2 * Copyright 2010 Jerome Glisse <glisse@freedesktop.org>
3 * Copyright 2018 Advanced Micro Devices, Inc.
6 * Permission is hereby granted, free of charge, to any person obtaining a
7 * copy of this software and associated documentation files (the "Software"),
8 * to deal in the Software without restriction, including without limitation
9 * on the rights to use, copy, modify, merge, publish, distribute, sub
10 * license, and/or sell copies of the Software, and to permit persons to whom
11 * the Software is furnished to do so, subject to the following conditions:
13 * The above copyright notice and this permission notice (including the next
14 * paragraph) shall be included in all copies or substantial portions of the
17 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
18 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
20 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
21 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
22 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
23 * USE OR OTHER DEALINGS IN THE SOFTWARE.
26 #include "drm-uapi/drm_fourcc.h"
30 #include "state_tracker/drm_driver.h"
31 #include "util/format/u_format.h"
32 #include "util/os_time.h"
33 #include "util/u_log.h"
34 #include "util/u_memory.h"
35 #include "util/u_pack_color.h"
36 #include "util/u_resource.h"
37 #include "util/u_surface.h"
38 #include "util/u_transfer.h"
43 #include "amd/addrlib/inc/addrinterface.h"
45 static enum radeon_surf_mode
si_choose_tiling(struct si_screen
*sscreen
,
46 const struct pipe_resource
*templ
,
47 bool tc_compatible_htile
);
49 bool si_prepare_for_dma_blit(struct si_context
*sctx
, struct si_texture
*dst
, unsigned dst_level
,
50 unsigned dstx
, unsigned dsty
, unsigned dstz
, struct si_texture
*src
,
51 unsigned src_level
, const struct pipe_box
*src_box
)
56 if (dst
->surface
.bpe
!= src
->surface
.bpe
)
59 /* MSAA: Blits don't exist in the real world. */
60 if (src
->buffer
.b
.b
.nr_samples
> 1 || dst
->buffer
.b
.b
.nr_samples
> 1)
63 /* Depth-stencil surfaces:
64 * When dst is linear, the DB->CB copy preserves HTILE.
65 * When dst is tiled, the 3D path must be used to update HTILE.
67 if (src
->is_depth
|| dst
->is_depth
)
71 * src: Use the 3D path. DCC decompression is expensive.
72 * dst: Use the 3D path to compress the pixels with DCC.
74 if (vi_dcc_enabled(src
, src_level
) || vi_dcc_enabled(dst
, dst_level
))
78 * src: Both texture and SDMA paths need decompression. Use SDMA.
79 * dst: If overwriting the whole texture, discard CMASK and use
80 * SDMA. Otherwise, use the 3D path.
82 if (dst
->cmask_buffer
&& dst
->dirty_level_mask
& (1 << dst_level
)) {
83 /* The CMASK clear is only enabled for the first level. */
84 assert(dst_level
== 0);
85 if (!util_texrange_covers_whole_level(&dst
->buffer
.b
.b
, dst_level
, dstx
, dsty
, dstz
,
86 src_box
->width
, src_box
->height
, src_box
->depth
))
89 si_texture_discard_cmask(sctx
->screen
, dst
);
92 /* All requirements are met. Prepare textures for SDMA. */
93 if (src
->cmask_buffer
&& src
->dirty_level_mask
& (1 << src_level
))
94 sctx
->b
.flush_resource(&sctx
->b
, &src
->buffer
.b
.b
);
96 assert(!(src
->dirty_level_mask
& (1 << src_level
)));
97 assert(!(dst
->dirty_level_mask
& (1 << dst_level
)));
102 /* Same as resource_copy_region, except that both upsampling and downsampling are allowed. */
103 static void si_copy_region_with_blit(struct pipe_context
*pipe
, struct pipe_resource
*dst
,
104 unsigned dst_level
, unsigned dstx
, unsigned dsty
,
105 unsigned dstz
, struct pipe_resource
*src
, unsigned src_level
,
106 const struct pipe_box
*src_box
)
108 struct pipe_blit_info blit
;
110 memset(&blit
, 0, sizeof(blit
));
111 blit
.src
.resource
= src
;
112 blit
.src
.format
= src
->format
;
113 blit
.src
.level
= src_level
;
114 blit
.src
.box
= *src_box
;
115 blit
.dst
.resource
= dst
;
116 blit
.dst
.format
= dst
->format
;
117 blit
.dst
.level
= dst_level
;
118 blit
.dst
.box
.x
= dstx
;
119 blit
.dst
.box
.y
= dsty
;
120 blit
.dst
.box
.z
= dstz
;
121 blit
.dst
.box
.width
= src_box
->width
;
122 blit
.dst
.box
.height
= src_box
->height
;
123 blit
.dst
.box
.depth
= src_box
->depth
;
124 blit
.mask
= util_format_get_mask(dst
->format
);
125 blit
.filter
= PIPE_TEX_FILTER_NEAREST
;
128 pipe
->blit(pipe
, &blit
);
132 /* Copy from a full GPU texture to a transfer's staging one. */
133 static void si_copy_to_staging_texture(struct pipe_context
*ctx
, struct si_transfer
*stransfer
)
135 struct si_context
*sctx
= (struct si_context
*)ctx
;
136 struct pipe_transfer
*transfer
= (struct pipe_transfer
*)stransfer
;
137 struct pipe_resource
*dst
= &stransfer
->staging
->b
.b
;
138 struct pipe_resource
*src
= transfer
->resource
;
140 if (src
->nr_samples
> 1 || ((struct si_texture
*)src
)->is_depth
) {
141 si_copy_region_with_blit(ctx
, dst
, 0, 0, 0, 0, src
, transfer
->level
, &transfer
->box
);
145 sctx
->dma_copy(ctx
, dst
, 0, 0, 0, 0, src
, transfer
->level
, &transfer
->box
);
148 /* Copy from a transfer's staging texture to a full GPU one. */
149 static void si_copy_from_staging_texture(struct pipe_context
*ctx
, struct si_transfer
*stransfer
)
151 struct si_context
*sctx
= (struct si_context
*)ctx
;
152 struct pipe_transfer
*transfer
= (struct pipe_transfer
*)stransfer
;
153 struct pipe_resource
*dst
= transfer
->resource
;
154 struct pipe_resource
*src
= &stransfer
->staging
->b
.b
;
155 struct pipe_box sbox
;
157 u_box_3d(0, 0, 0, transfer
->box
.width
, transfer
->box
.height
, transfer
->box
.depth
, &sbox
);
159 if (dst
->nr_samples
> 1 || ((struct si_texture
*)dst
)->is_depth
) {
160 si_copy_region_with_blit(ctx
, dst
, transfer
->level
, transfer
->box
.x
, transfer
->box
.y
,
161 transfer
->box
.z
, src
, 0, &sbox
);
165 if (util_format_is_compressed(dst
->format
)) {
166 sbox
.width
= util_format_get_nblocksx(dst
->format
, sbox
.width
);
167 sbox
.height
= util_format_get_nblocksx(dst
->format
, sbox
.height
);
170 sctx
->dma_copy(ctx
, dst
, transfer
->level
, transfer
->box
.x
, transfer
->box
.y
, transfer
->box
.z
, src
,
174 static unsigned si_texture_get_offset(struct si_screen
*sscreen
, struct si_texture
*tex
,
175 unsigned level
, const struct pipe_box
*box
, unsigned *stride
,
176 unsigned *layer_stride
)
178 if (sscreen
->info
.chip_class
>= GFX9
) {
179 *stride
= tex
->surface
.u
.gfx9
.surf_pitch
* tex
->surface
.bpe
;
180 *layer_stride
= tex
->surface
.u
.gfx9
.surf_slice_size
;
185 /* Each texture is an array of slices. Each slice is an array
186 * of mipmap levels. */
187 return tex
->surface
.u
.gfx9
.surf_offset
+ box
->z
* tex
->surface
.u
.gfx9
.surf_slice_size
+
188 tex
->surface
.u
.gfx9
.offset
[level
] +
189 (box
->y
/ tex
->surface
.blk_h
* tex
->surface
.u
.gfx9
.surf_pitch
+
190 box
->x
/ tex
->surface
.blk_w
) *
193 *stride
= tex
->surface
.u
.legacy
.level
[level
].nblk_x
* tex
->surface
.bpe
;
194 assert((uint64_t)tex
->surface
.u
.legacy
.level
[level
].slice_size_dw
* 4 <= UINT_MAX
);
195 *layer_stride
= (uint64_t)tex
->surface
.u
.legacy
.level
[level
].slice_size_dw
* 4;
198 return tex
->surface
.u
.legacy
.level
[level
].offset
;
200 /* Each texture is an array of mipmap levels. Each level is
201 * an array of slices. */
202 return tex
->surface
.u
.legacy
.level
[level
].offset
+
203 box
->z
* (uint64_t)tex
->surface
.u
.legacy
.level
[level
].slice_size_dw
* 4 +
204 (box
->y
/ tex
->surface
.blk_h
* tex
->surface
.u
.legacy
.level
[level
].nblk_x
+
205 box
->x
/ tex
->surface
.blk_w
) *
210 static int si_init_surface(struct si_screen
*sscreen
, struct radeon_surf
*surface
,
211 const struct pipe_resource
*ptex
, enum radeon_surf_mode array_mode
,
212 unsigned pitch_in_bytes_override
, bool is_imported
, bool is_scanout
,
213 bool is_flushed_depth
, bool tc_compatible_htile
)
215 const struct util_format_description
*desc
= util_format_description(ptex
->format
);
216 bool is_depth
, is_stencil
;
218 unsigned bpe
, flags
= 0;
220 is_depth
= util_format_has_depth(desc
);
221 is_stencil
= util_format_has_stencil(desc
);
223 if (!is_flushed_depth
&& ptex
->format
== PIPE_FORMAT_Z32_FLOAT_S8X24_UINT
) {
224 bpe
= 4; /* stencil is allocated separately */
226 bpe
= util_format_get_blocksize(ptex
->format
);
227 assert(util_is_power_of_two_or_zero(bpe
));
230 if (!is_flushed_depth
&& is_depth
) {
231 flags
|= RADEON_SURF_ZBUFFER
;
233 if (sscreen
->debug_flags
& DBG(NO_HYPERZ
)) {
234 flags
|= RADEON_SURF_NO_HTILE
;
235 } else if (tc_compatible_htile
&&
236 (sscreen
->info
.chip_class
>= GFX9
|| array_mode
== RADEON_SURF_MODE_2D
)) {
237 /* TC-compatible HTILE only supports Z32_FLOAT.
238 * GFX9 also supports Z16_UNORM.
239 * On GFX8, promote Z16 to Z32. DB->CB copies will convert
240 * the format for transfers.
242 if (sscreen
->info
.chip_class
== GFX8
)
245 flags
|= RADEON_SURF_TC_COMPATIBLE_HTILE
;
249 flags
|= RADEON_SURF_SBUFFER
;
252 if (sscreen
->info
.chip_class
>= GFX8
&&
253 (ptex
->flags
& SI_RESOURCE_FLAG_DISABLE_DCC
|| ptex
->format
== PIPE_FORMAT_R9G9B9E5_FLOAT
||
254 (ptex
->nr_samples
>= 2 && !sscreen
->dcc_msaa_allowed
)))
255 flags
|= RADEON_SURF_DISABLE_DCC
;
257 /* Stoney: 128bpp MSAA textures randomly fail piglit tests with DCC. */
258 if (sscreen
->info
.family
== CHIP_STONEY
&& bpe
== 16 && ptex
->nr_samples
>= 2)
259 flags
|= RADEON_SURF_DISABLE_DCC
;
261 /* GFX8: DCC clear for 4x and 8x MSAA array textures unimplemented. */
262 if (sscreen
->info
.chip_class
== GFX8
&& ptex
->nr_storage_samples
>= 4 && ptex
->array_size
> 1)
263 flags
|= RADEON_SURF_DISABLE_DCC
;
265 /* GFX9: DCC clear for 4x and 8x MSAA textures unimplemented. */
266 if (sscreen
->info
.chip_class
== GFX9
&&
267 (ptex
->nr_storage_samples
>= 4 ||
268 (sscreen
->info
.family
== CHIP_RAVEN
&& ptex
->nr_storage_samples
>= 2 && bpe
< 4)))
269 flags
|= RADEON_SURF_DISABLE_DCC
;
271 /* TODO: GFX10: DCC causes corruption with MSAA. */
272 if (sscreen
->info
.chip_class
>= GFX10
&& ptex
->nr_storage_samples
>= 2)
273 flags
|= RADEON_SURF_DISABLE_DCC
;
275 /* Shared textures must always set up DCC.
276 * If it's not present, it will be disabled by
277 * si_get_opaque_metadata later.
279 if (!is_imported
&& (sscreen
->debug_flags
& DBG(NO_DCC
)))
280 flags
|= RADEON_SURF_DISABLE_DCC
;
283 /* This should catch bugs in gallium users setting incorrect flags. */
284 assert(ptex
->nr_samples
<= 1 && ptex
->array_size
== 1 && ptex
->depth0
== 1 &&
285 ptex
->last_level
== 0 && !(flags
& RADEON_SURF_Z_OR_SBUFFER
));
287 flags
|= RADEON_SURF_SCANOUT
;
290 if (ptex
->bind
& PIPE_BIND_SHARED
)
291 flags
|= RADEON_SURF_SHAREABLE
;
293 flags
|= RADEON_SURF_IMPORTED
| RADEON_SURF_SHAREABLE
;
294 if (sscreen
->debug_flags
& DBG(NO_FMASK
))
295 flags
|= RADEON_SURF_NO_FMASK
;
297 if (sscreen
->info
.chip_class
== GFX9
&& (ptex
->flags
& SI_RESOURCE_FLAG_FORCE_MICRO_TILE_MODE
)) {
298 flags
|= RADEON_SURF_FORCE_MICRO_TILE_MODE
;
299 surface
->micro_tile_mode
= SI_RESOURCE_FLAG_MICRO_TILE_MODE_GET(ptex
->flags
);
302 if (ptex
->flags
& SI_RESOURCE_FLAG_FORCE_MSAA_TILING
) {
303 flags
|= RADEON_SURF_FORCE_SWIZZLE_MODE
;
305 if (sscreen
->info
.chip_class
>= GFX10
)
306 surface
->u
.gfx9
.surf
.swizzle_mode
= ADDR_SW_64KB_R_X
;
309 r
= sscreen
->ws
->surface_init(sscreen
->ws
, ptex
, flags
, bpe
, array_mode
, surface
);
314 unsigned pitch
= pitch_in_bytes_override
/ bpe
;
316 if (sscreen
->info
.chip_class
>= GFX9
) {
318 surface
->u
.gfx9
.surf_pitch
= pitch
;
319 if (ptex
->last_level
== 0)
320 surface
->u
.gfx9
.surf
.epitch
= pitch
- 1;
321 surface
->u
.gfx9
.surf_slice_size
= (uint64_t)pitch
* surface
->u
.gfx9
.surf_height
* bpe
;
325 surface
->u
.legacy
.level
[0].nblk_x
= pitch
;
326 surface
->u
.legacy
.level
[0].slice_size_dw
=
327 ((uint64_t)pitch
* surface
->u
.legacy
.level
[0].nblk_y
* bpe
) / 4;
333 static void si_get_display_metadata(struct si_screen
*sscreen
, struct radeon_surf
*surf
,
334 struct radeon_bo_metadata
*metadata
,
335 enum radeon_surf_mode
*array_mode
, bool *is_scanout
)
337 if (sscreen
->info
.chip_class
>= GFX9
) {
338 if (metadata
->u
.gfx9
.swizzle_mode
> 0)
339 *array_mode
= RADEON_SURF_MODE_2D
;
341 *array_mode
= RADEON_SURF_MODE_LINEAR_ALIGNED
;
343 surf
->u
.gfx9
.surf
.swizzle_mode
= metadata
->u
.gfx9
.swizzle_mode
;
344 surf
->u
.gfx9
.dcc
.independent_64B_blocks
= metadata
->u
.gfx9
.dcc_independent_64B
;
345 surf
->u
.gfx9
.dcc
.independent_128B_blocks
= metadata
->u
.gfx9
.dcc_independent_128B
;
346 surf
->u
.gfx9
.dcc
.max_compressed_block_size
= metadata
->u
.gfx9
.dcc_max_compressed_block_size
;
347 surf
->u
.gfx9
.display_dcc_pitch_max
= metadata
->u
.gfx9
.dcc_pitch_max
;
348 *is_scanout
= metadata
->u
.gfx9
.scanout
;
350 surf
->u
.legacy
.pipe_config
= metadata
->u
.legacy
.pipe_config
;
351 surf
->u
.legacy
.bankw
= metadata
->u
.legacy
.bankw
;
352 surf
->u
.legacy
.bankh
= metadata
->u
.legacy
.bankh
;
353 surf
->u
.legacy
.tile_split
= metadata
->u
.legacy
.tile_split
;
354 surf
->u
.legacy
.mtilea
= metadata
->u
.legacy
.mtilea
;
355 surf
->u
.legacy
.num_banks
= metadata
->u
.legacy
.num_banks
;
357 if (metadata
->u
.legacy
.macrotile
== RADEON_LAYOUT_TILED
)
358 *array_mode
= RADEON_SURF_MODE_2D
;
359 else if (metadata
->u
.legacy
.microtile
== RADEON_LAYOUT_TILED
)
360 *array_mode
= RADEON_SURF_MODE_1D
;
362 *array_mode
= RADEON_SURF_MODE_LINEAR_ALIGNED
;
364 *is_scanout
= metadata
->u
.legacy
.scanout
;
368 void si_eliminate_fast_color_clear(struct si_context
*sctx
, struct si_texture
*tex
)
370 struct si_screen
*sscreen
= sctx
->screen
;
371 struct pipe_context
*ctx
= &sctx
->b
;
373 if (ctx
== sscreen
->aux_context
)
374 simple_mtx_lock(&sscreen
->aux_context_lock
);
376 unsigned n
= sctx
->num_decompress_calls
;
377 ctx
->flush_resource(ctx
, &tex
->buffer
.b
.b
);
379 /* Flush only if any fast clear elimination took place. */
380 if (n
!= sctx
->num_decompress_calls
)
381 ctx
->flush(ctx
, NULL
, 0);
383 if (ctx
== sscreen
->aux_context
)
384 simple_mtx_unlock(&sscreen
->aux_context_lock
);
387 void si_texture_discard_cmask(struct si_screen
*sscreen
, struct si_texture
*tex
)
389 if (!tex
->cmask_buffer
)
392 assert(tex
->buffer
.b
.b
.nr_samples
<= 1);
395 tex
->cmask_base_address_reg
= tex
->buffer
.gpu_address
>> 8;
396 tex
->dirty_level_mask
= 0;
398 tex
->cb_color_info
&= ~S_028C70_FAST_CLEAR(1);
400 if (tex
->cmask_buffer
!= &tex
->buffer
)
401 si_resource_reference(&tex
->cmask_buffer
, NULL
);
403 tex
->cmask_buffer
= NULL
;
405 /* Notify all contexts about the change. */
406 p_atomic_inc(&sscreen
->dirty_tex_counter
);
407 p_atomic_inc(&sscreen
->compressed_colortex_counter
);
410 static bool si_can_disable_dcc(struct si_texture
*tex
)
412 /* We can't disable DCC if it can be written by another process. */
413 return tex
->surface
.dcc_offset
&&
414 (!tex
->buffer
.b
.is_shared
||
415 !(tex
->buffer
.external_usage
& PIPE_HANDLE_USAGE_FRAMEBUFFER_WRITE
));
418 static void si_texture_zero_dcc_fields(struct si_texture
*tex
)
420 tex
->surface
.dcc_offset
= 0;
421 tex
->surface
.display_dcc_offset
= 0;
422 tex
->surface
.dcc_retile_map_offset
= 0;
425 static bool si_texture_discard_dcc(struct si_screen
*sscreen
, struct si_texture
*tex
)
427 if (!si_can_disable_dcc(tex
))
430 assert(tex
->dcc_separate_buffer
== NULL
);
433 si_texture_zero_dcc_fields(tex
);
435 /* Notify all contexts about the change. */
436 p_atomic_inc(&sscreen
->dirty_tex_counter
);
441 * Disable DCC for the texture. (first decompress, then discard metadata).
443 * There is unresolved multi-context synchronization issue between
444 * screen::aux_context and the current context. If applications do this with
445 * multiple contexts, it's already undefined behavior for them and we don't
446 * have to worry about that. The scenario is:
448 * If context 1 disables DCC and context 2 has queued commands that write
449 * to the texture via CB with DCC enabled, and the order of operations is
451 * context 2 queues draw calls rendering to the texture, but doesn't flush
452 * context 1 disables DCC and flushes
453 * context 1 & 2 reset descriptors and FB state
454 * context 2 flushes (new compressed tiles written by the draw calls)
455 * context 1 & 2 read garbage, because DCC is disabled, yet there are
458 * \param sctx the current context if you have one, or sscreen->aux_context
461 bool si_texture_disable_dcc(struct si_context
*sctx
, struct si_texture
*tex
)
463 struct si_screen
*sscreen
= sctx
->screen
;
465 if (!sctx
->has_graphics
)
466 return si_texture_discard_dcc(sscreen
, tex
);
468 if (!si_can_disable_dcc(tex
))
471 if (&sctx
->b
== sscreen
->aux_context
)
472 simple_mtx_lock(&sscreen
->aux_context_lock
);
474 /* Decompress DCC. */
475 si_decompress_dcc(sctx
, tex
);
476 sctx
->b
.flush(&sctx
->b
, NULL
, 0);
478 if (&sctx
->b
== sscreen
->aux_context
)
479 simple_mtx_unlock(&sscreen
->aux_context_lock
);
481 return si_texture_discard_dcc(sscreen
, tex
);
484 static void si_reallocate_texture_inplace(struct si_context
*sctx
, struct si_texture
*tex
,
485 unsigned new_bind_flag
, bool invalidate_storage
)
487 struct pipe_screen
*screen
= sctx
->b
.screen
;
488 struct si_texture
*new_tex
;
489 struct pipe_resource templ
= tex
->buffer
.b
.b
;
492 templ
.bind
|= new_bind_flag
;
494 if (tex
->buffer
.b
.is_shared
|| tex
->num_planes
> 1)
497 if (new_bind_flag
== PIPE_BIND_LINEAR
) {
498 if (tex
->surface
.is_linear
)
501 /* This fails with MSAA, depth, and compressed textures. */
502 if (si_choose_tiling(sctx
->screen
, &templ
, false) != RADEON_SURF_MODE_LINEAR_ALIGNED
)
506 new_tex
= (struct si_texture
*)screen
->resource_create(screen
, &templ
);
510 /* Copy the pixels to the new texture. */
511 if (!invalidate_storage
) {
512 for (i
= 0; i
<= templ
.last_level
; i
++) {
515 u_box_3d(0, 0, 0, u_minify(templ
.width0
, i
), u_minify(templ
.height0
, i
),
516 util_num_layers(&templ
, i
), &box
);
518 sctx
->dma_copy(&sctx
->b
, &new_tex
->buffer
.b
.b
, i
, 0, 0, 0, &tex
->buffer
.b
.b
, i
, &box
);
522 if (new_bind_flag
== PIPE_BIND_LINEAR
) {
523 si_texture_discard_cmask(sctx
->screen
, tex
);
524 si_texture_discard_dcc(sctx
->screen
, tex
);
527 /* Replace the structure fields of tex. */
528 tex
->buffer
.b
.b
.bind
= templ
.bind
;
529 pb_reference(&tex
->buffer
.buf
, new_tex
->buffer
.buf
);
530 tex
->buffer
.gpu_address
= new_tex
->buffer
.gpu_address
;
531 tex
->buffer
.vram_usage
= new_tex
->buffer
.vram_usage
;
532 tex
->buffer
.gart_usage
= new_tex
->buffer
.gart_usage
;
533 tex
->buffer
.bo_size
= new_tex
->buffer
.bo_size
;
534 tex
->buffer
.bo_alignment
= new_tex
->buffer
.bo_alignment
;
535 tex
->buffer
.domains
= new_tex
->buffer
.domains
;
536 tex
->buffer
.flags
= new_tex
->buffer
.flags
;
538 tex
->surface
= new_tex
->surface
;
539 si_texture_reference(&tex
->flushed_depth_texture
, new_tex
->flushed_depth_texture
);
541 tex
->surface
.fmask_offset
= new_tex
->surface
.fmask_offset
;
542 tex
->surface
.cmask_offset
= new_tex
->surface
.cmask_offset
;
543 tex
->cmask_base_address_reg
= new_tex
->cmask_base_address_reg
;
545 if (tex
->cmask_buffer
== &tex
->buffer
)
546 tex
->cmask_buffer
= NULL
;
548 si_resource_reference(&tex
->cmask_buffer
, NULL
);
550 if (new_tex
->cmask_buffer
== &new_tex
->buffer
)
551 tex
->cmask_buffer
= &tex
->buffer
;
553 si_resource_reference(&tex
->cmask_buffer
, new_tex
->cmask_buffer
);
555 tex
->surface
.dcc_offset
= new_tex
->surface
.dcc_offset
;
556 tex
->cb_color_info
= new_tex
->cb_color_info
;
557 memcpy(tex
->color_clear_value
, new_tex
->color_clear_value
, sizeof(tex
->color_clear_value
));
558 tex
->last_msaa_resolve_target_micro_mode
= new_tex
->last_msaa_resolve_target_micro_mode
;
560 tex
->surface
.htile_offset
= new_tex
->surface
.htile_offset
;
561 tex
->depth_clear_value
= new_tex
->depth_clear_value
;
562 tex
->dirty_level_mask
= new_tex
->dirty_level_mask
;
563 tex
->stencil_dirty_level_mask
= new_tex
->stencil_dirty_level_mask
;
564 tex
->db_render_format
= new_tex
->db_render_format
;
565 tex
->stencil_clear_value
= new_tex
->stencil_clear_value
;
566 tex
->tc_compatible_htile
= new_tex
->tc_compatible_htile
;
567 tex
->depth_cleared
= new_tex
->depth_cleared
;
568 tex
->stencil_cleared
= new_tex
->stencil_cleared
;
569 tex
->upgraded_depth
= new_tex
->upgraded_depth
;
570 tex
->db_compatible
= new_tex
->db_compatible
;
571 tex
->can_sample_z
= new_tex
->can_sample_z
;
572 tex
->can_sample_s
= new_tex
->can_sample_s
;
574 tex
->separate_dcc_dirty
= new_tex
->separate_dcc_dirty
;
575 tex
->displayable_dcc_dirty
= new_tex
->displayable_dcc_dirty
;
576 tex
->dcc_gather_statistics
= new_tex
->dcc_gather_statistics
;
577 si_resource_reference(&tex
->dcc_separate_buffer
, new_tex
->dcc_separate_buffer
);
578 si_resource_reference(&tex
->last_dcc_separate_buffer
, new_tex
->last_dcc_separate_buffer
);
580 if (new_bind_flag
== PIPE_BIND_LINEAR
) {
581 assert(!tex
->surface
.htile_offset
);
582 assert(!tex
->cmask_buffer
);
583 assert(!tex
->surface
.fmask_size
);
584 assert(!tex
->surface
.dcc_offset
);
585 assert(!tex
->is_depth
);
588 si_texture_reference(&new_tex
, NULL
);
590 p_atomic_inc(&sctx
->screen
->dirty_tex_counter
);
593 static uint32_t si_get_bo_metadata_word1(struct si_screen
*sscreen
)
595 return (ATI_VENDOR_ID
<< 16) | sscreen
->info
.pci_id
;
598 static void si_set_tex_bo_metadata(struct si_screen
*sscreen
, struct si_texture
*tex
)
600 struct radeon_surf
*surface
= &tex
->surface
;
601 struct pipe_resource
*res
= &tex
->buffer
.b
.b
;
602 struct radeon_bo_metadata md
;
604 memset(&md
, 0, sizeof(md
));
606 if (sscreen
->info
.chip_class
>= GFX9
) {
607 md
.u
.gfx9
.swizzle_mode
= surface
->u
.gfx9
.surf
.swizzle_mode
;
608 md
.u
.gfx9
.scanout
= (surface
->flags
& RADEON_SURF_SCANOUT
) != 0;
610 if (tex
->surface
.dcc_offset
&& !tex
->dcc_separate_buffer
) {
611 uint64_t dcc_offset
= tex
->surface
.display_dcc_offset
? tex
->surface
.display_dcc_offset
612 : tex
->surface
.dcc_offset
;
614 assert((dcc_offset
>> 8) != 0 && (dcc_offset
>> 8) < (1 << 24));
615 md
.u
.gfx9
.dcc_offset_256B
= dcc_offset
>> 8;
616 md
.u
.gfx9
.dcc_pitch_max
= tex
->surface
.u
.gfx9
.display_dcc_pitch_max
;
617 md
.u
.gfx9
.dcc_independent_64B
= tex
->surface
.u
.gfx9
.dcc
.independent_64B_blocks
;
618 md
.u
.gfx9
.dcc_independent_128B
= tex
->surface
.u
.gfx9
.dcc
.independent_128B_blocks
;
619 md
.u
.gfx9
.dcc_max_compressed_block_size
= tex
->surface
.u
.gfx9
.dcc
.max_compressed_block_size
;
622 md
.u
.legacy
.microtile
= surface
->u
.legacy
.level
[0].mode
>= RADEON_SURF_MODE_1D
623 ? RADEON_LAYOUT_TILED
624 : RADEON_LAYOUT_LINEAR
;
625 md
.u
.legacy
.macrotile
= surface
->u
.legacy
.level
[0].mode
>= RADEON_SURF_MODE_2D
626 ? RADEON_LAYOUT_TILED
627 : RADEON_LAYOUT_LINEAR
;
628 md
.u
.legacy
.pipe_config
= surface
->u
.legacy
.pipe_config
;
629 md
.u
.legacy
.bankw
= surface
->u
.legacy
.bankw
;
630 md
.u
.legacy
.bankh
= surface
->u
.legacy
.bankh
;
631 md
.u
.legacy
.tile_split
= surface
->u
.legacy
.tile_split
;
632 md
.u
.legacy
.mtilea
= surface
->u
.legacy
.mtilea
;
633 md
.u
.legacy
.num_banks
= surface
->u
.legacy
.num_banks
;
634 md
.u
.legacy
.stride
= surface
->u
.legacy
.level
[0].nblk_x
* surface
->bpe
;
635 md
.u
.legacy
.scanout
= (surface
->flags
& RADEON_SURF_SCANOUT
) != 0;
638 assert(tex
->dcc_separate_buffer
== NULL
);
639 assert(tex
->surface
.fmask_size
== 0);
641 /* Metadata image format format version 1:
642 * [0] = 1 (metadata format identifier)
643 * [1] = (VENDOR_ID << 16) | PCI_ID
644 * [2:9] = image descriptor for the whole resource
645 * [2] is always 0, because the base address is cleared
646 * [9] is the DCC offset bits [39:8] from the beginning of
648 * [10:10+LAST_LEVEL] = mipmap level offset bits [39:8] for each level
651 md
.metadata
[0] = 1; /* metadata image format version 1 */
653 /* TILE_MODE_INDEX is ambiguous without a PCI ID. */
654 md
.metadata
[1] = si_get_bo_metadata_word1(sscreen
);
656 static const unsigned char swizzle
[] = {PIPE_SWIZZLE_X
, PIPE_SWIZZLE_Y
, PIPE_SWIZZLE_Z
,
658 bool is_array
= util_texture_is_array(res
->target
);
661 sscreen
->make_texture_descriptor(sscreen
, tex
, true, res
->target
, res
->format
, swizzle
, 0,
662 res
->last_level
, 0, is_array
? res
->array_size
- 1 : 0,
663 res
->width0
, res
->height0
, res
->depth0
, desc
, NULL
);
665 si_set_mutable_tex_desc_fields(sscreen
, tex
, &tex
->surface
.u
.legacy
.level
[0], 0, 0,
666 tex
->surface
.blk_w
, false, false, desc
);
668 /* Clear the base address and set the relative DCC offset. */
670 desc
[1] &= C_008F14_BASE_ADDRESS_HI
;
672 switch (sscreen
->info
.chip_class
) {
677 desc
[7] = tex
->surface
.dcc_offset
>> 8;
680 desc
[7] = tex
->surface
.dcc_offset
>> 8;
681 desc
[5] &= C_008F24_META_DATA_ADDRESS
;
682 desc
[5] |= S_008F24_META_DATA_ADDRESS(tex
->surface
.dcc_offset
>> 40);
685 desc
[6] &= C_00A018_META_DATA_ADDRESS_LO
;
686 desc
[6] |= S_00A018_META_DATA_ADDRESS_LO(tex
->surface
.dcc_offset
>> 8);
687 desc
[7] = tex
->surface
.dcc_offset
>> 16;
693 /* Dwords [2:9] contain the image descriptor. */
694 memcpy(&md
.metadata
[2], desc
, sizeof(desc
));
695 md
.size_metadata
= 10 * 4;
697 /* Dwords [10:..] contain the mipmap level offsets. */
698 if (sscreen
->info
.chip_class
<= GFX8
) {
699 for (unsigned i
= 0; i
<= res
->last_level
; i
++)
700 md
.metadata
[10 + i
] = tex
->surface
.u
.legacy
.level
[i
].offset
>> 8;
702 md
.size_metadata
+= (1 + res
->last_level
) * 4;
705 sscreen
->ws
->buffer_set_metadata(tex
->buffer
.buf
, &md
);
708 static bool si_read_tex_bo_metadata(struct si_screen
*sscreen
, struct si_texture
*tex
,
709 uint64_t offset
, struct radeon_bo_metadata
*md
)
711 uint32_t *desc
= &md
->metadata
[2];
713 if (offset
|| /* Non-zero planes ignore metadata. */
714 md
->size_metadata
< 10 * 4 || /* at least 2(header) + 8(desc) dwords */
715 md
->metadata
[0] == 0 || /* invalid version number */
716 md
->metadata
[1] != si_get_bo_metadata_word1(sscreen
)) /* invalid PCI ID */ {
717 /* Disable DCC because it might not be enabled. */
718 si_texture_zero_dcc_fields(tex
);
720 /* Don't report an error if the texture comes from an incompatible driver,
721 * but this might not work.
726 /* Validate that sample counts and the number of mipmap levels match. */
727 unsigned last_level
= G_008F1C_LAST_LEVEL(desc
[3]);
728 unsigned type
= G_008F1C_TYPE(desc
[3]);
730 if (type
== V_008F1C_SQ_RSRC_IMG_2D_MSAA
|| type
== V_008F1C_SQ_RSRC_IMG_2D_MSAA_ARRAY
) {
731 unsigned log_samples
= util_logbase2(MAX2(1, tex
->buffer
.b
.b
.nr_storage_samples
));
733 if (last_level
!= log_samples
) {
735 "radeonsi: invalid MSAA texture import, "
736 "metadata has log2(samples) = %u, the caller set %u\n",
737 last_level
, log_samples
);
741 if (last_level
!= tex
->buffer
.b
.b
.last_level
) {
743 "radeonsi: invalid mipmapped texture import, "
744 "metadata has last_level = %u, the caller set %u\n",
745 last_level
, tex
->buffer
.b
.b
.last_level
);
750 if (sscreen
->info
.chip_class
>= GFX8
&& G_008F28_COMPRESSION_EN(desc
[6])) {
751 /* Read DCC information. */
752 switch (sscreen
->info
.chip_class
) {
754 tex
->surface
.dcc_offset
= (uint64_t)desc
[7] << 8;
758 tex
->surface
.dcc_offset
=
759 ((uint64_t)desc
[7] << 8) | ((uint64_t)G_008F24_META_DATA_ADDRESS(desc
[5]) << 40);
760 tex
->surface
.u
.gfx9
.dcc
.pipe_aligned
= G_008F24_META_PIPE_ALIGNED(desc
[5]);
761 tex
->surface
.u
.gfx9
.dcc
.rb_aligned
= G_008F24_META_RB_ALIGNED(desc
[5]);
763 /* If DCC is unaligned, this can only be a displayable image. */
764 if (!tex
->surface
.u
.gfx9
.dcc
.pipe_aligned
&& !tex
->surface
.u
.gfx9
.dcc
.rb_aligned
)
765 assert(tex
->surface
.is_displayable
);
769 tex
->surface
.dcc_offset
=
770 ((uint64_t)G_00A018_META_DATA_ADDRESS_LO(desc
[6]) << 8) | ((uint64_t)desc
[7] << 16);
771 tex
->surface
.u
.gfx9
.dcc
.pipe_aligned
= G_00A018_META_PIPE_ALIGNED(desc
[6]);
779 /* Disable DCC. dcc_offset is always set by texture_from_handle
780 * and must be cleared here.
782 si_texture_zero_dcc_fields(tex
);
788 static bool si_has_displayable_dcc(struct si_texture
*tex
)
790 struct si_screen
*sscreen
= (struct si_screen
*)tex
->buffer
.b
.b
.screen
;
792 if (sscreen
->info
.chip_class
<= GFX8
)
795 return tex
->surface
.is_displayable
&& tex
->surface
.dcc_offset
;
798 static bool si_resource_get_param(struct pipe_screen
*screen
, struct pipe_context
*context
,
799 struct pipe_resource
*resource
, unsigned plane
, unsigned layer
,
800 enum pipe_resource_param param
, unsigned handle_usage
,
803 for (unsigned i
= 0; i
< plane
; i
++)
804 resource
= resource
->next
;
806 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
807 struct si_texture
*tex
= (struct si_texture
*)resource
;
808 struct winsys_handle whandle
;
811 case PIPE_RESOURCE_PARAM_NPLANES
:
812 *value
= resource
->target
== PIPE_BUFFER
? 1 : tex
->num_planes
;
815 case PIPE_RESOURCE_PARAM_STRIDE
:
816 if (resource
->target
== PIPE_BUFFER
)
818 else if (sscreen
->info
.chip_class
>= GFX9
)
819 *value
= tex
->surface
.u
.gfx9
.surf_pitch
* tex
->surface
.bpe
;
821 *value
= tex
->surface
.u
.legacy
.level
[0].nblk_x
* tex
->surface
.bpe
;
824 case PIPE_RESOURCE_PARAM_OFFSET
:
825 if (resource
->target
== PIPE_BUFFER
)
827 else if (sscreen
->info
.chip_class
>= GFX9
)
828 *value
= tex
->surface
.u
.gfx9
.surf_offset
+ layer
* tex
->surface
.u
.gfx9
.surf_slice_size
;
830 *value
= tex
->surface
.u
.legacy
.level
[0].offset
+
831 layer
* (uint64_t)tex
->surface
.u
.legacy
.level
[0].slice_size_dw
* 4;
834 case PIPE_RESOURCE_PARAM_MODIFIER
:
835 *value
= DRM_FORMAT_MOD_INVALID
;
838 case PIPE_RESOURCE_PARAM_HANDLE_TYPE_SHARED
:
839 case PIPE_RESOURCE_PARAM_HANDLE_TYPE_KMS
:
840 case PIPE_RESOURCE_PARAM_HANDLE_TYPE_FD
:
841 memset(&whandle
, 0, sizeof(whandle
));
843 if (param
== PIPE_RESOURCE_PARAM_HANDLE_TYPE_SHARED
)
844 whandle
.type
= WINSYS_HANDLE_TYPE_SHARED
;
845 else if (param
== PIPE_RESOURCE_PARAM_HANDLE_TYPE_KMS
)
846 whandle
.type
= WINSYS_HANDLE_TYPE_KMS
;
847 else if (param
== PIPE_RESOURCE_PARAM_HANDLE_TYPE_FD
)
848 whandle
.type
= WINSYS_HANDLE_TYPE_FD
;
850 if (!screen
->resource_get_handle(screen
, context
, resource
, &whandle
, handle_usage
))
853 *value
= whandle
.handle
;
859 static void si_texture_get_info(struct pipe_screen
*screen
, struct pipe_resource
*resource
,
860 unsigned *pstride
, unsigned *poffset
)
865 si_resource_get_param(screen
, NULL
, resource
, 0, 0, PIPE_RESOURCE_PARAM_STRIDE
, 0, &value
);
870 si_resource_get_param(screen
, NULL
, resource
, 0, 0, PIPE_RESOURCE_PARAM_OFFSET
, 0, &value
);
875 static bool si_texture_get_handle(struct pipe_screen
*screen
, struct pipe_context
*ctx
,
876 struct pipe_resource
*resource
, struct winsys_handle
*whandle
,
879 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
880 struct si_context
*sctx
;
881 struct si_resource
*res
= si_resource(resource
);
882 struct si_texture
*tex
= (struct si_texture
*)resource
;
883 bool update_metadata
= false;
884 unsigned stride
, offset
, slice_size
;
887 ctx
= threaded_context_unwrap_sync(ctx
);
888 sctx
= (struct si_context
*)(ctx
? ctx
: sscreen
->aux_context
);
890 if (resource
->target
!= PIPE_BUFFER
) {
891 /* Individual planes are chained pipe_resource instances. */
892 for (unsigned i
= 0; i
< whandle
->plane
; i
++) {
893 resource
= resource
->next
;
894 res
= si_resource(resource
);
895 tex
= (struct si_texture
*)resource
;
898 /* This is not supported now, but it might be required for OpenCL
899 * interop in the future.
901 if (resource
->nr_samples
> 1 || tex
->is_depth
)
904 /* Move a suballocated texture into a non-suballocated allocation. */
905 if (sscreen
->ws
->buffer_is_suballocated(res
->buf
) || tex
->surface
.tile_swizzle
||
906 (tex
->buffer
.flags
& RADEON_FLAG_NO_INTERPROCESS_SHARING
&&
907 sscreen
->info
.has_local_buffers
)) {
908 assert(!res
->b
.is_shared
);
909 si_reallocate_texture_inplace(sctx
, tex
, PIPE_BIND_SHARED
, false);
911 assert(res
->b
.b
.bind
& PIPE_BIND_SHARED
);
912 assert(res
->flags
& RADEON_FLAG_NO_SUBALLOC
);
913 assert(!(res
->flags
& RADEON_FLAG_NO_INTERPROCESS_SHARING
));
914 assert(tex
->surface
.tile_swizzle
== 0);
917 /* Since shader image stores don't support DCC on GFX8,
918 * disable it for external clients that want write
921 if ((usage
& PIPE_HANDLE_USAGE_SHADER_WRITE
&& tex
->surface
.dcc_offset
) ||
922 /* Displayable DCC requires an explicit flush. */
923 (!(usage
& PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
) && si_has_displayable_dcc(tex
))) {
924 if (si_texture_disable_dcc(sctx
, tex
)) {
925 update_metadata
= true;
926 /* si_texture_disable_dcc flushes the context */
931 if (!(usage
& PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
) &&
932 (tex
->cmask_buffer
|| tex
->surface
.dcc_offset
)) {
933 /* Eliminate fast clear (both CMASK and DCC) */
934 si_eliminate_fast_color_clear(sctx
, tex
);
935 /* eliminate_fast_color_clear flushes the context */
938 /* Disable CMASK if flush_resource isn't going
941 if (tex
->cmask_buffer
)
942 si_texture_discard_cmask(sscreen
, tex
);
946 if ((!res
->b
.is_shared
|| update_metadata
) && whandle
->offset
== 0)
947 si_set_tex_bo_metadata(sscreen
, tex
);
949 if (sscreen
->info
.chip_class
>= GFX9
) {
950 slice_size
= tex
->surface
.u
.gfx9
.surf_slice_size
;
952 slice_size
= (uint64_t)tex
->surface
.u
.legacy
.level
[0].slice_size_dw
* 4;
955 /* Buffer exports are for the OpenCL interop. */
956 /* Move a suballocated buffer into a non-suballocated allocation. */
957 if (sscreen
->ws
->buffer_is_suballocated(res
->buf
) ||
958 /* A DMABUF export always fails if the BO is local. */
959 (tex
->buffer
.flags
& RADEON_FLAG_NO_INTERPROCESS_SHARING
&&
960 sscreen
->info
.has_local_buffers
)) {
961 assert(!res
->b
.is_shared
);
963 /* Allocate a new buffer with PIPE_BIND_SHARED. */
964 struct pipe_resource templ
= res
->b
.b
;
965 templ
.bind
|= PIPE_BIND_SHARED
;
967 struct pipe_resource
*newb
= screen
->resource_create(screen
, &templ
);
971 /* Copy the old buffer contents to the new one. */
973 u_box_1d(0, newb
->width0
, &box
);
974 sctx
->b
.resource_copy_region(&sctx
->b
, newb
, 0, 0, 0, 0, &res
->b
.b
, 0, &box
);
976 /* Move the new buffer storage to the old pipe_resource. */
977 si_replace_buffer_storage(&sctx
->b
, &res
->b
.b
, newb
);
978 pipe_resource_reference(&newb
, NULL
);
980 assert(res
->b
.b
.bind
& PIPE_BIND_SHARED
);
981 assert(res
->flags
& RADEON_FLAG_NO_SUBALLOC
);
988 si_texture_get_info(screen
, resource
, &stride
, &offset
);
991 sctx
->b
.flush(&sctx
->b
, NULL
, 0);
993 if (res
->b
.is_shared
) {
994 /* USAGE_EXPLICIT_FLUSH must be cleared if at least one user
997 res
->external_usage
|= usage
& ~PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
;
998 if (!(usage
& PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
))
999 res
->external_usage
&= ~PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
;
1001 res
->b
.is_shared
= true;
1002 res
->external_usage
= usage
;
1005 whandle
->stride
= stride
;
1006 whandle
->offset
= offset
+ slice_size
* whandle
->layer
;
1008 return sscreen
->ws
->buffer_get_handle(sscreen
->ws
, res
->buf
, whandle
);
1011 static void si_texture_destroy(struct pipe_screen
*screen
, struct pipe_resource
*ptex
)
1013 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
1014 struct si_texture
*tex
= (struct si_texture
*)ptex
;
1015 struct si_resource
*resource
= &tex
->buffer
;
1017 if (sscreen
->info
.chip_class
>= GFX9
)
1018 free(tex
->surface
.u
.gfx9
.dcc_retile_map
);
1020 si_texture_reference(&tex
->flushed_depth_texture
, NULL
);
1022 if (tex
->cmask_buffer
!= &tex
->buffer
) {
1023 si_resource_reference(&tex
->cmask_buffer
, NULL
);
1025 pb_reference(&resource
->buf
, NULL
);
1026 si_resource_reference(&tex
->dcc_separate_buffer
, NULL
);
1027 si_resource_reference(&tex
->last_dcc_separate_buffer
, NULL
);
1031 static const struct u_resource_vtbl si_texture_vtbl
;
1033 void si_print_texture_info(struct si_screen
*sscreen
, struct si_texture
*tex
,
1034 struct u_log_context
*log
)
1038 /* Common parameters. */
1040 " Info: npix_x=%u, npix_y=%u, npix_z=%u, blk_w=%u, "
1041 "blk_h=%u, array_size=%u, last_level=%u, "
1042 "bpe=%u, nsamples=%u, flags=0x%x, %s\n",
1043 tex
->buffer
.b
.b
.width0
, tex
->buffer
.b
.b
.height0
, tex
->buffer
.b
.b
.depth0
,
1044 tex
->surface
.blk_w
, tex
->surface
.blk_h
, tex
->buffer
.b
.b
.array_size
,
1045 tex
->buffer
.b
.b
.last_level
, tex
->surface
.bpe
, tex
->buffer
.b
.b
.nr_samples
,
1046 tex
->surface
.flags
, util_format_short_name(tex
->buffer
.b
.b
.format
));
1048 if (sscreen
->info
.chip_class
>= GFX9
) {
1050 " Surf: size=%" PRIu64
", slice_size=%" PRIu64
", "
1051 "alignment=%u, swmode=%u, epitch=%u, pitch=%u\n",
1052 tex
->surface
.surf_size
, tex
->surface
.u
.gfx9
.surf_slice_size
,
1053 tex
->surface
.surf_alignment
, tex
->surface
.u
.gfx9
.surf
.swizzle_mode
,
1054 tex
->surface
.u
.gfx9
.surf
.epitch
, tex
->surface
.u
.gfx9
.surf_pitch
);
1056 if (tex
->surface
.fmask_offset
) {
1058 " FMASK: offset=%" PRIu64
", size=%" PRIu64
", "
1059 "alignment=%u, swmode=%u, epitch=%u\n",
1060 tex
->surface
.fmask_offset
, tex
->surface
.fmask_size
,
1061 tex
->surface
.fmask_alignment
, tex
->surface
.u
.gfx9
.fmask
.swizzle_mode
,
1062 tex
->surface
.u
.gfx9
.fmask
.epitch
);
1065 if (tex
->cmask_buffer
) {
1067 " CMask: offset=%" PRIu64
", size=%u, "
1068 "alignment=%u, rb_aligned=%u, pipe_aligned=%u\n",
1069 tex
->surface
.cmask_offset
, tex
->surface
.cmask_size
,
1070 tex
->surface
.cmask_alignment
, tex
->surface
.u
.gfx9
.cmask
.rb_aligned
,
1071 tex
->surface
.u
.gfx9
.cmask
.pipe_aligned
);
1074 if (tex
->surface
.htile_offset
) {
1076 " HTile: offset=%" PRIu64
", size=%u, alignment=%u, "
1077 "rb_aligned=%u, pipe_aligned=%u\n",
1078 tex
->surface
.htile_offset
, tex
->surface
.htile_size
,
1079 tex
->surface
.htile_alignment
, tex
->surface
.u
.gfx9
.htile
.rb_aligned
,
1080 tex
->surface
.u
.gfx9
.htile
.pipe_aligned
);
1083 if (tex
->surface
.dcc_offset
) {
1085 " DCC: offset=%" PRIu64
", size=%u, "
1086 "alignment=%u, pitch_max=%u, num_dcc_levels=%u\n",
1087 tex
->surface
.dcc_offset
, tex
->surface
.dcc_size
, tex
->surface
.dcc_alignment
,
1088 tex
->surface
.u
.gfx9
.display_dcc_pitch_max
, tex
->surface
.num_dcc_levels
);
1091 if (tex
->surface
.u
.gfx9
.stencil_offset
) {
1092 u_log_printf(log
, " Stencil: offset=%" PRIu64
", swmode=%u, epitch=%u\n",
1093 tex
->surface
.u
.gfx9
.stencil_offset
, tex
->surface
.u
.gfx9
.stencil
.swizzle_mode
,
1094 tex
->surface
.u
.gfx9
.stencil
.epitch
);
1100 " Layout: size=%" PRIu64
", alignment=%u, bankw=%u, "
1101 "bankh=%u, nbanks=%u, mtilea=%u, tilesplit=%u, pipeconfig=%u, scanout=%u\n",
1102 tex
->surface
.surf_size
, tex
->surface
.surf_alignment
, tex
->surface
.u
.legacy
.bankw
,
1103 tex
->surface
.u
.legacy
.bankh
, tex
->surface
.u
.legacy
.num_banks
,
1104 tex
->surface
.u
.legacy
.mtilea
, tex
->surface
.u
.legacy
.tile_split
,
1105 tex
->surface
.u
.legacy
.pipe_config
, (tex
->surface
.flags
& RADEON_SURF_SCANOUT
) != 0);
1107 if (tex
->surface
.fmask_offset
)
1110 " FMask: offset=%" PRIu64
", size=%" PRIu64
", alignment=%u, pitch_in_pixels=%u, "
1111 "bankh=%u, slice_tile_max=%u, tile_mode_index=%u\n",
1112 tex
->surface
.fmask_offset
, tex
->surface
.fmask_size
, tex
->surface
.fmask_alignment
,
1113 tex
->surface
.u
.legacy
.fmask
.pitch_in_pixels
, tex
->surface
.u
.legacy
.fmask
.bankh
,
1114 tex
->surface
.u
.legacy
.fmask
.slice_tile_max
, tex
->surface
.u
.legacy
.fmask
.tiling_index
);
1116 if (tex
->cmask_buffer
)
1118 " CMask: offset=%" PRIu64
", size=%u, alignment=%u, "
1119 "slice_tile_max=%u\n",
1120 tex
->surface
.cmask_offset
, tex
->surface
.cmask_size
, tex
->surface
.cmask_alignment
,
1121 tex
->surface
.u
.legacy
.cmask_slice_tile_max
);
1123 if (tex
->surface
.htile_offset
)
1125 " HTile: offset=%" PRIu64
", size=%u, "
1126 "alignment=%u, TC_compatible = %u\n",
1127 tex
->surface
.htile_offset
, tex
->surface
.htile_size
, tex
->surface
.htile_alignment
,
1128 tex
->tc_compatible_htile
);
1130 if (tex
->surface
.dcc_offset
) {
1131 u_log_printf(log
, " DCC: offset=%" PRIu64
", size=%u, alignment=%u\n",
1132 tex
->surface
.dcc_offset
, tex
->surface
.dcc_size
, tex
->surface
.dcc_alignment
);
1133 for (i
= 0; i
<= tex
->buffer
.b
.b
.last_level
; i
++)
1135 " DCCLevel[%i]: enabled=%u, offset=%u, "
1136 "fast_clear_size=%u\n",
1137 i
, i
< tex
->surface
.num_dcc_levels
, tex
->surface
.u
.legacy
.level
[i
].dcc_offset
,
1138 tex
->surface
.u
.legacy
.level
[i
].dcc_fast_clear_size
);
1141 for (i
= 0; i
<= tex
->buffer
.b
.b
.last_level
; i
++)
1143 " Level[%i]: offset=%" PRIu64
", slice_size=%" PRIu64
", "
1144 "npix_x=%u, npix_y=%u, npix_z=%u, nblk_x=%u, nblk_y=%u, "
1145 "mode=%u, tiling_index = %u\n",
1146 i
, tex
->surface
.u
.legacy
.level
[i
].offset
,
1147 (uint64_t)tex
->surface
.u
.legacy
.level
[i
].slice_size_dw
* 4,
1148 u_minify(tex
->buffer
.b
.b
.width0
, i
), u_minify(tex
->buffer
.b
.b
.height0
, i
),
1149 u_minify(tex
->buffer
.b
.b
.depth0
, i
), tex
->surface
.u
.legacy
.level
[i
].nblk_x
,
1150 tex
->surface
.u
.legacy
.level
[i
].nblk_y
, tex
->surface
.u
.legacy
.level
[i
].mode
,
1151 tex
->surface
.u
.legacy
.tiling_index
[i
]);
1153 if (tex
->surface
.has_stencil
) {
1154 u_log_printf(log
, " StencilLayout: tilesplit=%u\n",
1155 tex
->surface
.u
.legacy
.stencil_tile_split
);
1156 for (i
= 0; i
<= tex
->buffer
.b
.b
.last_level
; i
++) {
1158 " StencilLevel[%i]: offset=%" PRIu64
", "
1159 "slice_size=%" PRIu64
", npix_x=%u, "
1160 "npix_y=%u, npix_z=%u, nblk_x=%u, nblk_y=%u, "
1161 "mode=%u, tiling_index = %u\n",
1162 i
, tex
->surface
.u
.legacy
.stencil_level
[i
].offset
,
1163 (uint64_t)tex
->surface
.u
.legacy
.stencil_level
[i
].slice_size_dw
* 4,
1164 u_minify(tex
->buffer
.b
.b
.width0
, i
), u_minify(tex
->buffer
.b
.b
.height0
, i
),
1165 u_minify(tex
->buffer
.b
.b
.depth0
, i
),
1166 tex
->surface
.u
.legacy
.stencil_level
[i
].nblk_x
,
1167 tex
->surface
.u
.legacy
.stencil_level
[i
].nblk_y
,
1168 tex
->surface
.u
.legacy
.stencil_level
[i
].mode
,
1169 tex
->surface
.u
.legacy
.stencil_tiling_index
[i
]);
1175 * Common function for si_texture_create and si_texture_from_handle.
1177 * \param screen screen
1178 * \param base resource template
1179 * \param surface radeon_surf
1180 * \param plane0 if a non-zero plane is being created, this is the first plane
1181 * \param imported_buf from si_texture_from_handle
1182 * \param offset offset for non-zero planes or imported buffers
1183 * \param alloc_size the size to allocate if plane0 != NULL
1184 * \param alignment alignment for the allocation
1186 static struct si_texture
*si_texture_create_object(struct pipe_screen
*screen
,
1187 const struct pipe_resource
*base
,
1188 const struct radeon_surf
*surface
,
1189 const struct si_texture
*plane0
,
1190 struct pb_buffer
*imported_buf
, uint64_t offset
,
1191 uint64_t alloc_size
, unsigned alignment
)
1193 struct si_texture
*tex
;
1194 struct si_resource
*resource
;
1195 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
1197 tex
= CALLOC_STRUCT(si_texture
);
1201 resource
= &tex
->buffer
;
1202 resource
->b
.b
= *base
;
1203 resource
->b
.vtbl
= &si_texture_vtbl
;
1204 pipe_reference_init(&resource
->b
.b
.reference
, 1);
1205 resource
->b
.b
.screen
= screen
;
1207 /* don't include stencil-only formats which we don't support for rendering */
1208 tex
->is_depth
= util_format_has_depth(util_format_description(tex
->buffer
.b
.b
.format
));
1209 tex
->surface
= *surface
;
1210 tex
->tc_compatible_htile
= false; /* This will be enabled on demand. */
1212 /* TC-compatible HTILE:
1213 * - GFX8 only supports Z32_FLOAT.
1214 * - GFX9 only supports Z32_FLOAT and Z16_UNORM. */
1215 if (tex
->surface
.flags
& RADEON_SURF_TC_COMPATIBLE_HTILE
) {
1216 if (sscreen
->info
.chip_class
>= GFX9
&& base
->format
== PIPE_FORMAT_Z16_UNORM
)
1217 tex
->db_render_format
= base
->format
;
1219 tex
->db_render_format
= PIPE_FORMAT_Z32_FLOAT
;
1220 tex
->upgraded_depth
= base
->format
!= PIPE_FORMAT_Z32_FLOAT
&&
1221 base
->format
!= PIPE_FORMAT_Z32_FLOAT_S8X24_UINT
;
1224 tex
->db_render_format
= base
->format
;
1227 /* Applies to GCN. */
1228 tex
->last_msaa_resolve_target_micro_mode
= tex
->surface
.micro_tile_mode
;
1230 /* Disable separate DCC at the beginning. DRI2 doesn't reuse buffers
1231 * between frames, so the only thing that can enable separate DCC
1232 * with DRI2 is multiple slow clears within a frame.
1234 tex
->ps_draw_ratio
= 0;
1236 if (sscreen
->info
.chip_class
>= GFX9
) {
1237 tex
->surface
.u
.gfx9
.surf_offset
= offset
;
1239 for (unsigned i
= 0; i
< ARRAY_SIZE(surface
->u
.legacy
.level
); ++i
)
1240 tex
->surface
.u
.legacy
.level
[i
].offset
+= offset
;
1243 if (tex
->is_depth
) {
1244 if (sscreen
->info
.chip_class
>= GFX9
) {
1245 tex
->can_sample_z
= true;
1246 tex
->can_sample_s
= true;
1248 /* Stencil texturing with HTILE doesn't work
1249 * with mipmapping on Navi10-14. */
1250 if (sscreen
->info
.chip_class
== GFX10
&& base
->last_level
> 0)
1251 tex
->htile_stencil_disabled
= true;
1253 tex
->can_sample_z
= !tex
->surface
.u
.legacy
.depth_adjusted
;
1254 tex
->can_sample_s
= !tex
->surface
.u
.legacy
.stencil_adjusted
;
1257 tex
->db_compatible
= surface
->flags
& RADEON_SURF_ZBUFFER
;
1259 if (tex
->surface
.cmask_offset
) {
1260 tex
->cb_color_info
|= S_028C70_FAST_CLEAR(1);
1261 tex
->cmask_buffer
= &tex
->buffer
;
1266 /* The buffer is shared with the first plane. */
1267 resource
->bo_size
= plane0
->buffer
.bo_size
;
1268 resource
->bo_alignment
= plane0
->buffer
.bo_alignment
;
1269 resource
->flags
= plane0
->buffer
.flags
;
1270 resource
->domains
= plane0
->buffer
.domains
;
1271 resource
->vram_usage
= plane0
->buffer
.vram_usage
;
1272 resource
->gart_usage
= plane0
->buffer
.gart_usage
;
1274 pb_reference(&resource
->buf
, plane0
->buffer
.buf
);
1275 resource
->gpu_address
= plane0
->buffer
.gpu_address
;
1276 } else if (!(surface
->flags
& RADEON_SURF_IMPORTED
)) {
1277 /* Create the backing buffer. */
1278 si_init_resource_fields(sscreen
, resource
, alloc_size
, alignment
);
1280 if (!si_alloc_resource(sscreen
, resource
))
1283 resource
->buf
= imported_buf
;
1284 resource
->gpu_address
= sscreen
->ws
->buffer_get_virtual_address(resource
->buf
);
1285 resource
->bo_size
= imported_buf
->size
;
1286 resource
->bo_alignment
= imported_buf
->alignment
;
1287 resource
->domains
= sscreen
->ws
->buffer_get_initial_domain(resource
->buf
);
1288 if (resource
->domains
& RADEON_DOMAIN_VRAM
)
1289 resource
->vram_usage
= resource
->bo_size
;
1290 else if (resource
->domains
& RADEON_DOMAIN_GTT
)
1291 resource
->gart_usage
= resource
->bo_size
;
1292 if (sscreen
->ws
->buffer_get_flags
)
1293 resource
->flags
= sscreen
->ws
->buffer_get_flags(resource
->buf
);
1296 if (tex
->cmask_buffer
) {
1297 /* Initialize the cmask to 0xCC (= compressed state). */
1298 si_screen_clear_buffer(sscreen
, &tex
->cmask_buffer
->b
.b
, tex
->surface
.cmask_offset
,
1299 tex
->surface
.cmask_size
, 0xCCCCCCCC);
1301 if (tex
->surface
.htile_offset
) {
1302 uint32_t clear_value
= 0;
1304 if (sscreen
->info
.chip_class
>= GFX9
|| tex
->tc_compatible_htile
)
1305 clear_value
= 0x0000030F;
1307 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.htile_offset
,
1308 tex
->surface
.htile_size
, clear_value
);
1311 /* Initialize DCC only if the texture is not being imported. */
1312 if (!(surface
->flags
& RADEON_SURF_IMPORTED
) && tex
->surface
.dcc_offset
) {
1313 /* Clear DCC to black for all tiles with DCC enabled.
1315 * This fixes corruption in 3DMark Slingshot Extreme, which
1316 * uses uninitialized textures, causing corruption.
1318 if (tex
->surface
.num_dcc_levels
== tex
->buffer
.b
.b
.last_level
+ 1 &&
1319 tex
->buffer
.b
.b
.nr_samples
<= 2) {
1320 /* Simple case - all tiles have DCC enabled. */
1321 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.dcc_offset
,
1322 tex
->surface
.dcc_size
, DCC_CLEAR_COLOR_0000
);
1323 } else if (sscreen
->info
.chip_class
>= GFX9
) {
1324 /* Clear to uncompressed. Clearing this to black is complicated. */
1325 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.dcc_offset
,
1326 tex
->surface
.dcc_size
, DCC_UNCOMPRESSED
);
1328 /* GFX8: Initialize mipmap levels and multisamples separately. */
1329 if (tex
->buffer
.b
.b
.nr_samples
>= 2) {
1330 /* Clearing this to black is complicated. */
1331 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.dcc_offset
,
1332 tex
->surface
.dcc_size
, DCC_UNCOMPRESSED
);
1334 /* Clear the enabled mipmap levels to black. */
1337 for (unsigned i
= 0; i
< tex
->surface
.num_dcc_levels
; i
++) {
1338 if (!tex
->surface
.u
.legacy
.level
[i
].dcc_fast_clear_size
)
1341 size
= tex
->surface
.u
.legacy
.level
[i
].dcc_offset
+
1342 tex
->surface
.u
.legacy
.level
[i
].dcc_fast_clear_size
;
1345 /* Mipmap levels with DCC. */
1347 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.dcc_offset
, size
,
1348 DCC_CLEAR_COLOR_0000
);
1350 /* Mipmap levels without DCC. */
1351 if (size
!= tex
->surface
.dcc_size
) {
1352 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.dcc_offset
+ size
,
1353 tex
->surface
.dcc_size
- size
, DCC_UNCOMPRESSED
);
1358 /* Initialize displayable DCC that requires the retile blit. */
1359 if (tex
->surface
.dcc_retile_map_offset
) {
1360 /* Uninitialized DCC can hang the display hw.
1361 * Clear to white to indicate that. */
1362 si_screen_clear_buffer(sscreen
, &tex
->buffer
.b
.b
, tex
->surface
.display_dcc_offset
,
1363 tex
->surface
.u
.gfx9
.display_dcc_size
, DCC_CLEAR_COLOR_1111
);
1365 /* Upload the DCC retile map.
1366 * Use a staging buffer for the upload, because
1367 * the buffer backing the texture is unmappable.
1369 bool use_uint16
= tex
->surface
.u
.gfx9
.dcc_retile_use_uint16
;
1370 unsigned num_elements
= tex
->surface
.u
.gfx9
.dcc_retile_num_elements
;
1371 struct si_resource
*buf
= si_aligned_buffer_create(screen
, 0, PIPE_USAGE_STREAM
,
1372 num_elements
* (use_uint16
? 2 : 4),
1373 sscreen
->info
.tcc_cache_line_size
);
1374 uint32_t *ui
= (uint32_t *)sscreen
->ws
->buffer_map(buf
->buf
, NULL
, PIPE_TRANSFER_WRITE
);
1375 uint16_t *us
= (uint16_t *)ui
;
1377 /* Upload the retile map into a staging buffer. */
1379 for (unsigned i
= 0; i
< num_elements
; i
++)
1380 us
[i
] = tex
->surface
.u
.gfx9
.dcc_retile_map
[i
];
1382 for (unsigned i
= 0; i
< num_elements
; i
++)
1383 ui
[i
] = tex
->surface
.u
.gfx9
.dcc_retile_map
[i
];
1386 /* Copy the staging buffer to the buffer backing the texture. */
1387 struct si_context
*sctx
= (struct si_context
*)sscreen
->aux_context
;
1389 assert(tex
->surface
.dcc_retile_map_offset
<= UINT_MAX
);
1390 simple_mtx_lock(&sscreen
->aux_context_lock
);
1391 si_sdma_copy_buffer(sctx
, &tex
->buffer
.b
.b
, &buf
->b
.b
, tex
->surface
.dcc_retile_map_offset
,
1392 0, buf
->b
.b
.width0
);
1393 sscreen
->aux_context
->flush(sscreen
->aux_context
, NULL
, 0);
1394 simple_mtx_unlock(&sscreen
->aux_context_lock
);
1396 si_resource_reference(&buf
, NULL
);
1400 /* Initialize the CMASK base register value. */
1401 tex
->cmask_base_address_reg
= (tex
->buffer
.gpu_address
+ tex
->surface
.cmask_offset
) >> 8;
1403 if (sscreen
->debug_flags
& DBG(VM
)) {
1405 "VM start=0x%" PRIX64
" end=0x%" PRIX64
1406 " | Texture %ix%ix%i, %i levels, %i samples, %s\n",
1407 tex
->buffer
.gpu_address
, tex
->buffer
.gpu_address
+ tex
->buffer
.buf
->size
,
1408 base
->width0
, base
->height0
, util_num_layers(base
, 0), base
->last_level
+ 1,
1409 base
->nr_samples
? base
->nr_samples
: 1, util_format_short_name(base
->format
));
1412 if (sscreen
->debug_flags
& DBG(TEX
)) {
1414 struct u_log_context log
;
1415 u_log_context_init(&log
);
1416 si_print_texture_info(sscreen
, tex
, &log
);
1417 u_log_new_page_print(&log
, stdout
);
1419 u_log_context_destroy(&log
);
1426 if (sscreen
->info
.chip_class
>= GFX9
)
1427 free(surface
->u
.gfx9
.dcc_retile_map
);
1431 static enum radeon_surf_mode
si_choose_tiling(struct si_screen
*sscreen
,
1432 const struct pipe_resource
*templ
,
1433 bool tc_compatible_htile
)
1435 const struct util_format_description
*desc
= util_format_description(templ
->format
);
1436 bool force_tiling
= templ
->flags
& SI_RESOURCE_FLAG_FORCE_MSAA_TILING
;
1437 bool is_depth_stencil
= util_format_is_depth_or_stencil(templ
->format
) &&
1438 !(templ
->flags
& SI_RESOURCE_FLAG_FLUSHED_DEPTH
);
1440 /* MSAA resources must be 2D tiled. */
1441 if (templ
->nr_samples
> 1)
1442 return RADEON_SURF_MODE_2D
;
1444 /* Transfer resources should be linear. */
1445 if (templ
->flags
& SI_RESOURCE_FLAG_TRANSFER
)
1446 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1448 /* Avoid Z/S decompress blits by forcing TC-compatible HTILE on GFX8,
1449 * which requires 2D tiling.
1451 if (sscreen
->info
.chip_class
== GFX8
&& tc_compatible_htile
)
1452 return RADEON_SURF_MODE_2D
;
1454 /* Handle common candidates for the linear mode.
1455 * Compressed textures and DB surfaces must always be tiled.
1457 if (!force_tiling
&& !is_depth_stencil
&& !util_format_is_compressed(templ
->format
)) {
1458 if (sscreen
->debug_flags
& DBG(NO_TILING
))
1459 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1461 /* Tiling doesn't work with the 422 (SUBSAMPLED) formats. */
1462 if (desc
->layout
== UTIL_FORMAT_LAYOUT_SUBSAMPLED
)
1463 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1465 /* Cursors are linear on AMD GCN.
1466 * (XXX double-check, maybe also use RADEON_SURF_SCANOUT) */
1467 if (templ
->bind
& PIPE_BIND_CURSOR
)
1468 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1470 if (templ
->bind
& PIPE_BIND_LINEAR
)
1471 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1473 /* Textures with a very small height are recommended to be linear. */
1474 if (templ
->target
== PIPE_TEXTURE_1D
|| templ
->target
== PIPE_TEXTURE_1D_ARRAY
||
1475 /* Only very thin and long 2D textures should benefit from
1476 * linear_aligned. */
1477 (templ
->width0
> 8 && templ
->height0
<= 2))
1478 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1480 /* Textures likely to be mapped often. */
1481 if (templ
->usage
== PIPE_USAGE_STAGING
|| templ
->usage
== PIPE_USAGE_STREAM
)
1482 return RADEON_SURF_MODE_LINEAR_ALIGNED
;
1485 /* Make small textures 1D tiled. */
1486 if (templ
->width0
<= 16 || templ
->height0
<= 16 || (sscreen
->debug_flags
& DBG(NO_2D_TILING
)))
1487 return RADEON_SURF_MODE_1D
;
1489 /* The allocator will switch to 1D if needed. */
1490 return RADEON_SURF_MODE_2D
;
1493 struct pipe_resource
*si_texture_create(struct pipe_screen
*screen
,
1494 const struct pipe_resource
*templ
)
1496 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
1497 bool is_zs
= util_format_is_depth_or_stencil(templ
->format
);
1499 if (templ
->nr_samples
>= 2) {
1500 /* This is hackish (overwriting the const pipe_resource template),
1501 * but should be harmless and state trackers can also see
1502 * the overriden number of samples in the created pipe_resource.
1504 if (is_zs
&& sscreen
->eqaa_force_z_samples
) {
1505 ((struct pipe_resource
*)templ
)->nr_samples
=
1506 ((struct pipe_resource
*)templ
)->nr_storage_samples
= sscreen
->eqaa_force_z_samples
;
1507 } else if (!is_zs
&& sscreen
->eqaa_force_color_samples
) {
1508 ((struct pipe_resource
*)templ
)->nr_samples
= sscreen
->eqaa_force_coverage_samples
;
1509 ((struct pipe_resource
*)templ
)->nr_storage_samples
= sscreen
->eqaa_force_color_samples
;
1513 bool is_flushed_depth
=
1514 templ
->flags
& SI_RESOURCE_FLAG_FLUSHED_DEPTH
|| templ
->flags
& SI_RESOURCE_FLAG_TRANSFER
;
1515 bool tc_compatible_htile
=
1516 sscreen
->info
.chip_class
>= GFX8
&&
1517 /* There are issues with TC-compatible HTILE on Tonga (and
1518 * Iceland is the same design), and documented bug workarounds
1519 * don't help. For example, this fails:
1520 * piglit/bin/tex-miplevel-selection 'texture()' 2DShadow -auto
1522 sscreen
->info
.family
!= CHIP_TONGA
&& sscreen
->info
.family
!= CHIP_ICELAND
&&
1523 (templ
->flags
& PIPE_RESOURCE_FLAG_TEXTURING_MORE_LIKELY
) &&
1524 !(sscreen
->debug_flags
& DBG(NO_HYPERZ
)) && !is_flushed_depth
&&
1525 templ
->nr_samples
<= 1 && /* TC-compat HTILE is less efficient with MSAA */
1527 enum radeon_surf_mode tile_mode
= si_choose_tiling(sscreen
, templ
, tc_compatible_htile
);
1529 /* This allocates textures with multiple planes like NV12 in 1 buffer. */
1532 SI_TEXTURE_MAX_PLANES
= 3
1534 struct radeon_surf surface
[SI_TEXTURE_MAX_PLANES
] = {};
1535 struct pipe_resource plane_templ
[SI_TEXTURE_MAX_PLANES
];
1536 uint64_t plane_offset
[SI_TEXTURE_MAX_PLANES
] = {};
1537 uint64_t total_size
= 0;
1538 unsigned max_alignment
= 0;
1539 unsigned num_planes
= util_format_get_num_planes(templ
->format
);
1540 assert(num_planes
<= SI_TEXTURE_MAX_PLANES
);
1542 /* Compute texture or plane layouts and offsets. */
1543 for (unsigned i
= 0; i
< num_planes
; i
++) {
1544 plane_templ
[i
] = *templ
;
1545 plane_templ
[i
].format
= util_format_get_plane_format(templ
->format
, i
);
1546 plane_templ
[i
].width0
= util_format_get_plane_width(templ
->format
, i
, templ
->width0
);
1547 plane_templ
[i
].height0
= util_format_get_plane_height(templ
->format
, i
, templ
->height0
);
1549 /* Multi-plane allocations need PIPE_BIND_SHARED, because we can't
1550 * reallocate the storage to add PIPE_BIND_SHARED, because it's
1551 * shared by 3 pipe_resources.
1554 plane_templ
[i
].bind
|= PIPE_BIND_SHARED
;
1556 if (si_init_surface(sscreen
, &surface
[i
], &plane_templ
[i
], tile_mode
, 0, false,
1557 plane_templ
[i
].bind
& PIPE_BIND_SCANOUT
, is_flushed_depth
,
1558 tc_compatible_htile
))
1561 plane_offset
[i
] = align64(total_size
, surface
[i
].surf_alignment
);
1562 total_size
= plane_offset
[i
] + surface
[i
].total_size
;
1563 max_alignment
= MAX2(max_alignment
, surface
[i
].surf_alignment
);
1566 struct si_texture
*plane0
= NULL
, *last_plane
= NULL
;
1568 for (unsigned i
= 0; i
< num_planes
; i
++) {
1569 struct si_texture
*tex
=
1570 si_texture_create_object(screen
, &plane_templ
[i
], &surface
[i
], plane0
, NULL
,
1571 plane_offset
[i
], total_size
, max_alignment
);
1573 si_texture_reference(&plane0
, NULL
);
1577 tex
->plane_index
= i
;
1578 tex
->num_planes
= num_planes
;
1581 plane0
= last_plane
= tex
;
1583 last_plane
->buffer
.b
.b
.next
= &tex
->buffer
.b
.b
;
1588 return (struct pipe_resource
*)plane0
;
1591 static struct pipe_resource
*si_texture_from_winsys_buffer(struct si_screen
*sscreen
,
1592 const struct pipe_resource
*templ
,
1593 struct pb_buffer
*buf
, unsigned stride
,
1594 unsigned offset
, unsigned usage
,
1597 enum radeon_surf_mode array_mode
;
1598 struct radeon_surf surface
= {};
1599 struct radeon_bo_metadata metadata
= {};
1600 struct si_texture
*tex
;
1604 /* Ignore metadata for non-zero planes. */
1609 sscreen
->ws
->buffer_get_metadata(buf
, &metadata
);
1610 si_get_display_metadata(sscreen
, &surface
, &metadata
, &array_mode
, &is_scanout
);
1613 * The bo metadata is unset for un-dedicated images. So we fall
1614 * back to linear. See answer to question 5 of the
1615 * VK_KHX_external_memory spec for some details.
1617 * It is possible that this case isn't going to work if the
1618 * surface pitch isn't correctly aligned by default.
1620 * In order to support it correctly we require multi-image
1621 * metadata to be syncrhonized between radv and radeonsi. The
1622 * semantics of associating multiple image metadata to a memory
1623 * object on the vulkan export side are not concretely defined
1626 * All the use cases we are aware of at the moment for memory
1627 * objects use dedicated allocations. So lets keep the initial
1628 * implementation simple.
1630 * A possible alternative is to attempt to reconstruct the
1631 * tiling information when the TexParameter TEXTURE_TILING_EXT
1634 array_mode
= RADEON_SURF_MODE_LINEAR_ALIGNED
;
1639 si_init_surface(sscreen
, &surface
, templ
, array_mode
, stride
, true, is_scanout
, false, false);
1643 tex
= si_texture_create_object(&sscreen
->b
, templ
, &surface
, NULL
, buf
, offset
, 0, 0);
1647 tex
->buffer
.b
.is_shared
= true;
1648 tex
->buffer
.external_usage
= usage
;
1649 tex
->num_planes
= 1;
1651 /* Account for multiple planes with lowered yuv import. */
1652 struct pipe_resource
*next_plane
= tex
->buffer
.b
.b
.next
;
1654 struct si_texture
*next_tex
= (struct si_texture
*)next_plane
;
1655 ++next_tex
->num_planes
;
1657 next_plane
= next_plane
->next
;
1660 if (!si_read_tex_bo_metadata(sscreen
, tex
, offset
, &metadata
)) {
1661 si_texture_reference(&tex
, NULL
);
1665 /* Displayable DCC requires an explicit flush. */
1666 if (dedicated
&& offset
== 0 && !(usage
& PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
) &&
1667 si_has_displayable_dcc(tex
)) {
1668 /* TODO: do we need to decompress DCC? */
1669 if (si_texture_discard_dcc(sscreen
, tex
)) {
1670 /* Update BO metadata after disabling DCC. */
1671 si_set_tex_bo_metadata(sscreen
, tex
);
1675 assert(tex
->surface
.tile_swizzle
== 0);
1676 return &tex
->buffer
.b
.b
;
1679 static struct pipe_resource
*si_texture_from_handle(struct pipe_screen
*screen
,
1680 const struct pipe_resource
*templ
,
1681 struct winsys_handle
*whandle
, unsigned usage
)
1683 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
1684 struct pb_buffer
*buf
= NULL
;
1686 /* Support only 2D textures without mipmaps */
1687 if ((templ
->target
!= PIPE_TEXTURE_2D
&& templ
->target
!= PIPE_TEXTURE_RECT
&&
1688 templ
->target
!= PIPE_TEXTURE_2D_ARRAY
) ||
1689 templ
->last_level
!= 0)
1692 buf
= sscreen
->ws
->buffer_from_handle(sscreen
->ws
, whandle
, sscreen
->info
.max_alignment
);
1696 return si_texture_from_winsys_buffer(sscreen
, templ
, buf
, whandle
->stride
, whandle
->offset
,
1700 bool si_init_flushed_depth_texture(struct pipe_context
*ctx
, struct pipe_resource
*texture
)
1702 struct si_texture
*tex
= (struct si_texture
*)texture
;
1703 struct pipe_resource resource
;
1704 enum pipe_format pipe_format
= texture
->format
;
1706 assert(!tex
->flushed_depth_texture
);
1708 if (!tex
->can_sample_z
&& tex
->can_sample_s
) {
1709 switch (pipe_format
) {
1710 case PIPE_FORMAT_Z32_FLOAT_S8X24_UINT
:
1711 /* Save memory by not allocating the S plane. */
1712 pipe_format
= PIPE_FORMAT_Z32_FLOAT
;
1714 case PIPE_FORMAT_Z24_UNORM_S8_UINT
:
1715 case PIPE_FORMAT_S8_UINT_Z24_UNORM
:
1716 /* Save memory bandwidth by not copying the
1717 * stencil part during flush.
1719 * This potentially increases memory bandwidth
1720 * if an application uses both Z and S texturing
1721 * simultaneously (a flushed Z24S8 texture
1722 * would be stored compactly), but how often
1723 * does that really happen?
1725 pipe_format
= PIPE_FORMAT_Z24X8_UNORM
;
1729 } else if (!tex
->can_sample_s
&& tex
->can_sample_z
) {
1730 assert(util_format_has_stencil(util_format_description(pipe_format
)));
1732 /* DB->CB copies to an 8bpp surface don't work. */
1733 pipe_format
= PIPE_FORMAT_X24S8_UINT
;
1736 memset(&resource
, 0, sizeof(resource
));
1737 resource
.target
= texture
->target
;
1738 resource
.format
= pipe_format
;
1739 resource
.width0
= texture
->width0
;
1740 resource
.height0
= texture
->height0
;
1741 resource
.depth0
= texture
->depth0
;
1742 resource
.array_size
= texture
->array_size
;
1743 resource
.last_level
= texture
->last_level
;
1744 resource
.nr_samples
= texture
->nr_samples
;
1745 resource
.usage
= PIPE_USAGE_DEFAULT
;
1746 resource
.bind
= texture
->bind
& ~PIPE_BIND_DEPTH_STENCIL
;
1747 resource
.flags
= texture
->flags
| SI_RESOURCE_FLAG_FLUSHED_DEPTH
;
1749 tex
->flushed_depth_texture
=
1750 (struct si_texture
*)ctx
->screen
->resource_create(ctx
->screen
, &resource
);
1751 if (!tex
->flushed_depth_texture
) {
1752 PRINT_ERR("failed to create temporary texture to hold flushed depth\n");
1759 * Initialize the pipe_resource descriptor to be of the same size as the box,
1760 * which is supposed to hold a subregion of the texture "orig" at the given
1763 static void si_init_temp_resource_from_box(struct pipe_resource
*res
, struct pipe_resource
*orig
,
1764 const struct pipe_box
*box
, unsigned level
,
1767 memset(res
, 0, sizeof(*res
));
1768 res
->format
= orig
->format
;
1769 res
->width0
= box
->width
;
1770 res
->height0
= box
->height
;
1772 res
->array_size
= 1;
1773 res
->usage
= flags
& SI_RESOURCE_FLAG_TRANSFER
? PIPE_USAGE_STAGING
: PIPE_USAGE_DEFAULT
;
1776 if (flags
& SI_RESOURCE_FLAG_TRANSFER
&& util_format_is_compressed(orig
->format
)) {
1777 /* Transfer resources are allocated with linear tiling, which is
1778 * not supported for compressed formats.
1780 unsigned blocksize
= util_format_get_blocksize(orig
->format
);
1782 if (blocksize
== 8) {
1783 res
->format
= PIPE_FORMAT_R16G16B16A16_UINT
;
1785 assert(blocksize
== 16);
1786 res
->format
= PIPE_FORMAT_R32G32B32A32_UINT
;
1789 res
->width0
= util_format_get_nblocksx(orig
->format
, box
->width
);
1790 res
->height0
= util_format_get_nblocksy(orig
->format
, box
->height
);
1793 /* We must set the correct texture target and dimensions for a 3D box. */
1794 if (box
->depth
> 1 && util_max_layer(orig
, level
) > 0) {
1795 res
->target
= PIPE_TEXTURE_2D_ARRAY
;
1796 res
->array_size
= box
->depth
;
1798 res
->target
= PIPE_TEXTURE_2D
;
1802 static bool si_can_invalidate_texture(struct si_screen
*sscreen
, struct si_texture
*tex
,
1803 unsigned transfer_usage
, const struct pipe_box
*box
)
1805 return !tex
->buffer
.b
.is_shared
&& !(tex
->surface
.flags
& RADEON_SURF_IMPORTED
) &&
1806 !(transfer_usage
& PIPE_TRANSFER_READ
) && tex
->buffer
.b
.b
.last_level
== 0 &&
1807 util_texrange_covers_whole_level(&tex
->buffer
.b
.b
, 0, box
->x
, box
->y
, box
->z
, box
->width
,
1808 box
->height
, box
->depth
);
1811 static void si_texture_invalidate_storage(struct si_context
*sctx
, struct si_texture
*tex
)
1813 struct si_screen
*sscreen
= sctx
->screen
;
1815 /* There is no point in discarding depth and tiled buffers. */
1816 assert(!tex
->is_depth
);
1817 assert(tex
->surface
.is_linear
);
1819 /* Reallocate the buffer in the same pipe_resource. */
1820 si_alloc_resource(sscreen
, &tex
->buffer
);
1822 /* Initialize the CMASK base address (needed even without CMASK). */
1823 tex
->cmask_base_address_reg
= (tex
->buffer
.gpu_address
+ tex
->surface
.cmask_offset
) >> 8;
1825 p_atomic_inc(&sscreen
->dirty_tex_counter
);
1827 sctx
->num_alloc_tex_transfer_bytes
+= tex
->surface
.total_size
;
1830 static void *si_texture_transfer_map(struct pipe_context
*ctx
, struct pipe_resource
*texture
,
1831 unsigned level
, unsigned usage
, const struct pipe_box
*box
,
1832 struct pipe_transfer
**ptransfer
)
1834 struct si_context
*sctx
= (struct si_context
*)ctx
;
1835 struct si_texture
*tex
= (struct si_texture
*)texture
;
1836 struct si_transfer
*trans
;
1837 struct si_resource
*buf
;
1838 unsigned offset
= 0;
1840 bool use_staging_texture
= false;
1842 assert(!(texture
->flags
& SI_RESOURCE_FLAG_TRANSFER
));
1843 assert(box
->width
&& box
->height
&& box
->depth
);
1845 /* If we are uploading into FP16 or R11G11B10_FLOAT via a blit, CB clobbers NaNs,
1846 * so in order to preserve them exactly, we have to use the compute blit.
1847 * The compute blit is used only when the destination doesn't have DCC, so
1848 * disable it here, which is kinda a hack.
1850 * This makes KHR-GL45.texture_view.view_classes pass on gfx9.
1851 * gfx10 has the same issue, but the test doesn't use a large enough texture
1852 * to enable DCC and fail, so it always passes.
1854 const struct util_format_description
*desc
= util_format_description(texture
->format
);
1855 if (vi_dcc_enabled(tex
, level
) &&
1856 desc
->channel
[0].type
== UTIL_FORMAT_TYPE_FLOAT
&&
1857 desc
->channel
[0].size
< 32)
1858 si_texture_disable_dcc(sctx
, tex
);
1860 if (tex
->is_depth
) {
1861 /* Depth textures use staging unconditionally. */
1862 use_staging_texture
= true;
1864 /* Degrade the tile mode if we get too many transfers on APUs.
1865 * On dGPUs, the staging texture is always faster.
1866 * Only count uploads that are at least 4x4 pixels large.
1868 if (!sctx
->screen
->info
.has_dedicated_vram
&& level
== 0 && box
->width
>= 4 &&
1869 box
->height
>= 4 && p_atomic_inc_return(&tex
->num_level0_transfers
) == 10) {
1870 bool can_invalidate
= si_can_invalidate_texture(sctx
->screen
, tex
, usage
, box
);
1872 si_reallocate_texture_inplace(sctx
, tex
, PIPE_BIND_LINEAR
, can_invalidate
);
1875 /* Tiled textures need to be converted into a linear texture for CPU
1876 * access. The staging texture is always linear and is placed in GART.
1878 * Reading from VRAM or GTT WC is slow, always use the staging
1879 * texture in this case.
1881 * Use the staging texture for uploads if the underlying BO
1884 if (!tex
->surface
.is_linear
)
1885 use_staging_texture
= true;
1886 else if (usage
& PIPE_TRANSFER_READ
)
1887 use_staging_texture
=
1888 tex
->buffer
.domains
& RADEON_DOMAIN_VRAM
|| tex
->buffer
.flags
& RADEON_FLAG_GTT_WC
;
1889 /* Write & linear only: */
1890 else if (si_rings_is_buffer_referenced(sctx
, tex
->buffer
.buf
, RADEON_USAGE_READWRITE
) ||
1891 !sctx
->ws
->buffer_wait(tex
->buffer
.buf
, 0, RADEON_USAGE_READWRITE
)) {
1893 if (si_can_invalidate_texture(sctx
->screen
, tex
, usage
, box
))
1894 si_texture_invalidate_storage(sctx
, tex
);
1896 use_staging_texture
= true;
1900 trans
= CALLOC_STRUCT(si_transfer
);
1903 pipe_resource_reference(&trans
->b
.b
.resource
, texture
);
1904 trans
->b
.b
.level
= level
;
1905 trans
->b
.b
.usage
= usage
;
1906 trans
->b
.b
.box
= *box
;
1908 if (use_staging_texture
) {
1909 struct pipe_resource resource
;
1910 struct si_texture
*staging
;
1912 si_init_temp_resource_from_box(&resource
, texture
, box
, level
, SI_RESOURCE_FLAG_TRANSFER
);
1913 resource
.usage
= (usage
& PIPE_TRANSFER_READ
) ? PIPE_USAGE_STAGING
: PIPE_USAGE_STREAM
;
1915 /* Since depth-stencil textures don't support linear tiling,
1916 * blit from ZS to color and vice versa. u_blitter will do
1917 * the packing for these formats.
1920 resource
.format
= util_blitter_get_color_format_for_zs(resource
.format
);
1922 /* Create the temporary texture. */
1923 staging
= (struct si_texture
*)ctx
->screen
->resource_create(ctx
->screen
, &resource
);
1925 PRINT_ERR("failed to create temporary texture to hold untiled copy\n");
1928 trans
->staging
= &staging
->buffer
;
1930 /* Just get the strides. */
1931 si_texture_get_offset(sctx
->screen
, staging
, 0, NULL
, &trans
->b
.b
.stride
,
1932 &trans
->b
.b
.layer_stride
);
1934 if (usage
& PIPE_TRANSFER_READ
)
1935 si_copy_to_staging_texture(ctx
, trans
);
1937 usage
|= PIPE_TRANSFER_UNSYNCHRONIZED
;
1939 buf
= trans
->staging
;
1941 /* the resource is mapped directly */
1942 offset
= si_texture_get_offset(sctx
->screen
, tex
, level
, box
, &trans
->b
.b
.stride
,
1943 &trans
->b
.b
.layer_stride
);
1947 /* Always unmap texture CPU mappings on 32-bit architectures, so that
1948 * we don't run out of the CPU address space.
1950 if (sizeof(void *) == 4)
1951 usage
|= RADEON_TRANSFER_TEMPORARY
;
1953 if (!(map
= si_buffer_map_sync_with_rings(sctx
, buf
, usage
)))
1956 *ptransfer
= &trans
->b
.b
;
1957 return map
+ offset
;
1960 si_resource_reference(&trans
->staging
, NULL
);
1961 pipe_resource_reference(&trans
->b
.b
.resource
, NULL
);
1966 static void si_texture_transfer_unmap(struct pipe_context
*ctx
, struct pipe_transfer
*transfer
)
1968 struct si_context
*sctx
= (struct si_context
*)ctx
;
1969 struct si_transfer
*stransfer
= (struct si_transfer
*)transfer
;
1970 struct pipe_resource
*texture
= transfer
->resource
;
1971 struct si_texture
*tex
= (struct si_texture
*)texture
;
1973 /* Always unmap texture CPU mappings on 32-bit architectures, so that
1974 * we don't run out of the CPU address space.
1976 if (sizeof(void *) == 4) {
1977 struct si_resource
*buf
= stransfer
->staging
? stransfer
->staging
: &tex
->buffer
;
1979 sctx
->ws
->buffer_unmap(buf
->buf
);
1982 if ((transfer
->usage
& PIPE_TRANSFER_WRITE
) && stransfer
->staging
)
1983 si_copy_from_staging_texture(ctx
, stransfer
);
1985 if (stransfer
->staging
) {
1986 sctx
->num_alloc_tex_transfer_bytes
+= stransfer
->staging
->buf
->size
;
1987 si_resource_reference(&stransfer
->staging
, NULL
);
1990 /* Heuristic for {upload, draw, upload, draw, ..}:
1992 * Flush the gfx IB if we've allocated too much texture storage.
1994 * The idea is that we don't want to build IBs that use too much
1995 * memory and put pressure on the kernel memory manager and we also
1996 * want to make temporary and invalidated buffers go idle ASAP to
1997 * decrease the total memory usage or make them reusable. The memory
1998 * usage will be slightly higher than given here because of the buffer
1999 * cache in the winsys.
2001 * The result is that the kernel memory manager is never a bottleneck.
2003 if (sctx
->num_alloc_tex_transfer_bytes
> sctx
->screen
->info
.gart_size
/ 4) {
2004 si_flush_gfx_cs(sctx
, RADEON_FLUSH_ASYNC_START_NEXT_GFX_IB_NOW
, NULL
);
2005 sctx
->num_alloc_tex_transfer_bytes
= 0;
2008 pipe_resource_reference(&transfer
->resource
, NULL
);
2012 static const struct u_resource_vtbl si_texture_vtbl
= {
2013 NULL
, /* get_handle */
2014 si_texture_destroy
, /* resource_destroy */
2015 si_texture_transfer_map
, /* transfer_map */
2016 u_default_transfer_flush_region
, /* transfer_flush_region */
2017 si_texture_transfer_unmap
, /* transfer_unmap */
2020 /* Return if it's allowed to reinterpret one format as another with DCC enabled.
2022 bool vi_dcc_formats_compatible(struct si_screen
*sscreen
, enum pipe_format format1
,
2023 enum pipe_format format2
)
2025 const struct util_format_description
*desc1
, *desc2
;
2027 /* No format change - exit early. */
2028 if (format1
== format2
)
2031 format1
= si_simplify_cb_format(format1
);
2032 format2
= si_simplify_cb_format(format2
);
2034 /* Check again after format adjustments. */
2035 if (format1
== format2
)
2038 desc1
= util_format_description(format1
);
2039 desc2
= util_format_description(format2
);
2041 if (desc1
->layout
!= UTIL_FORMAT_LAYOUT_PLAIN
|| desc2
->layout
!= UTIL_FORMAT_LAYOUT_PLAIN
)
2044 /* Float and non-float are totally incompatible. */
2045 if ((desc1
->channel
[0].type
== UTIL_FORMAT_TYPE_FLOAT
) !=
2046 (desc2
->channel
[0].type
== UTIL_FORMAT_TYPE_FLOAT
))
2049 /* Channel sizes must match across DCC formats.
2050 * Comparing just the first 2 channels should be enough.
2052 if (desc1
->channel
[0].size
!= desc2
->channel
[0].size
||
2053 (desc1
->nr_channels
>= 2 && desc1
->channel
[1].size
!= desc2
->channel
[1].size
))
2056 /* Everything below is not needed if the driver never uses the DCC
2057 * clear code with the value of 1.
2060 /* If the clear values are all 1 or all 0, this constraint can be
2062 if (vi_alpha_is_on_msb(sscreen
, format1
) != vi_alpha_is_on_msb(sscreen
, format2
))
2065 /* Channel types must match if the clear value of 1 is used.
2066 * The type categories are only float, signed, unsigned.
2067 * NORM and INT are always compatible.
2069 if (desc1
->channel
[0].type
!= desc2
->channel
[0].type
||
2070 (desc1
->nr_channels
>= 2 && desc1
->channel
[1].type
!= desc2
->channel
[1].type
))
2076 bool vi_dcc_formats_are_incompatible(struct pipe_resource
*tex
, unsigned level
,
2077 enum pipe_format view_format
)
2079 struct si_texture
*stex
= (struct si_texture
*)tex
;
2081 return vi_dcc_enabled(stex
, level
) &&
2082 !vi_dcc_formats_compatible((struct si_screen
*)tex
->screen
, tex
->format
, view_format
);
2085 /* This can't be merged with the above function, because
2086 * vi_dcc_formats_compatible should be called only when DCC is enabled. */
2087 void vi_disable_dcc_if_incompatible_format(struct si_context
*sctx
, struct pipe_resource
*tex
,
2088 unsigned level
, enum pipe_format view_format
)
2090 struct si_texture
*stex
= (struct si_texture
*)tex
;
2092 if (vi_dcc_formats_are_incompatible(tex
, level
, view_format
))
2093 if (!si_texture_disable_dcc(sctx
, stex
))
2094 si_decompress_dcc(sctx
, stex
);
2097 struct pipe_surface
*si_create_surface_custom(struct pipe_context
*pipe
,
2098 struct pipe_resource
*texture
,
2099 const struct pipe_surface
*templ
, unsigned width0
,
2100 unsigned height0
, unsigned width
, unsigned height
)
2102 struct si_surface
*surface
= CALLOC_STRUCT(si_surface
);
2107 assert(templ
->u
.tex
.first_layer
<= util_max_layer(texture
, templ
->u
.tex
.level
));
2108 assert(templ
->u
.tex
.last_layer
<= util_max_layer(texture
, templ
->u
.tex
.level
));
2110 pipe_reference_init(&surface
->base
.reference
, 1);
2111 pipe_resource_reference(&surface
->base
.texture
, texture
);
2112 surface
->base
.context
= pipe
;
2113 surface
->base
.format
= templ
->format
;
2114 surface
->base
.width
= width
;
2115 surface
->base
.height
= height
;
2116 surface
->base
.u
= templ
->u
;
2118 surface
->width0
= width0
;
2119 surface
->height0
= height0
;
2121 surface
->dcc_incompatible
=
2122 texture
->target
!= PIPE_BUFFER
&&
2123 vi_dcc_formats_are_incompatible(texture
, templ
->u
.tex
.level
, templ
->format
);
2124 return &surface
->base
;
2127 static struct pipe_surface
*si_create_surface(struct pipe_context
*pipe
, struct pipe_resource
*tex
,
2128 const struct pipe_surface
*templ
)
2130 unsigned level
= templ
->u
.tex
.level
;
2131 unsigned width
= u_minify(tex
->width0
, level
);
2132 unsigned height
= u_minify(tex
->height0
, level
);
2133 unsigned width0
= tex
->width0
;
2134 unsigned height0
= tex
->height0
;
2136 if (tex
->target
!= PIPE_BUFFER
&& templ
->format
!= tex
->format
) {
2137 const struct util_format_description
*tex_desc
= util_format_description(tex
->format
);
2138 const struct util_format_description
*templ_desc
= util_format_description(templ
->format
);
2140 assert(tex_desc
->block
.bits
== templ_desc
->block
.bits
);
2142 /* Adjust size of surface if and only if the block width or
2143 * height is changed. */
2144 if (tex_desc
->block
.width
!= templ_desc
->block
.width
||
2145 tex_desc
->block
.height
!= templ_desc
->block
.height
) {
2146 unsigned nblks_x
= util_format_get_nblocksx(tex
->format
, width
);
2147 unsigned nblks_y
= util_format_get_nblocksy(tex
->format
, height
);
2149 width
= nblks_x
* templ_desc
->block
.width
;
2150 height
= nblks_y
* templ_desc
->block
.height
;
2152 width0
= util_format_get_nblocksx(tex
->format
, width0
);
2153 height0
= util_format_get_nblocksy(tex
->format
, height0
);
2157 return si_create_surface_custom(pipe
, tex
, templ
, width0
, height0
, width
, height
);
2160 static void si_surface_destroy(struct pipe_context
*pipe
, struct pipe_surface
*surface
)
2162 pipe_resource_reference(&surface
->texture
, NULL
);
2166 unsigned si_translate_colorswap(enum pipe_format format
, bool do_endian_swap
)
2168 const struct util_format_description
*desc
= util_format_description(format
);
2170 #define HAS_SWIZZLE(chan, swz) (desc->swizzle[chan] == PIPE_SWIZZLE_##swz)
2172 if (format
== PIPE_FORMAT_R11G11B10_FLOAT
) /* isn't plain */
2173 return V_028C70_SWAP_STD
;
2175 if (desc
->layout
!= UTIL_FORMAT_LAYOUT_PLAIN
)
2178 switch (desc
->nr_channels
) {
2180 if (HAS_SWIZZLE(0, X
))
2181 return V_028C70_SWAP_STD
; /* X___ */
2182 else if (HAS_SWIZZLE(3, X
))
2183 return V_028C70_SWAP_ALT_REV
; /* ___X */
2186 if ((HAS_SWIZZLE(0, X
) && HAS_SWIZZLE(1, Y
)) || (HAS_SWIZZLE(0, X
) && HAS_SWIZZLE(1, NONE
)) ||
2187 (HAS_SWIZZLE(0, NONE
) && HAS_SWIZZLE(1, Y
)))
2188 return V_028C70_SWAP_STD
; /* XY__ */
2189 else if ((HAS_SWIZZLE(0, Y
) && HAS_SWIZZLE(1, X
)) ||
2190 (HAS_SWIZZLE(0, Y
) && HAS_SWIZZLE(1, NONE
)) ||
2191 (HAS_SWIZZLE(0, NONE
) && HAS_SWIZZLE(1, X
)))
2193 return (do_endian_swap
? V_028C70_SWAP_STD
: V_028C70_SWAP_STD_REV
);
2194 else if (HAS_SWIZZLE(0, X
) && HAS_SWIZZLE(3, Y
))
2195 return V_028C70_SWAP_ALT
; /* X__Y */
2196 else if (HAS_SWIZZLE(0, Y
) && HAS_SWIZZLE(3, X
))
2197 return V_028C70_SWAP_ALT_REV
; /* Y__X */
2200 if (HAS_SWIZZLE(0, X
))
2201 return (do_endian_swap
? V_028C70_SWAP_STD_REV
: V_028C70_SWAP_STD
);
2202 else if (HAS_SWIZZLE(0, Z
))
2203 return V_028C70_SWAP_STD_REV
; /* ZYX */
2206 /* check the middle channels, the 1st and 4th channel can be NONE */
2207 if (HAS_SWIZZLE(1, Y
) && HAS_SWIZZLE(2, Z
)) {
2208 return V_028C70_SWAP_STD
; /* XYZW */
2209 } else if (HAS_SWIZZLE(1, Z
) && HAS_SWIZZLE(2, Y
)) {
2210 return V_028C70_SWAP_STD_REV
; /* WZYX */
2211 } else if (HAS_SWIZZLE(1, Y
) && HAS_SWIZZLE(2, X
)) {
2212 return V_028C70_SWAP_ALT
; /* ZYXW */
2213 } else if (HAS_SWIZZLE(1, Z
) && HAS_SWIZZLE(2, W
)) {
2216 return V_028C70_SWAP_ALT_REV
;
2218 return (do_endian_swap
? V_028C70_SWAP_ALT
: V_028C70_SWAP_ALT_REV
);
2225 /* PIPELINE_STAT-BASED DCC ENABLEMENT FOR DISPLAYABLE SURFACES */
2227 static void vi_dcc_clean_up_context_slot(struct si_context
*sctx
, int slot
)
2231 if (sctx
->dcc_stats
[slot
].query_active
)
2232 vi_separate_dcc_stop_query(sctx
, sctx
->dcc_stats
[slot
].tex
);
2234 for (i
= 0; i
< ARRAY_SIZE(sctx
->dcc_stats
[slot
].ps_stats
); i
++)
2235 if (sctx
->dcc_stats
[slot
].ps_stats
[i
]) {
2236 sctx
->b
.destroy_query(&sctx
->b
, sctx
->dcc_stats
[slot
].ps_stats
[i
]);
2237 sctx
->dcc_stats
[slot
].ps_stats
[i
] = NULL
;
2240 si_texture_reference(&sctx
->dcc_stats
[slot
].tex
, NULL
);
2244 * Return the per-context slot where DCC statistics queries for the texture live.
2246 static unsigned vi_get_context_dcc_stats_index(struct si_context
*sctx
, struct si_texture
*tex
)
2248 int i
, empty_slot
= -1;
2250 /* Remove zombie textures (textures kept alive by this array only). */
2251 for (i
= 0; i
< ARRAY_SIZE(sctx
->dcc_stats
); i
++)
2252 if (sctx
->dcc_stats
[i
].tex
&& sctx
->dcc_stats
[i
].tex
->buffer
.b
.b
.reference
.count
== 1)
2253 vi_dcc_clean_up_context_slot(sctx
, i
);
2255 /* Find the texture. */
2256 for (i
= 0; i
< ARRAY_SIZE(sctx
->dcc_stats
); i
++) {
2257 /* Return if found. */
2258 if (sctx
->dcc_stats
[i
].tex
== tex
) {
2259 sctx
->dcc_stats
[i
].last_use_timestamp
= os_time_get();
2263 /* Record the first seen empty slot. */
2264 if (empty_slot
== -1 && !sctx
->dcc_stats
[i
].tex
)
2268 /* Not found. Remove the oldest member to make space in the array. */
2269 if (empty_slot
== -1) {
2270 int oldest_slot
= 0;
2272 /* Find the oldest slot. */
2273 for (i
= 1; i
< ARRAY_SIZE(sctx
->dcc_stats
); i
++)
2274 if (sctx
->dcc_stats
[oldest_slot
].last_use_timestamp
>
2275 sctx
->dcc_stats
[i
].last_use_timestamp
)
2278 /* Clean up the oldest slot. */
2279 vi_dcc_clean_up_context_slot(sctx
, oldest_slot
);
2280 empty_slot
= oldest_slot
;
2283 /* Add the texture to the new slot. */
2284 si_texture_reference(&sctx
->dcc_stats
[empty_slot
].tex
, tex
);
2285 sctx
->dcc_stats
[empty_slot
].last_use_timestamp
= os_time_get();
2289 static struct pipe_query
*vi_create_resuming_pipestats_query(struct si_context
*sctx
)
2291 struct si_query_hw
*query
=
2292 (struct si_query_hw
*)sctx
->b
.create_query(&sctx
->b
, PIPE_QUERY_PIPELINE_STATISTICS
, 0);
2294 query
->flags
|= SI_QUERY_HW_FLAG_BEGIN_RESUMES
;
2295 return (struct pipe_query
*)query
;
2299 * Called when binding a color buffer.
2301 void vi_separate_dcc_start_query(struct si_context
*sctx
, struct si_texture
*tex
)
2303 unsigned i
= vi_get_context_dcc_stats_index(sctx
, tex
);
2305 assert(!sctx
->dcc_stats
[i
].query_active
);
2307 if (!sctx
->dcc_stats
[i
].ps_stats
[0])
2308 sctx
->dcc_stats
[i
].ps_stats
[0] = vi_create_resuming_pipestats_query(sctx
);
2310 /* begin or resume the query */
2311 sctx
->b
.begin_query(&sctx
->b
, sctx
->dcc_stats
[i
].ps_stats
[0]);
2312 sctx
->dcc_stats
[i
].query_active
= true;
2316 * Called when unbinding a color buffer.
2318 void vi_separate_dcc_stop_query(struct si_context
*sctx
, struct si_texture
*tex
)
2320 unsigned i
= vi_get_context_dcc_stats_index(sctx
, tex
);
2322 assert(sctx
->dcc_stats
[i
].query_active
);
2323 assert(sctx
->dcc_stats
[i
].ps_stats
[0]);
2325 /* pause or end the query */
2326 sctx
->b
.end_query(&sctx
->b
, sctx
->dcc_stats
[i
].ps_stats
[0]);
2327 sctx
->dcc_stats
[i
].query_active
= false;
2330 static bool vi_should_enable_separate_dcc(struct si_texture
*tex
)
2332 /* The minimum number of fullscreen draws per frame that is required
2334 return tex
->ps_draw_ratio
+ tex
->num_slow_clears
>= 5;
2337 /* Called by fast clear. */
2338 void vi_separate_dcc_try_enable(struct si_context
*sctx
, struct si_texture
*tex
)
2340 /* The intent is to use this with shared displayable back buffers,
2341 * but it's not strictly limited only to them.
2343 if (!tex
->buffer
.b
.is_shared
||
2344 !(tex
->buffer
.external_usage
& PIPE_HANDLE_USAGE_EXPLICIT_FLUSH
) ||
2345 tex
->buffer
.b
.b
.target
!= PIPE_TEXTURE_2D
|| tex
->buffer
.b
.b
.last_level
> 0 ||
2346 !tex
->surface
.dcc_size
|| sctx
->screen
->debug_flags
& DBG(NO_DCC
) ||
2347 sctx
->screen
->debug_flags
& DBG(NO_DCC_FB
))
2350 assert(sctx
->chip_class
>= GFX8
);
2352 if (tex
->surface
.dcc_offset
)
2353 return; /* already enabled */
2355 /* Enable the DCC stat gathering. */
2356 if (!tex
->dcc_gather_statistics
) {
2357 tex
->dcc_gather_statistics
= true;
2358 vi_separate_dcc_start_query(sctx
, tex
);
2361 if (!vi_should_enable_separate_dcc(tex
))
2362 return; /* stats show that DCC decompression is too expensive */
2364 assert(tex
->surface
.num_dcc_levels
);
2365 assert(!tex
->dcc_separate_buffer
);
2367 si_texture_discard_cmask(sctx
->screen
, tex
);
2369 /* Get a DCC buffer. */
2370 if (tex
->last_dcc_separate_buffer
) {
2371 assert(tex
->dcc_gather_statistics
);
2372 assert(!tex
->dcc_separate_buffer
);
2373 tex
->dcc_separate_buffer
= tex
->last_dcc_separate_buffer
;
2374 tex
->last_dcc_separate_buffer
= NULL
;
2376 tex
->dcc_separate_buffer
=
2377 si_aligned_buffer_create(sctx
->b
.screen
, SI_RESOURCE_FLAG_UNMAPPABLE
, PIPE_USAGE_DEFAULT
,
2378 tex
->surface
.dcc_size
, tex
->surface
.dcc_alignment
);
2379 if (!tex
->dcc_separate_buffer
)
2383 /* dcc_offset is the absolute GPUVM address. */
2384 tex
->surface
.dcc_offset
= tex
->dcc_separate_buffer
->gpu_address
;
2386 /* no need to flag anything since this is called by fast clear that
2387 * flags framebuffer state
2392 * Called by pipe_context::flush_resource, the place where DCC decompression
2395 void vi_separate_dcc_process_and_reset_stats(struct pipe_context
*ctx
, struct si_texture
*tex
)
2397 struct si_context
*sctx
= (struct si_context
*)ctx
;
2398 struct pipe_query
*tmp
;
2399 unsigned i
= vi_get_context_dcc_stats_index(sctx
, tex
);
2400 bool query_active
= sctx
->dcc_stats
[i
].query_active
;
2401 bool disable
= false;
2403 if (sctx
->dcc_stats
[i
].ps_stats
[2]) {
2404 union pipe_query_result result
;
2406 /* Read the results. */
2407 struct pipe_query
*query
= sctx
->dcc_stats
[i
].ps_stats
[2];
2408 ctx
->get_query_result(ctx
, query
, true, &result
);
2409 si_query_buffer_reset(sctx
, &((struct si_query_hw
*)query
)->buffer
);
2411 /* Compute the approximate number of fullscreen draws. */
2412 tex
->ps_draw_ratio
= result
.pipeline_statistics
.ps_invocations
/
2413 (tex
->buffer
.b
.b
.width0
* tex
->buffer
.b
.b
.height0
);
2414 sctx
->last_tex_ps_draw_ratio
= tex
->ps_draw_ratio
;
2416 disable
= tex
->dcc_separate_buffer
&& !vi_should_enable_separate_dcc(tex
);
2419 tex
->num_slow_clears
= 0;
2421 /* stop the statistics query for ps_stats[0] */
2423 vi_separate_dcc_stop_query(sctx
, tex
);
2425 /* Move the queries in the queue by one. */
2426 tmp
= sctx
->dcc_stats
[i
].ps_stats
[2];
2427 sctx
->dcc_stats
[i
].ps_stats
[2] = sctx
->dcc_stats
[i
].ps_stats
[1];
2428 sctx
->dcc_stats
[i
].ps_stats
[1] = sctx
->dcc_stats
[i
].ps_stats
[0];
2429 sctx
->dcc_stats
[i
].ps_stats
[0] = tmp
;
2431 /* create and start a new query as ps_stats[0] */
2433 vi_separate_dcc_start_query(sctx
, tex
);
2436 assert(!tex
->last_dcc_separate_buffer
);
2437 tex
->last_dcc_separate_buffer
= tex
->dcc_separate_buffer
;
2438 tex
->dcc_separate_buffer
= NULL
;
2439 tex
->surface
.dcc_offset
= 0;
2440 /* no need to flag anything since this is called after
2441 * decompression that re-sets framebuffer state
2446 static struct pipe_memory_object
*
2447 si_memobj_from_handle(struct pipe_screen
*screen
, struct winsys_handle
*whandle
, bool dedicated
)
2449 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
2450 struct si_memory_object
*memobj
= CALLOC_STRUCT(si_memory_object
);
2451 struct pb_buffer
*buf
= NULL
;
2456 buf
= sscreen
->ws
->buffer_from_handle(sscreen
->ws
, whandle
, sscreen
->info
.max_alignment
);
2462 memobj
->b
.dedicated
= dedicated
;
2464 memobj
->stride
= whandle
->stride
;
2466 return (struct pipe_memory_object
*)memobj
;
2469 static void si_memobj_destroy(struct pipe_screen
*screen
, struct pipe_memory_object
*_memobj
)
2471 struct si_memory_object
*memobj
= (struct si_memory_object
*)_memobj
;
2473 pb_reference(&memobj
->buf
, NULL
);
2477 static struct pipe_resource
*si_texture_from_memobj(struct pipe_screen
*screen
,
2478 const struct pipe_resource
*templ
,
2479 struct pipe_memory_object
*_memobj
,
2482 struct si_screen
*sscreen
= (struct si_screen
*)screen
;
2483 struct si_memory_object
*memobj
= (struct si_memory_object
*)_memobj
;
2484 struct pipe_resource
*tex
= si_texture_from_winsys_buffer(
2485 sscreen
, templ
, memobj
->buf
, memobj
->stride
, offset
,
2486 PIPE_HANDLE_USAGE_FRAMEBUFFER_WRITE
| PIPE_HANDLE_USAGE_SHADER_WRITE
, memobj
->b
.dedicated
);
2490 /* si_texture_from_winsys_buffer doesn't increment refcount of
2491 * memobj->buf, so increment it here.
2493 struct pb_buffer
*buf
= NULL
;
2494 pb_reference(&buf
, memobj
->buf
);
2498 static bool si_check_resource_capability(struct pipe_screen
*screen
, struct pipe_resource
*resource
,
2501 struct si_texture
*tex
= (struct si_texture
*)resource
;
2503 /* Buffers only support the linear flag. */
2504 if (resource
->target
== PIPE_BUFFER
)
2505 return (bind
& ~PIPE_BIND_LINEAR
) == 0;
2507 if (bind
& PIPE_BIND_LINEAR
&& !tex
->surface
.is_linear
)
2510 if (bind
& PIPE_BIND_SCANOUT
&& !tex
->surface
.is_displayable
)
2513 /* TODO: PIPE_BIND_CURSOR - do we care? */
2517 void si_init_screen_texture_functions(struct si_screen
*sscreen
)
2519 sscreen
->b
.resource_from_handle
= si_texture_from_handle
;
2520 sscreen
->b
.resource_get_handle
= si_texture_get_handle
;
2521 sscreen
->b
.resource_get_param
= si_resource_get_param
;
2522 sscreen
->b
.resource_get_info
= si_texture_get_info
;
2523 sscreen
->b
.resource_from_memobj
= si_texture_from_memobj
;
2524 sscreen
->b
.memobj_create_from_handle
= si_memobj_from_handle
;
2525 sscreen
->b
.memobj_destroy
= si_memobj_destroy
;
2526 sscreen
->b
.check_resource_capability
= si_check_resource_capability
;
2529 void si_init_context_texture_functions(struct si_context
*sctx
)
2531 sctx
->b
.create_surface
= si_create_surface
;
2532 sctx
->b
.surface_destroy
= si_surface_destroy
;