2 * Copyright © 2011 Marek Olšák <maraeo@gmail.com>
3 * Copyright © 2015 Advanced Micro Devices, Inc.
6 * Permission is hereby granted, free of charge, to any person obtaining
7 * a copy of this software and associated documentation files (the
8 * "Software"), to deal in the Software without restriction, including
9 * without limitation the rights to use, copy, modify, merge, publish,
10 * distribute, sub license, and/or sell copies of the Software, and to
11 * permit persons to whom the Software is furnished to do so, subject to
12 * the following conditions:
14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
15 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
16 * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
17 * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS
18 * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
20 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
21 * USE OR OTHER DEALINGS IN THE SOFTWARE.
23 * The above copyright notice and this permission notice (including the
24 * next paragraph) shall be included in all copies or substantial portions
29 * Marek Olšák <maraeo@gmail.com>
32 #include "amdgpu_cs.h"
34 #include "os/os_time.h"
35 #include "state_tracker/drm_driver.h"
36 #include <amdgpu_drm.h>
41 /* Set to 1 for verbose output showing committed sparse buffer ranges. */
42 #define DEBUG_SPARSE_COMMITS 0
44 struct amdgpu_sparse_backing_chunk
{
48 static struct pb_buffer
*
49 amdgpu_bo_create(struct radeon_winsys
*rws
,
52 enum radeon_bo_domain domain
,
53 enum radeon_bo_flag flags
);
55 static bool amdgpu_bo_wait(struct pb_buffer
*_buf
, uint64_t timeout
,
56 enum radeon_bo_usage usage
)
58 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
59 struct amdgpu_winsys
*ws
= bo
->ws
;
63 if (p_atomic_read(&bo
->num_active_ioctls
))
67 abs_timeout
= os_time_get_absolute_timeout(timeout
);
69 /* Wait if any ioctl is being submitted with this buffer. */
70 if (!os_wait_until_zero_abs_timeout(&bo
->num_active_ioctls
, abs_timeout
))
75 /* We can't use user fences for shared buffers, because user fences
76 * are local to this process only. If we want to wait for all buffer
77 * uses in all processes, we have to use amdgpu_bo_wait_for_idle.
79 bool buffer_busy
= true;
82 r
= amdgpu_bo_wait_for_idle(bo
->bo
, timeout
, &buffer_busy
);
84 fprintf(stderr
, "%s: amdgpu_bo_wait_for_idle failed %i\n", __func__
,
93 mtx_lock(&ws
->bo_fence_lock
);
95 for (idle_fences
= 0; idle_fences
< bo
->num_fences
; ++idle_fences
) {
96 if (!amdgpu_fence_wait(bo
->fences
[idle_fences
], 0, false))
100 /* Release the idle fences to avoid checking them again later. */
101 for (unsigned i
= 0; i
< idle_fences
; ++i
)
102 amdgpu_fence_reference(&bo
->fences
[i
], NULL
);
104 memmove(&bo
->fences
[0], &bo
->fences
[idle_fences
],
105 (bo
->num_fences
- idle_fences
) * sizeof(*bo
->fences
));
106 bo
->num_fences
-= idle_fences
;
108 buffer_idle
= !bo
->num_fences
;
109 mtx_unlock(&ws
->bo_fence_lock
);
113 bool buffer_idle
= true;
115 mtx_lock(&ws
->bo_fence_lock
);
116 while (bo
->num_fences
&& buffer_idle
) {
117 struct pipe_fence_handle
*fence
= NULL
;
118 bool fence_idle
= false;
120 amdgpu_fence_reference(&fence
, bo
->fences
[0]);
122 /* Wait for the fence. */
123 mtx_unlock(&ws
->bo_fence_lock
);
124 if (amdgpu_fence_wait(fence
, abs_timeout
, true))
128 mtx_lock(&ws
->bo_fence_lock
);
130 /* Release an idle fence to avoid checking it again later, keeping in
131 * mind that the fence array may have been modified by other threads.
133 if (fence_idle
&& bo
->num_fences
&& bo
->fences
[0] == fence
) {
134 amdgpu_fence_reference(&bo
->fences
[0], NULL
);
135 memmove(&bo
->fences
[0], &bo
->fences
[1],
136 (bo
->num_fences
- 1) * sizeof(*bo
->fences
));
140 amdgpu_fence_reference(&fence
, NULL
);
142 mtx_unlock(&ws
->bo_fence_lock
);
148 static enum radeon_bo_domain
amdgpu_bo_get_initial_domain(
149 struct pb_buffer
*buf
)
151 return ((struct amdgpu_winsys_bo
*)buf
)->initial_domain
;
154 static void amdgpu_bo_remove_fences(struct amdgpu_winsys_bo
*bo
)
156 for (unsigned i
= 0; i
< bo
->num_fences
; ++i
)
157 amdgpu_fence_reference(&bo
->fences
[i
], NULL
);
164 void amdgpu_bo_destroy(struct pb_buffer
*_buf
)
166 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
168 assert(bo
->bo
&& "must not be called for slab entries");
170 mtx_lock(&bo
->ws
->global_bo_list_lock
);
171 LIST_DEL(&bo
->u
.real
.global_list_item
);
172 bo
->ws
->num_buffers
--;
173 mtx_unlock(&bo
->ws
->global_bo_list_lock
);
175 amdgpu_bo_va_op(bo
->bo
, 0, bo
->base
.size
, bo
->va
, 0, AMDGPU_VA_OP_UNMAP
);
176 amdgpu_va_range_free(bo
->u
.real
.va_handle
);
177 amdgpu_bo_free(bo
->bo
);
179 amdgpu_bo_remove_fences(bo
);
181 if (bo
->initial_domain
& RADEON_DOMAIN_VRAM
)
182 bo
->ws
->allocated_vram
-= align64(bo
->base
.size
, bo
->ws
->info
.gart_page_size
);
183 else if (bo
->initial_domain
& RADEON_DOMAIN_GTT
)
184 bo
->ws
->allocated_gtt
-= align64(bo
->base
.size
, bo
->ws
->info
.gart_page_size
);
186 if (bo
->u
.real
.map_count
>= 1) {
187 if (bo
->initial_domain
& RADEON_DOMAIN_VRAM
)
188 bo
->ws
->mapped_vram
-= bo
->base
.size
;
189 else if (bo
->initial_domain
& RADEON_DOMAIN_GTT
)
190 bo
->ws
->mapped_gtt
-= bo
->base
.size
;
191 bo
->ws
->num_mapped_buffers
--;
197 static void amdgpu_bo_destroy_or_cache(struct pb_buffer
*_buf
)
199 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
201 assert(bo
->bo
); /* slab buffers have a separate vtbl */
203 if (bo
->u
.real
.use_reusable_pool
)
204 pb_cache_add_buffer(&bo
->u
.real
.cache_entry
);
206 amdgpu_bo_destroy(_buf
);
209 static void *amdgpu_bo_map(struct pb_buffer
*buf
,
210 struct radeon_winsys_cs
*rcs
,
211 enum pipe_transfer_usage usage
)
213 struct amdgpu_winsys_bo
*bo
= (struct amdgpu_winsys_bo
*)buf
;
214 struct amdgpu_winsys_bo
*real
;
215 struct amdgpu_cs
*cs
= (struct amdgpu_cs
*)rcs
;
222 /* If it's not unsynchronized bo_map, flush CS if needed and then wait. */
223 if (!(usage
& PIPE_TRANSFER_UNSYNCHRONIZED
)) {
224 /* DONTBLOCK doesn't make sense with UNSYNCHRONIZED. */
225 if (usage
& PIPE_TRANSFER_DONTBLOCK
) {
226 if (!(usage
& PIPE_TRANSFER_WRITE
)) {
229 * Since we are mapping for read, we don't need to wait
230 * if the GPU is using the buffer for read too
231 * (neither one is changing it).
233 * Only check whether the buffer is being used for write. */
234 if (cs
&& amdgpu_bo_is_referenced_by_cs_with_usage(cs
, bo
,
235 RADEON_USAGE_WRITE
)) {
236 cs
->flush_cs(cs
->flush_data
, RADEON_FLUSH_ASYNC
, NULL
);
240 if (!amdgpu_bo_wait((struct pb_buffer
*)bo
, 0,
241 RADEON_USAGE_WRITE
)) {
245 if (cs
&& amdgpu_bo_is_referenced_by_cs(cs
, bo
)) {
246 cs
->flush_cs(cs
->flush_data
, RADEON_FLUSH_ASYNC
, NULL
);
250 if (!amdgpu_bo_wait((struct pb_buffer
*)bo
, 0,
251 RADEON_USAGE_READWRITE
)) {
256 uint64_t time
= os_time_get_nano();
258 if (!(usage
& PIPE_TRANSFER_WRITE
)) {
261 * Since we are mapping for read, we don't need to wait
262 * if the GPU is using the buffer for read too
263 * (neither one is changing it).
265 * Only check whether the buffer is being used for write. */
267 if (amdgpu_bo_is_referenced_by_cs_with_usage(cs
, bo
,
268 RADEON_USAGE_WRITE
)) {
269 cs
->flush_cs(cs
->flush_data
, 0, NULL
);
271 /* Try to avoid busy-waiting in amdgpu_bo_wait. */
272 if (p_atomic_read(&bo
->num_active_ioctls
))
273 amdgpu_cs_sync_flush(rcs
);
277 amdgpu_bo_wait((struct pb_buffer
*)bo
, PIPE_TIMEOUT_INFINITE
,
280 /* Mapping for write. */
282 if (amdgpu_bo_is_referenced_by_cs(cs
, bo
)) {
283 cs
->flush_cs(cs
->flush_data
, 0, NULL
);
285 /* Try to avoid busy-waiting in amdgpu_bo_wait. */
286 if (p_atomic_read(&bo
->num_active_ioctls
))
287 amdgpu_cs_sync_flush(rcs
);
291 amdgpu_bo_wait((struct pb_buffer
*)bo
, PIPE_TIMEOUT_INFINITE
,
292 RADEON_USAGE_READWRITE
);
295 bo
->ws
->buffer_wait_time
+= os_time_get_nano() - time
;
299 /* If the buffer is created from user memory, return the user pointer. */
306 real
= bo
->u
.slab
.real
;
307 offset
= bo
->va
- real
->va
;
310 r
= amdgpu_bo_cpu_map(real
->bo
, &cpu
);
312 /* Clear the cache and try again. */
313 pb_cache_release_all_buffers(&real
->ws
->bo_cache
);
314 r
= amdgpu_bo_cpu_map(real
->bo
, &cpu
);
319 if (p_atomic_inc_return(&real
->u
.real
.map_count
) == 1) {
320 if (real
->initial_domain
& RADEON_DOMAIN_VRAM
)
321 real
->ws
->mapped_vram
+= real
->base
.size
;
322 else if (real
->initial_domain
& RADEON_DOMAIN_GTT
)
323 real
->ws
->mapped_gtt
+= real
->base
.size
;
324 real
->ws
->num_mapped_buffers
++;
326 return (uint8_t*)cpu
+ offset
;
329 static void amdgpu_bo_unmap(struct pb_buffer
*buf
)
331 struct amdgpu_winsys_bo
*bo
= (struct amdgpu_winsys_bo
*)buf
;
332 struct amdgpu_winsys_bo
*real
;
339 real
= bo
->bo
? bo
: bo
->u
.slab
.real
;
341 if (p_atomic_dec_zero(&real
->u
.real
.map_count
)) {
342 if (real
->initial_domain
& RADEON_DOMAIN_VRAM
)
343 real
->ws
->mapped_vram
-= real
->base
.size
;
344 else if (real
->initial_domain
& RADEON_DOMAIN_GTT
)
345 real
->ws
->mapped_gtt
-= real
->base
.size
;
346 real
->ws
->num_mapped_buffers
--;
349 amdgpu_bo_cpu_unmap(real
->bo
);
352 static const struct pb_vtbl amdgpu_winsys_bo_vtbl
= {
353 amdgpu_bo_destroy_or_cache
354 /* other functions are never called */
357 static void amdgpu_add_buffer_to_global_list(struct amdgpu_winsys_bo
*bo
)
359 struct amdgpu_winsys
*ws
= bo
->ws
;
363 mtx_lock(&ws
->global_bo_list_lock
);
364 LIST_ADDTAIL(&bo
->u
.real
.global_list_item
, &ws
->global_bo_list
);
366 mtx_unlock(&ws
->global_bo_list_lock
);
369 static struct amdgpu_winsys_bo
*amdgpu_create_bo(struct amdgpu_winsys
*ws
,
373 enum radeon_bo_domain initial_domain
,
375 unsigned pb_cache_bucket
)
377 struct amdgpu_bo_alloc_request request
= {0};
378 amdgpu_bo_handle buf_handle
;
380 struct amdgpu_winsys_bo
*bo
;
381 amdgpu_va_handle va_handle
;
382 unsigned va_gap_size
;
385 assert(initial_domain
& RADEON_DOMAIN_VRAM_GTT
);
386 bo
= CALLOC_STRUCT(amdgpu_winsys_bo
);
391 pb_cache_init_entry(&ws
->bo_cache
, &bo
->u
.real
.cache_entry
, &bo
->base
,
393 request
.alloc_size
= size
;
394 request
.phys_alignment
= alignment
;
396 if (initial_domain
& RADEON_DOMAIN_VRAM
)
397 request
.preferred_heap
|= AMDGPU_GEM_DOMAIN_VRAM
;
398 if (initial_domain
& RADEON_DOMAIN_GTT
)
399 request
.preferred_heap
|= AMDGPU_GEM_DOMAIN_GTT
;
401 if (flags
& RADEON_FLAG_NO_CPU_ACCESS
)
402 request
.flags
|= AMDGPU_GEM_CREATE_NO_CPU_ACCESS
;
403 if (flags
& RADEON_FLAG_GTT_WC
)
404 request
.flags
|= AMDGPU_GEM_CREATE_CPU_GTT_USWC
;
406 r
= amdgpu_bo_alloc(ws
->dev
, &request
, &buf_handle
);
408 fprintf(stderr
, "amdgpu: Failed to allocate a buffer:\n");
409 fprintf(stderr
, "amdgpu: size : %"PRIu64
" bytes\n", size
);
410 fprintf(stderr
, "amdgpu: alignment : %u bytes\n", alignment
);
411 fprintf(stderr
, "amdgpu: domains : %u\n", initial_domain
);
415 va_gap_size
= ws
->check_vm
? MAX2(4 * alignment
, 64 * 1024) : 0;
416 if (size
> ws
->info
.pte_fragment_size
)
417 alignment
= MAX2(alignment
, ws
->info
.pte_fragment_size
);
418 r
= amdgpu_va_range_alloc(ws
->dev
, amdgpu_gpu_va_range_general
,
419 size
+ va_gap_size
, alignment
, 0, &va
, &va_handle
, 0);
423 r
= amdgpu_bo_va_op(buf_handle
, 0, size
, va
, 0, AMDGPU_VA_OP_MAP
);
427 pipe_reference_init(&bo
->base
.reference
, 1);
428 bo
->base
.alignment
= alignment
;
429 bo
->base
.usage
= usage
;
430 bo
->base
.size
= size
;
431 bo
->base
.vtbl
= &amdgpu_winsys_bo_vtbl
;
435 bo
->u
.real
.va_handle
= va_handle
;
436 bo
->initial_domain
= initial_domain
;
437 bo
->unique_id
= __sync_fetch_and_add(&ws
->next_bo_unique_id
, 1);
439 if (initial_domain
& RADEON_DOMAIN_VRAM
)
440 ws
->allocated_vram
+= align64(size
, ws
->info
.gart_page_size
);
441 else if (initial_domain
& RADEON_DOMAIN_GTT
)
442 ws
->allocated_gtt
+= align64(size
, ws
->info
.gart_page_size
);
444 amdgpu_add_buffer_to_global_list(bo
);
449 amdgpu_va_range_free(va_handle
);
452 amdgpu_bo_free(buf_handle
);
459 bool amdgpu_bo_can_reclaim(struct pb_buffer
*_buf
)
461 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
463 if (amdgpu_bo_is_referenced_by_any_cs(bo
)) {
467 return amdgpu_bo_wait(_buf
, 0, RADEON_USAGE_READWRITE
);
470 bool amdgpu_bo_can_reclaim_slab(void *priv
, struct pb_slab_entry
*entry
)
472 struct amdgpu_winsys_bo
*bo
= NULL
; /* fix container_of */
473 bo
= container_of(entry
, bo
, u
.slab
.entry
);
475 return amdgpu_bo_can_reclaim(&bo
->base
);
478 static void amdgpu_bo_slab_destroy(struct pb_buffer
*_buf
)
480 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
484 pb_slab_free(&bo
->ws
->bo_slabs
, &bo
->u
.slab
.entry
);
487 static const struct pb_vtbl amdgpu_winsys_bo_slab_vtbl
= {
488 amdgpu_bo_slab_destroy
489 /* other functions are never called */
492 struct pb_slab
*amdgpu_bo_slab_alloc(void *priv
, unsigned heap
,
494 unsigned group_index
)
496 struct amdgpu_winsys
*ws
= priv
;
497 struct amdgpu_slab
*slab
= CALLOC_STRUCT(amdgpu_slab
);
498 enum radeon_bo_domain domains
= radeon_domain_from_heap(heap
);
499 enum radeon_bo_flag flags
= radeon_flags_from_heap(heap
);
505 slab
->buffer
= amdgpu_winsys_bo(amdgpu_bo_create(&ws
->base
,
506 64 * 1024, 64 * 1024,
511 assert(slab
->buffer
->bo
);
513 slab
->base
.num_entries
= slab
->buffer
->base
.size
/ entry_size
;
514 slab
->base
.num_free
= slab
->base
.num_entries
;
515 slab
->entries
= CALLOC(slab
->base
.num_entries
, sizeof(*slab
->entries
));
519 LIST_INITHEAD(&slab
->base
.free
);
521 base_id
= __sync_fetch_and_add(&ws
->next_bo_unique_id
, slab
->base
.num_entries
);
523 for (unsigned i
= 0; i
< slab
->base
.num_entries
; ++i
) {
524 struct amdgpu_winsys_bo
*bo
= &slab
->entries
[i
];
526 bo
->base
.alignment
= entry_size
;
527 bo
->base
.usage
= slab
->buffer
->base
.usage
;
528 bo
->base
.size
= entry_size
;
529 bo
->base
.vtbl
= &amdgpu_winsys_bo_slab_vtbl
;
531 bo
->va
= slab
->buffer
->va
+ i
* entry_size
;
532 bo
->initial_domain
= domains
;
533 bo
->unique_id
= base_id
+ i
;
534 bo
->u
.slab
.entry
.slab
= &slab
->base
;
535 bo
->u
.slab
.entry
.group_index
= group_index
;
536 bo
->u
.slab
.real
= slab
->buffer
;
538 LIST_ADDTAIL(&bo
->u
.slab
.entry
.head
, &slab
->base
.free
);
544 amdgpu_winsys_bo_reference(&slab
->buffer
, NULL
);
550 void amdgpu_bo_slab_free(void *priv
, struct pb_slab
*pslab
)
552 struct amdgpu_slab
*slab
= amdgpu_slab(pslab
);
554 for (unsigned i
= 0; i
< slab
->base
.num_entries
; ++i
)
555 amdgpu_bo_remove_fences(&slab
->entries
[i
]);
558 amdgpu_winsys_bo_reference(&slab
->buffer
, NULL
);
562 #if DEBUG_SPARSE_COMMITS
564 sparse_dump(struct amdgpu_winsys_bo
*bo
, const char *func
)
566 fprintf(stderr
, "%s: %p (size=%"PRIu64
", num_va_pages=%u) @ %s\n"
568 __func__
, bo
, bo
->base
.size
, bo
->u
.sparse
.num_va_pages
, func
);
570 struct amdgpu_sparse_backing
*span_backing
= NULL
;
571 uint32_t span_first_backing_page
= 0;
572 uint32_t span_first_va_page
= 0;
573 uint32_t va_page
= 0;
576 struct amdgpu_sparse_backing
*backing
= 0;
577 uint32_t backing_page
= 0;
579 if (va_page
< bo
->u
.sparse
.num_va_pages
) {
580 backing
= bo
->u
.sparse
.commitments
[va_page
].backing
;
581 backing_page
= bo
->u
.sparse
.commitments
[va_page
].page
;
585 (backing
!= span_backing
||
586 backing_page
!= span_first_backing_page
+ (va_page
- span_first_va_page
))) {
587 fprintf(stderr
, " %u..%u: backing=%p:%u..%u\n",
588 span_first_va_page
, va_page
- 1, span_backing
,
589 span_first_backing_page
,
590 span_first_backing_page
+ (va_page
- span_first_va_page
) - 1);
595 if (va_page
>= bo
->u
.sparse
.num_va_pages
)
598 if (backing
&& !span_backing
) {
599 span_backing
= backing
;
600 span_first_backing_page
= backing_page
;
601 span_first_va_page
= va_page
;
607 fprintf(stderr
, "Backing:\n");
609 list_for_each_entry(struct amdgpu_sparse_backing
, backing
, &bo
->u
.sparse
.backing
, list
) {
610 fprintf(stderr
, " %p (size=%"PRIu64
")\n", backing
, backing
->bo
->base
.size
);
611 for (unsigned i
= 0; i
< backing
->num_chunks
; ++i
)
612 fprintf(stderr
, " %u..%u\n", backing
->chunks
[i
].begin
, backing
->chunks
[i
].end
);
618 * Attempt to allocate the given number of backing pages. Fewer pages may be
619 * allocated (depending on the fragmentation of existing backing buffers),
620 * which will be reflected by a change to *pnum_pages.
622 static struct amdgpu_sparse_backing
*
623 sparse_backing_alloc(struct amdgpu_winsys_bo
*bo
, uint32_t *pstart_page
, uint32_t *pnum_pages
)
625 struct amdgpu_sparse_backing
*best_backing
;
627 uint32_t best_num_pages
;
633 /* This is a very simple and inefficient best-fit algorithm. */
634 list_for_each_entry(struct amdgpu_sparse_backing
, backing
, &bo
->u
.sparse
.backing
, list
) {
635 for (unsigned idx
= 0; idx
< backing
->num_chunks
; ++idx
) {
636 uint32_t cur_num_pages
= backing
->chunks
[idx
].end
- backing
->chunks
[idx
].begin
;
637 if ((best_num_pages
< *pnum_pages
&& cur_num_pages
> best_num_pages
) ||
638 (best_num_pages
> *pnum_pages
&& cur_num_pages
< best_num_pages
)) {
639 best_backing
= backing
;
641 best_num_pages
= cur_num_pages
;
646 /* Allocate a new backing buffer if necessary. */
648 struct pb_buffer
*buf
;
652 best_backing
= CALLOC_STRUCT(amdgpu_sparse_backing
);
656 best_backing
->max_chunks
= 4;
657 best_backing
->chunks
= CALLOC(best_backing
->max_chunks
,
658 sizeof(*best_backing
->chunks
));
659 if (!best_backing
->chunks
) {
664 assert(bo
->u
.sparse
.num_backing_pages
< DIV_ROUND_UP(bo
->base
.size
, RADEON_SPARSE_PAGE_SIZE
));
666 size
= MIN3(bo
->base
.size
/ 16,
668 bo
->base
.size
- (uint64_t)bo
->u
.sparse
.num_backing_pages
* RADEON_SPARSE_PAGE_SIZE
);
669 size
= MAX2(size
, RADEON_SPARSE_PAGE_SIZE
);
671 buf
= amdgpu_bo_create(&bo
->ws
->base
, size
, RADEON_SPARSE_PAGE_SIZE
,
673 bo
->u
.sparse
.flags
| RADEON_FLAG_NO_SUBALLOC
);
675 FREE(best_backing
->chunks
);
680 /* We might have gotten a bigger buffer than requested via caching. */
681 pages
= buf
->size
/ RADEON_SPARSE_PAGE_SIZE
;
683 best_backing
->bo
= amdgpu_winsys_bo(buf
);
684 best_backing
->num_chunks
= 1;
685 best_backing
->chunks
[0].begin
= 0;
686 best_backing
->chunks
[0].end
= pages
;
688 list_add(&best_backing
->list
, &bo
->u
.sparse
.backing
);
689 bo
->u
.sparse
.num_backing_pages
+= pages
;
692 best_num_pages
= pages
;
695 *pnum_pages
= MIN2(*pnum_pages
, best_num_pages
);
696 *pstart_page
= best_backing
->chunks
[best_idx
].begin
;
697 best_backing
->chunks
[best_idx
].begin
+= *pnum_pages
;
699 if (best_backing
->chunks
[best_idx
].begin
>= best_backing
->chunks
[best_idx
].end
) {
700 memmove(&best_backing
->chunks
[best_idx
], &best_backing
->chunks
[best_idx
+ 1],
701 sizeof(*best_backing
->chunks
) * (best_backing
->num_chunks
- best_idx
- 1));
702 best_backing
->num_chunks
--;
709 sparse_free_backing_buffer(struct amdgpu_winsys_bo
*bo
,
710 struct amdgpu_sparse_backing
*backing
)
712 struct amdgpu_winsys
*ws
= backing
->bo
->ws
;
714 bo
->u
.sparse
.num_backing_pages
-= backing
->bo
->base
.size
/ RADEON_SPARSE_PAGE_SIZE
;
716 mtx_lock(&ws
->bo_fence_lock
);
717 amdgpu_add_fences(backing
->bo
, bo
->num_fences
, bo
->fences
);
718 mtx_unlock(&ws
->bo_fence_lock
);
720 list_del(&backing
->list
);
721 amdgpu_winsys_bo_reference(&backing
->bo
, NULL
);
722 FREE(backing
->chunks
);
727 * Return a range of pages from the given backing buffer back into the
731 sparse_backing_free(struct amdgpu_winsys_bo
*bo
,
732 struct amdgpu_sparse_backing
*backing
,
733 uint32_t start_page
, uint32_t num_pages
)
735 uint32_t end_page
= start_page
+ num_pages
;
737 unsigned high
= backing
->num_chunks
;
739 /* Find the first chunk with begin >= start_page. */
741 unsigned mid
= low
+ (high
- low
) / 2;
743 if (backing
->chunks
[mid
].begin
>= start_page
)
749 assert(low
>= backing
->num_chunks
|| end_page
<= backing
->chunks
[low
].begin
);
750 assert(low
== 0 || backing
->chunks
[low
- 1].end
<= start_page
);
752 if (low
> 0 && backing
->chunks
[low
- 1].end
== start_page
) {
753 backing
->chunks
[low
- 1].end
= end_page
;
755 if (low
< backing
->num_chunks
&& end_page
== backing
->chunks
[low
].begin
) {
756 backing
->chunks
[low
- 1].end
= backing
->chunks
[low
].end
;
757 memmove(&backing
->chunks
[low
], &backing
->chunks
[low
+ 1],
758 sizeof(*backing
->chunks
) * (backing
->num_chunks
- low
- 1));
759 backing
->num_chunks
--;
761 } else if (low
< backing
->num_chunks
&& end_page
== backing
->chunks
[low
].begin
) {
762 backing
->chunks
[low
].begin
= start_page
;
764 if (backing
->num_chunks
>= backing
->max_chunks
) {
765 unsigned new_max_chunks
= 2 * backing
->max_chunks
;
766 struct amdgpu_sparse_backing_chunk
*new_chunks
=
767 REALLOC(backing
->chunks
,
768 sizeof(*backing
->chunks
) * backing
->max_chunks
,
769 sizeof(*backing
->chunks
) * new_max_chunks
);
773 backing
->max_chunks
= new_max_chunks
;
774 backing
->chunks
= new_chunks
;
777 memmove(&backing
->chunks
[low
+ 1], &backing
->chunks
[low
],
778 sizeof(*backing
->chunks
) * (backing
->num_chunks
- low
));
779 backing
->chunks
[low
].begin
= start_page
;
780 backing
->chunks
[low
].end
= end_page
;
781 backing
->num_chunks
++;
784 if (backing
->num_chunks
== 1 && backing
->chunks
[0].begin
== 0 &&
785 backing
->chunks
[0].end
== backing
->bo
->base
.size
/ RADEON_SPARSE_PAGE_SIZE
)
786 sparse_free_backing_buffer(bo
, backing
);
791 static void amdgpu_bo_sparse_destroy(struct pb_buffer
*_buf
)
793 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
796 assert(!bo
->bo
&& bo
->sparse
);
798 r
= amdgpu_bo_va_op_raw(bo
->ws
->dev
, NULL
, 0,
799 (uint64_t)bo
->u
.sparse
.num_va_pages
* RADEON_SPARSE_PAGE_SIZE
,
800 bo
->va
, 0, AMDGPU_VA_OP_CLEAR
);
802 fprintf(stderr
, "amdgpu: clearing PRT VA region on destroy failed (%d)\n", r
);
805 while (!list_empty(&bo
->u
.sparse
.backing
)) {
806 struct amdgpu_sparse_backing
*dummy
= NULL
;
807 sparse_free_backing_buffer(bo
,
808 container_of(bo
->u
.sparse
.backing
.next
,
812 amdgpu_va_range_free(bo
->u
.sparse
.va_handle
);
813 mtx_destroy(&bo
->u
.sparse
.commit_lock
);
814 FREE(bo
->u
.sparse
.commitments
);
818 static const struct pb_vtbl amdgpu_winsys_bo_sparse_vtbl
= {
819 amdgpu_bo_sparse_destroy
820 /* other functions are never called */
823 static struct pb_buffer
*
824 amdgpu_bo_sparse_create(struct amdgpu_winsys
*ws
, uint64_t size
,
825 enum radeon_bo_domain domain
,
826 enum radeon_bo_flag flags
)
828 struct amdgpu_winsys_bo
*bo
;
830 uint64_t va_gap_size
;
833 /* We use 32-bit page numbers; refuse to attempt allocating sparse buffers
834 * that exceed this limit. This is not really a restriction: we don't have
835 * that much virtual address space anyway.
837 if (size
> (uint64_t)INT32_MAX
* RADEON_SPARSE_PAGE_SIZE
)
840 bo
= CALLOC_STRUCT(amdgpu_winsys_bo
);
844 pipe_reference_init(&bo
->base
.reference
, 1);
845 bo
->base
.alignment
= RADEON_SPARSE_PAGE_SIZE
;
846 bo
->base
.size
= size
;
847 bo
->base
.vtbl
= &amdgpu_winsys_bo_sparse_vtbl
;
849 bo
->initial_domain
= domain
;
850 bo
->unique_id
= __sync_fetch_and_add(&ws
->next_bo_unique_id
, 1);
852 bo
->u
.sparse
.flags
= flags
& ~RADEON_FLAG_SPARSE
;
854 bo
->u
.sparse
.num_va_pages
= DIV_ROUND_UP(size
, RADEON_SPARSE_PAGE_SIZE
);
855 bo
->u
.sparse
.commitments
= CALLOC(bo
->u
.sparse
.num_va_pages
,
856 sizeof(*bo
->u
.sparse
.commitments
));
857 if (!bo
->u
.sparse
.commitments
)
858 goto error_alloc_commitments
;
860 mtx_init(&bo
->u
.sparse
.commit_lock
, mtx_plain
);
861 LIST_INITHEAD(&bo
->u
.sparse
.backing
);
863 /* For simplicity, we always map a multiple of the page size. */
864 map_size
= align64(size
, RADEON_SPARSE_PAGE_SIZE
);
865 va_gap_size
= ws
->check_vm
? 4 * RADEON_SPARSE_PAGE_SIZE
: 0;
866 r
= amdgpu_va_range_alloc(ws
->dev
, amdgpu_gpu_va_range_general
,
867 map_size
+ va_gap_size
, RADEON_SPARSE_PAGE_SIZE
,
868 0, &bo
->va
, &bo
->u
.sparse
.va_handle
, 0);
872 r
= amdgpu_bo_va_op_raw(bo
->ws
->dev
, NULL
, 0, size
, bo
->va
,
873 AMDGPU_VM_PAGE_PRT
, AMDGPU_VA_OP_MAP
);
880 amdgpu_va_range_free(bo
->u
.sparse
.va_handle
);
882 mtx_destroy(&bo
->u
.sparse
.commit_lock
);
883 FREE(bo
->u
.sparse
.commitments
);
884 error_alloc_commitments
:
890 amdgpu_bo_sparse_commit(struct pb_buffer
*buf
, uint64_t offset
, uint64_t size
,
893 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(buf
);
894 struct amdgpu_sparse_commitment
*comm
;
895 uint32_t va_page
, end_va_page
;
900 assert(offset
% RADEON_SPARSE_PAGE_SIZE
== 0);
901 assert(offset
<= bo
->base
.size
);
902 assert(size
<= bo
->base
.size
- offset
);
903 assert(size
% RADEON_SPARSE_PAGE_SIZE
== 0 || offset
+ size
== bo
->base
.size
);
905 comm
= bo
->u
.sparse
.commitments
;
906 va_page
= offset
/ RADEON_SPARSE_PAGE_SIZE
;
907 end_va_page
= va_page
+ DIV_ROUND_UP(size
, RADEON_SPARSE_PAGE_SIZE
);
909 mtx_lock(&bo
->u
.sparse
.commit_lock
);
911 #if DEBUG_SPARSE_COMMITS
912 sparse_dump(bo
, __func__
);
916 while (va_page
< end_va_page
) {
917 uint32_t span_va_page
;
919 /* Skip pages that are already committed. */
920 if (comm
[va_page
].backing
) {
925 /* Determine length of uncommitted span. */
926 span_va_page
= va_page
;
927 while (va_page
< end_va_page
&& !comm
[va_page
].backing
)
930 /* Fill the uncommitted span with chunks of backing memory. */
931 while (span_va_page
< va_page
) {
932 struct amdgpu_sparse_backing
*backing
;
933 uint32_t backing_start
, backing_size
;
935 backing_size
= va_page
- span_va_page
;
936 backing
= sparse_backing_alloc(bo
, &backing_start
, &backing_size
);
942 r
= amdgpu_bo_va_op_raw(bo
->ws
->dev
, backing
->bo
->bo
,
943 (uint64_t)backing_start
* RADEON_SPARSE_PAGE_SIZE
,
944 (uint64_t)backing_size
* RADEON_SPARSE_PAGE_SIZE
,
945 bo
->va
+ (uint64_t)span_va_page
* RADEON_SPARSE_PAGE_SIZE
,
946 AMDGPU_VM_PAGE_READABLE
|
947 AMDGPU_VM_PAGE_WRITEABLE
|
948 AMDGPU_VM_PAGE_EXECUTABLE
,
949 AMDGPU_VA_OP_REPLACE
);
951 ok
= sparse_backing_free(bo
, backing
, backing_start
, backing_size
);
952 assert(ok
&& "sufficient memory should already be allocated");
958 while (backing_size
) {
959 comm
[span_va_page
].backing
= backing
;
960 comm
[span_va_page
].page
= backing_start
;
968 r
= amdgpu_bo_va_op_raw(bo
->ws
->dev
, NULL
, 0,
969 (uint64_t)(end_va_page
- va_page
) * RADEON_SPARSE_PAGE_SIZE
,
970 bo
->va
+ (uint64_t)va_page
* RADEON_SPARSE_PAGE_SIZE
,
971 AMDGPU_VM_PAGE_PRT
, AMDGPU_VA_OP_REPLACE
);
977 while (va_page
< end_va_page
) {
978 struct amdgpu_sparse_backing
*backing
;
979 uint32_t backing_start
;
982 /* Skip pages that are already uncommitted. */
983 if (!comm
[va_page
].backing
) {
988 /* Group contiguous spans of pages. */
989 backing
= comm
[va_page
].backing
;
990 backing_start
= comm
[va_page
].page
;
991 comm
[va_page
].backing
= NULL
;
996 while (va_page
< end_va_page
&&
997 comm
[va_page
].backing
== backing
&&
998 comm
[va_page
].page
== backing_start
+ span_pages
) {
999 comm
[va_page
].backing
= NULL
;
1004 if (!sparse_backing_free(bo
, backing
, backing_start
, span_pages
)) {
1005 /* Couldn't allocate tracking data structures, so we have to leak */
1006 fprintf(stderr
, "amdgpu: leaking PRT backing memory\n");
1013 mtx_unlock(&bo
->u
.sparse
.commit_lock
);
1018 static unsigned eg_tile_split(unsigned tile_split
)
1020 switch (tile_split
) {
1021 case 0: tile_split
= 64; break;
1022 case 1: tile_split
= 128; break;
1023 case 2: tile_split
= 256; break;
1024 case 3: tile_split
= 512; break;
1026 case 4: tile_split
= 1024; break;
1027 case 5: tile_split
= 2048; break;
1028 case 6: tile_split
= 4096; break;
1033 static unsigned eg_tile_split_rev(unsigned eg_tile_split
)
1035 switch (eg_tile_split
) {
1041 case 1024: return 4;
1042 case 2048: return 5;
1043 case 4096: return 6;
1047 static void amdgpu_buffer_get_metadata(struct pb_buffer
*_buf
,
1048 struct radeon_bo_metadata
*md
)
1050 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
1051 struct amdgpu_bo_info info
= {0};
1052 uint64_t tiling_flags
;
1055 assert(bo
->bo
&& "must not be called for slab entries");
1057 r
= amdgpu_bo_query_info(bo
->bo
, &info
);
1061 tiling_flags
= info
.metadata
.tiling_info
;
1063 if (bo
->ws
->info
.chip_class
>= GFX9
) {
1064 md
->u
.gfx9
.swizzle_mode
= AMDGPU_TILING_GET(tiling_flags
, SWIZZLE_MODE
);
1066 md
->u
.legacy
.microtile
= RADEON_LAYOUT_LINEAR
;
1067 md
->u
.legacy
.macrotile
= RADEON_LAYOUT_LINEAR
;
1069 if (AMDGPU_TILING_GET(tiling_flags
, ARRAY_MODE
) == 4) /* 2D_TILED_THIN1 */
1070 md
->u
.legacy
.macrotile
= RADEON_LAYOUT_TILED
;
1071 else if (AMDGPU_TILING_GET(tiling_flags
, ARRAY_MODE
) == 2) /* 1D_TILED_THIN1 */
1072 md
->u
.legacy
.microtile
= RADEON_LAYOUT_TILED
;
1074 md
->u
.legacy
.pipe_config
= AMDGPU_TILING_GET(tiling_flags
, PIPE_CONFIG
);
1075 md
->u
.legacy
.bankw
= 1 << AMDGPU_TILING_GET(tiling_flags
, BANK_WIDTH
);
1076 md
->u
.legacy
.bankh
= 1 << AMDGPU_TILING_GET(tiling_flags
, BANK_HEIGHT
);
1077 md
->u
.legacy
.tile_split
= eg_tile_split(AMDGPU_TILING_GET(tiling_flags
, TILE_SPLIT
));
1078 md
->u
.legacy
.mtilea
= 1 << AMDGPU_TILING_GET(tiling_flags
, MACRO_TILE_ASPECT
);
1079 md
->u
.legacy
.num_banks
= 2 << AMDGPU_TILING_GET(tiling_flags
, NUM_BANKS
);
1080 md
->u
.legacy
.scanout
= AMDGPU_TILING_GET(tiling_flags
, MICRO_TILE_MODE
) == 0; /* DISPLAY */
1083 md
->size_metadata
= info
.metadata
.size_metadata
;
1084 memcpy(md
->metadata
, info
.metadata
.umd_metadata
, sizeof(md
->metadata
));
1087 static void amdgpu_buffer_set_metadata(struct pb_buffer
*_buf
,
1088 struct radeon_bo_metadata
*md
)
1090 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(_buf
);
1091 struct amdgpu_bo_metadata metadata
= {0};
1092 uint64_t tiling_flags
= 0;
1094 assert(bo
->bo
&& "must not be called for slab entries");
1096 if (bo
->ws
->info
.chip_class
>= GFX9
) {
1097 tiling_flags
|= AMDGPU_TILING_SET(SWIZZLE_MODE
, md
->u
.gfx9
.swizzle_mode
);
1099 if (md
->u
.legacy
.macrotile
== RADEON_LAYOUT_TILED
)
1100 tiling_flags
|= AMDGPU_TILING_SET(ARRAY_MODE
, 4); /* 2D_TILED_THIN1 */
1101 else if (md
->u
.legacy
.microtile
== RADEON_LAYOUT_TILED
)
1102 tiling_flags
|= AMDGPU_TILING_SET(ARRAY_MODE
, 2); /* 1D_TILED_THIN1 */
1104 tiling_flags
|= AMDGPU_TILING_SET(ARRAY_MODE
, 1); /* LINEAR_ALIGNED */
1106 tiling_flags
|= AMDGPU_TILING_SET(PIPE_CONFIG
, md
->u
.legacy
.pipe_config
);
1107 tiling_flags
|= AMDGPU_TILING_SET(BANK_WIDTH
, util_logbase2(md
->u
.legacy
.bankw
));
1108 tiling_flags
|= AMDGPU_TILING_SET(BANK_HEIGHT
, util_logbase2(md
->u
.legacy
.bankh
));
1109 if (md
->u
.legacy
.tile_split
)
1110 tiling_flags
|= AMDGPU_TILING_SET(TILE_SPLIT
, eg_tile_split_rev(md
->u
.legacy
.tile_split
));
1111 tiling_flags
|= AMDGPU_TILING_SET(MACRO_TILE_ASPECT
, util_logbase2(md
->u
.legacy
.mtilea
));
1112 tiling_flags
|= AMDGPU_TILING_SET(NUM_BANKS
, util_logbase2(md
->u
.legacy
.num_banks
)-1);
1114 if (md
->u
.legacy
.scanout
)
1115 tiling_flags
|= AMDGPU_TILING_SET(MICRO_TILE_MODE
, 0); /* DISPLAY_MICRO_TILING */
1117 tiling_flags
|= AMDGPU_TILING_SET(MICRO_TILE_MODE
, 1); /* THIN_MICRO_TILING */
1120 metadata
.tiling_info
= tiling_flags
;
1121 metadata
.size_metadata
= md
->size_metadata
;
1122 memcpy(metadata
.umd_metadata
, md
->metadata
, sizeof(md
->metadata
));
1124 amdgpu_bo_set_metadata(bo
->bo
, &metadata
);
1127 static struct pb_buffer
*
1128 amdgpu_bo_create(struct radeon_winsys
*rws
,
1131 enum radeon_bo_domain domain
,
1132 enum radeon_bo_flag flags
)
1134 struct amdgpu_winsys
*ws
= amdgpu_winsys(rws
);
1135 struct amdgpu_winsys_bo
*bo
;
1136 unsigned usage
= 0, pb_cache_bucket
;
1138 /* VRAM implies WC. This is not optional. */
1139 assert(!(domain
& RADEON_DOMAIN_VRAM
) || flags
& RADEON_FLAG_GTT_WC
);
1141 /* NO_CPU_ACCESS is valid with VRAM only. */
1142 assert(domain
== RADEON_DOMAIN_VRAM
|| !(flags
& RADEON_FLAG_NO_CPU_ACCESS
));
1144 /* Sub-allocate small buffers from slabs. */
1145 if (!(flags
& (RADEON_FLAG_NO_SUBALLOC
| RADEON_FLAG_SPARSE
)) &&
1146 size
<= (1 << AMDGPU_SLAB_MAX_SIZE_LOG2
) &&
1147 alignment
<= MAX2(1 << AMDGPU_SLAB_MIN_SIZE_LOG2
, util_next_power_of_two(size
))) {
1148 struct pb_slab_entry
*entry
;
1149 int heap
= radeon_get_heap_index(domain
, flags
);
1151 if (heap
< 0 || heap
>= RADEON_MAX_SLAB_HEAPS
)
1154 entry
= pb_slab_alloc(&ws
->bo_slabs
, size
, heap
);
1156 /* Clear the cache and try again. */
1157 pb_cache_release_all_buffers(&ws
->bo_cache
);
1159 entry
= pb_slab_alloc(&ws
->bo_slabs
, size
, heap
);
1165 bo
= container_of(entry
, bo
, u
.slab
.entry
);
1167 pipe_reference_init(&bo
->base
.reference
, 1);
1173 if (flags
& RADEON_FLAG_SPARSE
) {
1174 assert(RADEON_SPARSE_PAGE_SIZE
% alignment
== 0);
1176 flags
|= RADEON_FLAG_NO_CPU_ACCESS
;
1178 return amdgpu_bo_sparse_create(ws
, size
, domain
, flags
);
1181 /* This flag is irrelevant for the cache. */
1182 flags
&= ~RADEON_FLAG_NO_SUBALLOC
;
1184 /* Align size to page size. This is the minimum alignment for normal
1185 * BOs. Aligning this here helps the cached bufmgr. Especially small BOs,
1186 * like constant/uniform buffers, can benefit from better and more reuse.
1188 size
= align64(size
, ws
->info
.gart_page_size
);
1189 alignment
= align(alignment
, ws
->info
.gart_page_size
);
1191 int heap
= radeon_get_heap_index(domain
, flags
);
1192 assert(heap
>= 0 && heap
< RADEON_MAX_CACHED_HEAPS
);
1193 usage
= 1 << heap
; /* Only set one usage bit for each heap. */
1195 pb_cache_bucket
= radeon_get_pb_cache_bucket_index(heap
);
1196 assert(pb_cache_bucket
< ARRAY_SIZE(ws
->bo_cache
.buckets
));
1198 /* Get a buffer from the cache. */
1199 bo
= (struct amdgpu_winsys_bo
*)
1200 pb_cache_reclaim_buffer(&ws
->bo_cache
, size
, alignment
, usage
,
1205 /* Create a new one. */
1206 bo
= amdgpu_create_bo(ws
, size
, alignment
, usage
, domain
, flags
,
1209 /* Clear the cache and try again. */
1210 pb_slabs_reclaim(&ws
->bo_slabs
);
1211 pb_cache_release_all_buffers(&ws
->bo_cache
);
1212 bo
= amdgpu_create_bo(ws
, size
, alignment
, usage
, domain
, flags
,
1218 bo
->u
.real
.use_reusable_pool
= true;
1222 static struct pb_buffer
*amdgpu_bo_from_handle(struct radeon_winsys
*rws
,
1223 struct winsys_handle
*whandle
,
1227 struct amdgpu_winsys
*ws
= amdgpu_winsys(rws
);
1228 struct amdgpu_winsys_bo
*bo
;
1229 enum amdgpu_bo_handle_type type
;
1230 struct amdgpu_bo_import_result result
= {0};
1232 amdgpu_va_handle va_handle
;
1233 struct amdgpu_bo_info info
= {0};
1234 enum radeon_bo_domain initial
= 0;
1237 /* Initialize the structure. */
1238 bo
= CALLOC_STRUCT(amdgpu_winsys_bo
);
1243 switch (whandle
->type
) {
1244 case DRM_API_HANDLE_TYPE_SHARED
:
1245 type
= amdgpu_bo_handle_type_gem_flink_name
;
1247 case DRM_API_HANDLE_TYPE_FD
:
1248 type
= amdgpu_bo_handle_type_dma_buf_fd
;
1254 r
= amdgpu_bo_import(ws
->dev
, type
, whandle
->handle
, &result
);
1258 /* Get initial domains. */
1259 r
= amdgpu_bo_query_info(result
.buf_handle
, &info
);
1263 r
= amdgpu_va_range_alloc(ws
->dev
, amdgpu_gpu_va_range_general
,
1264 result
.alloc_size
, 1 << 20, 0, &va
, &va_handle
, 0);
1268 r
= amdgpu_bo_va_op(result
.buf_handle
, 0, result
.alloc_size
, va
, 0, AMDGPU_VA_OP_MAP
);
1272 if (info
.preferred_heap
& AMDGPU_GEM_DOMAIN_VRAM
)
1273 initial
|= RADEON_DOMAIN_VRAM
;
1274 if (info
.preferred_heap
& AMDGPU_GEM_DOMAIN_GTT
)
1275 initial
|= RADEON_DOMAIN_GTT
;
1278 pipe_reference_init(&bo
->base
.reference
, 1);
1279 bo
->base
.alignment
= info
.phys_alignment
;
1280 bo
->bo
= result
.buf_handle
;
1281 bo
->base
.size
= result
.alloc_size
;
1282 bo
->base
.vtbl
= &amdgpu_winsys_bo_vtbl
;
1285 bo
->u
.real
.va_handle
= va_handle
;
1286 bo
->initial_domain
= initial
;
1287 bo
->unique_id
= __sync_fetch_and_add(&ws
->next_bo_unique_id
, 1);
1288 bo
->is_shared
= true;
1291 *stride
= whandle
->stride
;
1293 *offset
= whandle
->offset
;
1295 if (bo
->initial_domain
& RADEON_DOMAIN_VRAM
)
1296 ws
->allocated_vram
+= align64(bo
->base
.size
, ws
->info
.gart_page_size
);
1297 else if (bo
->initial_domain
& RADEON_DOMAIN_GTT
)
1298 ws
->allocated_gtt
+= align64(bo
->base
.size
, ws
->info
.gart_page_size
);
1300 amdgpu_add_buffer_to_global_list(bo
);
1305 amdgpu_va_range_free(va_handle
);
1308 amdgpu_bo_free(result
.buf_handle
);
1315 static bool amdgpu_bo_get_handle(struct pb_buffer
*buffer
,
1316 unsigned stride
, unsigned offset
,
1317 unsigned slice_size
,
1318 struct winsys_handle
*whandle
)
1320 struct amdgpu_winsys_bo
*bo
= amdgpu_winsys_bo(buffer
);
1321 enum amdgpu_bo_handle_type type
;
1324 /* Don't allow exports of slab entries and sparse buffers. */
1328 bo
->u
.real
.use_reusable_pool
= false;
1330 switch (whandle
->type
) {
1331 case DRM_API_HANDLE_TYPE_SHARED
:
1332 type
= amdgpu_bo_handle_type_gem_flink_name
;
1334 case DRM_API_HANDLE_TYPE_FD
:
1335 type
= amdgpu_bo_handle_type_dma_buf_fd
;
1337 case DRM_API_HANDLE_TYPE_KMS
:
1338 type
= amdgpu_bo_handle_type_kms
;
1344 r
= amdgpu_bo_export(bo
->bo
, type
, &whandle
->handle
);
1348 whandle
->stride
= stride
;
1349 whandle
->offset
= offset
;
1350 whandle
->offset
+= slice_size
* whandle
->layer
;
1351 bo
->is_shared
= true;
1355 static struct pb_buffer
*amdgpu_bo_from_ptr(struct radeon_winsys
*rws
,
1356 void *pointer
, uint64_t size
)
1358 struct amdgpu_winsys
*ws
= amdgpu_winsys(rws
);
1359 amdgpu_bo_handle buf_handle
;
1360 struct amdgpu_winsys_bo
*bo
;
1362 amdgpu_va_handle va_handle
;
1364 bo
= CALLOC_STRUCT(amdgpu_winsys_bo
);
1368 if (amdgpu_create_bo_from_user_mem(ws
->dev
, pointer
, size
, &buf_handle
))
1371 if (amdgpu_va_range_alloc(ws
->dev
, amdgpu_gpu_va_range_general
,
1372 size
, 1 << 12, 0, &va
, &va_handle
, 0))
1373 goto error_va_alloc
;
1375 if (amdgpu_bo_va_op(buf_handle
, 0, size
, va
, 0, AMDGPU_VA_OP_MAP
))
1378 /* Initialize it. */
1379 pipe_reference_init(&bo
->base
.reference
, 1);
1380 bo
->bo
= buf_handle
;
1381 bo
->base
.alignment
= 0;
1382 bo
->base
.size
= size
;
1383 bo
->base
.vtbl
= &amdgpu_winsys_bo_vtbl
;
1385 bo
->user_ptr
= pointer
;
1387 bo
->u
.real
.va_handle
= va_handle
;
1388 bo
->initial_domain
= RADEON_DOMAIN_GTT
;
1389 bo
->unique_id
= __sync_fetch_and_add(&ws
->next_bo_unique_id
, 1);
1391 ws
->allocated_gtt
+= align64(bo
->base
.size
, ws
->info
.gart_page_size
);
1393 amdgpu_add_buffer_to_global_list(bo
);
1395 return (struct pb_buffer
*)bo
;
1398 amdgpu_va_range_free(va_handle
);
1401 amdgpu_bo_free(buf_handle
);
1408 static bool amdgpu_bo_is_user_ptr(struct pb_buffer
*buf
)
1410 return ((struct amdgpu_winsys_bo
*)buf
)->user_ptr
!= NULL
;
1413 static uint64_t amdgpu_bo_get_va(struct pb_buffer
*buf
)
1415 return ((struct amdgpu_winsys_bo
*)buf
)->va
;
1418 void amdgpu_bo_init_functions(struct amdgpu_winsys
*ws
)
1420 ws
->base
.buffer_set_metadata
= amdgpu_buffer_set_metadata
;
1421 ws
->base
.buffer_get_metadata
= amdgpu_buffer_get_metadata
;
1422 ws
->base
.buffer_map
= amdgpu_bo_map
;
1423 ws
->base
.buffer_unmap
= amdgpu_bo_unmap
;
1424 ws
->base
.buffer_wait
= amdgpu_bo_wait
;
1425 ws
->base
.buffer_create
= amdgpu_bo_create
;
1426 ws
->base
.buffer_from_handle
= amdgpu_bo_from_handle
;
1427 ws
->base
.buffer_from_ptr
= amdgpu_bo_from_ptr
;
1428 ws
->base
.buffer_is_user_ptr
= amdgpu_bo_is_user_ptr
;
1429 ws
->base
.buffer_get_handle
= amdgpu_bo_get_handle
;
1430 ws
->base
.buffer_commit
= amdgpu_bo_sparse_commit
;
1431 ws
->base
.buffer_get_virtual_address
= amdgpu_bo_get_va
;
1432 ws
->base
.buffer_get_initial_domain
= amdgpu_bo_get_initial_domain
;