On Mon, Dec 5, 2011 at 3:23 PM, Daniel Vetter <daniel@xxxxxxxx> wrote: > On Mon, Dec 05, 2011 at 02:46:47PM -0600, Rob Clark wrote: >> On Mon, Dec 5, 2011 at 11:18 AM, Arnd Bergmann <arnd@xxxxxxxx> wrote: >> > In the patch 2, you have a section about migration that mentions that >> > it is possible to export a buffer that can be migrated after it >> > is already mapped into one user driver. How does that work when >> > the physical addresses are mapped into a consumer device already? >> >> I think you can do physical migration if you are attached, but >> probably not if you are mapped. > > Yeah, that's very much how I see this, and also why map/unmap (at least > for simple users like v4l) should only bracket actual usage. GPU memory > managers need to be able to move around buffers while no one is using > them. > > [snip] > >> >> + /* allow allocator to take care of cache ops */ >> >> + void (*sync_sg_for_cpu) (struct dma_buf *, struct device *); >> >> + void (*sync_sg_for_device)(struct dma_buf *, struct device *); >> > >> > I don't see how this works with multiple consumers: For the streaming >> > DMA mapping, there must be exactly one owner, either the device or >> > the CPU. Obviously, this rule needs to be extended when you get to >> > multiple devices and multiple device drivers, plus possibly user >> > mappings. Simply assigning the buffer to "the device" from one >> > driver does not block other drivers from touching the buffer, and >> > assigning it to "the cpu" does not stop other hardware that the >> > code calling sync_sg_for_cpu is not aware of. >> > >> > The only way to solve this that I can think of right now is to >> > mandate that the mappings are all coherent (i.e. noncachable >> > on noncoherent architectures like ARM). If you do that, you no >> > longer need the sync_sg_for_* calls. >> >> My original thinking was that you either need DMABUF_CPU_{PREP,FINI} >> ioctls and corresponding dmabuf ops, which userspace is required to >> call before / after CPU access. Or just remove mmap() and do the >> mmap() via allocating device and use that device's equivalent >> DRM_XYZ_GEM_CPU_{PREP,FINI} or DRM_XYZ_GEM_SET_DOMAIN ioctls. That >> would give you a way to (a) synchronize with gpu/asynchronous >> pipeline, (b) synchronize w/ multiple hw devices vs cpu accessing >> buffer (ie. wait all devices have dma_buf_unmap_attachment'd). And >> that gives you a convenient place to do cache operations on >> noncoherent architecture. >> >> I sort of preferred having the DMABUF shim because that lets you pass >> a buffer around userspace without the receiving code knowing about a >> device specific API. But the problem I eventually came around to: if >> your GL stack (or some other userspace component) is batching up >> commands before submission to kernel, the buffers you need to wait for >> completion might not even be submitted yet. So from kernel >> perspective they are "ready" for cpu access. Even though in fact they >> are not in a consistent state from rendering perspective. I don't >> really know a sane way to deal with that. Maybe the approach instead >> should be a userspace level API (in libkms/libdrm?) to provide >> abstraction for userspace access to buffers rather than dealing with >> this at the kernel level. > > Well, there's a reason GL has an explicit flush and extensions for sync > objects. It's to support such scenarios where the driver batches up gpu > commands before actually submitting them. Hmm.. what about other non-GL APIs.. maybe vaapi/vdpau or similar? (Or something that I haven't thought of.) > Also, recent gpus have all (or > shortly will grow) multiple execution pipelines, so it's also important > that you sync up with the right command stream. Syncing up with all of > them is generally frowned upon for obvious reasons ;-) Well, I guess I am happy enough with something that is at least functional. Usespace access would (I think) mainly be weird edge case type stuff. But... > So any userspace that interacts with an OpenGL driver needs to take care > of this anyway. But I think for simpler stuff (v4l) kernel only coherency > should work and userspace just needs to take care of gl interactions and > call glflush and friends at the right points. I think we can flesh this > out precisely when we spec the dmabuf EGL extension ... (or implement one > of the preexisting ones already around). .. yeah, I think egl/eglImage extension would be the right place to hide this behind. And I guess your GL stack should be able to figure out which execution pipeline to sync, cache state of buffer, and whatever other optimizations you might want to make. > On the topic of a coherency model for dmabuf, I think we need to look at > dma_buf_attachment_map/unmap (and also the mmap variants cpu_start and > cpu_finish or whatever they might get called) as barriers: > > So after a dma_buf_map, all previsously completed dma operations (i.e. > unmap already called) and any cpu writes (i.e. cpu_finish called) will be > coherent. Similar rule holds for cpu access through the userspace mmap, > only writes completed before the cpu_start will show up. > > Similar, writes done by the device are only guaranteed to show up after > the _unmap. Dito for cpu writes and cpu_finish. > > In short we always need two function calls to denote the start/end of the > "critical section". Yup, this was exactly my assumption. But I guess it is better to spell it out. BR, -R > Any concurrent operations are allowed to yield garbage, meaning any > combination of the old or either of the newly written contents (i.e. > non-overlapping writes might not actually all end up in the buffer, > but instead some old contents). Maybe we even need to loosen that to > the real "undefined behaviour", but atm I can't think of an example. > > -Daniel > -- > Daniel Vetter > Mail: daniel@xxxxxxxx > Mobile: +41 (0)79 365 57 48 > _______________________________________________ > dri-devel mailing list > dri-devel@xxxxxxxxxxxxxxxxxxxxx > http://lists.freedesktop.org/mailman/listinfo/dri-devel -- To unsubscribe, send a message with 'unsubscribe linux-mm' in the body to majordomo@xxxxxxxxx. For more info on Linux MM, see: http://www.linux-mm.org/ . Fight unfair telecom internet charges in Canada: sign http://stopthemeter.ca/ Don't email: <a href