• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /**************************************************************************
2  *
3  * Copyright 2013 Advanced Micro Devices, Inc.
4  * All Rights Reserved.
5  *
6  * Permission is hereby granted, free of charge, to any person obtaining a
7  * 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:
13  *
14  * The above copyright notice and this permission notice (including the
15  * next paragraph) shall be included in all copies or substantial portions
16  * of the Software.
17  *
18  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
19  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
20  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
21  * IN NO EVENT SHALL THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR
22  * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
23  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
24  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
25  *
26  **************************************************************************/
27 
28 #include "vid_enc_common.h"
29 
30 #include "vl/vl_video_buffer.h"
31 #include "tgsi/tgsi_text.h"
32 
enc_ReleaseTasks(struct list_head * head)33 void enc_ReleaseTasks(struct list_head *head)
34 {
35    struct encode_task *i, *next;
36 
37    if (!head || !list_is_linked(head))
38       return;
39 
40    LIST_FOR_EACH_ENTRY_SAFE(i, next, head, list) {
41       pipe_resource_reference(&i->bitstream, NULL);
42       i->buf->destroy(i->buf);
43       FREE(i);
44    }
45 }
46 
enc_MoveTasks(struct list_head * from,struct list_head * to)47 void enc_MoveTasks(struct list_head *from, struct list_head *to)
48 {
49    to->prev->next = from->next;
50    from->next->prev = to->prev;
51    from->prev->next = to;
52    to->prev = from->prev;
53    list_inithead(from);
54 }
55 
enc_GetPictureParamPreset(struct pipe_h264_enc_picture_desc * picture)56 static void enc_GetPictureParamPreset(struct pipe_h264_enc_picture_desc *picture)
57 {
58    picture->motion_est.enc_disable_sub_mode = 0x000000fe;
59    picture->motion_est.enc_ime2_search_range_x = 0x00000001;
60    picture->motion_est.enc_ime2_search_range_y = 0x00000001;
61    picture->pic_ctrl.enc_constraint_set_flags = 0x00000040;
62 }
63 
enc_TranslateOMXProfileToPipe(unsigned omx_profile)64 enum pipe_video_profile enc_TranslateOMXProfileToPipe(unsigned omx_profile)
65 {
66    switch (omx_profile) {
67    case OMX_VIDEO_AVCProfileBaseline:
68       return PIPE_VIDEO_PROFILE_MPEG4_AVC_BASELINE;
69    case OMX_VIDEO_AVCProfileMain:
70       return PIPE_VIDEO_PROFILE_MPEG4_AVC_MAIN;
71    case OMX_VIDEO_AVCProfileExtended:
72       return PIPE_VIDEO_PROFILE_MPEG4_AVC_EXTENDED;
73    case OMX_VIDEO_AVCProfileHigh:
74       return PIPE_VIDEO_PROFILE_MPEG4_AVC_HIGH;
75    case OMX_VIDEO_AVCProfileHigh10:
76       return PIPE_VIDEO_PROFILE_MPEG4_AVC_HIGH10;
77    case OMX_VIDEO_AVCProfileHigh422:
78       return PIPE_VIDEO_PROFILE_MPEG4_AVC_HIGH422;
79    case OMX_VIDEO_AVCProfileHigh444:
80       return PIPE_VIDEO_PROFILE_MPEG4_AVC_HIGH444;
81    default:
82       return PIPE_VIDEO_PROFILE_UNKNOWN;
83    }
84 }
85 
enc_TranslateOMXLevelToPipe(unsigned omx_level)86 unsigned enc_TranslateOMXLevelToPipe(unsigned omx_level)
87 {
88    switch (omx_level) {
89    case OMX_VIDEO_AVCLevel1:
90    case OMX_VIDEO_AVCLevel1b:
91       return 10;
92    case OMX_VIDEO_AVCLevel11:
93       return 11;
94    case OMX_VIDEO_AVCLevel12:
95       return 12;
96    case OMX_VIDEO_AVCLevel13:
97       return 13;
98    case OMX_VIDEO_AVCLevel2:
99       return 20;
100    case OMX_VIDEO_AVCLevel21:
101       return 21;
102    case OMX_VIDEO_AVCLevel22:
103       return 22;
104    case OMX_VIDEO_AVCLevel3:
105       return 30;
106    case OMX_VIDEO_AVCLevel31:
107       return 31;
108    case OMX_VIDEO_AVCLevel32:
109       return 32;
110    case OMX_VIDEO_AVCLevel4:
111       return 40;
112    case OMX_VIDEO_AVCLevel41:
113       return 41;
114    default:
115    case OMX_VIDEO_AVCLevel42:
116       return 42;
117    case OMX_VIDEO_AVCLevel5:
118       return 50;
119    case OMX_VIDEO_AVCLevel51:
120       return 51;
121    }
122 }
123 
vid_enc_BufferEncoded_common(vid_enc_PrivateType * priv,OMX_BUFFERHEADERTYPE * input,OMX_BUFFERHEADERTYPE * output)124 void vid_enc_BufferEncoded_common(vid_enc_PrivateType * priv, OMX_BUFFERHEADERTYPE* input, OMX_BUFFERHEADERTYPE* output)
125 {
126    struct output_buf_private *outp = output->pOutputPortPrivate;
127    struct input_buf_private *inp = input->pInputPortPrivate;
128    struct encode_task *task;
129    struct pipe_box box = {};
130    unsigned size;
131 
132 #if ENABLE_ST_OMX_BELLAGIO
133    if (!inp || list_is_empty(&inp->tasks)) {
134       input->nFilledLen = 0; /* mark buffer as empty */
135       enc_MoveTasks(&priv->used_tasks, &inp->tasks);
136       return;
137    }
138 #endif
139 
140    task = LIST_ENTRY(struct encode_task, inp->tasks.next, list);
141    list_del(&task->list);
142    list_addtail(&task->list, &priv->used_tasks);
143 
144    if (!task->bitstream)
145       return;
146 
147    /* ------------- map result buffer ----------------- */
148 
149    if (outp->transfer)
150       pipe_buffer_unmap(priv->t_pipe, outp->transfer);
151 
152    pipe_resource_reference(&outp->bitstream, task->bitstream);
153    pipe_resource_reference(&task->bitstream, NULL);
154 
155    box.width = outp->bitstream->width0;
156    box.height = outp->bitstream->height0;
157    box.depth = outp->bitstream->depth0;
158 
159    output->pBuffer = priv->t_pipe->buffer_map(priv->t_pipe, outp->bitstream, 0,
160                                                 PIPE_MAP_READ_WRITE,
161                                                 &box, &outp->transfer);
162 
163    /* ------------- get size of result ----------------- */
164 
165    priv->codec->get_feedback(priv->codec, task->feedback, &size);
166 
167    output->nOffset = 0;
168    output->nFilledLen = size; /* mark buffer as full */
169 
170    /* all output buffers contain exactly one frame */
171    output->nFlags = OMX_BUFFERFLAG_ENDOFFRAME;
172 
173 #if ENABLE_ST_OMX_TIZONIA
174    input->nFilledLen = 0; /* mark buffer as empty */
175    enc_MoveTasks(&priv->used_tasks, &inp->tasks);
176 #endif
177 }
178 
179 
enc_NeedTask_common(vid_enc_PrivateType * priv,OMX_VIDEO_PORTDEFINITIONTYPE * def)180 struct encode_task *enc_NeedTask_common(vid_enc_PrivateType * priv, OMX_VIDEO_PORTDEFINITIONTYPE *def)
181 {
182    struct pipe_video_buffer templat = {};
183    struct encode_task *task;
184 
185    if (!list_is_empty(&priv->free_tasks)) {
186       task = LIST_ENTRY(struct encode_task, priv->free_tasks.next, list);
187       list_del(&task->list);
188       return task;
189    }
190 
191    /* allocate a new one */
192    task = CALLOC_STRUCT(encode_task);
193    if (!task)
194       return NULL;
195 
196    templat.buffer_format = PIPE_FORMAT_NV12;
197    templat.width = def->nFrameWidth;
198    templat.height = def->nFrameHeight;
199    templat.interlaced = false;
200 
201    task->buf = priv->s_pipe->create_video_buffer(priv->s_pipe, &templat);
202    if (!task->buf) {
203       FREE(task);
204       return NULL;
205    }
206 
207    return task;
208 }
209 
enc_ScaleInput_common(vid_enc_PrivateType * priv,OMX_VIDEO_PORTDEFINITIONTYPE * def,struct pipe_video_buffer ** vbuf,unsigned * size)210 void enc_ScaleInput_common(vid_enc_PrivateType * priv, OMX_VIDEO_PORTDEFINITIONTYPE *def,
211                                   struct pipe_video_buffer **vbuf, unsigned *size)
212 {
213    struct pipe_video_buffer *src_buf = *vbuf;
214    struct vl_compositor *compositor = &priv->compositor;
215    struct vl_compositor_state *s = &priv->cstate;
216    struct pipe_sampler_view **views;
217    struct pipe_surface **dst_surface;
218    unsigned i;
219 
220    if (!priv->scale_buffer[priv->current_scale_buffer])
221       return;
222 
223    views = src_buf->get_sampler_view_planes(src_buf);
224    dst_surface = priv->scale_buffer[priv->current_scale_buffer]->get_surfaces
225                  (priv->scale_buffer[priv->current_scale_buffer]);
226    vl_compositor_clear_layers(s);
227 
228    for (i = 0; i < VL_MAX_SURFACES; ++i) {
229       struct u_rect src_rect;
230       if (!views[i] || !dst_surface[i])
231          continue;
232       src_rect.x0 = 0;
233       src_rect.y0 = 0;
234       src_rect.x1 = def->nFrameWidth;
235       src_rect.y1 = def->nFrameHeight;
236       if (i > 0) {
237          src_rect.x1 /= 2;
238          src_rect.y1 /= 2;
239       }
240       vl_compositor_set_rgba_layer(s, compositor, 0, views[i], &src_rect, NULL, NULL);
241       vl_compositor_render(s, compositor, dst_surface[i], NULL, false);
242    }
243    *size  = priv->scale.xWidth * priv->scale.xHeight * 2;
244    *vbuf = priv->scale_buffer[priv->current_scale_buffer++];
245    priv->current_scale_buffer %= OMX_VID_ENC_NUM_SCALING_BUFFERS;
246 }
247 
enc_ControlPicture_common(vid_enc_PrivateType * priv,struct pipe_h264_enc_picture_desc * picture)248 void enc_ControlPicture_common(vid_enc_PrivateType * priv, struct pipe_h264_enc_picture_desc *picture)
249 {
250    struct pipe_h264_enc_rate_control *rate_ctrl = &picture->rate_ctrl[0];
251 
252    /* Get bitrate from port */
253    switch (priv->bitrate.eControlRate) {
254    case OMX_Video_ControlRateVariable:
255       rate_ctrl->rate_ctrl_method = PIPE_H2645_ENC_RATE_CONTROL_METHOD_VARIABLE;
256       break;
257    case OMX_Video_ControlRateConstant:
258       rate_ctrl->rate_ctrl_method = PIPE_H2645_ENC_RATE_CONTROL_METHOD_CONSTANT;
259       break;
260    case OMX_Video_ControlRateVariableSkipFrames:
261       rate_ctrl->rate_ctrl_method = PIPE_H2645_ENC_RATE_CONTROL_METHOD_VARIABLE_SKIP;
262       break;
263    case OMX_Video_ControlRateConstantSkipFrames:
264       rate_ctrl->rate_ctrl_method = PIPE_H2645_ENC_RATE_CONTROL_METHOD_CONSTANT_SKIP;
265       break;
266    default:
267       rate_ctrl->rate_ctrl_method = PIPE_H2645_ENC_RATE_CONTROL_METHOD_DISABLE;
268       break;
269    }
270 
271    rate_ctrl->frame_rate_den = OMX_VID_ENC_CONTROL_FRAME_RATE_DEN_DEFAULT;
272    rate_ctrl->frame_rate_num = ((priv->frame_rate) >> 16) * rate_ctrl->frame_rate_den;
273 
274    if (rate_ctrl->rate_ctrl_method != PIPE_H2645_ENC_RATE_CONTROL_METHOD_DISABLE) {
275       if (priv->bitrate.nTargetBitrate < OMX_VID_ENC_BITRATE_MIN)
276          rate_ctrl->target_bitrate = OMX_VID_ENC_BITRATE_MIN;
277       else if (priv->bitrate.nTargetBitrate < OMX_VID_ENC_BITRATE_MAX)
278          rate_ctrl->target_bitrate = priv->bitrate.nTargetBitrate;
279       else
280          rate_ctrl->target_bitrate = OMX_VID_ENC_BITRATE_MAX;
281       rate_ctrl->peak_bitrate = rate_ctrl->target_bitrate;
282       if (rate_ctrl->target_bitrate < OMX_VID_ENC_BITRATE_MEDIAN)
283          rate_ctrl->vbv_buffer_size = MIN2((rate_ctrl->target_bitrate * 2.75), OMX_VID_ENC_BITRATE_MEDIAN);
284       else
285          rate_ctrl->vbv_buffer_size = rate_ctrl->target_bitrate;
286 
287       if (rate_ctrl->frame_rate_num) {
288          unsigned long long t = rate_ctrl->target_bitrate;
289          t *= rate_ctrl->frame_rate_den;
290          rate_ctrl->target_bits_picture = t / rate_ctrl->frame_rate_num;
291       } else {
292          rate_ctrl->target_bits_picture = rate_ctrl->target_bitrate;
293       }
294       rate_ctrl->peak_bits_picture_integer = rate_ctrl->target_bits_picture;
295       rate_ctrl->peak_bits_picture_fraction = 0;
296    }
297 
298    picture->quant_i_frames = priv->quant.nQpI;
299    picture->quant_p_frames = priv->quant.nQpP;
300    picture->quant_b_frames = priv->quant.nQpB;
301 
302    picture->frame_num = priv->frame_num;
303    picture->ref_idx_l0 = priv->ref_idx_l0;
304    picture->ref_idx_l1 = priv->ref_idx_l1;
305    picture->enable_vui = (picture->rate_ctrl[0].frame_rate_num != 0);
306    enc_GetPictureParamPreset(picture);
307 }
308 
create_compute_state(struct pipe_context * pipe,const char * source)309 static void *create_compute_state(struct pipe_context *pipe,
310                                   const char *source)
311 {
312    struct tgsi_token tokens[1024];
313    struct pipe_compute_state state = {0};
314 
315    if (!tgsi_text_translate(source, tokens, ARRAY_SIZE(tokens))) {
316            assert(false);
317            return NULL;
318    }
319 
320    state.ir_type = PIPE_SHADER_IR_TGSI;
321    state.prog = tokens;
322 
323    return pipe->create_compute_state(pipe, &state);
324 }
325 
enc_InitCompute_common(vid_enc_PrivateType * priv)326 void enc_InitCompute_common(vid_enc_PrivateType *priv)
327 {
328    struct pipe_context *pipe = priv->s_pipe;
329    struct pipe_screen *screen = pipe->screen;
330 
331    /* We need the partial last block support. */
332    if (!screen->get_param(screen, PIPE_CAP_COMPUTE_GRID_INFO_LAST_BLOCK))
333       return;
334 
335    static const char *copy_y =
336          "COMP\n"
337          "PROPERTY CS_FIXED_BLOCK_WIDTH 64\n"
338          "PROPERTY CS_FIXED_BLOCK_HEIGHT 1\n"
339          "PROPERTY CS_FIXED_BLOCK_DEPTH 1\n"
340          "DCL SV[0], THREAD_ID\n"
341          "DCL SV[1], BLOCK_ID\n"
342          "DCL IMAGE[0], 2D, PIPE_FORMAT_R8_UINT\n"
343          "DCL IMAGE[1], 2D, PIPE_FORMAT_R8_UINT, WR\n"
344          "DCL TEMP[0..1]\n"
345          "IMM[0] UINT32 {64, 0, 0, 0}\n"
346 
347          "UMAD TEMP[0].x, SV[1], IMM[0], SV[0]\n"
348          "MOV TEMP[0].y, SV[1]\n"
349          "LOAD TEMP[1].x, IMAGE[0], TEMP[0], 2D, PIPE_FORMAT_R8_UINT\n"
350          "STORE IMAGE[1].x, TEMP[0], TEMP[1], 2D, PIPE_FORMAT_R8_UINT\n"
351          "END\n";
352 
353    static const char *copy_uv =
354          "COMP\n"
355          "PROPERTY CS_FIXED_BLOCK_WIDTH 64\n"
356          "PROPERTY CS_FIXED_BLOCK_HEIGHT 1\n"
357          "PROPERTY CS_FIXED_BLOCK_DEPTH 1\n"
358          "DCL SV[0], THREAD_ID\n"
359          "DCL SV[1], BLOCK_ID\n"
360          "DCL IMAGE[0], 2D, PIPE_FORMAT_R8_UINT\n"
361          "DCL IMAGE[2], 2D, PIPE_FORMAT_R8G8_UINT, WR\n"
362          "DCL CONST[0][0]\n" /* .x = offset of the UV portion in the y direction */
363          "DCL TEMP[0..4]\n"
364          "IMM[0] UINT32 {64, 0, 2, 1}\n"
365          /* Destination R8G8 coordinates */
366          "UMAD TEMP[0].x, SV[1], IMM[0], SV[0]\n"
367          "MOV TEMP[0].y, SV[1]\n"
368          /* Source R8 coordinates of U */
369          "UMUL TEMP[1].x, TEMP[0], IMM[0].zzzz\n"
370          "UADD TEMP[1].y, TEMP[0], CONST[0].xxxx\n"
371          /* Source R8 coordinates of V */
372          "UADD TEMP[2].x, TEMP[1], IMM[0].wwww\n"
373          "MOV TEMP[2].y, TEMP[1]\n"
374 
375          "LOAD TEMP[3].x, IMAGE[0], TEMP[1], 2D, PIPE_FORMAT_R8_UINT\n"
376          "LOAD TEMP[4].x, IMAGE[0], TEMP[2], 2D, PIPE_FORMAT_R8_UINT\n"
377          "MOV TEMP[3].y, TEMP[4].xxxx\n"
378          "STORE IMAGE[2], TEMP[0], TEMP[3], 2D, PIPE_FORMAT_R8G8_UINT\n"
379          "END\n";
380 
381    priv->copy_y_shader = create_compute_state(pipe, copy_y);
382    priv->copy_uv_shader = create_compute_state(pipe, copy_uv);
383 }
384 
enc_ReleaseCompute_common(vid_enc_PrivateType * priv)385 void enc_ReleaseCompute_common(vid_enc_PrivateType *priv)
386 {
387    struct pipe_context *pipe = priv->s_pipe;
388 
389    if (priv->copy_y_shader)
390       pipe->delete_compute_state(pipe, priv->copy_y_shader);
391    if (priv->copy_uv_shader)
392       pipe->delete_compute_state(pipe, priv->copy_uv_shader);
393 }
394 
enc_LoadImage_common(vid_enc_PrivateType * priv,OMX_VIDEO_PORTDEFINITIONTYPE * def,OMX_BUFFERHEADERTYPE * buf,struct pipe_video_buffer * vbuf)395 OMX_ERRORTYPE enc_LoadImage_common(vid_enc_PrivateType * priv, OMX_VIDEO_PORTDEFINITIONTYPE *def,
396                                    OMX_BUFFERHEADERTYPE *buf,
397                                    struct pipe_video_buffer *vbuf)
398 {
399    struct pipe_context *pipe = priv->s_pipe;
400    struct pipe_box box = {};
401    struct input_buf_private *inp = buf->pInputPortPrivate;
402 
403    if (!inp->resource) {
404       struct pipe_sampler_view **views;
405       void *ptr;
406 
407       views = vbuf->get_sampler_view_planes(vbuf);
408       if (!views)
409          return OMX_ErrorInsufficientResources;
410 
411       ptr = buf->pBuffer;
412       box.width = def->nFrameWidth;
413       box.height = def->nFrameHeight;
414       box.depth = 1;
415       pipe->texture_subdata(pipe, views[0]->texture, 0,
416                             PIPE_MAP_WRITE, &box,
417                             ptr, def->nStride, 0);
418       ptr = ((uint8_t*)buf->pBuffer) + (def->nStride * box.height);
419       box.width = def->nFrameWidth / 2;
420       box.height = def->nFrameHeight / 2;
421       box.depth = 1;
422       pipe->texture_subdata(pipe, views[1]->texture, 0,
423                             PIPE_MAP_WRITE, &box,
424                             ptr, def->nStride, 0);
425    } else {
426       struct vl_video_buffer *dst_buf = (struct vl_video_buffer *)vbuf;
427 
428       pipe_texture_unmap(pipe, inp->transfer);
429 
430       /* inp->resource uses PIPE_FORMAT_I8 and the layout looks like this:
431        *
432        * def->nFrameWidth = 4, def->nFrameHeight = 4:
433        * |----|
434        * |YYYY|
435        * |YYYY|
436        * |YYYY|
437        * |YYYY|
438        * |UVUV|
439        * |UVUV|
440        * |----|
441        *
442        * The copy has 2 steps:
443        * - Copy Y to dst_buf->resources[0] as R8.
444        * - Copy UV to dst_buf->resources[1] as R8G8.
445        */
446       if (priv->copy_y_shader && priv->copy_uv_shader) {
447          /* Compute path */
448          /* Set shader images for both copies. */
449          struct pipe_image_view image[3] = {0};
450          image[0].resource = inp->resource;
451          image[0].shader_access = image[0].access = PIPE_IMAGE_ACCESS_READ;
452          image[0].format = PIPE_FORMAT_R8_UINT;
453 
454          image[1].resource = dst_buf->resources[0];
455          image[1].shader_access = image[1].access = PIPE_IMAGE_ACCESS_WRITE;
456          image[1].format = PIPE_FORMAT_R8_UINT;
457 
458          image[2].resource = dst_buf->resources[1];
459          image[2].shader_access = image[1].access = PIPE_IMAGE_ACCESS_WRITE;
460          image[2].format = PIPE_FORMAT_R8G8_UINT;
461 
462          pipe->set_shader_images(pipe, PIPE_SHADER_COMPUTE, 0, 3, 0, image);
463 
464          /* Set the constant buffer. */
465          uint32_t constants[4] = {def->nFrameHeight};
466          struct pipe_constant_buffer cb = {};
467 
468          cb.buffer_size = sizeof(constants);
469          cb.user_buffer = constants;
470          pipe->set_constant_buffer(pipe, PIPE_SHADER_COMPUTE, 0, false, &cb);
471 
472          /* Use the optimal block size for the linear image layout. */
473          struct pipe_grid_info info = {};
474          info.block[0] = 64;
475          info.block[1] = 1;
476          info.block[2] = 1;
477          info.grid[2] = 1;
478 
479          /* Copy Y */
480          pipe->bind_compute_state(pipe, priv->copy_y_shader);
481 
482          info.grid[0] = DIV_ROUND_UP(def->nFrameWidth, 64);
483          info.grid[1] = def->nFrameHeight;
484          info.last_block[0] = def->nFrameWidth % 64;
485          pipe->launch_grid(pipe, &info);
486 
487          /* Copy UV */
488          pipe->bind_compute_state(pipe, priv->copy_uv_shader);
489 
490          info.grid[0] = DIV_ROUND_UP(def->nFrameWidth / 2, 64);
491          info.grid[1] = def->nFrameHeight / 2;
492          info.last_block[0] = (def->nFrameWidth / 2) % 64;
493          pipe->launch_grid(pipe, &info);
494 
495          /* Make the result visible to all clients. */
496          pipe->memory_barrier(pipe, PIPE_BARRIER_ALL);
497 
498          /* Unbind. */
499          pipe->set_shader_images(pipe, PIPE_SHADER_COMPUTE, 0, 0, 3, NULL);
500          pipe->set_constant_buffer(pipe, PIPE_SHADER_COMPUTE, 0, false, NULL);
501          pipe->bind_compute_state(pipe, NULL);
502       } else {
503          /* Graphics path */
504          struct pipe_blit_info blit;
505 
506          box.width = def->nFrameWidth;
507          box.height = def->nFrameHeight;
508          box.depth = 1;
509 
510          /* Copy Y */
511          pipe->resource_copy_region(pipe,
512                                     dst_buf->resources[0],
513                                     0, 0, 0, 0, inp->resource, 0, &box);
514 
515          /* Copy U */
516          memset(&blit, 0, sizeof(blit));
517          blit.src.resource = inp->resource;
518          blit.src.format = inp->resource->format;
519 
520          blit.src.box.x = -1;
521          blit.src.box.y = def->nFrameHeight;
522          blit.src.box.width = def->nFrameWidth;
523          blit.src.box.height = def->nFrameHeight / 2 ;
524          blit.src.box.depth = 1;
525 
526          blit.dst.resource = dst_buf->resources[1];
527          blit.dst.format = blit.dst.resource->format;
528 
529          blit.dst.box.width = def->nFrameWidth / 2;
530          blit.dst.box.height = def->nFrameHeight / 2;
531          blit.dst.box.depth = 1;
532          blit.filter = PIPE_TEX_FILTER_NEAREST;
533 
534          blit.mask = PIPE_MASK_R;
535          pipe->blit(pipe, &blit);
536 
537          /* Copy V */
538          blit.src.box.x = 0;
539          blit.mask = PIPE_MASK_G;
540          pipe->blit(pipe, &blit);
541       }
542 
543       pipe->flush(pipe, NULL, 0);
544 
545       box.width = inp->resource->width0;
546       box.height = inp->resource->height0;
547       box.depth = inp->resource->depth0;
548       buf->pBuffer = pipe->texture_map(pipe, inp->resource, 0,
549                                         PIPE_MAP_WRITE, &box,
550                                         &inp->transfer);
551    }
552 
553    return OMX_ErrorNone;
554 }
555