2 * Copyright (c) 2019 Andreas Baierl <ichgeh@imkreisrum.de>
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sub license,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
11 * The above copyright notice and this permission notice (including the
12 * next paragraph) shall be included in all copies or substantial portions
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
21 * DEALINGS IN THE SOFTWARE.
25 #include "util/u_math.h"
32 #include "lima_context.h"
33 #include "lima_parser.h"
34 #include "lima_texture.h"
40 static render_state_info render_state_infos
[] = {
41 { .info
= "BLEND_COLOR_BG", },
42 { .info
= "BLEND_COLOR_RA", },
43 { .info
= "ALPHA_BLEND", },
44 { .info
= "DEPTH_TEST", },
45 { .info
= "DEPTH_RANGE", },
46 { .info
= "STENCIL_FRONT", },
47 { .info
= "STENCIL_BACK", },
48 { .info
= "STENCIL_TEST", },
49 { .info
= "MULTI_SAMPLE", },
50 { .info
= "SHADER_ADDRESS (FS)", },
51 { .info
= "VARYING_TYPES", },
52 { .info
= "UNIFORMS_ADDRESS (PP)", },
53 { .info
= "TEXTURES_ADDRESS", },
56 { .info
= "VARYINGS_ADDRESS", },
59 /* VS CMD stream parser functions */
62 parse_vs_draw(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
64 if ((*value1
== 0x00000000) && (*value2
== 0x00000000))
65 fprintf(fp
, "\t/* ---EMPTY CMD */\n");
67 fprintf(fp
, "\t/* DRAW: num: %d, index_draw: %s */\n",
68 (*value1
& 0xff000000) >> 24 | (*value2
& 0x000000ff) << 8,
69 (*value1
& 0x00000001) ? "true" : "false");
73 parse_vs_shader_info(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
75 fprintf(fp
, "\t/* SHADER_INFO: prefetch: %s, size: %d */\n",
76 (*value1
& 0x00100000) ? "enabled" : "disabled",
77 (((*value1
& 0x000fffff) >> 10) + 1) << 4);
81 parse_vs_unknown1(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
83 fprintf(fp
, "\t/* UNKNOWN_1 */\n");
87 parse_vs_varying_attribute_count(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
89 fprintf(fp
, "\t/* VARYING_ATTRIBUTE_COUNT: nr_vary: %d, nr_attr: %d */\n",
90 ((*value1
& 0x00ffffff) >> 8) + 1, (*value1
>> 24) + 1);
94 parse_vs_attributes_address(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
96 fprintf(fp
, "\t/* ATTRIBUTES_ADDRESS: address: 0x%08x, size: %d */\n",
97 *value1
, (*value2
& 0x0fffffff) >> 17);
101 parse_vs_varyings_address(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
103 fprintf(fp
, "\t/* VARYINGS_ADDRESS: varying info @ 0x%08x, size: %d */\n",
104 *value1
, (*value2
& 0x0fffffff) >> 17);
108 parse_vs_uniforms_address(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
110 fprintf(fp
, "\t/* UNIFORMS_ADDRESS (GP): address: 0x%08x, size: %d */\n",
111 *value1
, (*value2
& 0x0fffffff) >> 12);
115 parse_vs_shader_address(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
117 fprintf(fp
, "\t/* SHADER_ADDRESS (VS): address: 0x%08x, size: %d */\n",
118 *value1
, (*value2
& 0x0fffffff) >> 12);
122 parse_vs_semaphore(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
124 if (*value1
== 0x00028000)
125 fprintf(fp
, "\t/* SEMAPHORE_BEGIN_1 */\n");
126 else if (*value1
== 0x00000001)
127 fprintf(fp
, "\t/* SEMAPHORE_BEGIN_2 */\n");
128 else if (*value1
== 0x00000000)
129 fprintf(fp
, "\t/* SEMAPHORE_END: index_draw disabled */\n");
130 else if (*value1
== 0x00018000)
131 fprintf(fp
, "\t/* SEMAPHORE_END: index_draw enabled */\n");
133 fprintf(fp
, "\t/* SEMAPHORE - cmd unknown! */\n");
137 parse_vs_unknown2(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
139 fprintf(fp
, "\t/* UNKNOWN_2 */\n");
143 parse_vs_continue(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
145 fprintf(fp
, "\t/* CONTINUE: at 0x%08x */\n", *value1
);
149 lima_parse_vs(FILE *fp
, uint32_t *data
, int size
, uint32_t start
)
155 fprintf(fp
, "/* ============ VS CMD STREAM BEGIN ============= */\n");
156 for (int i
= 0; i
* 4 < size
; i
+= 2) {
158 value2
= &data
[i
+ 1];
159 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x 0x%08x",
160 start
+ i
* 4, i
* 4, *value1
, *value2
);
162 if ((*value2
& 0xffff0000) == 0x00000000)
163 parse_vs_draw(fp
, value1
, value2
);
164 else if ((*value2
& 0xff0000ff) == 0x10000040)
165 parse_vs_shader_info(fp
, value1
, value2
);
166 else if ((*value2
& 0xff0000ff) == 0x10000041)
167 parse_vs_unknown1(fp
, value1
, value2
);
168 else if ((*value2
& 0xff0000ff) == 0x10000042)
169 parse_vs_varying_attribute_count(fp
, value1
, value2
);
170 else if ((*value2
& 0xff0000ff) == 0x20000000)
171 parse_vs_attributes_address(fp
, value1
, value2
);
172 else if ((*value2
& 0xff0000ff) == 0x20000008)
173 parse_vs_varyings_address(fp
, value1
, value2
);
174 else if ((*value2
& 0xff000000) == 0x30000000)
175 parse_vs_uniforms_address(fp
, value1
, value2
);
176 else if ((*value2
& 0xff000000) == 0x40000000)
177 parse_vs_shader_address(fp
, value1
, value2
);
178 else if ((*value2
& 0xff000000)== 0x50000000)
179 parse_vs_semaphore(fp
, value1
, value2
);
180 else if ((*value2
& 0xff000000) == 0x60000000)
181 parse_vs_unknown2(fp
, value1
, value2
);
182 else if ((*value2
& 0xff000000) == 0xf0000000)
183 parse_vs_continue(fp
, value1
, value2
);
185 fprintf(fp
, "\t/* --- unknown cmd --- */\n");
187 fprintf(fp
, "/* ============ VS CMD STREAM END =============== */\n");
191 /* PLBU CMD stream parser functions */
194 parse_plbu_block_step(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
196 fprintf(fp
, "\t/* BLOCK_STEP: shift_min: %d, shift_h: %d, shift_w: %d */\n",
197 (*value1
& 0xf0000000) >> 28,
198 (*value1
& 0x0fff0000) >> 16,
199 *value1
& 0x0000ffff);
203 parse_plbu_tiled_dimensions(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
205 fprintf(fp
, "\t/* TILED_DIMENSIONS: tiled_w: %d, tiled_h: %d */\n",
206 ((*value1
& 0xff000000) >> 24) + 1,
207 ((*value1
& 0x00ffff00) >> 8) + 1);
211 parse_plbu_block_stride(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
213 fprintf(fp
, "\t/* BLOCK_STRIDE: block_w: %d */\n", *value1
& 0x000000ff);
217 parse_plbu_array_address(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
219 fprintf(fp
, "\t/* ARRAY_ADDRESS: gp_stream: 0x%08x, block_num (block_w * block_h): %d */\n",
220 *value1
, (*value2
& 0x00ffffff) + 1);
224 parse_plbu_viewport_left(FILE *fp
, float *value1
, uint32_t *value2
)
226 fprintf(fp
, "\t/* VIEWPORT_LEFT: viewport_left: %f */\n", *value1
);
230 parse_plbu_viewport_right(FILE *fp
, float *value1
, uint32_t *value2
)
232 fprintf(fp
, "\t/* VIEWPORT_RIGHT: viewport_right: %f */\n", *value1
);
236 parse_plbu_viewport_bottom(FILE *fp
, float *value1
, uint32_t *value2
)
238 fprintf(fp
, "\t/* VIEWPORT_BOTTOM: viewport_bottom: %f */\n", *value1
);
242 parse_plbu_viewport_top(FILE *fp
, float *value1
, uint32_t *value2
)
244 fprintf(fp
, "\t/* VIEWPORT_TOP: viewport_top: %f */\n", *value1
);
248 parse_plbu_semaphore(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
250 if (*value1
== 0x00010002)
251 fprintf(fp
, "\t/* ARRAYS_SEMAPHORE_BEGIN */\n");
252 else if (*value1
== 0x00010001)
253 fprintf(fp
, "\t/* ARRAYS_SEMAPHORE_END */\n");
255 fprintf(fp
, "\t/* SEMAPHORE - cmd unknown! */\n");
259 parse_plbu_primitive_setup(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
263 if ((*value1
& 0x0000f000) == 0x00000000)
264 strcpy(prim
, "POINTS");
265 else if ((*value1
& 0x0000f000) == 0x00003000)
266 strcpy(prim
, "LINES");
267 else if ((*value1
& 0x0000f000) == 0x00002000)
268 strcpy(prim
, "TRIANGLES");
270 strcpy(prim
, "UNKNOWN");
272 if (*value1
== 0x00000200)
273 fprintf(fp
, "\t/* UNKNOWN_2 (PRIMITIVE_SETUP INIT?) */\n");
275 fprintf(fp
, "\t/* PRIMITIVE_SETUP: prim: %s, cull: %d (0x%x), index_size: %d */\n",
277 (*value1
& 0x000f0000) >> 16, (*value1
& 0x000f0000) >> 16,
278 (*value1
& 0x00000e00) >> 9);
282 parse_plbu_rsw_vertex_array(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
284 fprintf(fp
, "\t/* RSW_VERTEX_ARRAY: rsw: 0x%08x, gl_pos: 0x%08x */\n",
286 (*value2
& 0x0fffffff) << 4);
290 parse_plbu_scissors(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
292 float minx
= (*value1
& 0xc0000000) >> 30 | (*value2
& 0x00001fff) << 2;
293 float maxx
= ((*value2
& 0x0fffe000) >> 13) + 1;
294 float miny
= *value1
& 0x00003fff;
295 float maxy
= ((*value1
& 0x3fff8000) >> 15) + 1;
297 fprintf(fp
, "\t/* SCISSORS: minx: %f, maxx: %f, miny: %f, maxy: %f */\n",
298 minx
, maxx
, miny
, maxy
);
302 parse_plbu_unknown_1(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
304 fprintf(fp
, "\t/* UNKNOWN_1 */\n");
308 parse_plbu_low_prim_size(FILE *fp
, float *value1
, uint32_t *value2
)
310 fprintf(fp
, "\t/* LOW_PRIM_SIZE: size: %f */\n", *value1
);
314 parse_plbu_depth_range_near(FILE *fp
, float *value1
, uint32_t *value2
)
316 fprintf(fp
, "\t/* DEPTH_RANG_NEAR: depth_range: %f */\n", *value1
);
320 parse_plbu_depth_range_far(FILE *fp
, float *value1
, uint32_t *value2
)
322 fprintf(fp
, "\t/* DEPTH_RANGE_FAR: depth_range: %f */\n", *value1
);
326 parse_plbu_indexed_dest(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
328 fprintf(fp
, "\t/* INDEXED_DEST: gl_pos: 0x%08x */\n", *value1
);
332 parse_plbu_indexed_pt_size(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
334 fprintf(fp
, "\t/* INDEXED_PT_SIZE: pt_size: 0x%08x */\n", *value1
);
338 parse_plbu_indices(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
340 fprintf(fp
, "\t/* INDICES: indices: 0x%08x */\n", *value1
);
344 parse_plbu_draw_arrays(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
346 if ((*value1
== 0x00000000) && (*value2
== 0x00000000)) {
347 fprintf(fp
, "\t/* ---EMPTY CMD */\n");
351 uint32_t count
= (*value1
& 0xff000000) >> 24 | (*value2
& 0x000000ff) << 8;
352 uint32_t start
= *value1
& 0x00ffffff;
353 uint32_t mode
= (*value2
& 0x001f0000) >> 16;
355 fprintf(fp
, "\t/* DRAW_ARRAYS: count: %d, start: %d, mode: %d (0x%x) */\n",
356 count
, start
, mode
, mode
);
360 parse_plbu_draw_elements(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
362 uint32_t count
= (*value1
& 0xff000000) >> 24 | (*value2
& 0x000000ff) << 8;
363 uint32_t start
= *value1
& 0x00ffffff;
364 uint32_t mode
= (*value2
& 0x001f0000) >> 16;
366 fprintf(fp
, "\t/* DRAW_ELEMENTS: count: %d, start: %d, mode: %d (0x%x) */\n",
367 count
, start
, mode
, mode
);
371 parse_plbu_continue(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
373 fprintf(fp
, "\t/* CONTINUE: continue at 0x%08x */\n", *value1
);
377 parse_plbu_end(FILE *fp
, uint32_t *value1
, uint32_t *value2
)
379 fprintf(fp
, "\t/* END (FINISH/FLUSH) */\n");
383 lima_parse_plbu(FILE *fp
, uint32_t *data
, int size
, uint32_t start
)
388 fprintf(fp
, "/* ============ PLBU CMD STREAM BEGIN ============= */\n");
389 for (int i
= 0; i
* 4 < size
; i
+= 2) {
391 value2
= &data
[i
+ 1];
392 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x 0x%08x",
393 start
+ i
* 4, i
* 4, *value1
, *value2
);
395 if ((*value2
& 0xffe00000) == 0x00000000)
396 parse_plbu_draw_arrays(fp
, value1
, value2
);
397 else if ((*value2
& 0xffe00000) == 0x00200000)
398 parse_plbu_draw_elements(fp
, value1
, value2
);
399 else if ((*value2
& 0xff000fff) == 0x10000100)
400 parse_plbu_indexed_dest(fp
, value1
, value2
);
401 else if ((*value2
& 0xff000fff) == 0x10000101)
402 parse_plbu_indices(fp
, value1
, value2
);
403 else if ((*value2
& 0xff000fff) == 0x10000102)
404 parse_plbu_indexed_pt_size(fp
, value1
, value2
);
405 else if ((*value2
& 0xff000fff) == 0x10000105)
406 parse_plbu_viewport_bottom(fp
, (float *)value1
, value2
);
407 else if ((*value2
& 0xff000fff) == 0x10000106)
408 parse_plbu_viewport_top(fp
, (float *)value1
, value2
);
409 else if ((*value2
& 0xff000fff) == 0x10000107)
410 parse_plbu_viewport_left(fp
, (float *)value1
, value2
);
411 else if ((*value2
& 0xff000fff) == 0x10000108)
412 parse_plbu_viewport_right(fp
, (float *)value1
, value2
);
413 else if ((*value2
& 0xff000fff) == 0x10000109)
414 parse_plbu_tiled_dimensions(fp
, value1
, value2
);
415 else if ((*value2
& 0xff000fff) == 0x1000010a)
416 parse_plbu_unknown_1(fp
, value1
, value2
);
417 else if ((*value2
& 0xff000fff) == 0x1000010b) /* also unknown_2 */
418 parse_plbu_primitive_setup(fp
, value1
, value2
);
419 else if ((*value2
& 0xff000fff) == 0x1000010c)
420 parse_plbu_block_step(fp
, value1
, value2
);
421 else if ((*value2
& 0xff000fff) == 0x1000010d)
422 parse_plbu_low_prim_size(fp
, (float *)value1
, value2
);
423 else if ((*value2
& 0xff000fff) == 0x1000010e)
424 parse_plbu_depth_range_near(fp
, (float *)value1
, value2
);
425 else if ((*value2
& 0xff000fff) == 0x1000010f)
426 parse_plbu_depth_range_far(fp
, (float *)value1
, value2
);
427 else if ((*value2
& 0xff000000) == 0x28000000)
428 parse_plbu_array_address(fp
, value1
, value2
);
429 else if ((*value2
& 0xf0000000) == 0x30000000)
430 parse_plbu_block_stride(fp
, value1
, value2
);
431 else if (*value2
== 0x50000000)
432 parse_plbu_end(fp
, value1
, value2
);
433 else if ((*value2
& 0xf0000000)== 0x60000000)
434 parse_plbu_semaphore(fp
, value1
, value2
);
435 else if ((*value2
& 0xf0000000)== 0x70000000)
436 parse_plbu_scissors(fp
, value1
, value2
);
437 else if ((*value2
& 0xf0000000)== 0x80000000)
438 parse_plbu_rsw_vertex_array(fp
, value1
, value2
);
439 else if ((*value2
& 0xf0000000)== 0xf0000000)
440 parse_plbu_continue(fp
, value1
, value2
);
442 fprintf(fp
, "\t/* --- unknown cmd --- */\n");
444 fprintf(fp
, "/* ============ PLBU CMD STREAM END =============== */\n");
449 parse_rsw(FILE *fp
, uint32_t *value
, int i
, uint32_t *helper
)
451 fprintf(fp
, "\t/* %s", render_state_infos
[i
].info
);
454 case 0: /* BLEND COLOR BG */
455 fprintf(fp
, ": blend_color.color[1] = %f, blend_color.color[2] = %f */\n",
456 (float)(ubyte_to_float((*value
& 0xffff0000) >> 16)),
457 (float)(ubyte_to_float(*value
& 0x0000ffff)));
459 case 1: /* BLEND COLOR RA */
460 fprintf(fp
, ": blend_color.color[3] = %f, blend_color.color[0] = %f */\n",
461 (float)(ubyte_to_float((*value
& 0xffff0000) >> 16)),
462 (float)(ubyte_to_float(*value
& 0x0000ffff)));
464 case 2: /* ALPHA BLEND */
465 fprintf(fp
, "(1): colormask 0x%02x, rgb_func %d, alpha_func %d */\n",
466 (*value
& 0xf0000000) >> 28, /* colormask */
467 (*value
& 0x00000007), /* rgb_func */
468 (*value
& 0x00000038) >> 3); /* alpha_func */
469 /* add a few tabs for alignment */
470 fprintf(fp
, "\t\t\t\t\t\t/* %s(2)", render_state_infos
[i
].info
);
471 fprintf(fp
, ": rgb_src_factor %d, rbg_dst_factor %d, alpha_src_factor %d",
472 (*value
& 0x000007c0) >> 6, /* rgb_src_factor */
473 (*value
& 0x0000f800) >> 11, /* rgb_dst_factor */
474 (*value
& 0x000f0000) >> 16); /* alpha_src_factor */
475 fprintf(fp
, ", alpha_dst_factor %d, bits 24-27 0x%02x */\n",
476 (*value
& 0x00f00000) >> 20, /* alpha_dst_factor */
477 (*value
& 0x0f000000) >> 24); /* bits 24-27 */
479 case 3: /* DEPTH TEST */
480 if ((*value
& 0x00000001) == 0x00000001)
481 fprintf(fp
, ": depth test enabled && writes allowed");
483 fprintf(fp
, ": depth test disabled || writes not allowed");
485 fprintf(fp
, ", PIPE_FUNC_%d", *value
& 0x0000000e);
486 fprintf(fp
, ", offset_scale: %d", *value
& 0xffff0000);
487 fprintf(fp
, ", unknown bits 4-15: 0x%08x */\n", *value
& 0x0000fff0);
489 case 4: /* DEPTH RANGE */
490 fprintf(fp
, ": viewport.far = %f, viewport.near = %f */\n",
491 (float)(ushort_to_float((*value
& 0xffff0000) >> 16)),
492 (float)(ushort_to_float(*value
& 0x0000ffff)));
494 case 5: /* STENCIL FRONT */
495 fprintf(fp
, " (to investigate) */\n");
497 case 6: /* STENCIL BACK */
498 fprintf(fp
, " (to investigate) */\n");
500 case 7: /* STENCIL TEST */
501 fprintf(fp
, " (to investigate) */\n");
503 case 8: /* MULTI SAMPLE */
504 if ((*value
& 0x00000f00) == 0x00000000)
505 fprintf(fp
, ": points");
506 else if ((*value
& 0x00000f00) == 0x00000400)
507 fprintf(fp
, ": lines");
508 else if ((*value
& 0x00000f00) == 0x00000800)
509 fprintf(fp
, ": triangles");
511 fprintf(fp
, ": unknown");
513 if ((*value
& 0x00000078) == 0x00000068)
514 fprintf(fp
, ", fb_samples */\n");
515 else if ((*value
& 0x00000078) == 0x00000000)
516 fprintf(fp
, " */\n");
518 fprintf(fp
, ", UNKNOWN\n");
520 case 9: /* SHADER ADDRESS */
521 fprintf(fp
, ": fs shader @ 0x%08x, ((uint32_t *)ctx->fs->bo->map)[0] & 0x1f: 0x%08x */\n",
522 *value
& 0xffffffe0, *value
& 0x0000001f);
524 case 10: /* VARYING TYPES */
526 fprintf(fp
, "(1): ");
529 for (j
= 0; j
< 6; j
++) {
530 val
= *value
& (0x07 << (j
* 3));
531 fprintf(fp
, "val %d-%d, ", j
, val
);
534 /* add a few tabs for alignment */
535 fprintf(fp
, "\n\t\t\t\t\t\t/* %s(2): ", render_state_infos
[i
].info
);
536 for (j
= 6; j
< 10; j
++) {
537 val
= *value
& (0x07 << (j
* 3));
538 fprintf(fp
, "val %d-%d, ", j
, val
);
541 val
= ((*value
& 0x0c000000) >> 30) | ((*helper
& 0x00000001) << 2);
542 fprintf(fp
, "val %d-%d, ", j
, val
);
545 val
= (*helper
& 0x0000000e) >> 1;
546 fprintf(fp
, "val %d-%d */\n", j
, val
);
548 case 11: /* UNIFORMS ADDRESS */
549 fprintf(fp
, ": pp uniform info @ 0x%08x, bits: 0x%01x */\n",
550 *value
& 0xfffffff0, *value
& 0x0000000f);
552 case 12: /* TEXTURES ADDRESS */
553 fprintf(fp
, ": address: 0x%08x */\n", *value
);
556 fprintf(fp
, ": varying_stride: %d, tex_stateobj.num_samplers: %d */\n",
557 *value
& 0x0000001f, (*value
& 0xffffc000) >> 14);
561 if ((*value
& 0x00002000) == 0x00002000)
562 fprintf(fp
, "blend->base.dither true, ");
563 if ((*value
& 0x00010000) == 0x00010000)
564 fprintf(fp
, "ctx->const_buffer[PIPE_SHADER_FRAGMENT].buffer true ");
567 case 15: /* VARYINGS ADDRESS */
568 fprintf(fp
, ": varyings @ 0x%08x */\n", *value
& 0xfffffff0);
570 default: /* should never be executed! */
571 fprintf(fp
, ": something went wrong!!! */\n");
577 lima_parse_render_state(FILE *fp
, uint32_t *data
, int size
, uint32_t start
)
581 fprintf(fp
, "/* ============ RSW BEGIN ========================= */\n");
582 for (int i
= 0; i
* 4 < size
; i
++) {
584 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x",
585 start
+ i
* 4, i
* 4, *value
);
587 parse_rsw(fp
, value
, i
, &data
[15]);
589 parse_rsw(fp
, value
, i
, NULL
);
591 fprintf(fp
, "/* ============ RSW END =========================== */\n");
595 parse_texture(FILE *fp
, uint32_t *data
, uint32_t start
, uint32_t offset
)
599 lima_tex_desc
*desc
= (lima_tex_desc
*)&data
[offset
];
602 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x\n",
603 start
+ i
* 4, i
* 4, *(&data
[i
+ offset
]));
605 fprintf(fp
, "\t format: 0x%x (%d)\n", desc
->format
, desc
->format
);
606 fprintf(fp
, "\t flag1: 0x%x (%d)\n", desc
->flag1
, desc
->flag1
);
607 fprintf(fp
, "\t swap_r_b: 0x%x (%d)\n", desc
->swap_r_b
, desc
->swap_r_b
);
608 fprintf(fp
, "\t unknown_0_1: 0x%x (%d)\n", desc
->unknown_0_1
, desc
->unknown_0_1
);
609 fprintf(fp
, "\t stride: 0x%x (%d)\n", desc
->stride
, desc
->stride
);
610 fprintf(fp
, "\t unknown_0_2: 0x%x (%d)\n", desc
->unknown_0_2
, desc
->unknown_0_2
);
613 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x 0x%08x 0x%08x\n",
614 start
+ i
* 4, i
* 4, *(&data
[i
+ offset
]), *(&data
[i
+ 1 + offset
]), *(&data
[i
+ 2 + offset
]));
616 fprintf(fp
, "\t unknown_1_1: 0x%x (%d)\n", desc
->unknown_1_1
, desc
->unknown_1_1
);
617 fprintf(fp
, "\t unnorm_coords: 0x%x (%d)\n", desc
->unnorm_coords
, desc
->unnorm_coords
);
618 fprintf(fp
, "\t unknown_1_2: 0x%x (%d)\n", desc
->unknown_1_2
, desc
->unknown_1_2
);
619 fprintf(fp
, "\t texture_type: 0x%x (%d)\n", desc
->texture_type
, desc
->texture_type
);
620 fprintf(fp
, "\t unknown_1_3: 0x%x (%d)\n", desc
->unknown_1_3
, desc
->unknown_1_3
);
621 fprintf(fp
, "\t miplevels: 0x%x (%d)\n", desc
->miplevels
, desc
->miplevels
);
622 fprintf(fp
, "\t min_mipfilter_1: 0x%x (%d)\n", desc
->min_mipfilter_1
, desc
->min_mipfilter_1
);
623 fprintf(fp
, "\t unknown_2_1: 0x%x (%d)\n", desc
->unknown_2_1
, desc
->unknown_2_1
);
624 fprintf(fp
, "\t has_stride: 0x%x (%d)\n", desc
->has_stride
, desc
->has_stride
);
625 fprintf(fp
, "\t min_mipfilter_2: 0x%x (%d)\n", desc
->min_mipfilter_2
, desc
->min_mipfilter_2
);
626 fprintf(fp
, "\t min_img_filter_nearest: 0x%x (%d)\n", desc
->min_img_filter_nearest
, desc
->min_img_filter_nearest
);
627 fprintf(fp
, "\t mag_img_filter_nearest: 0x%x (%d)\n", desc
->mag_img_filter_nearest
, desc
->mag_img_filter_nearest
);
628 fprintf(fp
, "\t wrap_s_clamp_to_edge: 0x%x (%d)\n", desc
->wrap_s_clamp_to_edge
, desc
->wrap_s_clamp_to_edge
);
629 fprintf(fp
, "\t wrap_s_clamp: 0x%x (%d)\n", desc
->wrap_s_clamp
, desc
->wrap_s_clamp
);
630 fprintf(fp
, "\t wrap_s_mirror_repeat: 0x%x (%d)\n", desc
->wrap_s_mirror_repeat
, desc
->wrap_s_mirror_repeat
);
631 fprintf(fp
, "\t wrap_t_clamp_to_edge: 0x%x (%d)\n", desc
->wrap_t_clamp_to_edge
, desc
->wrap_t_clamp_to_edge
);
632 fprintf(fp
, "\t wrap_t_clamp: 0x%x (%d)\n", desc
->wrap_t_clamp
, desc
->wrap_t_clamp
);
633 fprintf(fp
, "\t wrap_t_mirror_repeat: 0x%x (%d)\n", desc
->wrap_t_mirror_repeat
, desc
->wrap_t_mirror_repeat
);
634 fprintf(fp
, "\t unknown_2_2: 0x%x (%d)\n", desc
->unknown_2_2
, desc
->unknown_2_2
);
635 fprintf(fp
, "\t width: 0x%x (%d)\n", desc
->width
, desc
->width
);
636 fprintf(fp
, "\t height: 0x%x (%d)\n", desc
->height
, desc
->height
);
637 fprintf(fp
, "\t unknown_3_1: 0x%x (%d)\n", desc
->unknown_3_1
, desc
->unknown_3_1
);
638 fprintf(fp
, "\t unknown_3_2: 0x%x (%d)\n", desc
->unknown_3_2
, desc
->unknown_3_2
);
641 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x\n",
642 start
+ i
* 4, i
* 4, *(&data
[i
+ offset
]));
644 fprintf(fp
, "\t unknown_4: 0x%x (%d)\n", desc
->unknown_4
, desc
->unknown_4
);
647 fprintf(fp
, "/* 0x%08x (0x%08x) */\t0x%08x\n",
648 start
+ i
* 4, i
* 4, *(&data
[i
+ offset
]));
650 fprintf(fp
, "\t unknown_5: 0x%x (%d)\n", desc
->unknown_5
, desc
->unknown_5
);
653 fprintf(fp
, "/* 0x%08x (0x%08x) */",
654 start
+ i
* 4, i
* 4);
656 for (int k
= 0; k
< ((((desc
->miplevels
+ 1) * 26) + 64) / 32); k
++)
657 fprintf(fp
, "0x%08x ", *(&data
[i
+ offset
+ k
]));
661 fprintf(fp
, "\t unknown_6_1: 0x%x (%d)\n", desc
->va_s
.unknown_6_1
, desc
->va_s
.unknown_6_1
);
662 fprintf(fp
, "\t layout: 0x%x (%d)\n", desc
->va_s
.layout
, desc
->va_s
.layout
);
663 fprintf(fp
, "\t unknown_6_2: 0x%x (%d)\n", desc
->va_s
.unknown_6_2
, desc
->va_s
.unknown_6_2
);
664 fprintf(fp
, "\t unknown_6_3: 0x%x (%d)\n", desc
->va_s
.unknown_6_3
, desc
->va_s
.unknown_6_3
);
667 fprintf(fp
, "\t va_0: 0x%x \n", desc
->va_s
.va_0
<< 6);
669 /* second level up to desc->miplevels */
676 for (j
= 1; j
<= desc
->miplevels
; j
++) {
681 va_bit_idx
= VA_BIT_OFFSET
+ (VA_BIT_SIZE
* j
);
682 va_idx
= va_bit_idx
/ 32;
685 /* the first (32 - va_bit_idx) bits */
686 va_1
|= (*(&data
[i
+ offset
+ va_idx
- 1]) >> va_bit_idx
);
688 /* do we need some bits from the following word? */
689 if (va_bit_idx
> 6) {
690 /* shift left and right again to erase the unneeded bits, keep space for va1 */
691 va_2
|= (*(&data
[i
+ offset
+ va_idx
]) << (2 * 32 - VA_BIT_SIZE
- va_bit_idx
));
692 va_2
>>= ((2 * 32 - VA_BIT_SIZE
- va_bit_idx
) - (32 - va_bit_idx
));
697 fprintf(fp
, "\t va_%d: 0x%x \n", j
, va
);
702 lima_parse_texture_descriptor(FILE *fp
, uint32_t *data
, int size
, uint32_t start
, uint32_t offset
)
704 fprintf(fp
, "/* ============ TEXTURE BEGIN ===================== */\n");
705 parse_texture(fp
, data
, start
, offset
);
706 fprintf(fp
, "/* ============ TEXTURE END ======================= */\n");