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1 
2 /*---------------------------------------------------------------*/
3 /*--- begin                                 host_arm64_defs.h ---*/
4 /*---------------------------------------------------------------*/
5 
6 /*
7    This file is part of Valgrind, a dynamic binary instrumentation
8    framework.
9 
10    Copyright (C) 2013-2017 OpenWorks
11       info@open-works.net
12 
13    This program is free software; you can redistribute it and/or
14    modify it under the terms of the GNU General Public License as
15    published by the Free Software Foundation; either version 2 of the
16    License, or (at your option) any later version.
17 
18    This program is distributed in the hope that it will be useful, but
19    WITHOUT ANY WARRANTY; without even the implied warranty of
20    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
21    General Public License for more details.
22 
23    You should have received a copy of the GNU General Public License
24    along with this program; if not, write to the Free Software
25    Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
26    02110-1301, USA.
27 
28    The GNU General Public License is contained in the file COPYING.
29 */
30 
31 #ifndef __VEX_HOST_ARM64_DEFS_H
32 #define __VEX_HOST_ARM64_DEFS_H
33 
34 #include "libvex_basictypes.h"
35 #include "libvex.h"                      // VexArch
36 #include "host_generic_regs.h"           // HReg
37 
38 
39 /* --------- Registers. --------- */
40 
41 #define ST_IN static inline
hregARM64_X22(void)42 ST_IN HReg hregARM64_X22 ( void ) { return mkHReg(False, HRcInt64,  22,  0); }
hregARM64_X23(void)43 ST_IN HReg hregARM64_X23 ( void ) { return mkHReg(False, HRcInt64,  23,  1); }
hregARM64_X24(void)44 ST_IN HReg hregARM64_X24 ( void ) { return mkHReg(False, HRcInt64,  24,  2); }
hregARM64_X25(void)45 ST_IN HReg hregARM64_X25 ( void ) { return mkHReg(False, HRcInt64,  25,  3); }
hregARM64_X26(void)46 ST_IN HReg hregARM64_X26 ( void ) { return mkHReg(False, HRcInt64,  26,  4); }
hregARM64_X27(void)47 ST_IN HReg hregARM64_X27 ( void ) { return mkHReg(False, HRcInt64,  27,  5); }
hregARM64_X28(void)48 ST_IN HReg hregARM64_X28 ( void ) { return mkHReg(False, HRcInt64,  28,  6); }
49 
hregARM64_X0(void)50 ST_IN HReg hregARM64_X0  ( void ) { return mkHReg(False, HRcInt64,  0,   7); }
hregARM64_X1(void)51 ST_IN HReg hregARM64_X1  ( void ) { return mkHReg(False, HRcInt64,  1,   8); }
hregARM64_X2(void)52 ST_IN HReg hregARM64_X2  ( void ) { return mkHReg(False, HRcInt64,  2,   9); }
hregARM64_X3(void)53 ST_IN HReg hregARM64_X3  ( void ) { return mkHReg(False, HRcInt64,  3,  10); }
hregARM64_X4(void)54 ST_IN HReg hregARM64_X4  ( void ) { return mkHReg(False, HRcInt64,  4,  11); }
hregARM64_X5(void)55 ST_IN HReg hregARM64_X5  ( void ) { return mkHReg(False, HRcInt64,  5,  12); }
hregARM64_X6(void)56 ST_IN HReg hregARM64_X6  ( void ) { return mkHReg(False, HRcInt64,  6,  13); }
hregARM64_X7(void)57 ST_IN HReg hregARM64_X7  ( void ) { return mkHReg(False, HRcInt64,  7,  14); }
58 
hregARM64_Q16(void)59 ST_IN HReg hregARM64_Q16 ( void ) { return mkHReg(False, HRcVec128, 16, 15); }
hregARM64_Q17(void)60 ST_IN HReg hregARM64_Q17 ( void ) { return mkHReg(False, HRcVec128, 17, 16); }
hregARM64_Q18(void)61 ST_IN HReg hregARM64_Q18 ( void ) { return mkHReg(False, HRcVec128, 18, 17); }
hregARM64_Q19(void)62 ST_IN HReg hregARM64_Q19 ( void ) { return mkHReg(False, HRcVec128, 19, 18); }
hregARM64_Q20(void)63 ST_IN HReg hregARM64_Q20 ( void ) { return mkHReg(False, HRcVec128, 20, 19); }
64 
hregARM64_D8(void)65 ST_IN HReg hregARM64_D8  ( void ) { return mkHReg(False, HRcFlt64,  8,  20); }
hregARM64_D9(void)66 ST_IN HReg hregARM64_D9  ( void ) { return mkHReg(False, HRcFlt64,  9,  21); }
hregARM64_D10(void)67 ST_IN HReg hregARM64_D10 ( void ) { return mkHReg(False, HRcFlt64,  10, 22); }
hregARM64_D11(void)68 ST_IN HReg hregARM64_D11 ( void ) { return mkHReg(False, HRcFlt64,  11, 23); }
hregARM64_D12(void)69 ST_IN HReg hregARM64_D12 ( void ) { return mkHReg(False, HRcFlt64,  12, 24); }
hregARM64_D13(void)70 ST_IN HReg hregARM64_D13 ( void ) { return mkHReg(False, HRcFlt64,  13, 25); }
71 
hregARM64_X8(void)72 ST_IN HReg hregARM64_X8  ( void ) { return mkHReg(False, HRcInt64,  8,  26); }
hregARM64_X9(void)73 ST_IN HReg hregARM64_X9  ( void ) { return mkHReg(False, HRcInt64,  9,  27); }
hregARM64_X21(void)74 ST_IN HReg hregARM64_X21 ( void ) { return mkHReg(False, HRcInt64, 21,  28); }
75 #undef ST_IN
76 
77 extern void ppHRegARM64 ( HReg );
78 
79 /* Number of registers used arg passing in function calls */
80 #define ARM64_N_ARGREGS 8   /* x0 .. x7 */
81 
82 
83 /* --------- Condition codes. --------- */
84 
85 typedef
86    enum {
87       ARM64cc_EQ  = 0,  /* equal                         : Z=1 */
88       ARM64cc_NE  = 1,  /* not equal                     : Z=0 */
89 
90       ARM64cc_CS  = 2,  /* >=u (higher or same)          : C=1 */
91       ARM64cc_CC  = 3,  /* <u  (lower)                   : C=0 */
92 
93       ARM64cc_MI  = 4,  /* minus (negative)              : N=1 */
94       ARM64cc_PL  = 5,  /* plus (zero or +ve)            : N=0 */
95 
96       ARM64cc_VS  = 6,  /* overflow                      : V=1 */
97       ARM64cc_VC  = 7,  /* no overflow                   : V=0 */
98 
99       ARM64cc_HI  = 8,  /* >u   (higher)                 :   C=1 && Z=0 */
100       ARM64cc_LS  = 9,  /* <=u  (lower or same)          : !(C=1 && Z=0) */
101 
102       ARM64cc_GE  = 10, /* >=s (signed greater or equal) :   N=V */
103       ARM64cc_LT  = 11, /* <s  (signed less than)        : !(N=V) */
104 
105       ARM64cc_GT  = 12, /* >s  (signed greater)          :   Z=0 && N=V */
106       ARM64cc_LE  = 13, /* <=s (signed less or equal)    : !(Z=0 && N=V) */
107 
108       ARM64cc_AL  = 14, /* always (unconditional) */
109       ARM64cc_NV  = 15  /* in 64-bit mode also means "always" */
110    }
111    ARM64CondCode;
112 
113 
114 /* --------- Memory address expressions (amodes). --------- */
115 
116 typedef
117    enum {
118       ARM64am_RI9=10, /* reg + simm9 */
119       ARM64am_RI12,   /* reg + uimm12 * szB (iow, scaled by access size) */
120       ARM64am_RR      /* reg1 + reg2 */
121    }
122    ARM64AModeTag;
123 
124 typedef
125    struct {
126       ARM64AModeTag tag;
127       union {
128          struct {
129             HReg reg;
130             Int  simm9; /* -256 .. +255 */
131          } RI9;
132          struct {
133             HReg  reg;
134             UInt  uimm12; /* 0 .. 4095 */
135             UChar szB;    /* 1, 2, 4, 8 (16 ?) */
136          } RI12;
137          struct {
138             HReg base;
139             HReg index;
140          } RR;
141       } ARM64am;
142    }
143    ARM64AMode;
144 
145 extern ARM64AMode* ARM64AMode_RI9  ( HReg reg, Int simm9 );
146 extern ARM64AMode* ARM64AMode_RI12 ( HReg reg, Int uimm12, UChar szB );
147 extern ARM64AMode* ARM64AMode_RR   ( HReg base, HReg index );
148 
149 
150 /* --------- Reg or uimm12 or (uimm12 << 12) operands --------- */
151 
152 typedef
153    enum {
154       ARM64riA_I12=20, /* uimm12 << 0 or 12 only */
155       ARM64riA_R       /* reg */
156    }
157    ARM64RIATag;
158 
159 typedef
160    struct {
161       ARM64RIATag tag;
162       union {
163          struct {
164             UShort imm12;  /* 0 .. 4095 */
165             UChar  shift;  /* 0 or 12 only */
166          } I12;
167          struct {
168             HReg reg;
169          } R;
170       } ARM64riA;
171    }
172    ARM64RIA;
173 
174 extern ARM64RIA* ARM64RIA_I12 ( UShort imm12, UChar shift );
175 extern ARM64RIA* ARM64RIA_R   ( HReg );
176 
177 
178 /* --------- Reg or "bitfield" (logic immediate) operands --------- */
179 
180 typedef
181    enum {
182       ARM64riL_I13=6, /* wierd-o bitfield immediate, 13 bits in total */
183       ARM64riL_R      /* reg */
184    }
185    ARM64RILTag;
186 
187 typedef
188    struct {
189       ARM64RILTag tag;
190       union {
191          struct {
192             UChar bitN; /* 0 .. 1 */
193             UChar immR; /* 0 .. 63 */
194             UChar immS; /* 0 .. 63 */
195          } I13;
196          struct {
197             HReg reg;
198          } R;
199       } ARM64riL;
200    }
201    ARM64RIL;
202 
203 extern ARM64RIL* ARM64RIL_I13 ( UChar bitN, UChar immR, UChar immS );
204 extern ARM64RIL* ARM64RIL_R   ( HReg );
205 
206 
207 /* --------------- Reg or uimm6 operands --------------- */
208 
209 typedef
210    enum {
211       ARM64ri6_I6=30, /* uimm6, 1 .. 63 only */
212       ARM64ri6_R      /* reg */
213    }
214    ARM64RI6Tag;
215 
216 typedef
217    struct {
218       ARM64RI6Tag tag;
219       union {
220          struct {
221             UInt imm6;   /* 1 .. 63 */
222          } I6;
223          struct {
224             HReg reg;
225          } R;
226       } ARM64ri6;
227    }
228    ARM64RI6;
229 
230 extern ARM64RI6* ARM64RI6_I6 ( UInt imm6 );
231 extern ARM64RI6* ARM64RI6_R  ( HReg );
232 
233 
234 /* --------------------- Instructions --------------------- */
235 
236 typedef
237    enum {
238       ARM64lo_AND=40,
239       ARM64lo_OR,
240       ARM64lo_XOR
241    }
242    ARM64LogicOp;
243 
244 typedef
245    enum {
246       ARM64sh_SHL=50,
247       ARM64sh_SHR,
248       ARM64sh_SAR
249    }
250    ARM64ShiftOp;
251 
252 typedef
253    enum {
254       ARM64un_NEG=60,
255       ARM64un_NOT,
256       ARM64un_CLZ,
257    }
258    ARM64UnaryOp;
259 
260 typedef
261    enum {
262       ARM64mul_PLAIN=70, /* lo64(64 * 64)  */
263       ARM64mul_ZX,       /* hi64(64 *u 64) */
264       ARM64mul_SX        /* hi64(64 *s 64) */
265    }
266    ARM64MulOp;
267 
268 typedef
269    /* These characterise an integer-FP conversion, but don't imply any
270       particular direction. */
271    enum {
272       ARM64cvt_F32_I32S=80,
273       ARM64cvt_F64_I32S,
274       ARM64cvt_F32_I64S,
275       ARM64cvt_F64_I64S,
276       ARM64cvt_F32_I32U,
277       ARM64cvt_F64_I32U,
278       ARM64cvt_F32_I64U,
279       ARM64cvt_F64_I64U,
280       ARM64cvt_INVALID
281    }
282    ARM64CvtOp;
283 
284 typedef
285    enum {
286       ARM64fpb_ADD=100,
287       ARM64fpb_SUB,
288       ARM64fpb_MUL,
289       ARM64fpb_DIV,
290       ARM64fpb_INVALID
291    }
292    ARM64FpBinOp;
293 
294 typedef
295    enum {
296       ARM64fpu_NEG=110,
297       ARM64fpu_ABS,
298       ARM64fpu_SQRT,
299       ARM64fpu_RINT,
300       ARM64fpu_RECPX,
301       ARM64fpu_INVALID
302    }
303    ARM64FpUnaryOp;
304 
305 typedef
306    enum {
307       ARM64vecb_ADD64x2=120, ARM64vecb_ADD32x4,
308       ARM64vecb_ADD16x8,     ARM64vecb_ADD8x16,
309       ARM64vecb_SUB64x2,     ARM64vecb_SUB32x4,
310       ARM64vecb_SUB16x8,     ARM64vecb_SUB8x16,
311                              ARM64vecb_MUL32x4,
312       ARM64vecb_MUL16x8,     ARM64vecb_MUL8x16,
313       ARM64vecb_FADD64x2,    ARM64vecb_FADD32x4,
314       ARM64vecb_FSUB64x2,    ARM64vecb_FSUB32x4,
315       ARM64vecb_FMUL64x2,    ARM64vecb_FMUL32x4,
316       ARM64vecb_FDIV64x2,    ARM64vecb_FDIV32x4,
317       ARM64vecb_FMAX64x2,    ARM64vecb_FMAX32x4,
318       ARM64vecb_FMIN64x2,    ARM64vecb_FMIN32x4,
319                              ARM64vecb_UMAX32x4,
320       ARM64vecb_UMAX16x8,    ARM64vecb_UMAX8x16,
321                              ARM64vecb_UMIN32x4,
322       ARM64vecb_UMIN16x8,    ARM64vecb_UMIN8x16,
323                              ARM64vecb_SMAX32x4,
324       ARM64vecb_SMAX16x8,    ARM64vecb_SMAX8x16,
325                              ARM64vecb_SMIN32x4,
326       ARM64vecb_SMIN16x8,    ARM64vecb_SMIN8x16,
327       ARM64vecb_AND,
328       ARM64vecb_ORR,
329       ARM64vecb_XOR,
330       ARM64vecb_CMEQ64x2,    ARM64vecb_CMEQ32x4,
331       ARM64vecb_CMEQ16x8,    ARM64vecb_CMEQ8x16,
332       ARM64vecb_CMHI64x2,    ARM64vecb_CMHI32x4, /* >u */
333       ARM64vecb_CMHI16x8,    ARM64vecb_CMHI8x16,
334       ARM64vecb_CMGT64x2,    ARM64vecb_CMGT32x4, /* >s */
335       ARM64vecb_CMGT16x8,    ARM64vecb_CMGT8x16,
336       ARM64vecb_FCMEQ64x2,   ARM64vecb_FCMEQ32x4,
337       ARM64vecb_FCMGE64x2,   ARM64vecb_FCMGE32x4,
338       ARM64vecb_FCMGT64x2,   ARM64vecb_FCMGT32x4,
339       ARM64vecb_TBL1,
340       ARM64vecb_UZP164x2,    ARM64vecb_UZP132x4,
341       ARM64vecb_UZP116x8,    ARM64vecb_UZP18x16,
342       ARM64vecb_UZP264x2,    ARM64vecb_UZP232x4,
343       ARM64vecb_UZP216x8,    ARM64vecb_UZP28x16,
344       ARM64vecb_ZIP132x4,    ARM64vecb_ZIP116x8,
345       ARM64vecb_ZIP18x16,    ARM64vecb_ZIP232x4,
346       ARM64vecb_ZIP216x8,    ARM64vecb_ZIP28x16,
347                              ARM64vecb_PMUL8x16,
348                              ARM64vecb_PMULL8x8,
349                              ARM64vecb_UMULL2DSS,
350       ARM64vecb_UMULL4SHH,   ARM64vecb_UMULL8HBB,
351                              ARM64vecb_SMULL2DSS,
352       ARM64vecb_SMULL4SHH,   ARM64vecb_SMULL8HBB,
353       ARM64vecb_SQADD64x2,   ARM64vecb_SQADD32x4,
354       ARM64vecb_SQADD16x8,   ARM64vecb_SQADD8x16,
355       ARM64vecb_UQADD64x2,   ARM64vecb_UQADD32x4,
356       ARM64vecb_UQADD16x8,   ARM64vecb_UQADD8x16,
357       ARM64vecb_SQSUB64x2,   ARM64vecb_SQSUB32x4,
358       ARM64vecb_SQSUB16x8,   ARM64vecb_SQSUB8x16,
359       ARM64vecb_UQSUB64x2,   ARM64vecb_UQSUB32x4,
360       ARM64vecb_UQSUB16x8,   ARM64vecb_UQSUB8x16,
361                              ARM64vecb_SQDMULL2DSS,
362       ARM64vecb_SQDMULL4SHH,
363                              ARM64vecb_SQDMULH32x4,
364       ARM64vecb_SQDMULH16x8,
365                              ARM64vecb_SQRDMULH32x4,
366       ARM64vecb_SQRDMULH16x8,
367       ARM64vecb_SQSHL64x2,   ARM64vecb_SQSHL32x4,
368       ARM64vecb_SQSHL16x8,   ARM64vecb_SQSHL8x16,
369       ARM64vecb_UQSHL64x2,   ARM64vecb_UQSHL32x4,
370       ARM64vecb_UQSHL16x8,   ARM64vecb_UQSHL8x16,
371       ARM64vecb_SQRSHL64x2,  ARM64vecb_SQRSHL32x4,
372       ARM64vecb_SQRSHL16x8,  ARM64vecb_SQRSHL8x16,
373       ARM64vecb_UQRSHL64x2,  ARM64vecb_UQRSHL32x4,
374       ARM64vecb_UQRSHL16x8,  ARM64vecb_UQRSHL8x16,
375       ARM64vecb_SSHL64x2,    ARM64vecb_SSHL32x4,
376       ARM64vecb_SSHL16x8,    ARM64vecb_SSHL8x16,
377       ARM64vecb_USHL64x2,    ARM64vecb_USHL32x4,
378       ARM64vecb_USHL16x8,    ARM64vecb_USHL8x16,
379       ARM64vecb_SRSHL64x2,   ARM64vecb_SRSHL32x4,
380       ARM64vecb_SRSHL16x8,   ARM64vecb_SRSHL8x16,
381       ARM64vecb_URSHL64x2,   ARM64vecb_URSHL32x4,
382       ARM64vecb_URSHL16x8,   ARM64vecb_URSHL8x16,
383       ARM64vecb_FRECPS64x2,  ARM64vecb_FRECPS32x4,
384       ARM64vecb_FRSQRTS64x2, ARM64vecb_FRSQRTS32x4,
385       ARM64vecb_INVALID
386    }
387    ARM64VecBinOp;
388 
389 typedef
390    enum {
391       ARM64vecmo_SUQADD64x2=300, ARM64vecmo_SUQADD32x4,
392       ARM64vecmo_SUQADD16x8,     ARM64vecmo_SUQADD8x16,
393       ARM64vecmo_USQADD64x2,     ARM64vecmo_USQADD32x4,
394       ARM64vecmo_USQADD16x8,     ARM64vecmo_USQADD8x16,
395       ARM64vecmo_INVALID
396    }
397    ARM64VecModifyOp;
398 
399 typedef
400    enum {
401       ARM64vecu_FNEG64x2=350, ARM64vecu_FNEG32x4,
402       ARM64vecu_FABS64x2,     ARM64vecu_FABS32x4,
403       ARM64vecu_NOT,
404       ARM64vecu_ABS64x2,      ARM64vecu_ABS32x4,
405       ARM64vecu_ABS16x8,      ARM64vecu_ABS8x16,
406       ARM64vecu_CLS32x4,      ARM64vecu_CLS16x8,      ARM64vecu_CLS8x16,
407       ARM64vecu_CLZ32x4,      ARM64vecu_CLZ16x8,      ARM64vecu_CLZ8x16,
408       ARM64vecu_CNT8x16,
409       ARM64vecu_RBIT,
410       ARM64vecu_REV1616B,
411       ARM64vecu_REV3216B,     ARM64vecu_REV328H,
412       ARM64vecu_REV6416B,     ARM64vecu_REV648H,      ARM64vecu_REV644S,
413       ARM64vecu_URECPE32x4,
414       ARM64vecu_URSQRTE32x4,
415       ARM64vecu_FRECPE64x2,   ARM64vecu_FRECPE32x4,
416       ARM64vecu_FRSQRTE64x2,  ARM64vecu_FRSQRTE32x4,
417       ARM64vecu_FSQRT64x2,    ARM64vecu_FSQRT32x4,
418       ARM64vecu_INVALID
419    }
420    ARM64VecUnaryOp;
421 
422 typedef
423    enum {
424       ARM64vecshi_USHR64x2=400, ARM64vecshi_USHR32x4,
425       ARM64vecshi_USHR16x8,     ARM64vecshi_USHR8x16,
426       ARM64vecshi_SSHR64x2,     ARM64vecshi_SSHR32x4,
427       ARM64vecshi_SSHR16x8,     ARM64vecshi_SSHR8x16,
428       ARM64vecshi_SHL64x2,      ARM64vecshi_SHL32x4,
429       ARM64vecshi_SHL16x8,      ARM64vecshi_SHL8x16,
430       /* These narrowing shifts zero out the top half of the destination
431          register. */
432       ARM64vecshi_SQSHRN2SD,    ARM64vecshi_SQSHRN4HS,   ARM64vecshi_SQSHRN8BH,
433       ARM64vecshi_UQSHRN2SD,    ARM64vecshi_UQSHRN4HS,   ARM64vecshi_UQSHRN8BH,
434       ARM64vecshi_SQSHRUN2SD,   ARM64vecshi_SQSHRUN4HS,  ARM64vecshi_SQSHRUN8BH,
435       ARM64vecshi_SQRSHRN2SD,   ARM64vecshi_SQRSHRN4HS,  ARM64vecshi_SQRSHRN8BH,
436       ARM64vecshi_UQRSHRN2SD,   ARM64vecshi_UQRSHRN4HS,  ARM64vecshi_UQRSHRN8BH,
437       ARM64vecshi_SQRSHRUN2SD,  ARM64vecshi_SQRSHRUN4HS, ARM64vecshi_SQRSHRUN8BH,
438       /* Saturating left shifts, of various flavours. */
439       ARM64vecshi_UQSHL64x2,    ARM64vecshi_UQSHL32x4,
440       ARM64vecshi_UQSHL16x8,    ARM64vecshi_UQSHL8x16,
441       ARM64vecshi_SQSHL64x2,    ARM64vecshi_SQSHL32x4,
442       ARM64vecshi_SQSHL16x8,    ARM64vecshi_SQSHL8x16,
443       ARM64vecshi_SQSHLU64x2,   ARM64vecshi_SQSHLU32x4,
444       ARM64vecshi_SQSHLU16x8,   ARM64vecshi_SQSHLU8x16,
445       ARM64vecshi_INVALID
446    }
447    ARM64VecShiftImmOp;
448 
449 typedef
450    enum {
451       ARM64vecna_XTN=450,
452       ARM64vecna_SQXTN,
453       ARM64vecna_UQXTN,
454       ARM64vecna_SQXTUN,
455       ARM64vecna_INVALID
456    }
457    ARM64VecNarrowOp;
458 
459 typedef
460    enum {
461       /* baseline */
462       ARM64in_Arith=1220,
463       ARM64in_Cmp,
464       ARM64in_Logic,
465       ARM64in_Test,
466       ARM64in_Shift,
467       ARM64in_Unary,
468       ARM64in_MovI,        /* int reg-reg move */
469       ARM64in_Imm64,
470       ARM64in_LdSt64,
471       ARM64in_LdSt32,      /* w/ ZX loads */
472       ARM64in_LdSt16,      /* w/ ZX loads */
473       ARM64in_LdSt8,       /* w/ ZX loads */
474       ARM64in_XDirect,     /* direct transfer to GA */
475       ARM64in_XIndir,      /* indirect transfer to GA */
476       ARM64in_XAssisted,   /* assisted transfer to GA */
477       ARM64in_CSel,
478       ARM64in_Call,
479       ARM64in_AddToSP,     /* move SP by small, signed constant */
480       ARM64in_FromSP,      /* move SP to integer register */
481       ARM64in_Mul,
482       ARM64in_LdrEX,
483       ARM64in_StrEX,
484       ARM64in_CAS,
485       ARM64in_MFence,
486       ARM64in_ClrEX,
487       /* ARM64in_V*: scalar ops involving vector registers */
488       ARM64in_VLdStH,   /* ld/st to/from low 16 bits of vec reg, imm offset */
489       ARM64in_VLdStS,   /* ld/st to/from low 32 bits of vec reg, imm offset */
490       ARM64in_VLdStD,   /* ld/st to/from low 64 bits of vec reg, imm offset */
491       ARM64in_VLdStQ,   /* ld/st to/from all 128 bits of vec reg, no offset */
492       ARM64in_VCvtI2F,
493       ARM64in_VCvtF2I,
494       ARM64in_VCvtSD,   /* scalar 32 bit FP <--> 64 bit FP */
495       ARM64in_VCvtHS,   /* scalar 16 bit FP <--> 32 bit FP */
496       ARM64in_VCvtHD,   /* scalar 16 bit FP <--> 64 bit FP */
497       ARM64in_VUnaryD,
498       ARM64in_VUnaryS,
499       ARM64in_VBinD,
500       ARM64in_VBinS,
501       ARM64in_VCmpD,
502       ARM64in_VCmpS,
503       ARM64in_VFCSel,
504       ARM64in_FPCR,
505       ARM64in_FPSR,
506       /* ARM64in_V*V: vector ops on vector registers */
507       ARM64in_VBinV,
508       ARM64in_VModifyV,
509       ARM64in_VUnaryV,
510       ARM64in_VNarrowV,
511       ARM64in_VShiftImmV,
512       ARM64in_VExtV,
513       ARM64in_VImmQ,
514       ARM64in_VDfromX,    /* Move an Xreg to a Dreg */
515       ARM64in_VQfromX,    /* Move an Xreg to a Qreg lo64, and zero hi64 */
516       ARM64in_VQfromXX,   /* Move 2 Xregs to a Qreg */
517       ARM64in_VXfromQ,    /* Move half a Qreg to an Xreg */
518       ARM64in_VXfromDorS, /* Move Dreg or Sreg(ZX) to an Xreg */
519       ARM64in_VMov,       /* vector reg-reg move, 16, 8 or 4 bytes */
520       /* infrastructure */
521       ARM64in_EvCheck,    /* Event check */
522       ARM64in_ProfInc     /* 64-bit profile counter increment */
523    }
524    ARM64InstrTag;
525 
526 /* Destinations are on the LEFT (first operand) */
527 
528 typedef
529    struct {
530       ARM64InstrTag tag;
531       union {
532          /* --- INTEGER INSTRUCTIONS --- */
533          /* 64 bit ADD/SUB reg, reg or uimm12<<{0,12} */
534          struct {
535             HReg      dst;
536             HReg      argL;
537             ARM64RIA* argR;
538             Bool      isAdd;
539          } Arith;
540          /* 64 or 32 bit CMP reg, reg or aimm (SUB and set flags) */
541          struct {
542             HReg      argL;
543             ARM64RIA* argR;
544             Bool      is64;
545          } Cmp;
546          /* 64 bit AND/OR/XOR reg, reg or bitfield-immediate */
547          struct {
548             HReg         dst;
549             HReg         argL;
550             ARM64RIL*    argR;
551             ARM64LogicOp op;
552          } Logic;
553          /* 64 bit TST reg, reg or bimm (AND and set flags) */
554          struct {
555             HReg      argL;
556             ARM64RIL* argR;
557          } Test;
558          /* 64 bit SHL/SHR/SAR, 2nd arg is reg or imm */
559          struct {
560             HReg         dst;
561             HReg         argL;
562             ARM64RI6*    argR;
563             ARM64ShiftOp op;
564          } Shift;
565          /* NOT/NEG/CLZ, 64 bit only */
566          struct {
567             HReg         dst;
568             HReg         src;
569             ARM64UnaryOp op;
570          } Unary;
571          /* MOV dst, src -- reg-reg move for integer registers */
572          struct {
573             HReg dst;
574             HReg src;
575          } MovI;
576          /* Pseudo-insn; make a 64-bit immediate */
577          struct {
578             HReg  dst;
579             ULong imm64;
580          } Imm64;
581          /* 64-bit load or store */
582          struct {
583             Bool        isLoad;
584             HReg        rD;
585             ARM64AMode* amode;
586          } LdSt64;
587          /* zx-32-to-64-bit load, or 32-bit store */
588          struct {
589             Bool        isLoad;
590             HReg        rD;
591             ARM64AMode* amode;
592          } LdSt32;
593          /* zx-16-to-64-bit load, or 16-bit store */
594          struct {
595             Bool        isLoad;
596             HReg        rD;
597             ARM64AMode* amode;
598          } LdSt16;
599          /* zx-8-to-64-bit load, or 8-bit store */
600          struct {
601             Bool        isLoad;
602             HReg        rD;
603             ARM64AMode* amode;
604          } LdSt8;
605          /* Update the guest PC value, then exit requesting to chain
606             to it.  May be conditional.  Urr, use of Addr64 implicitly
607             assumes that wordsize(guest) == wordsize(host). */
608          struct {
609             Addr64        dstGA;    /* next guest address */
610             ARM64AMode*   amPC;     /* amode in guest state for PC */
611             ARM64CondCode cond;     /* can be ARM64cc_AL */
612             Bool          toFastEP; /* chain to the slow or fast point? */
613          } XDirect;
614          /* Boring transfer to a guest address not known at JIT time.
615             Not chainable.  May be conditional. */
616          struct {
617             HReg          dstGA;
618             ARM64AMode*   amPC;
619             ARM64CondCode cond; /* can be ARM64cc_AL */
620          } XIndir;
621          /* Assisted transfer to a guest address, most general case.
622             Not chainable.  May be conditional. */
623          struct {
624             HReg          dstGA;
625             ARM64AMode*   amPC;
626             ARM64CondCode cond; /* can be ARM64cc_AL */
627             IRJumpKind    jk;
628          } XAssisted;
629          /* CSEL: dst = if cond then argL else argR.  cond may be anything. */
630           struct {
631             HReg          dst;
632             HReg          argL;
633             HReg          argR;
634             ARM64CondCode cond;
635          } CSel;
636          /* Pseudo-insn.  Call target (an absolute address), on given
637             condition (which could be ARM64cc_AL). */
638          struct {
639             RetLoc        rloc;     /* where the return value will be */
640             Addr64        target;
641             ARM64CondCode cond;
642             Int           nArgRegs; /* # regs carrying args: 0 .. 8 */
643          } Call;
644          /* move SP by small, signed constant */
645          struct {
646             Int simm; /* needs to be 0 % 16 and in the range -4095
647                          .. 4095 inclusive */
648          } AddToSP;
649          /* move SP to integer register */
650          struct {
651             HReg dst;
652          } FromSP;
653          /* Integer multiply, with 3 variants:
654               (PLAIN) lo64(64 *  64)
655               (ZX)    hi64(64 *u 64)
656               (SX)    hi64(64 *s 64)
657          */
658          struct {
659             HReg       dst;
660             HReg       argL;
661             HReg       argR;
662             ARM64MulOp op;
663          } Mul;
664          /* LDXR{,H,B} x2, [x4] */
665          struct {
666             Int  szB; /* 1, 2, 4 or 8 */
667          } LdrEX;
668          /* STXR{,H,B} w0, x2, [x4] */
669          struct {
670             Int  szB; /* 1, 2, 4 or 8 */
671          } StrEX;
672          /* x1 = CAS(x3(addr), x5(expected) -> x7(new)),
673             where x1[8*szB-1 : 0] == x5[8*szB-1 : 0] indicates success,
674                   x1[8*szB-1 : 0] != x5[8*szB-1 : 0] indicates failure.
675             Uses x8 as scratch (but that's not allocatable).
676             Hence: RD x3, x5, x7; WR x1
677 
678             (szB=8)  mov  x8, x5
679             (szB=4)  and  x8, x5, #0xFFFFFFFF
680             (szB=2)  and  x8, x5, #0xFFFF
681             (szB=1)  and  x8, x5, #0xFF
682             -- x8 is correctly zero-extended expected value
683             ldxr    x1, [x3]
684             -- x1 is correctly zero-extended actual value
685             cmp     x1, x8
686             bne     after
687             -- if branch taken, failure; x1[[8*szB-1 : 0] holds old value
688             -- attempt to store
689             stxr    w1, x7, [x3]
690             -- if store successful, x1==0, so the eor is "x1 := x5"
691             -- if store failed,     x1==1, so the eor makes x1 != x5
692             eor     x1, x5, x1
693            after:
694          */
695          struct {
696             Int szB; /* 1, 2, 4 or 8 */
697          } CAS;
698          /* Mem fence.  An insn which fences all loads and stores as
699             much as possible before continuing.  On ARM64 we emit the
700             sequence "dsb sy ; dmb sy ; isb sy", which is probably
701             total nuclear overkill, but better safe than sorry. */
702          struct {
703          } MFence;
704          /* A CLREX instruction. */
705          struct {
706          } ClrEX;
707          /* --- INSTRUCTIONS INVOLVING VECTOR REGISTERS --- */
708          /* ld/st to/from low 16 bits of vec reg, imm offset */
709          struct {
710             Bool isLoad;
711             HReg hD;
712             HReg rN;
713             UInt uimm12;  /* 0 .. 8190 inclusive, 0 % 2 */
714          } VLdStH;
715          /* ld/st to/from low 32 bits of vec reg, imm offset */
716          struct {
717             Bool isLoad;
718             HReg sD;
719             HReg rN;
720             UInt uimm12;  /* 0 .. 16380 inclusive, 0 % 4 */
721          } VLdStS;
722          /* ld/st to/from low 64 bits of vec reg, imm offset */
723          struct {
724             Bool isLoad;
725             HReg dD;
726             HReg rN;
727             UInt uimm12;  /* 0 .. 32760 inclusive, 0 % 8 */
728          } VLdStD;
729          /* ld/st to/from all 128 bits of vec reg, no offset */
730          struct {
731             Bool isLoad;
732             HReg rQ; // data
733             HReg rN; // address
734          } VLdStQ;
735          /* Scalar conversion of int to float. */
736          struct {
737             ARM64CvtOp how;
738             HReg       rD; // dst, a D or S register
739             HReg       rS; // src, a W or X register
740          } VCvtI2F;
741          /* Scalar conversion of float to int, w/ specified RM. */
742          struct {
743             ARM64CvtOp how;
744             HReg       rD; // dst, a W or X register
745             HReg       rS; // src, a D or S register
746             UChar      armRM; // ARM encoded RM:
747                               // 00=nearest, 01=+inf, 10=-inf, 11=zero
748          } VCvtF2I;
749          /* Convert between 32-bit and 64-bit FP values (both ways). (FCVT) */
750          struct {
751             Bool sToD; /* True: F32->F64.  False: F64->F32 */
752             HReg dst;
753             HReg src;
754          } VCvtSD;
755          /* Convert between 16-bit and 32-bit FP values (both ways). (FCVT) */
756          struct {
757             Bool hToS; /* True: F16->F32.  False: F32->F16 */
758             HReg dst;
759             HReg src;
760          } VCvtHS;
761          /* Convert between 16-bit and 64-bit FP values (both ways). (FCVT) */
762          struct {
763             Bool hToD; /* True: F16->F64.  False: F64->F16 */
764             HReg dst;
765             HReg src;
766          } VCvtHD;
767          /* 64-bit FP unary */
768          struct {
769             ARM64FpUnaryOp op;
770             HReg           dst;
771             HReg           src;
772          } VUnaryD;
773          /* 32-bit FP unary */
774          struct {
775             ARM64FpUnaryOp op;
776             HReg           dst;
777             HReg           src;
778          } VUnaryS;
779          /* 64-bit FP binary arithmetic */
780          struct {
781             ARM64FpBinOp op;
782             HReg         dst;
783             HReg         argL;
784             HReg         argR;
785          } VBinD;
786          /* 32-bit FP binary arithmetic */
787          struct {
788             ARM64FpBinOp op;
789             HReg         dst;
790             HReg         argL;
791             HReg         argR;
792          } VBinS;
793          /* 64-bit FP compare */
794          struct {
795             HReg argL;
796             HReg argR;
797          } VCmpD;
798          /* 32-bit FP compare */
799          struct {
800             HReg argL;
801             HReg argR;
802          } VCmpS;
803          /* 32- or 64-bit FP conditional select */
804          struct {
805             HReg          dst;
806             HReg          argL;
807             HReg          argR;
808             ARM64CondCode cond;
809             Bool          isD;
810          }
811          VFCSel;
812          /* Move a 32-bit value to/from the FPCR */
813          struct {
814             Bool toFPCR;
815             HReg iReg;
816          } FPCR;
817          /* Move a 32-bit value to/from the FPSR */
818          struct {
819             Bool toFPSR;
820             HReg iReg;
821          } FPSR;
822          /* binary vector operation on vector registers */
823          struct {
824             ARM64VecBinOp op;
825             HReg          dst;
826             HReg          argL;
827             HReg          argR;
828          } VBinV;
829          /* binary vector operation on vector registers.
830             Dst reg is also a src. */
831          struct {
832             ARM64VecModifyOp op;
833             HReg             mod;
834             HReg             arg;
835          } VModifyV;
836          /* unary vector operation on vector registers */
837          struct {
838             ARM64VecUnaryOp op;
839             HReg            dst;
840             HReg            arg;
841          } VUnaryV;
842          /* vector narrowing, Q -> Q.  Result goes in the bottom half
843             of dst and the top half is zeroed out.  Iow one of the
844             XTN family. */
845         struct {
846            ARM64VecNarrowOp op;
847            UInt             dszBlg2; // 0: 16to8_x8  1: 32to16_x4  2: 64to32_x2
848            HReg             dst;     // Q reg
849            HReg             src;     // Q reg
850         } VNarrowV;
851         /* Vector shift by immediate.  For left shifts, |amt| must be
852            >= 0 and < implied lane size of |op|.  For right shifts,
853            |amt| must be > 0 and <= implied lane size of |op|.  Shifts
854            beyond these ranges are not allowed. */
855         struct {
856            ARM64VecShiftImmOp op;
857            HReg               dst;
858            HReg               src;
859            UInt               amt;
860         } VShiftImmV;
861         struct {
862            HReg dst;
863            HReg srcLo;
864            HReg srcHi;
865            UInt amtB;
866         } VExtV;
867          struct {
868             HReg   rQ;
869             UShort imm; /* Same 1-bit-per-byte encoding as IR */
870          } VImmQ;
871          struct {
872             HReg rD;
873             HReg rX;
874          } VDfromX;
875          struct {
876             HReg rQ;
877             HReg rXlo;
878          } VQfromX;
879          struct {
880             HReg rQ;
881             HReg rXhi;
882             HReg rXlo;
883          } VQfromXX;
884          struct {
885             HReg rX;
886             HReg rQ;
887             UInt laneNo; /* either 0 or 1 */
888          } VXfromQ;
889          struct {
890             HReg rX;
891             HReg rDorS;
892             Bool fromD;
893          } VXfromDorS;
894          /* MOV dst, src -- reg-reg move for vector registers */
895          struct {
896             UInt szB; // 16=mov qD,qS;  8=mov dD,dS;  4=mov sD,sS
897             HReg dst;
898             HReg src;
899          } VMov;
900          struct {
901             ARM64AMode* amCounter;
902             ARM64AMode* amFailAddr;
903          } EvCheck;
904          struct {
905             /* No fields.  The address of the counter to inc is
906                installed later, post-translation, by patching it in,
907                as it is not known at translation time. */
908          } ProfInc;
909       } ARM64in;
910    }
911    ARM64Instr;
912 
913 
914 extern ARM64Instr* ARM64Instr_Arith   ( HReg, HReg, ARM64RIA*, Bool isAdd );
915 extern ARM64Instr* ARM64Instr_Cmp     ( HReg, ARM64RIA*, Bool is64 );
916 extern ARM64Instr* ARM64Instr_Logic   ( HReg, HReg, ARM64RIL*, ARM64LogicOp );
917 extern ARM64Instr* ARM64Instr_Test    ( HReg, ARM64RIL* );
918 extern ARM64Instr* ARM64Instr_Shift   ( HReg, HReg, ARM64RI6*, ARM64ShiftOp );
919 extern ARM64Instr* ARM64Instr_Unary   ( HReg, HReg, ARM64UnaryOp );
920 extern ARM64Instr* ARM64Instr_MovI    ( HReg, HReg );
921 extern ARM64Instr* ARM64Instr_Imm64   ( HReg, ULong );
922 extern ARM64Instr* ARM64Instr_LdSt64  ( Bool isLoad, HReg, ARM64AMode* );
923 extern ARM64Instr* ARM64Instr_LdSt32  ( Bool isLoad, HReg, ARM64AMode* );
924 extern ARM64Instr* ARM64Instr_LdSt16  ( Bool isLoad, HReg, ARM64AMode* );
925 extern ARM64Instr* ARM64Instr_LdSt8   ( Bool isLoad, HReg, ARM64AMode* );
926 extern ARM64Instr* ARM64Instr_XDirect ( Addr64 dstGA, ARM64AMode* amPC,
927                                         ARM64CondCode cond, Bool toFastEP );
928 extern ARM64Instr* ARM64Instr_XIndir  ( HReg dstGA, ARM64AMode* amPC,
929                                         ARM64CondCode cond );
930 extern ARM64Instr* ARM64Instr_XAssisted ( HReg dstGA, ARM64AMode* amPC,
931                                           ARM64CondCode cond, IRJumpKind jk );
932 extern ARM64Instr* ARM64Instr_CSel    ( HReg dst, HReg argL, HReg argR,
933                                         ARM64CondCode cond );
934 extern ARM64Instr* ARM64Instr_Call    ( ARM64CondCode, Addr64, Int nArgRegs,
935                                         RetLoc rloc );
936 extern ARM64Instr* ARM64Instr_AddToSP ( Int simm );
937 extern ARM64Instr* ARM64Instr_FromSP  ( HReg dst );
938 extern ARM64Instr* ARM64Instr_Mul     ( HReg dst, HReg argL, HReg argR,
939                                         ARM64MulOp op );
940 extern ARM64Instr* ARM64Instr_LdrEX   ( Int szB );
941 extern ARM64Instr* ARM64Instr_StrEX   ( Int szB );
942 extern ARM64Instr* ARM64Instr_CAS     ( Int szB );
943 extern ARM64Instr* ARM64Instr_MFence  ( void );
944 extern ARM64Instr* ARM64Instr_ClrEX   ( void );
945 extern ARM64Instr* ARM64Instr_VLdStH  ( Bool isLoad, HReg sD, HReg rN,
946                                         UInt uimm12 /* 0 .. 8190, 0 % 2 */ );
947 extern ARM64Instr* ARM64Instr_VLdStS  ( Bool isLoad, HReg sD, HReg rN,
948                                         UInt uimm12 /* 0 .. 16380, 0 % 4 */ );
949 extern ARM64Instr* ARM64Instr_VLdStD  ( Bool isLoad, HReg dD, HReg rN,
950                                         UInt uimm12 /* 0 .. 32760, 0 % 8 */ );
951 extern ARM64Instr* ARM64Instr_VLdStQ  ( Bool isLoad, HReg rQ, HReg rN );
952 extern ARM64Instr* ARM64Instr_VCvtI2F ( ARM64CvtOp how, HReg rD, HReg rS );
953 extern ARM64Instr* ARM64Instr_VCvtF2I ( ARM64CvtOp how, HReg rD, HReg rS,
954                                         UChar armRM );
955 extern ARM64Instr* ARM64Instr_VCvtSD  ( Bool sToD, HReg dst, HReg src );
956 extern ARM64Instr* ARM64Instr_VCvtHS  ( Bool hToS, HReg dst, HReg src );
957 extern ARM64Instr* ARM64Instr_VCvtHD  ( Bool hToD, HReg dst, HReg src );
958 extern ARM64Instr* ARM64Instr_VUnaryD ( ARM64FpUnaryOp op, HReg dst, HReg src );
959 extern ARM64Instr* ARM64Instr_VUnaryS ( ARM64FpUnaryOp op, HReg dst, HReg src );
960 extern ARM64Instr* ARM64Instr_VBinD   ( ARM64FpBinOp op, HReg, HReg, HReg );
961 extern ARM64Instr* ARM64Instr_VBinS   ( ARM64FpBinOp op, HReg, HReg, HReg );
962 extern ARM64Instr* ARM64Instr_VCmpD   ( HReg argL, HReg argR );
963 extern ARM64Instr* ARM64Instr_VCmpS   ( HReg argL, HReg argR );
964 extern ARM64Instr* ARM64Instr_VFCSel  ( HReg dst, HReg argL, HReg argR,
965                                         ARM64CondCode cond, Bool isD );
966 extern ARM64Instr* ARM64Instr_FPCR    ( Bool toFPCR, HReg iReg );
967 extern ARM64Instr* ARM64Instr_FPSR    ( Bool toFPSR, HReg iReg );
968 extern ARM64Instr* ARM64Instr_VBinV   ( ARM64VecBinOp op, HReg, HReg, HReg );
969 extern ARM64Instr* ARM64Instr_VModifyV ( ARM64VecModifyOp, HReg, HReg );
970 extern ARM64Instr* ARM64Instr_VUnaryV ( ARM64VecUnaryOp op, HReg, HReg );
971 extern ARM64Instr* ARM64Instr_VNarrowV ( ARM64VecNarrowOp op, UInt dszBlg2,
972                                          HReg dst, HReg src );
973 extern ARM64Instr* ARM64Instr_VShiftImmV ( ARM64VecShiftImmOp op,
974                                            HReg dst, HReg src, UInt amt );
975 extern ARM64Instr* ARM64Instr_VExtV   ( HReg dst,
976                                         HReg srcLo, HReg srcHi, UInt amtB );
977 extern ARM64Instr* ARM64Instr_VImmQ   ( HReg, UShort );
978 extern ARM64Instr* ARM64Instr_VDfromX ( HReg rD, HReg rX );
979 extern ARM64Instr* ARM64Instr_VQfromX ( HReg rQ, HReg rXlo );
980 extern ARM64Instr* ARM64Instr_VQfromXX( HReg rQ, HReg rXhi, HReg rXlo );
981 extern ARM64Instr* ARM64Instr_VXfromQ ( HReg rX, HReg rQ, UInt laneNo );
982 extern ARM64Instr* ARM64Instr_VXfromDorS ( HReg rX, HReg rDorS, Bool fromD );
983 extern ARM64Instr* ARM64Instr_VMov    ( UInt szB, HReg dst, HReg src );
984 
985 extern ARM64Instr* ARM64Instr_EvCheck ( ARM64AMode* amCounter,
986                                         ARM64AMode* amFailAddr );
987 extern ARM64Instr* ARM64Instr_ProfInc ( void );
988 
989 extern void ppARM64Instr ( const ARM64Instr* );
990 
991 
992 /* Some functions that insulate the register allocator from details
993    of the underlying instruction set. */
994 extern void getRegUsage_ARM64Instr ( HRegUsage*, const ARM64Instr*, Bool );
995 extern void mapRegs_ARM64Instr     ( HRegRemap*, ARM64Instr*, Bool );
996 extern Bool isMove_ARM64Instr      ( const ARM64Instr*, HReg*, HReg* );
997 extern Int  emit_ARM64Instr        ( /*MB_MOD*/Bool* is_profInc,
998                                      UChar* buf, Int nbuf, const ARM64Instr* i,
999                                      Bool mode64,
1000                                      VexEndness endness_host,
1001                                      const void* disp_cp_chain_me_to_slowEP,
1002                                      const void* disp_cp_chain_me_to_fastEP,
1003                                      const void* disp_cp_xindir,
1004                                      const void* disp_cp_xassisted );
1005 
1006 extern void genSpill_ARM64  ( /*OUT*/HInstr** i1, /*OUT*/HInstr** i2,
1007                               HReg rreg, Int offset, Bool );
1008 extern void genReload_ARM64 ( /*OUT*/HInstr** i1, /*OUT*/HInstr** i2,
1009                               HReg rreg, Int offset, Bool );
1010 
1011 extern const RRegUniverse* getRRegUniverse_ARM64 ( void );
1012 
1013 extern HInstrArray* iselSB_ARM64 ( const IRSB*,
1014                                    VexArch,
1015                                    const VexArchInfo*,
1016                                    const VexAbiInfo*,
1017                                    Int offs_Host_EvC_Counter,
1018                                    Int offs_Host_EvC_FailAddr,
1019                                    Bool chainingAllowed,
1020                                    Bool addProfInc,
1021                                    Addr max_ga );
1022 
1023 /* How big is an event check?  This is kind of a kludge because it
1024    depends on the offsets of host_EvC_FAILADDR and
1025    host_EvC_COUNTER. */
1026 extern Int evCheckSzB_ARM64 (void);
1027 
1028 /* Perform a chaining and unchaining of an XDirect jump. */
1029 extern VexInvalRange chainXDirect_ARM64 ( VexEndness endness_host,
1030                                           void* place_to_chain,
1031                                           const void* disp_cp_chain_me_EXPECTED,
1032                                           const void* place_to_jump_to );
1033 
1034 extern VexInvalRange unchainXDirect_ARM64 ( VexEndness endness_host,
1035                                             void* place_to_unchain,
1036                                             const void* place_to_jump_to_EXPECTED,
1037                                             const void* disp_cp_chain_me );
1038 
1039 /* Patch the counter location into an existing ProfInc point. */
1040 extern VexInvalRange patchProfInc_ARM64 ( VexEndness endness_host,
1041                                           void*  place_to_patch,
1042                                           const ULong* location_of_counter );
1043 
1044 
1045 #endif /* ndef __VEX_HOST_ARM64_DEFS_H */
1046 
1047 /*---------------------------------------------------------------*/
1048 /*--- end                                   host_arm64_defs.h ---*/
1049 /*---------------------------------------------------------------*/
1050