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14 * The above copyright notice and this permission notice (including the
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23 * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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26 **************************************************************************/
30 * Implementation of fenced buffers.
32 * \author Jose Fonseca <jrfonseca-at-tungstengraphics-dot-com>
33 * \author Thomas Hellström <thomas-at-tungstengraphics-dot-com>
37 #include "pipe/p_config.h"
39 #if defined(PIPE_OS_LINUX) || defined(PIPE_OS_BSD) || defined(PIPE_OS_SOLARIS)
44 #include "pipe/p_compiler.h"
45 #include "pipe/p_defines.h"
46 #include "util/u_debug.h"
47 #include "pipe/p_thread.h"
48 #include "util/u_memory.h"
49 #include "util/u_double_list.h"
51 #include "pb_buffer.h"
52 #include "pb_buffer_fenced.h"
57 * Convenience macro (type safe).
59 #define SUPER(__derived) (&(__derived)->base)
62 struct fenced_buffer_list
66 struct pb_fence_ops
*ops
;
69 struct list_head delayed
;
73 struct list_head unfenced
;
79 * Wrapper around a pipe buffer which adds fencing and reference counting.
87 struct pb_buffer base
;
88 struct pb_buffer
*buffer
;
89 struct fenced_buffer_list
*list
;
92 * Protected by fenced_buffer_list::mutex
94 struct list_head head
;
97 * Following members are mutable and protected by this mutex.
99 * You may lock this mutex alone, or lock it with fenced_buffer_list::mutex
100 * held, but in order to prevent deadlocks you must never lock
101 * fenced_buffer_list::mutex with this mutex held.
106 * A bitmask of PIPE_BUFFER_USAGE_CPU/GPU_READ/WRITE describing the current
112 struct pb_validate
*vl
;
113 unsigned validation_flags
;
114 struct pipe_fence_handle
*fence
;
118 static INLINE
struct fenced_buffer
*
119 fenced_buffer(struct pb_buffer
*buf
)
122 return (struct fenced_buffer
*)buf
;
127 * Add the buffer to the fenced list.
129 * fenced_buffer_list::mutex and fenced_buffer::mutex must be held, in this
130 * order before calling this function.
132 * Reference count should be incremented before calling this function.
135 fenced_buffer_add_locked(struct fenced_buffer_list
*fenced_list
,
136 struct fenced_buffer
*fenced_buf
)
138 assert(pipe_is_referenced(&fenced_buf
->base
.base
.reference
));
139 assert(fenced_buf
->flags
& PIPE_BUFFER_USAGE_GPU_READ_WRITE
);
140 assert(fenced_buf
->fence
);
142 /* TODO: Move the reference count increment here */
145 LIST_DEL(&fenced_buf
->head
);
146 assert(fenced_list
->numUnfenced
);
147 --fenced_list
->numUnfenced
;
149 LIST_ADDTAIL(&fenced_buf
->head
, &fenced_list
->delayed
);
150 ++fenced_list
->numDelayed
;
155 * Remove the buffer from the fenced list.
157 * fenced_buffer_list::mutex and fenced_buffer::mutex must be held, in this
158 * order before calling this function.
160 * Reference count should be decremented after calling this function.
163 fenced_buffer_remove_locked(struct fenced_buffer_list
*fenced_list
,
164 struct fenced_buffer
*fenced_buf
)
166 struct pb_fence_ops
*ops
= fenced_list
->ops
;
168 assert(fenced_buf
->fence
);
169 assert(fenced_buf
->list
== fenced_list
);
171 ops
->fence_reference(ops
, &fenced_buf
->fence
, NULL
);
172 fenced_buf
->flags
&= ~PIPE_BUFFER_USAGE_GPU_READ_WRITE
;
174 assert(fenced_buf
->head
.prev
);
175 assert(fenced_buf
->head
.next
);
177 LIST_DEL(&fenced_buf
->head
);
178 assert(fenced_list
->numDelayed
);
179 --fenced_list
->numDelayed
;
182 LIST_ADDTAIL(&fenced_buf
->head
, &fenced_list
->unfenced
);
183 ++fenced_list
->numUnfenced
;
186 /* TODO: Move the reference count decrement and destruction here */
191 * Wait for the fence to expire, and remove it from the fenced list.
193 * fenced_buffer::mutex must be held. fenced_buffer_list::mutex must not be
196 static INLINE
enum pipe_error
197 fenced_buffer_finish_locked(struct fenced_buffer_list
*fenced_list
,
198 struct fenced_buffer
*fenced_buf
)
200 struct pb_fence_ops
*ops
= fenced_list
->ops
;
201 enum pipe_error ret
= PIPE_ERROR
;
204 debug_warning("waiting for GPU");
207 assert(pipe_is_referenced(&fenced_buf
->base
.base
.reference
));
208 assert(fenced_buf
->fence
);
210 /* Acquire the global lock */
211 pipe_mutex_unlock(fenced_buf
->mutex
);
212 pipe_mutex_lock(fenced_list
->mutex
);
213 pipe_mutex_lock(fenced_buf
->mutex
);
215 if(fenced_buf
->fence
) {
216 if(ops
->fence_finish(ops
, fenced_buf
->fence
, 0) == 0) {
217 /* Remove from the fenced list */
218 /* TODO: remove consequents */
219 fenced_buffer_remove_locked(fenced_list
, fenced_buf
);
221 p_atomic_dec(&fenced_buf
->base
.base
.reference
.count
);
222 assert(pipe_is_referenced(&fenced_buf
->base
.base
.reference
));
224 fenced_buf
->flags
&= ~PIPE_BUFFER_USAGE_GPU_READ_WRITE
;
230 pipe_mutex_unlock(fenced_list
->mutex
);
237 * Free as many fenced buffers from the list head as possible.
240 fenced_buffer_list_check_free_locked(struct fenced_buffer_list
*fenced_list
,
243 struct pb_fence_ops
*ops
= fenced_list
->ops
;
244 struct list_head
*curr
, *next
;
245 struct fenced_buffer
*fenced_buf
;
246 struct pipe_fence_handle
*prev_fence
= NULL
;
248 curr
= fenced_list
->delayed
.next
;
250 while(curr
!= &fenced_list
->delayed
) {
251 fenced_buf
= LIST_ENTRY(struct fenced_buffer
, curr
, head
);
253 pipe_mutex_lock(fenced_buf
->mutex
);
255 if(fenced_buf
->fence
!= prev_fence
) {
258 signaled
= ops
->fence_finish(ops
, fenced_buf
->fence
, 0);
260 signaled
= ops
->fence_signalled(ops
, fenced_buf
->fence
, 0);
262 pipe_mutex_unlock(fenced_buf
->mutex
);
265 prev_fence
= fenced_buf
->fence
;
268 assert(ops
->fence_signalled(ops
, fenced_buf
->fence
, 0) == 0);
271 fenced_buffer_remove_locked(fenced_list
, fenced_buf
);
272 pipe_mutex_unlock(fenced_buf
->mutex
);
274 pb_reference((struct pb_buffer
**)&fenced_buf
, NULL
);
283 fenced_buffer_destroy(struct pb_buffer
*buf
)
285 struct fenced_buffer
*fenced_buf
= fenced_buffer(buf
);
286 struct fenced_buffer_list
*fenced_list
= fenced_buf
->list
;
288 assert(!pipe_is_referenced(&fenced_buf
->base
.base
.reference
));
289 assert(!fenced_buf
->fence
);
292 pipe_mutex_lock(fenced_list
->mutex
);
293 assert(fenced_buf
->head
.prev
);
294 assert(fenced_buf
->head
.next
);
295 LIST_DEL(&fenced_buf
->head
);
296 assert(fenced_list
->numUnfenced
);
297 --fenced_list
->numUnfenced
;
298 pipe_mutex_unlock(fenced_list
->mutex
);
303 pb_reference(&fenced_buf
->buffer
, NULL
);
305 pipe_mutex_destroy(fenced_buf
->mutex
);
311 fenced_buffer_map(struct pb_buffer
*buf
,
314 struct fenced_buffer
*fenced_buf
= fenced_buffer(buf
);
315 struct fenced_buffer_list
*fenced_list
= fenced_buf
->list
;
316 struct pb_fence_ops
*ops
= fenced_list
->ops
;
319 pipe_mutex_lock(fenced_buf
->mutex
);
321 assert(!(flags
& PIPE_BUFFER_USAGE_GPU_READ_WRITE
));
323 /* Serialize writes */
324 if((fenced_buf
->flags
& PIPE_BUFFER_USAGE_GPU_WRITE
) ||
325 ((fenced_buf
->flags
& PIPE_BUFFER_USAGE_GPU_READ
) && (flags
& PIPE_BUFFER_USAGE_CPU_WRITE
))) {
326 if((flags
& PIPE_BUFFER_USAGE_DONTBLOCK
) &&
327 ops
->fence_signalled(ops
, fenced_buf
->fence
, 0) == 0) {
328 /* Don't wait for the GPU to finish writing */
332 /* Wait for the GPU to finish writing */
333 fenced_buffer_finish_locked(fenced_list
, fenced_buf
);
337 /* Check for CPU write access (read is OK) */
338 if(fenced_buf
->flags
& PIPE_BUFFER_USAGE_CPU_READ_WRITE
) {
339 /* this is legal -- just for debugging */
340 debug_warning("concurrent CPU writes");
344 map
= pb_map(fenced_buf
->buffer
, flags
);
346 ++fenced_buf
->mapcount
;
347 fenced_buf
->flags
|= flags
& PIPE_BUFFER_USAGE_CPU_READ_WRITE
;
351 pipe_mutex_unlock(fenced_buf
->mutex
);
358 fenced_buffer_unmap(struct pb_buffer
*buf
)
360 struct fenced_buffer
*fenced_buf
= fenced_buffer(buf
);
362 pipe_mutex_lock(fenced_buf
->mutex
);
364 assert(fenced_buf
->mapcount
);
365 if(fenced_buf
->mapcount
) {
366 pb_unmap(fenced_buf
->buffer
);
367 --fenced_buf
->mapcount
;
368 if(!fenced_buf
->mapcount
)
369 fenced_buf
->flags
&= ~PIPE_BUFFER_USAGE_CPU_READ_WRITE
;
372 pipe_mutex_unlock(fenced_buf
->mutex
);
376 static enum pipe_error
377 fenced_buffer_validate(struct pb_buffer
*buf
,
378 struct pb_validate
*vl
,
381 struct fenced_buffer
*fenced_buf
= fenced_buffer(buf
);
384 pipe_mutex_lock(fenced_buf
->mutex
);
388 fenced_buf
->vl
= NULL
;
389 fenced_buf
->validation_flags
= 0;
394 assert(flags
& PIPE_BUFFER_USAGE_GPU_READ_WRITE
);
395 assert(!(flags
& ~PIPE_BUFFER_USAGE_GPU_READ_WRITE
));
396 flags
&= PIPE_BUFFER_USAGE_GPU_READ_WRITE
;
398 /* Buffer cannot be validated in two different lists */
399 if(fenced_buf
->vl
&& fenced_buf
->vl
!= vl
) {
400 ret
= PIPE_ERROR_RETRY
;
405 /* Do not validate if buffer is still mapped */
406 if(fenced_buf
->flags
& PIPE_BUFFER_USAGE_CPU_READ_WRITE
) {
407 /* TODO: wait for the thread that mapped the buffer to unmap it */
408 ret
= PIPE_ERROR_RETRY
;
411 /* Final sanity checking */
412 assert(!(fenced_buf
->flags
& PIPE_BUFFER_USAGE_CPU_READ_WRITE
));
413 assert(!fenced_buf
->mapcount
);
416 if(fenced_buf
->vl
== vl
&&
417 (fenced_buf
->validation_flags
& flags
) == flags
) {
418 /* Nothing to do -- buffer already validated */
423 ret
= pb_validate(fenced_buf
->buffer
, vl
, flags
);
428 fenced_buf
->validation_flags
|= flags
;
431 pipe_mutex_unlock(fenced_buf
->mutex
);
438 fenced_buffer_fence(struct pb_buffer
*buf
,
439 struct pipe_fence_handle
*fence
)
441 struct fenced_buffer
*fenced_buf
;
442 struct fenced_buffer_list
*fenced_list
;
443 struct pb_fence_ops
*ops
;
445 fenced_buf
= fenced_buffer(buf
);
446 fenced_list
= fenced_buf
->list
;
447 ops
= fenced_list
->ops
;
449 pipe_mutex_lock(fenced_list
->mutex
);
450 pipe_mutex_lock(fenced_buf
->mutex
);
452 assert(pipe_is_referenced(&fenced_buf
->base
.base
.reference
));
454 if(fence
!= fenced_buf
->fence
) {
455 assert(fenced_buf
->vl
);
456 assert(fenced_buf
->validation_flags
);
458 if (fenced_buf
->fence
) {
459 fenced_buffer_remove_locked(fenced_list
, fenced_buf
);
460 p_atomic_dec(&fenced_buf
->base
.base
.reference
.count
);
461 assert(pipe_is_referenced(&fenced_buf
->base
.base
.reference
));
464 ops
->fence_reference(ops
, &fenced_buf
->fence
, fence
);
465 fenced_buf
->flags
|= fenced_buf
->validation_flags
;
466 p_atomic_inc(&fenced_buf
->base
.base
.reference
.count
);
467 fenced_buffer_add_locked(fenced_list
, fenced_buf
);
470 pb_fence(fenced_buf
->buffer
, fence
);
472 fenced_buf
->vl
= NULL
;
473 fenced_buf
->validation_flags
= 0;
476 pipe_mutex_unlock(fenced_buf
->mutex
);
477 pipe_mutex_unlock(fenced_list
->mutex
);
482 fenced_buffer_get_base_buffer(struct pb_buffer
*buf
,
483 struct pb_buffer
**base_buf
,
486 struct fenced_buffer
*fenced_buf
= fenced_buffer(buf
);
487 /* NOTE: accesses immutable members only -- mutex not necessary */
488 pb_get_base_buffer(fenced_buf
->buffer
, base_buf
, offset
);
492 static const struct pb_vtbl
493 fenced_buffer_vtbl
= {
494 fenced_buffer_destroy
,
497 fenced_buffer_validate
,
499 fenced_buffer_get_base_buffer
504 fenced_buffer_create(struct fenced_buffer_list
*fenced_list
,
505 struct pb_buffer
*buffer
)
507 struct fenced_buffer
*buf
;
512 buf
= CALLOC_STRUCT(fenced_buffer
);
514 pb_reference(&buffer
, NULL
);
518 pipe_reference_init(&buf
->base
.base
.reference
, 1);
519 buf
->base
.base
.alignment
= buffer
->base
.alignment
;
520 buf
->base
.base
.usage
= buffer
->base
.usage
;
521 buf
->base
.base
.size
= buffer
->base
.size
;
523 buf
->base
.vtbl
= &fenced_buffer_vtbl
;
524 buf
->buffer
= buffer
;
525 buf
->list
= fenced_list
;
527 pipe_mutex_init(buf
->mutex
);
530 pipe_mutex_lock(fenced_list
->mutex
);
531 LIST_ADDTAIL(&buf
->head
, &fenced_list
->unfenced
);
532 ++fenced_list
->numUnfenced
;
533 pipe_mutex_unlock(fenced_list
->mutex
);
540 struct fenced_buffer_list
*
541 fenced_buffer_list_create(struct pb_fence_ops
*ops
)
543 struct fenced_buffer_list
*fenced_list
;
545 fenced_list
= CALLOC_STRUCT(fenced_buffer_list
);
549 fenced_list
->ops
= ops
;
551 LIST_INITHEAD(&fenced_list
->delayed
);
552 fenced_list
->numDelayed
= 0;
555 LIST_INITHEAD(&fenced_list
->unfenced
);
556 fenced_list
->numUnfenced
= 0;
559 pipe_mutex_init(fenced_list
->mutex
);
566 fenced_buffer_list_check_free(struct fenced_buffer_list
*fenced_list
,
569 pipe_mutex_lock(fenced_list
->mutex
);
570 fenced_buffer_list_check_free_locked(fenced_list
, wait
);
571 pipe_mutex_unlock(fenced_list
->mutex
);
577 fenced_buffer_list_dump(struct fenced_buffer_list
*fenced_list
)
579 struct pb_fence_ops
*ops
= fenced_list
->ops
;
580 struct list_head
*curr
, *next
;
581 struct fenced_buffer
*fenced_buf
;
583 pipe_mutex_lock(fenced_list
->mutex
);
585 debug_printf("%10s %7s %7s %10s %s\n",
586 "buffer", "size", "refcount", "fence", "signalled");
588 curr
= fenced_list
->unfenced
.next
;
590 while(curr
!= &fenced_list
->unfenced
) {
591 fenced_buf
= LIST_ENTRY(struct fenced_buffer
, curr
, head
);
592 pipe_mutex_lock(fenced_buf
->mutex
);
593 assert(!fenced_buf
->fence
);
594 debug_printf("%10p %7u %7u\n",
596 fenced_buf
->base
.base
.size
,
597 p_atomic_read(&fenced_buf
->base
.base
.reference
.count
));
598 pipe_mutex_unlock(fenced_buf
->mutex
);
603 curr
= fenced_list
->delayed
.next
;
605 while(curr
!= &fenced_list
->delayed
) {
607 fenced_buf
= LIST_ENTRY(struct fenced_buffer
, curr
, head
);
608 pipe_mutex_lock(fenced_buf
->mutex
);
609 signaled
= ops
->fence_signalled(ops
, fenced_buf
->fence
, 0);
610 debug_printf("%10p %7u %7u %10p %s\n",
612 fenced_buf
->base
.base
.size
,
613 p_atomic_read(&fenced_buf
->base
.base
.reference
.count
),
614 (void *) fenced_buf
->fence
,
615 signaled
== 0 ? "y" : "n");
616 pipe_mutex_unlock(fenced_buf
->mutex
);
621 pipe_mutex_unlock(fenced_list
->mutex
);
627 fenced_buffer_list_destroy(struct fenced_buffer_list
*fenced_list
)
629 pipe_mutex_lock(fenced_list
->mutex
);
631 /* Wait on outstanding fences */
632 while (fenced_list
->numDelayed
) {
633 pipe_mutex_unlock(fenced_list
->mutex
);
634 #if defined(PIPE_OS_LINUX) || defined(PIPE_OS_BSD) || defined(PIPE_OS_SOLARIS)
637 pipe_mutex_lock(fenced_list
->mutex
);
638 fenced_buffer_list_check_free_locked(fenced_list
, 1);
642 /*assert(!fenced_list->numUnfenced);*/
645 pipe_mutex_unlock(fenced_list
->mutex
);
646 pipe_mutex_destroy(fenced_list
->mutex
);
648 fenced_list
->ops
->destroy(fenced_list
->ops
);