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) 2013-2013 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 //ZZ extern UInt arm_hwcaps; 39 40 41 /* --------- Registers. --------- */ 42 43 //ZZ /* The usual HReg abstraction. 44 //ZZ There are 16 general purpose regs. 45 //ZZ */ 46 47 extern void ppHRegARM64 ( HReg ); 48 49 extern HReg hregARM64_X0 ( void ); 50 extern HReg hregARM64_X1 ( void ); 51 extern HReg hregARM64_X2 ( void ); 52 extern HReg hregARM64_X3 ( void ); 53 extern HReg hregARM64_X4 ( void ); 54 extern HReg hregARM64_X5 ( void ); 55 extern HReg hregARM64_X6 ( void ); 56 extern HReg hregARM64_X7 ( void ); 57 //ZZ extern HReg hregARM_R8 ( void ); 58 extern HReg hregARM64_X9 ( void ); 59 extern HReg hregARM64_X10 ( void ); 60 extern HReg hregARM64_X11 ( void ); 61 extern HReg hregARM64_X12 ( void ); 62 extern HReg hregARM64_X13 ( void ); 63 extern HReg hregARM64_X14 ( void ); 64 extern HReg hregARM64_X15 ( void ); 65 extern HReg hregARM64_X21 ( void ); 66 extern HReg hregARM64_X22 ( void ); 67 extern HReg hregARM64_X23 ( void ); 68 extern HReg hregARM64_X24 ( void ); 69 extern HReg hregARM64_X25 ( void ); 70 extern HReg hregARM64_X26 ( void ); 71 extern HReg hregARM64_X27 ( void ); 72 extern HReg hregARM64_X28 ( void ); 73 extern HReg hregARM64_D8 ( void ); 74 extern HReg hregARM64_D9 ( void ); 75 extern HReg hregARM64_D10 ( void ); 76 extern HReg hregARM64_D11 ( void ); 77 extern HReg hregARM64_D12 ( void ); 78 extern HReg hregARM64_D13 ( void ); 79 extern HReg hregARM64_Q16 ( void ); 80 extern HReg hregARM64_Q17 ( void ); 81 extern HReg hregARM64_Q18 ( void ); 82 83 /* Number of registers used arg passing in function calls */ 84 #define ARM64_N_ARGREGS 8 /* x0 .. x7 */ 85 86 87 /* --------- Condition codes. --------- */ 88 89 typedef 90 enum { 91 ARM64cc_EQ = 0, /* equal : Z=1 */ 92 ARM64cc_NE = 1, /* not equal : Z=0 */ 93 94 ARM64cc_CS = 2, /* >=u (higher or same) : C=1 */ 95 ARM64cc_CC = 3, /* <u (lower) : C=0 */ 96 97 ARM64cc_MI = 4, /* minus (negative) : N=1 */ 98 ARM64cc_PL = 5, /* plus (zero or +ve) : N=0 */ 99 100 ARM64cc_VS = 6, /* overflow : V=1 */ 101 ARM64cc_VC = 7, /* no overflow : V=0 */ 102 103 ARM64cc_HI = 8, /* >u (higher) : C=1 && Z=0 */ 104 ARM64cc_LS = 9, /* <=u (lower or same) : !(C=1 && Z=0) */ 105 106 ARM64cc_GE = 10, /* >=s (signed greater or equal) : N=V */ 107 ARM64cc_LT = 11, /* <s (signed less than) : !(N=V) */ 108 109 ARM64cc_GT = 12, /* >s (signed greater) : Z=0 && N=V */ 110 ARM64cc_LE = 13, /* <=s (signed less or equal) : !(Z=0 && N=V) */ 111 112 ARM64cc_AL = 14, /* always (unconditional) */ 113 ARM64cc_NV = 15 /* in 64-bit mode also means "always" */ 114 } 115 ARM64CondCode; 116 117 118 /* --------- Memory address expressions (amodes). --------- */ 119 120 typedef 121 enum { 122 ARM64am_RI9=10, /* reg + simm9 */ 123 ARM64am_RI12, /* reg + uimm12 * szB (iow, scaled by access size) */ 124 ARM64am_RR /* reg1 + reg2 */ 125 } 126 ARM64AModeTag; 127 128 typedef 129 struct { 130 ARM64AModeTag tag; 131 union { 132 struct { 133 HReg reg; 134 Int simm9; /* -256 .. +255 */ 135 } RI9; 136 struct { 137 HReg reg; 138 UInt uimm12; /* 0 .. 4095 */ 139 UChar szB; /* 1, 2, 4, 8 (16 ?) */ 140 } RI12; 141 struct { 142 HReg base; 143 HReg index; 144 } RR; 145 } ARM64am; 146 } 147 ARM64AMode; 148 149 extern ARM64AMode* ARM64AMode_RI9 ( HReg reg, Int simm9 ); 150 extern ARM64AMode* ARM64AMode_RI12 ( HReg reg, Int uimm12, UChar szB ); 151 extern ARM64AMode* ARM64AMode_RR ( HReg base, HReg index ); 152 153 154 /* --------- Reg or uimm12 or (uimm12 << 12) operands --------- */ 155 156 typedef 157 enum { 158 ARM64riA_I12=20, /* uimm12 << 0 or 12 only */ 159 ARM64riA_R /* reg */ 160 } 161 ARM64RIATag; 162 163 typedef 164 struct { 165 ARM64RIATag tag; 166 union { 167 struct { 168 UShort imm12; /* 0 .. 4095 */ 169 UChar shift; /* 0 or 12 only */ 170 } I12; 171 struct { 172 HReg reg; 173 } R; 174 } ARM64riA; 175 } 176 ARM64RIA; 177 178 extern ARM64RIA* ARM64RIA_I12 ( UShort imm12, UChar shift ); 179 extern ARM64RIA* ARM64RIA_R ( HReg ); 180 181 182 /* --------- Reg or "bitfield" (logic immediate) operands --------- */ 183 184 typedef 185 enum { 186 ARM64riL_I13=6, /* wierd-o bitfield immediate, 13 bits in total */ 187 ARM64riL_R /* reg */ 188 } 189 ARM64RILTag; 190 191 typedef 192 struct { 193 ARM64RILTag tag; 194 union { 195 struct { 196 UChar bitN; /* 0 .. 1 */ 197 UChar immR; /* 0 .. 63 */ 198 UChar immS; /* 0 .. 63 */ 199 } I13; 200 struct { 201 HReg reg; 202 } R; 203 } ARM64riL; 204 } 205 ARM64RIL; 206 207 extern ARM64RIL* ARM64RIL_I13 ( UChar bitN, UChar immR, UChar immS ); 208 extern ARM64RIL* ARM64RIL_R ( HReg ); 209 210 211 /* --------------- Reg or uimm6 operands --------------- */ 212 213 typedef 214 enum { 215 ARM64ri6_I6=30, /* uimm6, 1 .. 63 only */ 216 ARM64ri6_R /* reg */ 217 } 218 ARM64RI6Tag; 219 220 typedef 221 struct { 222 ARM64RI6Tag tag; 223 union { 224 struct { 225 UInt imm6; /* 1 .. 63 */ 226 } I6; 227 struct { 228 HReg reg; 229 } R; 230 } ARM64ri6; 231 } 232 ARM64RI6; 233 234 extern ARM64RI6* ARM64RI6_I6 ( UInt imm6 ); 235 extern ARM64RI6* ARM64RI6_R ( HReg ); 236 237 238 /* --------------------- Instructions --------------------- */ 239 240 typedef 241 enum { 242 ARM64lo_AND=40, 243 ARM64lo_OR, 244 ARM64lo_XOR 245 } 246 ARM64LogicOp; 247 248 typedef 249 enum { 250 ARM64sh_SHL=50, 251 ARM64sh_SHR, 252 ARM64sh_SAR 253 } 254 ARM64ShiftOp; 255 256 typedef 257 enum { 258 ARM64un_NEG=60, 259 ARM64un_NOT, 260 ARM64un_CLZ, 261 } 262 ARM64UnaryOp; 263 264 typedef 265 enum { 266 ARM64mul_PLAIN=70, /* lo64(64 * 64) */ 267 ARM64mul_ZX, /* hi64(64 *u 64) */ 268 ARM64mul_SX /* hi64(64 *s 64) */ 269 } 270 ARM64MulOp; 271 272 typedef 273 /* These characterise an integer-FP conversion, but don't imply any 274 particular direction. */ 275 enum { 276 ARM64cvt_F32_I32S=80, 277 ARM64cvt_F64_I32S, 278 ARM64cvt_F32_I64S, 279 ARM64cvt_F64_I64S, 280 ARM64cvt_F32_I32U, 281 ARM64cvt_F64_I32U, 282 ARM64cvt_F32_I64U, 283 ARM64cvt_F64_I64U, 284 ARM64cvt_INVALID 285 } 286 ARM64CvtOp; 287 288 typedef 289 enum { 290 ARM64fpb_ADD=100, 291 ARM64fpb_SUB, 292 ARM64fpb_MUL, 293 ARM64fpb_DIV, 294 ARM64fpb_INVALID 295 } 296 ARM64FpBinOp; 297 298 typedef 299 enum { 300 ARM64fpu_NEG=110, 301 ARM64fpu_ABS, 302 ARM64fpu_SQRT, 303 ARM64fpu_RINT, 304 ARM64fpu_INVALID 305 } 306 ARM64FpUnaryOp; 307 308 typedef 309 enum { 310 ARM64vecb_ADD64x2=120, 311 ARM64vecb_ADD32x4, 312 ARM64vecb_ADD16x8, 313 ARM64vecb_ADD8x16, 314 ARM64vecb_SUB64x2, 315 ARM64vecb_SUB32x4, 316 ARM64vecb_SUB16x8, 317 ARM64vecb_SUB8x16, 318 ARM64vecb_MUL32x4, 319 ARM64vecb_MUL16x8, 320 ARM64vecb_MUL8x16, 321 ARM64vecb_FADD64x2, 322 ARM64vecb_FSUB64x2, 323 ARM64vecb_FMUL64x2, 324 ARM64vecb_FDIV64x2, 325 ARM64vecb_FADD32x4, 326 ARM64vecb_FSUB32x4, 327 ARM64vecb_FMUL32x4, 328 ARM64vecb_FDIV32x4, 329 ARM64vecb_UMAX32x4, 330 ARM64vecb_UMAX16x8, 331 ARM64vecb_UMAX8x16, 332 ARM64vecb_UMIN32x4, 333 ARM64vecb_UMIN16x8, 334 ARM64vecb_UMIN8x16, 335 ARM64vecb_UMULL32x2, 336 ARM64vecb_UMULL16x4, 337 ARM64vecb_UMULL8x8, 338 ARM64vecb_SMAX32x4, 339 ARM64vecb_SMAX16x8, 340 ARM64vecb_SMAX8x16, 341 ARM64vecb_SMIN32x4, 342 ARM64vecb_SMIN16x8, 343 ARM64vecb_SMIN8x16, 344 ARM64vecb_AND, 345 ARM64vecb_ORR, 346 ARM64vecb_XOR, 347 ARM64vecb_CMEQ64x2, 348 ARM64vecb_CMEQ32x4, 349 ARM64vecb_CMEQ16x8, 350 ARM64vecb_CMEQ8x16, 351 ARM64vecb_CMHI64x2, /* >u */ 352 ARM64vecb_CMHI32x4, 353 ARM64vecb_CMHI16x8, 354 ARM64vecb_CMHI8x16, 355 ARM64vecb_CMGT64x2, /* >s */ 356 ARM64vecb_CMGT32x4, 357 ARM64vecb_CMGT16x8, 358 ARM64vecb_CMGT8x16, 359 ARM64vecb_FCMEQ64x2, 360 ARM64vecb_FCMEQ32x4, 361 ARM64vecb_FCMGE64x2, 362 ARM64vecb_FCMGE32x4, 363 ARM64vecb_FCMGT64x2, 364 ARM64vecb_FCMGT32x4, 365 ARM64vecb_TBL1, 366 ARM64vecb_INVALID 367 } 368 ARM64VecBinOp; 369 370 typedef 371 enum { 372 ARM64vecu_FNEG64x2=300, 373 ARM64vecu_FNEG32x4, 374 ARM64vecu_FABS64x2, 375 ARM64vecu_FABS32x4, 376 ARM64vecu_VMOVL8U, 377 ARM64vecu_VMOVL16U, 378 ARM64vecu_VMOVL32U, 379 ARM64vecu_VMOVL8S, 380 ARM64vecu_VMOVL16S, 381 ARM64vecu_VMOVL32S, 382 ARM64vecu_NOT, 383 ARM64vecu_CNT, 384 ARM64vecu_UADDLV8x16, 385 ARM64vecu_UADDLV16x8, 386 ARM64vecu_UADDLV32x4, 387 ARM64vecu_SADDLV8x16, 388 ARM64vecu_SADDLV16x8, 389 ARM64vecu_SADDLV32x4, 390 ARM64vecu_INVALID 391 } 392 ARM64VecUnaryOp; 393 394 typedef 395 enum { 396 ARM64vecsh_USHR64x2=350, 397 ARM64vecsh_USHR32x4, 398 ARM64vecsh_USHR16x8, 399 ARM64vecsh_USHR8x16, 400 ARM64vecsh_SSHR64x2, 401 ARM64vecsh_SSHR32x4, 402 ARM64vecsh_SSHR16x8, 403 ARM64vecsh_SSHR8x16, 404 ARM64vecsh_SHL64x2, 405 ARM64vecsh_SHL32x4, 406 ARM64vecsh_SHL16x8, 407 ARM64vecsh_SHL8x16, 408 ARM64vecsh_INVALID 409 } 410 ARM64VecShiftOp; 411 412 //ZZ extern const HChar* showARMVfpUnaryOp ( ARMVfpUnaryOp op ); 413 //ZZ 414 //ZZ typedef 415 //ZZ enum { 416 //ZZ ARMneon_VAND=90, 417 //ZZ ARMneon_VORR, 418 //ZZ ARMneon_VXOR, 419 //ZZ ARMneon_VADD, 420 //ZZ ARMneon_VADDFP, 421 //ZZ ARMneon_VRHADDS, 422 //ZZ ARMneon_VRHADDU, 423 //ZZ ARMneon_VPADDFP, 424 //ZZ ARMneon_VABDFP, 425 //ZZ ARMneon_VSUB, 426 //ZZ ARMneon_VSUBFP, 427 //ZZ ARMneon_VMAXU, 428 //ZZ ARMneon_VMAXS, 429 //ZZ ARMneon_VMAXF, 430 //ZZ ARMneon_VMINU, 431 //ZZ ARMneon_VMINS, 432 //ZZ ARMneon_VMINF, 433 //ZZ ARMneon_VQADDU, 434 //ZZ ARMneon_VQADDS, 435 //ZZ ARMneon_VQSUBU, 436 //ZZ ARMneon_VQSUBS, 437 //ZZ ARMneon_VCGTU, 438 //ZZ ARMneon_VCGTS, 439 //ZZ ARMneon_VCGEU, 440 //ZZ ARMneon_VCGES, 441 //ZZ ARMneon_VCGTF, 442 //ZZ ARMneon_VCGEF, 443 //ZZ ARMneon_VCEQ, 444 //ZZ ARMneon_VCEQF, 445 //ZZ ARMneon_VEXT, 446 //ZZ ARMneon_VMUL, 447 //ZZ ARMneon_VMULFP, 448 //ZZ ARMneon_VMULLU, 449 //ZZ ARMneon_VMULLS, 450 //ZZ ARMneon_VMULP, 451 //ZZ ARMneon_VMULLP, 452 //ZZ ARMneon_VQDMULH, 453 //ZZ ARMneon_VQRDMULH, 454 //ZZ ARMneon_VPADD, 455 //ZZ ARMneon_VPMINU, 456 //ZZ ARMneon_VPMINS, 457 //ZZ ARMneon_VPMINF, 458 //ZZ ARMneon_VPMAXU, 459 //ZZ ARMneon_VPMAXS, 460 //ZZ ARMneon_VPMAXF, 461 //ZZ ARMneon_VTBL, 462 //ZZ ARMneon_VQDMULL, 463 //ZZ ARMneon_VRECPS, 464 //ZZ ARMneon_VRSQRTS, 465 //ZZ /* ... */ 466 //ZZ } 467 //ZZ ARMNeonBinOp; 468 //ZZ 469 //ZZ typedef 470 //ZZ enum { 471 //ZZ ARMneon_VSHL=150, 472 //ZZ ARMneon_VSAL, /* Yah, not SAR but SAL */ 473 //ZZ ARMneon_VQSHL, 474 //ZZ ARMneon_VQSAL 475 //ZZ } 476 //ZZ ARMNeonShiftOp; 477 //ZZ 478 //ZZ typedef 479 //ZZ enum { 480 //ZZ ARMneon_COPY=160, 481 //ZZ ARMneon_COPYLU, 482 //ZZ ARMneon_COPYLS, 483 //ZZ ARMneon_COPYN, 484 //ZZ ARMneon_COPYQNSS, 485 //ZZ ARMneon_COPYQNUS, 486 //ZZ ARMneon_COPYQNUU, 487 //ZZ ARMneon_NOT, 488 //ZZ ARMneon_EQZ, 489 //ZZ ARMneon_DUP, 490 //ZZ ARMneon_PADDLS, 491 //ZZ ARMneon_PADDLU, 492 //ZZ ARMneon_CNT, 493 //ZZ ARMneon_CLZ, 494 //ZZ ARMneon_CLS, 495 //ZZ ARMneon_VCVTxFPxINT, 496 //ZZ ARMneon_VQSHLNSS, 497 //ZZ ARMneon_VQSHLNUU, 498 //ZZ ARMneon_VQSHLNUS, 499 //ZZ ARMneon_VCVTFtoU, 500 //ZZ ARMneon_VCVTFtoS, 501 //ZZ ARMneon_VCVTUtoF, 502 //ZZ ARMneon_VCVTStoF, 503 //ZZ ARMneon_VCVTFtoFixedU, 504 //ZZ ARMneon_VCVTFtoFixedS, 505 //ZZ ARMneon_VCVTFixedUtoF, 506 //ZZ ARMneon_VCVTFixedStoF, 507 //ZZ ARMneon_VCVTF16toF32, 508 //ZZ ARMneon_VCVTF32toF16, 509 //ZZ ARMneon_REV16, 510 //ZZ ARMneon_REV32, 511 //ZZ ARMneon_REV64, 512 //ZZ ARMneon_ABS, 513 //ZZ ARMneon_VNEGF, 514 //ZZ ARMneon_VRECIP, 515 //ZZ ARMneon_VRECIPF, 516 //ZZ ARMneon_VABSFP, 517 //ZZ ARMneon_VRSQRTEFP, 518 //ZZ ARMneon_VRSQRTE 519 //ZZ /* ... */ 520 //ZZ } 521 //ZZ ARMNeonUnOp; 522 //ZZ 523 //ZZ typedef 524 //ZZ enum { 525 //ZZ ARMneon_SETELEM=200, 526 //ZZ ARMneon_GETELEMU, 527 //ZZ ARMneon_GETELEMS, 528 //ZZ ARMneon_VDUP, 529 //ZZ } 530 //ZZ ARMNeonUnOpS; 531 //ZZ 532 //ZZ typedef 533 //ZZ enum { 534 //ZZ ARMneon_TRN=210, 535 //ZZ ARMneon_ZIP, 536 //ZZ ARMneon_UZP 537 //ZZ /* ... */ 538 //ZZ } 539 //ZZ ARMNeonDualOp; 540 //ZZ 541 //ZZ extern const HChar* showARMNeonBinOp ( ARMNeonBinOp op ); 542 //ZZ extern const HChar* showARMNeonUnOp ( ARMNeonUnOp op ); 543 //ZZ extern const HChar* showARMNeonUnOpS ( ARMNeonUnOpS op ); 544 //ZZ extern const HChar* showARMNeonShiftOp ( ARMNeonShiftOp op ); 545 //ZZ extern const HChar* showARMNeonDualOp ( ARMNeonDualOp op ); 546 //ZZ extern const HChar* showARMNeonBinOpDataType ( ARMNeonBinOp op ); 547 //ZZ extern const HChar* showARMNeonUnOpDataType ( ARMNeonUnOp op ); 548 //ZZ extern const HChar* showARMNeonUnOpSDataType ( ARMNeonUnOpS op ); 549 //ZZ extern const HChar* showARMNeonShiftOpDataType ( ARMNeonShiftOp op ); 550 //ZZ extern const HChar* showARMNeonDualOpDataType ( ARMNeonDualOp op ); 551 552 typedef 553 enum { 554 /* baseline */ 555 ARM64in_Arith=1220, 556 ARM64in_Cmp, 557 ARM64in_Logic, 558 ARM64in_Test, 559 ARM64in_Shift, 560 ARM64in_Unary, 561 ARM64in_MovI, /* int reg-reg move */ 562 ARM64in_Imm64, 563 ARM64in_LdSt64, 564 ARM64in_LdSt32, /* w/ ZX loads */ 565 ARM64in_LdSt16, /* w/ ZX loads */ 566 ARM64in_LdSt8, /* w/ ZX loads */ 567 ARM64in_XDirect, /* direct transfer to GA */ 568 ARM64in_XIndir, /* indirect transfer to GA */ 569 ARM64in_XAssisted, /* assisted transfer to GA */ 570 ARM64in_CSel, 571 ARM64in_Call, 572 ARM64in_AddToSP, /* move SP by small, signed constant */ 573 ARM64in_FromSP, /* move SP to integer register */ 574 ARM64in_Mul, 575 ARM64in_LdrEX, 576 ARM64in_StrEX, 577 ARM64in_MFence, 578 //ZZ ARMin_CLREX, 579 /* ARM64in_V*: scalar ops involving vector registers */ 580 ARM64in_VLdStS, /* 32-bit FP load/store, with imm offset */ 581 ARM64in_VLdStD, /* 64-bit FP load/store, with imm offset */ 582 ARM64in_VLdStQ, 583 ARM64in_VCvtI2F, 584 ARM64in_VCvtF2I, 585 ARM64in_VCvtSD, 586 ARM64in_VUnaryD, 587 ARM64in_VUnaryS, 588 ARM64in_VBinD, 589 ARM64in_VBinS, 590 ARM64in_VCmpD, 591 ARM64in_VCmpS, 592 ARM64in_FPCR, 593 /* ARM64in_V*V: vector ops on vector registers */ 594 ARM64in_VBinV, 595 ARM64in_VUnaryV, 596 ARM64in_VNarrowV, 597 ARM64in_VShiftImmV, 598 //ZZ ARMin_VAluS, 599 //ZZ ARMin_VCMovD, 600 //ZZ ARMin_VCMovS, 601 //ZZ ARMin_VXferD, 602 //ZZ ARMin_VXferS, 603 //ZZ ARMin_VCvtID, 604 //ZZ /* Neon */ 605 //ZZ ARMin_NLdStD, 606 //ZZ ARMin_NUnary, 607 //ZZ ARMin_NUnaryS, 608 //ZZ ARMin_NDual, 609 //ZZ ARMin_NBinary, 610 //ZZ ARMin_NBinaryS, 611 //ZZ ARMin_NShift, 612 //ZZ ARMin_NShl64, // special case 64-bit shift of Dreg by immediate 613 ARM64in_VImmQ, 614 ARM64in_VDfromX, /* Move an Xreg to a Dreg */ 615 ARM64in_VQfromXX, /* Move 2 Xregs to a Qreg */ 616 ARM64in_VXfromQ, /* Move half a Qreg to an Xreg */ 617 ARM64in_VMov, /* vector reg-reg move, 16, 8 or 4 bytes */ 618 /* infrastructure */ 619 ARM64in_EvCheck, /* Event check */ 620 //ZZ ARMin_ProfInc /* 64-bit profile counter increment */ 621 } 622 ARM64InstrTag; 623 624 /* Destinations are on the LEFT (first operand) */ 625 626 typedef 627 struct { 628 ARM64InstrTag tag; 629 union { 630 /* --- INTEGER INSTRUCTIONS --- */ 631 /* 64 bit ADD/SUB reg, reg or uimm12<<{0,12} */ 632 struct { 633 HReg dst; 634 HReg argL; 635 ARM64RIA* argR; 636 Bool isAdd; 637 } Arith; 638 /* 64 or 32 bit CMP reg, reg or aimm (SUB and set flags) */ 639 struct { 640 HReg argL; 641 ARM64RIA* argR; 642 Bool is64; 643 } Cmp; 644 /* 64 bit AND/OR/XOR reg, reg or bitfield-immediate */ 645 struct { 646 HReg dst; 647 HReg argL; 648 ARM64RIL* argR; 649 ARM64LogicOp op; 650 } Logic; 651 /* 64 bit TST reg, reg or bimm (AND and set flags) */ 652 struct { 653 HReg argL; 654 ARM64RIL* argR; 655 } Test; 656 /* 64 bit SHL/SHR/SAR, 2nd arg is reg or imm */ 657 struct { 658 HReg dst; 659 HReg argL; 660 ARM64RI6* argR; 661 ARM64ShiftOp op; 662 } Shift; 663 /* NOT/NEG/CLZ, 64 bit only */ 664 struct { 665 HReg dst; 666 HReg src; 667 ARM64UnaryOp op; 668 } Unary; 669 /* MOV dst, src -- reg-reg move for integer registers */ 670 struct { 671 HReg dst; 672 HReg src; 673 } MovI; 674 /* Pseudo-insn; make a 64-bit immediate */ 675 struct { 676 HReg dst; 677 ULong imm64; 678 } Imm64; 679 /* 64-bit load or store */ 680 struct { 681 Bool isLoad; 682 HReg rD; 683 ARM64AMode* amode; 684 } LdSt64; 685 /* zx-32-to-64-bit load, or 32-bit store */ 686 struct { 687 Bool isLoad; 688 HReg rD; 689 ARM64AMode* amode; 690 } LdSt32; 691 /* zx-16-to-64-bit load, or 16-bit store */ 692 struct { 693 Bool isLoad; 694 HReg rD; 695 ARM64AMode* amode; 696 } LdSt16; 697 /* zx-8-to-64-bit load, or 8-bit store */ 698 struct { 699 Bool isLoad; 700 HReg rD; 701 ARM64AMode* amode; 702 } LdSt8; 703 /* Update the guest PC value, then exit requesting to chain 704 to it. May be conditional. Urr, use of Addr64 implicitly 705 assumes that wordsize(guest) == wordsize(host). */ 706 struct { 707 Addr64 dstGA; /* next guest address */ 708 ARM64AMode* amPC; /* amode in guest state for PC */ 709 ARM64CondCode cond; /* can be ARM64cc_AL */ 710 Bool toFastEP; /* chain to the slow or fast point? */ 711 } XDirect; 712 /* Boring transfer to a guest address not known at JIT time. 713 Not chainable. May be conditional. */ 714 struct { 715 HReg dstGA; 716 ARM64AMode* amPC; 717 ARM64CondCode cond; /* can be ARM64cc_AL */ 718 } XIndir; 719 /* Assisted transfer to a guest address, most general case. 720 Not chainable. May be conditional. */ 721 struct { 722 HReg dstGA; 723 ARM64AMode* amPC; 724 ARM64CondCode cond; /* can be ARM64cc_AL */ 725 IRJumpKind jk; 726 } XAssisted; 727 /* CSEL: dst = if cond then argL else argR. cond may be anything. */ 728 struct { 729 HReg dst; 730 HReg argL; 731 HReg argR; 732 ARM64CondCode cond; 733 } CSel; 734 /* Pseudo-insn. Call target (an absolute address), on given 735 condition (which could be ARM64cc_AL). */ 736 struct { 737 RetLoc rloc; /* where the return value will be */ 738 HWord target; 739 ARM64CondCode cond; 740 Int nArgRegs; /* # regs carrying args: 0 .. 8 */ 741 } Call; 742 /* move SP by small, signed constant */ 743 struct { 744 Int simm; /* needs to be 0 % 16 and in the range -4095 745 .. 4095 inclusive */ 746 } AddToSP; 747 /* move SP to integer register */ 748 struct { 749 HReg dst; 750 } FromSP; 751 /* Integer multiply, with 3 variants: 752 (PLAIN) lo64(64 * 64) 753 (ZX) hi64(64 *u 64) 754 (SX) hi64(64 *s 64) 755 */ 756 struct { 757 HReg dst; 758 HReg argL; 759 HReg argR; 760 ARM64MulOp op; 761 } Mul; 762 /* LDXR{,H,B} x2, [x4] */ 763 struct { 764 Int szB; /* 1, 2, 4 or 8 */ 765 } LdrEX; 766 /* STXR{,H,B} w0, x2, [x4] */ 767 struct { 768 Int szB; /* 1, 2, 4 or 8 */ 769 } StrEX; 770 /* Mem fence. An insn which fences all loads and stores as 771 much as possible before continuing. On ARM64 we emit the 772 sequence "dsb sy ; dmb sy ; isb sy", which is probably 773 total nuclear overkill, but better safe than sorry. */ 774 struct { 775 } MFence; 776 //ZZ /* A CLREX instruction. */ 777 //ZZ struct { 778 //ZZ } CLREX; 779 /* --- INSTRUCTIONS INVOLVING VECTOR REGISTERS --- */ 780 /* 32-bit Fp load/store */ 781 struct { 782 Bool isLoad; 783 HReg sD; 784 HReg rN; 785 UInt uimm12; /* 0 .. 16380 inclusive, 0 % 4 */ 786 } VLdStS; 787 /* 64-bit Fp load/store */ 788 struct { 789 Bool isLoad; 790 HReg dD; 791 HReg rN; 792 UInt uimm12; /* 0 .. 32760 inclusive, 0 % 8 */ 793 } VLdStD; 794 /* 128-bit Vector load/store. */ 795 struct { 796 Bool isLoad; 797 HReg rQ; // data 798 HReg rN; // address 799 } VLdStQ; 800 /* Scalar conversion of int to float. */ 801 struct { 802 ARM64CvtOp how; 803 HReg rD; // dst, a D or S register 804 HReg rS; // src, a W or X register 805 } VCvtI2F; 806 /* Scalar conversion of float to int, w/ specified RM. */ 807 struct { 808 ARM64CvtOp how; 809 HReg rD; // dst, a W or X register 810 HReg rS; // src, a D or S register 811 UChar armRM; // ARM encoded RM: 812 // 00=nearest, 01=+inf, 10=-inf, 11=zero 813 } VCvtF2I; 814 /* Convert between 32-bit and 64-bit FP values (both 815 ways). (FCVT) */ 816 struct { 817 Bool sToD; /* True: F32->F64. False: F64->F32 */ 818 HReg dst; 819 HReg src; 820 } VCvtSD; 821 /* 64-bit FP unary */ 822 struct { 823 ARM64FpUnaryOp op; 824 HReg dst; 825 HReg src; 826 } VUnaryD; 827 /* 32-bit FP unary */ 828 struct { 829 ARM64FpUnaryOp op; 830 HReg dst; 831 HReg src; 832 } VUnaryS; 833 /* 64-bit FP binary arithmetic */ 834 struct { 835 ARM64FpBinOp op; 836 HReg dst; 837 HReg argL; 838 HReg argR; 839 } VBinD; 840 /* 32-bit FP binary arithmetic */ 841 struct { 842 ARM64FpBinOp op; 843 HReg dst; 844 HReg argL; 845 HReg argR; 846 } VBinS; 847 /* 64-bit FP compare */ 848 struct { 849 HReg argL; 850 HReg argR; 851 } VCmpD; 852 /* 32-bit FP compare */ 853 struct { 854 HReg argL; 855 HReg argR; 856 } VCmpS; 857 /* Move a 32-bit value to/from the FPCR */ 858 struct { 859 Bool toFPCR; 860 HReg iReg; 861 } FPCR; 862 /* binary vector operation on vector registers */ 863 struct { 864 ARM64VecBinOp op; 865 HReg dst; 866 HReg argL; 867 HReg argR; 868 } VBinV; 869 /* unary vector operation on vector registers */ 870 struct { 871 ARM64VecUnaryOp op; 872 HReg dst; 873 HReg arg; 874 } VUnaryV; 875 /* vector narrowing, Q -> Q. Result goes in the bottom half 876 of dst and the top half is zeroed out. Iow is XTN. */ 877 struct { 878 UInt dszBlg2; // 0: 16to8_x8 1: 32to16_x4 2: 64to32_x2 879 HReg dst; // Q reg 880 HReg src; // Q reg 881 } VNarrowV; 882 /* Vector shift by immediate. |amt| needs to be > 0 and < 883 implied lane size of |op|. Zero shifts and out of range 884 shifts are not allowed. */ 885 struct { 886 ARM64VecShiftOp op; 887 HReg dst; 888 HReg src; 889 UInt amt; 890 } VShiftImmV; 891 //ZZ /* 32-bit FP binary arithmetic */ 892 //ZZ struct { 893 //ZZ ARMVfpOp op; 894 //ZZ HReg dst; 895 //ZZ HReg argL; 896 //ZZ HReg argR; 897 //ZZ } VAluS; 898 //ZZ /* 64-bit FP mov src to dst on the given condition, which may 899 //ZZ not be ARMcc_AL. */ 900 //ZZ struct { 901 //ZZ ARMCondCode cond; 902 //ZZ HReg dst; 903 //ZZ HReg src; 904 //ZZ } VCMovD; 905 //ZZ /* 32-bit FP mov src to dst on the given condition, which may 906 //ZZ not be ARMcc_AL. */ 907 //ZZ struct { 908 //ZZ ARMCondCode cond; 909 //ZZ HReg dst; 910 //ZZ HReg src; 911 //ZZ } VCMovS; 912 //ZZ /* Transfer a VFP D reg to/from two integer registers (VMOV) */ 913 //ZZ struct { 914 //ZZ Bool toD; 915 //ZZ HReg dD; 916 //ZZ HReg rHi; 917 //ZZ HReg rLo; 918 //ZZ } VXferD; 919 //ZZ /* Transfer a VFP S reg to/from an integer register (VMOV) */ 920 //ZZ struct { 921 //ZZ Bool toS; 922 //ZZ HReg fD; 923 //ZZ HReg rLo; 924 //ZZ } VXferS; 925 //ZZ /* Convert between 32-bit ints and 64-bit FP values (both ways 926 //ZZ and both signednesses). (FSITOD, FUITOD, FTOSID, FTOUID) */ 927 //ZZ struct { 928 //ZZ Bool iToD; /* True: I32->F64. False: F64->I32 */ 929 //ZZ Bool syned; /* True: I32 is signed. False: I32 is unsigned */ 930 //ZZ HReg dst; 931 //ZZ HReg src; 932 //ZZ } VCvtID; 933 //ZZ /* Neon data processing instruction: 3 registers of the same 934 //ZZ length */ 935 //ZZ struct { 936 //ZZ ARMNeonBinOp op; 937 //ZZ HReg dst; 938 //ZZ HReg argL; 939 //ZZ HReg argR; 940 //ZZ UInt size; 941 //ZZ Bool Q; 942 //ZZ } NBinary; 943 //ZZ struct { 944 //ZZ ARMNeonBinOp op; 945 //ZZ ARMNRS* dst; 946 //ZZ ARMNRS* argL; 947 //ZZ ARMNRS* argR; 948 //ZZ UInt size; 949 //ZZ Bool Q; 950 //ZZ } NBinaryS; 951 //ZZ struct { 952 //ZZ ARMNeonShiftOp op; 953 //ZZ HReg dst; 954 //ZZ HReg argL; 955 //ZZ HReg argR; 956 //ZZ UInt size; 957 //ZZ Bool Q; 958 //ZZ } NShift; 959 //ZZ struct { 960 //ZZ HReg dst; 961 //ZZ HReg src; 962 //ZZ UInt amt; /* 1..63 only */ 963 //ZZ } NShl64; 964 //ZZ struct { 965 //ZZ Bool isLoad; 966 //ZZ HReg dD; 967 //ZZ ARMAModeN *amode; 968 //ZZ } NLdStD 969 //ZZ struct { 970 //ZZ ARMNeonUnOpS op; 971 //ZZ ARMNRS* dst; 972 //ZZ ARMNRS* src; 973 //ZZ UInt size; 974 //ZZ Bool Q; 975 //ZZ } NUnaryS; 976 //ZZ struct { 977 //ZZ ARMNeonUnOp op; 978 //ZZ HReg dst; 979 //ZZ HReg src; 980 //ZZ UInt size; 981 //ZZ Bool Q; 982 //ZZ } NUnary; 983 //ZZ /* Takes two arguments and modifies them both. */ 984 //ZZ struct { 985 //ZZ ARMNeonDualOp op; 986 //ZZ HReg arg1; 987 //ZZ HReg arg2; 988 //ZZ UInt size; 989 //ZZ Bool Q; 990 //ZZ } NDual; 991 struct { 992 HReg rQ; 993 UShort imm; /* Same 1-bit-per-byte encoding as IR */ 994 } VImmQ; 995 struct { 996 HReg rD; 997 HReg rX; 998 } VDfromX; 999 struct { 1000 HReg rQ; 1001 HReg rXhi; 1002 HReg rXlo; 1003 } VQfromXX; 1004 struct { 1005 HReg rX; 1006 HReg rQ; 1007 UInt laneNo; /* either 0 or 1 */ 1008 } VXfromQ; 1009 /* MOV dst, src -- reg-reg move for vector registers */ 1010 struct { 1011 UInt szB; // 16=mov qD,qS; 8=mov dD,dS; 4=mov sD,sS 1012 HReg dst; 1013 HReg src; 1014 } VMov; 1015 struct { 1016 ARM64AMode* amCounter; 1017 ARM64AMode* amFailAddr; 1018 } EvCheck; 1019 //ZZ struct { 1020 //ZZ /* No fields. The address of the counter to inc is 1021 //ZZ installed later, post-translation, by patching it in, 1022 //ZZ as it is not known at translation time. */ 1023 //ZZ } ProfInc; 1024 } ARM64in; 1025 } 1026 ARM64Instr; 1027 1028 //ZZ 1029 extern ARM64Instr* ARM64Instr_Arith ( HReg, HReg, ARM64RIA*, Bool isAdd ); 1030 extern ARM64Instr* ARM64Instr_Cmp ( HReg, ARM64RIA*, Bool is64 ); 1031 extern ARM64Instr* ARM64Instr_Logic ( HReg, HReg, ARM64RIL*, ARM64LogicOp ); 1032 extern ARM64Instr* ARM64Instr_Test ( HReg, ARM64RIL* ); 1033 extern ARM64Instr* ARM64Instr_Shift ( HReg, HReg, ARM64RI6*, ARM64ShiftOp ); 1034 extern ARM64Instr* ARM64Instr_Unary ( HReg, HReg, ARM64UnaryOp ); 1035 //ZZ extern ARMInstr* ARMInstr_CmpOrTst ( Bool isCmp, HReg, ARMRI84* ); 1036 extern ARM64Instr* ARM64Instr_MovI ( HReg, HReg ); 1037 extern ARM64Instr* ARM64Instr_Imm64 ( HReg, ULong ); 1038 extern ARM64Instr* ARM64Instr_LdSt64 ( Bool isLoad, HReg, ARM64AMode* ); 1039 extern ARM64Instr* ARM64Instr_LdSt32 ( Bool isLoad, HReg, ARM64AMode* ); 1040 extern ARM64Instr* ARM64Instr_LdSt16 ( Bool isLoad, HReg, ARM64AMode* ); 1041 extern ARM64Instr* ARM64Instr_LdSt8 ( Bool isLoad, HReg, ARM64AMode* ); 1042 //ZZ extern ARMInstr* ARMInstr_Ld8S ( ARMCondCode, HReg, ARMAMode2* ); 1043 extern ARM64Instr* ARM64Instr_XDirect ( Addr64 dstGA, ARM64AMode* amPC, 1044 ARM64CondCode cond, Bool toFastEP ); 1045 extern ARM64Instr* ARM64Instr_XIndir ( HReg dstGA, ARM64AMode* amPC, 1046 ARM64CondCode cond ); 1047 extern ARM64Instr* ARM64Instr_XAssisted ( HReg dstGA, ARM64AMode* amPC, 1048 ARM64CondCode cond, IRJumpKind jk ); 1049 extern ARM64Instr* ARM64Instr_CSel ( HReg dst, HReg argL, HReg argR, 1050 ARM64CondCode cond ); 1051 extern ARM64Instr* ARM64Instr_Call ( ARM64CondCode, HWord, Int nArgRegs, 1052 RetLoc rloc ); 1053 extern ARM64Instr* ARM64Instr_AddToSP ( Int simm ); 1054 extern ARM64Instr* ARM64Instr_FromSP ( HReg dst ); 1055 extern ARM64Instr* ARM64Instr_Mul ( HReg dst, HReg argL, HReg argR, 1056 ARM64MulOp op ); 1057 extern ARM64Instr* ARM64Instr_LdrEX ( Int szB ); 1058 extern ARM64Instr* ARM64Instr_StrEX ( Int szB ); 1059 extern ARM64Instr* ARM64Instr_MFence ( void ); 1060 //ZZ extern ARMInstr* ARMInstr_CLREX ( void ); 1061 extern ARM64Instr* ARM64Instr_VLdStS ( Bool isLoad, HReg sD, HReg rN, 1062 UInt uimm12 /* 0 .. 16380, 0 % 4 */ ); 1063 extern ARM64Instr* ARM64Instr_VLdStD ( Bool isLoad, HReg dD, HReg rN, 1064 UInt uimm12 /* 0 .. 32760, 0 % 8 */ ); 1065 extern ARM64Instr* ARM64Instr_VLdStQ ( Bool isLoad, HReg rQ, HReg rN ); 1066 extern ARM64Instr* ARM64Instr_VCvtI2F ( ARM64CvtOp how, HReg rD, HReg rS ); 1067 extern ARM64Instr* ARM64Instr_VCvtF2I ( ARM64CvtOp how, HReg rD, HReg rS, 1068 UChar armRM ); 1069 extern ARM64Instr* ARM64Instr_VCvtSD ( Bool sToD, HReg dst, HReg src ); 1070 extern ARM64Instr* ARM64Instr_VUnaryD ( ARM64FpUnaryOp op, HReg dst, HReg src ); 1071 extern ARM64Instr* ARM64Instr_VUnaryS ( ARM64FpUnaryOp op, HReg dst, HReg src ); 1072 extern ARM64Instr* ARM64Instr_VBinD ( ARM64FpBinOp op, HReg, HReg, HReg ); 1073 extern ARM64Instr* ARM64Instr_VBinS ( ARM64FpBinOp op, HReg, HReg, HReg ); 1074 extern ARM64Instr* ARM64Instr_VCmpD ( HReg argL, HReg argR ); 1075 extern ARM64Instr* ARM64Instr_VCmpS ( HReg argL, HReg argR ); 1076 extern ARM64Instr* ARM64Instr_FPCR ( Bool toFPCR, HReg iReg ); 1077 extern ARM64Instr* ARM64Instr_VBinV ( ARM64VecBinOp op, HReg, HReg, HReg ); 1078 extern ARM64Instr* ARM64Instr_VUnaryV ( ARM64VecUnaryOp op, HReg, HReg ); 1079 extern ARM64Instr* ARM64Instr_VNarrowV ( UInt dszBlg2, HReg dst, HReg src ); 1080 extern ARM64Instr* ARM64Instr_VShiftImmV ( ARM64VecShiftOp op, 1081 HReg dst, HReg src, UInt amt ); 1082 //ZZ extern ARMInstr* ARMInstr_VAluS ( ARMVfpOp op, HReg, HReg, HReg ); 1083 //ZZ extern ARMInstr* ARMInstr_VCMovD ( ARMCondCode, HReg dst, HReg src ); 1084 //ZZ extern ARMInstr* ARMInstr_VCMovS ( ARMCondCode, HReg dst, HReg src ); 1085 //ZZ extern ARMInstr* ARMInstr_VXferD ( Bool toD, HReg dD, HReg rHi, HReg rLo ); 1086 //ZZ extern ARMInstr* ARMInstr_VXferS ( Bool toS, HReg fD, HReg rLo ); 1087 //ZZ extern ARMInstr* ARMInstr_VCvtID ( Bool iToD, Bool syned, 1088 //ZZ HReg dst, HReg src ); 1089 //ZZ extern ARMInstr* ARMInstr_NLdStD ( Bool isLoad, HReg, ARMAModeN* ); 1090 //ZZ extern ARMInstr* ARMInstr_NUnary ( ARMNeonUnOp, HReg, HReg, UInt, Bool ); 1091 //ZZ extern ARMInstr* ARMInstr_NUnaryS ( ARMNeonUnOpS, ARMNRS*, ARMNRS*, 1092 //ZZ UInt, Bool ); 1093 //ZZ extern ARMInstr* ARMInstr_NDual ( ARMNeonDualOp, HReg, HReg, UInt, Bool ); 1094 //ZZ extern ARMInstr* ARMInstr_NBinary ( ARMNeonBinOp, HReg, HReg, HReg, 1095 //ZZ UInt, Bool ); 1096 //ZZ extern ARMInstr* ARMInstr_NShift ( ARMNeonShiftOp, HReg, HReg, HReg, 1097 //ZZ UInt, Bool ); 1098 //ZZ extern ARMInstr* ARMInstr_NShl64 ( HReg, HReg, UInt ); 1099 extern ARM64Instr* ARM64Instr_VImmQ ( HReg, UShort ); 1100 extern ARM64Instr* ARM64Instr_VDfromX ( HReg rD, HReg rX ); 1101 extern ARM64Instr* ARM64Instr_VQfromXX( HReg rQ, HReg rXhi, HReg rXlo ); 1102 extern ARM64Instr* ARM64Instr_VXfromQ ( HReg rX, HReg rQ, UInt laneNo ); 1103 extern ARM64Instr* ARM64Instr_VMov ( UInt szB, HReg dst, HReg src ); 1104 1105 extern ARM64Instr* ARM64Instr_EvCheck ( ARM64AMode* amCounter, 1106 ARM64AMode* amFailAddr ); 1107 //ZZ extern ARMInstr* ARMInstr_ProfInc ( void ); 1108 1109 extern void ppARM64Instr ( ARM64Instr* ); 1110 1111 1112 /* Some functions that insulate the register allocator from details 1113 of the underlying instruction set. */ 1114 extern void getRegUsage_ARM64Instr ( HRegUsage*, ARM64Instr*, Bool ); 1115 extern void mapRegs_ARM64Instr ( HRegRemap*, ARM64Instr*, Bool ); 1116 extern Bool isMove_ARM64Instr ( ARM64Instr*, HReg*, HReg* ); 1117 extern Int emit_ARM64Instr ( /*MB_MOD*/Bool* is_profInc, 1118 UChar* buf, Int nbuf, ARM64Instr* i, 1119 Bool mode64, 1120 void* disp_cp_chain_me_to_slowEP, 1121 void* disp_cp_chain_me_to_fastEP, 1122 void* disp_cp_xindir, 1123 void* disp_cp_xassisted ); 1124 1125 extern void genSpill_ARM64 ( /*OUT*/HInstr** i1, /*OUT*/HInstr** i2, 1126 HReg rreg, Int offset, Bool ); 1127 extern void genReload_ARM64 ( /*OUT*/HInstr** i1, /*OUT*/HInstr** i2, 1128 HReg rreg, Int offset, Bool ); 1129 1130 extern void getAllocableRegs_ARM64 ( Int*, HReg** ); 1131 extern HInstrArray* iselSB_ARM64 ( IRSB*, 1132 VexArch, 1133 VexArchInfo*, 1134 VexAbiInfo*, 1135 Int offs_Host_EvC_Counter, 1136 Int offs_Host_EvC_FailAddr, 1137 Bool chainingAllowed, 1138 Bool addProfInc, 1139 Addr64 max_ga ); 1140 1141 /* How big is an event check? This is kind of a kludge because it 1142 depends on the offsets of host_EvC_FAILADDR and 1143 host_EvC_COUNTER. */ 1144 extern Int evCheckSzB_ARM64 ( void ); 1145 1146 /* Perform a chaining and unchaining of an XDirect jump. */ 1147 extern VexInvalRange chainXDirect_ARM64 ( void* place_to_chain, 1148 void* disp_cp_chain_me_EXPECTED, 1149 void* place_to_jump_to ); 1150 1151 extern VexInvalRange unchainXDirect_ARM64 ( void* place_to_unchain, 1152 void* place_to_jump_to_EXPECTED, 1153 void* disp_cp_chain_me ); 1154 1155 //ZZ /* Patch the counter location into an existing ProfInc point. */ 1156 //ZZ extern VexInvalRange patchProfInc_ARM ( void* place_to_patch, 1157 //ZZ ULong* location_of_counter ); 1158 1159 1160 #endif /* ndef __VEX_HOST_ARM64_DEFS_H */ 1161 1162 /*---------------------------------------------------------------*/ 1163 /*--- end host_arm64_defs.h ---*/ 1164 /*---------------------------------------------------------------*/ 1165