2 * Copyright (C) 2008 VMware, Inc.
3 * Copyright (C) 2014 Broadcom
4 * Copyright (C) 2018-2019 Alyssa Rosenzweig
5 * Copyright (C) 2019-2020 Collabora, Ltd.
7 * Permission is hereby granted, free of charge, to any person obtaining a
8 * copy of this software and associated documentation files (the "Software"),
9 * to deal in the Software without restriction, including without limitation
10 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
11 * and/or sell copies of the Software, and to permit persons to whom the
12 * Software is furnished to do so, subject to the following conditions:
14 * The above copyright notice and this permission notice (including the next
15 * paragraph) shall be included in all copies or substantial portions of the
18 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
19 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
20 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
21 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
22 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
23 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
28 #include "util/macros.h"
29 #include "util/u_math.h"
30 #include "pan_texture.h"
32 /* Generates a texture descriptor. Ideally, descriptors are immutable after the
33 * texture is created, so we can keep these hanging around in GPU memory in a
34 * dedicated BO and not have to worry. In practice there are some minor gotchas
35 * with this (the driver sometimes will change the format of a texture on the
36 * fly for compression) but it's fast enough to just regenerate the descriptor
37 * in those cases, rather than monkeypatching at drawtime.
39 * A texture descriptor consists of a 32-byte mali_texture_descriptor structure
40 * followed by a variable number of pointers. Due to this variance and
41 * potentially large size, we actually upload directly rather than returning
42 * the descriptor. Whether the user does a copy themselves or not is irrelevant
46 /* Check if we need to set a custom stride by computing the "expected"
47 * stride and comparing it to what the user actually wants. Only applies
48 * to linear textures, since tiled/compressed textures have strict
49 * alignment requirements for their strides as it is */
52 panfrost_needs_explicit_stride(
53 struct panfrost_slice
*slices
,
55 unsigned first_level
, unsigned last_level
,
56 unsigned bytes_per_pixel
)
58 for (unsigned l
= first_level
; l
<= last_level
; ++l
) {
59 unsigned actual
= slices
[l
].stride
;
60 unsigned expected
= u_minify(width
, l
) * bytes_per_pixel
;
62 if (actual
!= expected
)
69 /* A Scalable Texture Compression (ASTC) corresponds to just a few texture type
70 * in the hardware, but in fact can be parametrized to have various widths and
71 * heights for the so-called "stretch factor". It turns out these parameters
72 * are stuffed in the bottom bits of the payload pointers. This functions
73 * computes these magic stuffing constants based on the ASTC format in use. The
74 * constant in a given dimension is 3-bits, and two are stored side-by-side for
75 * each active dimension.
79 panfrost_astc_stretch(unsigned dim
)
81 assert(dim
>= 4 && dim
<= 12);
82 return MIN2(dim
, 11) - 4;
85 /* Texture addresses are tagged with information about AFBC (colour AFBC?) xor
86 * ASTC (stretch factor) if in use. */
89 panfrost_compression_tag(
90 const struct util_format_description
*desc
,
91 enum mali_format format
, enum mali_texture_layout layout
)
93 if (layout
== MALI_TEXTURE_AFBC
)
94 return util_format_has_depth(desc
) ? 0x0 : 0x1;
95 else if (format
== MALI_ASTC_HDR_SUPP
|| format
== MALI_ASTC_SRGB_SUPP
)
96 return (panfrost_astc_stretch(desc
->block
.height
) << 3) |
97 panfrost_astc_stretch(desc
->block
.width
);
103 /* Cubemaps have 6 faces as "layers" in between each actual layer. We
104 * need to fix this up. TODO: logic wrong in the asserted out cases ...
105 * can they happen, perhaps from cubemap arrays? */
108 panfrost_adjust_cube_dimensions(
109 unsigned *first_face
, unsigned *last_face
,
110 unsigned *first_layer
, unsigned *last_layer
)
112 *first_face
= *first_layer
% 6;
113 *last_face
= *last_layer
% 6;
117 assert((*first_layer
== *last_layer
) || (*first_face
== 0 && *last_face
== 5));
120 /* Following the texture descriptor is a number of pointers. How many? */
123 panfrost_texture_num_elements(
124 unsigned first_level
, unsigned last_level
,
125 unsigned first_layer
, unsigned last_layer
,
126 bool is_cube
, bool manual_stride
)
128 unsigned first_face
= 0, last_face
= 0;
131 panfrost_adjust_cube_dimensions(&first_face
, &last_face
,
132 &first_layer
, &last_layer
);
135 unsigned levels
= 1 + last_level
- first_level
;
136 unsigned layers
= 1 + last_layer
- first_layer
;
137 unsigned faces
= 1 + last_face
- first_face
;
138 unsigned num_elements
= levels
* layers
* faces
;
146 /* Conservative estimate of the size of the texture payload a priori.
147 * Average case, size equal to the actual size. Worst case, off by 2x (if
148 * a manual stride is not needed on a linear texture). Returned value
149 * must be greater than or equal to the actual size, so it's safe to use
150 * as an allocation amount */
153 panfrost_estimate_texture_payload_size(
154 unsigned first_level
, unsigned last_level
,
155 unsigned first_layer
, unsigned last_layer
,
156 enum mali_texture_type type
, enum mali_texture_layout layout
)
158 /* Assume worst case */
159 unsigned manual_stride
= (layout
== MALI_TEXTURE_LINEAR
);
161 unsigned elements
= panfrost_texture_num_elements(
162 first_level
, last_level
,
163 first_layer
, last_layer
,
164 type
== MALI_TEX_CUBE
, manual_stride
);
166 return sizeof(mali_ptr
) * elements
;
170 panfrost_emit_texture_payload(
172 const struct util_format_description
*desc
,
173 enum mali_format mali_format
,
174 enum mali_texture_type type
,
175 enum mali_texture_layout layout
,
176 unsigned first_level
, unsigned last_level
,
177 unsigned first_layer
, unsigned last_layer
,
178 unsigned cube_stride
,
181 struct panfrost_slice
*slices
)
183 base
|= panfrost_compression_tag(desc
, mali_format
, layout
);
185 /* Inject the addresses in, interleaving array indices, mip levels,
186 * cube faces, and strides in that order */
188 unsigned first_face
= 0, last_face
= 0, face_mult
= 1;
190 if (type
== MALI_TEX_CUBE
) {
192 panfrost_adjust_cube_dimensions(&first_face
, &last_face
, &first_layer
, &last_layer
);
197 for (unsigned w
= first_layer
; w
<= last_layer
; ++w
) {
198 for (unsigned l
= first_level
; l
<= last_level
; ++l
) {
199 for (unsigned f
= first_face
; f
<= last_face
; ++f
) {
200 payload
[idx
++] = base
+ panfrost_texture_offset(
201 slices
, type
== MALI_TEX_3D
,
202 cube_stride
, l
, w
* face_mult
+ f
);
205 payload
[idx
++] = slices
[l
].stride
;
212 panfrost_new_texture(
214 uint16_t width
, uint16_t height
,
215 uint16_t depth
, uint16_t array_size
,
216 enum pipe_format format
,
217 enum mali_texture_type type
,
218 enum mali_texture_layout layout
,
219 unsigned first_level
, unsigned last_level
,
220 unsigned first_layer
, unsigned last_layer
,
221 unsigned cube_stride
,
224 struct panfrost_slice
*slices
)
226 const struct util_format_description
*desc
=
227 util_format_description(format
);
229 unsigned bytes_per_pixel
= util_format_get_blocksize(format
);
231 enum mali_format mali_format
= panfrost_find_format(desc
);
233 bool manual_stride
= (layout
== MALI_TEXTURE_LINEAR
)
234 && panfrost_needs_explicit_stride(slices
, width
,
235 first_level
, last_level
, bytes_per_pixel
);
237 struct mali_texture_descriptor descriptor
= {
238 .width
= MALI_POSITIVE(u_minify(width
, first_level
)),
239 .height
= MALI_POSITIVE(u_minify(height
, first_level
)),
240 .depth
= MALI_POSITIVE(u_minify(depth
, first_level
)),
241 .array_size
= MALI_POSITIVE(array_size
),
243 .swizzle
= panfrost_translate_swizzle_4(desc
->swizzle
),
244 .format
= mali_format
,
245 .srgb
= (desc
->colorspace
== UTIL_FORMAT_COLORSPACE_SRGB
),
248 .manual_stride
= manual_stride
,
251 .levels
= last_level
- first_level
,
255 memcpy(out
, &descriptor
, sizeof(descriptor
));
257 mali_ptr
*payload
= (mali_ptr
*) (out
+ sizeof(struct mali_texture_descriptor
));
258 panfrost_emit_texture_payload(
264 first_level
, last_level
,
265 first_layer
, last_layer
,
273 panfrost_new_texture_bifrost(
274 struct bifrost_texture_descriptor
*descriptor
,
275 uint16_t width
, uint16_t height
,
276 uint16_t depth
, uint16_t array_size
,
277 enum pipe_format format
,
278 enum mali_texture_type type
,
279 enum mali_texture_layout layout
,
280 unsigned first_level
, unsigned last_level
,
281 unsigned first_layer
, unsigned last_layer
,
282 unsigned cube_stride
,
285 struct panfrost_slice
*slices
,
286 struct panfrost_bo
*payload
)
288 const struct util_format_description
*desc
=
289 util_format_description(format
);
291 enum mali_format mali_format
= panfrost_find_format(desc
);
293 /* Apparently it's always needed in Bifrost? */
294 bool manual_stride
= true;
296 panfrost_emit_texture_payload(
297 (mali_ptr
*) payload
->cpu
,
302 first_level
, last_level
,
303 first_layer
, last_layer
,
309 descriptor
->format_unk
= 0x2;
310 descriptor
->type
= type
;
311 descriptor
->format_unk2
= 0x100;
312 descriptor
->format
= mali_format
;
313 descriptor
->srgb
= (desc
->colorspace
== UTIL_FORMAT_COLORSPACE_SRGB
);
314 descriptor
->format_unk3
= 0x0;
315 descriptor
->width
= MALI_POSITIVE(u_minify(width
, first_level
));
316 descriptor
->height
= MALI_POSITIVE(u_minify(height
, first_level
));
317 descriptor
->swizzle
= swizzle
;
318 descriptor
->layout
= layout
;
319 descriptor
->levels
= last_level
- first_level
;
320 descriptor
->unk1
= 0x0;
321 descriptor
->levels_unk
= 0;
322 descriptor
->level_2
= 0;
323 descriptor
->payload
= payload
->gpu
;
324 descriptor
->array_size
= MALI_POSITIVE(array_size
);
325 descriptor
->unk4
= 0x0;
326 descriptor
->depth
= MALI_POSITIVE(u_minify(depth
, first_level
));
327 descriptor
->unk5
= 0x0;
330 /* Computes sizes for checksumming, which is 8 bytes per 16x16 tile.
331 * Checksumming is believed to be a CRC variant (CRC64 based on the size?).
332 * This feature is also known as "transaction elimination". */
334 #define CHECKSUM_TILE_WIDTH 16
335 #define CHECKSUM_TILE_HEIGHT 16
336 #define CHECKSUM_BYTES_PER_TILE 8
339 panfrost_compute_checksum_size(
340 struct panfrost_slice
*slice
,
344 unsigned aligned_width
= ALIGN_POT(width
, CHECKSUM_TILE_WIDTH
);
345 unsigned aligned_height
= ALIGN_POT(height
, CHECKSUM_TILE_HEIGHT
);
347 unsigned tile_count_x
= aligned_width
/ CHECKSUM_TILE_WIDTH
;
348 unsigned tile_count_y
= aligned_height
/ CHECKSUM_TILE_HEIGHT
;
350 slice
->checksum_stride
= tile_count_x
* CHECKSUM_BYTES_PER_TILE
;
352 return slice
->checksum_stride
* tile_count_y
;
356 panfrost_get_layer_stride(struct panfrost_slice
*slices
, bool is_3d
, unsigned cube_stride
, unsigned level
)
358 return is_3d
? slices
[level
].size0
: cube_stride
;
361 /* Computes the offset into a texture at a particular level/face. Add to
362 * the base address of a texture to get the address to that level/face */
365 panfrost_texture_offset(struct panfrost_slice
*slices
, bool is_3d
, unsigned cube_stride
, unsigned level
, unsigned face
)
367 unsigned layer_stride
= panfrost_get_layer_stride(slices
, is_3d
, cube_stride
, level
);
368 return slices
[level
].offset
+ (face
* layer_stride
);