2 * Copyright (C) 2012-2018 Rob Clark <robclark@freedesktop.org>
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
20 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
24 * Rob Clark <robclark@freedesktop.org>
30 #include "util/hash_table.h"
32 #include "util/slab.h"
34 #include "drm/freedreno_ringbuffer.h"
37 /* The legacy implementation of submit/ringbuffer, which still does the
38 * traditional reloc and cmd tracking
42 #define INIT_SIZE 0x1000
46 struct fd_submit base
;
48 DECLARE_ARRAY(struct drm_msm_gem_submit_bo
, submit_bos
);
49 DECLARE_ARRAY(struct fd_bo
*, bos
);
51 /* maps fd_bo to idx in bos table: */
52 struct hash_table
*bo_table
;
54 struct slab_mempool ring_pool
;
56 /* hash-set of associated rings: */
59 struct fd_ringbuffer
*primary
;
61 /* Allow for sub-allocation of stateobj ring buffers (ie. sharing
62 * the same underlying bo)..
64 * We also rely on previous stateobj having been fully constructed
65 * so we can reclaim extra space at it's end.
67 struct fd_ringbuffer
*suballoc_ring
;
69 FD_DEFINE_CAST(fd_submit
, msm_submit
);
71 /* for FD_RINGBUFFER_GROWABLE rb's, tracks the 'finalized' cmdstream buffers
72 * and sizes. Ie. a finalized buffer can have no more commands appended to
76 struct fd_bo
*ring_bo
;
78 DECLARE_ARRAY(struct drm_msm_gem_submit_reloc
, relocs
);
81 static struct msm_cmd
*
82 cmd_new(struct fd_bo
*ring_bo
)
84 struct msm_cmd
*cmd
= malloc(sizeof(*cmd
));
85 cmd
->ring_bo
= fd_bo_ref(ring_bo
);
87 cmd
->nr_relocs
= cmd
->max_relocs
= 0;
93 cmd_free(struct msm_cmd
*cmd
)
95 fd_bo_del(cmd
->ring_bo
);
100 struct msm_ringbuffer
{
101 struct fd_ringbuffer base
;
103 /* for FD_RINGBUFFER_STREAMING rb's which are sub-allocated */
107 /* for _FD_RINGBUFFER_OBJECT case: */
109 struct fd_pipe
*pipe
;
110 DECLARE_ARRAY(struct fd_bo
*, reloc_bos
);
111 struct set
*ring_set
;
113 /* for other cases: */
115 struct fd_submit
*submit
;
116 DECLARE_ARRAY(struct msm_cmd
*, cmds
);
120 struct msm_cmd
*cmd
; /* current cmd */
121 struct fd_bo
*ring_bo
;
123 FD_DEFINE_CAST(fd_ringbuffer
, msm_ringbuffer
);
125 static void finalize_current_cmd(struct fd_ringbuffer
*ring
);
126 static struct fd_ringbuffer
* msm_ringbuffer_init(
127 struct msm_ringbuffer
*msm_ring
,
128 uint32_t size
, enum fd_ringbuffer_flags flags
);
130 /* add (if needed) bo to submit and return index: */
132 append_bo(struct msm_submit
*submit
, struct fd_bo
*bo
)
134 struct msm_bo
*msm_bo
= to_msm_bo(bo
);
137 /* NOTE: it is legal to use the same bo on different threads for
138 * different submits. But it is not legal to use the same submit
139 * from given threads.
141 idx
= READ_ONCE(msm_bo
->idx
);
143 if (unlikely((idx
>= submit
->nr_submit_bos
) ||
144 (submit
->submit_bos
[idx
].handle
!= bo
->handle
))) {
145 uint32_t hash
= _mesa_hash_pointer(bo
);
146 struct hash_entry
*entry
;
148 entry
= _mesa_hash_table_search_pre_hashed(submit
->bo_table
, hash
, bo
);
151 idx
= (uint32_t)(uintptr_t)entry
->data
;
153 idx
= APPEND(submit
, submit_bos
);
154 idx
= APPEND(submit
, bos
);
156 submit
->submit_bos
[idx
].flags
= bo
->flags
&
157 (MSM_SUBMIT_BO_READ
| MSM_SUBMIT_BO_WRITE
);
158 submit
->submit_bos
[idx
].handle
= bo
->handle
;
159 submit
->submit_bos
[idx
].presumed
= 0;
161 submit
->bos
[idx
] = fd_bo_ref(bo
);
163 _mesa_hash_table_insert_pre_hashed(submit
->bo_table
, hash
, bo
,
164 (void *)(uintptr_t)idx
);
173 append_ring(struct set
*set
, struct fd_ringbuffer
*ring
)
175 uint32_t hash
= _mesa_hash_pointer(ring
);
177 if (!_mesa_set_search_pre_hashed(set
, hash
, ring
)) {
178 fd_ringbuffer_ref(ring
);
179 _mesa_set_add_pre_hashed(set
, hash
, ring
);
184 msm_submit_suballoc_ring_bo(struct fd_submit
*submit
,
185 struct msm_ringbuffer
*msm_ring
, uint32_t size
)
187 struct msm_submit
*msm_submit
= to_msm_submit(submit
);
188 unsigned suballoc_offset
= 0;
189 struct fd_bo
*suballoc_bo
= NULL
;
191 if (msm_submit
->suballoc_ring
) {
192 struct msm_ringbuffer
*suballoc_ring
=
193 to_msm_ringbuffer(msm_submit
->suballoc_ring
);
195 suballoc_bo
= suballoc_ring
->ring_bo
;
196 suballoc_offset
= fd_ringbuffer_size(msm_submit
->suballoc_ring
) +
197 suballoc_ring
->offset
;
199 suballoc_offset
= align(suballoc_offset
, 0x10);
201 if ((size
+ suballoc_offset
) > suballoc_bo
->size
) {
207 // TODO possibly larger size for streaming bo?
208 msm_ring
->ring_bo
= fd_bo_new_ring(submit
->pipe
->dev
, 0x8000);
209 msm_ring
->offset
= 0;
211 msm_ring
->ring_bo
= fd_bo_ref(suballoc_bo
);
212 msm_ring
->offset
= suballoc_offset
;
215 struct fd_ringbuffer
*old_suballoc_ring
= msm_submit
->suballoc_ring
;
217 msm_submit
->suballoc_ring
= fd_ringbuffer_ref(&msm_ring
->base
);
219 if (old_suballoc_ring
)
220 fd_ringbuffer_del(old_suballoc_ring
);
223 static struct fd_ringbuffer
*
224 msm_submit_new_ringbuffer(struct fd_submit
*submit
, uint32_t size
,
225 enum fd_ringbuffer_flags flags
)
227 struct msm_submit
*msm_submit
= to_msm_submit(submit
);
228 struct msm_ringbuffer
*msm_ring
;
230 msm_ring
= slab_alloc_st(&msm_submit
->ring_pool
);
232 msm_ring
->u
.submit
= submit
;
234 /* NOTE: needs to be before _suballoc_ring_bo() since it could
235 * increment the refcnt of the current ring
237 msm_ring
->base
.refcnt
= 1;
239 if (flags
& FD_RINGBUFFER_STREAMING
) {
240 msm_submit_suballoc_ring_bo(submit
, msm_ring
, size
);
242 if (flags
& FD_RINGBUFFER_GROWABLE
)
245 msm_ring
->offset
= 0;
246 msm_ring
->ring_bo
= fd_bo_new_ring(submit
->pipe
->dev
, size
);
249 if (!msm_ringbuffer_init(msm_ring
, size
, flags
))
252 if (flags
& FD_RINGBUFFER_PRIMARY
) {
253 debug_assert(!msm_submit
->primary
);
254 msm_submit
->primary
= fd_ringbuffer_ref(&msm_ring
->base
);
257 return &msm_ring
->base
;
260 static struct drm_msm_gem_submit_reloc
*
261 handle_stateobj_relocs(struct msm_submit
*submit
, struct msm_ringbuffer
*ring
)
263 struct msm_cmd
*cmd
= ring
->cmd
;
264 struct drm_msm_gem_submit_reloc
*relocs
;
266 relocs
= malloc(cmd
->nr_relocs
* sizeof(*relocs
));
268 for (unsigned i
= 0; i
< cmd
->nr_relocs
; i
++) {
269 unsigned idx
= cmd
->relocs
[i
].reloc_idx
;
270 struct fd_bo
*bo
= ring
->u
.reloc_bos
[idx
];
272 relocs
[i
] = cmd
->relocs
[i
];
273 relocs
[i
].reloc_idx
= append_bo(submit
, bo
);
280 msm_submit_flush(struct fd_submit
*submit
, int in_fence_fd
,
281 int *out_fence_fd
, uint32_t *out_fence
)
283 struct msm_submit
*msm_submit
= to_msm_submit(submit
);
284 struct msm_pipe
*msm_pipe
= to_msm_pipe(submit
->pipe
);
285 struct drm_msm_gem_submit req
= {
286 .flags
= msm_pipe
->pipe
,
287 .queueid
= msm_pipe
->queue_id
,
291 debug_assert(msm_submit
->primary
);
293 finalize_current_cmd(msm_submit
->primary
);
294 append_ring(msm_submit
->ring_set
, msm_submit
->primary
);
296 unsigned nr_cmds
= 0;
297 unsigned nr_objs
= 0;
299 set_foreach(msm_submit
->ring_set
, entry
) {
300 struct fd_ringbuffer
*ring
= (void *)entry
->key
;
301 if (ring
->flags
& _FD_RINGBUFFER_OBJECT
) {
305 if (ring
!= msm_submit
->primary
)
306 finalize_current_cmd(ring
);
307 nr_cmds
+= to_msm_ringbuffer(ring
)->u
.nr_cmds
;
311 void *obj_relocs
[nr_objs
];
312 struct drm_msm_gem_submit_cmd cmds
[nr_cmds
];
313 unsigned i
= 0, o
= 0;
315 set_foreach(msm_submit
->ring_set
, entry
) {
316 struct fd_ringbuffer
*ring
= (void *)entry
->key
;
317 struct msm_ringbuffer
*msm_ring
= to_msm_ringbuffer(ring
);
319 debug_assert(i
< nr_cmds
);
321 // TODO handle relocs:
322 if (ring
->flags
& _FD_RINGBUFFER_OBJECT
) {
324 debug_assert(o
< nr_objs
);
326 void *relocs
= handle_stateobj_relocs(msm_submit
, msm_ring
);
327 obj_relocs
[o
++] = relocs
;
329 cmds
[i
].type
= MSM_SUBMIT_CMD_IB_TARGET_BUF
;
331 append_bo(msm_submit
, msm_ring
->ring_bo
);
332 cmds
[i
].submit_offset
= msm_ring
->offset
;
333 cmds
[i
].size
= offset_bytes(ring
->cur
, ring
->start
);
335 cmds
[i
].nr_relocs
= msm_ring
->cmd
->nr_relocs
;
336 cmds
[i
].relocs
= VOID2U64(relocs
);
340 for (unsigned j
= 0; j
< msm_ring
->u
.nr_cmds
; j
++) {
341 if (ring
->flags
& FD_RINGBUFFER_PRIMARY
) {
342 cmds
[i
].type
= MSM_SUBMIT_CMD_BUF
;
344 cmds
[i
].type
= MSM_SUBMIT_CMD_IB_TARGET_BUF
;
346 cmds
[i
].submit_idx
= append_bo(msm_submit
,
347 msm_ring
->u
.cmds
[j
]->ring_bo
);
348 cmds
[i
].submit_offset
= msm_ring
->offset
;
349 cmds
[i
].size
= msm_ring
->u
.cmds
[j
]->size
;
351 cmds
[i
].nr_relocs
= msm_ring
->u
.cmds
[j
]->nr_relocs
;
352 cmds
[i
].relocs
= VOID2U64(msm_ring
->u
.cmds
[j
]->relocs
);
359 if (in_fence_fd
!= -1) {
360 req
.flags
|= MSM_SUBMIT_FENCE_FD_IN
| MSM_SUBMIT_NO_IMPLICIT
;
361 req
.fence_fd
= in_fence_fd
;
365 req
.flags
|= MSM_SUBMIT_FENCE_FD_OUT
;
368 /* needs to be after get_cmd() as that could create bos/cmds table: */
369 req
.bos
= VOID2U64(msm_submit
->submit_bos
),
370 req
.nr_bos
= msm_submit
->nr_submit_bos
;
371 req
.cmds
= VOID2U64(cmds
),
372 req
.nr_cmds
= nr_cmds
;
374 DEBUG_MSG("nr_cmds=%u, nr_bos=%u", req
.nr_cmds
, req
.nr_bos
);
376 ret
= drmCommandWriteRead(submit
->pipe
->dev
->fd
, DRM_MSM_GEM_SUBMIT
,
379 ERROR_MSG("submit failed: %d (%s)", ret
, strerror(errno
));
380 msm_dump_submit(&req
);
383 *out_fence
= req
.fence
;
386 *out_fence_fd
= req
.fence_fd
;
389 for (unsigned o
= 0; o
< nr_objs
; o
++)
396 unref_rings(struct set_entry
*entry
)
398 struct fd_ringbuffer
*ring
= (void *)entry
->key
;
399 fd_ringbuffer_del(ring
);
403 msm_submit_destroy(struct fd_submit
*submit
)
405 struct msm_submit
*msm_submit
= to_msm_submit(submit
);
407 if (msm_submit
->primary
)
408 fd_ringbuffer_del(msm_submit
->primary
);
409 if (msm_submit
->suballoc_ring
)
410 fd_ringbuffer_del(msm_submit
->suballoc_ring
);
412 _mesa_hash_table_destroy(msm_submit
->bo_table
, NULL
);
413 _mesa_set_destroy(msm_submit
->ring_set
, unref_rings
);
415 // TODO it would be nice to have a way to debug_assert() if all
416 // rb's haven't been free'd back to the slab, because that is
417 // an indication that we are leaking bo's
418 slab_destroy(&msm_submit
->ring_pool
);
420 for (unsigned i
= 0; i
< msm_submit
->nr_bos
; i
++)
421 fd_bo_del(msm_submit
->bos
[i
]);
423 free(msm_submit
->submit_bos
);
424 free(msm_submit
->bos
);
428 static const struct fd_submit_funcs submit_funcs
= {
429 .new_ringbuffer
= msm_submit_new_ringbuffer
,
430 .flush
= msm_submit_flush
,
431 .destroy
= msm_submit_destroy
,
435 msm_submit_new(struct fd_pipe
*pipe
)
437 struct msm_submit
*msm_submit
= calloc(1, sizeof(*msm_submit
));
438 struct fd_submit
*submit
;
440 msm_submit
->bo_table
= _mesa_hash_table_create(NULL
,
441 _mesa_hash_pointer
, _mesa_key_pointer_equal
);
442 msm_submit
->ring_set
= _mesa_set_create(NULL
,
443 _mesa_hash_pointer
, _mesa_key_pointer_equal
);
445 slab_create(&msm_submit
->ring_pool
, sizeof(struct msm_ringbuffer
), 16);
447 submit
= &msm_submit
->base
;
449 submit
->funcs
= &submit_funcs
;
456 finalize_current_cmd(struct fd_ringbuffer
*ring
)
458 struct msm_ringbuffer
*msm_ring
= to_msm_ringbuffer(ring
);
460 debug_assert(!(ring
->flags
& _FD_RINGBUFFER_OBJECT
));
465 debug_assert(msm_ring
->cmd
->ring_bo
== msm_ring
->ring_bo
);
467 unsigned idx
= APPEND(&msm_ring
->u
, cmds
);
469 msm_ring
->u
.cmds
[idx
] = msm_ring
->cmd
;
470 msm_ring
->cmd
= NULL
;
472 msm_ring
->u
.cmds
[idx
]->size
= offset_bytes(ring
->cur
, ring
->start
);
476 msm_ringbuffer_grow(struct fd_ringbuffer
*ring
, uint32_t size
)
478 struct msm_ringbuffer
*msm_ring
= to_msm_ringbuffer(ring
);
479 struct fd_pipe
*pipe
= msm_ring
->u
.submit
->pipe
;
481 debug_assert(ring
->flags
& FD_RINGBUFFER_GROWABLE
);
483 finalize_current_cmd(ring
);
485 fd_bo_del(msm_ring
->ring_bo
);
486 msm_ring
->ring_bo
= fd_bo_new_ring(pipe
->dev
, size
);
487 msm_ring
->cmd
= cmd_new(msm_ring
->ring_bo
);
489 ring
->start
= fd_bo_map(msm_ring
->ring_bo
);
490 ring
->end
= &(ring
->start
[size
/4]);
491 ring
->cur
= ring
->start
;
496 msm_ringbuffer_emit_reloc(struct fd_ringbuffer
*ring
,
497 const struct fd_reloc
*reloc
)
499 struct msm_ringbuffer
*msm_ring
= to_msm_ringbuffer(ring
);
500 struct fd_pipe
*pipe
;
503 if (ring
->flags
& _FD_RINGBUFFER_OBJECT
) {
504 unsigned idx
= APPEND(&msm_ring
->u
, reloc_bos
);
506 msm_ring
->u
.reloc_bos
[idx
] = fd_bo_ref(reloc
->bo
);
508 /* this gets fixed up at submit->flush() time, since this state-
509 * object rb can be used with many different submits
513 pipe
= msm_ring
->u
.pipe
;
515 struct msm_submit
*msm_submit
=
516 to_msm_submit(msm_ring
->u
.submit
);
518 reloc_idx
= append_bo(msm_submit
, reloc
->bo
);
520 pipe
= msm_ring
->u
.submit
->pipe
;
523 struct drm_msm_gem_submit_reloc
*r
;
524 unsigned idx
= APPEND(msm_ring
->cmd
, relocs
);
526 r
= &msm_ring
->cmd
->relocs
[idx
];
528 r
->reloc_idx
= reloc_idx
;
529 r
->reloc_offset
= reloc
->offset
;
531 r
->shift
= reloc
->shift
;
532 r
->submit_offset
= offset_bytes(ring
->cur
, ring
->start
) +
537 if (pipe
->gpu_id
>= 500) {
538 idx
= APPEND(msm_ring
->cmd
, relocs
);
539 r
= &msm_ring
->cmd
->relocs
[idx
];
541 r
->reloc_idx
= reloc_idx
;
542 r
->reloc_offset
= reloc
->offset
;
544 r
->shift
= reloc
->shift
- 32;
545 r
->submit_offset
= offset_bytes(ring
->cur
, ring
->start
) +
553 append_stateobj_rings(struct msm_submit
*submit
, struct fd_ringbuffer
*target
)
555 struct msm_ringbuffer
*msm_target
= to_msm_ringbuffer(target
);
557 debug_assert(target
->flags
& _FD_RINGBUFFER_OBJECT
);
559 set_foreach(msm_target
->u
.ring_set
, entry
) {
560 struct fd_ringbuffer
*ring
= (void *)entry
->key
;
562 append_ring(submit
->ring_set
, ring
);
564 if (ring
->flags
& _FD_RINGBUFFER_OBJECT
) {
565 append_stateobj_rings(submit
, ring
);
571 msm_ringbuffer_emit_reloc_ring(struct fd_ringbuffer
*ring
,
572 struct fd_ringbuffer
*target
, uint32_t cmd_idx
)
574 struct msm_ringbuffer
*msm_target
= to_msm_ringbuffer(target
);
575 struct msm_ringbuffer
*msm_ring
= to_msm_ringbuffer(ring
);
579 if ((target
->flags
& FD_RINGBUFFER_GROWABLE
) &&
580 (cmd_idx
< msm_target
->u
.nr_cmds
)) {
581 bo
= msm_target
->u
.cmds
[cmd_idx
]->ring_bo
;
582 size
= msm_target
->u
.cmds
[cmd_idx
]->size
;
584 bo
= msm_target
->ring_bo
;
585 size
= offset_bytes(target
->cur
, target
->start
);
588 msm_ringbuffer_emit_reloc(ring
, &(struct fd_reloc
){
590 .offset
= msm_target
->offset
,
596 if ((target
->flags
& _FD_RINGBUFFER_OBJECT
) &&
597 !(ring
->flags
& _FD_RINGBUFFER_OBJECT
)) {
598 struct msm_submit
*msm_submit
= to_msm_submit(msm_ring
->u
.submit
);
600 append_stateobj_rings(msm_submit
, target
);
603 if (ring
->flags
& _FD_RINGBUFFER_OBJECT
) {
604 append_ring(msm_ring
->u
.ring_set
, target
);
606 struct msm_submit
*msm_submit
= to_msm_submit(msm_ring
->u
.submit
);
607 append_ring(msm_submit
->ring_set
, target
);
614 msm_ringbuffer_cmd_count(struct fd_ringbuffer
*ring
)
616 if (ring
->flags
& FD_RINGBUFFER_GROWABLE
)
617 return to_msm_ringbuffer(ring
)->u
.nr_cmds
+ 1;
622 msm_ringbuffer_destroy(struct fd_ringbuffer
*ring
)
624 struct msm_ringbuffer
*msm_ring
= to_msm_ringbuffer(ring
);
626 fd_bo_del(msm_ring
->ring_bo
);
628 cmd_free(msm_ring
->cmd
);
630 if (ring
->flags
& _FD_RINGBUFFER_OBJECT
) {
631 for (unsigned i
= 0; i
< msm_ring
->u
.nr_reloc_bos
; i
++) {
632 fd_bo_del(msm_ring
->u
.reloc_bos
[i
]);
635 _mesa_set_destroy(msm_ring
->u
.ring_set
, unref_rings
);
637 free(msm_ring
->u
.reloc_bos
);
640 struct fd_submit
*submit
= msm_ring
->u
.submit
;
642 for (unsigned i
= 0; i
< msm_ring
->u
.nr_cmds
; i
++) {
643 cmd_free(msm_ring
->u
.cmds
[i
]);
646 free(msm_ring
->u
.cmds
);
647 slab_free_st(&to_msm_submit(submit
)->ring_pool
, msm_ring
);
651 static const struct fd_ringbuffer_funcs ring_funcs
= {
652 .grow
= msm_ringbuffer_grow
,
653 .emit_reloc
= msm_ringbuffer_emit_reloc
,
654 .emit_reloc_ring
= msm_ringbuffer_emit_reloc_ring
,
655 .cmd_count
= msm_ringbuffer_cmd_count
,
656 .destroy
= msm_ringbuffer_destroy
,
659 static inline struct fd_ringbuffer
*
660 msm_ringbuffer_init(struct msm_ringbuffer
*msm_ring
, uint32_t size
,
661 enum fd_ringbuffer_flags flags
)
663 struct fd_ringbuffer
*ring
= &msm_ring
->base
;
665 debug_assert(msm_ring
->ring_bo
);
667 uint8_t *base
= fd_bo_map(msm_ring
->ring_bo
);
668 ring
->start
= (void *)(base
+ msm_ring
->offset
);
669 ring
->end
= &(ring
->start
[size
/4]);
670 ring
->cur
= ring
->start
;
675 ring
->funcs
= &ring_funcs
;
677 msm_ring
->u
.cmds
= NULL
;
678 msm_ring
->u
.nr_cmds
= msm_ring
->u
.max_cmds
= 0;
680 msm_ring
->cmd
= cmd_new(msm_ring
->ring_bo
);
685 struct fd_ringbuffer
*
686 msm_ringbuffer_new_object(struct fd_pipe
*pipe
, uint32_t size
)
688 struct msm_ringbuffer
*msm_ring
= malloc(sizeof(*msm_ring
));
690 msm_ring
->u
.pipe
= pipe
;
691 msm_ring
->offset
= 0;
692 msm_ring
->ring_bo
= fd_bo_new_ring(pipe
->dev
, size
);
693 msm_ring
->base
.refcnt
= 1;
695 msm_ring
->u
.reloc_bos
= NULL
;
696 msm_ring
->u
.nr_reloc_bos
= msm_ring
->u
.max_reloc_bos
= 0;
698 msm_ring
->u
.ring_set
= _mesa_set_create(NULL
,
699 _mesa_hash_pointer
, _mesa_key_pointer_equal
);
701 return msm_ringbuffer_init(msm_ring
, size
, _FD_RINGBUFFER_OBJECT
);