Hi Danilo, On Tue, 20 Jun 2023 14:46:07 +0200 Danilo Krummrich <dakr@xxxxxxxxxx> wrote: > > The only thing I'm worried about is the 'sync mapping requests have to > > go through the async path and wait for all previous async requests to > > be processed' problem I mentioned in one of your previous submission, > > but I'm happy leave that for later. > > Yes, I'm aware of this limitation. > > Let me quickly try to explain where this limitation comes from and how I > intend to address it. > > In order to be able to allocate the required page tables for a mapping > request and in order to free corresponding page tables once the (async) > job finished I need to know the corresponding sequence of operations > (drm_gpuva_ops) to fulfill the mapping request. > > This requires me to update the GPUVA space in the ioctl() rather than in > the async stage, because otherwise I would need to wait for previous > jobs to finish before being able to submit subsequent jobs to the job > queue, since I need an up to date view of the GPUVA space in order to > calculate the sequence of operations to fulfill a mapping request. > > As a consequence all jobs need to be processed in the order they were > submitted, including synchronous jobs. > > @Matt: I think you will have the same limitation with synchronous jobs > as your implementation in XE should be similar? > > In order to address it I want to switch to using callbacks rather than > 'pre-allocated' drm_gpuva_ops and update the GPUVA space within the > asynchronous stage. > This would allow me to 'fit' synchronous jobs > between jobs waiting in the async job queue. However, to do this I have > to re-work how the page table handling in Nouveau is implemented, since > this would require me to be able to manage the page tables without > knowing the exact sequence of operations to fulfill a mapping request. Ok, so I think that's more or less what we're trying to do right now in PowerVR. - First, we make sure we reserve enough MMU page tables for a given map operation to succeed no matter the VM state in the VM_BIND job submission path (our VM_BIND ioctl). That means we're always over-provisioning and returning unused memory back when the operation is done if we end up using less memory. - We pre-allocate for the mapple-tree insertions. - Then we map using drm_gpuva_sm_map() and the callbacks we provided in the drm_sched::run_job() path. We guarantee that no memory is allocated in that path thanks to the pre-allocation/reservation we've done at VM_BIND job submission time. The problem I see with this v5 is that: 1/ We now have a dma_resv_lock_held() in drm_gpuva_{link,unlink}(), which, in our case, is called in the async drm_sched::run_job() path, and we don't hold the lock in that path (it's been released just after the job submission). 2/ I'm worried that Liam's plan to only reserve what's actually needed based on the mapple tree state is going to play against us, because the mapple-tree is only modified at job exec time, and we might have several unmaps happening between the moment we created and queued the jobs, and the moment they actually get executed, meaning the mapple-tree reservation might no longer fit the bill. For issue #1, it shouldn't be to problematic if we use a regular lock to insert to/remove from the GEM gpuva list. For issue #2, I can see a way out if, instead of freeing gpuva nodes, we flag those as unused when we see that something happening later in the queue is going to map a section being unmapped. All of this implies keeping access to already queued VM_BIND jobs (using the spsc queue at the entity level is not practical), and iterating over them every time a new sync or async job is queued to flag what needs to be retained. It would obviously be easier if we could tell the mapple-tree API 'provision as if the tree was empty', so all we have to do is just over-provision for both the page tables and mapple-tree insertion, and free the unused mem when the operation is done. Don't know if you already thought about that and/or have solutions to solve these issues. Regards, Boris