1 /*
2 * Copyright (c) 2013 Rob Clark <robdclark@gmail.com>
3 *
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, sublicense,
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:
10 *
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
13 * Software.
14 *
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 NONINFRINGEMENT. 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 FROM,
20 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
21 * SOFTWARE.
22 */
23
24 #ifndef INSTR_A3XX_H_
25 #define INSTR_A3XX_H_
26
27 #define PACKED __attribute__((__packed__))
28
29 #include <stdint.h>
30 #include <assert.h>
31
32 /* size of largest OPC field of all the instruction categories: */
33 #define NOPC_BITS 6
34
35 #define _OPC(cat, opc) (((cat) << NOPC_BITS) | opc)
36
37 typedef enum {
38 /* category 0: */
39 OPC_NOP = _OPC(0, 0),
40 OPC_BR = _OPC(0, 1),
41 OPC_JUMP = _OPC(0, 2),
42 OPC_CALL = _OPC(0, 3),
43 OPC_RET = _OPC(0, 4),
44 OPC_KILL = _OPC(0, 5),
45 OPC_END = _OPC(0, 6),
46 OPC_EMIT = _OPC(0, 7),
47 OPC_CUT = _OPC(0, 8),
48 OPC_CHMASK = _OPC(0, 9),
49 OPC_CHSH = _OPC(0, 10),
50 OPC_FLOW_REV = _OPC(0, 11),
51
52 /* category 1: */
53 OPC_MOV = _OPC(1, 0),
54
55 /* category 2: */
56 OPC_ADD_F = _OPC(2, 0),
57 OPC_MIN_F = _OPC(2, 1),
58 OPC_MAX_F = _OPC(2, 2),
59 OPC_MUL_F = _OPC(2, 3),
60 OPC_SIGN_F = _OPC(2, 4),
61 OPC_CMPS_F = _OPC(2, 5),
62 OPC_ABSNEG_F = _OPC(2, 6),
63 OPC_CMPV_F = _OPC(2, 7),
64 /* 8 - invalid */
65 OPC_FLOOR_F = _OPC(2, 9),
66 OPC_CEIL_F = _OPC(2, 10),
67 OPC_RNDNE_F = _OPC(2, 11),
68 OPC_RNDAZ_F = _OPC(2, 12),
69 OPC_TRUNC_F = _OPC(2, 13),
70 /* 14-15 - invalid */
71 OPC_ADD_U = _OPC(2, 16),
72 OPC_ADD_S = _OPC(2, 17),
73 OPC_SUB_U = _OPC(2, 18),
74 OPC_SUB_S = _OPC(2, 19),
75 OPC_CMPS_U = _OPC(2, 20),
76 OPC_CMPS_S = _OPC(2, 21),
77 OPC_MIN_U = _OPC(2, 22),
78 OPC_MIN_S = _OPC(2, 23),
79 OPC_MAX_U = _OPC(2, 24),
80 OPC_MAX_S = _OPC(2, 25),
81 OPC_ABSNEG_S = _OPC(2, 26),
82 /* 27 - invalid */
83 OPC_AND_B = _OPC(2, 28),
84 OPC_OR_B = _OPC(2, 29),
85 OPC_NOT_B = _OPC(2, 30),
86 OPC_XOR_B = _OPC(2, 31),
87 /* 32 - invalid */
88 OPC_CMPV_U = _OPC(2, 33),
89 OPC_CMPV_S = _OPC(2, 34),
90 /* 35-47 - invalid */
91 OPC_MUL_U = _OPC(2, 48),
92 OPC_MUL_S = _OPC(2, 49),
93 OPC_MULL_U = _OPC(2, 50),
94 OPC_BFREV_B = _OPC(2, 51),
95 OPC_CLZ_S = _OPC(2, 52),
96 OPC_CLZ_B = _OPC(2, 53),
97 OPC_SHL_B = _OPC(2, 54),
98 OPC_SHR_B = _OPC(2, 55),
99 OPC_ASHR_B = _OPC(2, 56),
100 OPC_BARY_F = _OPC(2, 57),
101 OPC_MGEN_B = _OPC(2, 58),
102 OPC_GETBIT_B = _OPC(2, 59),
103 OPC_SETRM = _OPC(2, 60),
104 OPC_CBITS_B = _OPC(2, 61),
105 OPC_SHB = _OPC(2, 62),
106 OPC_MSAD = _OPC(2, 63),
107
108 /* category 3: */
109 OPC_MAD_U16 = _OPC(3, 0),
110 OPC_MADSH_U16 = _OPC(3, 1),
111 OPC_MAD_S16 = _OPC(3, 2),
112 OPC_MADSH_M16 = _OPC(3, 3), /* should this be .s16? */
113 OPC_MAD_U24 = _OPC(3, 4),
114 OPC_MAD_S24 = _OPC(3, 5),
115 OPC_MAD_F16 = _OPC(3, 6),
116 OPC_MAD_F32 = _OPC(3, 7),
117 OPC_SEL_B16 = _OPC(3, 8),
118 OPC_SEL_B32 = _OPC(3, 9),
119 OPC_SEL_S16 = _OPC(3, 10),
120 OPC_SEL_S32 = _OPC(3, 11),
121 OPC_SEL_F16 = _OPC(3, 12),
122 OPC_SEL_F32 = _OPC(3, 13),
123 OPC_SAD_S16 = _OPC(3, 14),
124 OPC_SAD_S32 = _OPC(3, 15),
125
126 /* category 4: */
127 OPC_RCP = _OPC(4, 0),
128 OPC_RSQ = _OPC(4, 1),
129 OPC_LOG2 = _OPC(4, 2),
130 OPC_EXP2 = _OPC(4, 3),
131 OPC_SIN = _OPC(4, 4),
132 OPC_COS = _OPC(4, 5),
133 OPC_SQRT = _OPC(4, 6),
134 // 7-63 - invalid
135
136 /* category 5: */
137 OPC_ISAM = _OPC(5, 0),
138 OPC_ISAML = _OPC(5, 1),
139 OPC_ISAMM = _OPC(5, 2),
140 OPC_SAM = _OPC(5, 3),
141 OPC_SAMB = _OPC(5, 4),
142 OPC_SAML = _OPC(5, 5),
143 OPC_SAMGQ = _OPC(5, 6),
144 OPC_GETLOD = _OPC(5, 7),
145 OPC_CONV = _OPC(5, 8),
146 OPC_CONVM = _OPC(5, 9),
147 OPC_GETSIZE = _OPC(5, 10),
148 OPC_GETBUF = _OPC(5, 11),
149 OPC_GETPOS = _OPC(5, 12),
150 OPC_GETINFO = _OPC(5, 13),
151 OPC_DSX = _OPC(5, 14),
152 OPC_DSY = _OPC(5, 15),
153 OPC_GATHER4R = _OPC(5, 16),
154 OPC_GATHER4G = _OPC(5, 17),
155 OPC_GATHER4B = _OPC(5, 18),
156 OPC_GATHER4A = _OPC(5, 19),
157 OPC_SAMGP0 = _OPC(5, 20),
158 OPC_SAMGP1 = _OPC(5, 21),
159 OPC_SAMGP2 = _OPC(5, 22),
160 OPC_SAMGP3 = _OPC(5, 23),
161 OPC_DSXPP_1 = _OPC(5, 24),
162 OPC_DSYPP_1 = _OPC(5, 25),
163 OPC_RGETPOS = _OPC(5, 26),
164 OPC_RGETINFO = _OPC(5, 27),
165
166 /* category 6: */
167 OPC_LDG = _OPC(6, 0), /* load-global */
168 OPC_LDL = _OPC(6, 1),
169 OPC_LDP = _OPC(6, 2),
170 OPC_STG = _OPC(6, 3), /* store-global */
171 OPC_STL = _OPC(6, 4),
172 OPC_STP = _OPC(6, 5),
173 OPC_STI = _OPC(6, 6),
174 OPC_G2L = _OPC(6, 7),
175 OPC_L2G = _OPC(6, 8),
176 OPC_PREFETCH = _OPC(6, 9),
177 OPC_LDLW = _OPC(6, 10),
178 OPC_STLW = _OPC(6, 11),
179 OPC_RESFMT = _OPC(6, 14),
180 OPC_RESINFO = _OPC(6, 15),
181 OPC_ATOMIC_ADD = _OPC(6, 16),
182 OPC_ATOMIC_SUB = _OPC(6, 17),
183 OPC_ATOMIC_XCHG = _OPC(6, 18),
184 OPC_ATOMIC_INC = _OPC(6, 19),
185 OPC_ATOMIC_DEC = _OPC(6, 20),
186 OPC_ATOMIC_CMPXCHG = _OPC(6, 21),
187 OPC_ATOMIC_MIN = _OPC(6, 22),
188 OPC_ATOMIC_MAX = _OPC(6, 23),
189 OPC_ATOMIC_AND = _OPC(6, 24),
190 OPC_ATOMIC_OR = _OPC(6, 25),
191 OPC_ATOMIC_XOR = _OPC(6, 26),
192 OPC_LDGB_TYPED_4D = _OPC(6, 27),
193 OPC_STGB_4D_4 = _OPC(6, 28),
194 OPC_STIB = _OPC(6, 29),
195 OPC_LDC_4 = _OPC(6, 30),
196 OPC_LDLV = _OPC(6, 31),
197
198 /* meta instructions (category -1): */
199 /* placeholder instr to mark shader inputs: */
200 OPC_META_INPUT = _OPC(-1, 0),
201 OPC_META_PHI = _OPC(-1, 1),
202 /* The "fan-in" and "fan-out" instructions are used for keeping
203 * track of instructions that write to multiple dst registers
204 * (fan-out) like texture sample instructions, or read multiple
205 * consecutive scalar registers (fan-in) (bary.f, texture samp)
206 */
207 OPC_META_FO = _OPC(-1, 2),
208 OPC_META_FI = _OPC(-1, 3),
209
210 } opc_t;
211
212 #define opc_cat(opc) ((int)((opc) >> NOPC_BITS))
213 #define opc_op(opc) ((unsigned)((opc) & ((1 << NOPC_BITS) - 1)))
214
215 typedef enum {
216 TYPE_F16 = 0,
217 TYPE_F32 = 1,
218 TYPE_U16 = 2,
219 TYPE_U32 = 3,
220 TYPE_S16 = 4,
221 TYPE_S32 = 5,
222 TYPE_U8 = 6,
223 TYPE_S8 = 7, // XXX I assume?
224 } type_t;
225
type_size(type_t type)226 static inline uint32_t type_size(type_t type)
227 {
228 switch (type) {
229 case TYPE_F32:
230 case TYPE_U32:
231 case TYPE_S32:
232 return 32;
233 case TYPE_F16:
234 case TYPE_U16:
235 case TYPE_S16:
236 return 16;
237 case TYPE_U8:
238 case TYPE_S8:
239 return 8;
240 default:
241 assert(0); /* invalid type */
242 return 0;
243 }
244 }
245
type_float(type_t type)246 static inline int type_float(type_t type)
247 {
248 return (type == TYPE_F32) || (type == TYPE_F16);
249 }
250
type_uint(type_t type)251 static inline int type_uint(type_t type)
252 {
253 return (type == TYPE_U32) || (type == TYPE_U16) || (type == TYPE_U8);
254 }
255
type_sint(type_t type)256 static inline int type_sint(type_t type)
257 {
258 return (type == TYPE_S32) || (type == TYPE_S16) || (type == TYPE_S8);
259 }
260
261 typedef union PACKED {
262 /* normal gpr or const src register: */
263 struct PACKED {
264 uint32_t comp : 2;
265 uint32_t num : 10;
266 };
267 /* for immediate val: */
268 int32_t iim_val : 11;
269 /* to make compiler happy: */
270 uint32_t dummy32;
271 uint32_t dummy10 : 10;
272 int32_t idummy10 : 10;
273 uint32_t dummy11 : 11;
274 uint32_t dummy12 : 12;
275 uint32_t dummy13 : 13;
276 uint32_t dummy8 : 8;
277 } reg_t;
278
279 /* special registers: */
280 #define REG_A0 61 /* address register */
281 #define REG_P0 62 /* predicate register */
282
reg_special(reg_t reg)283 static inline int reg_special(reg_t reg)
284 {
285 return (reg.num == REG_A0) || (reg.num == REG_P0);
286 }
287
288 typedef struct PACKED {
289 /* dword0: */
290 union PACKED {
291 struct PACKED {
292 int16_t immed : 16;
293 uint32_t dummy1 : 16;
294 } a3xx;
295 struct PACKED {
296 int32_t immed : 20;
297 uint32_t dummy1 : 12;
298 } a4xx;
299 struct PACKED {
300 uint32_t immed : 32;
301 } a5xx;
302 };
303
304 /* dword1: */
305 uint32_t dummy2 : 8;
306 uint32_t repeat : 3;
307 uint32_t dummy3 : 1;
308 uint32_t ss : 1;
309 uint32_t dummy4 : 7;
310 uint32_t inv : 1;
311 uint32_t comp : 2;
312 uint32_t opc : 4;
313 uint32_t jmp_tgt : 1;
314 uint32_t sync : 1;
315 uint32_t opc_cat : 3;
316 } instr_cat0_t;
317
318 typedef struct PACKED {
319 /* dword0: */
320 union PACKED {
321 /* for normal src register: */
322 struct PACKED {
323 uint32_t src : 11;
324 /* at least low bit of pad must be zero or it will
325 * look like a address relative src
326 */
327 uint32_t pad : 21;
328 };
329 /* for address relative: */
330 struct PACKED {
331 int32_t off : 10;
332 uint32_t src_rel_c : 1;
333 uint32_t src_rel : 1;
334 uint32_t unknown : 20;
335 };
336 /* for immediate: */
337 int32_t iim_val;
338 uint32_t uim_val;
339 float fim_val;
340 };
341
342 /* dword1: */
343 uint32_t dst : 8;
344 uint32_t repeat : 3;
345 uint32_t src_r : 1;
346 uint32_t ss : 1;
347 uint32_t ul : 1;
348 uint32_t dst_type : 3;
349 uint32_t dst_rel : 1;
350 uint32_t src_type : 3;
351 uint32_t src_c : 1;
352 uint32_t src_im : 1;
353 uint32_t even : 1;
354 uint32_t pos_inf : 1;
355 uint32_t must_be_0 : 2;
356 uint32_t jmp_tgt : 1;
357 uint32_t sync : 1;
358 uint32_t opc_cat : 3;
359 } instr_cat1_t;
360
361 typedef struct PACKED {
362 /* dword0: */
363 union PACKED {
364 struct PACKED {
365 uint32_t src1 : 11;
366 uint32_t must_be_zero1: 2;
367 uint32_t src1_im : 1; /* immediate */
368 uint32_t src1_neg : 1; /* negate */
369 uint32_t src1_abs : 1; /* absolute value */
370 };
371 struct PACKED {
372 uint32_t src1 : 10;
373 uint32_t src1_c : 1; /* relative-const */
374 uint32_t src1_rel : 1; /* relative address */
375 uint32_t must_be_zero : 1;
376 uint32_t dummy : 3;
377 } rel1;
378 struct PACKED {
379 uint32_t src1 : 12;
380 uint32_t src1_c : 1; /* const */
381 uint32_t dummy : 3;
382 } c1;
383 };
384
385 union PACKED {
386 struct PACKED {
387 uint32_t src2 : 11;
388 uint32_t must_be_zero2: 2;
389 uint32_t src2_im : 1; /* immediate */
390 uint32_t src2_neg : 1; /* negate */
391 uint32_t src2_abs : 1; /* absolute value */
392 };
393 struct PACKED {
394 uint32_t src2 : 10;
395 uint32_t src2_c : 1; /* relative-const */
396 uint32_t src2_rel : 1; /* relative address */
397 uint32_t must_be_zero : 1;
398 uint32_t dummy : 3;
399 } rel2;
400 struct PACKED {
401 uint32_t src2 : 12;
402 uint32_t src2_c : 1; /* const */
403 uint32_t dummy : 3;
404 } c2;
405 };
406
407 /* dword1: */
408 uint32_t dst : 8;
409 uint32_t repeat : 3;
410 uint32_t src1_r : 1;
411 uint32_t ss : 1;
412 uint32_t ul : 1; /* dunno */
413 uint32_t dst_half : 1; /* or widen/narrow.. ie. dst hrN <-> rN */
414 uint32_t ei : 1;
415 uint32_t cond : 3;
416 uint32_t src2_r : 1;
417 uint32_t full : 1; /* not half */
418 uint32_t opc : 6;
419 uint32_t jmp_tgt : 1;
420 uint32_t sync : 1;
421 uint32_t opc_cat : 3;
422 } instr_cat2_t;
423
424 typedef struct PACKED {
425 /* dword0: */
426 union PACKED {
427 struct PACKED {
428 uint32_t src1 : 11;
429 uint32_t must_be_zero1: 2;
430 uint32_t src2_c : 1;
431 uint32_t src1_neg : 1;
432 uint32_t src2_r : 1;
433 };
434 struct PACKED {
435 uint32_t src1 : 10;
436 uint32_t src1_c : 1;
437 uint32_t src1_rel : 1;
438 uint32_t must_be_zero : 1;
439 uint32_t dummy : 3;
440 } rel1;
441 struct PACKED {
442 uint32_t src1 : 12;
443 uint32_t src1_c : 1;
444 uint32_t dummy : 3;
445 } c1;
446 };
447
448 union PACKED {
449 struct PACKED {
450 uint32_t src3 : 11;
451 uint32_t must_be_zero2: 2;
452 uint32_t src3_r : 1;
453 uint32_t src2_neg : 1;
454 uint32_t src3_neg : 1;
455 };
456 struct PACKED {
457 uint32_t src3 : 10;
458 uint32_t src3_c : 1;
459 uint32_t src3_rel : 1;
460 uint32_t must_be_zero : 1;
461 uint32_t dummy : 3;
462 } rel2;
463 struct PACKED {
464 uint32_t src3 : 12;
465 uint32_t src3_c : 1;
466 uint32_t dummy : 3;
467 } c2;
468 };
469
470 /* dword1: */
471 uint32_t dst : 8;
472 uint32_t repeat : 3;
473 uint32_t src1_r : 1;
474 uint32_t ss : 1;
475 uint32_t ul : 1;
476 uint32_t dst_half : 1; /* or widen/narrow.. ie. dst hrN <-> rN */
477 uint32_t src2 : 8;
478 uint32_t opc : 4;
479 uint32_t jmp_tgt : 1;
480 uint32_t sync : 1;
481 uint32_t opc_cat : 3;
482 } instr_cat3_t;
483
instr_cat3_full(instr_cat3_t * cat3)484 static inline bool instr_cat3_full(instr_cat3_t *cat3)
485 {
486 switch (_OPC(3, cat3->opc)) {
487 case OPC_MAD_F16:
488 case OPC_MAD_U16:
489 case OPC_MAD_S16:
490 case OPC_SEL_B16:
491 case OPC_SEL_S16:
492 case OPC_SEL_F16:
493 case OPC_SAD_S16:
494 case OPC_SAD_S32: // really??
495 return false;
496 default:
497 return true;
498 }
499 }
500
501 typedef struct PACKED {
502 /* dword0: */
503 union PACKED {
504 struct PACKED {
505 uint32_t src : 11;
506 uint32_t must_be_zero1: 2;
507 uint32_t src_im : 1; /* immediate */
508 uint32_t src_neg : 1; /* negate */
509 uint32_t src_abs : 1; /* absolute value */
510 };
511 struct PACKED {
512 uint32_t src : 10;
513 uint32_t src_c : 1; /* relative-const */
514 uint32_t src_rel : 1; /* relative address */
515 uint32_t must_be_zero : 1;
516 uint32_t dummy : 3;
517 } rel;
518 struct PACKED {
519 uint32_t src : 12;
520 uint32_t src_c : 1; /* const */
521 uint32_t dummy : 3;
522 } c;
523 };
524 uint32_t dummy1 : 16; /* seem to be ignored */
525
526 /* dword1: */
527 uint32_t dst : 8;
528 uint32_t repeat : 3;
529 uint32_t src_r : 1;
530 uint32_t ss : 1;
531 uint32_t ul : 1;
532 uint32_t dst_half : 1; /* or widen/narrow.. ie. dst hrN <-> rN */
533 uint32_t dummy2 : 5; /* seem to be ignored */
534 uint32_t full : 1; /* not half */
535 uint32_t opc : 6;
536 uint32_t jmp_tgt : 1;
537 uint32_t sync : 1;
538 uint32_t opc_cat : 3;
539 } instr_cat4_t;
540
541 typedef struct PACKED {
542 /* dword0: */
543 union PACKED {
544 /* normal case: */
545 struct PACKED {
546 uint32_t full : 1; /* not half */
547 uint32_t src1 : 8;
548 uint32_t src2 : 8;
549 uint32_t dummy1 : 4; /* seem to be ignored */
550 uint32_t samp : 4;
551 uint32_t tex : 7;
552 } norm;
553 /* s2en case: */
554 struct PACKED {
555 uint32_t full : 1; /* not half */
556 uint32_t src1 : 8;
557 uint32_t src2 : 11;
558 uint32_t dummy1 : 1;
559 uint32_t src3 : 8;
560 uint32_t dummy2 : 3;
561 } s2en;
562 /* same in either case: */
563 // XXX I think, confirm this
564 struct PACKED {
565 uint32_t full : 1; /* not half */
566 uint32_t src1 : 8;
567 uint32_t pad : 23;
568 };
569 };
570
571 /* dword1: */
572 uint32_t dst : 8;
573 uint32_t wrmask : 4; /* write-mask */
574 uint32_t type : 3;
575 uint32_t dummy2 : 1; /* seems to be ignored */
576 uint32_t is_3d : 1;
577
578 uint32_t is_a : 1;
579 uint32_t is_s : 1;
580 uint32_t is_s2en : 1;
581 uint32_t is_o : 1;
582 uint32_t is_p : 1;
583
584 uint32_t opc : 5;
585 uint32_t jmp_tgt : 1;
586 uint32_t sync : 1;
587 uint32_t opc_cat : 3;
588 } instr_cat5_t;
589
590 /* dword0 encoding for src_off: [src1 + off], src2: */
591 typedef struct PACKED {
592 /* dword0: */
593 uint32_t mustbe1 : 1;
594 int32_t off : 13;
595 uint32_t src1 : 8;
596 uint32_t src1_im : 1;
597 uint32_t src2_im : 1;
598 uint32_t src2 : 8;
599
600 /* dword1: */
601 uint32_t dword1;
602 } instr_cat6a_t;
603
604 /* dword0 encoding for !src_off: [src1], src2 */
605 typedef struct PACKED {
606 /* dword0: */
607 uint32_t mustbe0 : 1;
608 uint32_t src1 : 13;
609 uint32_t ignore0 : 8;
610 uint32_t src1_im : 1;
611 uint32_t src2_im : 1;
612 uint32_t src2 : 8;
613
614 /* dword1: */
615 uint32_t dword1;
616 } instr_cat6b_t;
617
618 /* dword1 encoding for dst_off: */
619 typedef struct PACKED {
620 /* dword0: */
621 uint32_t dword0;
622
623 /* note: there is some weird stuff going on where sometimes
624 * cat6->a.off is involved.. but that seems like a bug in
625 * the blob, since it is used even if !cat6->src_off
626 * It would make sense for there to be some more bits to
627 * bring us to 11 bits worth of offset, but not sure..
628 */
629 int32_t off : 8;
630 uint32_t mustbe1 : 1;
631 uint32_t dst : 8;
632 uint32_t pad1 : 15;
633 } instr_cat6c_t;
634
635 /* dword1 encoding for !dst_off: */
636 typedef struct PACKED {
637 /* dword0: */
638 uint32_t dword0;
639
640 uint32_t dst : 8;
641 uint32_t mustbe0 : 1;
642 uint32_t pad0 : 23;
643 } instr_cat6d_t;
644
645 /* I think some of the other cat6 instructions use additional
646 * sub-encodings..
647 */
648
649 typedef union PACKED {
650 instr_cat6a_t a;
651 instr_cat6b_t b;
652 instr_cat6c_t c;
653 instr_cat6d_t d;
654 struct PACKED {
655 /* dword0: */
656 uint32_t src_off : 1;
657 uint32_t pad1 : 31;
658
659 /* dword1: */
660 uint32_t pad2 : 8;
661 uint32_t dst_off : 1;
662 uint32_t pad3 : 8;
663 uint32_t type : 3;
664 uint32_t g : 1; /* or in some cases it means dst immed */
665 uint32_t pad4 : 1;
666 uint32_t opc : 5;
667 uint32_t jmp_tgt : 1;
668 uint32_t sync : 1;
669 uint32_t opc_cat : 3;
670 };
671 } instr_cat6_t;
672
673 typedef union PACKED {
674 instr_cat0_t cat0;
675 instr_cat1_t cat1;
676 instr_cat2_t cat2;
677 instr_cat3_t cat3;
678 instr_cat4_t cat4;
679 instr_cat5_t cat5;
680 instr_cat6_t cat6;
681 struct PACKED {
682 /* dword0: */
683 uint64_t pad1 : 40;
684 uint32_t repeat : 3; /* cat0-cat4 */
685 uint32_t pad2 : 1;
686 uint32_t ss : 1; /* cat1-cat4 (cat0??) */
687 uint32_t ul : 1; /* cat2-cat4 (and cat1 in blob.. which may be bug??) */
688 uint32_t pad3 : 13;
689 uint32_t jmp_tgt : 1;
690 uint32_t sync : 1;
691 uint32_t opc_cat : 3;
692
693 };
694 } instr_t;
695
instr_opc(instr_t * instr)696 static inline uint32_t instr_opc(instr_t *instr)
697 {
698 switch (instr->opc_cat) {
699 case 0: return instr->cat0.opc;
700 case 1: return 0;
701 case 2: return instr->cat2.opc;
702 case 3: return instr->cat3.opc;
703 case 4: return instr->cat4.opc;
704 case 5: return instr->cat5.opc;
705 case 6: return instr->cat6.opc;
706 default: return 0;
707 }
708 }
709
is_mad(opc_t opc)710 static inline bool is_mad(opc_t opc)
711 {
712 switch (opc) {
713 case OPC_MAD_U16:
714 case OPC_MAD_S16:
715 case OPC_MAD_U24:
716 case OPC_MAD_S24:
717 case OPC_MAD_F16:
718 case OPC_MAD_F32:
719 return true;
720 default:
721 return false;
722 }
723 }
724
is_madsh(opc_t opc)725 static inline bool is_madsh(opc_t opc)
726 {
727 switch (opc) {
728 case OPC_MADSH_U16:
729 case OPC_MADSH_M16:
730 return true;
731 default:
732 return false;
733 }
734 }
735
736 #endif /* INSTR_A3XX_H_ */
737