged processes, and display
>> flipping) can't trust imported/exported fences. They need a
>> timeout recovery mechanism from the beginning, and the
>> following are some possible solutions to timeouts:
>>
>> a) use a CPU wait with a small absolute timeout, and display
>> the previous content on timeout
>> b) use a GPU wait with a small absolute timeout, and
>> conditional rendering will choose between the latest content
>> (if signalled) and previous content (if timed out)
>>
>> The result would be that the desktop can run close to 60 fps
>> even if an app runs at 1 fps.
>>
>> *Redefining imported/exported fences and breaking some
>> users/OSs is the only way to have userspace GPU command
>> submission, and the deadlock example here is the
>> counterexample proving that there is no other way.*
>>
>> So, what are the chances this is going to fly with the ecosystem?
>>
>> Thanks,
>> Marek
>
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