- Usermode Events
The current events code implemented some data structures (waitqueue, fifo)
that were already implemented in the kernel. The patches below addresses
this issue by replacing them with the standard kernel implementation.
In addition, they simplify allocation of events IDs and memory for the events.
The patches also increase the maximum number of events while maintaining
compatibility with the older userspace library.
- Remove radeon support
Because Kaveri is fully supported in amdgpu and because current and future
versions of userspace libraries will only support amdgpu, we removed radeon
support from kfd. Current users can move to amdgpu while using the same
userspace libraries.
- Various bug fixes and cleanups
* tag 'drm-amdkfd-next-2017-11-02' of git://people.freedesktop.org/~gabbayo/linux: (26 commits)
drm/amdkfd: Minor cleanups
drm/amdkfd: Update queue_count before mapping queues
drm/amdkfd: Cleanup DQM ASIC-specific ops
drm/amdkfd: Register/Deregister process on qpd resolution
drm/amdkfd: Fix debug unregister procedure on process termination
drm/amdkfd: Avoid calling amd_iommu_unbind_pasid() when suspending
drm/amdkfd: Disable CP/SDMA ring/doorbell in MQD
drm/amdkfd: Clean up the data structure in kfd_process
drm/radeon: deprecate and remove KFD interface
drm/amdkfd: use a high priority workqueue for IH work
drm/amdkfd: wait only for IH work on IH exit
drm/amdkfd: increase IH num entries to 8192
drm/amdkfd: use standard kernel kfifo for IH
drm/amdkfd: increase limit of signal events to 4096 per process
drm/amdkfd: Make event limit dependent on user mode mapping size
drm/amdkfd: Use IH context ID for signal lookup
drm/amdkfd: Simplify event ID and signal slot management
drm/amdkfd: Simplify events page allocator
drm/amdkfd: Use wait_queue_t to implement event waiting
drm/amdkfd: remove redundant kfd_event_waiter.input_index
...
Some amdgpu/ttm fixes.
* 'drm-next-4.15' of git://people.freedesktop.org/~agd5f/linux:
drm/amd/powerplay: wrong control mode cause the fan spins faster unnecessarily
drm/amd/powerplay: fix memory leak of hardcoded pptable
drm/amdgpu:add fw-vram-usage for atomfirmware
drm/radeon: fix atombios on big endian
drm/ttm:fix memory leak due to individualize
drm/amdgpu: fix error handling in amdgpu_bo_do_create
drm/ttm: once more fix ttm_buffer_object_transfer
drm/amd/powerplay: change ASIC temperature reading on Vega10
- Pascal temperature sensor support
- Improved BAR2 handling, greatly reduces time required to suspend
- Rework of the MMU code
- Allows us to properly support Pascal's new MMU layout (implemented)
- Lays the groundwork for improved userspace APIs later
- Misc other fixes
* 'linux-4.15' of git://github.com/skeggsb/linux: (151 commits)
drm/nouveau/gr/gf100-: don't prevent module load if firmware missing
drm/nouveau/mmu: remove old vmm frontend
drm/nouveau: improve selection of GPU page size
drm/nouveau: switch over to new memory and vmm interfaces
drm/nouveau: remove unused nouveau_fence_work()
drm/nouveau: queue delayed unmapping of VMAs on client workqueue
drm/nouveau: implement per-client delayed workqueue with fence support
drm/nouveau: determine memory class for each client
drm/nouveau: pass handle of vmm object to channel allocation ioctls
drm/nouveau: switch to vmm limit
drm/nouveau: allocate vmm object for every client
drm/nouveau: replace use of cpu_coherent with memory types
drm/nouveau: use nvif_mmu_type to determine BAR1 caching
drm/nouveau: fetch memory type indices that we care about for ttm
drm/nouveau: consolidate handling of dma mask
drm/nouveau: check kind validity against mmu object
drm/nouveau: allocate mmu object for every client
drm/nouveau: remove trivial cases of nvxx_device() usage
drm/nouveau/mmu: define user interfaces to mmu vmm opertaions
drm/nouveau/mmu: define user interfaces to mmu memory allocation
...
VMAs are about to not take references on the VMM they belong to, which
means more care is required when handling delayed unmapping.
Queuing it on the client workqueue ensures all pending VMA unmaps will
have completed before the VMM is destroyed.
Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
This is already handled in the top-level gem_new() ioctl in another manner,
but this will be removed in a future commit.
Ideally we'd not need to check up-front at all, and let the VMM code handle
error checking, but there are paths in the current BO management code where
this isn't possible due to map() not always being called during BO creation,
and map() calls not being allowed to fail during buffer migration.
Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
If the VMA is being deleted, we don't need to explicity unmap first
anymore. The MMU code will automatically merge the operations into
a single page tree walk.
Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
These are the new priviledged interfaces to the VMM backends, and expose
some functionality that wasn't previously available.
It's now possible to allocate a chunk of address-space (even all of it),
without causing page tables to be allocated up-front, and then map into
it at arbitrary locations. This is the basic primitive used to support
features such as sparse mapping, or to allow userspace control over its
own address-space, or HMM (where the GPU driver isn't in control of the
address-space layout).
Rather than being tied to a subtle combination of memory object and VMA
properties, arguments that control map flags (ro, kind, etc) are passed
explicitly at map time.
The compatibility hacks to implement the old frontend on top of the new
driver backends have been replaced with something similar to implement
the old frontend's interfaces on top of the new frontend.
Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
Adds support for:
- 64KiB/2MiB big page sizes (128KiB not supported by HW with new PT layout).
- System-memory PTs.
- LPTE "invalid" state.
- (Tegra) Use of video memory aperture.
- Sparse PDEs/PTEs.
- Additional blocklinear kinds.
- 49-bit address-space.
GP100 supports an entirely new 5-level page table layout that provides
an expanded 49-bit address-space. It also supports the layout present
on previous generations, which we've been making do with until now.
This commit implements support for the new layout, and enables it by
default.
Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
Adds support for:
- 64KiB big page size.
- System-memory PTs.
- LPTE "invalid" state.
- (Tegra) Use of video memory aperture.
Adds support for marking LPTEs invalid, resulting in the corresponding
SPTEs being ignored, which is supposed to speed up TLB invalidates.
On The Tegra side, this will switch to using the video memory aperture
for all mappings. The HW will still target non-coherent system memory,
but this aperture needs to be selected in order to support compression.
Tegra's instmem backend somewhat cheated to get this effect previously.
Signed-off-by: Ben Skeggs <bskeggs@redhat.com>
