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source: vbox/trunk/src/VBox/ValidationKit/bootsectors/bs3-cpu-generated-1.h@ 66814

Last change on this file since 66814 was 66814, checked in by vboxsync, 8 years ago

IEM: clearly mark operands that are written to.

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1/* $Id: bs3-cpu-generated-1.h 66814 2017-05-05 19:27:04Z vboxsync $ */
2/** @file
3 * BS3Kit - bs3-cpu-generated-1, common header file.
4 */
5
6/*
7 * Copyright (C) 2007-2016 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 *
17 * The contents of this file may alternatively be used under the terms
18 * of the Common Development and Distribution License Version 1.0
19 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
20 * VirtualBox OSE distribution, in which case the provisions of the
21 * CDDL are applicable instead of those of the GPL.
22 *
23 * You may elect to license modified versions of this file under the
24 * terms and conditions of either the GPL or the CDDL or both.
25 */
26
27
28#ifndef ___bs3_cpu_generated_1_h___
29#define ___bs3_cpu_generated_1_h___
30
31#include <bs3kit.h>
32#include <iprt/assert.h>
33
34
35/**
36 * Operand details.
37 *
38 * Currently simply using the encoding from the reference manuals.
39 */
40typedef enum BS3CG1OP
41{
42 BS3CG1OP_INVALID = 0,
43
44 BS3CG1OP_Eb,
45 BS3CG1OP_Ev,
46 BS3CG1OP_Wss,
47 BS3CG1OP_Wss_WO,
48 BS3CG1OP_Wsd,
49 BS3CG1OP_Wsd_WO,
50 BS3CG1OP_Wps,
51 BS3CG1OP_Wps_WO,
52 BS3CG1OP_Wpd,
53 BS3CG1OP_Wpd_WO,
54 BS3CG1OP_Wdq,
55 BS3CG1OP_Wdq_WO,
56 BS3CG1OP_Wq,
57 BS3CG1OP_Wq_WO,
58 BS3CG1OP_WqZxReg_WO,
59
60 BS3CG1OP_Gb,
61 BS3CG1OP_Gv,
62 BS3CG1OP_Gv_RO,
63 BS3CG1OP_Nq,
64 BS3CG1OP_Pq_WO,
65 BS3CG1OP_Uq,
66 BS3CG1OP_UqHi,
67 BS3CG1OP_Vss,
68 BS3CG1OP_Vss_WO,
69 BS3CG1OP_VssZxReg_WO,
70 BS3CG1OP_Vsd,
71 BS3CG1OP_Vsd_WO,
72 BS3CG1OP_VsdZxReg_WO,
73 BS3CG1OP_Vps,
74 BS3CG1OP_Vps_WO,
75 BS3CG1OP_Vpd,
76 BS3CG1OP_Vpd_WO,
77 BS3CG1OP_Vq,
78 BS3CG1OP_Vq_WO,
79 BS3CG1OP_Vdq,
80 BS3CG1OP_Vdq_WO,
81 BS3CG1OP_VqHi,
82 BS3CG1OP_VqHi_WO,
83 BS3CG1OP_VqZxReg_WO,
84
85 BS3CG1OP_Ib,
86 BS3CG1OP_Iz,
87
88 BS3CG1OP_AL,
89 BS3CG1OP_rAX,
90
91 BS3CG1OP_Ma,
92 BS3CG1OP_Mb_RO,
93 BS3CG1OP_Md_RO,
94 BS3CG1OP_Md_WO,
95 BS3CG1OP_Mq,
96 BS3CG1OP_Mq_WO,
97
98 BS3CG1OP_END
99} BS3CG1OP;
100/** Pointer to a const operand enum. */
101typedef const BS3CG1OP BS3_FAR *PCBS3CG1OP;
102
103
104/**
105 * Instruction encoding format.
106 *
107 * This duplicates some of the info in the operand array, however it makes it
108 * easier to figure out encoding variations.
109 */
110typedef enum BS3CG1ENC
111{
112 BS3CG1ENC_INVALID = 0,
113
114 BS3CG1ENC_MODRM_Eb_Gb,
115 BS3CG1ENC_MODRM_Ev_Gv,
116 BS3CG1ENC_MODRM_Wss_WO_Vss,
117 BS3CG1ENC_MODRM_Wsd_WO_Vsd,
118 BS3CG1ENC_MODRM_Wps_WO_Vps,
119 BS3CG1ENC_MODRM_Wpd_WO_Vpd,
120 BS3CG1ENC_MODRM_WqZxReg_WO_Vq,
121
122 BS3CG1ENC_MODRM_Gb_Eb,
123 BS3CG1ENC_MODRM_Gv_Ev,
124 BS3CG1ENC_MODRM_Gv_RO_Ma, /**< bound instruction */
125 BS3CG1ENC_MODRM_Pq_WO_Uq,
126 BS3CG1ENC_MODRM_Vq_WO_UqHi,
127 BS3CG1ENC_MODRM_Vq_WO_Mq,
128 BS3CG1ENC_MODRM_VqHi_WO_Uq,
129 BS3CG1ENC_MODRM_VqHi_WO_Mq,
130 BS3CG1ENC_MODRM_Vdq_WO_Wdq,
131 BS3CG1ENC_MODRM_Vpd_WO_Wpd,
132 BS3CG1ENC_MODRM_Vps_WO_Wps,
133 BS3CG1ENC_MODRM_VssZxReg_WO_Wss,
134 BS3CG1ENC_MODRM_VsdZxReg_WO_Wsd,
135 BS3CG1ENC_MODRM_VqZxReg_WO_Wq,
136 BS3CG1ENC_MODRM_VqZxReg_WO_Nq,
137 BS3CG1ENC_MODRM_Mb_RO,
138 BS3CG1ENC_MODRM_Md_RO,
139 BS3CG1ENC_MODRM_Md_WO,
140 BS3CG1ENC_MODRM_Mq_WO_Vq,
141 BS3CG1ENC_MODRM_Mq_WO_VqHi,
142
143 BS3CG1ENC_VEX_MODRM_Md_WO,
144
145 BS3CG1ENC_FIXED,
146 BS3CG1ENC_FIXED_AL_Ib,
147 BS3CG1ENC_FIXED_rAX_Iz,
148
149 BS3CG1ENC_MODRM_MOD_EQ_3, /**< Unused or invalid instruction. */
150 BS3CG1ENC_MODRM_MOD_NE_3, /**< Unused or invalid instruction. */
151
152 BS3CG1ENC_END
153} BS3CG1ENC;
154
155
156/**
157 * Prefix sensitivitiy kind.
158 */
159typedef enum BS3CG1PFXKIND
160{
161 BS3CG1PFXKIND_INVALID = 0,
162
163 BS3CG1PFXKIND_NO_F2_F3_66, /**< No 66, F2 or F3 prefixes allowed as that would alter the meaning. */
164 BS3CG1PFXKIND_REQ_F2, /**< Requires F2 (REPNE) prefix as part of the instr encoding. */
165 BS3CG1PFXKIND_REQ_F3, /**< Requires F3 (REPE) prefix as part of the instr encoding. */
166 BS3CG1PFXKIND_REQ_66, /**< Requires 66 (OP SIZE) prefix as part of the instr encoding. */
167
168 /** @todo more work to be done here... */
169 BS3CG1PFXKIND_MODRM,
170 BS3CG1PFXKIND_MODRM_NO_OP_SIZES,
171
172 BS3CG1PFXKIND_END
173} BS3CG1PFXKIND;
174
175/**
176 * CPU selection or CPU ID.
177 */
178typedef enum BS3CG1CPU
179{
180 /** Works with an CPU. */
181 BS3CG1CPU_ANY = 0,
182 BS3CG1CPU_GE_80186,
183 BS3CG1CPU_GE_80286,
184 BS3CG1CPU_GE_80386,
185 BS3CG1CPU_GE_80486,
186 BS3CG1CPU_GE_Pentium,
187
188 BS3CG1CPU_SSE,
189 BS3CG1CPU_SSE2,
190 BS3CG1CPU_SSE3,
191 BS3CG1CPU_AVX,
192 BS3CG1CPU_AVX2,
193 BS3CG1CPU_CLFSH,
194 BS3CG1CPU_CLFLUSHOPT,
195
196 BS3CG1CPU_END
197} BS3CG1CPU;
198
199
200/**
201 * SSE & AVX exception types.
202 */
203typedef enum BS3CG1XCPTTYPE
204{
205 BS3CG1XCPTTYPE_NONE = 0,
206 /* SSE: */
207 BS3CG1XCPTTYPE_1,
208 BS3CG1XCPTTYPE_2,
209 BS3CG1XCPTTYPE_3,
210 BS3CG1XCPTTYPE_4,
211 BS3CG1XCPTTYPE_4UA,
212 BS3CG1XCPTTYPE_5,
213 BS3CG1XCPTTYPE_6,
214 BS3CG1XCPTTYPE_7,
215 BS3CG1XCPTTYPE_8,
216 BS3CG1XCPTTYPE_11,
217 BS3CG1XCPTTYPE_12,
218 /* EVEX: */
219 BS3CG1XCPTTYPE_E1,
220 BS3CG1XCPTTYPE_E1NF,
221 BS3CG1XCPTTYPE_E2,
222 BS3CG1XCPTTYPE_E3,
223 BS3CG1XCPTTYPE_E3NF,
224 BS3CG1XCPTTYPE_E4,
225 BS3CG1XCPTTYPE_E4NF,
226 BS3CG1XCPTTYPE_E5,
227 BS3CG1XCPTTYPE_E5NF,
228 BS3CG1XCPTTYPE_E6,
229 BS3CG1XCPTTYPE_E6NF,
230 BS3CG1XCPTTYPE_E7NF,
231 BS3CG1XCPTTYPE_E9,
232 BS3CG1XCPTTYPE_E9NF,
233 BS3CG1XCPTTYPE_E10,
234 BS3CG1XCPTTYPE_E11,
235 BS3CG1XCPTTYPE_E12,
236 BS3CG1XCPTTYPE_E12NF,
237 BS3CG1XCPTTYPE_END
238} BS3CG1XCPTTYPE;
239AssertCompile(BS3CG1XCPTTYPE_END <= 32);
240
241
242/**
243 * Generated instruction info.
244 */
245typedef struct BS3CG1INSTR
246{
247 /** The opcode size. */
248 uint32_t cbOpcodes : 2;
249 /** The number of operands. */
250 uint32_t cOperands : 2;
251 /** The length of the mnemonic. */
252 uint32_t cchMnemonic : 4;
253 /** Whether to advance the mnemonic array pointer. */
254 uint32_t fAdvanceMnemonic : 1;
255 /** Offset into g_abBs3Cg1Tests of the first test. */
256 uint32_t offTests : 23;
257 /** BS3CG1ENC values. */
258 uint32_t enmEncoding : 10;
259 /** BS3CG1PFXKIND values. */
260 uint32_t enmPrefixKind : 4;
261 /** CPU test / CPU ID bit test (BS3CG1CPU). */
262 uint32_t enmCpuTest : 6;
263 /** Exception type (BS3CG1XCPTTYPE) */
264 uint32_t enmXcptType : 5;
265 /** Currently unused bits. */
266 uint32_t uUnused : 6;
267 /** BS3CG1INSTR_F_XXX. */
268 uint32_t fFlags;
269} BS3CG1INSTR;
270AssertCompileSize(BS3CG1INSTR, 12);
271/** Pointer to a const instruction. */
272typedef BS3CG1INSTR const BS3_FAR *PCBS3CG1INSTR;
273
274
275/** @name BS3CG1INSTR_F_XXX
276 * @{ */
277/** Defaults to SS rather than DS. */
278#define BS3CG1INSTR_F_DEF_SS UINT32_C(0x00000001)
279/** Invalid instruction in 64-bit mode. */
280#define BS3CG1INSTR_F_INVALID_64BIT UINT32_C(0x00000002)
281/** Unused instruction. */
282#define BS3CG1INSTR_F_UNUSED UINT32_C(0x00000004)
283/** Invalid instruction. */
284#define BS3CG1INSTR_F_INVALID UINT32_C(0x00000008)
285/** Only intel does full ModR/M(, ++) decoding for invalid instruction.
286 * Always used with BS3CG1INSTR_F_INVALID or BS3CG1INSTR_F_UNUSED. */
287#define BS3CG1INSTR_F_INTEL_DECODES_INVALID UINT32_C(0x00000010)
288/** @} */
289
290
291/**
292 * Test header.
293 */
294typedef struct BS3CG1TESTHDR
295{
296 /** The size of the selector program in bytes.
297 * This is also the offset of the input context modification program. */
298 uint32_t cbSelector : 8;
299 /** The size of the input context modification program in bytes.
300 * This immediately follows the selector program. */
301 uint32_t cbInput : 12;
302 /** The size of the output context modification program in bytes.
303 * This immediately follows the input context modification program. The
304 * program takes the result of the input program as starting point. */
305 uint32_t cbOutput : 11;
306 /** Indicates whether this is the last test or not. */
307 uint32_t fLast : 1;
308} BS3CG1TESTHDR;
309AssertCompileSize(BS3CG1TESTHDR, 4);
310/** Pointer to a const test header. */
311typedef BS3CG1TESTHDR const BS3_FAR *PCBS3CG1TESTHDR;
312
313/** @name Opcode format for the BS3CG1 context modifier.
314 *
315 * Used by both the input and output context programs.
316 *
317 * The most common operations are encoded as a single byte opcode followed by
318 * one or more immediate bytes with data.
319 *
320 * @{ */
321#define BS3CG1_CTXOP_SIZE_MASK UINT8_C(0x07)
322#define BS3CG1_CTXOP_1_BYTE UINT8_C(0x00)
323#define BS3CG1_CTXOP_2_BYTES UINT8_C(0x01)
324#define BS3CG1_CTXOP_4_BYTES UINT8_C(0x02)
325#define BS3CG1_CTXOP_8_BYTES UINT8_C(0x03)
326#define BS3CG1_CTXOP_16_BYTES UINT8_C(0x04)
327#define BS3CG1_CTXOP_32_BYTES UINT8_C(0x05)
328#define BS3CG1_CTXOP_12_BYTES UINT8_C(0x06)
329#define BS3CG1_CTXOP_SIZE_ESC UINT8_C(0x07) /**< Separate byte encoding the value size following any destination escape byte. */
330
331#define BS3CG1_CTXOP_DST_MASK UINT8_C(0x18)
332#define BS3CG1_CTXOP_OP1 UINT8_C(0x00)
333#define BS3CG1_CTXOP_OP2 UINT8_C(0x08)
334#define BS3CG1_CTXOP_EFL UINT8_C(0x10)
335#define BS3CG1_CTXOP_DST_ESC UINT8_C(0x18) /**< Separate byte giving the destination follows immediately. */
336
337#define BS3CG1_CTXOP_SIGN_EXT UINT8_C(0x20) /**< Whether to sign-extend (set) the immediate value. */
338
339#define BS3CG1_CTXOP_OPERATOR_MASK UINT8_C(0xc0)
340#define BS3CG1_CTXOP_ASSIGN UINT8_C(0x00) /**< Simple assignment operator (=) */
341#define BS3CG1_CTXOP_OR UINT8_C(0x40) /**< OR assignment operator (|=). */
342#define BS3CG1_CTXOP_AND UINT8_C(0x80) /**< AND assignment operator (&=). */
343#define BS3CG1_CTXOP_AND_INV UINT8_C(0xc0) /**< AND assignment operator of the inverted value (&~=). */
344/** @} */
345
346/**
347 * Escaped destination values
348 *
349 * These are just uppercased versions of TestInOut.kdFields, where dots are
350 * replaced by underscores.
351 */
352typedef enum BS3CG1DST
353{
354 BS3CG1DST_INVALID = 0,
355 /* Operands. */
356 BS3CG1DST_OP1,
357 BS3CG1DST_OP2,
358 BS3CG1DST_OP3,
359 BS3CG1DST_OP4,
360 /* Flags. */
361 BS3CG1DST_EFL,
362 BS3CG1DST_EFL_UNDEF, /**< Special field only valid in output context modifiers: EFLAGS |= Value & Ouput.EFLAGS; */
363 /* 8-bit GPRs. */
364 BS3CG1DST_AL,
365 BS3CG1DST_CL,
366 BS3CG1DST_DL,
367 BS3CG1DST_BL,
368 BS3CG1DST_AH,
369 BS3CG1DST_CH,
370 BS3CG1DST_DH,
371 BS3CG1DST_BH,
372 BS3CG1DST_SPL,
373 BS3CG1DST_BPL,
374 BS3CG1DST_SIL,
375 BS3CG1DST_DIL,
376 BS3CG1DST_R8L,
377 BS3CG1DST_R9L,
378 BS3CG1DST_R10L,
379 BS3CG1DST_R11L,
380 BS3CG1DST_R12L,
381 BS3CG1DST_R13L,
382 BS3CG1DST_R14L,
383 BS3CG1DST_R15L,
384 /* 16-bit GPRs. */
385 BS3CG1DST_AX,
386 BS3CG1DST_CX,
387 BS3CG1DST_DX,
388 BS3CG1DST_BX,
389 BS3CG1DST_SP,
390 BS3CG1DST_BP,
391 BS3CG1DST_SI,
392 BS3CG1DST_DI,
393 BS3CG1DST_R8W,
394 BS3CG1DST_R9W,
395 BS3CG1DST_R10W,
396 BS3CG1DST_R11W,
397 BS3CG1DST_R12W,
398 BS3CG1DST_R13W,
399 BS3CG1DST_R14W,
400 BS3CG1DST_R15W,
401 /* 32-bit GPRs. */
402 BS3CG1DST_EAX,
403 BS3CG1DST_ECX,
404 BS3CG1DST_EDX,
405 BS3CG1DST_EBX,
406 BS3CG1DST_ESP,
407 BS3CG1DST_EBP,
408 BS3CG1DST_ESI,
409 BS3CG1DST_EDI,
410 BS3CG1DST_R8D,
411 BS3CG1DST_R9D,
412 BS3CG1DST_R10D,
413 BS3CG1DST_R11D,
414 BS3CG1DST_R12D,
415 BS3CG1DST_R13D,
416 BS3CG1DST_R14D,
417 BS3CG1DST_R15D,
418 /* 64-bit GPRs. */
419 BS3CG1DST_RAX,
420 BS3CG1DST_RCX,
421 BS3CG1DST_RDX,
422 BS3CG1DST_RBX,
423 BS3CG1DST_RSP,
424 BS3CG1DST_RBP,
425 BS3CG1DST_RSI,
426 BS3CG1DST_RDI,
427 BS3CG1DST_R8,
428 BS3CG1DST_R9,
429 BS3CG1DST_R10,
430 BS3CG1DST_R11,
431 BS3CG1DST_R12,
432 BS3CG1DST_R13,
433 BS3CG1DST_R14,
434 BS3CG1DST_R15,
435 /* 16-bit, 32-bit or 64-bit registers according to operand size. */
436 BS3CG1DST_OZ_RAX,
437 BS3CG1DST_OZ_RCX,
438 BS3CG1DST_OZ_RDX,
439 BS3CG1DST_OZ_RBX,
440 BS3CG1DST_OZ_RSP,
441 BS3CG1DST_OZ_RBP,
442 BS3CG1DST_OZ_RSI,
443 BS3CG1DST_OZ_RDI,
444 BS3CG1DST_OZ_R8,
445 BS3CG1DST_OZ_R9,
446 BS3CG1DST_OZ_R10,
447 BS3CG1DST_OZ_R11,
448 BS3CG1DST_OZ_R12,
449 BS3CG1DST_OZ_R13,
450 BS3CG1DST_OZ_R14,
451 BS3CG1DST_OZ_R15,
452
453 /* Control registers.*/
454 BS3CG1DST_CR0,
455 BS3CG1DST_CR4,
456 BS3CG1DST_XCR0,
457
458 /* FPU registers. */
459 BS3CG1DST_FPU_FIRST,
460 BS3CG1DST_FCW = BS3CG1DST_FPU_FIRST,
461 BS3CG1DST_FSW,
462 BS3CG1DST_FTW,
463 BS3CG1DST_FOP,
464 BS3CG1DST_FPUIP,
465 BS3CG1DST_FPUCS,
466 BS3CG1DST_FPUDP,
467 BS3CG1DST_FPUDS,
468 BS3CG1DST_MXCSR,
469 BS3CG1DST_ST0,
470 BS3CG1DST_ST1,
471 BS3CG1DST_ST2,
472 BS3CG1DST_ST3,
473 BS3CG1DST_ST4,
474 BS3CG1DST_ST5,
475 BS3CG1DST_ST6,
476 BS3CG1DST_ST7,
477 /* MMX registers. */
478 BS3CG1DST_MM0,
479 BS3CG1DST_MM1,
480 BS3CG1DST_MM2,
481 BS3CG1DST_MM3,
482 BS3CG1DST_MM4,
483 BS3CG1DST_MM5,
484 BS3CG1DST_MM6,
485 BS3CG1DST_MM7,
486 /* SSE registers. */
487 BS3CG1DST_XMM0,
488 BS3CG1DST_XMM1,
489 BS3CG1DST_XMM2,
490 BS3CG1DST_XMM3,
491 BS3CG1DST_XMM4,
492 BS3CG1DST_XMM5,
493 BS3CG1DST_XMM6,
494 BS3CG1DST_XMM7,
495 BS3CG1DST_XMM8,
496 BS3CG1DST_XMM9,
497 BS3CG1DST_XMM10,
498 BS3CG1DST_XMM11,
499 BS3CG1DST_XMM12,
500 BS3CG1DST_XMM13,
501 BS3CG1DST_XMM14,
502 BS3CG1DST_XMM15,
503 BS3CG1DST_XMM0_LO,
504 BS3CG1DST_XMM1_LO,
505 BS3CG1DST_XMM2_LO,
506 BS3CG1DST_XMM3_LO,
507 BS3CG1DST_XMM4_LO,
508 BS3CG1DST_XMM5_LO,
509 BS3CG1DST_XMM6_LO,
510 BS3CG1DST_XMM7_LO,
511 BS3CG1DST_XMM8_LO,
512 BS3CG1DST_XMM9_LO,
513 BS3CG1DST_XMM10_LO,
514 BS3CG1DST_XMM11_LO,
515 BS3CG1DST_XMM12_LO,
516 BS3CG1DST_XMM13_LO,
517 BS3CG1DST_XMM14_LO,
518 BS3CG1DST_XMM15_LO,
519 BS3CG1DST_XMM0_HI,
520 BS3CG1DST_XMM1_HI,
521 BS3CG1DST_XMM2_HI,
522 BS3CG1DST_XMM3_HI,
523 BS3CG1DST_XMM4_HI,
524 BS3CG1DST_XMM5_HI,
525 BS3CG1DST_XMM6_HI,
526 BS3CG1DST_XMM7_HI,
527 BS3CG1DST_XMM8_HI,
528 BS3CG1DST_XMM9_HI,
529 BS3CG1DST_XMM10_HI,
530 BS3CG1DST_XMM11_HI,
531 BS3CG1DST_XMM12_HI,
532 BS3CG1DST_XMM13_HI,
533 BS3CG1DST_XMM14_HI,
534 BS3CG1DST_XMM15_HI,
535 BS3CG1DST_XMM0_LO_ZX,
536 BS3CG1DST_XMM1_LO_ZX,
537 BS3CG1DST_XMM2_LO_ZX,
538 BS3CG1DST_XMM3_LO_ZX,
539 BS3CG1DST_XMM4_LO_ZX,
540 BS3CG1DST_XMM5_LO_ZX,
541 BS3CG1DST_XMM6_LO_ZX,
542 BS3CG1DST_XMM7_LO_ZX,
543 BS3CG1DST_XMM8_LO_ZX,
544 BS3CG1DST_XMM9_LO_ZX,
545 BS3CG1DST_XMM10_LO_ZX,
546 BS3CG1DST_XMM11_LO_ZX,
547 BS3CG1DST_XMM12_LO_ZX,
548 BS3CG1DST_XMM13_LO_ZX,
549 BS3CG1DST_XMM14_LO_ZX,
550 BS3CG1DST_XMM15_LO_ZX,
551 BS3CG1DST_XMM0_DW0,
552 BS3CG1DST_XMM1_DW0,
553 BS3CG1DST_XMM2_DW0,
554 BS3CG1DST_XMM3_DW0,
555 BS3CG1DST_XMM4_DW0,
556 BS3CG1DST_XMM5_DW0,
557 BS3CG1DST_XMM6_DW0,
558 BS3CG1DST_XMM7_DW0,
559 BS3CG1DST_XMM8_DW0,
560 BS3CG1DST_XMM9_DW0,
561 BS3CG1DST_XMM10_DW0,
562 BS3CG1DST_XMM11_DW0,
563 BS3CG1DST_XMM12_DW0,
564 BS3CG1DST_XMM13_DW0,
565 BS3CG1DST_XMM14_DW0,
566 BS3CG1DST_XMM15_DW0,
567 BS3CG1DST_XMM0_DW0_ZX,
568 BS3CG1DST_XMM1_DW0_ZX,
569 BS3CG1DST_XMM2_DW0_ZX,
570 BS3CG1DST_XMM3_DW0_ZX,
571 BS3CG1DST_XMM4_DW0_ZX,
572 BS3CG1DST_XMM5_DW0_ZX,
573 BS3CG1DST_XMM6_DW0_ZX,
574 BS3CG1DST_XMM7_DW0_ZX,
575 BS3CG1DST_XMM8_DW0_ZX,
576 BS3CG1DST_XMM9_DW0_ZX,
577 BS3CG1DST_XMM10_DW0_ZX,
578 BS3CG1DST_XMM11_DW0_ZX,
579 BS3CG1DST_XMM12_DW0_ZX,
580 BS3CG1DST_XMM13_DW0_ZX,
581 BS3CG1DST_XMM14_DW0_ZX,
582 BS3CG1DST_XMM15_DW0_ZX,
583 /* AVX registers. */
584 BS3CG1DST_YMM0,
585 BS3CG1DST_YMM1,
586 BS3CG1DST_YMM2,
587 BS3CG1DST_YMM3,
588 BS3CG1DST_YMM4,
589 BS3CG1DST_YMM5,
590 BS3CG1DST_YMM6,
591 BS3CG1DST_YMM7,
592 BS3CG1DST_YMM8,
593 BS3CG1DST_YMM9,
594 BS3CG1DST_YMM10,
595 BS3CG1DST_YMM11,
596 BS3CG1DST_YMM12,
597 BS3CG1DST_YMM13,
598 BS3CG1DST_YMM14,
599 BS3CG1DST_YMM15,
600
601 /* Special fields: */
602 BS3CG1DST_SPECIAL_START,
603 BS3CG1DST_VALUE_XCPT = BS3CG1DST_SPECIAL_START, /**< Expected exception based on input or result. */
604
605 BS3CG1DST_END
606} BS3CG1DST;
607AssertCompile(BS3CG1DST_END <= 256);
608
609/** @name Selector opcode definitions.
610 *
611 * Selector programs are very simple, they are zero or more predicate tests
612 * that are ANDed together. If a predicate test fails, the test is skipped.
613 *
614 * One instruction is encoded as byte, where the first bit indicates what kind
615 * of test and the 7 remaining bits indicates which predicate to check.
616 *
617 * @{ */
618#define BS3CG1SEL_OP_KIND_MASK UINT8_C(0x01) /**< The operator part (put in lower bit to reduce switch value range). */
619#define BS3CG1SEL_OP_IS_TRUE UINT8_C(0x00) /**< Check that the predicate is true. */
620#define BS3CG1SEL_OP_IS_FALSE UINT8_C(0x01) /**< Check that the predicate is false. */
621#define BS3CG1SEL_OP_PRED_SHIFT 1 /**< Shift factor for getting/putting a BS3CG1PRED value into/from a byte. */
622/** @} */
623
624/**
625 * Test selector predicates (values are shifted by BS3CG1SEL_OP_PRED_SHIFT).
626 */
627typedef enum BS3CG1PRED
628{
629 BS3CG1PRED_INVALID = 0,
630
631 /* Operand size. */
632 BS3CG1PRED_SIZE_O16,
633 BS3CG1PRED_SIZE_O32,
634 BS3CG1PRED_SIZE_O64,
635 /* Execution ring. */
636 BS3CG1PRED_RING_0,
637 BS3CG1PRED_RING_1,
638 BS3CG1PRED_RING_2,
639 BS3CG1PRED_RING_3,
640 BS3CG1PRED_RING_0_THRU_2,
641 BS3CG1PRED_RING_1_THRU_3,
642 /* Basic code mode. */
643 BS3CG1PRED_CODE_64BIT,
644 BS3CG1PRED_CODE_32BIT,
645 BS3CG1PRED_CODE_16BIT,
646 /* CPU modes. */
647 BS3CG1PRED_MODE_REAL,
648 BS3CG1PRED_MODE_PROT,
649 BS3CG1PRED_MODE_LONG,
650 BS3CG1PRED_MODE_V86,
651 BS3CG1PRED_MODE_SMM,
652 BS3CG1PRED_MODE_VMX,
653 BS3CG1PRED_MODE_SVM,
654 /* Paging on/off */
655 BS3CG1PRED_PAGING_ON,
656 BS3CG1PRED_PAGING_OFF,
657 /* CPU Vendors. */
658 BS3CG1PRED_VENDOR_AMD,
659 BS3CG1PRED_VENDOR_INTEL,
660 BS3CG1PRED_VENDOR_VIA,
661
662 BS3CG1PRED_END
663} BS3CG1PRED;
664
665
666/** The test instructions (generated). */
667extern const BS3CG1INSTR BS3_FAR_DATA g_aBs3Cg1Instructions[];
668/** The number of test instructions (generated). */
669extern const uint16_t BS3_FAR_DATA g_cBs3Cg1Instructions;
670/** The mnemonics (generated).
671 * Variable length sequence of mnemonics that runs in parallel to
672 * g_aBs3Cg1Instructions. */
673extern const char BS3_FAR_DATA g_achBs3Cg1Mnemonics[];
674/** The opcodes (generated).
675 * Variable length sequence of opcode bytes that runs in parallel to
676 * g_aBs3Cg1Instructions, advancing by BS3CG1INSTR::cbOpcodes each time. */
677extern const uint8_t BS3_FAR_DATA g_abBs3Cg1Opcodes[];
678/** The operands (generated).
679 * Variable length sequence of opcode values (BS3CG1OP) that runs in
680 * parallel to g_aBs3Cg1Instructions, advancing by BS3CG1INSTR::cOperands. */
681extern const uint8_t BS3_FAR_DATA g_abBs3Cg1Operands[];
682/** The test data that BS3CG1INSTR.
683 * In order to simplify generating these, we use a byte array. */
684extern const uint8_t BS3_FAR_DATA g_abBs3Cg1Tests[];
685
686
687#endif
688
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