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[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [opcodes/] [i386-opc.h] - Blame information for rev 866

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1 330 jeremybenn
/* Declarations for Intel 80386 opcode table
2
   Copyright 2007, 2008, 2009, 2010
3
   Free Software Foundation, Inc.
4
 
5
   This file is part of the GNU opcodes library.
6
 
7
   This library is free software; you can redistribute it and/or modify
8
   it under the terms of the GNU General Public License as published by
9
   the Free Software Foundation; either version 3, or (at your option)
10
   any later version.
11
 
12
   It is distributed in the hope that it will be useful, but WITHOUT
13
   ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
14
   or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public
15
   License for more details.
16
 
17
   You should have received a copy of the GNU General Public License
18
   along with GAS; see the file COPYING.  If not, write to the Free
19
   Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
20
   02110-1301, USA.  */
21
 
22
#include "opcode/i386.h"
23
#ifdef HAVE_LIMITS_H
24
#include <limits.h>
25
#endif
26
 
27
#ifndef CHAR_BIT
28
#define CHAR_BIT 8
29
#endif
30
 
31
/* Position of cpu flags bitfiled.  */
32
 
33
enum
34
{
35
  /* i186 or better required */
36
  Cpu186 = 0,
37
  /* i286 or better required */
38
  Cpu286,
39
  /* i386 or better required */
40
  Cpu386,
41
  /* i486 or better required */
42
  Cpu486,
43
  /* i585 or better required */
44
  Cpu586,
45
  /* i686 or better required */
46
  Cpu686,
47
  /* CLFLUSH Instuction support required */
48
  CpuClflush,
49
  /* SYSCALL Instuctions support required */
50
  CpuSYSCALL,
51
  /* Floating point support required */
52
  Cpu8087,
53
  /* i287 support required */
54
  Cpu287,
55
  /* i387 support required */
56
  Cpu387,
57
  /* i686 and floating point support required */
58
  Cpu687,
59
  /* SSE3 and floating point support required */
60
  CpuFISTTP,
61
  /* MMX support required */
62
  CpuMMX,
63
  /* SSE support required */
64
  CpuSSE,
65
  /* SSE2 support required */
66
  CpuSSE2,
67
  /* 3dnow! support required */
68
  Cpu3dnow,
69
  /* 3dnow! Extensions support required */
70
  Cpu3dnowA,
71
  /* SSE3 support required */
72
  CpuSSE3,
73
  /* VIA PadLock required */
74
  CpuPadLock,
75
  /* AMD Secure Virtual Machine Ext-s required */
76
  CpuSVME,
77
  /* VMX Instructions required */
78
  CpuVMX,
79
  /* SMX Instructions required */
80
  CpuSMX,
81
  /* SSSE3 support required */
82
  CpuSSSE3,
83
  /* SSE4a support required */
84
  CpuSSE4a,
85
  /* ABM New Instructions required */
86
  CpuABM,
87
  /* SSE4.1 support required */
88
  CpuSSE4_1,
89
  /* SSE4.2 support required */
90
  CpuSSE4_2,
91
  /* AVX support required */
92
  CpuAVX,
93
  /* Intel L1OM support required */
94
  CpuL1OM,
95
  /* Xsave/xrstor New Instuctions support required */
96
  CpuXsave,
97
  /* Xsaveopt New Instuctions support required */
98
  CpuXsaveopt,
99
  /* AES support required */
100
  CpuAES,
101
  /* PCLMUL support required */
102
  CpuPCLMUL,
103
  /* FMA support required */
104
  CpuFMA,
105
  /* FMA4 support required */
106
  CpuFMA4,
107
  /* XOP support required */
108
  CpuXOP,
109
  /* LWP support required */
110
  CpuLWP,
111
  /* MOVBE Instuction support required */
112
  CpuMovbe,
113
  /* EPT Instructions required */
114
  CpuEPT,
115
  /* RDTSCP Instuction support required */
116
  CpuRdtscp,
117
  /* FSGSBASE Instructions required */
118
  CpuFSGSBase,
119
  /* RDRND Instructions required */
120
  CpuRdRnd,
121
  /* F16C Instructions required */
122
  CpuF16C,
123
  /* 64bit support available, used by -march= in assembler.  */
124
  CpuLM,
125
  /* 64bit support required  */
126
  Cpu64,
127
  /* Not supported in the 64bit mode  */
128
  CpuNo64,
129
  /* The last bitfield in i386_cpu_flags.  */
130
  CpuMax = CpuNo64
131
};
132
 
133
#define CpuNumOfUints \
134
  (CpuMax / sizeof (unsigned int) / CHAR_BIT + 1)
135
#define CpuNumOfBits \
136
  (CpuNumOfUints * sizeof (unsigned int) * CHAR_BIT)
137
 
138
/* If you get a compiler error for zero width of the unused field,
139
   comment it out.  */
140
#define CpuUnused       (CpuMax + 1)
141
 
142
/* We can check if an instruction is available with array instead
143
   of bitfield. */
144
typedef union i386_cpu_flags
145
{
146
  struct
147
    {
148
      unsigned int cpui186:1;
149
      unsigned int cpui286:1;
150
      unsigned int cpui386:1;
151
      unsigned int cpui486:1;
152
      unsigned int cpui586:1;
153
      unsigned int cpui686:1;
154
      unsigned int cpuclflush:1;
155
      unsigned int cpusyscall:1;
156
      unsigned int cpu8087:1;
157
      unsigned int cpu287:1;
158
      unsigned int cpu387:1;
159
      unsigned int cpu687:1;
160
      unsigned int cpufisttp:1;
161
      unsigned int cpummx:1;
162
      unsigned int cpusse:1;
163
      unsigned int cpusse2:1;
164
      unsigned int cpua3dnow:1;
165
      unsigned int cpua3dnowa:1;
166
      unsigned int cpusse3:1;
167
      unsigned int cpupadlock:1;
168
      unsigned int cpusvme:1;
169
      unsigned int cpuvmx:1;
170
      unsigned int cpusmx:1;
171
      unsigned int cpussse3:1;
172
      unsigned int cpusse4a:1;
173
      unsigned int cpuabm:1;
174
      unsigned int cpusse4_1:1;
175
      unsigned int cpusse4_2:1;
176
      unsigned int cpuavx:1;
177
      unsigned int cpul1om:1;
178
      unsigned int cpuxsave:1;
179
      unsigned int cpuxsaveopt:1;
180
      unsigned int cpuaes:1;
181
      unsigned int cpupclmul:1;
182
      unsigned int cpufma:1;
183
      unsigned int cpufma4:1;
184
      unsigned int cpuxop:1;
185
      unsigned int cpulwp:1;
186
      unsigned int cpumovbe:1;
187
      unsigned int cpuept:1;
188
      unsigned int cpurdtscp:1;
189
      unsigned int cpufsgsbase:1;
190
      unsigned int cpurdrnd:1;
191
      unsigned int cpuf16c:1;
192
      unsigned int cpulm:1;
193
      unsigned int cpu64:1;
194
      unsigned int cpuno64:1;
195
#ifdef CpuUnused
196
      unsigned int unused:(CpuNumOfBits - CpuUnused);
197
#endif
198
    } bitfield;
199
  unsigned int array[CpuNumOfUints];
200
} i386_cpu_flags;
201
 
202
/* Position of opcode_modifier bits.  */
203
 
204
enum
205
{
206
  /* has direction bit. */
207
  D = 0,
208
  /* set if operands can be words or dwords encoded the canonical way */
209
  W,
210
  /* Skip the current insn and use the next insn in i386-opc.tbl to swap
211
     operand in encoding.  */
212
  S,
213
  /* insn has a modrm byte. */
214
  Modrm,
215
  /* register is in low 3 bits of opcode */
216
  ShortForm,
217
  /* special case for jump insns.  */
218
  Jump,
219
  /* call and jump */
220
  JumpDword,
221
  /* loop and jecxz */
222
  JumpByte,
223
  /* special case for intersegment leaps/calls */
224
  JumpInterSegment,
225
  /* FP insn memory format bit, sized by 0x4 */
226
  FloatMF,
227
  /* src/dest swap for floats. */
228
  FloatR,
229
  /* has float insn direction bit. */
230
  FloatD,
231
  /* needs size prefix if in 32-bit mode */
232
  Size16,
233
  /* needs size prefix if in 16-bit mode */
234
  Size32,
235
  /* needs size prefix if in 64-bit mode */
236
  Size64,
237
  /* instruction ignores operand size prefix and in Intel mode ignores
238
     mnemonic size suffix check.  */
239
  IgnoreSize,
240
  /* default insn size depends on mode */
241
  DefaultSize,
242
  /* b suffix on instruction illegal */
243
  No_bSuf,
244
  /* w suffix on instruction illegal */
245
  No_wSuf,
246
  /* l suffix on instruction illegal */
247
  No_lSuf,
248
  /* s suffix on instruction illegal */
249
  No_sSuf,
250
  /* q suffix on instruction illegal */
251
  No_qSuf,
252
  /* long double suffix on instruction illegal */
253
  No_ldSuf,
254
  /* instruction needs FWAIT */
255
  FWait,
256
  /* quick test for string instructions */
257
  IsString,
258
  /* quick test for lockable instructions */
259
  IsLockable,
260
  /* fake an extra reg operand for clr, imul and special register
261
     processing for some instructions.  */
262
  RegKludge,
263
  /* The first operand must be xmm0 */
264
  FirstXmm0,
265
  /* An implicit xmm0 as the first operand */
266
  Implicit1stXmm0,
267
  /* Convert to DWORD */
268
  ToDword,
269
  /* Convert to QWORD */
270
  ToQword,
271
  /* Address prefix changes operand 0 */
272
  AddrPrefixOp0,
273
  /* opcode is a prefix */
274
  IsPrefix,
275
  /* instruction has extension in 8 bit imm */
276
  ImmExt,
277
  /* instruction don't need Rex64 prefix.  */
278
  NoRex64,
279
  /* instruction require Rex64 prefix.  */
280
  Rex64,
281
  /* deprecated fp insn, gets a warning */
282
  Ugh,
283
  /* insn has VEX prefix:
284
        1: 128bit VEX prefix.
285
        2: 256bit VEX prefix.
286
        3: Scalar VEX prefix.
287
   */
288
#define VEX128          1
289
#define VEX256          2
290
#define VEXScalar       3
291
  Vex,
292
  /* How to encode VEX.vvvv:
293
     0: VEX.vvvv must be 1111b.
294
     1: VEX.NDS.  Register-only source is encoded in VEX.vvvv where
295
        the content of source registers will be preserved.
296
        VEX.DDS.  The second register operand is encoded in VEX.vvvv
297
        where the content of first source register will be overwritten
298
        by the result.
299
        For assembler, there are no difference between VEX.NDS and
300
        VEX.DDS.
301
     2. VEX.NDD.  Register destination is encoded in VEX.vvvv.
302
     3. VEX.LWP.  Register destination is encoded in VEX.vvvv and one
303
        of the operands can access a memory location.
304
   */
305
#define VEXXDS  1
306
#define VEXNDD  2
307
#define VEXLWP  3
308
  VexVVVV,
309
  /* How the VEX.W bit is used:
310
     0: Set by the REX.W bit.
311
     1: VEX.W0.  Should always be 0.
312
     2: VEX.W1.  Should always be 1.
313
   */
314
#define VEXW0   1
315
#define VEXW1   2
316
  VexW,
317
  /* VEX opcode prefix:
318
     0: VEX 0x0F opcode prefix.
319
     1: VEX 0x0F38 opcode prefix.
320
     2: VEX 0x0F3A opcode prefix
321
     3: XOP 0x08 opcode prefix.
322
     4: XOP 0x09 opcode prefix
323
     5: XOP 0x0A opcode prefix.
324
   */
325
#define VEX0F           0
326
#define VEX0F38         1
327
#define VEX0F3A         2
328
#define XOP08           3
329
#define XOP09           4
330
#define XOP0A           5
331
  VexOpcode,
332
  /* number of VEX source operands:
333
     0: <= 2 source operands.
334
     1: 2 XOP source operands.
335
     2: 3 source operands.
336
   */
337
#define XOP2SOURCES     1
338
#define VEX3SOURCES     2
339
  VexSources,
340
  /* instruction has VEX 8 bit imm */
341
  VexImmExt,
342
  /* SSE to AVX support required */
343
  SSE2AVX,
344
  /* No AVX equivalent */
345
  NoAVX,
346
  /* Compatible with old (<= 2.8.1) versions of gcc  */
347
  OldGcc,
348
  /* AT&T mnemonic.  */
349
  ATTMnemonic,
350
  /* AT&T syntax.  */
351
  ATTSyntax,
352
  /* Intel syntax.  */
353
  IntelSyntax,
354
  /* The last bitfield in i386_opcode_modifier.  */
355
  Opcode_Modifier_Max
356
};
357
 
358
typedef struct i386_opcode_modifier
359
{
360
  unsigned int d:1;
361
  unsigned int w:1;
362
  unsigned int s:1;
363
  unsigned int modrm:1;
364
  unsigned int shortform:1;
365
  unsigned int jump:1;
366
  unsigned int jumpdword:1;
367
  unsigned int jumpbyte:1;
368
  unsigned int jumpintersegment:1;
369
  unsigned int floatmf:1;
370
  unsigned int floatr:1;
371
  unsigned int floatd:1;
372
  unsigned int size16:1;
373
  unsigned int size32:1;
374
  unsigned int size64:1;
375
  unsigned int ignoresize:1;
376
  unsigned int defaultsize:1;
377
  unsigned int no_bsuf:1;
378
  unsigned int no_wsuf:1;
379
  unsigned int no_lsuf:1;
380
  unsigned int no_ssuf:1;
381
  unsigned int no_qsuf:1;
382
  unsigned int no_ldsuf:1;
383
  unsigned int fwait:1;
384
  unsigned int isstring:1;
385
  unsigned int islockable:1;
386
  unsigned int regkludge:1;
387
  unsigned int firstxmm0:1;
388
  unsigned int implicit1stxmm0:1;
389
  unsigned int todword:1;
390
  unsigned int toqword:1;
391
  unsigned int addrprefixop0:1;
392
  unsigned int isprefix:1;
393
  unsigned int immext:1;
394
  unsigned int norex64:1;
395
  unsigned int rex64:1;
396
  unsigned int ugh:1;
397
  unsigned int vex:2;
398
  unsigned int vexvvvv:2;
399
  unsigned int vexw:2;
400
  unsigned int vexopcode:3;
401
  unsigned int vexsources:2;
402
  unsigned int veximmext:1;
403
  unsigned int sse2avx:1;
404
  unsigned int noavx:1;
405
  unsigned int oldgcc:1;
406
  unsigned int attmnemonic:1;
407
  unsigned int attsyntax:1;
408
  unsigned int intelsyntax:1;
409
} i386_opcode_modifier;
410
 
411
/* Position of operand_type bits.  */
412
 
413
enum
414
{
415
  /* 8bit register */
416
  Reg8 = 0,
417
  /* 16bit register */
418
  Reg16,
419
  /* 32bit register */
420
  Reg32,
421
  /* 64bit register */
422
  Reg64,
423
  /* Floating pointer stack register */
424
  FloatReg,
425
  /* MMX register */
426
  RegMMX,
427
  /* SSE register */
428
  RegXMM,
429
  /* AVX registers */
430
  RegYMM,
431
  /* Control register */
432
  Control,
433
  /* Debug register */
434
  Debug,
435
  /* Test register */
436
  Test,
437
  /* 2 bit segment register */
438
  SReg2,
439
  /* 3 bit segment register */
440
  SReg3,
441
  /* 1 bit immediate */
442
  Imm1,
443
  /* 8 bit immediate */
444
  Imm8,
445
  /* 8 bit immediate sign extended */
446
  Imm8S,
447
  /* 16 bit immediate */
448
  Imm16,
449
  /* 32 bit immediate */
450
  Imm32,
451
  /* 32 bit immediate sign extended */
452
  Imm32S,
453
  /* 64 bit immediate */
454
  Imm64,
455
  /* 8bit/16bit/32bit displacements are used in different ways,
456
     depending on the instruction.  For jumps, they specify the
457
     size of the PC relative displacement, for instructions with
458
     memory operand, they specify the size of the offset relative
459
     to the base register, and for instructions with memory offset
460
     such as `mov 1234,%al' they specify the size of the offset
461
     relative to the segment base.  */
462
  /* 8 bit displacement */
463
  Disp8,
464
  /* 16 bit displacement */
465
  Disp16,
466
  /* 32 bit displacement */
467
  Disp32,
468
  /* 32 bit signed displacement */
469
  Disp32S,
470
  /* 64 bit displacement */
471
  Disp64,
472
  /* Accumulator %al/%ax/%eax/%rax */
473
  Acc,
474
  /* Floating pointer top stack register %st(0) */
475
  FloatAcc,
476
  /* Register which can be used for base or index in memory operand.  */
477
  BaseIndex,
478
  /* Register to hold in/out port addr = dx */
479
  InOutPortReg,
480
  /* Register to hold shift count = cl */
481
  ShiftCount,
482
  /* Absolute address for jump.  */
483
  JumpAbsolute,
484
  /* String insn operand with fixed es segment */
485
  EsSeg,
486
  /* RegMem is for instructions with a modrm byte where the register
487
     destination operand should be encoded in the mod and regmem fields.
488
     Normally, it will be encoded in the reg field. We add a RegMem
489
     flag to the destination register operand to indicate that it should
490
     be encoded in the regmem field.  */
491
  RegMem,
492
  /* Memory.  */
493
  Mem,
494
  /* BYTE memory. */
495
  Byte,
496
  /* WORD memory. 2 byte */
497
  Word,
498
  /* DWORD memory. 4 byte */
499
  Dword,
500
  /* FWORD memory. 6 byte */
501
  Fword,
502
  /* QWORD memory. 8 byte */
503
  Qword,
504
  /* TBYTE memory. 10 byte */
505
  Tbyte,
506
  /* XMMWORD memory. */
507
  Xmmword,
508
  /* YMMWORD memory. */
509
  Ymmword,
510
  /* Unspecified memory size.  */
511
  Unspecified,
512
  /* Any memory size.  */
513
  Anysize,
514
 
515
  /* Vector 4 bit immediate.  */
516
  Vec_Imm4,
517
 
518
  /* The last bitfield in i386_operand_type.  */
519
  OTMax
520
};
521
 
522
#define OTNumOfUints \
523
  (OTMax / sizeof (unsigned int) / CHAR_BIT + 1)
524
#define OTNumOfBits \
525
  (OTNumOfUints * sizeof (unsigned int) * CHAR_BIT)
526
 
527
/* If you get a compiler error for zero width of the unused field,
528
   comment it out.  */
529
#define OTUnused                (OTMax + 1)
530
 
531
typedef union i386_operand_type
532
{
533
  struct
534
    {
535
      unsigned int reg8:1;
536
      unsigned int reg16:1;
537
      unsigned int reg32:1;
538
      unsigned int reg64:1;
539
      unsigned int floatreg:1;
540
      unsigned int regmmx:1;
541
      unsigned int regxmm:1;
542
      unsigned int regymm:1;
543
      unsigned int control:1;
544
      unsigned int debug:1;
545
      unsigned int test:1;
546
      unsigned int sreg2:1;
547
      unsigned int sreg3:1;
548
      unsigned int imm1:1;
549
      unsigned int imm8:1;
550
      unsigned int imm8s:1;
551
      unsigned int imm16:1;
552
      unsigned int imm32:1;
553
      unsigned int imm32s:1;
554
      unsigned int imm64:1;
555
      unsigned int disp8:1;
556
      unsigned int disp16:1;
557
      unsigned int disp32:1;
558
      unsigned int disp32s:1;
559
      unsigned int disp64:1;
560
      unsigned int acc:1;
561
      unsigned int floatacc:1;
562
      unsigned int baseindex:1;
563
      unsigned int inoutportreg:1;
564
      unsigned int shiftcount:1;
565
      unsigned int jumpabsolute:1;
566
      unsigned int esseg:1;
567
      unsigned int regmem:1;
568
      unsigned int mem:1;
569
      unsigned int byte:1;
570
      unsigned int word:1;
571
      unsigned int dword:1;
572
      unsigned int fword:1;
573
      unsigned int qword:1;
574
      unsigned int tbyte:1;
575
      unsigned int xmmword:1;
576
      unsigned int ymmword:1;
577
      unsigned int unspecified:1;
578
      unsigned int anysize:1;
579
      unsigned int vec_imm4:1;
580
#ifdef OTUnused
581
      unsigned int unused:(OTNumOfBits - OTUnused);
582
#endif
583
    } bitfield;
584
  unsigned int array[OTNumOfUints];
585
} i386_operand_type;
586
 
587
typedef struct insn_template
588
{
589
  /* instruction name sans width suffix ("mov" for movl insns) */
590
  char *name;
591
 
592
  /* how many operands */
593
  unsigned int operands;
594
 
595
  /* base_opcode is the fundamental opcode byte without optional
596
     prefix(es).  */
597
  unsigned int base_opcode;
598
#define Opcode_D        0x2 /* Direction bit:
599
                               set if Reg --> Regmem;
600
                               unset if Regmem --> Reg. */
601
#define Opcode_FloatR   0x8 /* Bit to swap src/dest for float insns. */
602
#define Opcode_FloatD 0x400 /* Direction bit for float insns. */
603
 
604
  /* extension_opcode is the 3 bit extension for group <n> insns.
605
     This field is also used to store the 8-bit opcode suffix for the
606
     AMD 3DNow! instructions.
607
     If this template has no extension opcode (the usual case) use None
608
     Instructions */
609
  unsigned int extension_opcode;
610
#define None 0xffff             /* If no extension_opcode is possible.  */
611
 
612
  /* Opcode length.  */
613
  unsigned char opcode_length;
614
 
615
  /* cpu feature flags */
616
  i386_cpu_flags cpu_flags;
617
 
618
  /* the bits in opcode_modifier are used to generate the final opcode from
619
     the base_opcode.  These bits also are used to detect alternate forms of
620
     the same instruction */
621
  i386_opcode_modifier opcode_modifier;
622
 
623
  /* operand_types[i] describes the type of operand i.  This is made
624
     by OR'ing together all of the possible type masks.  (e.g.
625
     'operand_types[i] = Reg|Imm' specifies that operand i can be
626
     either a register or an immediate operand.  */
627
  i386_operand_type operand_types[MAX_OPERANDS];
628
}
629
insn_template;
630
 
631
extern const insn_template i386_optab[];
632
 
633
/* these are for register name --> number & type hash lookup */
634
typedef struct
635
{
636
  char *reg_name;
637
  i386_operand_type reg_type;
638
  unsigned char reg_flags;
639
#define RegRex      0x1  /* Extended register.  */
640
#define RegRex64    0x2  /* Extended 8 bit register.  */
641
  unsigned char reg_num;
642
#define RegRip  ((unsigned char ) ~0)
643
#define RegEip  (RegRip - 1)
644
/* EIZ and RIZ are fake index registers.  */
645
#define RegEiz  (RegEip - 1)
646
#define RegRiz  (RegEiz - 1)
647
/* FLAT is a fake segment register (Intel mode).  */
648
#define RegFlat     ((unsigned char) ~0)
649
  signed char dw2_regnum[2];
650
#define Dw2Inval (-1)
651
}
652
reg_entry;
653
 
654
/* Entries in i386_regtab.  */
655
#define REGNAM_AL 1
656
#define REGNAM_AX 25
657
#define REGNAM_EAX 41
658
 
659
extern const reg_entry i386_regtab[];
660
extern const unsigned int i386_regtab_size;
661
 
662
typedef struct
663
{
664
  char *seg_name;
665
  unsigned int seg_prefix;
666
}
667
seg_entry;
668
 
669
extern const seg_entry cs;
670
extern const seg_entry ds;
671
extern const seg_entry ss;
672
extern const seg_entry es;
673
extern const seg_entry fs;
674
extern const seg_entry gs;

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