1 /**********************************************************
2 * Copyright 2008-2009 VMware, Inc. All rights reserved.
4 * Permission is hereby granted, free of charge, to any person
5 * obtaining a copy of this software and associated documentation
6 * files (the "Software"), to deal in the Software without
7 * restriction, including without limitation the rights to use, copy,
8 * modify, merge, publish, distribute, sublicense, and/or sell copies
9 * of the Software, and to permit persons to whom the Software is
10 * furnished to do so, subject to the following conditions:
12 * The above copyright notice and this permission notice shall be
13 * included in all copies or substantial portions of the Software.
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
16 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
17 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
18 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
19 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
20 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
21 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
24 **********************************************************/
28 #include "pipe/p_state.h"
29 #include "pipe/p_defines.h"
30 #include "util/u_inlines.h"
31 #include "os/os_thread.h"
32 #include "util/u_math.h"
33 #include "util/u_memory.h"
35 #include "svga_context.h"
36 #include "svga_screen.h"
37 #include "svga_screen_buffer.h"
38 #include "svga_winsys.h"
39 #include "svga_debug.h"
43 * Vertex and index buffers have to be treated slightly differently from
44 * regular guest memory regions because the SVGA device sees them as
45 * surfaces, and the state tracker can create/destroy without the pipe
46 * driver, therefore we must do the uploads from the vws.
49 svga_buffer_needs_hw_storage(unsigned usage)
51 return usage & (PIPE_BUFFER_USAGE_VERTEX | PIPE_BUFFER_USAGE_INDEX);
55 static INLINE enum pipe_error
56 svga_buffer_create_host_surface(struct svga_screen *ss,
57 struct svga_buffer *sbuf)
62 sbuf->key.format = SVGA3D_BUFFER;
63 if(sbuf->base.usage & PIPE_BUFFER_USAGE_VERTEX)
64 sbuf->key.flags |= SVGA3D_SURFACE_HINT_VERTEXBUFFER;
65 if(sbuf->base.usage & PIPE_BUFFER_USAGE_INDEX)
66 sbuf->key.flags |= SVGA3D_SURFACE_HINT_INDEXBUFFER;
68 sbuf->key.size.width = sbuf->base.size;
69 sbuf->key.size.height = 1;
70 sbuf->key.size.depth = 1;
72 sbuf->key.numFaces = 1;
73 sbuf->key.numMipLevels = 1;
74 sbuf->key.cachable = 1;
76 SVGA_DBG(DEBUG_DMA, "surface_create for buffer sz %d\n", sbuf->base.size);
78 sbuf->handle = svga_screen_surface_create(ss, &sbuf->key);
80 return PIPE_ERROR_OUT_OF_MEMORY;
82 /* Always set the discard flag on the first time the buffer is written
83 * as svga_screen_surface_create might have passed a recycled host
86 sbuf->dma.flags.discard = TRUE;
88 SVGA_DBG(DEBUG_DMA, " --> got sid %p sz %d (buffer)\n", sbuf->handle, sbuf->base.size);
96 svga_buffer_destroy_host_surface(struct svga_screen *ss,
97 struct svga_buffer *sbuf)
100 SVGA_DBG(DEBUG_DMA, " ungrab sid %p sz %d\n", sbuf->handle, sbuf->base.size);
101 svga_screen_surface_destroy(ss, &sbuf->key, &sbuf->handle);
107 svga_buffer_destroy_hw_storage(struct svga_screen *ss, struct svga_buffer *sbuf)
109 struct svga_winsys_screen *sws = ss->sws;
111 assert(!sbuf->map.count);
114 sws->buffer_destroy(sws, sbuf->hwbuf);
119 struct svga_winsys_buffer *
120 svga_winsys_buffer_create( struct svga_screen *ss,
125 struct svga_winsys_screen *sws = ss->sws;
126 struct svga_winsys_buffer *buf;
129 buf = sws->buffer_create(sws, alignment, usage, size);
132 SVGA_DBG(DEBUG_DMA|DEBUG_PERF, "flushing screen to find %d bytes GMR\n",
135 /* Try flushing all pending DMAs */
136 svga_screen_flush(ss, NULL);
137 buf = sws->buffer_create(sws, alignment, usage, size);
146 * Allocate DMA'ble storage for the buffer.
148 * Called before mapping a buffer.
150 static INLINE enum pipe_error
151 svga_buffer_create_hw_storage(struct svga_screen *ss,
152 struct svga_buffer *sbuf)
157 unsigned alignment = sbuf->base.alignment;
159 unsigned size = sbuf->base.size;
161 sbuf->hwbuf = svga_winsys_buffer_create(ss, alignment, usage, size);
163 return PIPE_ERROR_OUT_OF_MEMORY;
165 assert(!sbuf->dma.pending);
173 * Variant of SVGA3D_BufferDMA which leaves the copy box temporarily in blank.
175 static enum pipe_error
176 svga_buffer_upload_command(struct svga_context *svga,
177 struct svga_buffer *sbuf)
179 struct svga_winsys_context *swc = svga->swc;
180 struct svga_winsys_buffer *guest = sbuf->hwbuf;
181 struct svga_winsys_surface *host = sbuf->handle;
182 SVGA3dTransferType transfer = SVGA3D_WRITE_HOST_VRAM;
183 SVGA3dCmdSurfaceDMA *cmd;
184 uint32 numBoxes = sbuf->map.num_ranges;
185 SVGA3dCopyBox *boxes;
186 SVGA3dCmdSurfaceDMASuffix *pSuffix;
187 unsigned region_flags;
188 unsigned surface_flags;
189 struct pipe_buffer *dummy;
191 if(transfer == SVGA3D_WRITE_HOST_VRAM) {
192 region_flags = PIPE_BUFFER_USAGE_GPU_READ;
193 surface_flags = PIPE_BUFFER_USAGE_GPU_WRITE;
195 else if(transfer == SVGA3D_READ_HOST_VRAM) {
196 region_flags = PIPE_BUFFER_USAGE_GPU_WRITE;
197 surface_flags = PIPE_BUFFER_USAGE_GPU_READ;
201 return PIPE_ERROR_BAD_INPUT;
206 cmd = SVGA3D_FIFOReserve(swc,
207 SVGA_3D_CMD_SURFACE_DMA,
208 sizeof *cmd + numBoxes * sizeof *boxes + sizeof *pSuffix,
211 return PIPE_ERROR_OUT_OF_MEMORY;
213 swc->region_relocation(swc, &cmd->guest.ptr, guest, 0, region_flags);
214 cmd->guest.pitch = 0;
216 swc->surface_relocation(swc, &cmd->host.sid, host, surface_flags);
218 cmd->host.mipmap = 0;
220 cmd->transfer = transfer;
222 sbuf->dma.boxes = (SVGA3dCopyBox *)&cmd[1];
223 sbuf->dma.svga = svga;
225 /* Increment reference count */
227 pipe_buffer_reference(&dummy, &sbuf->base);
229 pSuffix = (SVGA3dCmdSurfaceDMASuffix *)((uint8_t*)cmd + sizeof *cmd + numBoxes * sizeof *boxes);
230 pSuffix->suffixSize = sizeof *pSuffix;
231 pSuffix->maximumOffset = sbuf->base.size;
232 pSuffix->flags = sbuf->dma.flags;
234 SVGA_FIFOCommitAll(swc);
236 sbuf->dma.flags.discard = FALSE;
243 * Patch up the upload DMA command reserved by svga_buffer_upload_command
244 * with the final ranges.
247 svga_buffer_upload_flush(struct svga_context *svga,
248 struct svga_buffer *sbuf)
250 SVGA3dCopyBox *boxes;
253 assert(sbuf->handle);
255 assert(sbuf->map.num_ranges);
256 assert(sbuf->dma.svga == svga);
257 assert(sbuf->dma.boxes);
260 * Patch the DMA command with the final copy box.
263 SVGA_DBG(DEBUG_DMA, "dma to sid %p\n", sbuf->handle);
265 boxes = sbuf->dma.boxes;
266 for(i = 0; i < sbuf->map.num_ranges; ++i) {
267 SVGA_DBG(DEBUG_DMA, " bytes %u - %u\n",
268 sbuf->map.ranges[i].start, sbuf->map.ranges[i].end);
270 boxes[i].x = sbuf->map.ranges[i].start;
273 boxes[i].w = sbuf->map.ranges[i].end - sbuf->map.ranges[i].start;
276 boxes[i].srcx = sbuf->map.ranges[i].start;
281 sbuf->map.num_ranges = 0;
283 assert(sbuf->head.prev && sbuf->head.next);
284 LIST_DEL(&sbuf->head);
286 sbuf->head.next = sbuf->head.prev = NULL;
288 sbuf->dma.pending = FALSE;
290 sbuf->dma.svga = NULL;
291 sbuf->dma.boxes = NULL;
293 /* Decrement reference count */
294 pipe_reference(&(sbuf->base.reference), NULL);
300 * Note a dirty range.
302 * This function only notes the range down. It doesn't actually emit a DMA
303 * upload command. That only happens when a context tries to refer to this
304 * buffer, and the DMA upload command is added to that context's command buffer.
306 * We try to lump as many contiguous DMA transfers together as possible.
309 svga_buffer_add_range(struct svga_buffer *sbuf,
314 unsigned nearest_range;
315 unsigned nearest_dist;
319 if (sbuf->map.num_ranges < SVGA_BUFFER_MAX_RANGES) {
320 nearest_range = sbuf->map.num_ranges;
323 nearest_range = SVGA_BUFFER_MAX_RANGES - 1;
328 * Try to grow one of the ranges.
330 * Note that it is not this function task to care about overlapping ranges,
331 * as the GMR was already given so it is too late to do anything. Situations
332 * where overlapping ranges may pose a problem should be detected via
333 * pipe_context::is_buffer_referenced and the context that refers to the
334 * buffer should be flushed.
337 for(i = 0; i < sbuf->map.num_ranges; ++i) {
342 left_dist = start - sbuf->map.ranges[i].end;
343 right_dist = sbuf->map.ranges[i].start - end;
344 dist = MAX2(left_dist, right_dist);
348 * Ranges are contiguous or overlapping -- extend this one and return.
351 sbuf->map.ranges[i].start = MIN2(sbuf->map.ranges[i].start, start);
352 sbuf->map.ranges[i].end = MAX2(sbuf->map.ranges[i].end, end);
357 * Discontiguous ranges -- keep track of the nearest range.
360 if (dist < nearest_dist) {
368 * We cannot add a new range to an existing DMA command, so patch-up the
369 * pending DMA upload and start clean.
372 if(sbuf->dma.pending)
373 svga_buffer_upload_flush(sbuf->dma.svga, sbuf);
375 assert(!sbuf->dma.pending);
376 assert(!sbuf->dma.svga);
377 assert(!sbuf->dma.boxes);
379 if (sbuf->map.num_ranges < SVGA_BUFFER_MAX_RANGES) {
384 sbuf->map.ranges[sbuf->map.num_ranges].start = start;
385 sbuf->map.ranges[sbuf->map.num_ranges].end = end;
386 ++sbuf->map.num_ranges;
389 * Everything else failed, so just extend the nearest range.
391 * It is OK to do this because we always keep a local copy of the
392 * host buffer data, for SW TNL, and the host never modifies the buffer.
395 assert(nearest_range < SVGA_BUFFER_MAX_RANGES);
396 assert(nearest_range < sbuf->map.num_ranges);
397 sbuf->map.ranges[nearest_range].start = MIN2(sbuf->map.ranges[nearest_range].start, start);
398 sbuf->map.ranges[nearest_range].end = MAX2(sbuf->map.ranges[nearest_range].end, end);
404 svga_buffer_map_range( struct pipe_screen *screen,
405 struct pipe_buffer *buf,
406 unsigned offset, unsigned length,
409 struct svga_screen *ss = svga_screen(screen);
410 struct svga_winsys_screen *sws = ss->sws;
411 struct svga_buffer *sbuf = svga_buffer( buf );
414 if (!sbuf->swbuf && !sbuf->hwbuf) {
415 if (svga_buffer_create_hw_storage(ss, sbuf) != PIPE_OK) {
417 * We can't create a hardware buffer big enough, so create a malloc
421 debug_printf("%s: failed to allocate %u KB of DMA, splitting DMA transfers\n",
423 (sbuf->base.size + 1023)/1024);
425 sbuf->swbuf = align_malloc(sbuf->base.size, sbuf->base.alignment);
430 /* User/malloc buffer */
433 else if (sbuf->hwbuf) {
434 map = sws->buffer_map(sws, sbuf->hwbuf, usage);
441 pipe_mutex_lock(ss->swc_mutex);
445 if (usage & PIPE_BUFFER_USAGE_CPU_WRITE) {
446 assert(sbuf->map.count <= 1);
447 sbuf->map.writing = TRUE;
448 if (usage & PIPE_BUFFER_USAGE_FLUSH_EXPLICIT)
449 sbuf->map.flush_explicit = TRUE;
452 pipe_mutex_unlock(ss->swc_mutex);
459 svga_buffer_flush_mapped_range( struct pipe_screen *screen,
460 struct pipe_buffer *buf,
461 unsigned offset, unsigned length)
463 struct svga_buffer *sbuf = svga_buffer( buf );
464 struct svga_screen *ss = svga_screen(screen);
466 pipe_mutex_lock(ss->swc_mutex);
467 assert(sbuf->map.writing);
468 if(sbuf->map.writing) {
469 assert(sbuf->map.flush_explicit);
470 svga_buffer_add_range(sbuf, offset, offset + length);
472 pipe_mutex_unlock(ss->swc_mutex);
476 svga_buffer_unmap( struct pipe_screen *screen,
477 struct pipe_buffer *buf)
479 struct svga_screen *ss = svga_screen(screen);
480 struct svga_winsys_screen *sws = ss->sws;
481 struct svga_buffer *sbuf = svga_buffer( buf );
483 pipe_mutex_lock(ss->swc_mutex);
485 assert(sbuf->map.count);
490 sws->buffer_unmap(sws, sbuf->hwbuf);
492 if(sbuf->map.writing) {
493 if(!sbuf->map.flush_explicit) {
494 /* No mapped range was flushed -- flush the whole buffer */
495 SVGA_DBG(DEBUG_DMA, "flushing the whole buffer\n");
497 svga_buffer_add_range(sbuf, 0, sbuf->base.size);
500 sbuf->map.writing = FALSE;
501 sbuf->map.flush_explicit = FALSE;
504 pipe_mutex_unlock(ss->swc_mutex);
508 svga_buffer_destroy( struct pipe_buffer *buf )
510 struct svga_screen *ss = svga_screen(buf->screen);
511 struct svga_buffer *sbuf = svga_buffer( buf );
513 assert(!p_atomic_read(&buf->reference.count));
515 assert(!sbuf->dma.pending);
518 svga_buffer_destroy_host_surface(ss, sbuf);
520 if(sbuf->uploaded.buffer)
521 pipe_buffer_reference(&sbuf->uploaded.buffer, NULL);
524 svga_buffer_destroy_hw_storage(ss, sbuf);
526 if(sbuf->swbuf && !sbuf->user)
527 align_free(sbuf->swbuf);
532 static struct pipe_buffer *
533 svga_buffer_create(struct pipe_screen *screen,
538 struct svga_screen *ss = svga_screen(screen);
539 struct svga_buffer *sbuf;
544 sbuf = CALLOC_STRUCT(svga_buffer);
548 sbuf->magic = SVGA_BUFFER_MAGIC;
550 pipe_reference_init(&sbuf->base.reference, 1);
551 sbuf->base.screen = screen;
552 sbuf->base.alignment = alignment;
553 sbuf->base.usage = usage;
554 sbuf->base.size = size;
556 if(svga_buffer_needs_hw_storage(usage)) {
557 if(svga_buffer_create_host_surface(ss, sbuf) != PIPE_OK)
561 if(alignment < sizeof(void*))
562 alignment = sizeof(void*);
564 usage |= PIPE_BUFFER_USAGE_CPU_READ_WRITE;
566 sbuf->swbuf = align_malloc(size, alignment);
579 static struct pipe_buffer *
580 svga_user_buffer_create(struct pipe_screen *screen,
584 struct svga_buffer *sbuf;
586 sbuf = CALLOC_STRUCT(svga_buffer);
590 sbuf->magic = SVGA_BUFFER_MAGIC;
595 pipe_reference_init(&sbuf->base.reference, 1);
596 sbuf->base.screen = screen;
597 sbuf->base.alignment = 1;
598 sbuf->base.usage = 0;
599 sbuf->base.size = bytes;
609 svga_screen_init_buffer_functions(struct pipe_screen *screen)
611 screen->buffer_create = svga_buffer_create;
612 screen->user_buffer_create = svga_user_buffer_create;
613 screen->buffer_map_range = svga_buffer_map_range;
614 screen->buffer_flush_mapped_range = svga_buffer_flush_mapped_range;
615 screen->buffer_unmap = svga_buffer_unmap;
616 screen->buffer_destroy = svga_buffer_destroy;
621 * Copy the contents of the malloc buffer to a hardware buffer.
623 static INLINE enum pipe_error
624 svga_buffer_update_hw(struct svga_screen *ss, struct svga_buffer *sbuf)
635 ret = svga_buffer_create_hw_storage(ss, sbuf);
639 pipe_mutex_lock(ss->swc_mutex);
640 map = ss->sws->buffer_map(ss->sws, sbuf->hwbuf, PIPE_BUFFER_USAGE_CPU_WRITE);
643 pipe_mutex_unlock(ss->swc_mutex);
644 svga_buffer_destroy_hw_storage(ss, sbuf);
648 memcpy(map, sbuf->swbuf, sbuf->base.size);
649 ss->sws->buffer_unmap(ss->sws, sbuf->hwbuf);
651 /* This user/malloc buffer is now indistinguishable from a gpu buffer */
652 assert(!sbuf->map.count);
653 if(!sbuf->map.count) {
657 align_free(sbuf->swbuf);
661 pipe_mutex_unlock(ss->swc_mutex);
669 * Upload the buffer to the host in a piecewise fashion.
671 * Used when the buffer is too big to fit in the GMR aperture.
673 static INLINE enum pipe_error
674 svga_buffer_upload_piecewise(struct svga_screen *ss,
675 struct svga_context *svga,
676 struct svga_buffer *sbuf)
678 struct svga_winsys_screen *sws = ss->sws;
679 const unsigned alignment = sizeof(void *);
680 const unsigned usage = 0;
683 assert(sbuf->map.num_ranges);
684 assert(!sbuf->dma.pending);
686 SVGA_DBG(DEBUG_DMA, "dma to sid %p\n", sbuf->handle);
688 for (i = 0; i < sbuf->map.num_ranges; ++i) {
689 struct svga_buffer_range *range = &sbuf->map.ranges[i];
690 unsigned offset = range->start;
691 unsigned size = range->end - range->start;
693 while (offset < range->end) {
694 struct svga_winsys_buffer *hwbuf;
698 if (offset + size > range->end)
699 size = range->end - offset;
701 hwbuf = svga_winsys_buffer_create(ss, alignment, usage, size);
705 return PIPE_ERROR_OUT_OF_MEMORY;
706 hwbuf = svga_winsys_buffer_create(ss, alignment, usage, size);
709 SVGA_DBG(DEBUG_DMA, " bytes %u - %u\n",
710 offset, offset + size);
712 map = sws->buffer_map(sws, hwbuf,
713 PIPE_BUFFER_USAGE_CPU_WRITE |
714 PIPE_BUFFER_USAGE_DISCARD);
717 memcpy(map, sbuf->swbuf, size);
718 sws->buffer_unmap(sws, hwbuf);
721 ret = SVGA3D_BufferDMA(svga->swc,
723 SVGA3D_WRITE_HOST_VRAM,
724 size, 0, offset, sbuf->dma.flags);
726 svga_context_flush(svga, NULL);
727 ret = SVGA3D_BufferDMA(svga->swc,
729 SVGA3D_WRITE_HOST_VRAM,
730 size, 0, offset, sbuf->dma.flags);
731 assert(ret == PIPE_OK);
734 sbuf->dma.flags.discard = FALSE;
736 sws->buffer_destroy(sws, hwbuf);
742 sbuf->map.num_ranges = 0;
748 struct svga_winsys_surface *
749 svga_buffer_handle(struct svga_context *svga,
750 struct pipe_buffer *buf)
752 struct pipe_screen *screen = svga->pipe.screen;
753 struct svga_screen *ss = svga_screen(screen);
754 struct svga_buffer *sbuf;
760 sbuf = svga_buffer(buf);
762 assert(!sbuf->map.count);
766 ret = svga_buffer_create_host_surface(ss, sbuf);
771 assert(sbuf->handle);
773 if (sbuf->map.num_ranges) {
774 if (!sbuf->dma.pending) {
776 * No pending DMA upload yet, so insert a DMA upload command now.
780 * Migrate the data from swbuf -> hwbuf if necessary.
782 ret = svga_buffer_update_hw(ss, sbuf);
783 if (ret == PIPE_OK) {
785 * Queue a dma command.
788 ret = svga_buffer_upload_command(svga, sbuf);
789 if (ret == PIPE_ERROR_OUT_OF_MEMORY) {
790 svga_context_flush(svga, NULL);
791 ret = svga_buffer_upload_command(svga, sbuf);
792 assert(ret == PIPE_OK);
794 if (ret == PIPE_OK) {
795 sbuf->dma.pending = TRUE;
796 assert(!sbuf->head.prev && !sbuf->head.next);
797 LIST_ADDTAIL(&sbuf->head, &svga->dirty_buffers);
800 else if (ret == PIPE_ERROR_OUT_OF_MEMORY) {
802 * The buffer is too big to fit in the GMR aperture, so break it in
805 ret = svga_buffer_upload_piecewise(ss, svga, sbuf);
808 if (ret != PIPE_OK) {
810 * Something unexpected happened above. There is very little that
811 * we can do other than proceeding while ignoring the dirty ranges.
814 sbuf->map.num_ranges = 0;
819 * There a pending dma already. Make sure it is from this context.
821 assert(sbuf->dma.svga == svga);
825 assert(!sbuf->map.num_ranges || sbuf->dma.pending);
832 svga_screen_buffer_wrap_surface(struct pipe_screen *screen,
833 enum SVGA3dSurfaceFormat format,
834 struct svga_winsys_surface *srf)
836 struct pipe_buffer *buf;
837 struct svga_buffer *sbuf;
838 struct svga_winsys_screen *sws = svga_winsys_screen(screen);
840 buf = svga_buffer_create(screen, 0, SVGA_BUFFER_USAGE_WRAPPED, 0);
844 sbuf = svga_buffer(buf);
847 * We are not the creator of this surface and therefore we must not
848 * cache it for reuse. Set the cacheable flag to zero in the key to
851 sbuf->key.format = format;
852 sbuf->key.cachable = 0;
853 sws->surface_reference(sws, &sbuf->handle, srf);
859 struct svga_winsys_surface *
860 svga_screen_buffer_get_winsys_surface(struct pipe_buffer *buffer)
862 struct svga_winsys_screen *sws = svga_winsys_screen(buffer->screen);
863 struct svga_winsys_surface *vsurf = NULL;
865 assert(svga_buffer(buffer)->key.cachable == 0);
866 svga_buffer(buffer)->key.cachable = 0;
867 sws->surface_reference(sws, &vsurf, svga_buffer(buffer)->handle);
872 svga_context_flush_buffers(struct svga_context *svga)
874 struct list_head *curr, *next;
875 struct svga_buffer *sbuf;
877 curr = svga->dirty_buffers.next;
879 while(curr != &svga->dirty_buffers) {
880 sbuf = LIST_ENTRY(struct svga_buffer, curr, head);
882 assert(p_atomic_read(&sbuf->base.reference.count) != 0);
883 assert(sbuf->dma.pending);
885 svga_buffer_upload_flush(svga, sbuf);
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