xref: /illumos-gate/usr/src/common/dis/i386/dis_tables.c (revision 97a9db610324e7db4393415018e0e737485a94cd)
1 /*
2  *
3  * CDDL HEADER START
4  *
5  * The contents of this file are subject to the terms of the
6  * Common Development and Distribution License (the "License").
7  * You may not use this file except in compliance with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved.
24  * Copyright (c) 2012, Joyent, Inc. All rights reserved.
25  */
26 
27 /*
28  * Copyright (c) 2010, Intel Corporation.
29  * All rights reserved.
30  */
31 
32 /*	Copyright (c) 1988 AT&T	*/
33 /*	  All Rights Reserved  	*/
34 
35 #include	"dis_tables.h"
36 
37 /* BEGIN CSTYLED */
38 
39 /*
40  * Disassembly begins in dis_distable, which is equivalent to the One-byte
41  * Opcode Map in the Intel IA32 ISA Reference (page A-6 in my copy).  The
42  * decoding loops then traverse out through the other tables as necessary to
43  * decode a given instruction.
44  *
45  * The behavior of this file can be controlled by one of the following flags:
46  *
47  * 	DIS_TEXT	Include text for disassembly
48  * 	DIS_MEM		Include memory-size calculations
49  *
50  * Either or both of these can be defined.
51  *
52  * This file is not, and will never be, cstyled.  If anything, the tables should
53  * be taken out another tab stop or two so nothing overlaps.
54  */
55 
56 /*
57  * These functions must be provided for the consumer to do disassembly.
58  */
59 #ifdef DIS_TEXT
60 extern char *strncpy(char *, const char *, size_t);
61 extern size_t strlen(const char *);
62 extern int strcmp(const char *, const char *);
63 extern int strncmp(const char *, const char *, size_t);
64 extern size_t strlcat(char *, const char *, size_t);
65 #endif
66 
67 
68 #define		TERM 	0	/* used to indicate that the 'indirect' */
69 				/* field terminates - no pointer.	*/
70 
71 /* Used to decode instructions. */
72 typedef struct	instable {
73 	struct instable	*it_indirect;	/* for decode op codes */
74 	uchar_t		it_adrmode;
75 #ifdef DIS_TEXT
76 	char		it_name[NCPS];
77 	uint_t		it_suffix:1;		/* mnem + "w", "l", or "d" */
78 #endif
79 #ifdef DIS_MEM
80 	uint_t		it_size:16;
81 #endif
82 	uint_t		it_invalid64:1;		/* opcode invalid in amd64 */
83 	uint_t		it_always64:1;		/* 64 bit when in 64 bit mode */
84 	uint_t		it_invalid32:1;		/* invalid in IA32 */
85 	uint_t		it_stackop:1;		/* push/pop stack operation */
86 } instable_t;
87 
88 /*
89  * Instruction formats.
90  */
91 enum {
92 	UNKNOWN,
93 	MRw,
94 	IMlw,
95 	IMw,
96 	IR,
97 	OA,
98 	AO,
99 	MS,
100 	SM,
101 	Mv,
102 	Mw,
103 	M,		/* register or memory */
104 	MG9,		/* register or memory in group 9 (prefix optional) */
105 	Mb,		/* register or memory, always byte sized */
106 	MO,		/* memory only (no registers) */
107 	PREF,
108 	SWAPGS_RDTSCP,
109 	MONITOR_MWAIT,
110 	R,
111 	RA,
112 	SEG,
113 	MR,
114 	RM,
115 	RM_66r,		/* RM, but with a required 0x66 prefix */
116 	IA,
117 	MA,
118 	SD,
119 	AD,
120 	SA,
121 	D,
122 	INM,
123 	SO,
124 	BD,
125 	I,
126 	P,
127 	V,
128 	DSHIFT,		/* for double shift that has an 8-bit immediate */
129 	U,
130 	OVERRIDE,
131 	NORM,		/* instructions w/o ModR/M byte, no memory access */
132 	IMPLMEM,	/* instructions w/o ModR/M byte, implicit mem access */
133 	O,		/* for call	*/
134 	JTAB,		/* jump table 	*/
135 	IMUL,		/* for 186 iimul instr  */
136 	CBW,		/* so data16 can be evaluated for cbw and variants */
137 	MvI,		/* for 186 logicals */
138 	ENTER,		/* for 186 enter instr  */
139 	RMw,		/* for 286 arpl instr */
140 	Ib,		/* for push immediate byte */
141 	F,		/* for 287 instructions */
142 	FF,		/* for 287 instructions */
143 	FFC,		/* for 287 instructions */
144 	DM,		/* 16-bit data */
145 	AM,		/* 16-bit addr */
146 	LSEG,		/* for 3-bit seg reg encoding */
147 	MIb,		/* for 386 logicals */
148 	SREG,		/* for 386 special registers */
149 	PREFIX,		/* a REP instruction prefix */
150 	LOCK,		/* a LOCK instruction prefix */
151 	INT3,		/* The int 3 instruction, which has a fake operand */
152 	INTx,		/* The normal int instruction, with explicit int num */
153 	DSHIFTcl,	/* for double shift that implicitly uses %cl */
154 	CWD,		/* so data16 can be evaluated for cwd and variants */
155 	RET,		/* single immediate 16-bit operand */
156 	MOVZ,		/* for movs and movz, with different size operands */
157 	CRC32,		/* for crc32, with different size operands */
158 	XADDB,		/* for xaddb */
159 	MOVSXZ,		/* AMD64 mov sign extend 32 to 64 bit instruction */
160 	MOVBE,		/* movbe instruction */
161 
162 /*
163  * MMX/SIMD addressing modes.
164  */
165 
166 	MMO,		/* Prefixable MMX/SIMD-Int	mm/mem	-> mm */
167 	MMOIMPL,	/* Prefixable MMX/SIMD-Int	mm	-> mm (mem) */
168 	MMO3P,		/* Prefixable MMX/SIMD-Int	mm	-> r32,imm8 */
169 	MMOM3,		/* Prefixable MMX/SIMD-Int	mm	-> r32 	*/
170 	MMOS,		/* Prefixable MMX/SIMD-Int	mm	-> mm/mem */
171 	MMOMS,		/* Prefixable MMX/SIMD-Int	mm	-> mem */
172 	MMOPM,		/* MMX/SIMD-Int			mm/mem	-> mm,imm8 */
173 	MMOPM_66o,	/* MMX/SIMD-Int 0x66 optional	mm/mem	-> mm,imm8 */
174 	MMOPRM,		/* Prefixable MMX/SIMD-Int	r32/mem	-> mm,imm8 */
175 	MMOSH,		/* Prefixable MMX		mm,imm8	*/
176 	MM,		/* MMX/SIMD-Int			mm/mem	-> mm	*/
177 	MMS,		/* MMX/SIMD-Int			mm	-> mm/mem */
178 	MMSH,		/* MMX				mm,imm8 */
179 	XMMO,		/* Prefixable SIMD		xmm/mem	-> xmm */
180 	XMMOS,		/* Prefixable SIMD		xmm	-> xmm/mem */
181 	XMMOPM,		/* Prefixable SIMD		xmm/mem	w/to xmm,imm8 */
182 	XMMOMX,		/* Prefixable SIMD		mm/mem	-> xmm */
183 	XMMOX3,		/* Prefixable SIMD		xmm	-> r32 */
184 	XMMOXMM,	/* Prefixable SIMD		xmm/mem	-> mm	*/
185 	XMMOM,		/* Prefixable SIMD		xmm	-> mem */
186 	XMMOMS,		/* Prefixable SIMD		mem	-> xmm */
187 	XMM,		/* SIMD 			xmm/mem	-> xmm */
188 	XMM_66r,	/* SIMD 0x66 prefix required	xmm/mem	-> xmm */
189 	XMM_66o,	/* SIMD 0x66 prefix optional 	xmm/mem	-> xmm */
190 	XMMXIMPL,	/* SIMD				xmm	-> xmm (mem) */
191 	XMM3P,		/* SIMD				xmm	-> r32,imm8 */
192 	XMM3PM_66r,	/* SIMD 0x66 prefix required	xmm	-> r32/mem,imm8 */
193 	XMMP,		/* SIMD 			xmm/mem w/to xmm,imm8 */
194 	XMMP_66o,	/* SIMD 0x66 prefix optional	xmm/mem w/to xmm,imm8 */
195 	XMMP_66r,	/* SIMD 0x66 prefix required	xmm/mem w/to xmm,imm8 */
196 	XMMPRM,		/* SIMD 			r32/mem -> xmm,imm8 */
197 	XMMPRM_66r,	/* SIMD 0x66 prefix required	r32/mem -> xmm,imm8 */
198 	XMMS,		/* SIMD				xmm	-> xmm/mem */
199 	XMMM,		/* SIMD 			mem	-> xmm */
200 	XMMM_66r,	/* SIMD	0x66 prefix required	mem	-> xmm */
201 	XMMMS,		/* SIMD				xmm	-> mem */
202 	XMM3MX,		/* SIMD 			r32/mem -> xmm */
203 	XMM3MXS,	/* SIMD 			xmm	-> r32/mem */
204 	XMMSH,		/* SIMD 			xmm,imm8 */
205 	XMMXM3,		/* SIMD 			xmm/mem -> r32 */
206 	XMMX3,		/* SIMD 			xmm	-> r32 */
207 	XMMXMM,		/* SIMD 			xmm/mem	-> mm */
208 	XMMMX,		/* SIMD 			mm	-> xmm */
209 	XMMXM,		/* SIMD 			xmm	-> mm */
210         XMMX2I,		/* SIMD				xmm -> xmm, imm, imm */
211         XMM2I,		/* SIMD				xmm, imm, imm */
212 	XMMFENCE,	/* SIMD lfence or mfence */
213 	XMMSFNC,	/* SIMD sfence (none or mem) */
214 	XGETBV_XSETBV,
215 	VEX_NONE,	/* VEX  no operand */
216 	VEX_MO,		/* VEX	mod_rm		               -> implicit reg */
217 	VEX_RMrX,	/* VEX  VEX.vvvv, mod_rm               -> mod_reg */
218 	VEX_RRX,	/* VEX  VEX.vvvv, mod_reg              -> mod_rm */
219 	VEX_RMRX,	/* VEX  VEX.vvvv, mod_rm, imm8[7:4]    -> mod_reg */
220 	VEX_MX,         /* VEX  mod_rm                         -> mod_reg */
221 	VEX_MXI,        /* VEX  mod_rm, imm8                   -> mod_reg */
222 	VEX_XXI,        /* VEX  mod_rm, imm8                   -> VEX.vvvv */
223 	VEX_MR,         /* VEX  mod_rm                         -> mod_reg */
224 	VEX_RRI,        /* VEX  mod_reg, mod_rm                -> implicit(eflags/r32) */
225 	VEX_RX,         /* VEX  mod_reg                        -> mod_rm */
226 	VEX_RR,         /* VEX  mod_rm                         -> mod_reg */
227 	VEX_RRi,        /* VEX  mod_rm, imm8                   -> mod_reg */
228 	VEX_RM,         /* VEX  mod_reg                        -> mod_rm */
229 	VEX_RRM,        /* VEX  VEX.vvvv, mod_reg              -> mod_rm */
230 	VEX_RMX,        /* VEX  VEX.vvvv, mod_rm               -> mod_reg */
231 	VMx,		/* vmcall/vmlaunch/vmresume/vmxoff */
232 	VMxo,		/* VMx instruction with optional prefix */
233 	SVM		/* AMD SVM instructions */
234 };
235 
236 /*
237  * VEX prefixes
238  */
239 #define VEX_2bytes	0xC5	/* the first byte of two-byte form */
240 #define VEX_3bytes	0xC4	/* the first byte of three-byte form */
241 
242 #define	FILL	0x90	/* Fill byte used for alignment (nop)	*/
243 
244 /*
245 ** Register numbers for the i386
246 */
247 #define	EAX_REGNO 0
248 #define	ECX_REGNO 1
249 #define	EDX_REGNO 2
250 #define	EBX_REGNO 3
251 #define	ESP_REGNO 4
252 #define	EBP_REGNO 5
253 #define	ESI_REGNO 6
254 #define	EDI_REGNO 7
255 
256 /*
257  * modes for immediate values
258  */
259 #define	MODE_NONE	0
260 #define	MODE_IPREL	1	/* signed IP relative value */
261 #define	MODE_SIGNED	2	/* sign extended immediate */
262 #define	MODE_IMPLIED	3	/* constant value implied from opcode */
263 #define	MODE_OFFSET	4	/* offset part of an address */
264 #define	MODE_RIPREL	5	/* like IPREL, but from %rip (amd64) */
265 
266 /*
267  * The letters used in these macros are:
268  *   IND - indirect to another to another table
269  *   "T" - means to Terminate indirections (this is the final opcode)
270  *   "S" - means "operand length suffix required"
271  *   "NS" - means "no suffix" which is the operand length suffix of the opcode
272  *   "Z" - means instruction size arg required
273  *   "u" - means the opcode is invalid in IA32 but valid in amd64
274  *   "x" - means the opcode is invalid in amd64, but not IA32
275  *   "y" - means the operand size is always 64 bits in 64 bit mode
276  *   "p" - means push/pop stack operation
277  */
278 
279 #if defined(DIS_TEXT) && defined(DIS_MEM)
280 #define	IND(table)		{(instable_t *)table, 0, "", 0, 0, 0, 0, 0, 0}
281 #define	INDx(table)		{(instable_t *)table, 0, "", 0, 0, 1, 0, 0, 0}
282 #define	TNS(name, amode)	{TERM, amode, name, 0, 0, 0, 0, 0, 0}
283 #define	TNSu(name, amode)	{TERM, amode, name, 0, 0, 0, 0, 1, 0}
284 #define	TNSx(name, amode)	{TERM, amode, name, 0, 0, 1, 0, 0, 0}
285 #define	TNSy(name, amode)	{TERM, amode, name, 0, 0, 0, 1, 0, 0}
286 #define	TNSyp(name, amode)	{TERM, amode, name, 0, 0, 0, 1, 0, 1}
287 #define	TNSZ(name, amode, sz)	{TERM, amode, name, 0, sz, 0, 0, 0, 0}
288 #define	TNSZy(name, amode, sz)	{TERM, amode, name, 0, sz, 0, 1, 0, 0}
289 #define	TS(name, amode)		{TERM, amode, name, 1, 0, 0, 0, 0, 0}
290 #define	TSx(name, amode)	{TERM, amode, name, 1, 0, 1, 0, 0, 0}
291 #define	TSy(name, amode)	{TERM, amode, name, 1, 0, 0, 1, 0, 0}
292 #define	TSp(name, amode)	{TERM, amode, name, 1, 0, 0, 0, 0, 1}
293 #define	TSZ(name, amode, sz)	{TERM, amode, name, 1, sz, 0, 0, 0, 0}
294 #define	TSZx(name, amode, sz)	{TERM, amode, name, 1, sz, 1, 0, 0, 0}
295 #define	TSZy(name, amode, sz)	{TERM, amode, name, 1, sz, 0, 1, 0, 0}
296 #define	INVALID			{TERM, UNKNOWN, "", 0, 0, 0, 0, 0}
297 #elif defined(DIS_TEXT)
298 #define	IND(table)		{(instable_t *)table, 0, "", 0, 0, 0, 0, 0}
299 #define	INDx(table)		{(instable_t *)table, 0, "", 0, 1, 0, 0, 0}
300 #define	TNS(name, amode)	{TERM, amode, name, 0, 0, 0, 0, 0}
301 #define	TNSu(name, amode)	{TERM, amode, name, 0, 0, 0, 1, 0}
302 #define	TNSx(name, amode)	{TERM, amode, name, 0, 1, 0, 0, 0}
303 #define	TNSy(name, amode)	{TERM, amode, name, 0, 0, 1, 0, 0}
304 #define	TNSyp(name, amode)	{TERM, amode, name, 0, 0, 1, 0, 1}
305 #define	TNSZ(name, amode, sz)	{TERM, amode, name, 0, 0, 0, 0, 0}
306 #define	TNSZy(name, amode, sz)	{TERM, amode, name, 0, 0, 1, 0, 0}
307 #define	TS(name, amode)		{TERM, amode, name, 1, 0, 0, 0, 0}
308 #define	TSx(name, amode)	{TERM, amode, name, 1, 1, 0, 0, 0}
309 #define	TSy(name, amode)	{TERM, amode, name, 1, 0, 1, 0, 0}
310 #define	TSp(name, amode)	{TERM, amode, name, 1, 0, 0, 0, 1}
311 #define	TSZ(name, amode, sz)	{TERM, amode, name, 1, 0, 0, 0, 0}
312 #define	TSZx(name, amode, sz)	{TERM, amode, name, 1, 1, 0, 0, 0}
313 #define	TSZy(name, amode, sz)	{TERM, amode, name, 1, 0, 1, 0, 0}
314 #define	INVALID			{TERM, UNKNOWN, "", 0, 0, 0, 0, 0}
315 #elif defined(DIS_MEM)
316 #define	IND(table)		{(instable_t *)table, 0, 0, 0, 0, 0, 0}
317 #define	INDx(table)		{(instable_t *)table, 0, 0, 1, 0, 0, 0}
318 #define	TNS(name, amode)	{TERM, amode,  0, 0, 0, 0, 0}
319 #define	TNSu(name, amode)	{TERM, amode,  0, 0, 0, 1, 0}
320 #define	TNSy(name, amode)	{TERM, amode,  0, 0, 1, 0, 0}
321 #define	TNSyp(name, amode)	{TERM, amode,  0, 0, 1, 0, 1}
322 #define	TNSx(name, amode)	{TERM, amode,  0, 1, 0, 0, 0}
323 #define	TNSZ(name, amode, sz)	{TERM, amode, sz, 0, 0, 0, 0}
324 #define	TNSZy(name, amode, sz)	{TERM, amode, sz, 0, 1, 0, 0}
325 #define	TS(name, amode)		{TERM, amode,  0, 0, 0, 0, 0}
326 #define	TSx(name, amode)	{TERM, amode,  0, 1, 0, 0, 0}
327 #define	TSy(name, amode)	{TERM, amode,  0, 0, 1, 0, 0}
328 #define	TSp(name, amode)	{TERM, amode,  0, 0, 0, 0, 1}
329 #define	TSZ(name, amode, sz)	{TERM, amode, sz, 0, 0, 0, 0}
330 #define	TSZx(name, amode, sz)	{TERM, amode, sz, 1, 0, 0, 0}
331 #define	TSZy(name, amode, sz)	{TERM, amode, sz, 0, 1, 0, 0}
332 #define	INVALID			{TERM, UNKNOWN, 0, 0, 0, 0, 0}
333 #else
334 #define	IND(table)		{(instable_t *)table, 0, 0, 0, 0, 0}
335 #define	INDx(table)		{(instable_t *)table, 0, 1, 0, 0, 0}
336 #define	TNS(name, amode)	{TERM, amode,  0, 0, 0, 0}
337 #define	TNSu(name, amode)	{TERM, amode,  0, 0, 1, 0}
338 #define	TNSy(name, amode)	{TERM, amode,  0, 1, 0, 0}
339 #define	TNSyp(name, amode)	{TERM, amode,  0, 1, 0, 1}
340 #define	TNSx(name, amode)	{TERM, amode,  1, 0, 0, 0}
341 #define	TNSZ(name, amode, sz)	{TERM, amode,  0, 0, 0, 0}
342 #define	TNSZy(name, amode, sz)	{TERM, amode,  0, 1, 0, 0}
343 #define	TS(name, amode)		{TERM, amode,  0, 0, 0, 0}
344 #define	TSx(name, amode)	{TERM, amode,  1, 0, 0, 0}
345 #define	TSy(name, amode)	{TERM, amode,  0, 1, 0, 0}
346 #define	TSp(name, amode)	{TERM, amode,  0, 0, 0, 1}
347 #define	TSZ(name, amode, sz)	{TERM, amode,  0, 0, 0, 0}
348 #define	TSZx(name, amode, sz)	{TERM, amode,  1, 0, 0, 0}
349 #define	TSZy(name, amode, sz)	{TERM, amode,  0, 1, 0, 0}
350 #define	INVALID			{TERM, UNKNOWN, 0, 0, 0, 0}
351 #endif
352 
353 #ifdef DIS_TEXT
354 /*
355  * this decodes the r_m field for mode's 0, 1, 2 in 16 bit mode
356  */
357 const char *const dis_addr16[3][8] = {
358 "(%bx,%si)", "(%bx,%di)", "(%bp,%si)", "(%bp,%di)", "(%si)", "(%di)", "",
359 									"(%bx)",
360 "(%bx,%si)", "(%bx,%di)", "(%bp,%si)", "(%bp,%di)", "(%si)", "(%di", "(%bp)",
361 									"(%bx)",
362 "(%bx,%si)", "(%bx,%di)", "(%bp,%si)", "(%bp,%di)", "(%si)", "(%di)", "(%bp)",
363 									"(%bx)",
364 };
365 
366 
367 /*
368  * This decodes 32 bit addressing mode r_m field for modes 0, 1, 2
369  */
370 const char *const dis_addr32_mode0[16] = {
371   "(%eax)", "(%ecx)", "(%edx)",  "(%ebx)",  "", "",        "(%esi)",  "(%edi)",
372   "(%r8d)", "(%r9d)", "(%r10d)", "(%r11d)", "", "",        "(%r14d)", "(%r15d)"
373 };
374 
375 const char *const dis_addr32_mode12[16] = {
376   "(%eax)", "(%ecx)", "(%edx)",  "(%ebx)",  "", "(%ebp)",  "(%esi)",  "(%edi)",
377   "(%r8d)", "(%r9d)", "(%r10d)", "(%r11d)", "", "(%r13d)", "(%r14d)", "(%r15d)"
378 };
379 
380 /*
381  * This decodes 64 bit addressing mode r_m field for modes 0, 1, 2
382  */
383 const char *const dis_addr64_mode0[16] = {
384  "(%rax)", "(%rcx)", "(%rdx)", "(%rbx)", "",       "(%rip)", "(%rsi)", "(%rdi)",
385  "(%r8)",  "(%r9)",  "(%r10)", "(%r11)", "(%r12)", "(%rip)", "(%r14)", "(%r15)"
386 };
387 const char *const dis_addr64_mode12[16] = {
388  "(%rax)", "(%rcx)", "(%rdx)", "(%rbx)", "",       "(%rbp)", "(%rsi)", "(%rdi)",
389  "(%r8)",  "(%r9)",  "(%r10)", "(%r11)", "(%r12)", "(%r13)", "(%r14)", "(%r15)"
390 };
391 
392 /*
393  * decode for scale from SIB byte
394  */
395 const char *const dis_scale_factor[4] = { ")", ",2)", ",4)", ",8)" };
396 
397 /*
398  * register decoding for normal references to registers (ie. not addressing)
399  */
400 const char *const dis_REG8[16] = {
401 	"%al",  "%cl",  "%dl",   "%bl",   "%ah",   "%ch",   "%dh",   "%bh",
402 	"%r8b", "%r9b", "%r10b", "%r11b", "%r12b", "%r13b", "%r14b", "%r15b"
403 };
404 
405 const char *const dis_REG8_REX[16] = {
406 	"%al",  "%cl",  "%dl",   "%bl",   "%spl",  "%bpl",  "%sil",  "%dil",
407 	"%r8b", "%r9b", "%r10b", "%r11b", "%r12b", "%r13b", "%r14b", "%r15b"
408 };
409 
410 const char *const dis_REG16[16] = {
411 	"%ax",  "%cx",  "%dx",   "%bx",   "%sp",   "%bp",   "%si",   "%di",
412 	"%r8w", "%r9w", "%r10w", "%r11w", "%r12w", "%r13w", "%r14w", "%r15w"
413 };
414 
415 const char *const dis_REG32[16] = {
416 	"%eax", "%ecx", "%edx",  "%ebx",  "%esp",  "%ebp",  "%esi",  "%edi",
417 	"%r8d", "%r9d", "%r10d", "%r11d", "%r12d", "%r13d", "%r14d", "%r15d"
418 };
419 
420 const char *const dis_REG64[16] = {
421 	"%rax", "%rcx", "%rdx",  "%rbx", "%rsp", "%rbp", "%rsi", "%rdi",
422 	"%r8",  "%r9",  "%r10",  "%r11", "%r12", "%r13", "%r14", "%r15"
423 };
424 
425 const char *const dis_DEBUGREG[16] = {
426 	"%db0", "%db1", "%db2",  "%db3",  "%db4",  "%db5",  "%db6",  "%db7",
427 	"%db8", "%db9", "%db10", "%db11", "%db12", "%db13", "%db14", "%db15"
428 };
429 
430 const char *const dis_CONTROLREG[16] = {
431     "%cr0", "%cr1", "%cr2", "%cr3", "%cr4", "%cr5?", "%cr6?", "%cr7?",
432     "%cr8", "%cr9?", "%cr10?", "%cr11?", "%cr12?", "%cr13?", "%cr14?", "%cr15?"
433 };
434 
435 const char *const dis_TESTREG[16] = {
436 	"%tr0?", "%tr1?", "%tr2?", "%tr3", "%tr4", "%tr5", "%tr6", "%tr7",
437 	"%tr0?", "%tr1?", "%tr2?", "%tr3", "%tr4", "%tr5", "%tr6", "%tr7"
438 };
439 
440 const char *const dis_MMREG[16] = {
441 	"%mm0", "%mm1", "%mm2", "%mm3", "%mm4", "%mm5", "%mm6", "%mm7",
442 	"%mm0", "%mm1", "%mm2", "%mm3", "%mm4", "%mm5", "%mm6", "%mm7"
443 };
444 
445 const char *const dis_XMMREG[16] = {
446     "%xmm0", "%xmm1", "%xmm2", "%xmm3", "%xmm4", "%xmm5", "%xmm6", "%xmm7",
447     "%xmm8", "%xmm9", "%xmm10", "%xmm11", "%xmm12", "%xmm13", "%xmm14", "%xmm15"
448 };
449 
450 const char *const dis_YMMREG[16] = {
451     "%ymm0", "%ymm1", "%ymm2", "%ymm3", "%ymm4", "%ymm5", "%ymm6", "%ymm7",
452     "%ymm8", "%ymm9", "%ymm10", "%ymm11", "%ymm12", "%ymm13", "%ymm14", "%ymm15"
453 };
454 
455 const char *const dis_SEGREG[16] = {
456 	"%es", "%cs", "%ss", "%ds", "%fs", "%gs", "<reserved>", "<reserved>",
457 	"%es", "%cs", "%ss", "%ds", "%fs", "%gs", "<reserved>", "<reserved>"
458 };
459 
460 /*
461  * SIMD predicate suffixes
462  */
463 const char *const dis_PREDSUFFIX[8] = {
464 	"eq", "lt", "le", "unord", "neq", "nlt", "nle", "ord"
465 };
466 
467 const char *const dis_AVXvgrp7[3][8] = {
468 	/*0	1	2		3		4		5	6		7*/
469 /*71*/	{"",	"",	"vpsrlw",	"",		"vpsraw",	"",	"vpsllw",	""},
470 /*72*/	{"",	"",	"vpsrld",	"",		"vpsrad",	"",	"vpslld",	""},
471 /*73*/	{"",	"",	"vpsrlq",	"vpsrldq",	"",		"",	"vpsllq",	"vpslldq"}
472 };
473 
474 #endif	/* DIS_TEXT */
475 
476 /*
477  *	"decode table" for 64 bit mode MOVSXD instruction (opcode 0x63)
478  */
479 const instable_t dis_opMOVSLD = TNS("movslq",MOVSXZ);
480 
481 /*
482  *	"decode table" for pause and clflush instructions
483  */
484 const instable_t dis_opPause = TNS("pause", NORM);
485 
486 /*
487  *	Decode table for 0x0F00 opcodes
488  */
489 const instable_t dis_op0F00[8] = {
490 
491 /*  [0]  */	TNS("sldt",M),		TNS("str",M),		TNSy("lldt",M), 	TNSy("ltr",M),
492 /*  [4]  */	TNSZ("verr",M,2),	TNSZ("verw",M,2),	INVALID,		INVALID,
493 };
494 
495 
496 /*
497  *	Decode table for 0x0F01 opcodes
498  */
499 const instable_t dis_op0F01[8] = {
500 
501 /*  [0]  */	TNSZ("sgdt",VMx,6),	TNSZ("sidt",MONITOR_MWAIT,6),	TNSZ("lgdt",XGETBV_XSETBV,6),	TNSZ("lidt",SVM,6),
502 /*  [4]  */	TNSZ("smsw",M,2),	INVALID, 		TNSZ("lmsw",M,2),	TNS("invlpg",SWAPGS_RDTSCP),
503 };
504 
505 /*
506  *	Decode table for 0x0F18 opcodes -- SIMD prefetch
507  */
508 const instable_t dis_op0F18[8] = {
509 
510 /*  [0]  */	TNS("prefetchnta",PREF),TNS("prefetcht0",PREF),	TNS("prefetcht1",PREF),	TNS("prefetcht2",PREF),
511 /*  [4]  */	INVALID,		INVALID,		INVALID,		INVALID,
512 };
513 
514 /*
515  * 	Decode table for 0x0FAE opcodes -- SIMD state save/restore
516  */
517 const instable_t dis_op0FAE[8] = {
518 /*  [0]  */	TNSZ("fxsave",M,512),	TNSZ("fxrstor",M,512),	TNS("ldmxcsr",M),	TNS("stmxcsr",M),
519 /*  [4]  */	TNSZ("xsave",M,512),	TNS("lfence",XMMFENCE), TNS("mfence",XMMFENCE),	TNS("sfence",XMMSFNC),
520 };
521 
522 /*
523  *	Decode table for 0x0FBA opcodes
524  */
525 
526 const instable_t dis_op0FBA[8] = {
527 
528 /*  [0]  */	INVALID,		INVALID,		INVALID,		INVALID,
529 /*  [4]  */	TS("bt",MIb),		TS("bts",MIb),		TS("btr",MIb),		TS("btc",MIb),
530 };
531 
532 /*
533  * 	Decode table for 0x0FC7 opcode (group 9)
534  */
535 
536 const instable_t dis_op0FC7[8] = {
537 
538 /*  [0]  */	INVALID,		TNS("cmpxchg8b",M),	INVALID,		INVALID,
539 /*  [4]  */	INVALID,		INVALID,		TNS("vmptrld",MG9),	TNS("vmptrst",MG9),
540 };
541 
542 /*
543  * 	Decode table for 0x0FC7 opcode (group 9) mode 3
544  */
545 
546 const instable_t dis_op0FC7m3[8] = {
547 
548 /*  [0]  */	INVALID,		INVALID,	INVALID,		INVALID,
549 /*  [4]  */	INVALID,		INVALID,	TNS("rdrand",MG9),	INVALID,
550 };
551 
552 /*
553  * 	Decode table for 0x0FC7 opcode with 0x66 prefix
554  */
555 
556 const instable_t dis_op660FC7[8] = {
557 
558 /*  [0]  */	INVALID,		INVALID,		INVALID,		INVALID,
559 /*  [4]  */	INVALID,		INVALID,		TNS("vmclear",M),	INVALID,
560 };
561 
562 /*
563  * 	Decode table for 0x0FC7 opcode with 0xF3 prefix
564  */
565 
566 const instable_t dis_opF30FC7[8] = {
567 
568 /*  [0]  */	INVALID,		INVALID,		INVALID,		INVALID,
569 /*  [4]  */	INVALID,		INVALID,		TNS("vmxon",M),		INVALID,
570 };
571 
572 /*
573  *	Decode table for 0x0FC8 opcode -- 486 bswap instruction
574  *
575  *bit pattern: 0000 1111 1100 1reg
576  */
577 const instable_t dis_op0FC8[4] = {
578 /*  [0]  */	TNS("bswap",R),		INVALID,		INVALID,		INVALID,
579 };
580 
581 /*
582  *	Decode table for 0x0F71, 0x0F72, and 0x0F73 opcodes -- MMX instructions
583  */
584 const instable_t dis_op0F7123[4][8] = {
585 {
586 /*  [70].0 */	INVALID,		INVALID,		INVALID,		INVALID,
587 /*      .4 */	INVALID,		INVALID,		INVALID,		INVALID,
588 }, {
589 /*  [71].0 */	INVALID,		INVALID,		TNS("psrlw",MMOSH),	INVALID,
590 /*      .4 */	TNS("psraw",MMOSH),	INVALID,		TNS("psllw",MMOSH),	INVALID,
591 }, {
592 /*  [72].0 */	INVALID,		INVALID,		TNS("psrld",MMOSH),	INVALID,
593 /*      .4 */	TNS("psrad",MMOSH),	INVALID,		TNS("pslld",MMOSH),	INVALID,
594 }, {
595 /*  [73].0 */	INVALID,		INVALID,		TNS("psrlq",MMOSH),	TNS("INVALID",MMOSH),
596 /*      .4 */	INVALID,		INVALID, 		TNS("psllq",MMOSH),	TNS("INVALID",MMOSH),
597 } };
598 
599 /*
600  *	Decode table for SIMD extensions to above 0x0F71-0x0F73 opcodes.
601  */
602 const instable_t dis_opSIMD7123[32] = {
603 /* [70].0 */	INVALID,		INVALID,		INVALID,		INVALID,
604 /*     .4 */	INVALID,		INVALID,		INVALID,		INVALID,
605 
606 /* [71].0 */	INVALID,		INVALID,		TNS("psrlw",XMMSH),	INVALID,
607 /*     .4 */	TNS("psraw",XMMSH),	INVALID,		TNS("psllw",XMMSH),	INVALID,
608 
609 /* [72].0 */	INVALID,		INVALID,		TNS("psrld",XMMSH),	INVALID,
610 /*     .4 */	TNS("psrad",XMMSH),	INVALID,		TNS("pslld",XMMSH),	INVALID,
611 
612 /* [73].0 */	INVALID,		INVALID,		TNS("psrlq",XMMSH),	TNS("psrldq",XMMSH),
613 /*     .4 */	INVALID,		INVALID,		TNS("psllq",XMMSH),	TNS("pslldq",XMMSH),
614 };
615 
616 /*
617  *	SIMD instructions have been wedged into the existing IA32 instruction
618  *	set through the use of prefixes.  That is, while 0xf0 0x58 may be
619  *	addps, 0xf3 0xf0 0x58 (literally, repz addps) is a completely different
620  *	instruction - addss.  At present, three prefixes have been coopted in
621  *	this manner - address size (0x66), repnz (0xf2) and repz (0xf3).  The
622  *	following tables are used to provide the prefixed instruction names.
623  *	The arrays are sparse, but they're fast.
624  */
625 
626 /*
627  *	Decode table for SIMD instructions with the address size (0x66) prefix.
628  */
629 const instable_t dis_opSIMDdata16[256] = {
630 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
631 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
632 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
633 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
634 
635 /*  [10]  */	TNSZ("movupd",XMM,16),	TNSZ("movupd",XMMS,16),	TNSZ("movlpd",XMMM,8),	TNSZ("movlpd",XMMMS,8),
636 /*  [14]  */	TNSZ("unpcklpd",XMM,16),TNSZ("unpckhpd",XMM,16),TNSZ("movhpd",XMMM,8),	TNSZ("movhpd",XMMMS,8),
637 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
638 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
639 
640 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
641 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
642 /*  [28]  */	TNSZ("movapd",XMM,16),	TNSZ("movapd",XMMS,16),	TNSZ("cvtpi2pd",XMMOMX,8),TNSZ("movntpd",XMMOMS,16),
643 /*  [2C]  */	TNSZ("cvttpd2pi",XMMXMM,16),TNSZ("cvtpd2pi",XMMXMM,16),TNSZ("ucomisd",XMM,8),TNSZ("comisd",XMM,8),
644 
645 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
646 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
647 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
648 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
649 
650 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
651 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
652 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
653 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
654 
655 /*  [50]  */	TNS("movmskpd",XMMOX3),	TNSZ("sqrtpd",XMM,16),	INVALID,		INVALID,
656 /*  [54]  */	TNSZ("andpd",XMM,16),	TNSZ("andnpd",XMM,16),	TNSZ("orpd",XMM,16),	TNSZ("xorpd",XMM,16),
657 /*  [58]  */	TNSZ("addpd",XMM,16),	TNSZ("mulpd",XMM,16),	TNSZ("cvtpd2ps",XMM,16),TNSZ("cvtps2dq",XMM,16),
658 /*  [5C]  */	TNSZ("subpd",XMM,16),	TNSZ("minpd",XMM,16),	TNSZ("divpd",XMM,16),	TNSZ("maxpd",XMM,16),
659 
660 /*  [60]  */	TNSZ("punpcklbw",XMM,16),TNSZ("punpcklwd",XMM,16),TNSZ("punpckldq",XMM,16),TNSZ("packsswb",XMM,16),
661 /*  [64]  */	TNSZ("pcmpgtb",XMM,16),	TNSZ("pcmpgtw",XMM,16),	TNSZ("pcmpgtd",XMM,16),	TNSZ("packuswb",XMM,16),
662 /*  [68]  */	TNSZ("punpckhbw",XMM,16),TNSZ("punpckhwd",XMM,16),TNSZ("punpckhdq",XMM,16),TNSZ("packssdw",XMM,16),
663 /*  [6C]  */	TNSZ("punpcklqdq",XMM,16),TNSZ("punpckhqdq",XMM,16),TNSZ("movd",XMM3MX,4),TNSZ("movdqa",XMM,16),
664 
665 /*  [70]  */	TNSZ("pshufd",XMMP,16),	INVALID,		INVALID,		INVALID,
666 /*  [74]  */	TNSZ("pcmpeqb",XMM,16),	TNSZ("pcmpeqw",XMM,16),	TNSZ("pcmpeqd",XMM,16),	INVALID,
667 /*  [78]  */	TNSZ("extrq",XMM2I,16),	TNSZ("extrq",XMM,16), INVALID,		INVALID,
668 /*  [7C]  */	INVALID,		INVALID,		TNSZ("movd",XMM3MXS,4),	TNSZ("movdqa",XMMS,16),
669 
670 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
671 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
672 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
673 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
674 
675 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
676 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
677 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
678 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
679 
680 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
681 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
682 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
683 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
684 
685 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
686 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
687 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
688 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
689 
690 /*  [C0]  */	INVALID,		INVALID,		TNSZ("cmppd",XMMP,16),	INVALID,
691 /*  [C4]  */	TNSZ("pinsrw",XMMPRM,2),TNS("pextrw",XMM3P),	TNSZ("shufpd",XMMP,16),	INVALID,
692 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
693 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
694 
695 /*  [D0]  */	INVALID,		TNSZ("psrlw",XMM,16),	TNSZ("psrld",XMM,16),	TNSZ("psrlq",XMM,16),
696 /*  [D4]  */	TNSZ("paddq",XMM,16),	TNSZ("pmullw",XMM,16),	TNSZ("movq",XMMS,8),	TNS("pmovmskb",XMMX3),
697 /*  [D8]  */	TNSZ("psubusb",XMM,16),	TNSZ("psubusw",XMM,16),	TNSZ("pminub",XMM,16),	TNSZ("pand",XMM,16),
698 /*  [DC]  */	TNSZ("paddusb",XMM,16),	TNSZ("paddusw",XMM,16),	TNSZ("pmaxub",XMM,16),	TNSZ("pandn",XMM,16),
699 
700 /*  [E0]  */	TNSZ("pavgb",XMM,16),	TNSZ("psraw",XMM,16),	TNSZ("psrad",XMM,16),	TNSZ("pavgw",XMM,16),
701 /*  [E4]  */	TNSZ("pmulhuw",XMM,16),	TNSZ("pmulhw",XMM,16),	TNSZ("cvttpd2dq",XMM,16),TNSZ("movntdq",XMMS,16),
702 /*  [E8]  */	TNSZ("psubsb",XMM,16),	TNSZ("psubsw",XMM,16),	TNSZ("pminsw",XMM,16),	TNSZ("por",XMM,16),
703 /*  [EC]  */	TNSZ("paddsb",XMM,16),	TNSZ("paddsw",XMM,16),	TNSZ("pmaxsw",XMM,16),	TNSZ("pxor",XMM,16),
704 
705 /*  [F0]  */	INVALID,		TNSZ("psllw",XMM,16),	TNSZ("pslld",XMM,16),	TNSZ("psllq",XMM,16),
706 /*  [F4]  */	TNSZ("pmuludq",XMM,16),	TNSZ("pmaddwd",XMM,16),	TNSZ("psadbw",XMM,16),	TNSZ("maskmovdqu", XMMXIMPL,16),
707 /*  [F8]  */	TNSZ("psubb",XMM,16),	TNSZ("psubw",XMM,16),	TNSZ("psubd",XMM,16),	TNSZ("psubq",XMM,16),
708 /*  [FC]  */	TNSZ("paddb",XMM,16),	TNSZ("paddw",XMM,16),	TNSZ("paddd",XMM,16),	INVALID,
709 };
710 
711 const instable_t dis_opAVX660F[256] = {
712 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
713 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
714 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
715 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
716 
717 /*  [10]  */	TNSZ("vmovupd",VEX_MX,16),	TNSZ("vmovupd",VEX_RX,16),	TNSZ("vmovlpd",VEX_RMrX,8),	TNSZ("vmovlpd",VEX_RM,8),
718 /*  [14]  */	TNSZ("vunpcklpd",VEX_RMrX,16),TNSZ("vunpckhpd",VEX_RMrX,16),TNSZ("vmovhpd",VEX_RMrX,8),	TNSZ("vmovhpd",VEX_RM,8),
719 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
720 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
721 
722 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
723 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
724 /*  [28]  */	TNSZ("vmovapd",VEX_MX,16),	TNSZ("vmovapd",VEX_RX,16),	INVALID,		TNSZ("vmovntpd",VEX_RM,16),
725 /*  [2C]  */	INVALID,		INVALID,		TNSZ("vucomisd",VEX_MX,8),TNSZ("vcomisd",VEX_MX,8),
726 
727 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
728 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
729 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
730 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
731 
732 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
733 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
734 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
735 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
736 
737 /*  [50]  */	TNS("vmovmskpd",VEX_MR),	TNSZ("vsqrtpd",VEX_MX,16),	INVALID,		INVALID,
738 /*  [54]  */	TNSZ("vandpd",VEX_RMrX,16),	TNSZ("vandnpd",VEX_RMrX,16),	TNSZ("vorpd",VEX_RMrX,16),	TNSZ("vxorpd",VEX_RMrX,16),
739 /*  [58]  */	TNSZ("vaddpd",VEX_RMrX,16),	TNSZ("vmulpd",VEX_RMrX,16),	TNSZ("vcvtpd2ps",VEX_MX,16),TNSZ("vcvtps2dq",VEX_MX,16),
740 /*  [5C]  */	TNSZ("vsubpd",VEX_RMrX,16),	TNSZ("vminpd",VEX_RMrX,16),	TNSZ("vdivpd",VEX_RMrX,16),	TNSZ("vmaxpd",VEX_RMrX,16),
741 
742 /*  [60]  */	TNSZ("vpunpcklbw",VEX_RMrX,16),TNSZ("vpunpcklwd",VEX_RMrX,16),TNSZ("vpunpckldq",VEX_RMrX,16),TNSZ("vpacksswb",VEX_RMrX,16),
743 /*  [64]  */	TNSZ("vpcmpgtb",VEX_RMrX,16),	TNSZ("vpcmpgtw",VEX_RMrX,16),	TNSZ("vpcmpgtd",VEX_RMrX,16),	TNSZ("vpackuswb",VEX_RMrX,16),
744 /*  [68]  */	TNSZ("vpunpckhbw",VEX_RMrX,16),TNSZ("vpunpckhwd",VEX_RMrX,16),TNSZ("vpunpckhdq",VEX_RMrX,16),TNSZ("vpackssdw",VEX_RMrX,16),
745 /*  [6C]  */	TNSZ("vpunpcklqdq",VEX_RMrX,16),TNSZ("vpunpckhqdq",VEX_RMrX,16),TNSZ("vmovd",VEX_MX,4),TNSZ("vmovdqa",VEX_MX,16),
746 
747 /*  [70]  */	TNSZ("vpshufd",VEX_MXI,16),	TNSZ("vgrp71",VEX_XXI,16),	TNSZ("vgrp72",VEX_XXI,16),		TNSZ("vgrp73",VEX_XXI,16),
748 /*  [74]  */	TNSZ("vpcmpeqb",VEX_RMrX,16),	TNSZ("vpcmpeqw",VEX_RMrX,16),	TNSZ("vpcmpeqd",VEX_RMrX,16),	INVALID,
749 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
750 /*  [7C]  */	TNSZ("vhaddpd",VEX_RMrX,16),	TNSZ("vhsubpd",VEX_RMrX,16),	TNSZ("vmovd",VEX_RR,4),	TNSZ("vmovdqa",VEX_RX,16),
751 
752 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
753 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
754 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
755 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
756 
757 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
758 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
759 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
760 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
761 
762 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
763 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
764 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
765 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
766 
767 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
768 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
769 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
770 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
771 
772 /*  [C0]  */	INVALID,		INVALID,		TNSZ("vcmppd",VEX_RMRX,16),	INVALID,
773 /*  [C4]  */	TNSZ("vpinsrw",VEX_RMRX,2),TNS("vpextrw",VEX_MR),	TNSZ("vshufpd",VEX_RMRX,16),	INVALID,
774 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
775 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
776 
777 /*  [D0]  */	TNSZ("vaddsubpd",VEX_RMrX,16),TNSZ("vpsrlw",VEX_RMrX,16),	TNSZ("vpsrld",VEX_RMrX,16),	TNSZ("vpsrlq",VEX_RMrX,16),
778 /*  [D4]  */	TNSZ("vpaddq",VEX_RMrX,16),	TNSZ("vpmullw",VEX_RMrX,16),	TNSZ("vmovq",VEX_RX,8),	TNS("vpmovmskb",VEX_MR),
779 /*  [D8]  */	TNSZ("vpsubusb",VEX_RMrX,16),	TNSZ("vpsubusw",VEX_RMrX,16),	TNSZ("vpminub",VEX_RMrX,16),	TNSZ("vpand",VEX_RMrX,16),
780 /*  [DC]  */	TNSZ("vpaddusb",VEX_RMrX,16),	TNSZ("vpaddusw",VEX_RMrX,16),	TNSZ("vpmaxub",VEX_RMrX,16),	TNSZ("vpandn",VEX_RMrX,16),
781 
782 /*  [E0]  */	TNSZ("vpavgb",VEX_RMrX,16),	TNSZ("vpsraw",VEX_RMrX,16),	TNSZ("vpsrad",VEX_RMrX,16),	TNSZ("vpavgw",VEX_RMrX,16),
783 /*  [E4]  */	TNSZ("vpmulhuw",VEX_RMrX,16),	TNSZ("vpmulhw",VEX_RMrX,16),	TNSZ("vcvttpd2dq",VEX_MX,16),TNSZ("vmovntdq",VEX_RM,16),
784 /*  [E8]  */	TNSZ("vpsubsb",VEX_RMrX,16),	TNSZ("vpsubsw",VEX_RMrX,16),	TNSZ("vpminsw",VEX_RMrX,16),	TNSZ("vpor",VEX_RMrX,16),
785 /*  [EC]  */	TNSZ("vpaddsb",VEX_RMrX,16),	TNSZ("vpaddsw",VEX_RMrX,16),	TNSZ("vpmaxsw",VEX_RMrX,16),	TNSZ("vpxor",VEX_RMrX,16),
786 
787 /*  [F0]  */	INVALID,		TNSZ("vpsllw",VEX_RMrX,16),	TNSZ("vpslld",VEX_RMrX,16),	TNSZ("vpsllq",VEX_RMrX,16),
788 /*  [F4]  */	TNSZ("vpmuludq",VEX_RMrX,16),	TNSZ("vpmaddwd",VEX_RMrX,16),	TNSZ("vpsadbw",VEX_RMrX,16),	TNS("vmaskmovdqu",VEX_MX),
789 /*  [F8]  */	TNSZ("vpsubb",VEX_RMrX,16),	TNSZ("vpsubw",VEX_RMrX,16),	TNSZ("vpsubd",VEX_RMrX,16),	TNSZ("vpsubq",VEX_RMrX,16),
790 /*  [FC]  */	TNSZ("vpaddb",VEX_RMrX,16),	TNSZ("vpaddw",VEX_RMrX,16),	TNSZ("vpaddd",VEX_RMrX,16),	INVALID,
791 };
792 
793 /*
794  *	Decode table for SIMD instructions with the repnz (0xf2) prefix.
795  */
796 const instable_t dis_opSIMDrepnz[256] = {
797 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
798 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
799 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
800 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
801 
802 /*  [10]  */	TNSZ("movsd",XMM,8),	TNSZ("movsd",XMMS,8),	INVALID,		INVALID,
803 /*  [14]  */	INVALID,		INVALID,		INVALID,		INVALID,
804 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
805 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
806 
807 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
808 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
809 /*  [28]  */	INVALID,		INVALID,		TNSZ("cvtsi2sd",XMM3MX,4),TNSZ("movntsd",XMMMS,8),
810 /*  [2C]  */	TNSZ("cvttsd2si",XMMXM3,8),TNSZ("cvtsd2si",XMMXM3,8),INVALID,		INVALID,
811 
812 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
813 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
814 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
815 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
816 
817 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
818 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
819 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
820 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
821 
822 /*  [50]  */	INVALID,		TNSZ("sqrtsd",XMM,8),	INVALID,		INVALID,
823 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
824 /*  [58]  */	TNSZ("addsd",XMM,8),	TNSZ("mulsd",XMM,8),	TNSZ("cvtsd2ss",XMM,8),	INVALID,
825 /*  [5C]  */	TNSZ("subsd",XMM,8),	TNSZ("minsd",XMM,8),	TNSZ("divsd",XMM,8),	TNSZ("maxsd",XMM,8),
826 
827 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
828 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
829 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
830 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
831 
832 /*  [70]  */	TNSZ("pshuflw",XMMP,16),INVALID,		INVALID,		INVALID,
833 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
834 /*  [78]  */	TNSZ("insertq",XMMX2I,16),TNSZ("insertq",XMM,8),INVALID,		INVALID,
835 /*  [7C]  */	INVALID,		INVALID,		INVALID,		INVALID,
836 
837 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
838 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
839 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
840 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
841 
842 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
843 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
844 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
845 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
846 
847 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
848 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
849 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
850 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
851 
852 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
853 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
854 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
855 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
856 
857 /*  [C0]  */	INVALID,		INVALID,		TNSZ("cmpsd",XMMP,8),	INVALID,
858 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
859 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
860 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
861 
862 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
863 /*  [D4]  */	INVALID,		INVALID,		TNS("movdq2q",XMMXM),	INVALID,
864 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
865 /*  [DC]  */	INVALID,		INVALID,		INVALID,		INVALID,
866 
867 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
868 /*  [E4]  */	INVALID,		INVALID,		TNSZ("cvtpd2dq",XMM,16),INVALID,
869 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
870 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
871 
872 /*  [F0]  */	INVALID,		INVALID,		INVALID,		INVALID,
873 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
874 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
875 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
876 };
877 
878 const instable_t dis_opAVXF20F[256] = {
879 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
880 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
881 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
882 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
883 
884 /*  [10]  */	TNSZ("vmovsd",VEX_RMrX,8),	TNSZ("vmovsd",VEX_RRX,8),	TNSZ("vmovddup",VEX_MX,8),	INVALID,
885 /*  [14]  */	INVALID,		INVALID,		INVALID,		INVALID,
886 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
887 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
888 
889 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
890 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
891 /*  [28]  */	INVALID,		INVALID,		TNSZ("vcvtsi2sd",VEX_RMrX,4),INVALID,
892 /*  [2C]  */	TNSZ("vcvttsd2si",VEX_MR,8),TNSZ("vcvtsd2si",VEX_MR,8),INVALID,		INVALID,
893 
894 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
895 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
896 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
897 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
898 
899 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
900 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
901 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
902 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
903 
904 /*  [50]  */	INVALID,		TNSZ("vsqrtsd",VEX_RMrX,8),	INVALID,		INVALID,
905 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
906 /*  [58]  */	TNSZ("vaddsd",VEX_RMrX,8),	TNSZ("vmulsd",VEX_RMrX,8),	TNSZ("vcvtsd2ss",VEX_RMrX,8),	INVALID,
907 /*  [5C]  */	TNSZ("vsubsd",VEX_RMrX,8),	TNSZ("vminsd",VEX_RMrX,8),	TNSZ("vdivsd",VEX_RMrX,8),	TNSZ("vmaxsd",VEX_RMrX,8),
908 
909 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
910 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
911 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
912 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
913 
914 /*  [70]  */	TNSZ("vpshuflw",VEX_MXI,16),INVALID,		INVALID,		INVALID,
915 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
916 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
917 /*  [7C]  */	TNSZ("vhaddps",VEX_RMrX,8),	TNSZ("vhsubps",VEX_RMrX,8),	INVALID,		INVALID,
918 
919 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
920 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
921 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
922 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
923 
924 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
925 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
926 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
927 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
928 
929 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
930 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
931 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
932 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
933 
934 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
935 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
936 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
937 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
938 
939 /*  [C0]  */	INVALID,		INVALID,		TNSZ("vcmpsd",VEX_RMRX,8),	INVALID,
940 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
941 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
942 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
943 
944 /*  [D0]  */	TNSZ("vaddsubps",VEX_RMrX,8),	INVALID,		INVALID,		INVALID,
945 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
946 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
947 /*  [DC]  */	INVALID,		INVALID,		INVALID,		INVALID,
948 
949 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
950 /*  [E4]  */	INVALID,		INVALID,		TNSZ("vcvtpd2dq",VEX_MX,16),INVALID,
951 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
952 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
953 
954 /*  [F0]  */	TNSZ("vlddqu",VEX_MX,16),	INVALID,		INVALID,		INVALID,
955 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
956 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
957 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
958 };
959 
960 /*
961  *	Decode table for SIMD instructions with the repz (0xf3) prefix.
962  */
963 const instable_t dis_opSIMDrepz[256] = {
964 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
965 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
966 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
967 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
968 
969 /*  [10]  */	TNSZ("movss",XMM,4),	TNSZ("movss",XMMS,4),	INVALID,		INVALID,
970 /*  [14]  */	INVALID,		INVALID,		INVALID,		INVALID,
971 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
972 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
973 
974 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
975 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
976 /*  [28]  */	INVALID,		INVALID,		TNSZ("cvtsi2ss",XMM3MX,4),TNSZ("movntss",XMMMS,4),
977 /*  [2C]  */	TNSZ("cvttss2si",XMMXM3,4),TNSZ("cvtss2si",XMMXM3,4),INVALID,		INVALID,
978 
979 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
980 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
981 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
982 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
983 
984 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
985 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
986 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
987 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
988 
989 /*  [50]  */	INVALID,		TNSZ("sqrtss",XMM,4),	TNSZ("rsqrtss",XMM,4),	TNSZ("rcpss",XMM,4),
990 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
991 /*  [58]  */	TNSZ("addss",XMM,4),	TNSZ("mulss",XMM,4),	TNSZ("cvtss2sd",XMM,4),	TNSZ("cvttps2dq",XMM,16),
992 /*  [5C]  */	TNSZ("subss",XMM,4),	TNSZ("minss",XMM,4),	TNSZ("divss",XMM,4),	TNSZ("maxss",XMM,4),
993 
994 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
995 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
996 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
997 /*  [6C]  */	INVALID,		INVALID,		INVALID,		TNSZ("movdqu",XMM,16),
998 
999 /*  [70]  */	TNSZ("pshufhw",XMMP,16),INVALID,		INVALID,		INVALID,
1000 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
1001 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1002 /*  [7C]  */	INVALID,		INVALID,		TNSZ("movq",XMM,8),	TNSZ("movdqu",XMMS,16),
1003 
1004 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
1005 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1006 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1007 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1008 
1009 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1010 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1011 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1012 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1013 
1014 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1015 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1016 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1017 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1018 
1019 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1020 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1021 /*  [B8]  */	TS("popcnt",MRw),	INVALID,		INVALID,		INVALID,
1022 /*  [BC]  */	INVALID,		TS("lzcnt",MRw),	INVALID,		INVALID,
1023 
1024 /*  [C0]  */	INVALID,		INVALID,		TNSZ("cmpss",XMMP,4),	INVALID,
1025 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1026 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1027 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1028 
1029 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1030 /*  [D4]  */	INVALID,		INVALID,		TNS("movq2dq",XMMMX),	INVALID,
1031 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1032 /*  [DC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1033 
1034 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1035 /*  [E4]  */	INVALID,		INVALID,		TNSZ("cvtdq2pd",XMM,8),	INVALID,
1036 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1037 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1038 
1039 /*  [F0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1040 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1041 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1042 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1043 };
1044 
1045 const instable_t dis_opAVXF30F[256] = {
1046 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
1047 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
1048 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
1049 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1050 
1051 /*  [10]  */	TNSZ("vmovss",VEX_RMrX,4),	TNSZ("vmovss",VEX_RRX,4),	TNSZ("vmovsldup",VEX_MX,4),	INVALID,
1052 /*  [14]  */	INVALID,		INVALID,		TNSZ("vmovshdup",VEX_MX,4),	INVALID,
1053 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
1054 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1055 
1056 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
1057 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
1058 /*  [28]  */	INVALID,		INVALID,		TNSZ("vcvtsi2ss",VEX_RMrX,4),INVALID,
1059 /*  [2C]  */	TNSZ("vcvttss2si",VEX_MR,4),TNSZ("vcvtss2si",VEX_MR,4),INVALID,		INVALID,
1060 
1061 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
1062 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
1063 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
1064 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1065 
1066 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
1067 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
1068 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
1069 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1070 
1071 /*  [50]  */	INVALID,		TNSZ("vsqrtss",VEX_RMrX,4),	TNSZ("vrsqrtss",VEX_RMrX,4),	TNSZ("vrcpss",VEX_RMrX,4),
1072 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
1073 /*  [58]  */	TNSZ("vaddss",VEX_RMrX,4),	TNSZ("vmulss",VEX_RMrX,4),	TNSZ("vcvtss2sd",VEX_RMrX,4),	TNSZ("vcvttps2dq",VEX_MX,16),
1074 /*  [5C]  */	TNSZ("vsubss",VEX_RMrX,4),	TNSZ("vminss",VEX_RMrX,4),	TNSZ("vdivss",VEX_RMrX,4),	TNSZ("vmaxss",VEX_RMrX,4),
1075 
1076 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
1077 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
1078 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
1079 /*  [6C]  */	INVALID,		INVALID,		INVALID,		TNSZ("vmovdqu",VEX_MX,16),
1080 
1081 /*  [70]  */	TNSZ("vpshufhw",VEX_MXI,16),INVALID,		INVALID,		INVALID,
1082 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
1083 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1084 /*  [7C]  */	INVALID,		INVALID,		TNSZ("vmovq",VEX_MX,8),	TNSZ("vmovdqu",VEX_RX,16),
1085 
1086 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
1087 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1088 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1089 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1090 
1091 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1092 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1093 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1094 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1095 
1096 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1097 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1098 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1099 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1100 
1101 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1102 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1103 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1104 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1105 
1106 /*  [C0]  */	INVALID,		INVALID,		TNSZ("vcmpss",VEX_RMRX,4),	INVALID,
1107 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1108 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1109 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1110 
1111 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1112 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1113 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1114 /*  [DC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1115 
1116 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1117 /*  [E4]  */	INVALID,		INVALID,		TNSZ("vcvtdq2pd",VEX_MX,8),	INVALID,
1118 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1119 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1120 
1121 /*  [F0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1122 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1123 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1124 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1125 };
1126 /*
1127  * The following two tables are used to encode crc32 and movbe
1128  * since they share the same opcodes.
1129  */
1130 const instable_t dis_op0F38F0[2] = {
1131 /*  [00]  */	TNS("crc32b",CRC32),
1132 		TS("movbe",MOVBE),
1133 };
1134 
1135 const instable_t dis_op0F38F1[2] = {
1136 /*  [00]  */	TS("crc32",CRC32),
1137 		TS("movbe",MOVBE),
1138 };
1139 
1140 const instable_t dis_op0F38[256] = {
1141 /*  [00]  */	TNSZ("pshufb",XMM_66o,16),TNSZ("phaddw",XMM_66o,16),TNSZ("phaddd",XMM_66o,16),TNSZ("phaddsw",XMM_66o,16),
1142 /*  [04]  */	TNSZ("pmaddubsw",XMM_66o,16),TNSZ("phsubw",XMM_66o,16),	TNSZ("phsubd",XMM_66o,16),TNSZ("phsubsw",XMM_66o,16),
1143 /*  [08]  */	TNSZ("psignb",XMM_66o,16),TNSZ("psignw",XMM_66o,16),TNSZ("psignd",XMM_66o,16),TNSZ("pmulhrsw",XMM_66o,16),
1144 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1145 
1146 /*  [10]  */	TNSZ("pblendvb",XMM_66r,16),INVALID,		INVALID,		INVALID,
1147 /*  [14]  */	TNSZ("blendvps",XMM_66r,16),TNSZ("blendvpd",XMM_66r,16),INVALID,	TNSZ("ptest",XMM_66r,16),
1148 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
1149 /*  [1C]  */	TNSZ("pabsb",XMM_66o,16),TNSZ("pabsw",XMM_66o,16),TNSZ("pabsd",XMM_66o,16),INVALID,
1150 
1151 /*  [20]  */	TNSZ("pmovsxbw",XMM_66r,16),TNSZ("pmovsxbd",XMM_66r,16),TNSZ("pmovsxbq",XMM_66r,16),TNSZ("pmovsxwd",XMM_66r,16),
1152 /*  [24]  */	TNSZ("pmovsxwq",XMM_66r,16),TNSZ("pmovsxdq",XMM_66r,16),INVALID,	INVALID,
1153 /*  [28]  */	TNSZ("pmuldq",XMM_66r,16),TNSZ("pcmpeqq",XMM_66r,16),TNSZ("movntdqa",XMMM_66r,16),TNSZ("packusdw",XMM_66r,16),
1154 /*  [2C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1155 
1156 /*  [30]  */	TNSZ("pmovzxbw",XMM_66r,16),TNSZ("pmovzxbd",XMM_66r,16),TNSZ("pmovzxbq",XMM_66r,16),TNSZ("pmovzxwd",XMM_66r,16),
1157 /*  [34]  */	TNSZ("pmovzxwq",XMM_66r,16),TNSZ("pmovzxdq",XMM_66r,16),INVALID,	TNSZ("pcmpgtq",XMM_66r,16),
1158 /*  [38]  */	TNSZ("pminsb",XMM_66r,16),TNSZ("pminsd",XMM_66r,16),TNSZ("pminuw",XMM_66r,16),TNSZ("pminud",XMM_66r,16),
1159 /*  [3C]  */	TNSZ("pmaxsb",XMM_66r,16),TNSZ("pmaxsd",XMM_66r,16),TNSZ("pmaxuw",XMM_66r,16),TNSZ("pmaxud",XMM_66r,16),
1160 
1161 /*  [40]  */	TNSZ("pmulld",XMM_66r,16),TNSZ("phminposuw",XMM_66r,16),INVALID,	INVALID,
1162 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
1163 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
1164 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1165 
1166 /*  [50]  */	INVALID,		INVALID,		INVALID,		INVALID,
1167 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
1168 /*  [58]  */	INVALID,		INVALID,		INVALID,		INVALID,
1169 /*  [5C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1170 
1171 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
1172 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
1173 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
1174 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1175 
1176 /*  [70]  */	INVALID,		INVALID,		INVALID,		INVALID,
1177 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
1178 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1179 /*  [7C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1180 
1181 /*  [80]  */	TNSy("invept", RM_66r),	TNSy("invvpid", RM_66r),INVALID,		INVALID,
1182 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1183 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1184 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1185 
1186 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1187 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1188 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1189 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1190 
1191 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1192 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1193 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1194 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1195 
1196 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1197 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1198 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1199 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1200 
1201 /*  [C0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1202 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1203 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1204 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1205 
1206 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1207 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1208 /*  [D8]  */	INVALID,		INVALID,		INVALID,		TNSZ("aesimc",XMM_66r,16),
1209 /*  [DC]  */	TNSZ("aesenc",XMM_66r,16),TNSZ("aesenclast",XMM_66r,16),TNSZ("aesdec",XMM_66r,16),TNSZ("aesdeclast",XMM_66r,16),
1210 
1211 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1212 /*  [E4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1213 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1214 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1215 /*  [F0]  */	IND(dis_op0F38F0),	IND(dis_op0F38F1),	INVALID,		INVALID,
1216 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1217 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1218 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1219 };
1220 
1221 const instable_t dis_opAVX660F38[256] = {
1222 /*  [00]  */	TNSZ("vpshufb",VEX_RMrX,16),TNSZ("vphaddw",VEX_RMrX,16),TNSZ("vphaddd",VEX_RMrX,16),TNSZ("vphaddsw",VEX_RMrX,16),
1223 /*  [04]  */	TNSZ("vpmaddubsw",VEX_RMrX,16),TNSZ("vphsubw",VEX_RMrX,16),	TNSZ("vphsubd",VEX_RMrX,16),TNSZ("vphsubsw",VEX_RMrX,16),
1224 /*  [08]  */	TNSZ("vpsignb",VEX_RMrX,16),TNSZ("vpsignw",VEX_RMrX,16),TNSZ("vpsignd",VEX_RMrX,16),TNSZ("vpmulhrsw",VEX_RMrX,16),
1225 /*  [0C]  */	TNSZ("vpermilps",VEX_RMrX,8),TNSZ("vpermilpd",VEX_RMrX,16),TNSZ("vtestps",VEX_RRI,8),	TNSZ("vtestpd",VEX_RRI,16),
1226 
1227 /*  [10]  */	INVALID,		INVALID,		INVALID,		TNSZ("vcvtph2ps",VEX_MX,16),
1228 /*  [14]  */	INVALID,		INVALID,		INVALID,		TNSZ("vptest",VEX_RRI,16),
1229 /*  [18]  */	TNSZ("vbroadcastss",VEX_MX,4),TNSZ("vbroadcastsd",VEX_MX,8),TNSZ("vbroadcastf128",VEX_MX,16),INVALID,
1230 /*  [1C]  */	TNSZ("vpabsb",VEX_MX,16),TNSZ("vpabsw",VEX_MX,16),TNSZ("vpabsd",VEX_MX,16),INVALID,
1231 
1232 /*  [20]  */	TNSZ("vpmovsxbw",VEX_MX,16),TNSZ("vpmovsxbd",VEX_MX,16),TNSZ("vpmovsxbq",VEX_MX,16),TNSZ("vpmovsxwd",VEX_MX,16),
1233 /*  [24]  */	TNSZ("vpmovsxwq",VEX_MX,16),TNSZ("vpmovsxdq",VEX_MX,16),INVALID,	INVALID,
1234 /*  [28]  */	TNSZ("vpmuldq",VEX_RMrX,16),TNSZ("vpcmpeqq",VEX_RMrX,16),TNSZ("vmovntdqa",VEX_MX,16),TNSZ("vpackusdw",VEX_RMrX,16),
1235 /*  [2C]  */	TNSZ("vmaskmovps",VEX_RMrX,8),TNSZ("vmaskmovpd",VEX_RMrX,16),TNSZ("vmaskmovps",VEX_RRM,8),TNSZ("vmaskmovpd",VEX_RRM,16),
1236 
1237 /*  [30]  */	TNSZ("vpmovzxbw",VEX_MX,16),TNSZ("vpmovzxbd",VEX_MX,16),TNSZ("vpmovzxbq",VEX_MX,16),TNSZ("vpmovzxwd",VEX_MX,16),
1238 /*  [34]  */	TNSZ("vpmovzxwq",VEX_MX,16),TNSZ("vpmovzxdq",VEX_MX,16),INVALID,	TNSZ("vpcmpgtq",VEX_RMrX,16),
1239 /*  [38]  */	TNSZ("vpminsb",VEX_RMrX,16),TNSZ("vpminsd",VEX_RMrX,16),TNSZ("vpminuw",VEX_RMrX,16),TNSZ("vpminud",VEX_RMrX,16),
1240 /*  [3C]  */	TNSZ("vpmaxsb",VEX_RMrX,16),TNSZ("vpmaxsd",VEX_RMrX,16),TNSZ("vpmaxuw",VEX_RMrX,16),TNSZ("vpmaxud",VEX_RMrX,16),
1241 
1242 /*  [40]  */	TNSZ("vpmulld",VEX_RMrX,16),TNSZ("vphminposuw",VEX_MX,16),INVALID,	INVALID,
1243 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
1244 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
1245 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1246 
1247 /*  [50]  */	INVALID,		INVALID,		INVALID,		INVALID,
1248 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
1249 /*  [58]  */	INVALID,		INVALID,		INVALID,		INVALID,
1250 /*  [5C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1251 
1252 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
1253 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
1254 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
1255 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1256 
1257 /*  [70]  */	INVALID,		INVALID,		INVALID,		INVALID,
1258 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
1259 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1260 /*  [7C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1261 
1262 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
1263 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1264 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1265 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1266 
1267 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1268 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1269 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1270 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1271 
1272 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1273 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1274 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1275 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1276 
1277 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1278 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1279 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1280 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1281 
1282 /*  [C0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1283 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1284 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1285 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1286 
1287 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1288 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1289 /*  [D8]  */	INVALID,		INVALID,		INVALID,		TNSZ("vaesimc",VEX_MX,16),
1290 /*  [DC]  */	TNSZ("vaesenc",VEX_RMrX,16),TNSZ("vaesenclast",VEX_RMrX,16),TNSZ("vaesdec",VEX_RMrX,16),TNSZ("vaesdeclast",VEX_RMrX,16),
1291 
1292 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1293 /*  [E4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1294 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1295 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1296 /*  [F0]  */	IND(dis_op0F38F0),	IND(dis_op0F38F1),	INVALID,		INVALID,
1297 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1298 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1299 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1300 };
1301 
1302 const instable_t dis_op0F3A[256] = {
1303 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
1304 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
1305 /*  [08]  */	TNSZ("roundps",XMMP_66r,16),TNSZ("roundpd",XMMP_66r,16),TNSZ("roundss",XMMP_66r,16),TNSZ("roundsd",XMMP_66r,16),
1306 /*  [0C]  */	TNSZ("blendps",XMMP_66r,16),TNSZ("blendpd",XMMP_66r,16),TNSZ("pblendw",XMMP_66r,16),TNSZ("palignr",XMMP_66o,16),
1307 
1308 /*  [10]  */	INVALID,		INVALID,		INVALID,		INVALID,
1309 /*  [14]  */	TNSZ("pextrb",XMM3PM_66r,8),TNSZ("pextrw",XMM3PM_66r,16),TSZ("pextr",XMM3PM_66r,16),TNSZ("extractps",XMM3PM_66r,16),
1310 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
1311 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1312 
1313 /*  [20]  */	TNSZ("pinsrb",XMMPRM_66r,8),TNSZ("insertps",XMMP_66r,16),TSZ("pinsr",XMMPRM_66r,16),INVALID,
1314 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
1315 /*  [28]  */	INVALID,		INVALID,		INVALID,		INVALID,
1316 /*  [2C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1317 
1318 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
1319 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
1320 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
1321 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1322 
1323 /*  [40]  */	TNSZ("dpps",XMMP_66r,16),TNSZ("dppd",XMMP_66r,16),TNSZ("mpsadbw",XMMP_66r,16),INVALID,
1324 /*  [44]  */	TNSZ("pclmulqdq",XMMP_66r,16),INVALID,		INVALID,		INVALID,
1325 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
1326 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1327 
1328 /*  [50]  */	INVALID,		INVALID,		INVALID,		INVALID,
1329 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
1330 /*  [58]  */	INVALID,		INVALID,		INVALID,		INVALID,
1331 /*  [5C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1332 
1333 /*  [60]  */	TNSZ("pcmpestrm",XMMP_66r,16),TNSZ("pcmpestri",XMMP_66r,16),TNSZ("pcmpistrm",XMMP_66r,16),TNSZ("pcmpistri",XMMP_66r,16),
1334 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
1335 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
1336 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1337 
1338 /*  [70]  */	INVALID,		INVALID,		INVALID,		INVALID,
1339 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
1340 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1341 /*  [7C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1342 
1343 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
1344 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1345 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1346 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1347 
1348 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1349 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1350 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1351 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1352 
1353 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1354 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1355 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1356 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1357 
1358 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1359 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1360 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1361 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1362 
1363 /*  [C0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1364 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1365 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1366 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1367 
1368 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1369 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1370 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1371 /*  [DC]  */	INVALID,		INVALID,		INVALID,		TNSZ("aeskeygenassist",XMMP_66r,16),
1372 
1373 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1374 /*  [E4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1375 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1376 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1377 
1378 /*  [F0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1379 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1380 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1381 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1382 };
1383 
1384 const instable_t dis_opAVX660F3A[256] = {
1385 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
1386 /*  [04]  */	TNSZ("vpermilps",VEX_MXI,8),TNSZ("vpermilpd",VEX_MXI,16),TNSZ("vperm2f128",VEX_RMRX,16),INVALID,
1387 /*  [08]  */	TNSZ("vroundps",VEX_MXI,16),TNSZ("vroundpd",VEX_MXI,16),TNSZ("vroundss",VEX_RMRX,16),TNSZ("vroundsd",VEX_RMRX,16),
1388 /*  [0C]  */	TNSZ("vblendps",VEX_RMRX,16),TNSZ("vblendpd",VEX_RMRX,16),TNSZ("vpblendw",VEX_RMRX,16),TNSZ("vpalignr",VEX_RMRX,16),
1389 
1390 /*  [10]  */	INVALID,		INVALID,		INVALID,		INVALID,
1391 /*  [14]  */	TNSZ("vpextrb",VEX_RRi,8),TNSZ("vpextrw",VEX_RRi,16),TNSZ("vpextrd",VEX_RRi,16),TNSZ("vextractps",VEX_RM,16),
1392 /*  [18]  */	TNSZ("vinsertf128",VEX_RMRX,16),TNSZ("vextractf128",VEX_RX,16),INVALID,		INVALID,
1393 /*  [1C]  */	INVALID,		TNSZ("vcvtps2ph",VEX_RX,16),		INVALID,		INVALID,
1394 
1395 /*  [20]  */	TNSZ("vpinsrb",VEX_RMRX,8),TNSZ("vinsertps",VEX_RMRX,16),TNSZ("vpinsrd",VEX_RMRX,16),INVALID,
1396 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
1397 /*  [28]  */	INVALID,		INVALID,		INVALID,		INVALID,
1398 /*  [2C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1399 
1400 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
1401 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
1402 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
1403 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1404 
1405 /*  [40]  */	TNSZ("vdpps",VEX_RMRX,16),TNSZ("vdppd",VEX_RMRX,16),TNSZ("vmpsadbw",VEX_RMRX,16),INVALID,
1406 /*  [44]  */	TNSZ("vpclmulqdq",VEX_RMRX,16),INVALID,		INVALID,		INVALID,
1407 /*  [48]  */	INVALID,		INVALID,		TNSZ("vblendvps",VEX_RMRX,8),	TNSZ("vblendvpd",VEX_RMRX,16),
1408 /*  [4C]  */	TNSZ("vpblendvb",VEX_RMRX,16),INVALID,		INVALID,		INVALID,
1409 
1410 /*  [50]  */	INVALID,		INVALID,		INVALID,		INVALID,
1411 /*  [54]  */	INVALID,		INVALID,		INVALID,		INVALID,
1412 /*  [58]  */	INVALID,		INVALID,		INVALID,		INVALID,
1413 /*  [5C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1414 
1415 /*  [60]  */	TNSZ("vpcmpestrm",VEX_MXI,16),TNSZ("vpcmpestri",VEX_MXI,16),TNSZ("vpcmpistrm",VEX_MXI,16),TNSZ("vpcmpistri",VEX_MXI,16),
1416 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
1417 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
1418 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1419 
1420 /*  [70]  */	INVALID,		INVALID,		INVALID,		INVALID,
1421 /*  [74]  */	INVALID,		INVALID,		INVALID,		INVALID,
1422 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1423 /*  [7C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1424 
1425 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
1426 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1427 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1428 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1429 
1430 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1431 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1432 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1433 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1434 
1435 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1436 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1437 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1438 /*  [AC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1439 
1440 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1441 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1442 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1443 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1444 
1445 /*  [C0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1446 /*  [C4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1447 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1448 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1449 
1450 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1451 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1452 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1453 /*  [DC]  */	INVALID,		INVALID,		INVALID,		TNSZ("vaeskeygenassist",VEX_MXI,16),
1454 
1455 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1456 /*  [E4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1457 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1458 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1459 
1460 /*  [F0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1461 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1462 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1463 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1464 };
1465 
1466 /*
1467  *	Decode table for 0x0F opcodes
1468  */
1469 
1470 const instable_t dis_op0F[16][16] = {
1471 {
1472 /*  [00]  */	IND(dis_op0F00),	IND(dis_op0F01),	TNS("lar",MR),		TNS("lsl",MR),
1473 /*  [04]  */	INVALID,		TNS("syscall",NORM),	TNS("clts",NORM),	TNS("sysret",NORM),
1474 /*  [08]  */	TNS("invd",NORM),	TNS("wbinvd",NORM),	INVALID,		TNS("ud2",NORM),
1475 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1476 }, {
1477 /*  [10]  */	TNSZ("movups",XMMO,16),	TNSZ("movups",XMMOS,16),TNSZ("movlps",XMMO,8),	TNSZ("movlps",XMMOS,8),
1478 /*  [14]  */	TNSZ("unpcklps",XMMO,16),TNSZ("unpckhps",XMMO,16),TNSZ("movhps",XMMOM,8),TNSZ("movhps",XMMOMS,8),
1479 /*  [18]  */	IND(dis_op0F18),	INVALID,		INVALID,		INVALID,
1480 /*  [1C]  */	INVALID,		INVALID,		INVALID,		TS("nop",Mw),
1481 }, {
1482 /*  [20]  */	TSy("mov",SREG),	TSy("mov",SREG),	TSy("mov",SREG),	TSy("mov",SREG),
1483 /*  [24]  */	TSx("mov",SREG),	INVALID,		TSx("mov",SREG),	INVALID,
1484 /*  [28]  */	TNSZ("movaps",XMMO,16),	TNSZ("movaps",XMMOS,16),TNSZ("cvtpi2ps",XMMOMX,8),TNSZ("movntps",XMMOS,16),
1485 /*  [2C]  */	TNSZ("cvttps2pi",XMMOXMM,8),TNSZ("cvtps2pi",XMMOXMM,8),TNSZ("ucomiss",XMMO,4),TNSZ("comiss",XMMO,4),
1486 }, {
1487 /*  [30]  */	TNS("wrmsr",NORM),	TNS("rdtsc",NORM),	TNS("rdmsr",NORM),	TNS("rdpmc",NORM),
1488 /*  [34]  */	TNSx("sysenter",NORM),	TNSx("sysexit",NORM),	INVALID,		INVALID,
1489 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
1490 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1491 }, {
1492 /*  [40]  */	TS("cmovx.o",MR),	TS("cmovx.no",MR),	TS("cmovx.b",MR),	TS("cmovx.ae",MR),
1493 /*  [44]  */	TS("cmovx.e",MR),	TS("cmovx.ne",MR),	TS("cmovx.be",MR),	TS("cmovx.a",MR),
1494 /*  [48]  */	TS("cmovx.s",MR),	TS("cmovx.ns",MR),	TS("cmovx.pe",MR),	TS("cmovx.po",MR),
1495 /*  [4C]  */	TS("cmovx.l",MR),	TS("cmovx.ge",MR),	TS("cmovx.le",MR),	TS("cmovx.g",MR),
1496 }, {
1497 /*  [50]  */	TNS("movmskps",XMMOX3),	TNSZ("sqrtps",XMMO,16),	TNSZ("rsqrtps",XMMO,16),TNSZ("rcpps",XMMO,16),
1498 /*  [54]  */	TNSZ("andps",XMMO,16),	TNSZ("andnps",XMMO,16),	TNSZ("orps",XMMO,16),	TNSZ("xorps",XMMO,16),
1499 /*  [58]  */	TNSZ("addps",XMMO,16),	TNSZ("mulps",XMMO,16),	TNSZ("cvtps2pd",XMMO,8),TNSZ("cvtdq2ps",XMMO,16),
1500 /*  [5C]  */	TNSZ("subps",XMMO,16),	TNSZ("minps",XMMO,16),	TNSZ("divps",XMMO,16),	TNSZ("maxps",XMMO,16),
1501 }, {
1502 /*  [60]  */	TNSZ("punpcklbw",MMO,4),TNSZ("punpcklwd",MMO,4),TNSZ("punpckldq",MMO,4),TNSZ("packsswb",MMO,8),
1503 /*  [64]  */	TNSZ("pcmpgtb",MMO,8),	TNSZ("pcmpgtw",MMO,8),	TNSZ("pcmpgtd",MMO,8),	TNSZ("packuswb",MMO,8),
1504 /*  [68]  */	TNSZ("punpckhbw",MMO,8),TNSZ("punpckhwd",MMO,8),TNSZ("punpckhdq",MMO,8),TNSZ("packssdw",MMO,8),
1505 /*  [6C]  */	TNSZ("INVALID",MMO,0),	TNSZ("INVALID",MMO,0),	TNSZ("movd",MMO,4),	TNSZ("movq",MMO,8),
1506 }, {
1507 /*  [70]  */	TNSZ("pshufw",MMOPM,8),	TNS("psrXXX",MR),	TNS("psrXXX",MR),	TNS("psrXXX",MR),
1508 /*  [74]  */	TNSZ("pcmpeqb",MMO,8),	TNSZ("pcmpeqw",MMO,8),	TNSZ("pcmpeqd",MMO,8),	TNS("emms",NORM),
1509 /*  [78]  */	TNSy("vmread",RM),	TNSy("vmwrite",MR),	INVALID,		INVALID,
1510 /*  [7C]  */	INVALID,		INVALID,		TNSZ("movd",MMOS,4),	TNSZ("movq",MMOS,8),
1511 }, {
1512 /*  [80]  */	TNS("jo",D),		TNS("jno",D),		TNS("jb",D),		TNS("jae",D),
1513 /*  [84]  */	TNS("je",D),		TNS("jne",D),		TNS("jbe",D),		TNS("ja",D),
1514 /*  [88]  */	TNS("js",D),		TNS("jns",D),		TNS("jp",D),		TNS("jnp",D),
1515 /*  [8C]  */	TNS("jl",D),		TNS("jge",D),		TNS("jle",D),		TNS("jg",D),
1516 }, {
1517 /*  [90]  */	TNS("seto",Mb),		TNS("setno",Mb),	TNS("setb",Mb),		TNS("setae",Mb),
1518 /*  [94]  */	TNS("sete",Mb),		TNS("setne",Mb),	TNS("setbe",Mb),	TNS("seta",Mb),
1519 /*  [98]  */	TNS("sets",Mb),		TNS("setns",Mb),	TNS("setp",Mb),		TNS("setnp",Mb),
1520 /*  [9C]  */	TNS("setl",Mb),		TNS("setge",Mb),	TNS("setle",Mb),	TNS("setg",Mb),
1521 }, {
1522 /*  [A0]  */	TSp("push",LSEG),	TSp("pop",LSEG),	TNS("cpuid",NORM),	TS("bt",RMw),
1523 /*  [A4]  */	TS("shld",DSHIFT),	TS("shld",DSHIFTcl),	INVALID,		INVALID,
1524 /*  [A8]  */	TSp("push",LSEG),	TSp("pop",LSEG),	TNS("rsm",NORM),	TS("bts",RMw),
1525 /*  [AC]  */	TS("shrd",DSHIFT),	TS("shrd",DSHIFTcl),	IND(dis_op0FAE),	TS("imul",MRw),
1526 }, {
1527 /*  [B0]  */	TNS("cmpxchgb",RMw),	TS("cmpxchg",RMw),	TS("lss",MR),		TS("btr",RMw),
1528 /*  [B4]  */	TS("lfs",MR),		TS("lgs",MR),		TS("movzb",MOVZ),	TNS("movzwl",MOVZ),
1529 /*  [B8]  */	TNS("INVALID",MRw),	INVALID,		IND(dis_op0FBA),	TS("btc",RMw),
1530 /*  [BC]  */	TS("bsf",MRw),		TS("bsr",MRw),		TS("movsb",MOVZ),	TNS("movswl",MOVZ),
1531 }, {
1532 /*  [C0]  */	TNS("xaddb",XADDB),	TS("xadd",RMw),		TNSZ("cmpps",XMMOPM,16),TNS("movnti",RM),
1533 /*  [C4]  */	TNSZ("pinsrw",MMOPRM,2),TNS("pextrw",MMO3P), 	TNSZ("shufps",XMMOPM,16),IND(dis_op0FC7),
1534 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1535 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1536 }, {
1537 /*  [D0]  */	INVALID,		TNSZ("psrlw",MMO,8),	TNSZ("psrld",MMO,8),	TNSZ("psrlq",MMO,8),
1538 /*  [D4]  */	TNSZ("paddq",MMO,8),	TNSZ("pmullw",MMO,8),	TNSZ("INVALID",MMO,0),	TNS("pmovmskb",MMOM3),
1539 /*  [D8]  */	TNSZ("psubusb",MMO,8),	TNSZ("psubusw",MMO,8),	TNSZ("pminub",MMO,8),	TNSZ("pand",MMO,8),
1540 /*  [DC]  */	TNSZ("paddusb",MMO,8),	TNSZ("paddusw",MMO,8),	TNSZ("pmaxub",MMO,8),	TNSZ("pandn",MMO,8),
1541 }, {
1542 /*  [E0]  */	TNSZ("pavgb",MMO,8),	TNSZ("psraw",MMO,8),	TNSZ("psrad",MMO,8),	TNSZ("pavgw",MMO,8),
1543 /*  [E4]  */	TNSZ("pmulhuw",MMO,8),	TNSZ("pmulhw",MMO,8),	TNS("INVALID",XMMO),	TNSZ("movntq",MMOMS,8),
1544 /*  [E8]  */	TNSZ("psubsb",MMO,8),	TNSZ("psubsw",MMO,8),	TNSZ("pminsw",MMO,8),	TNSZ("por",MMO,8),
1545 /*  [EC]  */	TNSZ("paddsb",MMO,8),	TNSZ("paddsw",MMO,8),	TNSZ("pmaxsw",MMO,8),	TNSZ("pxor",MMO,8),
1546 }, {
1547 /*  [F0]  */	INVALID,		TNSZ("psllw",MMO,8),	TNSZ("pslld",MMO,8),	TNSZ("psllq",MMO,8),
1548 /*  [F4]  */	TNSZ("pmuludq",MMO,8),	TNSZ("pmaddwd",MMO,8),	TNSZ("psadbw",MMO,8),	TNSZ("maskmovq",MMOIMPL,8),
1549 /*  [F8]  */	TNSZ("psubb",MMO,8),	TNSZ("psubw",MMO,8),	TNSZ("psubd",MMO,8),	TNSZ("psubq",MMO,8),
1550 /*  [FC]  */	TNSZ("paddb",MMO,8),	TNSZ("paddw",MMO,8),	TNSZ("paddd",MMO,8),	INVALID,
1551 } };
1552 
1553 const instable_t dis_opAVX0F[16][16] = {
1554 {
1555 /*  [00]  */	INVALID,		INVALID,		INVALID,		INVALID,
1556 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
1557 /*  [08]  */	INVALID,		INVALID,		INVALID,		INVALID,
1558 /*  [0C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1559 }, {
1560 /*  [10]  */	TNSZ("vmovups",VEX_MX,16),	TNSZ("vmovups",VEX_RM,16),TNSZ("vmovlps",VEX_RMrX,8),	TNSZ("vmovlps",VEX_RM,8),
1561 /*  [14]  */	TNSZ("vunpcklps",VEX_RMrX,16),TNSZ("vunpckhps",VEX_RMrX,16),TNSZ("vmovhps",VEX_RMrX,8),TNSZ("vmovhps",VEX_RM,8),
1562 /*  [18]  */	INVALID,		INVALID,		INVALID,		INVALID,
1563 /*  [1C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1564 }, {
1565 /*  [20]  */	INVALID,		INVALID,		INVALID,		INVALID,
1566 /*  [24]  */	INVALID,		INVALID,		INVALID,		INVALID,
1567 /*  [28]  */	TNSZ("vmovaps",VEX_MX,16),	TNSZ("vmovaps",VEX_RX,16),INVALID,		TNSZ("vmovntps",VEX_RM,16),
1568 /*  [2C]  */	INVALID,		INVALID,		TNSZ("vucomiss",VEX_MX,4),TNSZ("vcomiss",VEX_MX,4),
1569 }, {
1570 /*  [30]  */	INVALID,		INVALID,		INVALID,		INVALID,
1571 /*  [34]  */	INVALID,		INVALID,		INVALID,		INVALID,
1572 /*  [38]  */	INVALID,		INVALID,		INVALID,		INVALID,
1573 /*  [3C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1574 }, {
1575 /*  [40]  */	INVALID,		INVALID,		INVALID,		INVALID,
1576 /*  [44]  */	INVALID,		INVALID,		INVALID,		INVALID,
1577 /*  [48]  */	INVALID,		INVALID,		INVALID,		INVALID,
1578 /*  [4C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1579 }, {
1580 /*  [50]  */	TNS("vmovmskps",VEX_MR),	TNSZ("vsqrtps",VEX_MX,16),	TNSZ("vrsqrtps",VEX_MX,16),TNSZ("vrcpps",VEX_MX,16),
1581 /*  [54]  */	TNSZ("vandps",VEX_RMrX,16),	TNSZ("vandnps",VEX_RMrX,16),	TNSZ("vorps",VEX_RMrX,16),	TNSZ("vxorps",VEX_RMrX,16),
1582 /*  [58]  */	TNSZ("vaddps",VEX_RMrX,16),	TNSZ("vmulps",VEX_RMrX,16),	TNSZ("vcvtps2pd",VEX_MX,8),TNSZ("vcvtdq2ps",VEX_MX,16),
1583 /*  [5C]  */	TNSZ("vsubps",VEX_RMrX,16),	TNSZ("vminps",VEX_RMrX,16),	TNSZ("vdivps",VEX_RMrX,16),	TNSZ("vmaxps",VEX_RMrX,16),
1584 }, {
1585 /*  [60]  */	INVALID,		INVALID,		INVALID,		INVALID,
1586 /*  [64]  */	INVALID,		INVALID,		INVALID,		INVALID,
1587 /*  [68]  */	INVALID,		INVALID,		INVALID,		INVALID,
1588 /*  [6C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1589 }, {
1590 /*  [70]  */	INVALID,		INVALID,		INVALID,		INVALID,
1591 /*  [74]  */	INVALID,		INVALID,		INVALID,		TNS("vzeroupper", VEX_NONE),
1592 /*  [78]  */	INVALID,		INVALID,		INVALID,		INVALID,
1593 /*  [7C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1594 }, {
1595 /*  [80]  */	INVALID,		INVALID,		INVALID,		INVALID,
1596 /*  [84]  */	INVALID,		INVALID,		INVALID,		INVALID,
1597 /*  [88]  */	INVALID,		INVALID,		INVALID,		INVALID,
1598 /*  [8C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1599 }, {
1600 /*  [90]  */	INVALID,		INVALID,		INVALID,		INVALID,
1601 /*  [94]  */	INVALID,		INVALID,		INVALID,		INVALID,
1602 /*  [98]  */	INVALID,		INVALID,		INVALID,		INVALID,
1603 /*  [9C]  */	INVALID,		INVALID,		INVALID,		INVALID,
1604 }, {
1605 /*  [A0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1606 /*  [A4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1607 /*  [A8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1608 /*  [AC]  */	INVALID,		INVALID,		TNSZ("vldmxcsr",VEX_MO,2),		INVALID,
1609 }, {
1610 /*  [B0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1611 /*  [B4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1612 /*  [B8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1613 /*  [BC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1614 }, {
1615 /*  [C0]  */	INVALID,		INVALID,		TNSZ("vcmpps",VEX_RMRX,16),INVALID,
1616 /*  [C4]  */	INVALID,		INVALID,	 	TNSZ("vshufps",VEX_RMRX,16),INVALID,
1617 /*  [C8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1618 /*  [CC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1619 }, {
1620 /*  [D0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1621 /*  [D4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1622 /*  [D8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1623 /*  [DC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1624 }, {
1625 /*  [E0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1626 /*  [E4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1627 /*  [E8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1628 /*  [EC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1629 }, {
1630 /*  [F0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1631 /*  [F4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1632 /*  [F8]  */	INVALID,		INVALID,		INVALID,		INVALID,
1633 /*  [FC]  */	INVALID,		INVALID,		INVALID,		INVALID,
1634 } };
1635 
1636 /*
1637  *	Decode table for 0x80 opcodes
1638  */
1639 
1640 const instable_t dis_op80[8] = {
1641 
1642 /*  [0]  */	TNS("addb",IMlw),	TNS("orb",IMw),		TNS("adcb",IMlw),	TNS("sbbb",IMlw),
1643 /*  [4]  */	TNS("andb",IMw),	TNS("subb",IMlw),	TNS("xorb",IMw),	TNS("cmpb",IMlw),
1644 };
1645 
1646 
1647 /*
1648  *	Decode table for 0x81 opcodes.
1649  */
1650 
1651 const instable_t dis_op81[8] = {
1652 
1653 /*  [0]  */	TS("add",IMlw),		TS("or",IMw),		TS("adc",IMlw),		TS("sbb",IMlw),
1654 /*  [4]  */	TS("and",IMw),		TS("sub",IMlw),		TS("xor",IMw),		TS("cmp",IMlw),
1655 };
1656 
1657 
1658 /*
1659  *	Decode table for 0x82 opcodes.
1660  */
1661 
1662 const instable_t dis_op82[8] = {
1663 
1664 /*  [0]  */	TNSx("addb",IMlw),	TNSx("orb",IMlw),	TNSx("adcb",IMlw),	TNSx("sbbb",IMlw),
1665 /*  [4]  */	TNSx("andb",IMlw),	TNSx("subb",IMlw),	TNSx("xorb",IMlw),	TNSx("cmpb",IMlw),
1666 };
1667 /*
1668  *	Decode table for 0x83 opcodes.
1669  */
1670 
1671 const instable_t dis_op83[8] = {
1672 
1673 /*  [0]  */	TS("add",IMlw),		TS("or",IMlw),		TS("adc",IMlw),		TS("sbb",IMlw),
1674 /*  [4]  */	TS("and",IMlw),		TS("sub",IMlw),		TS("xor",IMlw),		TS("cmp",IMlw),
1675 };
1676 
1677 /*
1678  *	Decode table for 0xC0 opcodes.
1679  */
1680 
1681 const instable_t dis_opC0[8] = {
1682 
1683 /*  [0]  */	TNS("rolb",MvI),	TNS("rorb",MvI),	TNS("rclb",MvI),	TNS("rcrb",MvI),
1684 /*  [4]  */	TNS("shlb",MvI),	TNS("shrb",MvI),	INVALID,		TNS("sarb",MvI),
1685 };
1686 
1687 /*
1688  *	Decode table for 0xD0 opcodes.
1689  */
1690 
1691 const instable_t dis_opD0[8] = {
1692 
1693 /*  [0]  */	TNS("rolb",Mv),		TNS("rorb",Mv),		TNS("rclb",Mv),		TNS("rcrb",Mv),
1694 /*  [4]  */	TNS("shlb",Mv),		TNS("shrb",Mv),		TNS("salb",Mv),		TNS("sarb",Mv),
1695 };
1696 
1697 /*
1698  *	Decode table for 0xC1 opcodes.
1699  *	186 instruction set
1700  */
1701 
1702 const instable_t dis_opC1[8] = {
1703 
1704 /*  [0]  */	TS("rol",MvI),		TS("ror",MvI),		TS("rcl",MvI),		TS("rcr",MvI),
1705 /*  [4]  */	TS("shl",MvI),		TS("shr",MvI),		TS("sal",MvI),		TS("sar",MvI),
1706 };
1707 
1708 /*
1709  *	Decode table for 0xD1 opcodes.
1710  */
1711 
1712 const instable_t dis_opD1[8] = {
1713 
1714 /*  [0]  */	TS("rol",Mv),		TS("ror",Mv),		TS("rcl",Mv),		TS("rcr",Mv),
1715 /*  [4]  */	TS("shl",Mv),		TS("shr",Mv),		TS("sal",Mv),		TS("sar",Mv),
1716 };
1717 
1718 
1719 /*
1720  *	Decode table for 0xD2 opcodes.
1721  */
1722 
1723 const instable_t dis_opD2[8] = {
1724 
1725 /*  [0]  */	TNS("rolb",Mv),		TNS("rorb",Mv),		TNS("rclb",Mv),		TNS("rcrb",Mv),
1726 /*  [4]  */	TNS("shlb",Mv),		TNS("shrb",Mv),		TNS("salb",Mv),		TNS("sarb",Mv),
1727 };
1728 /*
1729  *	Decode table for 0xD3 opcodes.
1730  */
1731 
1732 const instable_t dis_opD3[8] = {
1733 
1734 /*  [0]  */	TS("rol",Mv),		TS("ror",Mv),		TS("rcl",Mv),		TS("rcr",Mv),
1735 /*  [4]  */	TS("shl",Mv),		TS("shr",Mv),		TS("salb",Mv),		TS("sar",Mv),
1736 };
1737 
1738 
1739 /*
1740  *	Decode table for 0xF6 opcodes.
1741  */
1742 
1743 const instable_t dis_opF6[8] = {
1744 
1745 /*  [0]  */	TNS("testb",IMw),	TNS("testb",IMw),	TNS("notb",Mw),		TNS("negb",Mw),
1746 /*  [4]  */	TNS("mulb",MA),		TNS("imulb",MA),	TNS("divb",MA),		TNS("idivb",MA),
1747 };
1748 
1749 
1750 /*
1751  *	Decode table for 0xF7 opcodes.
1752  */
1753 
1754 const instable_t dis_opF7[8] = {
1755 
1756 /*  [0]  */	TS("test",IMw),		TS("test",IMw),		TS("not",Mw),		TS("neg",Mw),
1757 /*  [4]  */	TS("mul",MA),		TS("imul",MA),		TS("div",MA),		TS("idiv",MA),
1758 };
1759 
1760 
1761 /*
1762  *	Decode table for 0xFE opcodes.
1763  */
1764 
1765 const instable_t dis_opFE[8] = {
1766 
1767 /*  [0]  */	TNS("incb",Mw),		TNS("decb",Mw),		INVALID,		INVALID,
1768 /*  [4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1769 };
1770 /*
1771  *	Decode table for 0xFF opcodes.
1772  */
1773 
1774 const instable_t dis_opFF[8] = {
1775 
1776 /*  [0]  */	TS("inc",Mw),		TS("dec",Mw),		TNSyp("call",INM),	TNS("lcall",INM),
1777 /*  [4]  */	TNSy("jmp",INM),	TNS("ljmp",INM),	TSp("push",M),		INVALID,
1778 };
1779 
1780 /* for 287 instructions, which are a mess to decode */
1781 
1782 const instable_t dis_opFP1n2[8][8] = {
1783 {
1784 /* bit pattern:	1101 1xxx MODxx xR/M */
1785 /*  [0,0] */	TNS("fadds",M),		TNS("fmuls",M),		TNS("fcoms",M),		TNS("fcomps",M),
1786 /*  [0,4] */	TNS("fsubs",M),		TNS("fsubrs",M),	TNS("fdivs",M),		TNS("fdivrs",M),
1787 }, {
1788 /*  [1,0]  */	TNS("flds",M),		INVALID,		TNS("fsts",M),		TNS("fstps",M),
1789 /*  [1,4]  */	TNSZ("fldenv",M,28),	TNSZ("fldcw",M,2),	TNSZ("fnstenv",M,28),	TNSZ("fnstcw",M,2),
1790 }, {
1791 /*  [2,0]  */	TNS("fiaddl",M),	TNS("fimull",M),	TNS("ficoml",M),	TNS("ficompl",M),
1792 /*  [2,4]  */	TNS("fisubl",M),	TNS("fisubrl",M),	TNS("fidivl",M),	TNS("fidivrl",M),
1793 }, {
1794 /*  [3,0]  */	TNS("fildl",M),		INVALID,		TNS("fistl",M),		TNS("fistpl",M),
1795 /*  [3,4]  */	INVALID,		TNSZ("fldt",M,10),	INVALID,		TNSZ("fstpt",M,10),
1796 }, {
1797 /*  [4,0]  */	TNSZ("faddl",M,8),	TNSZ("fmull",M,8),	TNSZ("fcoml",M,8),	TNSZ("fcompl",M,8),
1798 /*  [4,1]  */	TNSZ("fsubl",M,8),	TNSZ("fsubrl",M,8),	TNSZ("fdivl",M,8),	TNSZ("fdivrl",M,8),
1799 }, {
1800 /*  [5,0]  */	TNSZ("fldl",M,8),	INVALID,		TNSZ("fstl",M,8),	TNSZ("fstpl",M,8),
1801 /*  [5,4]  */	TNSZ("frstor",M,108),	INVALID,		TNSZ("fnsave",M,108),	TNSZ("fnstsw",M,2),
1802 }, {
1803 /*  [6,0]  */	TNSZ("fiadd",M,2),	TNSZ("fimul",M,2),	TNSZ("ficom",M,2),	TNSZ("ficomp",M,2),
1804 /*  [6,4]  */	TNSZ("fisub",M,2),	TNSZ("fisubr",M,2),	TNSZ("fidiv",M,2),	TNSZ("fidivr",M,2),
1805 }, {
1806 /*  [7,0]  */	TNSZ("fild",M,2),	INVALID,		TNSZ("fist",M,2),	TNSZ("fistp",M,2),
1807 /*  [7,4]  */	TNSZ("fbld",M,10),	TNSZ("fildll",M,8),	TNSZ("fbstp",M,10),	TNSZ("fistpll",M,8),
1808 } };
1809 
1810 const instable_t dis_opFP3[8][8] = {
1811 {
1812 /* bit  pattern:	1101 1xxx 11xx xREG */
1813 /*  [0,0]  */	TNS("fadd",FF),		TNS("fmul",FF),		TNS("fcom",F),		TNS("fcomp",F),
1814 /*  [0,4]  */	TNS("fsub",FF),		TNS("fsubr",FF),	TNS("fdiv",FF),		TNS("fdivr",FF),
1815 }, {
1816 /*  [1,0]  */	TNS("fld",F),		TNS("fxch",F),		TNS("fnop",NORM),	TNS("fstp",F),
1817 /*  [1,4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1818 }, {
1819 /*  [2,0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1820 /*  [2,4]  */	INVALID,		TNS("fucompp",NORM),	INVALID,		INVALID,
1821 }, {
1822 /*  [3,0]  */	INVALID,		INVALID,		INVALID,		INVALID,
1823 /*  [3,4]  */	INVALID,		INVALID,		INVALID,		INVALID,
1824 }, {
1825 /*  [4,0]  */	TNS("fadd",FF),		TNS("fmul",FF),		TNS("fcom",F),		TNS("fcomp",F),
1826 /*  [4,4]  */	TNS("fsub",FF),		TNS("fsubr",FF),	TNS("fdiv",FF),		TNS("fdivr",FF),
1827 }, {
1828 /*  [5,0]  */	TNS("ffree",F),		TNS("fxch",F),		TNS("fst",F),		TNS("fstp",F),
1829 /*  [5,4]  */	TNS("fucom",F),		TNS("fucomp",F),	INVALID,		INVALID,
1830 }, {
1831 /*  [6,0]  */	TNS("faddp",FF),	TNS("fmulp",FF),	TNS("fcomp",F),		TNS("fcompp",NORM),
1832 /*  [6,4]  */	TNS("fsubp",FF),	TNS("fsubrp",FF),	TNS("fdivp",FF),	TNS("fdivrp",FF),
1833 }, {
1834 /*  [7,0]  */	TNS("ffreep",F),		TNS("fxch",F),		TNS("fstp",F),		TNS("fstp",F),
1835 /*  [7,4]  */	TNS("fnstsw",M),	TNS("fucomip",FFC),	TNS("fcomip",FFC),	INVALID,
1836 } };
1837 
1838 const instable_t dis_opFP4[4][8] = {
1839 {
1840 /* bit pattern:	1101 1001 111x xxxx */
1841 /*  [0,0]  */	TNS("fchs",NORM),	TNS("fabs",NORM),	INVALID,		INVALID,
1842 /*  [0,4]  */	TNS("ftst",NORM),	TNS("fxam",NORM),	TNS("ftstp",NORM),	INVALID,
1843 }, {
1844 /*  [1,0]  */	TNS("fld1",NORM),	TNS("fldl2t",NORM),	TNS("fldl2e",NORM),	TNS("fldpi",NORM),
1845 /*  [1,4]  */	TNS("fldlg2",NORM),	TNS("fldln2",NORM),	TNS("fldz",NORM),	INVALID,
1846 }, {
1847 /*  [2,0]  */	TNS("f2xm1",NORM),	TNS("fyl2x",NORM),	TNS("fptan",NORM),	TNS("fpatan",NORM),
1848 /*  [2,4]  */	TNS("fxtract",NORM),	TNS("fprem1",NORM),	TNS("fdecstp",NORM),	TNS("fincstp",NORM),
1849 }, {
1850 /*  [3,0]  */	TNS("fprem",NORM),	TNS("fyl2xp1",NORM),	TNS("fsqrt",NORM),	TNS("fsincos",NORM),
1851 /*  [3,4]  */	TNS("frndint",NORM),	TNS("fscale",NORM),	TNS("fsin",NORM),	TNS("fcos",NORM),
1852 } };
1853 
1854 const instable_t dis_opFP5[8] = {
1855 /* bit pattern:	1101 1011 111x xxxx */
1856 /*  [0]  */	TNS("feni",NORM),	TNS("fdisi",NORM),	TNS("fnclex",NORM),	TNS("fninit",NORM),
1857 /*  [4]  */	TNS("fsetpm",NORM),	TNS("frstpm",NORM),	INVALID,		INVALID,
1858 };
1859 
1860 const instable_t dis_opFP6[8] = {
1861 /* bit pattern:	1101 1011 11yy yxxx */
1862 /*  [00]  */	TNS("fcmov.nb",FF),	TNS("fcmov.ne",FF),	TNS("fcmov.nbe",FF),	TNS("fcmov.nu",FF),
1863 /*  [04]  */	INVALID,		TNS("fucomi",F),	TNS("fcomi",F),		INVALID,
1864 };
1865 
1866 const instable_t dis_opFP7[8] = {
1867 /* bit pattern:	1101 1010 11yy yxxx */
1868 /*  [00]  */	TNS("fcmov.b",FF),	TNS("fcmov.e",FF),	TNS("fcmov.be",FF),	TNS("fcmov.u",FF),
1869 /*  [04]  */	INVALID,		INVALID,		INVALID,		INVALID,
1870 };
1871 
1872 /*
1873  *	Main decode table for the op codes.  The first two nibbles
1874  *	will be used as an index into the table.  If there is a
1875  *	a need to further decode an instruction, the array to be
1876  *	referenced is indicated with the other two entries being
1877  *	empty.
1878  */
1879 
1880 const instable_t dis_distable[16][16] = {
1881 {
1882 /* [0,0] */	TNS("addb",RMw),	TS("add",RMw),		TNS("addb",MRw),	TS("add",MRw),
1883 /* [0,4] */	TNS("addb",IA),		TS("add",IA),		TSx("push",SEG),	TSx("pop",SEG),
1884 /* [0,8] */	TNS("orb",RMw),		TS("or",RMw),		TNS("orb",MRw),		TS("or",MRw),
1885 /* [0,C] */	TNS("orb",IA),		TS("or",IA),		TSx("push",SEG),	IND(dis_op0F),
1886 }, {
1887 /* [1,0] */	TNS("adcb",RMw),	TS("adc",RMw),		TNS("adcb",MRw),	TS("adc",MRw),
1888 /* [1,4] */	TNS("adcb",IA),		TS("adc",IA),		TSx("push",SEG),	TSx("pop",SEG),
1889 /* [1,8] */	TNS("sbbb",RMw),	TS("sbb",RMw),		TNS("sbbb",MRw),	TS("sbb",MRw),
1890 /* [1,C] */	TNS("sbbb",IA),		TS("sbb",IA),		TSx("push",SEG),	TSx("pop",SEG),
1891 }, {
1892 /* [2,0] */	TNS("andb",RMw),	TS("and",RMw),		TNS("andb",MRw),	TS("and",MRw),
1893 /* [2,4] */	TNS("andb",IA),		TS("and",IA),		TNSx("%es:",OVERRIDE),	TNSx("daa",NORM),
1894 /* [2,8] */	TNS("subb",RMw),	TS("sub",RMw),		TNS("subb",MRw),	TS("sub",MRw),
1895 /* [2,C] */	TNS("subb",IA),		TS("sub",IA),		TNS("%cs:",OVERRIDE),	TNSx("das",NORM),
1896 }, {
1897 /* [3,0] */	TNS("xorb",RMw),	TS("xor",RMw),		TNS("xorb",MRw),	TS("xor",MRw),
1898 /* [3,4] */	TNS("xorb",IA),		TS("xor",IA),		TNSx("%ss:",OVERRIDE),	TNSx("aaa",NORM),
1899 /* [3,8] */	TNS("cmpb",RMw),	TS("cmp",RMw),		TNS("cmpb",MRw),	TS("cmp",MRw),
1900 /* [3,C] */	TNS("cmpb",IA),		TS("cmp",IA),		TNSx("%ds:",OVERRIDE),	TNSx("aas",NORM),
1901 }, {
1902 /* [4,0] */	TSx("inc",R),		TSx("inc",R),		TSx("inc",R),		TSx("inc",R),
1903 /* [4,4] */	TSx("inc",R),		TSx("inc",R),		TSx("inc",R),		TSx("inc",R),
1904 /* [4,8] */	TSx("dec",R),		TSx("dec",R),		TSx("dec",R),		TSx("dec",R),
1905 /* [4,C] */	TSx("dec",R),		TSx("dec",R),		TSx("dec",R),		TSx("dec",R),
1906 }, {
1907 /* [5,0] */	TSp("push",R),		TSp("push",R),		TSp("push",R),		TSp("push",R),
1908 /* [5,4] */	TSp("push",R),		TSp("push",R),		TSp("push",R),		TSp("push",R),
1909 /* [5,8] */	TSp("pop",R),		TSp("pop",R),		TSp("pop",R),		TSp("pop",R),
1910 /* [5,C] */	TSp("pop",R),		TSp("pop",R),		TSp("pop",R),		TSp("pop",R),
1911 }, {
1912 /* [6,0] */	TSZx("pusha",IMPLMEM,28),TSZx("popa",IMPLMEM,28), TSx("bound",MR),	TNS("arpl",RMw),
1913 /* [6,4] */	TNS("%fs:",OVERRIDE),	TNS("%gs:",OVERRIDE),	TNS("data16",DM),	TNS("addr16",AM),
1914 /* [6,8] */	TSp("push",I),		TS("imul",IMUL),	TSp("push",Ib),	TS("imul",IMUL),
1915 /* [6,C] */	TNSZ("insb",IMPLMEM,1),	TSZ("ins",IMPLMEM,4),	TNSZ("outsb",IMPLMEM,1),TSZ("outs",IMPLMEM,4),
1916 }, {
1917 /* [7,0] */	TNSy("jo",BD),		TNSy("jno",BD),		TNSy("jb",BD),		TNSy("jae",BD),
1918 /* [7,4] */	TNSy("je",BD),		TNSy("jne",BD),		TNSy("jbe",BD),		TNSy("ja",BD),
1919 /* [7,8] */	TNSy("js",BD),		TNSy("jns",BD),		TNSy("jp",BD),		TNSy("jnp",BD),
1920 /* [7,C] */	TNSy("jl",BD),		TNSy("jge",BD),		TNSy("jle",BD),		TNSy("jg",BD),
1921 }, {
1922 /* [8,0] */	IND(dis_op80),		IND(dis_op81),		INDx(dis_op82),		IND(dis_op83),
1923 /* [8,4] */	TNS("testb",RMw),	TS("test",RMw),		TNS("xchgb",RMw),	TS("xchg",RMw),
1924 /* [8,8] */	TNS("movb",RMw),	TS("mov",RMw),		TNS("movb",MRw),	TS("mov",MRw),
1925 /* [8,C] */	TNS("movw",SM),		TS("lea",MR),		TNS("movw",MS),		TSp("pop",M),
1926 }, {
1927 /* [9,0] */	TNS("nop",NORM),	TS("xchg",RA),		TS("xchg",RA),		TS("xchg",RA),
1928 /* [9,4] */	TS("xchg",RA),		TS("xchg",RA),		TS("xchg",RA),		TS("xchg",RA),
1929 /* [9,8] */	TNS("cXtX",CBW),	TNS("cXtX",CWD),	TNSx("lcall",SO),	TNS("fwait",NORM),
1930 /* [9,C] */	TSZy("pushf",IMPLMEM,4),TSZy("popf",IMPLMEM,4),	TNSx("sahf",NORM),	TNSx("lahf",NORM),
1931 }, {
1932 /* [A,0] */	TNS("movb",OA),		TS("mov",OA),		TNS("movb",AO),		TS("mov",AO),
1933 /* [A,4] */	TNSZ("movsb",SD,1),	TS("movs",SD),		TNSZ("cmpsb",SD,1),	TS("cmps",SD),
1934 /* [A,8] */	TNS("testb",IA),	TS("test",IA),		TNS("stosb",AD),	TS("stos",AD),
1935 /* [A,C] */	TNS("lodsb",SA),	TS("lods",SA),		TNS("scasb",AD),	TS("scas",AD),
1936 }, {
1937 /* [B,0] */	TNS("movb",IR),		TNS("movb",IR),		TNS("movb",IR),		TNS("movb",IR),
1938 /* [B,4] */	TNS("movb",IR),		TNS("movb",IR),		TNS("movb",IR),		TNS("movb",IR),
1939 /* [B,8] */	TS("mov",IR),		TS("mov",IR),		TS("mov",IR),		TS("mov",IR),
1940 /* [B,C] */	TS("mov",IR),		TS("mov",IR),		TS("mov",IR),		TS("mov",IR),
1941 }, {
1942 /* [C,0] */	IND(dis_opC0),		IND(dis_opC1), 		TNSyp("ret",RET),	TNSyp("ret",NORM),
1943 /* [C,4] */	TNSx("les",MR),		TNSx("lds",MR),		TNS("movb",IMw),	TS("mov",IMw),
1944 /* [C,8] */	TNSyp("enter",ENTER),	TNSyp("leave",NORM),	TNS("lret",RET),	TNS("lret",NORM),
1945 /* [C,C] */	TNS("int",INT3),	TNS("int",INTx),	TNSx("into",NORM),	TNS("iret",NORM),
1946 }, {
1947 /* [D,0] */	IND(dis_opD0),		IND(dis_opD1),		IND(dis_opD2),		IND(dis_opD3),
1948 /* [D,4] */	TNSx("aam",U),		TNSx("aad",U),		TNSx("falc",NORM),	TNSZ("xlat",IMPLMEM,1),
1949 
1950 /* 287 instructions.  Note that although the indirect field		*/
1951 /* indicates opFP1n2 for further decoding, this is not necessarily	*/
1952 /* the case since the opFP arrays are not partitioned according to key1	*/
1953 /* and key2.  opFP1n2 is given only to indicate that we haven't		*/
1954 /* finished decoding the instruction.					*/
1955 /* [D,8] */	IND(dis_opFP1n2),	IND(dis_opFP1n2),	IND(dis_opFP1n2),	IND(dis_opFP1n2),
1956 /* [D,C] */	IND(dis_opFP1n2),	IND(dis_opFP1n2),	IND(dis_opFP1n2),	IND(dis_opFP1n2),
1957 }, {
1958 /* [E,0] */	TNSy("loopnz",BD),	TNSy("loopz",BD),	TNSy("loop",BD),	TNSy("jcxz",BD),
1959 /* [E,4] */	TNS("inb",P),		TS("in",P),		TNS("outb",P),		TS("out",P),
1960 /* [E,8] */	TNSyp("call",D),	TNSy("jmp",D),		TNSx("ljmp",SO),		TNSy("jmp",BD),
1961 /* [E,C] */	TNS("inb",V),		TS("in",V),		TNS("outb",V),		TS("out",V),
1962 }, {
1963 /* [F,0] */	TNS("lock",LOCK),	TNS("icebp", NORM),	TNS("repnz",PREFIX),	TNS("repz",PREFIX),
1964 /* [F,4] */	TNS("hlt",NORM),	TNS("cmc",NORM),	IND(dis_opF6),		IND(dis_opF7),
1965 /* [F,8] */	TNS("clc",NORM),	TNS("stc",NORM),	TNS("cli",NORM),	TNS("sti",NORM),
1966 /* [F,C] */	TNS("cld",NORM),	TNS("std",NORM),	IND(dis_opFE),		IND(dis_opFF),
1967 } };
1968 
1969 /* END CSTYLED */
1970 
1971 /*
1972  * common functions to decode and disassemble an x86 or amd64 instruction
1973  */
1974 
1975 /*
1976  * These are the individual fields of a REX prefix. Note that a REX
1977  * prefix with none of these set is still needed to:
1978  *	- use the MOVSXD (sign extend 32 to 64 bits) instruction
1979  *	- access the %sil, %dil, %bpl, %spl registers
1980  */
1981 #define	REX_W 0x08	/* 64 bit operand size when set */
1982 #define	REX_R 0x04	/* high order bit extension of ModRM reg field */
1983 #define	REX_X 0x02	/* high order bit extension of SIB index field */
1984 #define	REX_B 0x01	/* extends ModRM r_m, SIB base, or opcode reg */
1985 
1986 /*
1987  * These are the individual fields of a VEX prefix.
1988  */
1989 #define	VEX_R 0x08	/* REX.R in 1's complement form */
1990 #define	VEX_X 0x04	/* REX.X in 1's complement form */
1991 #define	VEX_B 0x02	/* REX.B in 1's complement form */
1992 /* Vector Length, 0: scalar or 128-bit vector, 1: 256-bit vector */
1993 #define	VEX_L 0x04
1994 #define	VEX_W 0x08	/* opcode specific, use like REX.W */
1995 #define	VEX_m 0x1F	/* VEX m-mmmm field */
1996 #define	VEX_v 0x78	/* VEX register specifier */
1997 #define	VEX_p 0x03	/* VEX pp field, opcode extension */
1998 
1999 /* VEX m-mmmm field, only used by three bytes prefix */
2000 #define	VEX_m_0F 0x01   /* implied 0F leading opcode byte */
2001 #define	VEX_m_0F38 0x02 /* implied 0F 38 leading opcode byte */
2002 #define	VEX_m_0F3A 0x03 /* implied 0F 3A leading opcode byte */
2003 
2004 /* VEX pp field, providing equivalent functionality of a SIMD prefix */
2005 #define	VEX_p_66 0x01
2006 #define	VEX_p_F3 0x02
2007 #define	VEX_p_F2 0x03
2008 
2009 /*
2010  * Even in 64 bit mode, usually only 4 byte immediate operands are supported.
2011  */
2012 static int isize[] = {1, 2, 4, 4};
2013 static int isize64[] = {1, 2, 4, 8};
2014 
2015 /*
2016  * Just a bunch of useful macros.
2017  */
2018 #define	WBIT(x)	(x & 0x1)		/* to get w bit	*/
2019 #define	REGNO(x) (x & 0x7)		/* to get 3 bit register */
2020 #define	VBIT(x)	((x)>>1 & 0x1)		/* to get 'v' bit */
2021 #define	OPSIZE(osize, wbit) ((wbit) ? isize[osize] : 1)
2022 #define	OPSIZE64(osize, wbit) ((wbit) ? isize64[osize] : 1)
2023 
2024 #define	REG_ONLY 3	/* mode to indicate a register operand (not memory) */
2025 
2026 #define	BYTE_OPND	0	/* w-bit value indicating byte register */
2027 #define	LONG_OPND	1	/* w-bit value indicating opnd_size register */
2028 #define	MM_OPND		2	/* "value" used to indicate a mmx reg */
2029 #define	XMM_OPND	3	/* "value" used to indicate a xmm reg */
2030 #define	SEG_OPND	4	/* "value" used to indicate a segment reg */
2031 #define	CONTROL_OPND	5	/* "value" used to indicate a control reg */
2032 #define	DEBUG_OPND	6	/* "value" used to indicate a debug reg */
2033 #define	TEST_OPND	7	/* "value" used to indicate a test reg */
2034 #define	WORD_OPND	8	/* w-bit value indicating word size reg */
2035 #define	YMM_OPND	9	/* "value" used to indicate a ymm reg */
2036 
2037 /*
2038  * Get the next byte and separate the op code into the high and low nibbles.
2039  */
2040 static int
2041 dtrace_get_opcode(dis86_t *x, uint_t *high, uint_t *low)
2042 {
2043 	int byte;
2044 
2045 	/*
2046 	 * x86 instructions have a maximum length of 15 bytes.  Bail out if
2047 	 * we try to read more.
2048 	 */
2049 	if (x->d86_len >= 15)
2050 		return (x->d86_error = 1);
2051 
2052 	if (x->d86_error)
2053 		return (1);
2054 	byte = x->d86_get_byte(x->d86_data);
2055 	if (byte < 0)
2056 		return (x->d86_error = 1);
2057 	x->d86_bytes[x->d86_len++] = byte;
2058 	*low = byte & 0xf;		/* ----xxxx low 4 bits */
2059 	*high = byte >> 4 & 0xf;	/* xxxx---- bits 7 to 4 */
2060 	return (0);
2061 }
2062 
2063 /*
2064  * Get and decode an SIB (scaled index base) byte
2065  */
2066 static void
2067 dtrace_get_SIB(dis86_t *x, uint_t *ss, uint_t *index, uint_t *base)
2068 {
2069 	int byte;
2070 
2071 	if (x->d86_error)
2072 		return;
2073 
2074 	byte = x->d86_get_byte(x->d86_data);
2075 	if (byte < 0) {
2076 		x->d86_error = 1;
2077 		return;
2078 	}
2079 	x->d86_bytes[x->d86_len++] = byte;
2080 
2081 	*base = byte & 0x7;
2082 	*index = (byte >> 3) & 0x7;
2083 	*ss = (byte >> 6) & 0x3;
2084 }
2085 
2086 /*
2087  * Get the byte following the op code and separate it into the
2088  * mode, register, and r/m fields.
2089  */
2090 static void
2091 dtrace_get_modrm(dis86_t *x, uint_t *mode, uint_t *reg, uint_t *r_m)
2092 {
2093 	if (x->d86_got_modrm == 0) {
2094 		if (x->d86_rmindex == -1)
2095 			x->d86_rmindex = x->d86_len;
2096 		dtrace_get_SIB(x, mode, reg, r_m);
2097 		x->d86_got_modrm = 1;
2098 	}
2099 }
2100 
2101 /*
2102  * Adjust register selection based on any REX prefix bits present.
2103  */
2104 /*ARGSUSED*/
2105 static void
2106 dtrace_rex_adjust(uint_t rex_prefix, uint_t mode, uint_t *reg, uint_t *r_m)
2107 {
2108 	if (reg != NULL && r_m == NULL) {
2109 		if (rex_prefix & REX_B)
2110 			*reg += 8;
2111 	} else {
2112 		if (reg != NULL && (REX_R & rex_prefix) != 0)
2113 			*reg += 8;
2114 		if (r_m != NULL && (REX_B & rex_prefix) != 0)
2115 			*r_m += 8;
2116 	}
2117 }
2118 
2119 /*
2120  * Adjust register selection based on any VEX prefix bits present.
2121  * Notes: VEX.R, VEX.X and VEX.B use the inverted form compared with REX prefix
2122  */
2123 /*ARGSUSED*/
2124 static void
2125 dtrace_vex_adjust(uint_t vex_byte1, uint_t mode, uint_t *reg, uint_t *r_m)
2126 {
2127 	if (reg != NULL && r_m == NULL) {
2128 		if (!(vex_byte1 & VEX_B))
2129 			*reg += 8;
2130 	} else {
2131 		if (reg != NULL && ((VEX_R & vex_byte1) == 0))
2132 			*reg += 8;
2133 		if (r_m != NULL && ((VEX_B & vex_byte1) == 0))
2134 			*r_m += 8;
2135 	}
2136 }
2137 
2138 /*
2139  * Get an immediate operand of the given size, with sign extension.
2140  */
2141 static void
2142 dtrace_imm_opnd(dis86_t *x, int wbit, int size, int opindex)
2143 {
2144 	int i;
2145 	int byte;
2146 	int valsize;
2147 
2148 	if (x->d86_numopnds < opindex + 1)
2149 		x->d86_numopnds = opindex + 1;
2150 
2151 	switch (wbit) {
2152 	case BYTE_OPND:
2153 		valsize = 1;
2154 		break;
2155 	case LONG_OPND:
2156 		if (x->d86_opnd_size == SIZE16)
2157 			valsize = 2;
2158 		else if (x->d86_opnd_size == SIZE32)
2159 			valsize = 4;
2160 		else
2161 			valsize = 8;
2162 		break;
2163 	case MM_OPND:
2164 	case XMM_OPND:
2165 	case YMM_OPND:
2166 	case SEG_OPND:
2167 	case CONTROL_OPND:
2168 	case DEBUG_OPND:
2169 	case TEST_OPND:
2170 		valsize = size;
2171 		break;
2172 	case WORD_OPND:
2173 		valsize = 2;
2174 		break;
2175 	}
2176 	if (valsize < size)
2177 		valsize = size;
2178 
2179 	if (x->d86_error)
2180 		return;
2181 	x->d86_opnd[opindex].d86_value = 0;
2182 	for (i = 0; i < size; ++i) {
2183 		byte = x->d86_get_byte(x->d86_data);
2184 		if (byte < 0) {
2185 			x->d86_error = 1;
2186 			return;
2187 		}
2188 		x->d86_bytes[x->d86_len++] = byte;
2189 		x->d86_opnd[opindex].d86_value |= (uint64_t)byte << (i * 8);
2190 	}
2191 	/* Do sign extension */
2192 	if (x->d86_bytes[x->d86_len - 1] & 0x80) {
2193 		for (; i < sizeof (uint64_t); i++)
2194 			x->d86_opnd[opindex].d86_value |=
2195 			    (uint64_t)0xff << (i * 8);
2196 	}
2197 #ifdef DIS_TEXT
2198 	x->d86_opnd[opindex].d86_mode = MODE_SIGNED;
2199 	x->d86_opnd[opindex].d86_value_size = valsize;
2200 	x->d86_imm_bytes += size;
2201 #endif
2202 }
2203 
2204 /*
2205  * Get an ip relative operand of the given size, with sign extension.
2206  */
2207 static void
2208 dtrace_disp_opnd(dis86_t *x, int wbit, int size, int opindex)
2209 {
2210 	dtrace_imm_opnd(x, wbit, size, opindex);
2211 #ifdef DIS_TEXT
2212 	x->d86_opnd[opindex].d86_mode = MODE_IPREL;
2213 #endif
2214 }
2215 
2216 /*
2217  * Check to see if there is a segment override prefix pending.
2218  * If so, print it in the current 'operand' location and set
2219  * the override flag back to false.
2220  */
2221 /*ARGSUSED*/
2222 static void
2223 dtrace_check_override(dis86_t *x, int opindex)
2224 {
2225 #ifdef DIS_TEXT
2226 	if (x->d86_seg_prefix) {
2227 		(void) strlcat(x->d86_opnd[opindex].d86_prefix,
2228 		    x->d86_seg_prefix, PFIXLEN);
2229 	}
2230 #endif
2231 	x->d86_seg_prefix = NULL;
2232 }
2233 
2234 
2235 /*
2236  * Process a single instruction Register or Memory operand.
2237  *
2238  * mode = addressing mode from ModRM byte
2239  * r_m = r_m (or reg if mode == 3) field from ModRM byte
2240  * wbit = indicates which register (8bit, 16bit, ... MMX, etc.) set to use.
2241  * o = index of operand that we are processing (0, 1 or 2)
2242  *
2243  * the value of reg or r_m must have already been adjusted for any REX prefix.
2244  */
2245 /*ARGSUSED*/
2246 static void
2247 dtrace_get_operand(dis86_t *x, uint_t mode, uint_t r_m, int wbit, int opindex)
2248 {
2249 	int have_SIB = 0;	/* flag presence of scale-index-byte */
2250 	uint_t ss;		/* scale-factor from opcode */
2251 	uint_t index;		/* index register number */
2252 	uint_t base;		/* base register number */
2253 	int dispsize;   	/* size of displacement in bytes */
2254 #ifdef DIS_TEXT
2255 	char *opnd = x->d86_opnd[opindex].d86_opnd;
2256 #endif
2257 
2258 	if (x->d86_numopnds < opindex + 1)
2259 		x->d86_numopnds = opindex + 1;
2260 
2261 	if (x->d86_error)
2262 		return;
2263 
2264 	/*
2265 	 * first handle a simple register
2266 	 */
2267 	if (mode == REG_ONLY) {
2268 #ifdef DIS_TEXT
2269 		switch (wbit) {
2270 		case MM_OPND:
2271 			(void) strlcat(opnd, dis_MMREG[r_m], OPLEN);
2272 			break;
2273 		case XMM_OPND:
2274 			(void) strlcat(opnd, dis_XMMREG[r_m], OPLEN);
2275 			break;
2276 		case YMM_OPND:
2277 			(void) strlcat(opnd, dis_YMMREG[r_m], OPLEN);
2278 			break;
2279 		case SEG_OPND:
2280 			(void) strlcat(opnd, dis_SEGREG[r_m], OPLEN);
2281 			break;
2282 		case CONTROL_OPND:
2283 			(void) strlcat(opnd, dis_CONTROLREG[r_m], OPLEN);
2284 			break;
2285 		case DEBUG_OPND:
2286 			(void) strlcat(opnd, dis_DEBUGREG[r_m], OPLEN);
2287 			break;
2288 		case TEST_OPND:
2289 			(void) strlcat(opnd, dis_TESTREG[r_m], OPLEN);
2290 			break;
2291 		case BYTE_OPND:
2292 			if (x->d86_rex_prefix == 0)
2293 				(void) strlcat(opnd, dis_REG8[r_m], OPLEN);
2294 			else
2295 				(void) strlcat(opnd, dis_REG8_REX[r_m], OPLEN);
2296 			break;
2297 		case WORD_OPND:
2298 			(void) strlcat(opnd, dis_REG16[r_m], OPLEN);
2299 			break;
2300 		case LONG_OPND:
2301 			if (x->d86_opnd_size == SIZE16)
2302 				(void) strlcat(opnd, dis_REG16[r_m], OPLEN);
2303 			else if (x->d86_opnd_size == SIZE32)
2304 				(void) strlcat(opnd, dis_REG32[r_m], OPLEN);
2305 			else
2306 				(void) strlcat(opnd, dis_REG64[r_m], OPLEN);
2307 			break;
2308 		}
2309 #endif /* DIS_TEXT */
2310 		return;
2311 	}
2312 
2313 	/*
2314 	 * if symbolic representation, skip override prefix, if any
2315 	 */
2316 	dtrace_check_override(x, opindex);
2317 
2318 	/*
2319 	 * Handle 16 bit memory references first, since they decode
2320 	 * the mode values more simply.
2321 	 * mode 1 is r_m + 8 bit displacement
2322 	 * mode 2 is r_m + 16 bit displacement
2323 	 * mode 0 is just r_m, unless r_m is 6 which is 16 bit disp
2324 	 */
2325 	if (x->d86_addr_size == SIZE16) {
2326 		if ((mode == 0 && r_m == 6) || mode == 2)
2327 			dtrace_imm_opnd(x, WORD_OPND, 2, opindex);
2328 		else if (mode == 1)
2329 			dtrace_imm_opnd(x, BYTE_OPND, 1, opindex);
2330 #ifdef DIS_TEXT
2331 		if (mode == 0 && r_m == 6)
2332 			x->d86_opnd[opindex].d86_mode = MODE_SIGNED;
2333 		else if (mode == 0)
2334 			x->d86_opnd[opindex].d86_mode = MODE_NONE;
2335 		else
2336 			x->d86_opnd[opindex].d86_mode = MODE_OFFSET;
2337 		(void) strlcat(opnd, dis_addr16[mode][r_m], OPLEN);
2338 #endif
2339 		return;
2340 	}
2341 
2342 	/*
2343 	 * 32 and 64 bit addressing modes are more complex since they
2344 	 * can involve an SIB (scaled index and base) byte to decode.
2345 	 */
2346 	if (r_m == ESP_REGNO || r_m == ESP_REGNO + 8) {
2347 		have_SIB = 1;
2348 		dtrace_get_SIB(x, &ss, &index, &base);
2349 		if (x->d86_error)
2350 			return;
2351 		if (base != 5 || mode != 0)
2352 			if (x->d86_rex_prefix & REX_B)
2353 				base += 8;
2354 		if (x->d86_rex_prefix & REX_X)
2355 			index += 8;
2356 	} else {
2357 		base = r_m;
2358 	}
2359 
2360 	/*
2361 	 * Compute the displacement size and get its bytes
2362 	 */
2363 	dispsize = 0;
2364 
2365 	if (mode == 1)
2366 		dispsize = 1;
2367 	else if (mode == 2)
2368 		dispsize = 4;
2369 	else if ((r_m & 7) == EBP_REGNO ||
2370 	    (have_SIB && (base & 7) == EBP_REGNO))
2371 		dispsize = 4;
2372 
2373 	if (dispsize > 0) {
2374 		dtrace_imm_opnd(x, dispsize == 4 ? LONG_OPND : BYTE_OPND,
2375 		    dispsize, opindex);
2376 		if (x->d86_error)
2377 			return;
2378 	}
2379 
2380 #ifdef DIS_TEXT
2381 	if (dispsize > 0)
2382 		x->d86_opnd[opindex].d86_mode = MODE_OFFSET;
2383 
2384 	if (have_SIB == 0) {
2385 		if (x->d86_mode == SIZE32) {
2386 			if (mode == 0)
2387 				(void) strlcat(opnd, dis_addr32_mode0[r_m],
2388 				    OPLEN);
2389 			else
2390 				(void) strlcat(opnd, dis_addr32_mode12[r_m],
2391 				    OPLEN);
2392 		} else {
2393 			if (mode == 0) {
2394 				(void) strlcat(opnd, dis_addr64_mode0[r_m],
2395 				    OPLEN);
2396 				if (r_m == 5) {
2397 					x->d86_opnd[opindex].d86_mode =
2398 					    MODE_RIPREL;
2399 				}
2400 			} else {
2401 				(void) strlcat(opnd, dis_addr64_mode12[r_m],
2402 				    OPLEN);
2403 			}
2404 		}
2405 	} else {
2406 		uint_t need_paren = 0;
2407 		char **regs;
2408 		if (x->d86_mode == SIZE32) /* NOTE this is not addr_size! */
2409 			regs = (char **)dis_REG32;
2410 		else
2411 			regs = (char **)dis_REG64;
2412 
2413 		/*
2414 		 * print the base (if any)
2415 		 */
2416 		if (base == EBP_REGNO && mode == 0) {
2417 			if (index != ESP_REGNO) {
2418 				(void) strlcat(opnd, "(", OPLEN);
2419 				need_paren = 1;
2420 			}
2421 		} else {
2422 			(void) strlcat(opnd, "(", OPLEN);
2423 			(void) strlcat(opnd, regs[base], OPLEN);
2424 			need_paren = 1;
2425 		}
2426 
2427 		/*
2428 		 * print the index (if any)
2429 		 */
2430 		if (index != ESP_REGNO) {
2431 			(void) strlcat(opnd, ",", OPLEN);
2432 			(void) strlcat(opnd, regs[index], OPLEN);
2433 			(void) strlcat(opnd, dis_scale_factor[ss], OPLEN);
2434 		} else
2435 			if (need_paren)
2436 				(void) strlcat(opnd, ")", OPLEN);
2437 	}
2438 #endif
2439 }
2440 
2441 /*
2442  * Operand sequence for standard instruction involving one register
2443  * and one register/memory operand.
2444  * wbit indicates a byte(0) or opnd_size(1) operation
2445  * vbit indicates direction (0 for "opcode r,r_m") or (1 for "opcode r_m, r")
2446  */
2447 #define	STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, vbit)  {	\
2448 		dtrace_get_modrm(x, &mode, &reg, &r_m);			\
2449 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);	\
2450 		dtrace_get_operand(x, mode, r_m, wbit, vbit);		\
2451 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 1 - vbit);	\
2452 }
2453 
2454 /*
2455  * Similar to above, but allows for the two operands to be of different
2456  * classes (ie. wbit).
2457  *	wbit is for the r_m operand
2458  *	w2 is for the reg operand
2459  */
2460 #define	MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, w2, vbit)	{	\
2461 		dtrace_get_modrm(x, &mode, &reg, &r_m);			\
2462 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);	\
2463 		dtrace_get_operand(x, mode, r_m, wbit, vbit);		\
2464 		dtrace_get_operand(x, REG_ONLY, reg, w2, 1 - vbit);	\
2465 }
2466 
2467 /*
2468  * Similar, but for 2 operands plus an immediate.
2469  * vbit indicates direction
2470  * 	0 for "opcode imm, r, r_m" or
2471  *	1 for "opcode imm, r_m, r"
2472  */
2473 #define	THREEOPERAND(x, mode, reg, r_m, rex_prefix, wbit, w2, immsize, vbit) { \
2474 		dtrace_get_modrm(x, &mode, &reg, &r_m);			\
2475 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);	\
2476 		dtrace_get_operand(x, mode, r_m, wbit, 2-vbit);		\
2477 		dtrace_get_operand(x, REG_ONLY, reg, w2, 1+vbit);	\
2478 		dtrace_imm_opnd(x, wbit, immsize, 0);			\
2479 }
2480 
2481 /*
2482  * Similar, but for 2 operands plus two immediates.
2483  */
2484 #define	FOUROPERAND(x, mode, reg, r_m, rex_prefix, wbit, w2, immsize) { \
2485 		dtrace_get_modrm(x, &mode, &reg, &r_m);			\
2486 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);	\
2487 		dtrace_get_operand(x, mode, r_m, wbit, 2);		\
2488 		dtrace_get_operand(x, REG_ONLY, reg, w2, 3);		\
2489 		dtrace_imm_opnd(x, wbit, immsize, 1);			\
2490 		dtrace_imm_opnd(x, wbit, immsize, 0);			\
2491 }
2492 
2493 /*
2494  * 1 operands plus two immediates.
2495  */
2496 #define	ONEOPERAND_TWOIMM(x, mode, reg, r_m, rex_prefix, wbit, immsize) { \
2497 		dtrace_get_modrm(x, &mode, &reg, &r_m);			\
2498 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);	\
2499 		dtrace_get_operand(x, mode, r_m, wbit, 2);		\
2500 		dtrace_imm_opnd(x, wbit, immsize, 1);			\
2501 		dtrace_imm_opnd(x, wbit, immsize, 0);			\
2502 }
2503 
2504 /*
2505  * Dissassemble a single x86 or amd64 instruction.
2506  *
2507  * Mode determines the default operating mode (SIZE16, SIZE32 or SIZE64)
2508  * for interpreting instructions.
2509  *
2510  * returns non-zero for bad opcode
2511  */
2512 int
2513 dtrace_disx86(dis86_t *x, uint_t cpu_mode)
2514 {
2515 	instable_t *dp;		/* decode table being used */
2516 #ifdef DIS_TEXT
2517 	uint_t i;
2518 #endif
2519 #ifdef DIS_MEM
2520 	uint_t nomem = 0;
2521 #define	NOMEM	(nomem = 1)
2522 #else
2523 #define	NOMEM	/* nothing */
2524 #endif
2525 	uint_t opnd_size;	/* SIZE16, SIZE32 or SIZE64 */
2526 	uint_t addr_size;	/* SIZE16, SIZE32 or SIZE64 */
2527 	uint_t wbit;		/* opcode wbit, 0 is 8 bit, !0 for opnd_size */
2528 	uint_t w2;		/* wbit value for second operand */
2529 	uint_t vbit;
2530 	uint_t mode = 0;	/* mode value from ModRM byte */
2531 	uint_t reg;		/* reg value from ModRM byte */
2532 	uint_t r_m;		/* r_m value from ModRM byte */
2533 
2534 	uint_t opcode1;		/* high nibble of 1st byte */
2535 	uint_t opcode2;		/* low nibble of 1st byte */
2536 	uint_t opcode3;		/* extra opcode bits usually from ModRM byte */
2537 	uint_t opcode4;		/* high nibble of 2nd byte */
2538 	uint_t opcode5;		/* low nibble of 2nd byte */
2539 	uint_t opcode6;		/* high nibble of 3rd byte */
2540 	uint_t opcode7;		/* low nibble of 3rd byte */
2541 	uint_t opcode_bytes = 1;
2542 
2543 	/*
2544 	 * legacy prefixes come in 5 flavors, you should have only one of each
2545 	 */
2546 	uint_t	opnd_size_prefix = 0;
2547 	uint_t	addr_size_prefix = 0;
2548 	uint_t	segment_prefix = 0;
2549 	uint_t	lock_prefix = 0;
2550 	uint_t	rep_prefix = 0;
2551 	uint_t	rex_prefix = 0;	/* amd64 register extension prefix */
2552 
2553 	/*
2554 	 * Intel VEX instruction encoding prefix and fields
2555 	 */
2556 
2557 	/* 0xC4 means 3 bytes prefix, 0xC5 means 2 bytes prefix */
2558 	uint_t vex_prefix = 0;
2559 
2560 	/*
2561 	 * VEX prefix byte 1, includes vex.r, vex.x and vex.b
2562 	 * (for 3 bytes prefix)
2563 	 */
2564 	uint_t vex_byte1 = 0;
2565 
2566 	/*
2567 	 * For 32-bit mode, it should prefetch the next byte to
2568 	 * distinguish between AVX and les/lds
2569 	 */
2570 	uint_t vex_prefetch = 0;
2571 
2572 	uint_t vex_m = 0;
2573 	uint_t vex_v = 0;
2574 	uint_t vex_p = 0;
2575 	uint_t vex_R = 1;
2576 	uint_t vex_X = 1;
2577 	uint_t vex_B = 1;
2578 	uint_t vex_W = 0;
2579 	uint_t vex_L;
2580 
2581 
2582 	size_t	off;
2583 
2584 	instable_t dp_mmx;
2585 
2586 	x->d86_len = 0;
2587 	x->d86_rmindex = -1;
2588 	x->d86_error = 0;
2589 #ifdef DIS_TEXT
2590 	x->d86_numopnds = 0;
2591 	x->d86_seg_prefix = NULL;
2592 	x->d86_mnem[0] = 0;
2593 	for (i = 0; i < 4; ++i) {
2594 		x->d86_opnd[i].d86_opnd[0] = 0;
2595 		x->d86_opnd[i].d86_prefix[0] = 0;
2596 		x->d86_opnd[i].d86_value_size = 0;
2597 		x->d86_opnd[i].d86_value = 0;
2598 		x->d86_opnd[i].d86_mode = MODE_NONE;
2599 	}
2600 #endif
2601 	x->d86_rex_prefix = 0;
2602 	x->d86_got_modrm = 0;
2603 	x->d86_memsize = 0;
2604 
2605 	if (cpu_mode == SIZE16) {
2606 		opnd_size = SIZE16;
2607 		addr_size = SIZE16;
2608 	} else if (cpu_mode == SIZE32) {
2609 		opnd_size = SIZE32;
2610 		addr_size = SIZE32;
2611 	} else {
2612 		opnd_size = SIZE32;
2613 		addr_size = SIZE64;
2614 	}
2615 
2616 	/*
2617 	 * Get one opcode byte and check for zero padding that follows
2618 	 * jump tables.
2619 	 */
2620 	if (dtrace_get_opcode(x, &opcode1, &opcode2) != 0)
2621 		goto error;
2622 
2623 	if (opcode1 == 0 && opcode2 == 0 &&
2624 	    x->d86_check_func != NULL && x->d86_check_func(x->d86_data)) {
2625 #ifdef DIS_TEXT
2626 		(void) strncpy(x->d86_mnem, ".byte\t0", OPLEN);
2627 #endif
2628 		goto done;
2629 	}
2630 
2631 	/*
2632 	 * Gather up legacy x86 prefix bytes.
2633 	 */
2634 	for (;;) {
2635 		uint_t *which_prefix = NULL;
2636 
2637 		dp = (instable_t *)&dis_distable[opcode1][opcode2];
2638 
2639 		switch (dp->it_adrmode) {
2640 		case PREFIX:
2641 			which_prefix = &rep_prefix;
2642 			break;
2643 		case LOCK:
2644 			which_prefix = &lock_prefix;
2645 			break;
2646 		case OVERRIDE:
2647 			which_prefix = &segment_prefix;
2648 #ifdef DIS_TEXT
2649 			x->d86_seg_prefix = (char *)dp->it_name;
2650 #endif
2651 			if (dp->it_invalid64 && cpu_mode == SIZE64)
2652 				goto error;
2653 			break;
2654 		case AM:
2655 			which_prefix = &addr_size_prefix;
2656 			break;
2657 		case DM:
2658 			which_prefix = &opnd_size_prefix;
2659 			break;
2660 		}
2661 		if (which_prefix == NULL)
2662 			break;
2663 		*which_prefix = (opcode1 << 4) | opcode2;
2664 		if (dtrace_get_opcode(x, &opcode1, &opcode2) != 0)
2665 			goto error;
2666 	}
2667 
2668 	/*
2669 	 * Handle amd64 mode PREFIX values.
2670 	 * Some of the segment prefixes are no-ops. (only FS/GS actually work)
2671 	 * We might have a REX prefix (opcodes 0x40-0x4f)
2672 	 */
2673 	if (cpu_mode == SIZE64) {
2674 		if (segment_prefix != 0x64 && segment_prefix != 0x65)
2675 			segment_prefix = 0;
2676 
2677 		if (opcode1 == 0x4) {
2678 			rex_prefix = (opcode1 << 4) | opcode2;
2679 			if (dtrace_get_opcode(x, &opcode1, &opcode2) != 0)
2680 				goto error;
2681 			dp = (instable_t *)&dis_distable[opcode1][opcode2];
2682 		} else if (opcode1 == 0xC &&
2683 		    (opcode2 == 0x4 || opcode2 == 0x5)) {
2684 			/* AVX instructions */
2685 			vex_prefix = (opcode1 << 4) | opcode2;
2686 			x->d86_rex_prefix = 0x40;
2687 		}
2688 	} else if (opcode1 == 0xC && (opcode2 == 0x4 || opcode2 == 0x5)) {
2689 		/* LDS, LES or AVX */
2690 		dtrace_get_modrm(x, &mode, &reg, &r_m);
2691 		vex_prefetch = 1;
2692 
2693 		if (mode == REG_ONLY) {
2694 			/* AVX */
2695 			vex_prefix = (opcode1 << 4) | opcode2;
2696 			x->d86_rex_prefix = 0x40;
2697 			opcode3 = (((mode << 3) | reg)>>1) & 0x0F;
2698 			opcode4 = ((reg << 3) | r_m) & 0x0F;
2699 		}
2700 	}
2701 
2702 	if (vex_prefix == VEX_2bytes) {
2703 		if (!vex_prefetch) {
2704 			if (dtrace_get_opcode(x, &opcode3, &opcode4) != 0)
2705 				goto error;
2706 		}
2707 		vex_R = ((opcode3 & VEX_R) & 0x0F) >> 3;
2708 		vex_L = ((opcode4 & VEX_L) & 0x0F) >> 2;
2709 		vex_v = (((opcode3 << 4) | opcode4) & VEX_v) >> 3;
2710 		vex_p = opcode4 & VEX_p;
2711 		/*
2712 		 * The vex.x and vex.b bits are not defined in two bytes
2713 		 * mode vex prefix, their default values are 1
2714 		 */
2715 		vex_byte1 = (opcode3 & VEX_R) | VEX_X | VEX_B;
2716 
2717 		if (vex_R == 0)
2718 			x->d86_rex_prefix |= REX_R;
2719 
2720 		if (dtrace_get_opcode(x, &opcode1, &opcode2) != 0)
2721 			goto error;
2722 
2723 		switch (vex_p) {
2724 			case VEX_p_66:
2725 				dp = (instable_t *)
2726 				    &dis_opAVX660F[(opcode1 << 4) | opcode2];
2727 				break;
2728 			case VEX_p_F3:
2729 				dp = (instable_t *)
2730 				    &dis_opAVXF30F[(opcode1 << 4) | opcode2];
2731 				break;
2732 			case VEX_p_F2:
2733 				dp = (instable_t *)
2734 				    &dis_opAVXF20F [(opcode1 << 4) | opcode2];
2735 				break;
2736 			default:
2737 				dp = (instable_t *)
2738 				    &dis_opAVX0F[opcode1][opcode2];
2739 
2740 		}
2741 
2742 	} else if (vex_prefix == VEX_3bytes) {
2743 		if (!vex_prefetch) {
2744 			if (dtrace_get_opcode(x, &opcode3, &opcode4) != 0)
2745 				goto error;
2746 		}
2747 		vex_R = (opcode3 & VEX_R) >> 3;
2748 		vex_X = (opcode3 & VEX_X) >> 2;
2749 		vex_B = (opcode3 & VEX_B) >> 1;
2750 		vex_m = (((opcode3 << 4) | opcode4) & VEX_m);
2751 		vex_byte1 = opcode3 & (VEX_R | VEX_X | VEX_B);
2752 
2753 		if (vex_R == 0)
2754 			x->d86_rex_prefix |= REX_R;
2755 		if (vex_X == 0)
2756 			x->d86_rex_prefix |= REX_X;
2757 		if (vex_B == 0)
2758 			x->d86_rex_prefix |= REX_B;
2759 
2760 		if (dtrace_get_opcode(x, &opcode5, &opcode6) != 0)
2761 			goto error;
2762 		vex_W = (opcode5 & VEX_W) >> 3;
2763 		vex_L = (opcode6 & VEX_L) >> 2;
2764 		vex_v = (((opcode5 << 4) | opcode6) & VEX_v) >> 3;
2765 		vex_p = opcode6 & VEX_p;
2766 
2767 		if (vex_W)
2768 			x->d86_rex_prefix |= REX_W;
2769 
2770 		/* Only these three vex_m values valid; others are reserved */
2771 		if ((vex_m != VEX_m_0F) && (vex_m != VEX_m_0F38) &&
2772 		    (vex_m != VEX_m_0F3A))
2773 			goto error;
2774 
2775 		if (dtrace_get_opcode(x, &opcode1, &opcode2) != 0)
2776 			goto error;
2777 
2778 		switch (vex_p) {
2779 			case VEX_p_66:
2780 				if (vex_m == VEX_m_0F) {
2781 					dp = (instable_t *)
2782 					    &dis_opAVX660F
2783 					    [(opcode1 << 4) | opcode2];
2784 				} else if (vex_m == VEX_m_0F38) {
2785 					dp = (instable_t *)
2786 					    &dis_opAVX660F38
2787 					    [(opcode1 << 4) | opcode2];
2788 				} else if (vex_m == VEX_m_0F3A) {
2789 					dp = (instable_t *)
2790 					    &dis_opAVX660F3A
2791 					    [(opcode1 << 4) | opcode2];
2792 				} else {
2793 					goto error;
2794 				}
2795 				break;
2796 			case VEX_p_F3:
2797 				if (vex_m == VEX_m_0F) {
2798 					dp = (instable_t *)
2799 					    &dis_opAVXF30F
2800 					    [(opcode1 << 4) | opcode2];
2801 				} else {
2802 					goto error;
2803 				}
2804 				break;
2805 			case VEX_p_F2:
2806 				if (vex_m == VEX_m_0F) {
2807 					dp = (instable_t *)
2808 					    &dis_opAVXF20F
2809 					    [(opcode1 << 4) | opcode2];
2810 				} else {
2811 					goto error;
2812 				}
2813 				break;
2814 			default:
2815 				dp = (instable_t *)
2816 				    &dis_opAVX0F[opcode1][opcode2];
2817 
2818 		}
2819 	}
2820 	if (vex_prefix) {
2821 		if (vex_L)
2822 			wbit = YMM_OPND;
2823 		else
2824 			wbit = XMM_OPND;
2825 	}
2826 
2827 	/*
2828 	 * Deal with selection of operand and address size now.
2829 	 * Note that the REX.W bit being set causes opnd_size_prefix to be
2830 	 * ignored.
2831 	 */
2832 	if (cpu_mode == SIZE64) {
2833 		if ((rex_prefix & REX_W) || vex_W)
2834 			opnd_size = SIZE64;
2835 		else if (opnd_size_prefix)
2836 			opnd_size = SIZE16;
2837 
2838 		if (addr_size_prefix)
2839 			addr_size = SIZE32;
2840 	} else if (cpu_mode == SIZE32) {
2841 		if (opnd_size_prefix)
2842 			opnd_size = SIZE16;
2843 		if (addr_size_prefix)
2844 			addr_size = SIZE16;
2845 	} else {
2846 		if (opnd_size_prefix)
2847 			opnd_size = SIZE32;
2848 		if (addr_size_prefix)
2849 			addr_size = SIZE32;
2850 	}
2851 	/*
2852 	 * The pause instruction - a repz'd nop.  This doesn't fit
2853 	 * with any of the other prefix goop added for SSE, so we'll
2854 	 * special-case it here.
2855 	 */
2856 	if (rep_prefix == 0xf3 && opcode1 == 0x9 && opcode2 == 0x0) {
2857 		rep_prefix = 0;
2858 		dp = (instable_t *)&dis_opPause;
2859 	}
2860 
2861 	/*
2862 	 * Some 386 instructions have 2 bytes of opcode before the mod_r/m
2863 	 * byte so we may need to perform a table indirection.
2864 	 */
2865 	if (dp->it_indirect == (instable_t *)dis_op0F) {
2866 		if (dtrace_get_opcode(x, &opcode4, &opcode5) != 0)
2867 			goto error;
2868 		opcode_bytes = 2;
2869 		if (opcode4 == 0x7 && opcode5 >= 0x1 && opcode5 <= 0x3) {
2870 			uint_t	subcode;
2871 
2872 			if (dtrace_get_opcode(x, &opcode6, &opcode7) != 0)
2873 				goto error;
2874 			opcode_bytes = 3;
2875 			subcode = ((opcode6 & 0x3) << 1) |
2876 			    ((opcode7 & 0x8) >> 3);
2877 			dp = (instable_t *)&dis_op0F7123[opcode5][subcode];
2878 		} else if ((opcode4 == 0xc) && (opcode5 >= 0x8)) {
2879 			dp = (instable_t *)&dis_op0FC8[0];
2880 		} else if ((opcode4 == 0x3) && (opcode5 == 0xA)) {
2881 			opcode_bytes = 3;
2882 			if (dtrace_get_opcode(x, &opcode6, &opcode7) != 0)
2883 				goto error;
2884 			if (opnd_size == SIZE16)
2885 				opnd_size = SIZE32;
2886 
2887 			dp = (instable_t *)&dis_op0F3A[(opcode6<<4)|opcode7];
2888 #ifdef DIS_TEXT
2889 			if (strcmp(dp->it_name, "INVALID") == 0)
2890 				goto error;
2891 #endif
2892 			switch (dp->it_adrmode) {
2893 				case XMMP_66r:
2894 				case XMMPRM_66r:
2895 				case XMM3PM_66r:
2896 					if (opnd_size_prefix == 0) {
2897 						goto error;
2898 					}
2899 					break;
2900 				case XMMP_66o:
2901 					if (opnd_size_prefix == 0) {
2902 						/* SSSE3 MMX instructions */
2903 						dp_mmx = *dp;
2904 						dp = &dp_mmx;
2905 						dp->it_adrmode = MMOPM_66o;
2906 #ifdef	DIS_MEM
2907 						dp->it_size = 8;
2908 #endif
2909 					}
2910 					break;
2911 				default:
2912 					goto error;
2913 			}
2914 		} else if ((opcode4 == 0x3) && (opcode5 == 0x8)) {
2915 			opcode_bytes = 3;
2916 			if (dtrace_get_opcode(x, &opcode6, &opcode7) != 0)
2917 				goto error;
2918 			dp = (instable_t *)&dis_op0F38[(opcode6<<4)|opcode7];
2919 
2920 			/*
2921 			 * Both crc32 and movbe have the same 3rd opcode
2922 			 * byte of either 0xF0 or 0xF1, so we use another
2923 			 * indirection to distinguish between the two.
2924 			 */
2925 			if (dp->it_indirect == (instable_t *)dis_op0F38F0 ||
2926 			    dp->it_indirect == (instable_t *)dis_op0F38F1) {
2927 
2928 				dp = dp->it_indirect;
2929 				if (rep_prefix != 0xF2) {
2930 					/* It is movbe */
2931 					dp++;
2932 				}
2933 			}
2934 #ifdef DIS_TEXT
2935 			if (strcmp(dp->it_name, "INVALID") == 0)
2936 				goto error;
2937 #endif
2938 			switch (dp->it_adrmode) {
2939 				case RM_66r:
2940 				case XMM_66r:
2941 				case XMMM_66r:
2942 					if (opnd_size_prefix == 0) {
2943 						goto error;
2944 					}
2945 					break;
2946 				case XMM_66o:
2947 					if (opnd_size_prefix == 0) {
2948 						/* SSSE3 MMX instructions */
2949 						dp_mmx = *dp;
2950 						dp = &dp_mmx;
2951 						dp->it_adrmode = MM;
2952 #ifdef	DIS_MEM
2953 						dp->it_size = 8;
2954 #endif
2955 					}
2956 					break;
2957 				case CRC32:
2958 					if (rep_prefix != 0xF2) {
2959 						goto error;
2960 					}
2961 					rep_prefix = 0;
2962 					break;
2963 				case MOVBE:
2964 					if (rep_prefix != 0x0) {
2965 						goto error;
2966 					}
2967 					break;
2968 				default:
2969 					goto error;
2970 			}
2971 		} else {
2972 			dp = (instable_t *)&dis_op0F[opcode4][opcode5];
2973 		}
2974 	}
2975 
2976 	/*
2977 	 * If still not at a TERM decode entry, then a ModRM byte
2978 	 * exists and its fields further decode the instruction.
2979 	 */
2980 	x->d86_got_modrm = 0;
2981 	if (dp->it_indirect != TERM) {
2982 		dtrace_get_modrm(x, &mode, &opcode3, &r_m);
2983 		if (x->d86_error)
2984 			goto error;
2985 		reg = opcode3;
2986 
2987 		/*
2988 		 * decode 287 instructions (D8-DF) from opcodeN
2989 		 */
2990 		if (opcode1 == 0xD && opcode2 >= 0x8) {
2991 			if (opcode2 == 0xB && mode == 0x3 && opcode3 == 4)
2992 				dp = (instable_t *)&dis_opFP5[r_m];
2993 			else if (opcode2 == 0xA && mode == 0x3 && opcode3 < 4)
2994 				dp = (instable_t *)&dis_opFP7[opcode3];
2995 			else if (opcode2 == 0xB && mode == 0x3)
2996 				dp = (instable_t *)&dis_opFP6[opcode3];
2997 			else if (opcode2 == 0x9 && mode == 0x3 && opcode3 >= 4)
2998 				dp = (instable_t *)&dis_opFP4[opcode3 - 4][r_m];
2999 			else if (mode == 0x3)
3000 				dp = (instable_t *)
3001 				    &dis_opFP3[opcode2 - 8][opcode3];
3002 			else
3003 				dp = (instable_t *)
3004 				    &dis_opFP1n2[opcode2 - 8][opcode3];
3005 		} else {
3006 			dp = (instable_t *)dp->it_indirect + opcode3;
3007 		}
3008 	}
3009 
3010 	/*
3011 	 * In amd64 bit mode, ARPL opcode is changed to MOVSXD
3012 	 * (sign extend 32bit to 64 bit)
3013 	 */
3014 	if ((vex_prefix == 0) && cpu_mode == SIZE64 &&
3015 	    opcode1 == 0x6 && opcode2 == 0x3)
3016 		dp = (instable_t *)&dis_opMOVSLD;
3017 
3018 	/*
3019 	 * at this point we should have a correct (or invalid) opcode
3020 	 */
3021 	if (cpu_mode == SIZE64 && dp->it_invalid64 ||
3022 	    cpu_mode != SIZE64 && dp->it_invalid32)
3023 		goto error;
3024 	if (dp->it_indirect != TERM)
3025 		goto error;
3026 
3027 	/*
3028 	 * deal with MMX/SSE opcodes which are changed by prefixes
3029 	 */
3030 	switch (dp->it_adrmode) {
3031 	case MMO:
3032 	case MMOIMPL:
3033 	case MMO3P:
3034 	case MMOM3:
3035 	case MMOMS:
3036 	case MMOPM:
3037 	case MMOPRM:
3038 	case MMOS:
3039 	case XMMO:
3040 	case XMMOM:
3041 	case XMMOMS:
3042 	case XMMOPM:
3043 	case XMMOS:
3044 	case XMMOMX:
3045 	case XMMOX3:
3046 	case XMMOXMM:
3047 		/*
3048 		 * This is horrible.  Some SIMD instructions take the
3049 		 * form 0x0F 0x?? ..., which is easily decoded using the
3050 		 * existing tables.  Other SIMD instructions use various
3051 		 * prefix bytes to overload existing instructions.  For
3052 		 * Example, addps is F0, 58, whereas addss is F3 (repz),
3053 		 * F0, 58.  Presumably someone got a raise for this.
3054 		 *
3055 		 * If we see one of the instructions which can be
3056 		 * modified in this way (if we've got one of the SIMDO*
3057 		 * address modes), we'll check to see if the last prefix
3058 		 * was a repz.  If it was, we strip the prefix from the
3059 		 * mnemonic, and we indirect using the dis_opSIMDrepz
3060 		 * table.
3061 		 */
3062 
3063 		/*
3064 		 * Calculate our offset in dis_op0F
3065 		 */
3066 		if ((uintptr_t)dp - (uintptr_t)dis_op0F > sizeof (dis_op0F))
3067 			goto error;
3068 
3069 		off = ((uintptr_t)dp - (uintptr_t)dis_op0F) /
3070 		    sizeof (instable_t);
3071 
3072 		/*
3073 		 * Rewrite if this instruction used one of the magic prefixes.
3074 		 */
3075 		if (rep_prefix) {
3076 			if (rep_prefix == 0xf2)
3077 				dp = (instable_t *)&dis_opSIMDrepnz[off];
3078 			else
3079 				dp = (instable_t *)&dis_opSIMDrepz[off];
3080 			rep_prefix = 0;
3081 		} else if (opnd_size_prefix) {
3082 			dp = (instable_t *)&dis_opSIMDdata16[off];
3083 			opnd_size_prefix = 0;
3084 			if (opnd_size == SIZE16)
3085 				opnd_size = SIZE32;
3086 		}
3087 		break;
3088 
3089 	case MG9:
3090 		/*
3091 		 * More horribleness: the group 9 (0xF0 0xC7) instructions are
3092 		 * allowed an optional prefix of 0x66 or 0xF3.  This is similar
3093 		 * to the SIMD business described above, but with a different
3094 		 * addressing mode (and an indirect table), so we deal with it
3095 		 * separately (if similarly).
3096 		 *
3097 		 * Intel further complicated this with the release of Ivy Bridge
3098 		 * where they overloaded these instructions based on the ModR/M
3099 		 * bytes. The VMX instructions have a mode of 0 since they are
3100 		 * memory instructions but rdrand instructions have a mode of
3101 		 * 0b11 (REG_ONLY) because they only operate on registers. While
3102 		 * there are different prefix formats, for now it is sufficient
3103 		 * to use a single different table.
3104 		 */
3105 
3106 		/*
3107 		 * Calculate our offset in dis_op0FC7 (the group 9 table)
3108 		 */
3109 		if ((uintptr_t)dp - (uintptr_t)dis_op0FC7 > sizeof (dis_op0FC7))
3110 			goto error;
3111 
3112 		off = ((uintptr_t)dp - (uintptr_t)dis_op0FC7) /
3113 		    sizeof (instable_t);
3114 
3115 		/*
3116 		 * If we have a mode of 0b11 then we have to rewrite this.
3117 		 */
3118 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3119 		if (mode == REG_ONLY) {
3120 			dp = (instable_t *)&dis_op0FC7m3[off];
3121 			break;
3122 		}
3123 
3124 		/*
3125 		 * Rewrite if this instruction used one of the magic prefixes.
3126 		 */
3127 		if (rep_prefix) {
3128 			if (rep_prefix == 0xf3)
3129 				dp = (instable_t *)&dis_opF30FC7[off];
3130 			else
3131 				goto error;
3132 			rep_prefix = 0;
3133 		} else if (opnd_size_prefix) {
3134 			dp = (instable_t *)&dis_op660FC7[off];
3135 			opnd_size_prefix = 0;
3136 			if (opnd_size == SIZE16)
3137 				opnd_size = SIZE32;
3138 		}
3139 		break;
3140 
3141 
3142 	case MMOSH:
3143 		/*
3144 		 * As with the "normal" SIMD instructions, the MMX
3145 		 * shuffle instructions are overloaded.  These
3146 		 * instructions, however, are special in that they use
3147 		 * an extra byte, and thus an extra table.  As of this
3148 		 * writing, they only use the opnd_size prefix.
3149 		 */
3150 
3151 		/*
3152 		 * Calculate our offset in dis_op0F7123
3153 		 */
3154 		if ((uintptr_t)dp - (uintptr_t)dis_op0F7123 >
3155 		    sizeof (dis_op0F7123))
3156 			goto error;
3157 
3158 		if (opnd_size_prefix) {
3159 			off = ((uintptr_t)dp - (uintptr_t)dis_op0F7123) /
3160 			    sizeof (instable_t);
3161 			dp = (instable_t *)&dis_opSIMD7123[off];
3162 			opnd_size_prefix = 0;
3163 			if (opnd_size == SIZE16)
3164 				opnd_size = SIZE32;
3165 		}
3166 		break;
3167 	case MRw:
3168 		if (rep_prefix) {
3169 			if (rep_prefix == 0xf3) {
3170 
3171 				/*
3172 				 * Calculate our offset in dis_op0F
3173 				 */
3174 				if ((uintptr_t)dp - (uintptr_t)dis_op0F
3175 				    > sizeof (dis_op0F))
3176 					goto error;
3177 
3178 				off = ((uintptr_t)dp - (uintptr_t)dis_op0F) /
3179 				    sizeof (instable_t);
3180 
3181 				dp = (instable_t *)&dis_opSIMDrepz[off];
3182 				rep_prefix = 0;
3183 			} else {
3184 				goto error;
3185 			}
3186 		}
3187 		break;
3188 	}
3189 
3190 	/*
3191 	 * In 64 bit mode, some opcodes automatically use opnd_size == SIZE64.
3192 	 */
3193 	if (cpu_mode == SIZE64)
3194 		if (dp->it_always64 || (opnd_size == SIZE32 && dp->it_stackop))
3195 			opnd_size = SIZE64;
3196 
3197 #ifdef DIS_TEXT
3198 	/*
3199 	 * At this point most instructions can format the opcode mnemonic
3200 	 * including the prefixes.
3201 	 */
3202 	if (lock_prefix)
3203 		(void) strlcat(x->d86_mnem, "lock ", OPLEN);
3204 
3205 	if (rep_prefix == 0xf2)
3206 		(void) strlcat(x->d86_mnem, "repnz ", OPLEN);
3207 	else if (rep_prefix == 0xf3)
3208 		(void) strlcat(x->d86_mnem, "repz ", OPLEN);
3209 
3210 	if (cpu_mode == SIZE64 && addr_size_prefix)
3211 		(void) strlcat(x->d86_mnem, "addr32 ", OPLEN);
3212 
3213 	if (dp->it_adrmode != CBW &&
3214 	    dp->it_adrmode != CWD &&
3215 	    dp->it_adrmode != XMMSFNC) {
3216 		if (strcmp(dp->it_name, "INVALID") == 0)
3217 			goto error;
3218 		(void) strlcat(x->d86_mnem, dp->it_name, OPLEN);
3219 		if (dp->it_suffix) {
3220 			char *types[] = {"", "w", "l", "q"};
3221 			if (opcode_bytes == 2 && opcode4 == 4) {
3222 				/* It's a cmovx.yy. Replace the suffix x */
3223 				for (i = 5; i < OPLEN; i++) {
3224 					if (x->d86_mnem[i] == '.')
3225 						break;
3226 				}
3227 				x->d86_mnem[i - 1] = *types[opnd_size];
3228 			} else if ((opnd_size == 2) && (opcode_bytes == 3) &&
3229 			    ((opcode6 == 1 && opcode7 == 6) ||
3230 			    (opcode6 == 2 && opcode7 == 2))) {
3231 				/*
3232 				 * To handle PINSRD and PEXTRD
3233 				 */
3234 				(void) strlcat(x->d86_mnem, "d", OPLEN);
3235 			} else {
3236 				(void) strlcat(x->d86_mnem, types[opnd_size],
3237 				    OPLEN);
3238 			}
3239 		}
3240 	}
3241 #endif
3242 
3243 	/*
3244 	 * Process operands based on the addressing modes.
3245 	 */
3246 	x->d86_mode = cpu_mode;
3247 	/*
3248 	 * In vex mode the rex_prefix has no meaning
3249 	 */
3250 	if (!vex_prefix)
3251 		x->d86_rex_prefix = rex_prefix;
3252 	x->d86_opnd_size = opnd_size;
3253 	x->d86_addr_size = addr_size;
3254 	vbit = 0;		/* initialize for mem/reg -> reg */
3255 	switch (dp->it_adrmode) {
3256 		/*
3257 		 * amd64 instruction to sign extend 32 bit reg/mem operands
3258 		 * into 64 bit register values
3259 		 */
3260 	case MOVSXZ:
3261 #ifdef DIS_TEXT
3262 		if (rex_prefix == 0)
3263 			(void) strncpy(x->d86_mnem, "movzld", OPLEN);
3264 #endif
3265 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3266 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3267 		x->d86_opnd_size = SIZE64;
3268 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 1);
3269 		x->d86_opnd_size = opnd_size = SIZE32;
3270 		wbit = LONG_OPND;
3271 		dtrace_get_operand(x, mode, r_m, wbit, 0);
3272 		break;
3273 
3274 		/*
3275 		 * movsbl movsbw movsbq (0x0FBE) or movswl movswq (0x0FBF)
3276 		 * movzbl movzbw movzbq (0x0FB6) or movzwl movzwq (0x0FB7)
3277 		 * wbit lives in 2nd byte, note that operands
3278 		 * are different sized
3279 		 */
3280 	case MOVZ:
3281 		if (rex_prefix & REX_W) {
3282 			/* target register size = 64 bit */
3283 			x->d86_mnem[5] = 'q';
3284 		}
3285 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3286 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3287 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 1);
3288 		x->d86_opnd_size = opnd_size = SIZE16;
3289 		wbit = WBIT(opcode5);
3290 		dtrace_get_operand(x, mode, r_m, wbit, 0);
3291 		break;
3292 	case CRC32:
3293 		opnd_size = SIZE32;
3294 		if (rex_prefix & REX_W)
3295 			opnd_size = SIZE64;
3296 		x->d86_opnd_size = opnd_size;
3297 
3298 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3299 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3300 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 1);
3301 		wbit = WBIT(opcode7);
3302 		if (opnd_size_prefix)
3303 			x->d86_opnd_size = opnd_size = SIZE16;
3304 		dtrace_get_operand(x, mode, r_m, wbit, 0);
3305 		break;
3306 	case MOVBE:
3307 		opnd_size = SIZE32;
3308 		if (rex_prefix & REX_W)
3309 			opnd_size = SIZE64;
3310 		x->d86_opnd_size = opnd_size;
3311 
3312 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3313 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3314 		wbit = WBIT(opcode7);
3315 		if (opnd_size_prefix)
3316 			x->d86_opnd_size = opnd_size = SIZE16;
3317 		if (wbit) {
3318 			/* reg -> mem */
3319 			dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 0);
3320 			dtrace_get_operand(x, mode, r_m, wbit, 1);
3321 		} else {
3322 			/* mem -> reg */
3323 			dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 1);
3324 			dtrace_get_operand(x, mode, r_m, wbit, 0);
3325 		}
3326 		break;
3327 
3328 	/*
3329 	 * imul instruction, with either 8-bit or longer immediate
3330 	 * opcode 0x6B for byte, sign-extended displacement, 0x69 for word(s)
3331 	 */
3332 	case IMUL:
3333 		wbit = LONG_OPND;
3334 		THREEOPERAND(x, mode, reg, r_m, rex_prefix, wbit, LONG_OPND,
3335 		    OPSIZE(opnd_size, opcode2 == 0x9), 1);
3336 		break;
3337 
3338 	/* memory or register operand to register, with 'w' bit	*/
3339 	case MRw:
3340 		wbit = WBIT(opcode2);
3341 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 0);
3342 		break;
3343 
3344 	/* register to memory or register operand, with 'w' bit	*/
3345 	/* arpl happens to fit here also because it is odd */
3346 	case RMw:
3347 		if (opcode_bytes == 2)
3348 			wbit = WBIT(opcode5);
3349 		else
3350 			wbit = WBIT(opcode2);
3351 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 1);
3352 		break;
3353 
3354 	/* xaddb instruction */
3355 	case XADDB:
3356 		wbit = 0;
3357 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 1);
3358 		break;
3359 
3360 	/* MMX register to memory or register operand		*/
3361 	case MMS:
3362 	case MMOS:
3363 #ifdef DIS_TEXT
3364 		wbit = strcmp(dp->it_name, "movd") ? MM_OPND : LONG_OPND;
3365 #else
3366 		wbit = LONG_OPND;
3367 #endif
3368 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, MM_OPND, 1);
3369 		break;
3370 
3371 	/* MMX register to memory */
3372 	case MMOMS:
3373 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3374 		if (mode == REG_ONLY)
3375 			goto error;
3376 		wbit = MM_OPND;
3377 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, MM_OPND, 1);
3378 		break;
3379 
3380 	/* Double shift. Has immediate operand specifying the shift. */
3381 	case DSHIFT:
3382 		wbit = LONG_OPND;
3383 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3384 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3385 		dtrace_get_operand(x, mode, r_m, wbit, 2);
3386 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 1);
3387 		dtrace_imm_opnd(x, wbit, 1, 0);
3388 		break;
3389 
3390 	/*
3391 	 * Double shift. With no immediate operand, specifies using %cl.
3392 	 */
3393 	case DSHIFTcl:
3394 		wbit = LONG_OPND;
3395 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 1);
3396 		break;
3397 
3398 	/* immediate to memory or register operand */
3399 	case IMlw:
3400 		wbit = WBIT(opcode2);
3401 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3402 		dtrace_get_operand(x, mode, r_m, wbit, 1);
3403 		/*
3404 		 * Have long immediate for opcode 0x81, but not 0x80 nor 0x83
3405 		 */
3406 		dtrace_imm_opnd(x, wbit, OPSIZE(opnd_size, opcode2 == 1), 0);
3407 		break;
3408 
3409 	/* immediate to memory or register operand with the	*/
3410 	/* 'w' bit present					*/
3411 	case IMw:
3412 		wbit = WBIT(opcode2);
3413 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3414 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3415 		dtrace_get_operand(x, mode, r_m, wbit, 1);
3416 		dtrace_imm_opnd(x, wbit, OPSIZE(opnd_size, wbit), 0);
3417 		break;
3418 
3419 	/* immediate to register with register in low 3 bits	*/
3420 	/* of op code						*/
3421 	case IR:
3422 		/* w-bit here (with regs) is bit 3 */
3423 		wbit = opcode2 >>3 & 0x1;
3424 		reg = REGNO(opcode2);
3425 		dtrace_rex_adjust(rex_prefix, mode, &reg, NULL);
3426 		mode = REG_ONLY;
3427 		r_m = reg;
3428 		dtrace_get_operand(x, mode, r_m, wbit, 1);
3429 		dtrace_imm_opnd(x, wbit, OPSIZE64(opnd_size, wbit), 0);
3430 		break;
3431 
3432 	/* MMX immediate shift of register */
3433 	case MMSH:
3434 	case MMOSH:
3435 		wbit = MM_OPND;
3436 		goto mm_shift;	/* in next case */
3437 
3438 	/* SIMD immediate shift of register */
3439 	case XMMSH:
3440 		wbit = XMM_OPND;
3441 mm_shift:
3442 		reg = REGNO(opcode7);
3443 		dtrace_rex_adjust(rex_prefix, mode, &reg, NULL);
3444 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
3445 		dtrace_imm_opnd(x, wbit, 1, 0);
3446 		NOMEM;
3447 		break;
3448 
3449 	/* accumulator to memory operand */
3450 	case AO:
3451 		vbit = 1;
3452 		/*FALLTHROUGH*/
3453 
3454 	/* memory operand to accumulator */
3455 	case OA:
3456 		wbit = WBIT(opcode2);
3457 		dtrace_get_operand(x, REG_ONLY, EAX_REGNO, wbit, 1 - vbit);
3458 		dtrace_imm_opnd(x, wbit, OPSIZE64(addr_size, LONG_OPND), vbit);
3459 #ifdef DIS_TEXT
3460 		x->d86_opnd[vbit].d86_mode = MODE_OFFSET;
3461 #endif
3462 		break;
3463 
3464 
3465 	/* segment register to memory or register operand */
3466 	case SM:
3467 		vbit = 1;
3468 		/*FALLTHROUGH*/
3469 
3470 	/* memory or register operand to segment register */
3471 	case MS:
3472 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3473 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3474 		dtrace_get_operand(x, mode, r_m, LONG_OPND, vbit);
3475 		dtrace_get_operand(x, REG_ONLY, reg, SEG_OPND, 1 - vbit);
3476 		break;
3477 
3478 	/*
3479 	 * rotate or shift instructions, which may shift by 1 or
3480 	 * consult the cl register, depending on the 'v' bit
3481 	 */
3482 	case Mv:
3483 		vbit = VBIT(opcode2);
3484 		wbit = WBIT(opcode2);
3485 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3486 		dtrace_get_operand(x, mode, r_m, wbit, 1);
3487 #ifdef DIS_TEXT
3488 		if (vbit) {
3489 			(void) strlcat(x->d86_opnd[0].d86_opnd, "%cl", OPLEN);
3490 		} else {
3491 			x->d86_opnd[0].d86_mode = MODE_SIGNED;
3492 			x->d86_opnd[0].d86_value_size = 1;
3493 			x->d86_opnd[0].d86_value = 1;
3494 		}
3495 #endif
3496 		break;
3497 	/*
3498 	 * immediate rotate or shift instructions
3499 	 */
3500 	case MvI:
3501 		wbit = WBIT(opcode2);
3502 normal_imm_mem:
3503 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3504 		dtrace_get_operand(x, mode, r_m, wbit, 1);
3505 		dtrace_imm_opnd(x, wbit, 1, 0);
3506 		break;
3507 
3508 	/* bit test instructions */
3509 	case MIb:
3510 		wbit = LONG_OPND;
3511 		goto normal_imm_mem;
3512 
3513 	/* single memory or register operand with 'w' bit present */
3514 	case Mw:
3515 		wbit = WBIT(opcode2);
3516 just_mem:
3517 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3518 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3519 		dtrace_get_operand(x, mode, r_m, wbit, 0);
3520 		break;
3521 
3522 	case SWAPGS_RDTSCP:
3523 		if (cpu_mode == SIZE64 && mode == 3 && r_m == 0) {
3524 #ifdef DIS_TEXT
3525 			(void) strncpy(x->d86_mnem, "swapgs", OPLEN);
3526 #endif
3527 			NOMEM;
3528 			break;
3529 		} else if (mode == 3 && r_m == 1) {
3530 #ifdef DIS_TEXT
3531 			(void) strncpy(x->d86_mnem, "rdtscp", OPLEN);
3532 #endif
3533 			NOMEM;
3534 			break;
3535 		}
3536 
3537 		/*FALLTHROUGH*/
3538 
3539 	/* prefetch instruction - memory operand, but no memory acess */
3540 	case PREF:
3541 		NOMEM;
3542 		/*FALLTHROUGH*/
3543 
3544 	/* single memory or register operand */
3545 	case M:
3546 	case MG9:
3547 		wbit = LONG_OPND;
3548 		goto just_mem;
3549 
3550 	/* single memory or register byte operand */
3551 	case Mb:
3552 		wbit = BYTE_OPND;
3553 		goto just_mem;
3554 
3555 	case VMx:
3556 		if (mode == 3) {
3557 #ifdef DIS_TEXT
3558 			char *vminstr;
3559 
3560 			switch (r_m) {
3561 			case 1:
3562 				vminstr = "vmcall";
3563 				break;
3564 			case 2:
3565 				vminstr = "vmlaunch";
3566 				break;
3567 			case 3:
3568 				vminstr = "vmresume";
3569 				break;
3570 			case 4:
3571 				vminstr = "vmxoff";
3572 				break;
3573 			default:
3574 				goto error;
3575 			}
3576 
3577 			(void) strncpy(x->d86_mnem, vminstr, OPLEN);
3578 #else
3579 			if (r_m < 1 || r_m > 4)
3580 				goto error;
3581 #endif
3582 
3583 			NOMEM;
3584 			break;
3585 		}
3586 		/*FALLTHROUGH*/
3587 	case SVM:
3588 		if (mode == 3) {
3589 #if DIS_TEXT
3590 			char *vinstr;
3591 
3592 			switch (r_m) {
3593 			case 0:
3594 				vinstr = "vmrun";
3595 				break;
3596 			case 1:
3597 				vinstr = "vmmcall";
3598 				break;
3599 			case 2:
3600 				vinstr = "vmload";
3601 				break;
3602 			case 3:
3603 				vinstr = "vmsave";
3604 				break;
3605 			case 4:
3606 				vinstr = "stgi";
3607 				break;
3608 			case 5:
3609 				vinstr = "clgi";
3610 				break;
3611 			case 6:
3612 				vinstr = "skinit";
3613 				break;
3614 			case 7:
3615 				vinstr = "invlpga";
3616 				break;
3617 			}
3618 
3619 			(void) strncpy(x->d86_mnem, vinstr, OPLEN);
3620 #endif
3621 			NOMEM;
3622 			break;
3623 		}
3624 		/*FALLTHROUGH*/
3625 	case MONITOR_MWAIT:
3626 		if (mode == 3) {
3627 			if (r_m == 0) {
3628 #ifdef DIS_TEXT
3629 				(void) strncpy(x->d86_mnem, "monitor", OPLEN);
3630 #endif
3631 				NOMEM;
3632 				break;
3633 			} else if (r_m == 1) {
3634 #ifdef DIS_TEXT
3635 				(void) strncpy(x->d86_mnem, "mwait", OPLEN);
3636 #endif
3637 				NOMEM;
3638 				break;
3639 			} else {
3640 				goto error;
3641 			}
3642 		}
3643 		/*FALLTHROUGH*/
3644 	case XGETBV_XSETBV:
3645 		if (mode == 3) {
3646 			if (r_m == 0) {
3647 #ifdef DIS_TEXT
3648 				(void) strncpy(x->d86_mnem, "xgetbv", OPLEN);
3649 #endif
3650 				NOMEM;
3651 				break;
3652 			} else if (r_m == 1) {
3653 #ifdef DIS_TEXT
3654 				(void) strncpy(x->d86_mnem, "xsetbv", OPLEN);
3655 #endif
3656 				NOMEM;
3657 				break;
3658 			} else {
3659 				goto error;
3660 			}
3661 
3662 		}
3663 		/*FALLTHROUGH*/
3664 	case MO:
3665 		/* Similar to M, but only memory (no direct registers) */
3666 		wbit = LONG_OPND;
3667 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3668 		if (mode == 3)
3669 			goto error;
3670 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
3671 		dtrace_get_operand(x, mode, r_m, wbit, 0);
3672 		break;
3673 
3674 	/* move special register to register or reverse if vbit */
3675 	case SREG:
3676 		switch (opcode5) {
3677 
3678 		case 2:
3679 			vbit = 1;
3680 			/*FALLTHROUGH*/
3681 		case 0:
3682 			wbit = CONTROL_OPND;
3683 			break;
3684 
3685 		case 3:
3686 			vbit = 1;
3687 			/*FALLTHROUGH*/
3688 		case 1:
3689 			wbit = DEBUG_OPND;
3690 			break;
3691 
3692 		case 6:
3693 			vbit = 1;
3694 			/*FALLTHROUGH*/
3695 		case 4:
3696 			wbit = TEST_OPND;
3697 			break;
3698 
3699 		}
3700 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3701 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3702 		dtrace_get_operand(x, REG_ONLY, reg, wbit, vbit);
3703 		dtrace_get_operand(x, REG_ONLY, r_m, LONG_OPND, 1 - vbit);
3704 		NOMEM;
3705 		break;
3706 
3707 	/*
3708 	 * single register operand with register in the low 3
3709 	 * bits of op code
3710 	 */
3711 	case R:
3712 		if (opcode_bytes == 2)
3713 			reg = REGNO(opcode5);
3714 		else
3715 			reg = REGNO(opcode2);
3716 		dtrace_rex_adjust(rex_prefix, mode, &reg, NULL);
3717 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 0);
3718 		NOMEM;
3719 		break;
3720 
3721 	/*
3722 	 * register to accumulator with register in the low 3
3723 	 * bits of op code, xchg instructions
3724 	 */
3725 	case RA:
3726 		NOMEM;
3727 		reg = REGNO(opcode2);
3728 		dtrace_rex_adjust(rex_prefix, mode, &reg, NULL);
3729 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 0);
3730 		dtrace_get_operand(x, REG_ONLY, EAX_REGNO, LONG_OPND, 1);
3731 		break;
3732 
3733 	/*
3734 	 * single segment register operand, with register in
3735 	 * bits 3-4 of op code byte
3736 	 */
3737 	case SEG:
3738 		NOMEM;
3739 		reg = (x->d86_bytes[x->d86_len - 1] >> 3) & 0x3;
3740 		dtrace_get_operand(x, REG_ONLY, reg, SEG_OPND, 0);
3741 		break;
3742 
3743 	/*
3744 	 * single segment register operand, with register in
3745 	 * bits 3-5 of op code
3746 	 */
3747 	case LSEG:
3748 		NOMEM;
3749 		/* long seg reg from opcode */
3750 		reg = (x->d86_bytes[x->d86_len - 1] >> 3) & 0x7;
3751 		dtrace_get_operand(x, REG_ONLY, reg, SEG_OPND, 0);
3752 		break;
3753 
3754 	/* memory or register operand to register */
3755 	case MR:
3756 		if (vex_prefetch)
3757 			x->d86_got_modrm = 1;
3758 		wbit = LONG_OPND;
3759 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 0);
3760 		break;
3761 
3762 	case RM:
3763 	case RM_66r:
3764 		wbit = LONG_OPND;
3765 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 1);
3766 		break;
3767 
3768 	/* MMX/SIMD-Int memory or mm reg to mm reg		*/
3769 	case MM:
3770 	case MMO:
3771 #ifdef DIS_TEXT
3772 		wbit = strcmp(dp->it_name, "movd") ? MM_OPND : LONG_OPND;
3773 #else
3774 		wbit = LONG_OPND;
3775 #endif
3776 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, MM_OPND, 0);
3777 		break;
3778 
3779 	case MMOIMPL:
3780 #ifdef DIS_TEXT
3781 		wbit = strcmp(dp->it_name, "movd") ? MM_OPND : LONG_OPND;
3782 #else
3783 		wbit = LONG_OPND;
3784 #endif
3785 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3786 		if (mode != REG_ONLY)
3787 			goto error;
3788 
3789 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3790 		dtrace_get_operand(x, mode, r_m, wbit, 0);
3791 		dtrace_get_operand(x, REG_ONLY, reg, MM_OPND, 1);
3792 		mode = 0;	/* change for memory access size... */
3793 		break;
3794 
3795 	/* MMX/SIMD-Int and SIMD-FP predicated mm reg to r32 */
3796 	case MMO3P:
3797 		wbit = MM_OPND;
3798 		goto xmm3p;
3799 	case XMM3P:
3800 		wbit = XMM_OPND;
3801 xmm3p:
3802 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3803 		if (mode != REG_ONLY)
3804 			goto error;
3805 
3806 		THREEOPERAND(x, mode, reg, r_m, rex_prefix, wbit, LONG_OPND, 1,
3807 		    1);
3808 		NOMEM;
3809 		break;
3810 
3811 	case XMM3PM_66r:
3812 		THREEOPERAND(x, mode, reg, r_m, rex_prefix, LONG_OPND, XMM_OPND,
3813 		    1, 0);
3814 		break;
3815 
3816 	/* MMX/SIMD-Int predicated r32/mem to mm reg */
3817 	case MMOPRM:
3818 		wbit = LONG_OPND;
3819 		w2 = MM_OPND;
3820 		goto xmmprm;
3821 	case XMMPRM:
3822 	case XMMPRM_66r:
3823 		wbit = LONG_OPND;
3824 		w2 = XMM_OPND;
3825 xmmprm:
3826 		THREEOPERAND(x, mode, reg, r_m, rex_prefix, wbit, w2, 1, 1);
3827 		break;
3828 
3829 	/* MMX/SIMD-Int predicated mm/mem to mm reg */
3830 	case MMOPM:
3831 	case MMOPM_66o:
3832 		wbit = w2 = MM_OPND;
3833 		goto xmmprm;
3834 
3835 	/* MMX/SIMD-Int mm reg to r32 */
3836 	case MMOM3:
3837 		NOMEM;
3838 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3839 		if (mode != REG_ONLY)
3840 			goto error;
3841 		wbit = MM_OPND;
3842 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, LONG_OPND, 0);
3843 		break;
3844 
3845 	/* SIMD memory or xmm reg operand to xmm reg		*/
3846 	case XMM:
3847 	case XMM_66o:
3848 	case XMM_66r:
3849 	case XMMO:
3850 	case XMMXIMPL:
3851 		wbit = XMM_OPND;
3852 		STANDARD_MODRM(x, mode, reg, r_m, rex_prefix, wbit, 0);
3853 
3854 		if (dp->it_adrmode == XMMXIMPL && mode != REG_ONLY)
3855 			goto error;
3856 
3857 #ifdef DIS_TEXT
3858 		/*
3859 		 * movlps and movhlps share opcodes.  They differ in the
3860 		 * addressing modes allowed for their operands.
3861 		 * movhps and movlhps behave similarly.
3862 		 */
3863 		if (mode == REG_ONLY) {
3864 			if (strcmp(dp->it_name, "movlps") == 0)
3865 				(void) strncpy(x->d86_mnem, "movhlps", OPLEN);
3866 			else if (strcmp(dp->it_name, "movhps") == 0)
3867 				(void) strncpy(x->d86_mnem, "movlhps", OPLEN);
3868 		}
3869 #endif
3870 		if (dp->it_adrmode == XMMXIMPL)
3871 			mode = 0;	/* change for memory access size... */
3872 		break;
3873 
3874 	/* SIMD xmm reg to memory or xmm reg */
3875 	case XMMS:
3876 	case XMMOS:
3877 	case XMMMS:
3878 	case XMMOMS:
3879 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3880 #ifdef DIS_TEXT
3881 		if ((strcmp(dp->it_name, "movlps") == 0 ||
3882 		    strcmp(dp->it_name, "movhps") == 0 ||
3883 		    strcmp(dp->it_name, "movntps") == 0) &&
3884 		    mode == REG_ONLY)
3885 			goto error;
3886 #endif
3887 		wbit = XMM_OPND;
3888 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, XMM_OPND, 1);
3889 		break;
3890 
3891 	/* SIMD memory to xmm reg */
3892 	case XMMM:
3893 	case XMMM_66r:
3894 	case XMMOM:
3895 		wbit = XMM_OPND;
3896 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3897 #ifdef DIS_TEXT
3898 		if (mode == REG_ONLY) {
3899 			if (strcmp(dp->it_name, "movhps") == 0)
3900 				(void) strncpy(x->d86_mnem, "movlhps", OPLEN);
3901 			else
3902 				goto error;
3903 		}
3904 #endif
3905 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, XMM_OPND, 0);
3906 		break;
3907 
3908 	/* SIMD memory or r32 to xmm reg			*/
3909 	case XMM3MX:
3910 		wbit = LONG_OPND;
3911 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, XMM_OPND, 0);
3912 		break;
3913 
3914 	case XMM3MXS:
3915 		wbit = LONG_OPND;
3916 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, XMM_OPND, 1);
3917 		break;
3918 
3919 	/* SIMD memory or mm reg to xmm reg			*/
3920 	case XMMOMX:
3921 	/* SIMD mm to xmm */
3922 	case XMMMX:
3923 		wbit = MM_OPND;
3924 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, XMM_OPND, 0);
3925 		break;
3926 
3927 	/* SIMD memory or xmm reg to mm reg			*/
3928 	case XMMXMM:
3929 	case XMMOXMM:
3930 	case XMMXM:
3931 		wbit = XMM_OPND;
3932 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, MM_OPND, 0);
3933 		break;
3934 
3935 
3936 	/* SIMD memory or xmm reg to r32			*/
3937 	case XMMXM3:
3938 		wbit = XMM_OPND;
3939 		MIXED_MM(x, mode, reg, r_m, rex_prefix, wbit, LONG_OPND, 0);
3940 		break;
3941 
3942 	/* SIMD xmm to r32					*/
3943 	case XMMX3:
3944 	case XMMOX3:
3945 		dtrace_get_modrm(x, &mode, &reg, &r_m);
3946 		if (mode != REG_ONLY)
3947 			goto error;
3948 		dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
3949 		dtrace_get_operand(x, mode, r_m, XMM_OPND, 0);
3950 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, 1);
3951 		NOMEM;
3952 		break;
3953 
3954 	/* SIMD predicated memory or xmm reg with/to xmm reg */
3955 	case XMMP:
3956 	case XMMP_66r:
3957 	case XMMP_66o:
3958 	case XMMOPM:
3959 		wbit = XMM_OPND;
3960 		THREEOPERAND(x, mode, reg, r_m, rex_prefix, wbit, XMM_OPND, 1,
3961 		    1);
3962 
3963 #ifdef DIS_TEXT
3964 		/*
3965 		 * cmpps and cmpss vary their instruction name based
3966 		 * on the value of imm8.  Other XMMP instructions,
3967 		 * such as shufps, require explicit specification of
3968 		 * the predicate.
3969 		 */
3970 		if (dp->it_name[0] == 'c' &&
3971 		    dp->it_name[1] == 'm' &&
3972 		    dp->it_name[2] == 'p' &&
3973 		    strlen(dp->it_name) == 5) {
3974 			uchar_t pred = x->d86_opnd[0].d86_value & 0xff;
3975 
3976 			if (pred >= (sizeof (dis_PREDSUFFIX) / sizeof (char *)))
3977 				goto error;
3978 
3979 			(void) strncpy(x->d86_mnem, "cmp", OPLEN);
3980 			(void) strlcat(x->d86_mnem, dis_PREDSUFFIX[pred],
3981 			    OPLEN);
3982 			(void) strlcat(x->d86_mnem,
3983 			    dp->it_name + strlen(dp->it_name) - 2,
3984 			    OPLEN);
3985 			x->d86_opnd[0] = x->d86_opnd[1];
3986 			x->d86_opnd[1] = x->d86_opnd[2];
3987 			x->d86_numopnds = 2;
3988 		}
3989 #endif
3990 		break;
3991 
3992 	case XMMX2I:
3993 		FOUROPERAND(x, mode, reg, r_m, rex_prefix, XMM_OPND, XMM_OPND,
3994 		    1);
3995 		NOMEM;
3996 		break;
3997 
3998 	case XMM2I:
3999 		ONEOPERAND_TWOIMM(x, mode, reg, r_m, rex_prefix, XMM_OPND, 1);
4000 		NOMEM;
4001 		break;
4002 
4003 	/* immediate operand to accumulator */
4004 	case IA:
4005 		wbit = WBIT(opcode2);
4006 		dtrace_get_operand(x, REG_ONLY, EAX_REGNO, wbit, 1);
4007 		dtrace_imm_opnd(x, wbit, OPSIZE(opnd_size, wbit), 0);
4008 		NOMEM;
4009 		break;
4010 
4011 	/* memory or register operand to accumulator */
4012 	case MA:
4013 		wbit = WBIT(opcode2);
4014 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
4015 		dtrace_get_operand(x, mode, r_m, wbit, 0);
4016 		break;
4017 
4018 	/* si register to di register used to reference memory		*/
4019 	case SD:
4020 #ifdef DIS_TEXT
4021 		dtrace_check_override(x, 0);
4022 		x->d86_numopnds = 2;
4023 		if (addr_size == SIZE64) {
4024 			(void) strlcat(x->d86_opnd[0].d86_opnd, "(%rsi)",
4025 			    OPLEN);
4026 			(void) strlcat(x->d86_opnd[1].d86_opnd, "(%rdi)",
4027 			    OPLEN);
4028 		} else if (addr_size == SIZE32) {
4029 			(void) strlcat(x->d86_opnd[0].d86_opnd, "(%esi)",
4030 			    OPLEN);
4031 			(void) strlcat(x->d86_opnd[1].d86_opnd, "(%edi)",
4032 			    OPLEN);
4033 		} else {
4034 			(void) strlcat(x->d86_opnd[0].d86_opnd, "(%si)",
4035 			    OPLEN);
4036 			(void) strlcat(x->d86_opnd[1].d86_opnd, "(%di)",
4037 			    OPLEN);
4038 		}
4039 #endif
4040 		wbit = LONG_OPND;
4041 		break;
4042 
4043 	/* accumulator to di register				*/
4044 	case AD:
4045 		wbit = WBIT(opcode2);
4046 #ifdef DIS_TEXT
4047 		dtrace_check_override(x, 1);
4048 		x->d86_numopnds = 2;
4049 		dtrace_get_operand(x, REG_ONLY, EAX_REGNO, wbit, 0);
4050 		if (addr_size == SIZE64)
4051 			(void) strlcat(x->d86_opnd[1].d86_opnd, "(%rdi)",
4052 			    OPLEN);
4053 		else if (addr_size == SIZE32)
4054 			(void) strlcat(x->d86_opnd[1].d86_opnd, "(%edi)",
4055 			    OPLEN);
4056 		else
4057 			(void) strlcat(x->d86_opnd[1].d86_opnd, "(%di)",
4058 			    OPLEN);
4059 #endif
4060 		break;
4061 
4062 	/* si register to accumulator				*/
4063 	case SA:
4064 		wbit = WBIT(opcode2);
4065 #ifdef DIS_TEXT
4066 		dtrace_check_override(x, 0);
4067 		x->d86_numopnds = 2;
4068 		if (addr_size == SIZE64)
4069 			(void) strlcat(x->d86_opnd[0].d86_opnd, "(%rsi)",
4070 			    OPLEN);
4071 		else if (addr_size == SIZE32)
4072 			(void) strlcat(x->d86_opnd[0].d86_opnd, "(%esi)",
4073 			    OPLEN);
4074 		else
4075 			(void) strlcat(x->d86_opnd[0].d86_opnd, "(%si)",
4076 			    OPLEN);
4077 		dtrace_get_operand(x, REG_ONLY, EAX_REGNO, wbit, 1);
4078 #endif
4079 		break;
4080 
4081 	/*
4082 	 * single operand, a 16/32 bit displacement
4083 	 */
4084 	case D:
4085 		wbit = LONG_OPND;
4086 		dtrace_disp_opnd(x, wbit, OPSIZE(opnd_size, LONG_OPND), 0);
4087 		NOMEM;
4088 		break;
4089 
4090 	/* jmp/call indirect to memory or register operand		*/
4091 	case INM:
4092 #ifdef DIS_TEXT
4093 		(void) strlcat(x->d86_opnd[0].d86_prefix, "*", OPLEN);
4094 #endif
4095 		dtrace_rex_adjust(rex_prefix, mode, NULL, &r_m);
4096 		dtrace_get_operand(x, mode, r_m, LONG_OPND, 0);
4097 		wbit = LONG_OPND;
4098 		break;
4099 
4100 	/*
4101 	 * for long jumps and long calls -- a new code segment
4102 	 * register and an offset in IP -- stored in object
4103 	 * code in reverse order. Note - not valid in amd64
4104 	 */
4105 	case SO:
4106 		dtrace_check_override(x, 1);
4107 		wbit = LONG_OPND;
4108 		dtrace_imm_opnd(x, wbit, OPSIZE(opnd_size, LONG_OPND), 1);
4109 #ifdef DIS_TEXT
4110 		x->d86_opnd[1].d86_mode = MODE_SIGNED;
4111 #endif
4112 		/* will now get segment operand */
4113 		dtrace_imm_opnd(x, wbit, 2, 0);
4114 		break;
4115 
4116 	/*
4117 	 * jmp/call. single operand, 8 bit displacement.
4118 	 * added to current EIP in 'compofff'
4119 	 */
4120 	case BD:
4121 		dtrace_disp_opnd(x, BYTE_OPND, 1, 0);
4122 		NOMEM;
4123 		break;
4124 
4125 	/* single 32/16 bit immediate operand			*/
4126 	case I:
4127 		wbit = LONG_OPND;
4128 		dtrace_imm_opnd(x, wbit, OPSIZE(opnd_size, LONG_OPND), 0);
4129 		break;
4130 
4131 	/* single 8 bit immediate operand			*/
4132 	case Ib:
4133 		wbit = LONG_OPND;
4134 		dtrace_imm_opnd(x, wbit, 1, 0);
4135 		break;
4136 
4137 	case ENTER:
4138 		wbit = LONG_OPND;
4139 		dtrace_imm_opnd(x, wbit, 2, 0);
4140 		dtrace_imm_opnd(x, wbit, 1, 1);
4141 		switch (opnd_size) {
4142 		case SIZE64:
4143 			x->d86_memsize = (x->d86_opnd[1].d86_value + 1) * 8;
4144 			break;
4145 		case SIZE32:
4146 			x->d86_memsize = (x->d86_opnd[1].d86_value + 1) * 4;
4147 			break;
4148 		case SIZE16:
4149 			x->d86_memsize = (x->d86_opnd[1].d86_value + 1) * 2;
4150 			break;
4151 		}
4152 
4153 		break;
4154 
4155 	/* 16-bit immediate operand */
4156 	case RET:
4157 		wbit = LONG_OPND;
4158 		dtrace_imm_opnd(x, wbit, 2, 0);
4159 		break;
4160 
4161 	/* single 8 bit port operand				*/
4162 	case P:
4163 		dtrace_check_override(x, 0);
4164 		dtrace_imm_opnd(x, BYTE_OPND, 1, 0);
4165 		NOMEM;
4166 		break;
4167 
4168 	/* single operand, dx register (variable port instruction) */
4169 	case V:
4170 		x->d86_numopnds = 1;
4171 		dtrace_check_override(x, 0);
4172 #ifdef DIS_TEXT
4173 		(void) strlcat(x->d86_opnd[0].d86_opnd, "(%dx)", OPLEN);
4174 #endif
4175 		NOMEM;
4176 		break;
4177 
4178 	/*
4179 	 * The int instruction, which has two forms:
4180 	 * int 3 (breakpoint) or
4181 	 * int n, where n is indicated in the subsequent
4182 	 * byte (format Ib).  The int 3 instruction (opcode 0xCC),
4183 	 * where, although the 3 looks  like an operand,
4184 	 * it is implied by the opcode. It must be converted
4185 	 * to the correct base and output.
4186 	 */
4187 	case INT3:
4188 #ifdef DIS_TEXT
4189 		x->d86_numopnds = 1;
4190 		x->d86_opnd[0].d86_mode = MODE_SIGNED;
4191 		x->d86_opnd[0].d86_value_size = 1;
4192 		x->d86_opnd[0].d86_value = 3;
4193 #endif
4194 		NOMEM;
4195 		break;
4196 
4197 	/* single 8 bit immediate operand			*/
4198 	case INTx:
4199 		dtrace_imm_opnd(x, BYTE_OPND, 1, 0);
4200 		NOMEM;
4201 		break;
4202 
4203 	/* an unused byte must be discarded */
4204 	case U:
4205 		if (x->d86_get_byte(x->d86_data) < 0)
4206 			goto error;
4207 		x->d86_len++;
4208 		NOMEM;
4209 		break;
4210 
4211 	case CBW:
4212 #ifdef DIS_TEXT
4213 		if (opnd_size == SIZE16)
4214 			(void) strlcat(x->d86_mnem, "cbtw", OPLEN);
4215 		else if (opnd_size == SIZE32)
4216 			(void) strlcat(x->d86_mnem, "cwtl", OPLEN);
4217 		else
4218 			(void) strlcat(x->d86_mnem, "cltq", OPLEN);
4219 #endif
4220 		wbit = LONG_OPND;
4221 		NOMEM;
4222 		break;
4223 
4224 	case CWD:
4225 #ifdef DIS_TEXT
4226 		if (opnd_size == SIZE16)
4227 			(void) strlcat(x->d86_mnem, "cwtd", OPLEN);
4228 		else if (opnd_size == SIZE32)
4229 			(void) strlcat(x->d86_mnem, "cltd", OPLEN);
4230 		else
4231 			(void) strlcat(x->d86_mnem, "cqtd", OPLEN);
4232 #endif
4233 		wbit = LONG_OPND;
4234 		NOMEM;
4235 		break;
4236 
4237 	case XMMSFNC:
4238 		/*
4239 		 * sfence is sfence if mode is REG_ONLY.  If mode isn't
4240 		 * REG_ONLY, mnemonic should be 'clflush'.
4241 		 */
4242 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4243 
4244 		/* sfence doesn't take operands */
4245 #ifdef DIS_TEXT
4246 		if (mode == REG_ONLY) {
4247 			(void) strlcat(x->d86_mnem, "sfence", OPLEN);
4248 		} else {
4249 			(void) strlcat(x->d86_mnem, "clflush", OPLEN);
4250 			dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
4251 			dtrace_get_operand(x, mode, r_m, BYTE_OPND, 0);
4252 			NOMEM;
4253 		}
4254 #else
4255 		if (mode != REG_ONLY) {
4256 			dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
4257 			dtrace_get_operand(x, mode, r_m, LONG_OPND, 0);
4258 			NOMEM;
4259 		}
4260 #endif
4261 		break;
4262 
4263 	/*
4264 	 * no disassembly, the mnemonic was all there was so go on
4265 	 */
4266 	case NORM:
4267 		if (dp->it_invalid32 && cpu_mode != SIZE64)
4268 			goto error;
4269 		NOMEM;
4270 		/*FALLTHROUGH*/
4271 	case IMPLMEM:
4272 		break;
4273 
4274 	case XMMFENCE:
4275 		/*
4276 		 * XRSTOR and LFENCE share the same opcode but differ in mode
4277 		 */
4278 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4279 
4280 		if (mode == REG_ONLY) {
4281 			/*
4282 			 * Only the following exact byte sequences are allowed:
4283 			 *
4284 			 * 	0f ae e8	lfence
4285 			 * 	0f ae f0	mfence
4286 			 */
4287 			if ((uint8_t)x->d86_bytes[x->d86_len - 1] != 0xe8 &&
4288 			    (uint8_t)x->d86_bytes[x->d86_len - 1] != 0xf0)
4289 				goto error;
4290 		} else {
4291 #ifdef DIS_TEXT
4292 			(void) strncpy(x->d86_mnem, "xrstor", OPLEN);
4293 #endif
4294 			dtrace_rex_adjust(rex_prefix, mode, &reg, &r_m);
4295 			dtrace_get_operand(x, mode, r_m, BYTE_OPND, 0);
4296 		}
4297 		break;
4298 
4299 	/* float reg */
4300 	case F:
4301 #ifdef DIS_TEXT
4302 		x->d86_numopnds = 1;
4303 		(void) strlcat(x->d86_opnd[0].d86_opnd, "%st(X)", OPLEN);
4304 		x->d86_opnd[0].d86_opnd[4] = r_m + '0';
4305 #endif
4306 		NOMEM;
4307 		break;
4308 
4309 	/* float reg to float reg, with ret bit present */
4310 	case FF:
4311 		vbit = opcode2 >> 2 & 0x1;	/* vbit = 1: st -> st(i) */
4312 		/*FALLTHROUGH*/
4313 	case FFC:				/* case for vbit always = 0 */
4314 #ifdef DIS_TEXT
4315 		x->d86_numopnds = 2;
4316 		(void) strlcat(x->d86_opnd[1 - vbit].d86_opnd, "%st", OPLEN);
4317 		(void) strlcat(x->d86_opnd[vbit].d86_opnd, "%st(X)", OPLEN);
4318 		x->d86_opnd[vbit].d86_opnd[4] = r_m + '0';
4319 #endif
4320 		NOMEM;
4321 		break;
4322 
4323 	/* AVX instructions */
4324 	case VEX_MO:
4325 		/* op(ModR/M.r/m) */
4326 		x->d86_numopnds = 1;
4327 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4328 #ifdef DIS_TEXT
4329 		if ((dp == &dis_opAVX0F[0xA][0xE]) && (reg == 3))
4330 			(void) strncpy(x->d86_mnem, "vstmxcsr", OPLEN);
4331 #endif
4332 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4333 		dtrace_get_operand(x, mode, r_m, wbit, 0);
4334 		break;
4335 	case VEX_RMrX:
4336 		/* ModR/M.reg := op(VEX.vvvv, ModR/M.r/m) */
4337 		x->d86_numopnds = 3;
4338 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4339 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4340 
4341 		if (mode != REG_ONLY) {
4342 			if ((dp == &dis_opAVXF20F[0x10]) ||
4343 			    (dp == &dis_opAVXF30F[0x10])) {
4344 				/* vmovsd <m64>, <xmm> */
4345 				/* or vmovss <m64>, <xmm> */
4346 				x->d86_numopnds = 2;
4347 				goto L_VEX_MX;
4348 			}
4349 		}
4350 
4351 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 2);
4352 		/*
4353 		 * VEX prefix uses the 1's complement form to encode the
4354 		 * XMM/YMM regs
4355 		 */
4356 		dtrace_get_operand(x, REG_ONLY, (0xF - vex_v), wbit, 1);
4357 
4358 		if ((dp == &dis_opAVXF20F[0x2A]) ||
4359 		    (dp == &dis_opAVXF30F[0x2A])) {
4360 			/*
4361 			 * vcvtsi2si </r,m>, <xmm>, <xmm> or vcvtsi2ss </r,m>,
4362 			 * <xmm>, <xmm>
4363 			 */
4364 			wbit = LONG_OPND;
4365 		}
4366 #ifdef DIS_TEXT
4367 		else if ((mode == REG_ONLY) &&
4368 		    (dp == &dis_opAVX0F[0x1][0x6])) {	/* vmovlhps */
4369 			(void) strncpy(x->d86_mnem, "vmovlhps", OPLEN);
4370 		} else if ((mode == REG_ONLY) &&
4371 		    (dp == &dis_opAVX0F[0x1][0x2])) {	/* vmovhlps */
4372 			(void) strncpy(x->d86_mnem, "vmovhlps", OPLEN);
4373 		}
4374 #endif
4375 		dtrace_get_operand(x, mode, r_m, wbit, 0);
4376 
4377 		break;
4378 
4379 	case VEX_RRX:
4380 		/* ModR/M.rm := op(VEX.vvvv, ModR/M.reg) */
4381 		x->d86_numopnds = 3;
4382 
4383 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4384 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4385 
4386 		if (mode != REG_ONLY) {
4387 			if ((dp == &dis_opAVXF20F[0x11]) ||
4388 			    (dp == &dis_opAVXF30F[0x11])) {
4389 				/* vmovsd <xmm>, <m64> */
4390 				/* or vmovss <xmm>, <m64> */
4391 				x->d86_numopnds = 2;
4392 				goto L_VEX_RM;
4393 			}
4394 		}
4395 
4396 		dtrace_get_operand(x, mode, r_m, wbit, 2);
4397 		dtrace_get_operand(x, REG_ONLY, (0xF - vex_v), wbit, 1);
4398 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 0);
4399 		break;
4400 
4401 	case VEX_RMRX:
4402 		/* ModR/M.reg := op(VEX.vvvv, ModR/M.r_m, imm8[7:4]) */
4403 		x->d86_numopnds = 4;
4404 
4405 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4406 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4407 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 3);
4408 		dtrace_get_operand(x, REG_ONLY, (0xF - vex_v), wbit, 2);
4409 		if (dp == &dis_opAVX660F3A[0x18]) {
4410 			/* vinsertf128 <imm8>, <xmm>, <ymm>, <ymm> */
4411 			dtrace_get_operand(x, mode, r_m, XMM_OPND, 1);
4412 		} else if ((dp == &dis_opAVX660F3A[0x20]) ||
4413 		    (dp == & dis_opAVX660F[0xC4])) {
4414 			/* vpinsrb <imm8>, <reg/mm>, <xmm>, <xmm> */
4415 			/* or vpinsrw <imm8>, <reg/mm>, <xmm>, <xmm> */
4416 			dtrace_get_operand(x, mode, r_m, LONG_OPND, 1);
4417 		} else if (dp == &dis_opAVX660F3A[0x22]) {
4418 			/* vpinsrd/q <imm8>, <reg/mm>, <xmm>, <xmm> */
4419 #ifdef DIS_TEXT
4420 			if (vex_W)
4421 				x->d86_mnem[6] = 'q';
4422 #endif
4423 			dtrace_get_operand(x, mode, r_m, LONG_OPND, 1);
4424 		} else {
4425 			dtrace_get_operand(x, mode, r_m, wbit, 1);
4426 		}
4427 
4428 		/* one byte immediate number */
4429 		dtrace_imm_opnd(x, wbit, 1, 0);
4430 
4431 		/* vblendvpd, vblendvps, vblendvb use the imm encode the regs */
4432 		if ((dp == &dis_opAVX660F3A[0x4A]) ||
4433 		    (dp == &dis_opAVX660F3A[0x4B]) ||
4434 		    (dp == &dis_opAVX660F3A[0x4C])) {
4435 #ifdef DIS_TEXT
4436 			int regnum = (x->d86_opnd[0].d86_value & 0xF0) >> 4;
4437 #endif
4438 			x->d86_opnd[0].d86_mode = MODE_NONE;
4439 #ifdef DIS_TEXT
4440 			if (vex_L)
4441 				(void) strncpy(x->d86_opnd[0].d86_opnd,
4442 				    dis_YMMREG[regnum], OPLEN);
4443 			else
4444 				(void) strncpy(x->d86_opnd[0].d86_opnd,
4445 				    dis_XMMREG[regnum], OPLEN);
4446 #endif
4447 		}
4448 		break;
4449 
4450 	case VEX_MX:
4451 		/* ModR/M.reg := op(ModR/M.rm) */
4452 		x->d86_numopnds = 2;
4453 
4454 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4455 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4456 L_VEX_MX:
4457 
4458 		if ((dp == &dis_opAVXF20F[0xE6]) ||
4459 		    (dp == &dis_opAVX660F[0x5A]) ||
4460 		    (dp == &dis_opAVX660F[0xE6])) {
4461 			/* vcvtpd2dq <ymm>, <xmm> */
4462 			/* or vcvtpd2ps <ymm>, <xmm> */
4463 			/* or vcvttpd2dq <ymm>, <xmm> */
4464 			dtrace_get_operand(x, REG_ONLY, reg, XMM_OPND, 1);
4465 			dtrace_get_operand(x, mode, r_m, wbit, 0);
4466 		} else if ((dp == &dis_opAVXF30F[0xE6]) ||
4467 		    (dp == &dis_opAVX0F[0x5][0xA]) ||
4468 		    (dp == &dis_opAVX660F38[0x13])) {
4469 			/* vcvtdq2pd <xmm>, <ymm> */
4470 			/* or vcvtps2pd <xmm>, <ymm> */
4471 			dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4472 			dtrace_get_operand(x, mode, r_m, XMM_OPND, 0);
4473 		} else if (dp == &dis_opAVX660F[0x6E]) {
4474 			/* vmovd/q <reg/mem 32/64>, <xmm> */
4475 #ifdef DIS_TEXT
4476 			if (vex_W)
4477 				x->d86_mnem[4] = 'q';
4478 #endif
4479 			dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4480 			dtrace_get_operand(x, mode, r_m, LONG_OPND, 0);
4481 		} else {
4482 			dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4483 			dtrace_get_operand(x, mode, r_m, wbit, 0);
4484 		}
4485 
4486 		break;
4487 
4488 	case VEX_MXI:
4489 		/* ModR/M.reg := op(ModR/M.rm, imm8) */
4490 		x->d86_numopnds = 3;
4491 
4492 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4493 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4494 
4495 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 2);
4496 		dtrace_get_operand(x, mode, r_m, wbit, 1);
4497 
4498 		/* one byte immediate number */
4499 		dtrace_imm_opnd(x, wbit, 1, 0);
4500 		break;
4501 
4502 	case VEX_XXI:
4503 		/* VEX.vvvv := op(ModR/M.rm, imm8) */
4504 		x->d86_numopnds = 3;
4505 
4506 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4507 #ifdef DIS_TEXT
4508 		(void) strncpy(x->d86_mnem, dis_AVXvgrp7[opcode2 - 1][reg],
4509 		    OPLEN);
4510 #endif
4511 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4512 
4513 		dtrace_get_operand(x, REG_ONLY, (0xF - vex_v), wbit, 2);
4514 		dtrace_get_operand(x, REG_ONLY, r_m, wbit, 1);
4515 
4516 		/* one byte immediate number */
4517 		dtrace_imm_opnd(x, wbit, 1, 0);
4518 		break;
4519 
4520 	case VEX_MR:
4521 		/* ModR/M.reg (reg32/64) := op(ModR/M.rm) */
4522 		if (dp == &dis_opAVX660F[0xC5]) {
4523 			/* vpextrw <imm8>, <xmm>, <reg> */
4524 			x->d86_numopnds = 2;
4525 			vbit = 2;
4526 		} else {
4527 			x->d86_numopnds = 2;
4528 			vbit = 1;
4529 		}
4530 
4531 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4532 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4533 		dtrace_get_operand(x, REG_ONLY, reg, LONG_OPND, vbit);
4534 		dtrace_get_operand(x, mode, r_m, wbit, vbit - 1);
4535 
4536 		if (vbit == 2)
4537 			dtrace_imm_opnd(x, wbit, 1, 0);
4538 
4539 		break;
4540 
4541 	case VEX_RRI:
4542 		/* implicit(eflags/r32) := op(ModR/M.reg, ModR/M.rm) */
4543 		x->d86_numopnds = 2;
4544 
4545 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4546 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4547 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4548 		dtrace_get_operand(x, mode, r_m, wbit, 0);
4549 		break;
4550 
4551 	case VEX_RX:
4552 		/* ModR/M.rm := op(ModR/M.reg) */
4553 		/* vextractf128 || vcvtps2ph */
4554 		if (dp == &dis_opAVX660F3A[0x19] ||
4555 		    dp == &dis_opAVX660F3A[0x1d]) {
4556 			x->d86_numopnds = 3;
4557 
4558 			dtrace_get_modrm(x, &mode, &reg, &r_m);
4559 			dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4560 
4561 			dtrace_get_operand(x, mode, r_m, XMM_OPND, 2);
4562 			dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4563 
4564 			/* one byte immediate number */
4565 			dtrace_imm_opnd(x, wbit, 1, 0);
4566 			break;
4567 		}
4568 
4569 		x->d86_numopnds = 2;
4570 
4571 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4572 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4573 		dtrace_get_operand(x, mode, r_m, wbit, 1);
4574 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 0);
4575 		break;
4576 
4577 	case VEX_RR:
4578 		/* ModR/M.rm := op(ModR/M.reg) */
4579 		x->d86_numopnds = 2;
4580 
4581 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4582 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4583 
4584 		if (dp == &dis_opAVX660F[0x7E]) {
4585 			/* vmovd/q <reg/mem 32/64>, <xmm> */
4586 #ifdef DIS_TEXT
4587 			if (vex_W)
4588 				x->d86_mnem[4] = 'q';
4589 #endif
4590 			dtrace_get_operand(x, mode, r_m, LONG_OPND, 1);
4591 		} else
4592 			dtrace_get_operand(x, mode, r_m, wbit, 1);
4593 
4594 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 0);
4595 		break;
4596 
4597 	case VEX_RRi:
4598 		/* ModR/M.rm := op(ModR/M.reg, imm) */
4599 		x->d86_numopnds = 3;
4600 
4601 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4602 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4603 
4604 #ifdef DIS_TEXT
4605 		if (dp == &dis_opAVX660F3A[0x16]) {
4606 			/* vpextrd/q <imm>, <xmm>, <reg/mem 32/64> */
4607 			if (vex_W)
4608 				x->d86_mnem[6] = 'q';
4609 		}
4610 #endif
4611 		dtrace_get_operand(x, mode, r_m, LONG_OPND, 2);
4612 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4613 
4614 		/* one byte immediate number */
4615 		dtrace_imm_opnd(x, wbit, 1, 0);
4616 		break;
4617 
4618 	case VEX_RM:
4619 		/* ModR/M.rm := op(ModR/M.reg) */
4620 		if (dp == &dis_opAVX660F3A[0x17]) {	/* vextractps */
4621 			x->d86_numopnds = 3;
4622 
4623 			dtrace_get_modrm(x, &mode, &reg, &r_m);
4624 			dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4625 
4626 			dtrace_get_operand(x, mode, r_m, LONG_OPND, 2);
4627 			dtrace_get_operand(x, REG_ONLY, reg, wbit, 1);
4628 			/* one byte immediate number */
4629 			dtrace_imm_opnd(x, wbit, 1, 0);
4630 			break;
4631 		}
4632 		x->d86_numopnds = 2;
4633 
4634 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4635 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4636 L_VEX_RM:
4637 		vbit = 1;
4638 		dtrace_get_operand(x, mode, r_m, wbit, vbit);
4639 		dtrace_get_operand(x, REG_ONLY, reg, wbit, vbit - 1);
4640 
4641 		break;
4642 
4643 	case VEX_RRM:
4644 		/* ModR/M.rm := op(VEX.vvvv, ModR/M.reg) */
4645 		x->d86_numopnds = 3;
4646 
4647 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4648 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4649 		dtrace_get_operand(x, mode, r_m, wbit, 2);
4650 		/* VEX use the 1's complement form encode the XMM/YMM regs */
4651 		dtrace_get_operand(x, REG_ONLY, (0xF - vex_v), wbit, 1);
4652 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 0);
4653 		break;
4654 
4655 	case VEX_RMX:
4656 		/* ModR/M.reg := op(VEX.vvvv, ModR/M.rm) */
4657 		x->d86_numopnds = 3;
4658 
4659 		dtrace_get_modrm(x, &mode, &reg, &r_m);
4660 		dtrace_vex_adjust(vex_byte1, mode, &reg, &r_m);
4661 		dtrace_get_operand(x, REG_ONLY, reg, wbit, 2);
4662 		dtrace_get_operand(x, REG_ONLY, (0xF - vex_v), wbit, 1);
4663 		dtrace_get_operand(x, REG_ONLY, r_m, wbit, 0);
4664 		break;
4665 
4666 	case VEX_NONE:
4667 #ifdef DIS_TEXT
4668 		if (vex_L)
4669 			(void) strncpy(x->d86_mnem, "vzeroall", OPLEN);
4670 #endif
4671 		break;
4672 	/* an invalid op code */
4673 	case AM:
4674 	case DM:
4675 	case OVERRIDE:
4676 	case PREFIX:
4677 	case UNKNOWN:
4678 		NOMEM;
4679 	default:
4680 		goto error;
4681 	} /* end switch */
4682 	if (x->d86_error)
4683 		goto error;
4684 
4685 done:
4686 #ifdef DIS_MEM
4687 	/*
4688 	 * compute the size of any memory accessed by the instruction
4689 	 */
4690 	if (x->d86_memsize != 0) {
4691 		return (0);
4692 	} else if (dp->it_stackop) {
4693 		switch (opnd_size) {
4694 		case SIZE16:
4695 			x->d86_memsize = 2;
4696 			break;
4697 		case SIZE32:
4698 			x->d86_memsize = 4;
4699 			break;
4700 		case SIZE64:
4701 			x->d86_memsize = 8;
4702 			break;
4703 		}
4704 	} else if (nomem || mode == REG_ONLY) {
4705 		x->d86_memsize = 0;
4706 
4707 	} else if (dp->it_size != 0) {
4708 		/*
4709 		 * In 64 bit mode descriptor table entries
4710 		 * go up to 10 bytes and popf/pushf are always 8 bytes
4711 		 */
4712 		if (x->d86_mode == SIZE64 && dp->it_size == 6)
4713 			x->d86_memsize = 10;
4714 		else if (x->d86_mode == SIZE64 && opcode1 == 0x9 &&
4715 		    (opcode2 == 0xc || opcode2 == 0xd))
4716 			x->d86_memsize = 8;
4717 		else
4718 			x->d86_memsize = dp->it_size;
4719 
4720 	} else if (wbit == 0) {
4721 		x->d86_memsize = 1;
4722 
4723 	} else if (wbit == LONG_OPND) {
4724 		if (opnd_size == SIZE64)
4725 			x->d86_memsize = 8;
4726 		else if (opnd_size == SIZE32)
4727 			x->d86_memsize = 4;
4728 		else
4729 			x->d86_memsize = 2;
4730 
4731 	} else if (wbit == SEG_OPND) {
4732 		x->d86_memsize = 4;
4733 
4734 	} else {
4735 		x->d86_memsize = 8;
4736 	}
4737 #endif
4738 	return (0);
4739 
4740 error:
4741 #ifdef DIS_TEXT
4742 	(void) strlcat(x->d86_mnem, "undef", OPLEN);
4743 #endif
4744 	return (1);
4745 }
4746 
4747 #ifdef DIS_TEXT
4748 
4749 /*
4750  * Some instructions should have immediate operands printed
4751  * as unsigned integers. We compare against this table.
4752  */
4753 static char *unsigned_ops[] = {
4754 	"or", "and", "xor", "test", "in", "out", "lcall", "ljmp",
4755 	"rcr", "rcl", "ror", "rol", "shl", "shr", "sal", "psr", "psl",
4756 	0
4757 };
4758 
4759 
4760 static int
4761 isunsigned_op(char *opcode)
4762 {
4763 	char *where;
4764 	int i;
4765 	int is_unsigned = 0;
4766 
4767 	/*
4768 	 * Work back to start of last mnemonic, since we may have
4769 	 * prefixes on some opcodes.
4770 	 */
4771 	where = opcode + strlen(opcode) - 1;
4772 	while (where > opcode && *where != ' ')
4773 		--where;
4774 	if (*where == ' ')
4775 		++where;
4776 
4777 	for (i = 0; unsigned_ops[i]; ++i) {
4778 		if (strncmp(where, unsigned_ops[i],
4779 		    strlen(unsigned_ops[i])))
4780 			continue;
4781 		is_unsigned = 1;
4782 		break;
4783 	}
4784 	return (is_unsigned);
4785 }
4786 
4787 /*
4788  * Print a numeric immediate into end of buf, maximum length buflen.
4789  * The immediate may be an address or a displacement.  Mask is set
4790  * for address size.  If the immediate is a "small negative", or
4791  * if it's a negative displacement of any magnitude, print as -<absval>.
4792  * Respect the "octal" flag.  "Small negative" is defined as "in the
4793  * interval [NEG_LIMIT, 0)".
4794  *
4795  * Also, "isunsigned_op()" instructions never print negatives.
4796  *
4797  * Return whether we decided to print a negative value or not.
4798  */
4799 
4800 #define	NEG_LIMIT	-255
4801 enum {IMM, DISP};
4802 enum {POS, TRY_NEG};
4803 
4804 static int
4805 print_imm(dis86_t *dis, uint64_t usv, uint64_t mask, char *buf,
4806     size_t buflen, int disp, int try_neg)
4807 {
4808 	int curlen;
4809 	int64_t sv = (int64_t)usv;
4810 	int octal = dis->d86_flags & DIS_F_OCTAL;
4811 
4812 	curlen = strlen(buf);
4813 
4814 	if (try_neg == TRY_NEG && sv < 0 &&
4815 	    (disp || sv >= NEG_LIMIT) &&
4816 	    !isunsigned_op(dis->d86_mnem)) {
4817 		dis->d86_sprintf_func(buf + curlen, buflen - curlen,
4818 		    octal ? "-0%llo" : "-0x%llx", (-sv) & mask);
4819 		return (1);
4820 	} else {
4821 		if (disp == DISP)
4822 			dis->d86_sprintf_func(buf + curlen, buflen - curlen,
4823 			    octal ? "+0%llo" : "+0x%llx", usv & mask);
4824 		else
4825 			dis->d86_sprintf_func(buf + curlen, buflen - curlen,
4826 			    octal ? "0%llo" : "0x%llx", usv & mask);
4827 		return (0);
4828 
4829 	}
4830 }
4831 
4832 
4833 static int
4834 log2(int size)
4835 {
4836 	switch (size) {
4837 	case 1: return (0);
4838 	case 2: return (1);
4839 	case 4: return (2);
4840 	case 8: return (3);
4841 	}
4842 	return (0);
4843 }
4844 
4845 /* ARGSUSED */
4846 void
4847 dtrace_disx86_str(dis86_t *dis, uint_t mode, uint64_t pc, char *buf,
4848     size_t buflen)
4849 {
4850 	uint64_t reltgt = 0;
4851 	uint64_t tgt = 0;
4852 	int curlen;
4853 	int (*lookup)(void *, uint64_t, char *, size_t);
4854 	int i;
4855 	int64_t sv;
4856 	uint64_t usv, mask, save_mask, save_usv;
4857 	static uint64_t masks[] =
4858 	    {0xffU, 0xffffU, 0xffffffffU, 0xffffffffffffffffULL};
4859 	save_usv = 0;
4860 
4861 	dis->d86_sprintf_func(buf, buflen, "%-6s ", dis->d86_mnem);
4862 
4863 	/*
4864 	 * For PC-relative jumps, the pc is really the next pc after executing
4865 	 * this instruction, so increment it appropriately.
4866 	 */
4867 	pc += dis->d86_len;
4868 
4869 	for (i = 0; i < dis->d86_numopnds; i++) {
4870 		d86opnd_t *op = &dis->d86_opnd[i];
4871 
4872 		if (i != 0)
4873 			(void) strlcat(buf, ",", buflen);
4874 
4875 		(void) strlcat(buf, op->d86_prefix, buflen);
4876 
4877 		/*
4878 		 * sv is for the signed, possibly-truncated immediate or
4879 		 * displacement; usv retains the original size and
4880 		 * unsignedness for symbol lookup.
4881 		 */
4882 
4883 		sv = usv = op->d86_value;
4884 
4885 		/*
4886 		 * About masks: for immediates that represent
4887 		 * addresses, the appropriate display size is
4888 		 * the effective address size of the instruction.
4889 		 * This includes MODE_OFFSET, MODE_IPREL, and
4890 		 * MODE_RIPREL.  Immediates that are simply
4891 		 * immediate values should display in the operand's
4892 		 * size, however, since they don't represent addresses.
4893 		 */
4894 
4895 		/* d86_addr_size is SIZEnn, which is log2(real size) */
4896 		mask = masks[dis->d86_addr_size];
4897 
4898 		/* d86_value_size and d86_imm_bytes are in bytes */
4899 		if (op->d86_mode == MODE_SIGNED ||
4900 		    op->d86_mode == MODE_IMPLIED)
4901 			mask = masks[log2(op->d86_value_size)];
4902 
4903 		switch (op->d86_mode) {
4904 
4905 		case MODE_NONE:
4906 
4907 			(void) strlcat(buf, op->d86_opnd, buflen);
4908 			break;
4909 
4910 		case MODE_SIGNED:
4911 		case MODE_IMPLIED:
4912 		case MODE_OFFSET:
4913 
4914 			tgt = usv;
4915 
4916 			if (dis->d86_seg_prefix)
4917 				(void) strlcat(buf, dis->d86_seg_prefix,
4918 				    buflen);
4919 
4920 			if (op->d86_mode == MODE_SIGNED ||
4921 			    op->d86_mode == MODE_IMPLIED) {
4922 				(void) strlcat(buf, "$", buflen);
4923 			}
4924 
4925 			if (print_imm(dis, usv, mask, buf, buflen,
4926 			    IMM, TRY_NEG) &&
4927 			    (op->d86_mode == MODE_SIGNED ||
4928 			    op->d86_mode == MODE_IMPLIED)) {
4929 
4930 				/*
4931 				 * We printed a negative value for an
4932 				 * immediate that wasn't a
4933 				 * displacement.  Note that fact so we can
4934 				 * print the positive value as an
4935 				 * annotation.
4936 				 */
4937 
4938 				save_usv = usv;
4939 				save_mask = mask;
4940 			}
4941 			(void) strlcat(buf, op->d86_opnd, buflen);
4942 
4943 			break;
4944 
4945 		case MODE_IPREL:
4946 		case MODE_RIPREL:
4947 
4948 			reltgt = pc + sv;
4949 
4950 			switch (mode) {
4951 			case SIZE16:
4952 				reltgt = (uint16_t)reltgt;
4953 				break;
4954 			case SIZE32:
4955 				reltgt = (uint32_t)reltgt;
4956 				break;
4957 			}
4958 
4959 			(void) print_imm(dis, usv, mask, buf, buflen,
4960 			    DISP, TRY_NEG);
4961 
4962 			if (op->d86_mode == MODE_RIPREL)
4963 				(void) strlcat(buf, "(%rip)", buflen);
4964 			break;
4965 		}
4966 	}
4967 
4968 	/*
4969 	 * The symbol lookups may result in false positives,
4970 	 * particularly on object files, where small numbers may match
4971 	 * the 0-relative non-relocated addresses of symbols.
4972 	 */
4973 
4974 	lookup = dis->d86_sym_lookup;
4975 	if (tgt != 0) {
4976 		if ((dis->d86_flags & DIS_F_NOIMMSYM) == 0 &&
4977 		    lookup(dis->d86_data, tgt, NULL, 0) == 0) {
4978 			(void) strlcat(buf, "\t<", buflen);
4979 			curlen = strlen(buf);
4980 			lookup(dis->d86_data, tgt, buf + curlen,
4981 			    buflen - curlen);
4982 			(void) strlcat(buf, ">", buflen);
4983 		}
4984 
4985 		/*
4986 		 * If we printed a negative immediate above, print the
4987 		 * positive in case our heuristic was unhelpful
4988 		 */
4989 		if (save_usv) {
4990 			(void) strlcat(buf, "\t<", buflen);
4991 			(void) print_imm(dis, save_usv, save_mask, buf, buflen,
4992 			    IMM, POS);
4993 			(void) strlcat(buf, ">", buflen);
4994 		}
4995 	}
4996 
4997 	if (reltgt != 0) {
4998 		/* Print symbol or effective address for reltgt */
4999 
5000 		(void) strlcat(buf, "\t<", buflen);
5001 		curlen = strlen(buf);
5002 		lookup(dis->d86_data, reltgt, buf + curlen,
5003 		    buflen - curlen);
5004 		(void) strlcat(buf, ">", buflen);
5005 	}
5006 }
5007 
5008 #endif /* DIS_TEXT */
5009