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1 /*
2  * Copyright (c) 2014 Scott Mansell
3  * Copyright © 2014 Broadcom
4  *
5  * Permission is hereby granted, free of charge, to any person obtaining a
6  * copy of this software and associated documentation files (the "Software"),
7  * to deal in the Software without restriction, including without limitation
8  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9  * and/or sell copies of the Software, and to permit persons to whom the
10  * Software is furnished to do so, subject to the following conditions:
11  *
12  * The above copyright notice and this permission notice (including the next
13  * paragraph) shall be included in all copies or substantial portions of the
14  * Software.
15  *
16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
19  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
22  * IN THE SOFTWARE.
23  */
24 
25 #include "util/u_blitter.h"
26 #include "util/u_draw.h"
27 #include "util/u_prim.h"
28 #include "util/format/u_format.h"
29 #include "util/u_pack_color.h"
30 #include "util/u_split_draw.h"
31 #include "util/u_upload_mgr.h"
32 
33 #include "vc4_context.h"
34 #include "vc4_resource.h"
35 
36 #define VC4_HW_2116_COUNT		0x1ef0
37 
38 static void
vc4_get_draw_cl_space(struct vc4_job * job,int vert_count)39 vc4_get_draw_cl_space(struct vc4_job *job, int vert_count)
40 {
41         /* The SW-5891 workaround may cause us to emit multiple shader recs
42          * and draw packets.
43          */
44         int num_draws = DIV_ROUND_UP(vert_count, 65535 - 2) + 1;
45 
46         /* Binner gets our packet state -- vc4_emit.c contents,
47          * and the primitive itself.
48          */
49         cl_ensure_space(&job->bcl,
50                         256 + (VC4_PACKET_GL_ARRAY_PRIMITIVE_SIZE +
51                                VC4_PACKET_GL_SHADER_STATE_SIZE) * num_draws);
52 
53         /* Nothing for rcl -- that's covered by vc4_context.c */
54 
55         /* shader_rec gets up to 12 dwords of reloc handles plus a maximally
56          * sized shader_rec (104 bytes base for 8 vattrs plus 32 bytes of
57          * vattr stride).
58          */
59         cl_ensure_space(&job->shader_rec,
60                         (12 * sizeof(uint32_t) + 104 + 8 * 32) * num_draws);
61 
62         /* Uniforms are covered by vc4_write_uniforms(). */
63 
64         /* There could be up to 16 textures per stage, plus misc other
65          * pointers.
66          */
67         cl_ensure_space(&job->bo_handles, (2 * 16 + 20) * sizeof(uint32_t));
68         cl_ensure_space(&job->bo_pointers,
69                         (2 * 16 + 20) * sizeof(struct vc4_bo *));
70 }
71 
72 /**
73  * Does the initial bining command list setup for drawing to a given FBO.
74  */
75 static void
vc4_start_draw(struct vc4_context * vc4)76 vc4_start_draw(struct vc4_context *vc4)
77 {
78         struct vc4_job *job = vc4->job;
79 
80         if (job->needs_flush)
81                 return;
82 
83         vc4_get_draw_cl_space(job, 0);
84 
85         cl_emit(&job->bcl, TILE_BINNING_MODE_CONFIGURATION, bin) {
86                 bin.width_in_tiles = job->draw_tiles_x;
87                 bin.height_in_tiles = job->draw_tiles_y;
88                 bin.multisample_mode_4x = job->msaa;
89         }
90 
91         /* START_TILE_BINNING resets the statechange counters in the hardware,
92          * which are what is used when a primitive is binned to a tile to
93          * figure out what new state packets need to be written to that tile's
94          * command list.
95          */
96         cl_emit(&job->bcl, START_TILE_BINNING, start);
97 
98         /* Reset the current compressed primitives format.  This gets modified
99          * by VC4_PACKET_GL_INDEXED_PRIMITIVE and
100          * VC4_PACKET_GL_ARRAY_PRIMITIVE, so it needs to be reset at the start
101          * of every tile.
102          */
103         cl_emit(&job->bcl, PRIMITIVE_LIST_FORMAT, list) {
104                 list.data_type = _16_BIT_INDEX;
105                 list.primitive_type = TRIANGLES_LIST;
106         }
107 
108         job->needs_flush = true;
109         job->draw_width = vc4->framebuffer.width;
110         job->draw_height = vc4->framebuffer.height;
111 }
112 
113 static void
vc4_predraw_check_textures(struct pipe_context * pctx,struct vc4_texture_stateobj * stage_tex)114 vc4_predraw_check_textures(struct pipe_context *pctx,
115                            struct vc4_texture_stateobj *stage_tex)
116 {
117         struct vc4_context *vc4 = vc4_context(pctx);
118 
119         for (int i = 0; i < stage_tex->num_textures; i++) {
120                 struct vc4_sampler_view *view =
121                         vc4_sampler_view(stage_tex->textures[i]);
122                 if (!view)
123                         continue;
124 
125                 if (view->texture != view->base.texture)
126                         vc4_update_shadow_baselevel_texture(pctx, &view->base);
127 
128                 vc4_flush_jobs_writing_resource(vc4, view->texture);
129         }
130 }
131 
132 static void
vc4_emit_gl_shader_state(struct vc4_context * vc4,const struct pipe_draw_info * info,const struct pipe_draw_start_count_bias * draws,uint32_t extra_index_bias)133 vc4_emit_gl_shader_state(struct vc4_context *vc4,
134                          const struct pipe_draw_info *info,
135                          const struct pipe_draw_start_count_bias *draws,
136                          uint32_t extra_index_bias)
137 {
138         struct vc4_job *job = vc4->job;
139         /* VC4_DIRTY_VTXSTATE */
140         struct vc4_vertex_stateobj *vtx = vc4->vtx;
141         /* VC4_DIRTY_VTXBUF */
142         struct vc4_vertexbuf_stateobj *vertexbuf = &vc4->vertexbuf;
143 
144         /* The simulator throws a fit if VS or CS don't read an attribute, so
145          * we emit a dummy read.
146          */
147         uint32_t num_elements_emit = MAX2(vtx->num_elements, 1);
148 
149         /* Emit the shader record. */
150         cl_start_shader_reloc(&job->shader_rec, 3 + num_elements_emit);
151 
152         cl_emit(&job->shader_rec, SHADER_RECORD, rec) {
153                 rec.enable_clipping = true;
154 
155                 /* VC4_DIRTY_COMPILED_FS */
156                 rec.fragment_shader_is_single_threaded =
157                         !vc4->prog.fs->fs_threaded;
158 
159                 /* VC4_DIRTY_PRIM_MODE | VC4_DIRTY_RASTERIZER */
160                 rec.point_size_included_in_shaded_vertex_data =
161                          (info->mode == PIPE_PRIM_POINTS &&
162                           vc4->rasterizer->base.point_size_per_vertex);
163 
164                 /* VC4_DIRTY_COMPILED_FS */
165                 rec.fragment_shader_number_of_varyings =
166                         vc4->prog.fs->num_inputs;
167                 rec.fragment_shader_code_address =
168                         cl_address(vc4->prog.fs->bo, 0);
169 
170                 rec.coordinate_shader_attribute_array_select_bits =
171                          vc4->prog.cs->vattrs_live;
172                 rec.coordinate_shader_total_attributes_size =
173                          vc4->prog.cs->vattr_offsets[8];
174                 rec.coordinate_shader_code_address =
175                         cl_address(vc4->prog.cs->bo, 0);
176 
177                 rec.vertex_shader_attribute_array_select_bits =
178                          vc4->prog.vs->vattrs_live;
179                 rec.vertex_shader_total_attributes_size =
180                          vc4->prog.vs->vattr_offsets[8];
181                 rec.vertex_shader_code_address =
182                         cl_address(vc4->prog.vs->bo, 0);
183         };
184 
185         uint32_t max_index = 0xffff;
186         unsigned index_bias = info->index_size ? draws->index_bias : 0;
187         for (int i = 0; i < vtx->num_elements; i++) {
188                 struct pipe_vertex_element *elem = &vtx->pipe[i];
189                 struct pipe_vertex_buffer *vb =
190                         &vertexbuf->vb[elem->vertex_buffer_index];
191                 struct vc4_resource *rsc = vc4_resource(vb->buffer.resource);
192                 /* not vc4->dirty tracked: vc4->last_index_bias */
193                 uint32_t offset = (vb->buffer_offset +
194                                    elem->src_offset +
195                                    vb->stride * (index_bias +
196                                                  extra_index_bias));
197                 uint32_t vb_size = rsc->bo->size - offset;
198                 uint32_t elem_size =
199                         util_format_get_blocksize(elem->src_format);
200 
201                 cl_emit(&job->shader_rec, ATTRIBUTE_RECORD, attr) {
202                         attr.address = cl_address(rsc->bo, offset);
203                         attr.number_of_bytes_minus_1 = elem_size - 1;
204                         attr.stride = vb->stride;
205                         attr.coordinate_shader_vpm_offset =
206                                 vc4->prog.cs->vattr_offsets[i];
207                         attr.vertex_shader_vpm_offset =
208                                 vc4->prog.vs->vattr_offsets[i];
209                 }
210 
211                 if (vb->stride > 0) {
212                         max_index = MIN2(max_index,
213                                          (vb_size - elem_size) / vb->stride);
214                 }
215         }
216 
217         if (vtx->num_elements == 0) {
218                 assert(num_elements_emit == 1);
219                 struct vc4_bo *bo = vc4_bo_alloc(vc4->screen, 4096, "scratch VBO");
220 
221                 cl_emit(&job->shader_rec, ATTRIBUTE_RECORD, attr) {
222                         attr.address = cl_address(bo, 0);
223                         attr.number_of_bytes_minus_1 = 16 - 1;
224                         attr.stride = 0;
225                         attr.coordinate_shader_vpm_offset = 0;
226                         attr.vertex_shader_vpm_offset = 0;
227                 }
228 
229                 vc4_bo_unreference(&bo);
230         }
231 
232         cl_emit(&job->bcl, GL_SHADER_STATE, shader_state) {
233                 /* Note that number of attributes == 0 in the packet means 8
234                  * attributes.  This field also contains the offset into
235                  * shader_rec.
236                  */
237                 assert(vtx->num_elements <= 8);
238                 shader_state.number_of_attribute_arrays =
239                         num_elements_emit & 0x7;
240         }
241 
242         vc4_write_uniforms(vc4, vc4->prog.fs,
243                            &vc4->constbuf[PIPE_SHADER_FRAGMENT],
244                            &vc4->fragtex);
245         vc4_write_uniforms(vc4, vc4->prog.vs,
246                            &vc4->constbuf[PIPE_SHADER_VERTEX],
247                            &vc4->verttex);
248         vc4_write_uniforms(vc4, vc4->prog.cs,
249                            &vc4->constbuf[PIPE_SHADER_VERTEX],
250                            &vc4->verttex);
251 
252         vc4->last_index_bias = index_bias + extra_index_bias;
253         vc4->max_index = max_index;
254         job->shader_rec_count++;
255 }
256 
257 /**
258  * HW-2116 workaround: Flush the batch before triggering the hardware state
259  * counter wraparound behavior.
260  *
261  * State updates are tracked by a global counter which increments at the first
262  * state update after a draw or a START_BINNING.  Tiles can then have their
263  * state updated at draw time with a set of cheap checks for whether the
264  * state's copy of the global counter matches the global counter the last time
265  * that state was written to the tile.
266  *
267  * The state counters are relatively small and wrap around quickly, so you
268  * could get false negatives for needing to update a particular state in the
269  * tile.  To avoid this, the hardware attempts to write all of the state in
270  * the tile at wraparound time.  This apparently is broken, so we just flush
271  * everything before that behavior is triggered.  A batch flush is sufficient
272  * to get our current contents drawn and reset the counters to 0.
273  *
274  * Note that we can't just use VC4_PACKET_FLUSH_ALL, because that caps the
275  * tiles with VC4_PACKET_RETURN_FROM_LIST.
276  */
277 static void
vc4_hw_2116_workaround(struct pipe_context * pctx,int vert_count)278 vc4_hw_2116_workaround(struct pipe_context *pctx, int vert_count)
279 {
280         struct vc4_context *vc4 = vc4_context(pctx);
281         struct vc4_job *job = vc4_get_job_for_fbo(vc4);
282 
283         if (job->draw_calls_queued + vert_count / 65535 >= VC4_HW_2116_COUNT) {
284                 perf_debug("Flushing batch due to HW-2116 workaround "
285                            "(too many draw calls per scene\n");
286                 vc4_job_submit(vc4, job);
287         }
288 }
289 
290 static void
vc4_draw_vbo(struct pipe_context * pctx,const struct pipe_draw_info * info,unsigned drawid_offset,const struct pipe_draw_indirect_info * indirect,const struct pipe_draw_start_count_bias * draws,unsigned num_draws)291 vc4_draw_vbo(struct pipe_context *pctx, const struct pipe_draw_info *info,
292              unsigned drawid_offset,
293              const struct pipe_draw_indirect_info *indirect,
294              const struct pipe_draw_start_count_bias *draws,
295              unsigned num_draws)
296 {
297         if (num_draws > 1) {
298                 util_draw_multi(pctx, info, drawid_offset, indirect, draws, num_draws);
299                 return;
300         }
301 
302         if (!indirect && (!draws[0].count || !info->instance_count))
303            return;
304 
305         struct vc4_context *vc4 = vc4_context(pctx);
306 
307 	if (!indirect &&
308 	    !info->primitive_restart &&
309 	    !u_trim_pipe_prim(info->mode, (unsigned*)&draws[0].count))
310 		return;
311 
312         /* Before setting up the draw, do any fixup blits necessary. */
313         vc4_predraw_check_textures(pctx, &vc4->verttex);
314         vc4_predraw_check_textures(pctx, &vc4->fragtex);
315 
316         vc4_hw_2116_workaround(pctx, draws[0].count);
317 
318         struct vc4_job *job = vc4_get_job_for_fbo(vc4);
319 
320         /* Make sure that the raster order flags haven't changed, which can
321          * only be set at job granularity.
322          */
323         if (job->flags != vc4->rasterizer->tile_raster_order_flags) {
324                 vc4_job_submit(vc4, job);
325                 job = vc4_get_job_for_fbo(vc4);
326         }
327 
328         vc4_get_draw_cl_space(job, draws[0].count);
329 
330         if (vc4->prim_mode != info->mode) {
331                 vc4->prim_mode = info->mode;
332                 vc4->dirty |= VC4_DIRTY_PRIM_MODE;
333         }
334 
335         vc4_start_draw(vc4);
336         if (!vc4_update_compiled_shaders(vc4, info->mode)) {
337                 debug_warn_once("shader compile failed, skipping draw call.\n");
338                 return;
339         }
340 
341         vc4_emit_state(pctx);
342 
343         bool needs_drawarrays_shader_state = false;
344 
345         unsigned index_bias = info->index_size ? draws->index_bias : 0;
346         if ((vc4->dirty & (VC4_DIRTY_VTXBUF |
347                            VC4_DIRTY_VTXSTATE |
348                            VC4_DIRTY_PRIM_MODE |
349                            VC4_DIRTY_RASTERIZER |
350                            VC4_DIRTY_COMPILED_CS |
351                            VC4_DIRTY_COMPILED_VS |
352                            VC4_DIRTY_COMPILED_FS |
353                            vc4->prog.cs->uniform_dirty_bits |
354                            vc4->prog.vs->uniform_dirty_bits |
355                            vc4->prog.fs->uniform_dirty_bits)) ||
356             vc4->last_index_bias != index_bias) {
357                 if (info->index_size)
358                         vc4_emit_gl_shader_state(vc4, info, draws, 0);
359                 else
360                         needs_drawarrays_shader_state = true;
361         }
362 
363         vc4->dirty = 0;
364 
365         /* Note that the primitive type fields match with OpenGL/gallium
366          * definitions, up to but not including QUADS.
367          */
368         if (info->index_size) {
369                 uint32_t index_size = info->index_size;
370                 uint32_t offset = draws[0].start * index_size;
371                 struct pipe_resource *prsc;
372                 if (info->index_size == 4) {
373                         prsc = vc4_get_shadow_index_buffer(pctx, info,
374                                                            offset,
375                                                            draws[0].count, &offset);
376                         index_size = 2;
377                 } else {
378                         if (info->has_user_indices) {
379                                 unsigned start_offset = draws[0].start * info->index_size;
380                                 prsc = NULL;
381                                 u_upload_data(vc4->uploader, start_offset,
382                                               draws[0].count * index_size, 4,
383                                               (char*)info->index.user + start_offset,
384                                               &offset, &prsc);
385                         } else {
386                                 prsc = info->index.resource;
387                         }
388                 }
389                 struct vc4_resource *rsc = vc4_resource(prsc);
390 
391                 struct vc4_cl_out *bcl = cl_start(&job->bcl);
392 
393                 /* The original design for the VC4 kernel UABI had multiple
394                  * packets that used relocations in the BCL (some of which
395                  * needed two BOs), but later modifications eliminated all but
396                  * this one usage.  We have an arbitrary 32-bit offset value,
397                  * and need to also supply an arbitrary 32-bit index buffer
398                  * GEM handle, so we have this fake packet we emit in our BCL
399                  * to be validated, which the kernel uses at validation time
400                  * to perform the relocation in the IB packet (without
401                  * emitting to the actual HW).
402                  */
403                 uint32_t hindex = vc4_gem_hindex(job, rsc->bo);
404                 if (job->last_gem_handle_hindex != hindex) {
405                         cl_u8(&bcl, VC4_PACKET_GEM_HANDLES);
406                         cl_u32(&bcl, hindex);
407                         cl_u32(&bcl, 0);
408                         job->last_gem_handle_hindex = hindex;
409                 }
410 
411                 cl_u8(&bcl, VC4_PACKET_GL_INDEXED_PRIMITIVE);
412                 cl_u8(&bcl,
413                       info->mode |
414                       (index_size == 2 ?
415                        VC4_INDEX_BUFFER_U16:
416                        VC4_INDEX_BUFFER_U8));
417                 cl_u32(&bcl, draws[0].count);
418                 cl_u32(&bcl, offset);
419                 cl_u32(&bcl, vc4->max_index);
420 
421                 cl_end(&job->bcl, bcl);
422                 job->draw_calls_queued++;
423 
424                 if (info->index_size == 4 || info->has_user_indices)
425                         pipe_resource_reference(&prsc, NULL);
426         } else {
427                 uint32_t count = draws[0].count;
428                 uint32_t start = draws[0].start;
429                 uint32_t extra_index_bias = 0;
430                 static const uint32_t max_verts = 65535;
431 
432                 /* GFXH-515 / SW-5891: The binner emits 16 bit indices for
433                  * drawarrays, which means that if start + count > 64k it
434                  * would truncate the top bits.  Work around this by emitting
435                  * a limited number of primitives at a time and reemitting the
436                  * shader state pointing farther down the vertex attribute
437                  * arrays.
438                  *
439                  * To do this properly for line loops or trifans, we'd need to
440                  * make a new VB containing the first vertex plus whatever
441                  * remainder.
442                  */
443                 if (start + count > max_verts) {
444                         extra_index_bias = start;
445                         start = 0;
446                         needs_drawarrays_shader_state = true;
447                 }
448 
449                 while (count) {
450                         uint32_t this_count = count;
451                         uint32_t step;
452 
453                         if (needs_drawarrays_shader_state) {
454                                 vc4_emit_gl_shader_state(vc4, info, draws,
455                                                          extra_index_bias);
456                         }
457 
458                         u_split_draw(info, max_verts, &this_count, &step);
459 
460                         cl_emit(&job->bcl, VERTEX_ARRAY_PRIMITIVES, array) {
461                                 array.primitive_mode = info->mode;
462                                 array.length = this_count;
463                                 array.index_of_first_vertex = start;
464                         }
465                         job->draw_calls_queued++;
466 
467                         count -= step;
468                         extra_index_bias += start + step;
469                         start = 0;
470                         needs_drawarrays_shader_state = true;
471                 }
472         }
473 
474         /* We shouldn't have tripped the HW_2116 bug with the GFXH-515
475          * workaround.
476          */
477         assert(job->draw_calls_queued <= VC4_HW_2116_COUNT);
478 
479         if (vc4->zsa && vc4->framebuffer.zsbuf) {
480                 struct vc4_resource *rsc =
481                         vc4_resource(vc4->framebuffer.zsbuf->texture);
482 
483                 if (vc4->zsa->base.depth_enabled) {
484                         job->resolve |= PIPE_CLEAR_DEPTH;
485                         rsc->initialized_buffers = PIPE_CLEAR_DEPTH;
486                 }
487 
488                 if (vc4->zsa->base.stencil[0].enabled) {
489                         job->resolve |= PIPE_CLEAR_STENCIL;
490                         rsc->initialized_buffers |= PIPE_CLEAR_STENCIL;
491                 }
492         }
493 
494         job->resolve |= PIPE_CLEAR_COLOR0;
495 
496         /* If we've used half of the presumably 256MB CMA area, flush the job
497          * so that we don't accumulate a job that will end up not being
498          * executable.
499          */
500         if (job->bo_space > 128 * 1024 * 1024)
501                 vc4_flush(pctx);
502 
503         if (vc4_debug & VC4_DEBUG_ALWAYS_FLUSH)
504                 vc4_flush(pctx);
505 }
506 
507 static uint32_t
pack_rgba(enum pipe_format format,const float * rgba)508 pack_rgba(enum pipe_format format, const float *rgba)
509 {
510         union util_color uc;
511         util_pack_color(rgba, format, &uc);
512         if (util_format_get_blocksize(format) == 2)
513                 return uc.us;
514         else
515                 return uc.ui[0];
516 }
517 
518 static void
vc4_clear(struct pipe_context * pctx,unsigned buffers,const struct pipe_scissor_state * scissor_state,const union pipe_color_union * color,double depth,unsigned stencil)519 vc4_clear(struct pipe_context *pctx, unsigned buffers, const struct pipe_scissor_state *scissor_state,
520           const union pipe_color_union *color, double depth, unsigned stencil)
521 {
522         struct vc4_context *vc4 = vc4_context(pctx);
523         struct vc4_job *job = vc4_get_job_for_fbo(vc4);
524 
525         if (buffers & PIPE_CLEAR_DEPTHSTENCIL) {
526                 struct vc4_resource *rsc =
527                         vc4_resource(vc4->framebuffer.zsbuf->texture);
528                 unsigned zsclear = buffers & PIPE_CLEAR_DEPTHSTENCIL;
529 
530                 /* Clearing ZS will clear both Z and stencil, so if we're
531                  * trying to clear just one then we need to draw a quad to do
532                  * it instead.  We need to do this before setting up
533                  * tile-based clears in vc4->job, because the blitter may
534                  * submit the current job.
535                  */
536                 if ((zsclear == PIPE_CLEAR_DEPTH ||
537                      zsclear == PIPE_CLEAR_STENCIL) &&
538                     (rsc->initialized_buffers & ~(zsclear | job->cleared)) &&
539                     util_format_is_depth_and_stencil(vc4->framebuffer.zsbuf->format)) {
540                         static const union pipe_color_union dummy_color = {};
541 
542                         perf_debug("Partial clear of Z+stencil buffer, "
543                                    "drawing a quad instead of fast clearing\n");
544                         vc4_blitter_save(vc4);
545                         util_blitter_clear(vc4->blitter,
546                                            vc4->framebuffer.width,
547                                            vc4->framebuffer.height,
548                                            1,
549                                            zsclear,
550                                            &dummy_color, depth, stencil,
551                                            false);
552                         buffers &= ~zsclear;
553                         if (!buffers)
554                                 return;
555                         job = vc4_get_job_for_fbo(vc4);
556                 }
557         }
558 
559         /* We can't flag new buffers for clearing once we've queued draws.  We
560          * could avoid this by using the 3d engine to clear.
561          */
562         if (job->draw_calls_queued) {
563                 perf_debug("Flushing rendering to process new clear.\n");
564                 vc4_job_submit(vc4, job);
565                 job = vc4_get_job_for_fbo(vc4);
566         }
567 
568         if (buffers & PIPE_CLEAR_COLOR0) {
569                 struct vc4_resource *rsc =
570                         vc4_resource(vc4->framebuffer.cbufs[0]->texture);
571                 uint32_t clear_color;
572 
573                 if (vc4_rt_format_is_565(vc4->framebuffer.cbufs[0]->format)) {
574                         /* In 565 mode, the hardware will be packing our color
575                          * for us.
576                          */
577                         clear_color = pack_rgba(PIPE_FORMAT_R8G8B8A8_UNORM,
578                                                 color->f);
579                 } else {
580                         /* Otherwise, we need to do this packing because we
581                          * support multiple swizzlings of RGBA8888.
582                          */
583                         clear_color =
584                                 pack_rgba(vc4->framebuffer.cbufs[0]->format,
585                                           color->f);
586                 }
587                 job->clear_color[0] = job->clear_color[1] = clear_color;
588                 rsc->initialized_buffers |= (buffers & PIPE_CLEAR_COLOR0);
589         }
590 
591         if (buffers & PIPE_CLEAR_DEPTHSTENCIL) {
592                 struct vc4_resource *rsc =
593                         vc4_resource(vc4->framebuffer.zsbuf->texture);
594 
595                 /* Though the depth buffer is stored with Z in the high 24,
596                  * for this field we just need to store it in the low 24.
597                  */
598                 if (buffers & PIPE_CLEAR_DEPTH) {
599                         job->clear_depth = util_pack_z(PIPE_FORMAT_Z24X8_UNORM,
600                                                        depth);
601                 }
602                 if (buffers & PIPE_CLEAR_STENCIL)
603                         job->clear_stencil = stencil;
604 
605                 rsc->initialized_buffers |= (buffers & PIPE_CLEAR_DEPTHSTENCIL);
606         }
607 
608         job->draw_min_x = 0;
609         job->draw_min_y = 0;
610         job->draw_max_x = vc4->framebuffer.width;
611         job->draw_max_y = vc4->framebuffer.height;
612         job->cleared |= buffers;
613         job->resolve |= buffers;
614 
615         vc4_start_draw(vc4);
616 }
617 
618 static void
vc4_clear_render_target(struct pipe_context * pctx,struct pipe_surface * ps,const union pipe_color_union * color,unsigned x,unsigned y,unsigned w,unsigned h,bool render_condition_enabled)619 vc4_clear_render_target(struct pipe_context *pctx, struct pipe_surface *ps,
620                         const union pipe_color_union *color,
621                         unsigned x, unsigned y, unsigned w, unsigned h,
622 			bool render_condition_enabled)
623 {
624         fprintf(stderr, "unimpl: clear RT\n");
625 }
626 
627 static void
vc4_clear_depth_stencil(struct pipe_context * pctx,struct pipe_surface * ps,unsigned buffers,double depth,unsigned stencil,unsigned x,unsigned y,unsigned w,unsigned h,bool render_condition_enabled)628 vc4_clear_depth_stencil(struct pipe_context *pctx, struct pipe_surface *ps,
629                         unsigned buffers, double depth, unsigned stencil,
630                         unsigned x, unsigned y, unsigned w, unsigned h,
631 			bool render_condition_enabled)
632 {
633         fprintf(stderr, "unimpl: clear DS\n");
634 }
635 
636 void
vc4_draw_init(struct pipe_context * pctx)637 vc4_draw_init(struct pipe_context *pctx)
638 {
639         pctx->draw_vbo = vc4_draw_vbo;
640         pctx->clear = vc4_clear;
641         pctx->clear_render_target = vc4_clear_render_target;
642         pctx->clear_depth_stencil = vc4_clear_depth_stencil;
643 }
644