On 2020-07-22 13:39, Daniel Vetter wrote:
On Wed, Jul 22, 2020 at 12:31 PM Thomas Hellström (Intel) thomas_os@shipmail.org wrote:
On 2020-07-22 11:45, Daniel Vetter wrote:
On Wed, Jul 22, 2020 at 10:05 AM Thomas Hellström (Intel) thomas_os@shipmail.org wrote:
On 2020-07-22 09:11, Daniel Vetter wrote:
On Wed, Jul 22, 2020 at 8:45 AM Thomas Hellström (Intel) thomas_os@shipmail.org wrote:
On 2020-07-22 00:45, Dave Airlie wrote: > On Tue, 21 Jul 2020 at 18:47, Thomas Hellström (Intel) > thomas_os@shipmail.org wrote: >> On 7/21/20 9:45 AM, Christian König wrote: >>> Am 21.07.20 um 09:41 schrieb Daniel Vetter: >>>> On Mon, Jul 20, 2020 at 01:15:17PM +0200, Thomas Hellström (Intel) >>>> wrote: >>>>> Hi, >>>>> >>>>> On 7/9/20 2:33 PM, Daniel Vetter wrote: >>>>>> Comes up every few years, gets somewhat tedious to discuss, let's >>>>>> write this down once and for all. >>>>>> >>>>>> What I'm not sure about is whether the text should be more explicit in >>>>>> flat out mandating the amdkfd eviction fences for long running compute >>>>>> workloads or workloads where userspace fencing is allowed. >>>>> Although (in my humble opinion) it might be possible to completely >>>>> untangle >>>>> kernel-introduced fences for resource management and dma-fences used >>>>> for >>>>> completion- and dependency tracking and lift a lot of restrictions >>>>> for the >>>>> dma-fences, including prohibiting infinite ones, I think this makes >>>>> sense >>>>> describing the current state. >>>> Yeah I think a future patch needs to type up how we want to make that >>>> happen (for some cross driver consistency) and what needs to be >>>> considered. Some of the necessary parts are already there (with like the >>>> preemption fences amdkfd has as an example), but I think some clear docs >>>> on what's required from both hw, drivers and userspace would be really >>>> good. >>> I'm currently writing that up, but probably still need a few days for >>> this. >> Great! I put down some (very) initial thoughts a couple of weeks ago >> building on eviction fences for various hardware complexity levels here: >> >> https://gitlab.freedesktop.org/thomash/docs/-/blob/master/Untangling%20dma-f... > We are seeing HW that has recoverable GPU page faults but only for > compute tasks, and scheduler without semaphores hw for graphics. > > So a single driver may have to expose both models to userspace and > also introduces the problem of how to interoperate between the two > models on one card. > > Dave. Hmm, yes to begin with it's important to note that this is not a replacement for new programming models or APIs, This is something that takes place internally in drivers to mitigate many of the restrictions that are currently imposed on dma-fence and documented in this and previous series. It's basically the driver-private narrow completions Jason suggested in the lockdep patches discussions implemented the same way as eviction-fences.
The memory fence API would be local to helpers and middle-layers like TTM, and the corresponding drivers. The only cross-driver-like visibility would be that the dma-buf move_notify() callback would not be allowed to wait on dma-fences or something that depends on a dma-fence.
Because we can't preempt (on some engines at least) we already have the requirement that cross driver buffer management can get stuck on a dma-fence. Not even taking into account the horrors we do with userptr, which are cross driver no matter what. Limiting move_notify to memory fences only doesn't work, since the pte clearing might need to wait for a dma_fence first. Hence this becomes a full end-of-batch fence, not just a limited kernel-internal memory fence.
For non-preemptible hardware the memory fence typically *is* the end-of-batch fence. (Unless, as documented, there is a scheduler consuming sync-file dependencies in which case the memory fence wait needs to be able to break out of that). The key thing is not that we can break out of execution, but that we can break out of dependencies, since when we're executing all dependecies (modulo semaphores) are already fulfilled. That's what's eliminating the deadlocks.
That's kinda why I think only reasonable option is to toss in the towel and declare dma-fence to be the memory fence (and suck up all the consequences of that decision as uapi, which is kinda where we are), and construct something new&entirely free-wheeling for userspace fencing. But only for engines that allow enough preempt/gpu page faulting to make that possible. Free wheeling userspace fences/gpu semaphores or whatever you want to call them (on windows I think it's monitored fence) only work if you can preempt to decouple the memory fences from your gpu command execution.
There's the in-between step of just decoupling the batchbuffer submission prep for hw without any preempt (but a scheduler), but that seems kinda pointless. Modern execbuf should be O(1) fastpath, with all the allocation/mapping work pulled out ahead. vk exposes that model directly to clients, GL drivers could use it internally too, so I see zero value in spending lots of time engineering very tricky kernel code just for old userspace. Much more reasonable to do that in userspace, where we have real debuggers and no panics about security bugs (or well, a lot less, webgl is still a thing, but at least browsers realized you need to container that completely).
Sure, it's definitely a big chunk of work. I think the big win would be allowing memory allocation in dma-fence critical sections. But I completely buy the above argument. I just wanted to point out that many of the dma-fence restrictions are IMHO fixable, should we need to do that for whatever reason.
I'm still not sure that's possible, without preemption at least. We have 4 edges:
- Kernel has internal depencies among memory fences. We want that to
allow (mild) amounts of overcommit, since that simplifies live so much.
- Memory fences can block gpu ctx execution (by nature of the memory
simply not being there yet due to our overcommit)
- gpu ctx have (if we allow this) userspace controlled semaphore
dependencies. Of course userspace is expected to not create deadlocks, but that's only assuming the kernel doesn't inject additional dependencies. Compute folks really want that.
- gpu ctx can hold up memory allocations if all we have is
end-of-batch fences. And end-of-batch fences are all we have without preempt, plus if we want backwards compat with the entire current winsys/compositor ecosystem we need them, which allows us to inject stuff dependent upon them pretty much anywhere.
Fundamentally that's not fixable without throwing one of the edges (and the corresponding feature that enables) out, since no entity has full visibility into what's going on. E.g. forcing userspace to tell the kernel about all semaphores just brings up back to the drm_timeline_syncobj design we have merged right now. And that's imo no better.
Indeed, HW waiting for semaphores without being able to preempt that wait is a no-go. The doc (perhaps naively) assumes nobody is doing that.
preempt is a necessary but not sufficient condition, you also must not have end-of-batch memory fences. And i915 has semaphore support and end-of-batch memory fences, e.g. one piece is:
commit c4e8ba7390346a77ffe33ec3f210bc62e0b6c8c6 Author: Chris Wilson chris@chris-wilson.co.uk Date: Tue Apr 7 14:08:11 2020 +0100
drm/i915/gt: Yield the timeslice if caught waiting on a user semaphore
Sure it preempts, but that's not enough.
Yes, i915 would fall in the "hardware with semaphores" category and implement memory fences different from the end-of-batch fences.
That's kinda why I'm not seeing much benefits in a half-way state: Tons of work, and still not what userspace wants. And for the full deal that userspace wants we might as well not change anything with dma-fences. For that we need a) ctx preempt and b) new entirely decoupled fences that never feed back into a memory fences and c) are controlled entirely by userspace. And c) is the really important thing people want us to provide.
And once we're ok with dma_fence == memory fences, then enforcing the strict and painful memory allocation limitations is actually what we want.
Let's hope you're right. My fear is that that might be pretty painful as well.
Oh it's very painful too:
- We need a separate uapi flavour for gpu ctx with preempt instead of
end-of-batch dma-fence.
- Which needs to be implemented without breaking stuff badly - e.g. we
need to make sure we don't probe-wait on fences unnecessarily since that forces random unwanted preempts.
- If we want this with winsys integration we need full userspace
revisions since all the dma_fence based sync sharing is out (implicit sync on dma-buf, sync_file, drm_syncobj are all defunct since we can only go the other way round). Utter pain, but I think it's better since it can be done driver-by-driver, and even userspace usecase by usecase. Which means we can experiment in areas where the 10+ years of uapi guarantee isn't so painful, learn, until we do the big jump of new zero-interaction-with-memory-management fences become baked in forever into compositor/winsys/modeset protocols. With the other approach of splitting dma-fence we need to do all the splitting first, make sure we get it right, and only then can we enable the use-case for real.
Again, let me stress, I'm not advocating for splitting the dma-fence in favour of the preempt ctx approach. My question is rather: Do we see the need for fixing dma-fence as well, with the motivation that fixing all drivers to adhere to the dma-fence restrictions might be just as painful. So far the clear answer is no, it's not worth it, and I'm fine with that.
That's just not going to happen, at least not in upstream across all drivers. Within a single driver in some vendor tree hacking stuff up is totally fine ofc.
Actually, due to the asynchronous restart, that's not really possible either. It's all or none.
-Daniel
/Thomas