1 //===-- ARMInstPrinter.cpp - Convert ARM MCInst to assembly syntax --------===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // 10 // This class prints an ARM MCInst to a .s file. 11 // 12 //===----------------------------------------------------------------------===// 13 14 /* Capstone Disassembly Engine */ 15 /* By Nguyen Anh Quynh <aquynh (at) gmail.com>, 2013-2014 */ 16 17 #ifdef CAPSTONE_HAS_ARM 18 19 #include <stdio.h> // DEBUG 20 #include <stdlib.h> 21 #include <string.h> 22 #include <platform.h> 23 24 #include "ARMInstPrinter.h" 25 #include "ARMAddressingModes.h" 26 #include "ARMBaseInfo.h" 27 #include "ARMDisassembler.h" 28 #include "../../MCInst.h" 29 #include "../../SStream.h" 30 #include "../../MCRegisterInfo.h" 31 #include "../../utils.h" 32 #include "ARMMapping.h" 33 34 #define GET_SUBTARGETINFO_ENUM 35 #include "ARMGenSubtargetInfo.inc" 36 37 static void printRegName(cs_struct *h, SStream *OS, unsigned RegNo); 38 39 // Autogenerated by tblgen. 40 static void printInstruction(MCInst *MI, SStream *O, MCRegisterInfo *MRI); 41 static void printOperand(MCInst *MI, unsigned OpNo, SStream *O); 42 static void printSORegRegOperand(MCInst *MI, unsigned OpNum, SStream *O); 43 static void printSORegImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 44 45 static void printAddrModeTBB(MCInst *MI, unsigned OpNum, SStream *O); 46 static void printAddrModeTBH(MCInst *MI, unsigned OpNum, SStream *O); 47 static void printAddrMode2Operand(MCInst *MI, unsigned OpNum, SStream *O); 48 static void printAM2PreOrOffsetIndexOp(MCInst *MI, unsigned OpNum, SStream *O); 49 static void printAddrMode2OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O); 50 static void printAddrMode3Operand(MCInst *MI, unsigned OpNum, SStream *O, bool AlwaysPrintImm0); 51 static void printAddrMode3OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O); 52 static void printAM3PreOrOffsetIndexOp(MCInst *MI, unsigned Op, SStream *O, bool AlwaysPrintImm0); 53 static void printPostIdxImm8Operand(MCInst *MI, unsigned OpNum, SStream *O); 54 static void printPostIdxRegOperand(MCInst *MI, unsigned OpNum, SStream *O); 55 static void printPostIdxImm8s4Operand(MCInst *MI, unsigned OpNum, SStream *O); 56 static void printAddrMode5Operand(MCInst *MI, unsigned OpNum, SStream *O, bool AlwaysPrintImm0); 57 static void printAddrMode6Operand(MCInst *MI, unsigned OpNum, SStream *O); 58 static void printAddrMode7Operand(MCInst *MI, unsigned OpNum, SStream *O); 59 static void printAddrMode6OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O); 60 61 static void printBitfieldInvMaskImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 62 static void printMemBOption(MCInst *MI, unsigned OpNum, SStream *O); 63 static void printShiftImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 64 static void printPKHLSLShiftImm(MCInst *MI, unsigned OpNum, SStream *O); 65 static void printPKHASRShiftImm(MCInst *MI, unsigned OpNum, SStream *O); 66 static void printAdrLabelOperand(MCInst *MI, unsigned OpNum, SStream *O, unsigned); 67 static void printThumbS4ImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 68 static void printThumbSRImm(MCInst *MI, unsigned OpNum, SStream *O); 69 static void printThumbITMask(MCInst *MI, unsigned OpNum, SStream *O); 70 static void printThumbAddrModeRROperand(MCInst *MI, unsigned OpNum, SStream *O); 71 static void printThumbAddrModeImm5SOperand(MCInst *MI, unsigned OpNum, SStream *O, unsigned Scale); 72 static void printThumbAddrModeImm5S1Operand(MCInst *MI, unsigned OpNum, SStream *O); 73 static void printThumbAddrModeImm5S2Operand(MCInst *MI, unsigned OpNum, SStream *O); 74 static void printThumbAddrModeImm5S4Operand(MCInst *MI, unsigned OpNum, SStream *O); 75 static void printThumbAddrModeSPOperand(MCInst *MI, unsigned OpNum, SStream *O); 76 static void printT2SOOperand(MCInst *MI, unsigned OpNum, SStream *O); 77 static void printAddrModeImm12Operand(MCInst *MI, unsigned OpNum, SStream *O, bool AlwaysPrintImm0); 78 static void printT2AddrModeImm8Operand(MCInst *MI, unsigned OpNum, SStream *O, bool); 79 static void printT2AddrModeImm8s4Operand(MCInst *MI, unsigned OpNum, SStream *O, bool); 80 static void printT2AddrModeImm0_1020s4Operand(MCInst *MI, unsigned OpNum, SStream *O); 81 static void printT2AddrModeImm8OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O); 82 static void printT2AddrModeImm8s4OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O); 83 static void printT2AddrModeSoRegOperand(MCInst *MI, unsigned OpNum, SStream *O); 84 static void printSetendOperand(MCInst *MI, unsigned OpNum, SStream *O); 85 static void printCPSIMod(MCInst *MI, unsigned OpNum, SStream *O); 86 static void printCPSIFlag(MCInst *MI, unsigned OpNum, SStream *O); 87 static void printMSRMaskOperand(MCInst *MI, unsigned OpNum, SStream *O); 88 static void printPredicateOperand(MCInst *MI, unsigned OpNum, SStream *O); 89 static void printMandatoryPredicateOperand(MCInst *MI, unsigned OpNum, SStream *O); 90 static void printSBitModifierOperand(MCInst *MI, unsigned OpNum, SStream *O); 91 static void printRegisterList(MCInst *MI, unsigned OpNum, SStream *O); 92 static void printNoHashImmediate(MCInst *MI, unsigned OpNum, SStream *O); 93 static void printPImmediate(MCInst *MI, unsigned OpNum, SStream *O); 94 static void printCImmediate(MCInst *MI, unsigned OpNum, SStream *O); 95 static void printCoprocOptionImm(MCInst *MI, unsigned OpNum, SStream *O); 96 static void printFPImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 97 static void printNEONModImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 98 static void printImmPlusOneOperand(MCInst *MI, unsigned OpNum, SStream *O); 99 static void printRotImmOperand(MCInst *MI, unsigned OpNum, SStream *O); 100 static void printGPRPairOperand(MCInst *MI, unsigned OpNum, SStream *O, MCRegisterInfo *MRI); 101 static void printThumbLdrLabelOperand(MCInst *MI, unsigned OpNum, SStream *O); 102 static void printFBits16(MCInst *MI, unsigned OpNum, SStream *O); 103 static void printFBits32(MCInst *MI, unsigned OpNum, SStream *O); 104 static void printVectorIndex(MCInst *MI, unsigned OpNum, SStream *O); 105 static void printVectorListOne(MCInst *MI, unsigned OpNum, SStream *O); 106 static void printVectorListTwo(MCInst *MI, unsigned OpNum, SStream *O, MCRegisterInfo *MRI); 107 static void printVectorListTwoSpaced(MCInst *MI, unsigned OpNum, SStream *O, MCRegisterInfo *RI); 108 static void printVectorListThree(MCInst *MI, unsigned OpNum, SStream *O); 109 static void printVectorListFour(MCInst *MI, unsigned OpNum, SStream *O); 110 static void printVectorListOneAllLanes(MCInst *MI, unsigned OpNum, SStream *O); 111 static void printVectorListTwoAllLanes(MCInst *MI, unsigned OpNum, SStream *O, MCRegisterInfo *RI); 112 static void printVectorListThreeAllLanes(MCInst *MI, unsigned OpNum, SStream *O); 113 static void printVectorListFourAllLanes(MCInst *MI, unsigned OpNum, SStream *O); 114 static void printVectorListTwoSpacedAllLanes(MCInst *MI, unsigned OpNum, SStream *O, MCRegisterInfo *MRI); 115 static void printVectorListThreeSpacedAllLanes(MCInst *MI, unsigned OpNum, SStream *O); 116 static void printVectorListFourSpacedAllLanes(MCInst *MI, unsigned OpNum, SStream *O); 117 static void printVectorListThreeSpaced(MCInst *MI, unsigned OpNum, SStream *O); 118 static void printVectorListFourSpaced(MCInst *MI, unsigned OpNum, SStream *O); 119 120 static void printInstSyncBOption(MCInst *MI, unsigned OpNum, SStream *O); 121 122 static void set_mem_access(MCInst *MI, bool status) 123 { 124 if (MI->csh->detail != CS_OPT_ON) 125 return; 126 127 MI->csh->doing_mem = status; 128 if (status) { 129 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_MEM; 130 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = ARM_REG_INVALID; 131 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = ARM_REG_INVALID; 132 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.scale = 1; 133 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = 0; 134 } else { 135 // done, create the next operand slot 136 MI->flat_insn->detail->arm.op_count++; 137 } 138 } 139 140 static void op_addImm(MCInst *MI, int v) 141 { 142 if (MI->csh->detail) { 143 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 144 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = v; 145 MI->flat_insn->detail->arm.op_count++; 146 } 147 } 148 149 #define GET_INSTRINFO_ENUM 150 #include "ARMGenInstrInfo.inc" 151 152 //#define PRINT_ALIAS_INSTR 153 #include "ARMGenAsmWriter.inc" 154 155 void ARM_getRegName(cs_struct *handle, int value) 156 { 157 if (value == CS_OPT_SYNTAX_NOREGNAME) { 158 handle->get_regname = getRegisterName2; 159 handle->reg_name = ARM_reg_name2;; 160 } else { 161 handle->get_regname = getRegisterName; 162 handle->reg_name = ARM_reg_name;; 163 } 164 } 165 166 /// translateShiftImm - Convert shift immediate from 0-31 to 1-32 for printing. 167 /// 168 /// getSORegOffset returns an integer from 0-31, representing '32' as 0. 169 static unsigned translateShiftImm(unsigned imm) 170 { 171 // lsr #32 and asr #32 exist, but should be encoded as a 0. 172 //assert((imm & ~0x1f) == 0 && "Invalid shift encoding"); 173 if (imm == 0) 174 return 32; 175 return imm; 176 } 177 178 /// Prints the shift value with an immediate value. 179 static void printRegImmShift(MCInst *MI, SStream *O, ARM_AM_ShiftOpc ShOpc, unsigned ShImm) 180 { 181 if (ShOpc == ARM_AM_no_shift || (ShOpc == ARM_AM_lsl && !ShImm)) 182 return; 183 SStream_concat0(O, ", "); 184 185 //assert (!(ShOpc == ARM_AM_ror && !ShImm) && "Cannot have ror #0"); 186 SStream_concat0(O, ARM_AM_getShiftOpcStr(ShOpc)); 187 if (MI->csh->detail) { 188 if (MI->csh->doing_mem) 189 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.type = (arm_shifter)ShOpc; 190 else 191 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = (arm_shifter)ShOpc; 192 } 193 194 if (ShOpc != ARM_AM_rrx) { 195 SStream_concat0(O, " "); 196 SStream_concat(O, "#%u", translateShiftImm(ShImm)); 197 if (MI->csh->detail) { 198 if (MI->csh->doing_mem) 199 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.value = translateShiftImm(ShImm); 200 else 201 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = translateShiftImm(ShImm); 202 } 203 } 204 } 205 206 static void printRegName(cs_struct *h, SStream *OS, unsigned RegNo) 207 { 208 #ifndef CAPSTONE_DIET 209 SStream_concat0(OS, h->get_regname(RegNo)); 210 #endif 211 } 212 213 static name_map insn_update_flgs[] = { 214 { ARM_INS_CMN, "cmn" }, 215 { ARM_INS_CMP, "cmp" }, 216 { ARM_INS_TEQ, "teq" }, 217 { ARM_INS_TST, "tst" }, 218 219 { ARM_INS_ADC, "adcs" }, 220 { ARM_INS_ADD, "adds" }, 221 { ARM_INS_AND, "ands" }, 222 { ARM_INS_ASR, "asrs" }, 223 { ARM_INS_BIC, "bics" }, 224 { ARM_INS_EOR, "eors" }, 225 { ARM_INS_LSL, "lsls" }, 226 { ARM_INS_LSR, "lsrs" }, 227 { ARM_INS_MLA, "mlas" }, 228 { ARM_INS_MOV, "movs" }, 229 { ARM_INS_MUL, "muls" }, 230 { ARM_INS_MVN, "mvns" }, 231 { ARM_INS_ORN, "orns" }, 232 { ARM_INS_ORR, "orrs" }, 233 { ARM_INS_ROR, "rors" }, 234 { ARM_INS_RRX, "rrxs" }, 235 { ARM_INS_RSB, "rsbs" }, 236 { ARM_INS_RSC, "rscs" }, 237 { ARM_INS_SBC, "sbcs" }, 238 { ARM_INS_SMLAL, "smlals" }, 239 { ARM_INS_SMULL, "smulls" }, 240 { ARM_INS_SUB, "subs" }, 241 { ARM_INS_UMLAL, "umlals" }, 242 { ARM_INS_UMULL, "umulls" }, 243 244 { ARM_INS_UADD8, "uadd8" }, 245 }; 246 247 void ARM_post_printer(csh ud, cs_insn *insn, char *insn_asm, MCInst *mci) 248 { 249 if (((cs_struct *)ud)->detail != CS_OPT_ON) 250 return; 251 252 // check if this insn requests write-back 253 if (mci->writeback || (strrchr(insn_asm, '!')) != NULL) { 254 insn->detail->arm.writeback = true; 255 } else if (mci->csh->mode & CS_MODE_THUMB) { 256 // handle some special instructions with writeback 257 //printf(">> Opcode = %u\n", mci->Opcode); 258 switch(mci->Opcode) { 259 default: 260 break; 261 case ARM_t2LDC2L_PRE: 262 case ARM_t2LDC2_PRE: 263 case ARM_t2LDCL_PRE: 264 case ARM_t2LDC_PRE: 265 266 case ARM_t2LDRB_PRE: 267 case ARM_t2LDRD_PRE: 268 case ARM_t2LDRH_PRE: 269 case ARM_t2LDRSB_PRE: 270 case ARM_t2LDRSH_PRE: 271 case ARM_t2LDR_PRE: 272 273 case ARM_t2STC2L_PRE: 274 case ARM_t2STC2_PRE: 275 case ARM_t2STCL_PRE: 276 case ARM_t2STC_PRE: 277 278 case ARM_t2STRB_PRE: 279 case ARM_t2STRD_PRE: 280 case ARM_t2STRH_PRE: 281 case ARM_t2STR_PRE: 282 283 case ARM_t2LDC2L_POST: 284 case ARM_t2LDC2_POST: 285 case ARM_t2LDCL_POST: 286 case ARM_t2LDC_POST: 287 288 case ARM_t2LDRB_POST: 289 case ARM_t2LDRD_POST: 290 case ARM_t2LDRH_POST: 291 case ARM_t2LDRSB_POST: 292 case ARM_t2LDRSH_POST: 293 case ARM_t2LDR_POST: 294 295 case ARM_t2STC2L_POST: 296 case ARM_t2STC2_POST: 297 case ARM_t2STCL_POST: 298 case ARM_t2STC_POST: 299 300 case ARM_t2STRB_POST: 301 case ARM_t2STRD_POST: 302 case ARM_t2STRH_POST: 303 case ARM_t2STR_POST: 304 insn->detail->arm.writeback = true; 305 break; 306 } 307 } else { // ARM mode 308 // handle some special instructions with writeback 309 //printf(">> Opcode = %u\n", mci->Opcode); 310 switch(mci->Opcode) { 311 default: 312 break; 313 case ARM_LDC2L_PRE: 314 case ARM_LDC2_PRE: 315 case ARM_LDCL_PRE: 316 case ARM_LDC_PRE: 317 318 case ARM_LDRD_PRE: 319 case ARM_LDRH_PRE: 320 case ARM_LDRSB_PRE: 321 case ARM_LDRSH_PRE: 322 323 case ARM_STC2L_PRE: 324 case ARM_STC2_PRE: 325 case ARM_STCL_PRE: 326 case ARM_STC_PRE: 327 328 case ARM_STRD_PRE: 329 case ARM_STRH_PRE: 330 331 case ARM_LDC2L_POST: 332 case ARM_LDC2_POST: 333 case ARM_LDCL_POST: 334 case ARM_LDC_POST: 335 336 case ARM_LDRBT_POST: 337 case ARM_LDRD_POST: 338 case ARM_LDRH_POST: 339 case ARM_LDRSB_POST: 340 case ARM_LDRSH_POST: 341 342 case ARM_STC2L_POST: 343 case ARM_STC2_POST: 344 case ARM_STCL_POST: 345 case ARM_STC_POST: 346 347 case ARM_STRBT_POST: 348 case ARM_STRD_POST: 349 case ARM_STRH_POST: 350 351 case ARM_LDRB_POST_IMM: 352 case ARM_LDR_POST_IMM: 353 case ARM_LDR_POST_REG: 354 case ARM_STRB_POST_IMM: 355 case ARM_STR_POST_IMM: 356 357 insn->detail->arm.writeback = true; 358 break; 359 } 360 } 361 362 // check if this insn requests update flags 363 if (insn->detail->arm.update_flags == false) { 364 // some insn still update flags, regardless of tabgen info 365 unsigned int i, j; 366 367 for (i = 0; i < ARR_SIZE(insn_update_flgs); i++) { 368 if (insn->id == insn_update_flgs[i].id && 369 !strncmp(insn_asm, insn_update_flgs[i].name, 370 strlen(insn_update_flgs[i].name))) { 371 insn->detail->arm.update_flags = true; 372 // we have to update regs_write array as well 373 for (j = 0; j < ARR_SIZE(insn->detail->regs_write); j++) { 374 if (insn->detail->regs_write[j] == 0) { 375 insn->detail->regs_write[j] = ARM_REG_CPSR; 376 break; 377 } 378 } 379 break; 380 } 381 } 382 } 383 384 // instruction should not have invalid CC 385 if (insn->detail->arm.cc == ARM_CC_INVALID) { 386 insn->detail->arm.cc = ARM_CC_AL; 387 } 388 389 // manual fix for some special instructions 390 // printf(">>> id: %u, mcid: %u\n", insn->id, mci->Opcode); 391 switch(mci->Opcode) { 392 default: 393 break; 394 case ARM_MOVPCLR: 395 insn->detail->arm.operands[0].type = ARM_OP_REG; 396 insn->detail->arm.operands[0].reg = ARM_REG_PC; 397 insn->detail->arm.operands[1].type = ARM_OP_REG; 398 insn->detail->arm.operands[1].reg = ARM_REG_LR; 399 insn->detail->arm.op_count = 2; 400 break; 401 } 402 } 403 404 void ARM_printInst(MCInst *MI, SStream *O, void *Info) 405 { 406 MCRegisterInfo *MRI = (MCRegisterInfo *)Info; 407 408 unsigned Opcode = MCInst_getOpcode(MI), tmp, i, pubOpcode; 409 410 switch(Opcode) { 411 // Check for HINT instructions w/ canonical names. 412 case ARM_HINT: 413 case ARM_tHINT: 414 case ARM_t2HINT: 415 switch (MCOperand_getImm(MCInst_getOperand(MI, 0))) { 416 case 0: SStream_concat0(O, "nop"); pubOpcode = ARM_INS_NOP; break; 417 case 1: SStream_concat0(O, "yield"); pubOpcode = ARM_INS_YIELD; break; 418 case 2: SStream_concat0(O, "wfe"); pubOpcode = ARM_INS_WFE; break; 419 case 3: SStream_concat0(O, "wfi"); pubOpcode = ARM_INS_WFI; break; 420 case 4: SStream_concat0(O, "sev"); pubOpcode = ARM_INS_SEV; break; 421 case 5: 422 if ((ARM_getFeatureBits(MI->csh->mode) & ARM_HasV8Ops)) { 423 SStream_concat0(O, "sevl"); 424 pubOpcode = ARM_INS_SEVL; 425 break; 426 } 427 // Fallthrough for non-v8 428 default: 429 // Anything else should just print normally. 430 printInstruction(MI, O, MRI); 431 return; 432 } 433 printPredicateOperand(MI, 1, O); 434 if (Opcode == ARM_t2HINT) 435 SStream_concat0(O, ".w"); 436 437 MCInst_setOpcodePub(MI, pubOpcode); 438 439 return; 440 441 // Check for MOVs and print canonical forms, instead. 442 case ARM_MOVsr: { 443 // FIXME: Thumb variants? 444 MCOperand *Dst = MCInst_getOperand(MI, 0); 445 MCOperand *MO1 = MCInst_getOperand(MI, 1); 446 MCOperand *MO2 = MCInst_getOperand(MI, 2); 447 MCOperand *MO3 = MCInst_getOperand(MI, 3); 448 449 SStream_concat0(O, ARM_AM_getShiftOpcStr(ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO3)))); 450 printSBitModifierOperand(MI, 6, O); 451 printPredicateOperand(MI, 4, O); 452 453 SStream_concat0(O, "\t"); 454 printRegName(MI->csh, O, MCOperand_getReg(Dst)); 455 if (MI->csh->detail) { 456 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 457 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(Dst); 458 MI->flat_insn->detail->arm.op_count++; 459 } 460 461 SStream_concat0(O, ", "); 462 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 463 464 if (MI->csh->detail) { 465 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 466 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 467 MI->flat_insn->detail->arm.op_count++; 468 } 469 470 SStream_concat0(O, ", "); 471 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 472 if (MI->csh->detail) { 473 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 474 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO2); 475 MI->flat_insn->detail->arm.op_count++; 476 } 477 //assert(ARM_AM_getSORegOffset(MO3.getImm()) == 0); 478 return; 479 } 480 481 case ARM_MOVsi: { 482 // FIXME: Thumb variants? 483 MCOperand *Dst = MCInst_getOperand(MI, 0); 484 MCOperand *MO1 = MCInst_getOperand(MI, 1); 485 MCOperand *MO2 = MCInst_getOperand(MI, 2); 486 487 SStream_concat0(O, ARM_AM_getShiftOpcStr(ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO2)))); 488 printSBitModifierOperand(MI, 5, O); 489 printPredicateOperand(MI, 3, O); 490 491 SStream_concat0(O, "\t"); 492 printRegName(MI->csh, O, MCOperand_getReg(Dst)); 493 if (MI->csh->detail) { 494 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 495 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(Dst); 496 MI->flat_insn->detail->arm.op_count++; 497 } 498 499 SStream_concat0(O, ", "); 500 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 501 if (MI->csh->detail) { 502 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 503 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 504 MI->flat_insn->detail->arm.op_count++; 505 } 506 507 if (ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO2)) == ARM_AM_rrx) { 508 //printAnnotation(O, Annot); 509 return; 510 } 511 512 SStream_concat0(O, ", "); 513 tmp = translateShiftImm(getSORegOffset((unsigned int)MCOperand_getImm(MO2))); 514 if (tmp > HEX_THRESHOLD) 515 SStream_concat(O, "#0x%x", tmp); 516 else 517 SStream_concat(O, "#%u", tmp); 518 if (MI->csh->detail) { 519 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = 520 (arm_shifter)ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO2)); 521 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = tmp; 522 } 523 return; 524 } 525 526 // A8.6.123 PUSH 527 case ARM_STMDB_UPD: 528 case ARM_t2STMDB_UPD: 529 if (MCOperand_getReg(MCInst_getOperand(MI, 0)) == ARM_SP && 530 MCInst_getNumOperands(MI) > 5) { 531 // Should only print PUSH if there are at least two registers in the list. 532 SStream_concat0(O, "push"); 533 MCInst_setOpcodePub(MI, ARM_INS_PUSH); 534 printPredicateOperand(MI, 2, O); 535 if (Opcode == ARM_t2STMDB_UPD) 536 SStream_concat0(O, ".w"); 537 SStream_concat0(O, "\t"); 538 printRegisterList(MI, 4, O); 539 return; 540 } 541 break; 542 543 case ARM_STR_PRE_IMM: 544 if (MCOperand_getReg(MCInst_getOperand(MI, 2)) == ARM_SP && 545 MCOperand_getImm(MCInst_getOperand(MI, 3)) == -4) { 546 SStream_concat0(O, "push"); 547 MCInst_setOpcodePub(MI, ARM_INS_PUSH); 548 printPredicateOperand(MI, 4, O); 549 SStream_concat0(O, "\t{"); 550 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, 1))); 551 if (MI->csh->detail) { 552 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 553 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, 1)); 554 MI->flat_insn->detail->arm.op_count++; 555 } 556 SStream_concat0(O, "}"); 557 return; 558 } 559 break; 560 561 // A8.6.122 POP 562 case ARM_LDMIA_UPD: 563 case ARM_t2LDMIA_UPD: 564 if (MCOperand_getReg(MCInst_getOperand(MI, 0)) == ARM_SP && 565 MCInst_getNumOperands(MI) > 5) { 566 // Should only print POP if there are at least two registers in the list. 567 SStream_concat0(O, "pop"); 568 MCInst_setOpcodePub(MI, ARM_INS_POP); 569 printPredicateOperand(MI, 2, O); 570 if (Opcode == ARM_t2LDMIA_UPD) 571 SStream_concat0(O, ".w"); 572 SStream_concat0(O, "\t"); 573 printRegisterList(MI, 4, O); 574 return; 575 } 576 break; 577 578 case ARM_LDR_POST_IMM: 579 if (MCOperand_getReg(MCInst_getOperand(MI, 2)) == ARM_SP) { 580 MCOperand *MO2 = MCInst_getOperand(MI, 4); 581 if ((getAM2Op((unsigned int)MCOperand_getImm(MO2)) == ARM_AM_add && 582 getAM2Offset((unsigned int)MCOperand_getImm(MO2)) == 4) || 583 MCOperand_getImm(MO2) == 4) { 584 SStream_concat0(O, "pop"); 585 MCInst_setOpcodePub(MI, ARM_INS_POP); 586 printPredicateOperand(MI, 5, O); 587 SStream_concat0(O, "\t{"); 588 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, 0))); 589 if (MI->csh->detail) { 590 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 591 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, 0)); 592 MI->flat_insn->detail->arm.op_count++; 593 // this instruction implicitly read/write SP register 594 MI->flat_insn->detail->regs_read[MI->flat_insn->detail->regs_read_count] = ARM_REG_SP; 595 MI->flat_insn->detail->regs_read_count++; 596 MI->flat_insn->detail->regs_write[MI->flat_insn->detail->regs_write_count] = ARM_REG_SP; 597 MI->flat_insn->detail->regs_write_count++; 598 } 599 SStream_concat0(O, "}"); 600 return; 601 } 602 } 603 break; 604 605 // A8.6.355 VPUSH 606 case ARM_VSTMSDB_UPD: 607 case ARM_VSTMDDB_UPD: 608 if (MCOperand_getReg(MCInst_getOperand(MI, 0)) == ARM_SP) { 609 SStream_concat0(O, "vpush"); 610 MCInst_setOpcodePub(MI, ARM_INS_VPUSH); 611 printPredicateOperand(MI, 2, O); 612 SStream_concat0(O, "\t"); 613 printRegisterList(MI, 4, O); 614 return; 615 } 616 break; 617 618 // A8.6.354 VPOP 619 case ARM_VLDMSIA_UPD: 620 case ARM_VLDMDIA_UPD: 621 if (MCOperand_getReg(MCInst_getOperand(MI, 0)) == ARM_SP) { 622 SStream_concat0(O, "vpop"); 623 MCInst_setOpcodePub(MI, ARM_INS_VPOP); 624 printPredicateOperand(MI, 2, O); 625 SStream_concat0(O, "\t"); 626 printRegisterList(MI, 4, O); 627 return; 628 } 629 break; 630 631 case ARM_tLDMIA: { 632 bool Writeback = true; 633 unsigned BaseReg = MCOperand_getReg(MCInst_getOperand(MI, 0)); 634 unsigned i; 635 for (i = 3; i < MCInst_getNumOperands(MI); ++i) { 636 if (MCOperand_getReg(MCInst_getOperand(MI, i)) == BaseReg) 637 Writeback = false; 638 } 639 640 SStream_concat0(O, "ldm"); 641 MCInst_setOpcodePub(MI, ARM_INS_LDM); 642 643 printPredicateOperand(MI, 1, O); 644 SStream_concat0(O, "\t"); 645 printRegName(MI->csh, O, BaseReg); 646 if (MI->csh->detail) { 647 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 648 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = BaseReg; 649 MI->flat_insn->detail->arm.op_count++; 650 } 651 if (Writeback) { 652 MI->writeback = true; 653 SStream_concat0(O, "!"); 654 } 655 SStream_concat0(O, ", "); 656 printRegisterList(MI, 3, O); 657 return; 658 } 659 660 // Combine 2 GPRs from disassember into a GPRPair to match with instr def. 661 // ldrexd/strexd require even/odd GPR pair. To enforce this constraint, 662 // a single GPRPair reg operand is used in the .td file to replace the two 663 // GPRs. However, when decoding them, the two GRPs cannot be automatically 664 // expressed as a GPRPair, so we have to manually merge them. 665 // FIXME: We would really like to be able to tablegen'erate this. 666 case ARM_LDREXD: 667 case ARM_STREXD: 668 case ARM_LDAEXD: 669 case ARM_STLEXD: { 670 MCRegisterClass* MRC = MCRegisterInfo_getRegClass(MRI, ARM_GPRRegClassID); 671 bool isStore = Opcode == ARM_STREXD || Opcode == ARM_STLEXD; 672 673 unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, isStore ? 1 : 0)); 674 if (MCRegisterClass_contains(MRC, Reg)) { 675 MCInst NewMI; 676 677 MCInst_Init(&NewMI); 678 MCInst_setOpcode(&NewMI, Opcode); 679 680 if (isStore) 681 MCInst_addOperand2(&NewMI, MCInst_getOperand(MI, 0)); 682 683 MCOperand_CreateReg0(&NewMI, MCRegisterInfo_getMatchingSuperReg(MRI, Reg, ARM_gsub_0, 684 MCRegisterInfo_getRegClass(MRI, ARM_GPRPairRegClassID))); 685 686 // Copy the rest operands into NewMI. 687 for(i = isStore ? 3 : 2; i < MCInst_getNumOperands(MI); ++i) 688 MCInst_addOperand2(&NewMI, MCInst_getOperand(MI, i)); 689 690 printInstruction(&NewMI, O, MRI); 691 return; 692 } 693 } 694 } 695 696 //if (printAliasInstr(MI, O, MRI)) 697 // printInstruction(MI, O, MRI); 698 printInstruction(MI, O, MRI); 699 } 700 701 static void printOperand(MCInst *MI, unsigned OpNo, SStream *O) 702 { 703 int32_t imm; 704 MCOperand *Op = MCInst_getOperand(MI, OpNo); 705 if (MCOperand_isReg(Op)) { 706 unsigned Reg = MCOperand_getReg(Op); 707 printRegName(MI->csh, O, Reg); 708 if (MI->csh->detail) { 709 if (MI->csh->doing_mem) { 710 if (MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base == ARM_REG_INVALID) 711 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = Reg; 712 else 713 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = Reg; 714 } else { 715 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 716 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg; 717 MI->flat_insn->detail->arm.op_count++; 718 } 719 } 720 } else if (MCOperand_isImm(Op)) { 721 unsigned int opc = MCInst_getOpcode(MI); 722 723 imm = (int32_t)MCOperand_getImm(Op); 724 725 // relative branch only has relative offset, so we have to update it 726 // to reflect absolute address. 727 // Note: in ARM, PC is always 2 instructions ahead, so we have to 728 // add 8 in ARM mode, or 4 in Thumb mode 729 // printf(">> opcode: %u\n", MCInst_getOpcode(MI)); 730 if (ARM_rel_branch(MI->csh, opc)) { 731 uint32_t address; 732 733 // only do this for relative branch 734 if (MI->csh->mode & CS_MODE_THUMB) { 735 address = (uint32_t)MI->address + 4; 736 if (ARM_blx_to_arm_mode(MI->csh, opc)) { 737 // here need to align down to the nearest 4-byte address 738 #define _ALIGN_DOWN(v, align_width) ((v/align_width)*align_width) 739 address = _ALIGN_DOWN(address, 4); 740 #undef _ALIGN_DOWN 741 } 742 } else { 743 address = (uint32_t)MI->address + 8; 744 } 745 746 imm += address; 747 748 if (imm > HEX_THRESHOLD) 749 SStream_concat(O, "#0x%x", imm); 750 else 751 SStream_concat(O, "#%u", imm); 752 } else { 753 switch(MI->flat_insn->id) { 754 default: 755 if (imm >= 0) { 756 if (imm > HEX_THRESHOLD) 757 SStream_concat(O, "#0x%x", imm); 758 else 759 SStream_concat(O, "#%u", imm); 760 } else { 761 if (imm < -HEX_THRESHOLD) 762 SStream_concat(O, "#-0x%x", -imm); 763 else 764 SStream_concat(O, "#-%u", -imm); 765 } 766 break; 767 case ARM_INS_AND: 768 case ARM_INS_ORR: 769 case ARM_INS_EOR: 770 case ARM_INS_BIC: 771 case ARM_INS_MVN: 772 // do not print number in negative form 773 if (imm >= 0 && imm <= HEX_THRESHOLD) 774 SStream_concat(O, "#%u", imm); 775 else 776 SStream_concat(O, "#0x%x", imm); 777 break; 778 } 779 } 780 781 if (MI->csh->detail) { 782 if (MI->csh->doing_mem) 783 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = imm; 784 else { 785 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 786 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = imm; 787 MI->flat_insn->detail->arm.op_count++; 788 } 789 } 790 } 791 } 792 793 static void printThumbLdrLabelOperand(MCInst *MI, unsigned OpNum, SStream *O) 794 { 795 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 796 int32_t OffImm; 797 bool isSub; 798 SStream_concat0(O, "[pc, "); 799 800 OffImm = (int32_t)MCOperand_getImm(MO1); 801 isSub = OffImm < 0; 802 803 // Special value for #-0. All others are normal. 804 if (OffImm == INT32_MIN) 805 OffImm = 0; 806 if (isSub) { 807 SStream_concat(O, "#-0x%x", -OffImm); 808 } else { 809 if (OffImm > HEX_THRESHOLD) 810 SStream_concat(O, "#0x%x", OffImm); 811 else 812 SStream_concat(O, "#%u", OffImm); 813 } 814 815 SStream_concat0(O, "]"); 816 817 if (MI->csh->detail) { 818 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_MEM; 819 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = ARM_REG_PC; 820 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = ARM_REG_INVALID; 821 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.scale = 1; 822 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = OffImm; 823 MI->flat_insn->detail->arm.op_count++; 824 } 825 } 826 827 // so_reg is a 4-operand unit corresponding to register forms of the A5.1 828 // "Addressing Mode 1 - Data-processing operands" forms. This includes: 829 // REG 0 0 - e.g. R5 830 // REG REG 0,SH_OPC - e.g. R5, ROR R3 831 // REG 0 IMM,SH_OPC - e.g. R5, LSL #3 832 static void printSORegRegOperand(MCInst *MI, unsigned OpNum, SStream *O) 833 { 834 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 835 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 836 MCOperand *MO3 = MCInst_getOperand(MI, OpNum+2); 837 ARM_AM_ShiftOpc ShOpc; 838 839 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 840 841 if (MI->csh->detail) { 842 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 843 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 844 845 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.type = (MCOperand_getImm(MO3) & 7) + ARM_SFT_ASR_REG - 1; 846 MI->flat_insn->detail->arm.op_count++; 847 } 848 849 // Print the shift opc. 850 ShOpc = ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO3)); 851 SStream_concat0(O, ", "); 852 SStream_concat0(O, ARM_AM_getShiftOpcStr(ShOpc)); 853 if (ShOpc == ARM_AM_rrx) 854 return; 855 856 SStream_concat0(O, " "); 857 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 858 if (MI->csh->detail) 859 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = MCOperand_getReg(MO2); 860 //assert(ARM_AM_getSORegOffset(MO3.getImm()) == 0); 861 } 862 863 static void printSORegImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 864 { 865 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 866 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 867 868 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 869 if (MI->csh->detail) { 870 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 871 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 872 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.type = MCOperand_getImm(MO2) & 7; 873 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.value = (unsigned int)MCOperand_getImm(MO2) >> 3; 874 MI->flat_insn->detail->arm.op_count++; 875 } 876 877 // Print the shift opc. 878 printRegImmShift(MI, O, ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO2)), 879 getSORegOffset((unsigned int)MCOperand_getImm(MO2))); 880 } 881 882 //===--------------------------------------------------------------------===// 883 // Addressing Mode #2 884 //===--------------------------------------------------------------------===// 885 886 static void printAM2PreOrOffsetIndexOp(MCInst *MI, unsigned Op, SStream *O) 887 { 888 MCOperand *MO1 = MCInst_getOperand(MI, Op); 889 MCOperand *MO2 = MCInst_getOperand(MI, Op + 1); 890 MCOperand *MO3 = MCInst_getOperand(MI, Op + 2); 891 ARM_AM_AddrOpc subtracted = getAM2Op((unsigned int)MCOperand_getImm(MO3)); 892 893 SStream_concat0(O, "["); 894 set_mem_access(MI, true); 895 896 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 897 if (MI->csh->detail) { 898 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 899 } 900 901 if (!MCOperand_getReg(MO2)) { 902 unsigned tmp = getAM2Offset((unsigned int)MCOperand_getImm(MO3)); 903 if (tmp) { // Don't print +0. 904 subtracted = getAM2Op((unsigned int)MCOperand_getImm(MO3)); 905 906 SStream_concat0(O, ", "); 907 if (tmp > HEX_THRESHOLD) 908 SStream_concat(O, "#%s0x%x", ARM_AM_getAddrOpcStr(subtracted), tmp); 909 else 910 SStream_concat(O, "#%s%u", ARM_AM_getAddrOpcStr(subtracted), tmp); 911 if (MI->csh->detail) { 912 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.type = (arm_shifter)getAM2Op((unsigned int)MCOperand_getImm(MO3)); 913 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.value = tmp; 914 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = subtracted == ARM_AM_sub; 915 } 916 } 917 SStream_concat0(O, "]"); 918 set_mem_access(MI, false); 919 return; 920 } 921 922 SStream_concat0(O, ", "); 923 SStream_concat0(O, ARM_AM_getAddrOpcStr(subtracted)); 924 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 925 if (MI->csh->detail) { 926 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = MCOperand_getReg(MO2); 927 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = subtracted == ARM_AM_sub; 928 } 929 930 printRegImmShift(MI, O, getAM2ShiftOpc((unsigned int)MCOperand_getImm(MO3)), 931 getAM2Offset((unsigned int)MCOperand_getImm(MO3))); 932 SStream_concat0(O, "]"); 933 set_mem_access(MI, false); 934 } 935 936 static void printAddrModeTBB(MCInst *MI, unsigned Op, SStream *O) 937 { 938 MCOperand *MO1 = MCInst_getOperand(MI, Op); 939 MCOperand *MO2 = MCInst_getOperand(MI, Op+1); 940 SStream_concat0(O, "["); 941 set_mem_access(MI, true); 942 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 943 if (MI->csh->detail) 944 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 945 SStream_concat0(O, ", "); 946 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 947 if (MI->csh->detail) 948 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = MCOperand_getReg(MO2); 949 SStream_concat0(O, "]"); 950 set_mem_access(MI, false); 951 } 952 953 static void printAddrModeTBH(MCInst *MI, unsigned Op, SStream *O) 954 { 955 MCOperand *MO1 = MCInst_getOperand(MI, Op); 956 MCOperand *MO2 = MCInst_getOperand(MI, Op+1); 957 SStream_concat0(O, "["); 958 set_mem_access(MI, true); 959 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 960 if (MI->csh->detail) 961 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 962 SStream_concat0(O, ", "); 963 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 964 if (MI->csh->detail) 965 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = MCOperand_getReg(MO2); 966 SStream_concat0(O, ", lsl #1]"); 967 if (MI->csh->detail) { 968 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.type = ARM_SFT_LSL; 969 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].shift.value = 1; 970 } 971 set_mem_access(MI, false); 972 } 973 974 static void printAddrMode2Operand(MCInst *MI, unsigned Op, SStream *O) 975 { 976 MCOperand *MO1 = MCInst_getOperand(MI, Op); 977 978 if (!MCOperand_isReg(MO1)) { // FIXME: This is for CP entries, but isn't right. 979 printOperand(MI, Op, O); 980 return; 981 } 982 983 printAM2PreOrOffsetIndexOp(MI, Op, O); 984 } 985 986 static void printAddrMode2OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O) 987 { 988 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 989 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 990 ARM_AM_AddrOpc subtracted = getAM2Op((unsigned int)MCOperand_getImm(MO2)); 991 992 if (!MCOperand_getReg(MO1)) { 993 unsigned ImmOffs = getAM2Offset((unsigned int)MCOperand_getImm(MO2)); 994 if (ImmOffs > HEX_THRESHOLD) 995 SStream_concat(O, "#%s0x%x", 996 ARM_AM_getAddrOpcStr(subtracted), ImmOffs); 997 else 998 SStream_concat(O, "#%s%u", 999 ARM_AM_getAddrOpcStr(subtracted), ImmOffs); 1000 if (MI->csh->detail) { 1001 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1002 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = ImmOffs; 1003 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = subtracted == ARM_AM_sub; 1004 MI->flat_insn->detail->arm.op_count++; 1005 } 1006 return; 1007 } 1008 1009 SStream_concat0(O, ARM_AM_getAddrOpcStr(subtracted)); 1010 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1011 if (MI->csh->detail) { 1012 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1013 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 1014 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = subtracted == ARM_AM_sub; 1015 MI->flat_insn->detail->arm.op_count++; 1016 } 1017 1018 printRegImmShift(MI, O, getAM2ShiftOpc((unsigned int)MCOperand_getImm(MO2)), 1019 getAM2Offset((unsigned int)MCOperand_getImm(MO2))); 1020 } 1021 1022 //===--------------------------------------------------------------------===// 1023 // Addressing Mode #3 1024 //===--------------------------------------------------------------------===// 1025 1026 static void printAM3PreOrOffsetIndexOp(MCInst *MI, unsigned Op, SStream *O, 1027 bool AlwaysPrintImm0) 1028 { 1029 MCOperand *MO1 = MCInst_getOperand(MI, Op); 1030 MCOperand *MO2 = MCInst_getOperand(MI, Op+1); 1031 MCOperand *MO3 = MCInst_getOperand(MI, Op+2); 1032 ARM_AM_AddrOpc sign = getAM3Op((unsigned int)MCOperand_getImm(MO3)); 1033 unsigned ImmOffs; 1034 1035 SStream_concat0(O, "["); 1036 set_mem_access(MI, true); 1037 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1038 if (MI->csh->detail) 1039 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1040 1041 if (MCOperand_getReg(MO2)) { 1042 SStream_concat0(O, ", "); 1043 SStream_concat0(O, ARM_AM_getAddrOpcStr(sign)); 1044 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 1045 if (MI->csh->detail) { 1046 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = MCOperand_getReg(MO2); 1047 if (!sign) { 1048 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.scale = -1; 1049 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = true; 1050 } 1051 } 1052 SStream_concat0(O, "]"); 1053 set_mem_access(MI, false); 1054 return; 1055 } 1056 1057 //If the op is sub we have to print the immediate even if it is 0 1058 ImmOffs = getAM3Offset((unsigned int)MCOperand_getImm(MO3)); 1059 1060 if (AlwaysPrintImm0 || ImmOffs || (sign == ARM_AM_sub)) { 1061 if (ImmOffs > HEX_THRESHOLD) 1062 SStream_concat(O, ", #%s0x%x", ARM_AM_getAddrOpcStr(sign), ImmOffs); 1063 else 1064 SStream_concat(O, ", #%s%u", ARM_AM_getAddrOpcStr(sign), ImmOffs); 1065 } 1066 1067 if (MI->csh->detail) { 1068 if (!sign) { 1069 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = -(int)ImmOffs; 1070 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = true; 1071 } else 1072 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = (int)ImmOffs; 1073 } 1074 1075 SStream_concat0(O, "]"); 1076 set_mem_access(MI, false); 1077 } 1078 1079 static void printAddrMode3Operand(MCInst *MI, unsigned Op, SStream *O, 1080 bool AlwaysPrintImm0) 1081 { 1082 MCOperand *MO1 = MCInst_getOperand(MI, Op); 1083 if (!MCOperand_isReg(MO1)) { // For label symbolic references. 1084 printOperand(MI, Op, O); 1085 return; 1086 } 1087 1088 printAM3PreOrOffsetIndexOp(MI, Op, O, AlwaysPrintImm0); 1089 } 1090 1091 static void printAddrMode3OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O) 1092 { 1093 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1094 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1095 ARM_AM_AddrOpc subtracted = getAM3Op((unsigned int)MCOperand_getImm(MO2)); 1096 unsigned ImmOffs; 1097 1098 if (MCOperand_getReg(MO1)) { 1099 SStream_concat0(O, ARM_AM_getAddrOpcStr(subtracted)); 1100 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1101 if (MI->csh->detail) { 1102 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1103 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 1104 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = subtracted == ARM_AM_sub; 1105 MI->flat_insn->detail->arm.op_count++; 1106 } 1107 return; 1108 } 1109 1110 ImmOffs = getAM3Offset((unsigned int)MCOperand_getImm(MO2)); 1111 if (ImmOffs > HEX_THRESHOLD) 1112 SStream_concat(O, "#%s0x%x", ARM_AM_getAddrOpcStr(subtracted), ImmOffs); 1113 else 1114 SStream_concat(O, "#%s%u", ARM_AM_getAddrOpcStr(subtracted), ImmOffs); 1115 if (MI->csh->detail) { 1116 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1117 1118 if (subtracted) { 1119 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = ImmOffs; 1120 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].subtracted = true; 1121 } else 1122 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = -(int)ImmOffs; 1123 1124 MI->flat_insn->detail->arm.op_count++; 1125 } 1126 } 1127 1128 static void printPostIdxImm8Operand(MCInst *MI, unsigned OpNum, SStream *O) 1129 { 1130 MCOperand *MO = MCInst_getOperand(MI, OpNum); 1131 unsigned Imm = (unsigned int)MCOperand_getImm(MO); 1132 if ((Imm & 0xff) > HEX_THRESHOLD) 1133 SStream_concat(O, "#%s0x%x", ((Imm & 256) ? "" : "-"), (Imm & 0xff)); 1134 else 1135 SStream_concat(O, "#%s%u", ((Imm & 256) ? "" : "-"), (Imm & 0xff)); 1136 if (MI->csh->detail) { 1137 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1138 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = Imm & 0xff; 1139 MI->flat_insn->detail->arm.op_count++; 1140 } 1141 } 1142 1143 static void printPostIdxRegOperand(MCInst *MI, unsigned OpNum, SStream *O) 1144 { 1145 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1146 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1147 1148 SStream_concat0(O, (MCOperand_getImm(MO2) ? "" : "-")); 1149 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1150 if (MI->csh->detail) { 1151 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1152 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO1); 1153 MI->flat_insn->detail->arm.op_count++; 1154 } 1155 } 1156 1157 static void printPostIdxImm8s4Operand(MCInst *MI, unsigned OpNum, SStream *O) 1158 { 1159 MCOperand *MO = MCInst_getOperand(MI, OpNum); 1160 unsigned Imm = (unsigned int)MCOperand_getImm(MO); 1161 1162 if (((Imm & 0xff) << 2) > HEX_THRESHOLD) { 1163 SStream_concat(O, "#%s0x%x", ((Imm & 256) ? "" : "-"), ((Imm & 0xff) << 2)); 1164 } else { 1165 SStream_concat(O, "#%s%u", ((Imm & 256) ? "" : "-"), ((Imm & 0xff) << 2)); 1166 } 1167 1168 if (MI->csh->detail) { 1169 int v = (Imm & 256) ? ((Imm & 0xff) << 2) : -((((int)Imm) & 0xff) << 2); 1170 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1171 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = v; 1172 MI->flat_insn->detail->arm.op_count++; 1173 } 1174 } 1175 1176 static void printAddrMode5Operand(MCInst *MI, unsigned OpNum, SStream *O, 1177 bool AlwaysPrintImm0) 1178 { 1179 unsigned ImmOffs; 1180 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1181 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1182 ARM_AM_AddrOpc subtracted = ARM_AM_getAM5Op((unsigned int)MCOperand_getImm(MO2)); 1183 1184 if (!MCOperand_isReg(MO1)) { // FIXME: This is for CP entries, but isn't right. 1185 printOperand(MI, OpNum, O); 1186 return; 1187 } 1188 1189 SStream_concat0(O, "["); 1190 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1191 1192 if (MI->csh->detail) { 1193 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_MEM; 1194 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1195 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = ARM_REG_INVALID; 1196 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.scale = 1; 1197 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = 0; 1198 } 1199 1200 ImmOffs = ARM_AM_getAM5Offset((unsigned int)MCOperand_getImm(MO2)); 1201 if (AlwaysPrintImm0 || ImmOffs || subtracted == ARM_AM_sub) { 1202 if (ImmOffs * 4 > HEX_THRESHOLD) 1203 SStream_concat(O, ", #%s0x%x", 1204 ARM_AM_getAddrOpcStr(subtracted), 1205 ImmOffs * 4); 1206 else 1207 SStream_concat(O, ", #%s%u", 1208 ARM_AM_getAddrOpcStr(subtracted), 1209 ImmOffs * 4); 1210 if (MI->csh->detail) { 1211 if (subtracted) 1212 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = ImmOffs * 4; 1213 else 1214 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = -(int)ImmOffs * 4; 1215 } 1216 } 1217 SStream_concat0(O, "]"); 1218 1219 if (MI->csh->detail) { 1220 MI->flat_insn->detail->arm.op_count++; 1221 } 1222 } 1223 1224 static void printAddrMode6Operand(MCInst *MI, unsigned OpNum, SStream *O) 1225 { 1226 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1227 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1228 unsigned tmp; 1229 1230 SStream_concat0(O, "["); 1231 set_mem_access(MI, true); 1232 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1233 if (MI->csh->detail) 1234 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1235 tmp = (unsigned int)MCOperand_getImm(MO2); 1236 if (tmp) { 1237 if (tmp << 3 > HEX_THRESHOLD) 1238 SStream_concat(O, ":0x%x", (tmp << 3)); 1239 else 1240 SStream_concat(O, ":%u", (tmp << 3)); 1241 if (MI->csh->detail) 1242 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = tmp << 3; 1243 } 1244 SStream_concat0(O, "]"); 1245 set_mem_access(MI, false); 1246 } 1247 1248 static void printAddrMode7Operand(MCInst *MI, unsigned OpNum, SStream *O) 1249 { 1250 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1251 SStream_concat0(O, "["); 1252 set_mem_access(MI, true); 1253 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1254 if (MI->csh->detail) 1255 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1256 SStream_concat0(O, "]"); 1257 set_mem_access(MI, false); 1258 } 1259 1260 static void printAddrMode6OffsetOperand(MCInst *MI, unsigned OpNum, SStream *O) 1261 { 1262 MCOperand *MO = MCInst_getOperand(MI, OpNum); 1263 if (MCOperand_getReg(MO) == 0) { 1264 MI->writeback = true; 1265 SStream_concat0(O, "!"); 1266 } else { 1267 SStream_concat0(O, ", "); 1268 printRegName(MI->csh, O, MCOperand_getReg(MO)); 1269 if (MI->csh->detail) { 1270 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1271 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MO); 1272 MI->flat_insn->detail->arm.op_count++; 1273 } 1274 } 1275 } 1276 1277 static void printBitfieldInvMaskImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 1278 { 1279 MCOperand *MO = MCInst_getOperand(MI, OpNum); 1280 uint32_t v = ~(uint32_t)MCOperand_getImm(MO); 1281 int32_t lsb = CountTrailingZeros_32(v); 1282 int32_t width = (32 - CountLeadingZeros_32 (v)) - lsb; 1283 1284 //assert(MO.isImm() && "Not a valid bf_inv_mask_imm value!"); 1285 if (lsb > HEX_THRESHOLD) 1286 SStream_concat(O, "#0x%x", lsb); 1287 else 1288 SStream_concat(O, "#%u", lsb); 1289 1290 if (width > HEX_THRESHOLD) 1291 SStream_concat(O, ", #0x%x", width); 1292 else 1293 SStream_concat(O, ", #%u", width); 1294 1295 if (MI->csh->detail) { 1296 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1297 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = lsb; 1298 MI->flat_insn->detail->arm.op_count++; 1299 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1300 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = width; 1301 MI->flat_insn->detail->arm.op_count++; 1302 } 1303 } 1304 1305 static void printMemBOption(MCInst *MI, unsigned OpNum, SStream *O) 1306 { 1307 unsigned val = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1308 SStream_concat0(O, ARM_MB_MemBOptToString(val + 1, 1309 (ARM_getFeatureBits(MI->csh->mode) & ARM_HasV8Ops) != 0)); 1310 1311 if (MI->csh->detail) { 1312 MI->flat_insn->detail->arm.mem_barrier = (arm_mem_barrier)(val + 1); 1313 } 1314 } 1315 1316 void printInstSyncBOption(MCInst *MI, unsigned OpNum, SStream *O) 1317 { 1318 unsigned val = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1319 SStream_concat0(O, ARM_ISB_InstSyncBOptToString(val)); 1320 } 1321 1322 static void printShiftImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 1323 { 1324 unsigned ShiftOp = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1325 bool isASR = (ShiftOp & (1 << 5)) != 0; 1326 unsigned Amt = ShiftOp & 0x1f; 1327 if (isASR) { 1328 unsigned tmp = Amt == 0 ? 32 : Amt; 1329 if (tmp > HEX_THRESHOLD) 1330 SStream_concat(O, ", asr #0x%x", tmp); 1331 else 1332 SStream_concat(O, ", asr #%u", tmp); 1333 if (MI->csh->detail) { 1334 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = ARM_SFT_ASR; 1335 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = tmp; 1336 } 1337 } else if (Amt) { 1338 if (Amt > HEX_THRESHOLD) 1339 SStream_concat(O, ", lsl #0x%x", Amt); 1340 else 1341 SStream_concat(O, ", lsl #%u", Amt); 1342 if (MI->csh->detail) { 1343 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = ARM_SFT_LSL; 1344 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = Amt; 1345 } 1346 } 1347 } 1348 1349 static void printPKHLSLShiftImm(MCInst *MI, unsigned OpNum, SStream *O) 1350 { 1351 unsigned Imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1352 if (Imm == 0) 1353 return; 1354 //assert(Imm > 0 && Imm < 32 && "Invalid PKH shift immediate value!"); 1355 if (Imm > HEX_THRESHOLD) 1356 SStream_concat(O, ", lsl #0x%x", Imm); 1357 else 1358 SStream_concat(O, ", lsl #%u", Imm); 1359 if (MI->csh->detail) { 1360 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = ARM_SFT_LSL; 1361 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = Imm; 1362 } 1363 } 1364 1365 static void printPKHASRShiftImm(MCInst *MI, unsigned OpNum, SStream *O) 1366 { 1367 unsigned Imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1368 // A shift amount of 32 is encoded as 0. 1369 if (Imm == 0) 1370 Imm = 32; 1371 //assert(Imm > 0 && Imm <= 32 && "Invalid PKH shift immediate value!"); 1372 if (Imm > HEX_THRESHOLD) 1373 SStream_concat(O, ", asr #0x%x", Imm); 1374 else 1375 SStream_concat(O, ", asr #%u", Imm); 1376 if (MI->csh->detail) { 1377 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = ARM_SFT_ASR; 1378 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = Imm; 1379 } 1380 } 1381 1382 // FIXME: push {r1, r2, r3, ...} can exceed the number of operands in MCInst struct 1383 static void printRegisterList(MCInst *MI, unsigned OpNum, SStream *O) 1384 { 1385 unsigned i, e; 1386 SStream_concat0(O, "{"); 1387 for (i = OpNum, e = MCInst_getNumOperands(MI); i != e; ++i) { 1388 if (i != OpNum) SStream_concat0(O, ", "); 1389 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, i))); 1390 if (MI->csh->detail) { 1391 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1392 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, i)); 1393 MI->flat_insn->detail->arm.op_count++; 1394 } 1395 } 1396 SStream_concat0(O, "}"); 1397 } 1398 1399 static void printGPRPairOperand(MCInst *MI, unsigned OpNum, SStream *O, 1400 MCRegisterInfo *MRI) 1401 { 1402 unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 1403 printRegName(MI->csh, O, MCRegisterInfo_getSubReg(MRI, Reg, ARM_gsub_0)); 1404 if (MI->csh->detail) { 1405 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1406 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCRegisterInfo_getSubReg(MRI, Reg, ARM_gsub_0); 1407 MI->flat_insn->detail->arm.op_count++; 1408 } 1409 SStream_concat0(O, ", "); 1410 printRegName(MI->csh, O, MCRegisterInfo_getSubReg(MRI, Reg, ARM_gsub_1)); 1411 if (MI->csh->detail) { 1412 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1413 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCRegisterInfo_getSubReg(MRI, Reg, ARM_gsub_1); 1414 MI->flat_insn->detail->arm.op_count++; 1415 } 1416 } 1417 1418 // SETEND BE/LE 1419 static void printSetendOperand(MCInst *MI, unsigned OpNum, SStream *O) 1420 { 1421 MCOperand *Op = MCInst_getOperand(MI, OpNum); 1422 if (MCOperand_getImm(Op)) { 1423 SStream_concat0(O, "be"); 1424 if (MI->csh->detail) { 1425 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_SETEND; 1426 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].setend = ARM_SETEND_BE; 1427 MI->flat_insn->detail->arm.op_count++; 1428 } 1429 } else { 1430 SStream_concat0(O, "le"); 1431 if (MI->csh->detail) { 1432 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_SETEND; 1433 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].setend = ARM_SETEND_LE; 1434 MI->flat_insn->detail->arm.op_count++; 1435 } 1436 } 1437 } 1438 1439 static void printCPSIMod(MCInst *MI, unsigned OpNum, SStream *O) 1440 { 1441 MCOperand *Op = MCInst_getOperand(MI, OpNum); 1442 unsigned int mode = (unsigned int)MCOperand_getImm(Op); 1443 1444 SStream_concat0(O, ARM_PROC_IModToString(mode)); 1445 1446 if (MI->csh->detail) { 1447 MI->flat_insn->detail->arm.cps_mode = mode; 1448 } 1449 } 1450 1451 static void printCPSIFlag(MCInst *MI, unsigned OpNum, SStream *O) 1452 { 1453 MCOperand *Op = MCInst_getOperand(MI, OpNum); 1454 unsigned IFlags = (unsigned int)MCOperand_getImm(Op); 1455 int i; 1456 1457 for (i = 2; i >= 0; --i) 1458 if (IFlags & (1 << i)) { 1459 SStream_concat0(O, ARM_PROC_IFlagsToString(1 << i)); 1460 } 1461 1462 if (IFlags == 0) { 1463 SStream_concat0(O, "none"); 1464 IFlags = ARM_CPSFLAG_NONE; 1465 } 1466 1467 if (MI->csh->detail) { 1468 MI->flat_insn->detail->arm.cps_flag = IFlags; 1469 } 1470 } 1471 1472 static void printMSRMaskOperand(MCInst *MI, unsigned OpNum, SStream *O) 1473 { 1474 MCOperand *Op = MCInst_getOperand(MI, OpNum); 1475 unsigned SpecRegRBit = (unsigned)MCOperand_getImm(Op) >> 4; 1476 unsigned Mask = (unsigned)MCOperand_getImm(Op) & 0xf; 1477 unsigned reg; 1478 1479 if (ARM_getFeatureBits(MI->csh->mode) & ARM_FeatureMClass) { 1480 unsigned SYSm = (unsigned)MCOperand_getImm(Op); 1481 unsigned Opcode = MCInst_getOpcode(MI); 1482 // For reads of the special registers ignore the "mask encoding" bits 1483 // which are only for writes. 1484 if (Opcode == ARM_t2MRS_M) 1485 SYSm &= 0xff; 1486 switch (SYSm) { 1487 default: //llvm_unreachable("Unexpected mask value!"); 1488 case 0: 1489 case 0x800: SStream_concat0(O, "apsr"); ARM_addSysReg(MI, ARM_SYSREG_APSR); return; // with _nzcvq bits is an alias for aspr 1490 case 0x400: SStream_concat0(O, "apsr_g"); ARM_addSysReg(MI, ARM_SYSREG_APSR_G); return; 1491 case 0xc00: SStream_concat0(O, "apsr_nzcvqg"); ARM_addSysReg(MI, ARM_SYSREG_APSR_NZCVQG); return; 1492 case 1: 1493 case 0x801: SStream_concat0(O, "iapsr"); ARM_addSysReg(MI, ARM_SYSREG_IAPSR); return; // with _nzcvq bits is an alias for iapsr 1494 case 0x401: SStream_concat0(O, "iapsr_g"); ARM_addSysReg(MI, ARM_SYSREG_IAPSR_G); return; 1495 case 0xc01: SStream_concat0(O, "iapsr_nzcvqg"); ARM_addSysReg(MI, ARM_SYSREG_IAPSR_NZCVQG); return; 1496 case 2: 1497 case 0x802: SStream_concat0(O, "eapsr"); ARM_addSysReg(MI, ARM_SYSREG_EAPSR); return; // with _nzcvq bits is an alias for eapsr 1498 case 0x402: SStream_concat0(O, "eapsr_g"); ARM_addSysReg(MI, ARM_SYSREG_EAPSR_G); return; 1499 case 0xc02: SStream_concat0(O, "eapsr_nzcvqg"); ARM_addSysReg(MI, ARM_SYSREG_EAPSR_NZCVQG); return; 1500 case 3: 1501 case 0x803: SStream_concat0(O, "xpsr"); ARM_addSysReg(MI, ARM_SYSREG_XPSR); return; // with _nzcvq bits is an alias for xpsr 1502 case 0x403: SStream_concat0(O, "xpsr_g"); ARM_addSysReg(MI, ARM_SYSREG_XPSR_G); return; 1503 case 0xc03: SStream_concat0(O, "xpsr_nzcvqg"); ARM_addSysReg(MI, ARM_SYSREG_XPSR_NZCVQG); return; 1504 case 5: 1505 case 0x805: SStream_concat0(O, "ipsr"); ARM_addSysReg(MI, ARM_SYSREG_IPSR); return; 1506 case 6: 1507 case 0x806: SStream_concat0(O, "epsr"); ARM_addSysReg(MI, ARM_SYSREG_EPSR); return; 1508 case 7: 1509 case 0x807: SStream_concat0(O, "iepsr"); ARM_addSysReg(MI, ARM_SYSREG_IEPSR); return; 1510 case 8: 1511 case 0x808: SStream_concat0(O, "msp"); ARM_addSysReg(MI, ARM_SYSREG_MSP); return; 1512 case 9: 1513 case 0x809: SStream_concat0(O, "psp"); ARM_addSysReg(MI, ARM_SYSREG_PSP); return; 1514 case 0x10: 1515 case 0x810: SStream_concat0(O, "primask"); ARM_addSysReg(MI, ARM_SYSREG_PRIMASK); return; 1516 case 0x11: 1517 case 0x811: SStream_concat0(O, "basepri"); ARM_addSysReg(MI, ARM_SYSREG_BASEPRI); return; 1518 case 0x12: 1519 case 0x812: SStream_concat0(O, "basepri_max"); ARM_addSysReg(MI, ARM_SYSREG_BASEPRI_MAX); return; 1520 case 0x13: 1521 case 0x813: SStream_concat0(O, "faultmask"); ARM_addSysReg(MI, ARM_SYSREG_FAULTMASK); return; 1522 case 0x14: 1523 case 0x814: SStream_concat0(O, "control"); ARM_addSysReg(MI, ARM_SYSREG_CONTROL); return; 1524 } 1525 } 1526 1527 // As special cases, CPSR_f, CPSR_s and CPSR_fs prefer printing as 1528 // APSR_nzcvq, APSR_g and APSRnzcvqg, respectively. 1529 if (!SpecRegRBit && (Mask == 8 || Mask == 4 || Mask == 12)) { 1530 SStream_concat0(O, "apsr_"); 1531 switch (Mask) { 1532 default: // llvm_unreachable("Unexpected mask value!"); 1533 case 4: SStream_concat0(O, "g"); ARM_addSysReg(MI, ARM_SYSREG_APSR_G); return; 1534 case 8: SStream_concat0(O, "nzcvq"); ARM_addSysReg(MI, ARM_SYSREG_APSR_NZCVQ); return; 1535 case 12: SStream_concat0(O, "nzcvqg"); ARM_addSysReg(MI, ARM_SYSREG_APSR_NZCVQG); return; 1536 } 1537 } 1538 1539 reg = 0; 1540 if (SpecRegRBit) { 1541 SStream_concat0(O, "spsr"); 1542 if (Mask) { 1543 SStream_concat0(O, "_"); 1544 if (Mask & 8) { 1545 SStream_concat0(O, "f"); 1546 reg += ARM_SYSREG_SPSR_F; 1547 } 1548 1549 if (Mask & 4) { 1550 SStream_concat0(O, "s"); 1551 reg += ARM_SYSREG_SPSR_S; 1552 } 1553 1554 if (Mask & 2) { 1555 SStream_concat0(O, "x"); 1556 reg += ARM_SYSREG_SPSR_X; 1557 } 1558 1559 if (Mask & 1) { 1560 SStream_concat0(O, "c"); 1561 reg += ARM_SYSREG_SPSR_C; 1562 } 1563 ARM_addSysReg(MI, reg); 1564 } 1565 } else { 1566 SStream_concat0(O, "cpsr"); 1567 if (Mask) { 1568 SStream_concat0(O, "_"); 1569 if (Mask & 8) { 1570 SStream_concat0(O, "f"); 1571 reg += ARM_SYSREG_CPSR_F; 1572 } 1573 1574 if (Mask & 4) { 1575 SStream_concat0(O, "s"); 1576 reg += ARM_SYSREG_CPSR_S; 1577 } 1578 1579 if (Mask & 2) { 1580 SStream_concat0(O, "x"); 1581 reg += ARM_SYSREG_CPSR_X; 1582 } 1583 1584 if (Mask & 1) { 1585 SStream_concat0(O, "c"); 1586 reg += ARM_SYSREG_CPSR_C; 1587 } 1588 ARM_addSysReg(MI, reg); 1589 } 1590 } 1591 } 1592 1593 static void printPredicateOperand(MCInst *MI, unsigned OpNum, SStream *O) 1594 { 1595 ARMCC_CondCodes CC = (ARMCC_CondCodes)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1596 // Handle the undefined 15 CC value here for printing so we don't abort(). 1597 if ((unsigned)CC == 15) { 1598 SStream_concat0(O, "<und>"); 1599 if (MI->csh->detail) 1600 MI->flat_insn->detail->arm.cc = ARM_CC_INVALID; 1601 } else { 1602 if (CC != ARMCC_AL) { 1603 SStream_concat0(O, ARMCC_ARMCondCodeToString(CC)); 1604 } 1605 if (MI->csh->detail) 1606 MI->flat_insn->detail->arm.cc = CC + 1; 1607 } 1608 } 1609 1610 // TODO: test this 1611 static void printMandatoryPredicateOperand(MCInst *MI, unsigned OpNum, SStream *O) 1612 { 1613 ARMCC_CondCodes CC = (ARMCC_CondCodes)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1614 SStream_concat0(O, ARMCC_ARMCondCodeToString(CC)); 1615 if (MI->csh->detail) 1616 MI->flat_insn->detail->arm.cc = CC + 1; 1617 } 1618 1619 static void printSBitModifierOperand(MCInst *MI, unsigned OpNum, SStream *O) 1620 { 1621 if (MCOperand_getReg(MCInst_getOperand(MI, OpNum))) { 1622 //assert(MCOperand_getReg(MCInst_getOperand(MI, OpNum)) == ARM_CPSR && 1623 // "Expect ARM CPSR register!"); 1624 SStream_concat0(O, "s"); 1625 if (MI->csh->detail) 1626 MI->flat_insn->detail->arm.update_flags = true; 1627 } 1628 } 1629 1630 static void printNoHashImmediate(MCInst *MI, unsigned OpNum, SStream *O) 1631 { 1632 unsigned tmp = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1633 if (tmp > HEX_THRESHOLD) 1634 SStream_concat(O, "0x%x", tmp); 1635 else 1636 SStream_concat(O, "%u", tmp); 1637 if (MI->csh->detail) { 1638 if (MI->csh->doing_mem) { 1639 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = tmp; 1640 } else { 1641 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1642 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = tmp; 1643 MI->flat_insn->detail->arm.op_count++; 1644 } 1645 } 1646 } 1647 1648 static void printPImmediate(MCInst *MI, unsigned OpNum, SStream *O) 1649 { 1650 unsigned imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1651 1652 SStream_concat(O, "p%u", imm); 1653 if (MI->csh->detail) { 1654 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_PIMM; 1655 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = imm; 1656 MI->flat_insn->detail->arm.op_count++; 1657 } 1658 } 1659 1660 static void printCImmediate(MCInst *MI, unsigned OpNum, SStream *O) 1661 { 1662 unsigned imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1663 1664 SStream_concat(O, "c%u", imm); 1665 if (MI->csh->detail) { 1666 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_CIMM; 1667 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = imm; 1668 MI->flat_insn->detail->arm.op_count++; 1669 } 1670 } 1671 1672 static void printCoprocOptionImm(MCInst *MI, unsigned OpNum, SStream *O) 1673 { 1674 unsigned tmp = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1675 if (tmp > HEX_THRESHOLD) 1676 SStream_concat(O, "{0x%x}", tmp); 1677 else 1678 SStream_concat(O, "{%u}", tmp); 1679 if (MI->csh->detail) { 1680 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1681 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = tmp; 1682 MI->flat_insn->detail->arm.op_count++; 1683 } 1684 } 1685 1686 static void printAdrLabelOperand(MCInst *MI, unsigned OpNum, SStream *O, unsigned scale) 1687 { 1688 MCOperand *MO = MCInst_getOperand(MI, OpNum); 1689 1690 int32_t OffImm = (int32_t)MCOperand_getImm(MO) << scale; 1691 1692 if (OffImm == INT32_MIN) { 1693 SStream_concat0(O, "#-0"); 1694 if (MI->csh->detail) { 1695 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1696 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = 0; 1697 MI->flat_insn->detail->arm.op_count++; 1698 } 1699 } else { 1700 if (OffImm < 0) 1701 SStream_concat(O, "#-0x%x", -OffImm); 1702 else { 1703 if (OffImm > HEX_THRESHOLD) 1704 SStream_concat(O, "#0x%x", OffImm); 1705 else 1706 SStream_concat(O, "#%u", OffImm); 1707 } 1708 if (MI->csh->detail) { 1709 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1710 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = OffImm; 1711 MI->flat_insn->detail->arm.op_count++; 1712 } 1713 } 1714 } 1715 1716 static void printThumbS4ImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 1717 { 1718 unsigned tmp = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)) * 4; 1719 if (tmp > HEX_THRESHOLD) 1720 SStream_concat(O, "#0x%x", tmp); 1721 else 1722 SStream_concat(O, "#%u", tmp); 1723 if (MI->csh->detail) { 1724 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1725 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = tmp; 1726 MI->flat_insn->detail->arm.op_count++; 1727 } 1728 } 1729 1730 static void printThumbSRImm(MCInst *MI, unsigned OpNum, SStream *O) 1731 { 1732 unsigned Imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1733 unsigned tmp = Imm == 0 ? 32 : Imm; 1734 if (tmp > HEX_THRESHOLD) 1735 SStream_concat(O, "#0x%x", tmp); 1736 else 1737 SStream_concat(O, "#%u", tmp); 1738 1739 if (MI->csh->detail) { 1740 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 1741 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = tmp; 1742 MI->flat_insn->detail->arm.op_count++; 1743 } 1744 } 1745 1746 static void printThumbITMask(MCInst *MI, unsigned OpNum, SStream *O) 1747 { 1748 // (3 - the number of trailing zeros) is the number of then / else. 1749 unsigned Mask = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 1750 unsigned Firstcond = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum-1)); 1751 unsigned CondBit0 = Firstcond & 1; 1752 unsigned NumTZ = CountTrailingZeros_32(Mask); 1753 //assert(NumTZ <= 3 && "Invalid IT mask!"); 1754 unsigned Pos, e; 1755 for (Pos = 3, e = NumTZ; Pos > e; --Pos) { 1756 bool T = ((Mask >> Pos) & 1) == CondBit0; 1757 if (T) 1758 SStream_concat0(O, "t"); 1759 else 1760 SStream_concat0(O, "e"); 1761 } 1762 } 1763 1764 static void printThumbAddrModeRROperand(MCInst *MI, unsigned Op, SStream *O) 1765 { 1766 MCOperand *MO1 = MCInst_getOperand(MI, Op); 1767 MCOperand *MO2 = MCInst_getOperand(MI, Op + 1); 1768 unsigned RegNum; 1769 1770 if (!MCOperand_isReg(MO1)) { // FIXME: This is for CP entries, but isn't right. 1771 printOperand(MI, Op, O); 1772 return; 1773 } 1774 1775 SStream_concat0(O, "["); 1776 set_mem_access(MI, true); 1777 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1778 if (MI->csh->detail) 1779 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1780 RegNum = MCOperand_getReg(MO2); 1781 if (RegNum) { 1782 SStream_concat0(O, ", "); 1783 printRegName(MI->csh, O, RegNum); 1784 if (MI->csh->detail) 1785 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = RegNum; 1786 } 1787 SStream_concat0(O, "]"); 1788 set_mem_access(MI, false); 1789 } 1790 1791 static void printThumbAddrModeImm5SOperand(MCInst *MI, unsigned Op, SStream *O, 1792 unsigned Scale) 1793 { 1794 MCOperand *MO1 = MCInst_getOperand(MI, Op); 1795 MCOperand *MO2 = MCInst_getOperand(MI, Op + 1); 1796 unsigned ImmOffs, tmp; 1797 1798 if (!MCOperand_isReg(MO1)) { // FIXME: This is for CP entries, but isn't right. 1799 printOperand(MI, Op, O); 1800 return; 1801 } 1802 1803 SStream_concat0(O, "["); 1804 set_mem_access(MI, true); 1805 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1806 if (MI->csh->detail) 1807 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1808 ImmOffs = (unsigned int)MCOperand_getImm(MO2); 1809 if (ImmOffs) { 1810 tmp = ImmOffs * Scale; 1811 SStream_concat0(O, ", "); 1812 if (tmp > HEX_THRESHOLD) 1813 SStream_concat(O, "#0x%x", tmp); 1814 else 1815 SStream_concat(O, "#%u", tmp); 1816 if (MI->csh->detail) 1817 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = tmp; 1818 } 1819 SStream_concat0(O, "]"); 1820 set_mem_access(MI, false); 1821 } 1822 1823 static void printThumbAddrModeImm5S1Operand(MCInst *MI, unsigned Op, SStream *O) 1824 { 1825 printThumbAddrModeImm5SOperand(MI, Op, O, 1); 1826 } 1827 1828 static void printThumbAddrModeImm5S2Operand(MCInst *MI, unsigned Op, SStream *O) 1829 { 1830 printThumbAddrModeImm5SOperand(MI, Op, O, 2); 1831 } 1832 1833 static void printThumbAddrModeImm5S4Operand(MCInst *MI, unsigned Op, SStream *O) 1834 { 1835 printThumbAddrModeImm5SOperand(MI, Op, O, 4); 1836 } 1837 1838 static void printThumbAddrModeSPOperand(MCInst *MI, unsigned Op, SStream *O) 1839 { 1840 printThumbAddrModeImm5SOperand(MI, Op, O, 4); 1841 } 1842 1843 // Constant shifts t2_so_reg is a 2-operand unit corresponding to the Thumb2 1844 // register with shift forms. 1845 // REG 0 0 - e.g. R5 1846 // REG IMM, SH_OPC - e.g. R5, LSL #3 1847 static void printT2SOOperand(MCInst *MI, unsigned OpNum, SStream *O) 1848 { 1849 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1850 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1851 1852 unsigned Reg = MCOperand_getReg(MO1); 1853 printRegName(MI->csh, O, Reg); 1854 if (MI->csh->detail) { 1855 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 1856 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg; 1857 MI->flat_insn->detail->arm.op_count++; 1858 } 1859 1860 // Print the shift opc. 1861 //assert(MO2.isImm() && "Not a valid t2_so_reg value!"); 1862 printRegImmShift(MI, O, ARM_AM_getSORegShOp((unsigned int)MCOperand_getImm(MO2)), 1863 getSORegOffset((unsigned int)MCOperand_getImm(MO2))); 1864 } 1865 1866 static void printAddrModeImm12Operand(MCInst *MI, unsigned OpNum, 1867 SStream *O, bool AlwaysPrintImm0) 1868 { 1869 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1870 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1871 int32_t OffImm; 1872 bool isSub; 1873 1874 if (!MCOperand_isReg(MO1)) { // FIXME: This is for CP entries, but isn't right. 1875 printOperand(MI, OpNum, O); 1876 return; 1877 } 1878 1879 SStream_concat0(O, "["); 1880 set_mem_access(MI, true); 1881 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1882 1883 if (MI->csh->detail) 1884 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1885 1886 OffImm = (int32_t)MCOperand_getImm(MO2); 1887 isSub = OffImm < 0; 1888 // Special value for #-0. All others are normal. 1889 if (OffImm == INT32_MIN) 1890 OffImm = 0; 1891 if (isSub) { 1892 if (OffImm < -HEX_THRESHOLD) 1893 SStream_concat(O, ", #-0x%x", -OffImm); 1894 else 1895 SStream_concat(O, ", #-%u", -OffImm); 1896 } else if (AlwaysPrintImm0 || OffImm > 0) { 1897 if (OffImm >= 0) { 1898 if (OffImm > HEX_THRESHOLD) 1899 SStream_concat(O, ", #0x%x", OffImm); 1900 else 1901 SStream_concat(O, ", #%u", OffImm); 1902 } else { 1903 if (OffImm < -HEX_THRESHOLD) 1904 SStream_concat(O, ", #-0x%x", -OffImm); 1905 else 1906 SStream_concat(O, ", #-%u", -OffImm); 1907 } 1908 } 1909 if (MI->csh->detail) 1910 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = OffImm; 1911 SStream_concat0(O, "]"); 1912 set_mem_access(MI, false); 1913 } 1914 1915 static void printT2AddrModeImm8Operand(MCInst *MI, unsigned OpNum, SStream *O, 1916 bool AlwaysPrintImm0) 1917 { 1918 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1919 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1920 int32_t OffImm; 1921 bool isSub; 1922 1923 SStream_concat0(O, "["); 1924 set_mem_access(MI, true); 1925 1926 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1927 if (MI->csh->detail) 1928 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1929 1930 OffImm = (int32_t)MCOperand_getImm(MO2); 1931 isSub = OffImm < 0; 1932 // Don't print +0. 1933 if (OffImm == INT32_MIN) 1934 OffImm = 0; 1935 1936 if (isSub) 1937 SStream_concat(O, ", #-0x%x", -OffImm); 1938 else if (AlwaysPrintImm0 || OffImm > 0) { 1939 if (OffImm > HEX_THRESHOLD) 1940 SStream_concat(O, ", #0x%x", OffImm); 1941 else 1942 SStream_concat(O, ", #%u", OffImm); 1943 } 1944 1945 if (MI->csh->detail) 1946 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = OffImm; 1947 SStream_concat0(O, "]"); 1948 set_mem_access(MI, false); 1949 } 1950 1951 static void printT2AddrModeImm8s4Operand(MCInst *MI, 1952 unsigned OpNum, SStream *O, bool AlwaysPrintImm0) 1953 { 1954 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1955 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1956 int32_t OffImm; 1957 bool isSub; 1958 1959 if (!MCOperand_isReg(MO1)) { // For label symbolic references. 1960 printOperand(MI, OpNum, O); 1961 return; 1962 } 1963 1964 SStream_concat0(O, "["); 1965 set_mem_access(MI, true); 1966 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 1967 if (MI->csh->detail) 1968 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 1969 1970 OffImm = (int32_t)MCOperand_getImm(MO2); 1971 isSub = OffImm < 0; 1972 1973 //assert(((OffImm & 0x3) == 0) && "Not a valid immediate!"); 1974 1975 // Don't print +0. 1976 if (OffImm == INT32_MIN) 1977 OffImm = 0; 1978 if (isSub) { 1979 SStream_concat(O, ", #-0x%x", -OffImm); 1980 } else if (AlwaysPrintImm0 || OffImm > 0) { 1981 if (OffImm > HEX_THRESHOLD) 1982 SStream_concat(O, ", #0x%x", OffImm); 1983 else 1984 SStream_concat(O, ", #%u", OffImm); 1985 } 1986 if (MI->csh->detail) 1987 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = OffImm; 1988 1989 SStream_concat0(O, "]"); 1990 set_mem_access(MI, false); 1991 } 1992 1993 static void printT2AddrModeImm0_1020s4Operand(MCInst *MI, unsigned OpNum, SStream *O) 1994 { 1995 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 1996 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 1997 unsigned tmp; 1998 1999 SStream_concat0(O, "["); 2000 set_mem_access(MI, true); 2001 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 2002 if (MI->csh->detail) 2003 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 2004 if (MCOperand_getImm(MO2)) { 2005 SStream_concat0(O, ", "); 2006 tmp = (unsigned int)MCOperand_getImm(MO2) * 4; 2007 if (tmp > HEX_THRESHOLD) 2008 SStream_concat(O, "#0x%x", tmp); 2009 else 2010 SStream_concat(O, "#%u", tmp); 2011 if (MI->csh->detail) 2012 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.disp = tmp; 2013 } 2014 SStream_concat0(O, "]"); 2015 set_mem_access(MI, false); 2016 } 2017 2018 static void printT2AddrModeImm8OffsetOperand(MCInst *MI, 2019 unsigned OpNum, SStream *O) 2020 { 2021 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 2022 int32_t OffImm = (int32_t)MCOperand_getImm(MO1); 2023 SStream_concat0(O, ", "); 2024 if (OffImm == INT32_MIN) { 2025 SStream_concat0(O, "#-0"); 2026 if (MI->csh->detail) { 2027 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2028 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = 0; 2029 MI->flat_insn->detail->arm.op_count++; 2030 } 2031 } else { 2032 if (OffImm < 0) { 2033 if (OffImm < -HEX_THRESHOLD) 2034 SStream_concat(O, "#-0x%x", -OffImm); 2035 else 2036 SStream_concat(O, "#-%u", -OffImm); 2037 } else { 2038 if (OffImm > HEX_THRESHOLD) 2039 SStream_concat(O, "#0x%x", OffImm); 2040 else 2041 SStream_concat(O, "#%u", OffImm); 2042 } 2043 if (MI->csh->detail) { 2044 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2045 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = OffImm; 2046 MI->flat_insn->detail->arm.op_count++; 2047 } 2048 } 2049 } 2050 2051 static void printT2AddrModeImm8s4OffsetOperand(MCInst *MI, 2052 unsigned OpNum, SStream *O) 2053 { 2054 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 2055 int32_t OffImm = (int32_t)MCOperand_getImm(MO1); 2056 2057 //assert(((OffImm & 0x3) == 0) && "Not a valid immediate!"); 2058 2059 SStream_concat0(O, ", "); 2060 if (OffImm == INT32_MIN) { 2061 SStream_concat0(O, "#-0"); 2062 if (MI->csh->detail) { 2063 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2064 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = 0; 2065 MI->flat_insn->detail->arm.op_count++; 2066 } 2067 } else { 2068 if (OffImm < 0) { 2069 if (OffImm < -HEX_THRESHOLD) 2070 SStream_concat(O, "#-0x%x", -OffImm); 2071 else 2072 SStream_concat(O, "#-%u", -OffImm); 2073 } else { 2074 if (OffImm > HEX_THRESHOLD) 2075 SStream_concat(O, "#0x%x", OffImm); 2076 else 2077 SStream_concat(O, "#%u", OffImm); 2078 } 2079 if (MI->csh->detail) { 2080 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2081 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = OffImm; 2082 MI->flat_insn->detail->arm.op_count++; 2083 } 2084 } 2085 } 2086 2087 static void printT2AddrModeSoRegOperand(MCInst *MI, 2088 unsigned OpNum, SStream *O) 2089 { 2090 MCOperand *MO1 = MCInst_getOperand(MI, OpNum); 2091 MCOperand *MO2 = MCInst_getOperand(MI, OpNum+1); 2092 MCOperand *MO3 = MCInst_getOperand(MI, OpNum+2); 2093 unsigned ShAmt; 2094 2095 SStream_concat0(O, "["); 2096 set_mem_access(MI, true); 2097 printRegName(MI->csh, O, MCOperand_getReg(MO1)); 2098 if (MI->csh->detail) 2099 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.base = MCOperand_getReg(MO1); 2100 2101 //assert(MCOperand_getReg(MO2.getReg() && "Invalid so_reg load / store address!"); 2102 SStream_concat0(O, ", "); 2103 printRegName(MI->csh, O, MCOperand_getReg(MO2)); 2104 if (MI->csh->detail) 2105 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].mem.index = MCOperand_getReg(MO2); 2106 2107 ShAmt = (unsigned int)MCOperand_getImm(MO3); 2108 if (ShAmt) { 2109 //assert(ShAmt <= 3 && "Not a valid Thumb2 addressing mode!"); 2110 SStream_concat0(O, ", lsl "); 2111 SStream_concat(O, "#%d", ShAmt); 2112 if (MI->csh->detail) { 2113 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = ARM_SFT_LSL; 2114 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = ShAmt; 2115 } 2116 } 2117 2118 SStream_concat0(O, "]"); 2119 set_mem_access(MI, false); 2120 } 2121 2122 static void printFPImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 2123 { 2124 MCOperand *MO = MCInst_getOperand(MI, OpNum); 2125 2126 #if defined(_KERNEL_MODE) 2127 // Issue #681: Windows kernel does not support formatting float point 2128 SStream_concat(O, "#<float_point_unsupported>"); 2129 #else 2130 SStream_concat(O, "#%e", getFPImmFloat((unsigned int)MCOperand_getImm(MO))); 2131 #endif 2132 if (MI->csh->detail) { 2133 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_FP; 2134 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].fp = getFPImmFloat((unsigned int)MCOperand_getImm(MO)); 2135 MI->flat_insn->detail->arm.op_count++; 2136 } 2137 } 2138 2139 static void printNEONModImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 2140 { 2141 unsigned EncodedImm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 2142 unsigned EltBits; 2143 uint64_t Val = ARM_AM_decodeNEONModImm(EncodedImm, &EltBits); 2144 if (Val > HEX_THRESHOLD) 2145 SStream_concat(O, "#0x%"PRIx64, Val); 2146 else 2147 SStream_concat(O, "#%"PRIu64, Val); 2148 if (MI->csh->detail) { 2149 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2150 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = (unsigned int)Val; 2151 MI->flat_insn->detail->arm.op_count++; 2152 } 2153 } 2154 2155 static void printImmPlusOneOperand(MCInst *MI, unsigned OpNum, SStream *O) 2156 { 2157 unsigned Imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 2158 if (Imm + 1 > HEX_THRESHOLD) 2159 SStream_concat(O, "#0x%x", Imm + 1); 2160 else 2161 SStream_concat(O, "#%u", Imm + 1); 2162 if (MI->csh->detail) { 2163 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2164 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = Imm + 1; 2165 MI->flat_insn->detail->arm.op_count++; 2166 } 2167 } 2168 2169 static void printRotImmOperand(MCInst *MI, unsigned OpNum, SStream *O) 2170 { 2171 unsigned Imm = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 2172 if (Imm == 0) 2173 return; 2174 SStream_concat0(O, ", ror #"); 2175 switch (Imm) { 2176 default: //assert (0 && "illegal ror immediate!"); 2177 case 1: SStream_concat0(O, "8"); break; 2178 case 2: SStream_concat0(O, "16"); break; 2179 case 3: SStream_concat0(O, "24"); break; 2180 } 2181 if (MI->csh->detail) { 2182 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.type = ARM_SFT_ROR; 2183 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].shift.value = Imm * 8; 2184 } 2185 } 2186 2187 static void printFBits16(MCInst *MI, unsigned OpNum, SStream *O) 2188 { 2189 unsigned tmp; 2190 2191 tmp = 16 - (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 2192 if (tmp > HEX_THRESHOLD) 2193 SStream_concat(O, "#0x%x", tmp); 2194 else 2195 SStream_concat(O, "#%u", tmp); 2196 if (MI->csh->detail) { 2197 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2198 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = tmp; 2199 MI->flat_insn->detail->arm.op_count++; 2200 } 2201 } 2202 2203 static void printFBits32(MCInst *MI, unsigned OpNum, SStream *O) 2204 { 2205 unsigned tmp; 2206 2207 tmp = 32 - (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 2208 if (tmp > HEX_THRESHOLD) 2209 SStream_concat(O, "#0x%x", tmp); 2210 else 2211 SStream_concat(O, "#%u", tmp); 2212 if (MI->csh->detail) { 2213 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_IMM; 2214 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].imm = tmp; 2215 MI->flat_insn->detail->arm.op_count++; 2216 } 2217 } 2218 2219 static void printVectorIndex(MCInst *MI, unsigned OpNum, SStream *O) 2220 { 2221 unsigned tmp = (unsigned int)MCOperand_getImm(MCInst_getOperand(MI, OpNum)); 2222 if (tmp > HEX_THRESHOLD) 2223 SStream_concat(O, "[0x%x]",tmp); 2224 else 2225 SStream_concat(O, "[%u]",tmp); 2226 if (MI->csh->detail) { 2227 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count - 1].vector_index = tmp; 2228 } 2229 } 2230 2231 static void printVectorListOne(MCInst *MI, unsigned OpNum, SStream *O) 2232 { 2233 SStream_concat0(O, "{"); 2234 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2235 if (MI->csh->detail) { 2236 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2237 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2238 MI->flat_insn->detail->arm.op_count++; 2239 } 2240 SStream_concat0(O, "}"); 2241 } 2242 2243 static void printVectorListTwo(MCInst *MI, unsigned OpNum, 2244 SStream *O, MCRegisterInfo *MRI) 2245 { 2246 unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2247 unsigned Reg0 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_0); 2248 unsigned Reg1 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_1); 2249 SStream_concat0(O, "{"); 2250 printRegName(MI->csh, O, Reg0); 2251 if (MI->csh->detail) { 2252 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2253 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg0; 2254 MI->flat_insn->detail->arm.op_count++; 2255 } 2256 SStream_concat0(O, ", "); 2257 printRegName(MI->csh, O, Reg1); 2258 if (MI->csh->detail) { 2259 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2260 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg1; 2261 MI->flat_insn->detail->arm.op_count++; 2262 } 2263 SStream_concat0(O, "}"); 2264 } 2265 2266 static void printVectorListTwoSpaced(MCInst *MI, unsigned OpNum, 2267 SStream *O, MCRegisterInfo *MRI) 2268 { 2269 unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2270 unsigned Reg0 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_0); 2271 unsigned Reg1 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_2); 2272 SStream_concat0(O, "{"); 2273 printRegName(MI->csh, O, Reg0); 2274 if (MI->csh->detail) { 2275 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2276 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg0; 2277 MI->flat_insn->detail->arm.op_count++; 2278 } 2279 SStream_concat0(O, ", "); 2280 printRegName(MI->csh, O, Reg1); 2281 if (MI->csh->detail) { 2282 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2283 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg1; 2284 MI->flat_insn->detail->arm.op_count++; 2285 } 2286 SStream_concat0(O, "}"); 2287 } 2288 2289 static void printVectorListThree(MCInst *MI, unsigned OpNum, SStream *O) 2290 { 2291 // Normally, it's not safe to use register enum values directly with 2292 // addition to get the next register, but for VFP registers, the 2293 // sort order is guaranteed because they're all of the form D<n>. 2294 SStream_concat0(O, "{"); 2295 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2296 if (MI->csh->detail) { 2297 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2298 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2299 MI->flat_insn->detail->arm.op_count++; 2300 } 2301 SStream_concat0(O, ", "); 2302 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1); 2303 if (MI->csh->detail) { 2304 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2305 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1; 2306 MI->flat_insn->detail->arm.op_count++; 2307 } 2308 SStream_concat0(O, ", "); 2309 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2310 if (MI->csh->detail) { 2311 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2312 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2313 MI->flat_insn->detail->arm.op_count++; 2314 } 2315 SStream_concat0(O, "}"); 2316 } 2317 2318 static void printVectorListFour(MCInst *MI, unsigned OpNum, SStream *O) 2319 { 2320 // Normally, it's not safe to use register enum values directly with 2321 // addition to get the next register, but for VFP registers, the 2322 // sort order is guaranteed because they're all of the form D<n>. 2323 SStream_concat0(O, "{"); 2324 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2325 if (MI->csh->detail) { 2326 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2327 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2328 MI->flat_insn->detail->arm.op_count++; 2329 } 2330 SStream_concat0(O, ", "); 2331 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1); 2332 if (MI->csh->detail) { 2333 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2334 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1; 2335 MI->flat_insn->detail->arm.op_count++; 2336 } 2337 SStream_concat0(O, ", "); 2338 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2339 if (MI->csh->detail) { 2340 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2341 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2342 MI->flat_insn->detail->arm.op_count++; 2343 } 2344 SStream_concat0(O, ", "); 2345 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 3); 2346 if (MI->csh->detail) { 2347 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2348 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 3; 2349 MI->flat_insn->detail->arm.op_count++; 2350 } 2351 SStream_concat0(O, "}"); 2352 } 2353 2354 static void printVectorListOneAllLanes(MCInst *MI, unsigned OpNum, SStream *O) 2355 { 2356 SStream_concat0(O, "{"); 2357 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2358 if (MI->csh->detail) { 2359 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2360 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2361 MI->flat_insn->detail->arm.op_count++; 2362 } 2363 SStream_concat0(O, "[]}"); 2364 } 2365 2366 static void printVectorListTwoAllLanes(MCInst *MI, unsigned OpNum, 2367 SStream *O, MCRegisterInfo *MRI) 2368 { 2369 unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2370 unsigned Reg0 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_0); 2371 unsigned Reg1 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_1); 2372 SStream_concat0(O, "{"); 2373 printRegName(MI->csh, O, Reg0); 2374 if (MI->csh->detail) { 2375 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2376 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg0; 2377 MI->flat_insn->detail->arm.op_count++; 2378 } 2379 SStream_concat0(O, "[], "); 2380 printRegName(MI->csh, O, Reg1); 2381 if (MI->csh->detail) { 2382 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2383 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg1; 2384 MI->flat_insn->detail->arm.op_count++; 2385 } 2386 SStream_concat0(O, "[]}"); 2387 } 2388 2389 static void printVectorListThreeAllLanes(MCInst *MI, unsigned OpNum, SStream *O) 2390 { 2391 // Normally, it's not safe to use register enum values directly with 2392 // addition to get the next register, but for VFP registers, the 2393 // sort order is guaranteed because they're all of the form D<n>. 2394 SStream_concat0(O, "{"); 2395 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2396 if (MI->csh->detail) { 2397 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2398 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2399 MI->flat_insn->detail->arm.op_count++; 2400 } 2401 SStream_concat0(O, "[], "); 2402 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1); 2403 if (MI->csh->detail) { 2404 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2405 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1; 2406 MI->flat_insn->detail->arm.op_count++; 2407 } 2408 SStream_concat0(O, "[], "); 2409 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2410 if (MI->csh->detail) { 2411 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2412 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2413 MI->flat_insn->detail->arm.op_count++; 2414 } 2415 SStream_concat0(O, "[]}"); 2416 } 2417 2418 static void printVectorListFourAllLanes(MCInst *MI, unsigned OpNum, SStream *O) 2419 { 2420 // Normally, it's not safe to use register enum values directly with 2421 // addition to get the next register, but for VFP registers, the 2422 // sort order is guaranteed because they're all of the form D<n>. 2423 SStream_concat0(O, "{"); 2424 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2425 if (MI->csh->detail) { 2426 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2427 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2428 MI->flat_insn->detail->arm.op_count++; 2429 } 2430 SStream_concat0(O, "[], "); 2431 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1); 2432 if (MI->csh->detail) { 2433 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2434 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 1; 2435 MI->flat_insn->detail->arm.op_count++; 2436 } 2437 SStream_concat0(O, "[], "); 2438 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2439 if (MI->csh->detail) { 2440 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2441 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2442 MI->flat_insn->detail->arm.op_count++; 2443 } 2444 SStream_concat0(O, "[], "); 2445 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 3); 2446 if (MI->csh->detail) { 2447 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2448 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 3; 2449 MI->flat_insn->detail->arm.op_count++; 2450 } 2451 SStream_concat0(O, "[]}"); 2452 } 2453 2454 static void printVectorListTwoSpacedAllLanes(MCInst *MI, 2455 unsigned OpNum, SStream *O, MCRegisterInfo *MRI) 2456 { 2457 unsigned Reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2458 unsigned Reg0 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_0); 2459 unsigned Reg1 = MCRegisterInfo_getSubReg(MRI, Reg, ARM_dsub_2); 2460 SStream_concat0(O, "{"); 2461 printRegName(MI->csh, O, Reg0); 2462 if (MI->csh->detail) { 2463 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2464 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg0; 2465 MI->flat_insn->detail->arm.op_count++; 2466 } 2467 SStream_concat0(O, "[], "); 2468 printRegName(MI->csh, O, Reg1); 2469 if (MI->csh->detail) { 2470 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2471 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = Reg1; 2472 MI->flat_insn->detail->arm.op_count++; 2473 } 2474 SStream_concat0(O, "[]}"); 2475 } 2476 2477 static void printVectorListThreeSpacedAllLanes(MCInst *MI, 2478 unsigned OpNum, SStream *O) 2479 { 2480 // Normally, it's not safe to use register enum values directly with 2481 // addition to get the next register, but for VFP registers, the 2482 // sort order is guaranteed because they're all of the form D<n>. 2483 SStream_concat0(O, "{"); 2484 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2485 if (MI->csh->detail) { 2486 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2487 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2488 MI->flat_insn->detail->arm.op_count++; 2489 } 2490 SStream_concat0(O, "[], "); 2491 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2492 if (MI->csh->detail) { 2493 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2494 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2495 MI->flat_insn->detail->arm.op_count++; 2496 } 2497 SStream_concat0(O, "[], "); 2498 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4); 2499 if (MI->csh->detail) { 2500 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2501 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4; 2502 MI->flat_insn->detail->arm.op_count++; 2503 } 2504 SStream_concat0(O, "[]}"); 2505 } 2506 2507 static void printVectorListFourSpacedAllLanes(MCInst *MI, 2508 unsigned OpNum, SStream *O) 2509 { 2510 // Normally, it's not safe to use register enum values directly with 2511 // addition to get the next register, but for VFP registers, the 2512 // sort order is guaranteed because they're all of the form D<n>. 2513 SStream_concat0(O, "{"); 2514 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2515 if (MI->csh->detail) { 2516 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2517 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2518 MI->flat_insn->detail->arm.op_count++; 2519 } 2520 SStream_concat0(O, "[], "); 2521 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2522 if (MI->csh->detail) { 2523 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2524 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2525 MI->flat_insn->detail->arm.op_count++; 2526 } 2527 SStream_concat0(O, "[], "); 2528 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4); 2529 if (MI->csh->detail) { 2530 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2531 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4; 2532 MI->flat_insn->detail->arm.op_count++; 2533 } 2534 SStream_concat0(O, "[], "); 2535 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 6); 2536 if (MI->csh->detail) { 2537 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2538 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 6; 2539 MI->flat_insn->detail->arm.op_count++; 2540 } 2541 SStream_concat0(O, "[]}"); 2542 } 2543 2544 static void printVectorListThreeSpaced(MCInst *MI, unsigned OpNum, SStream *O) 2545 { 2546 // Normally, it's not safe to use register enum values directly with 2547 // addition to get the next register, but for VFP registers, the 2548 // sort order is guaranteed because they're all of the form D<n>. 2549 SStream_concat0(O, "{"); 2550 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2551 if (MI->csh->detail) { 2552 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2553 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2554 MI->flat_insn->detail->arm.op_count++; 2555 } 2556 SStream_concat0(O, ", "); 2557 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2558 if (MI->csh->detail) { 2559 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2560 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2561 MI->flat_insn->detail->arm.op_count++; 2562 } 2563 SStream_concat0(O, ", "); 2564 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4); 2565 if (MI->csh->detail) { 2566 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2567 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4; 2568 MI->flat_insn->detail->arm.op_count++; 2569 } 2570 SStream_concat0(O, "}"); 2571 } 2572 2573 static void printVectorListFourSpaced(MCInst *MI, unsigned OpNum, SStream *O) 2574 { 2575 // Normally, it's not safe to use register enum values directly with 2576 // addition to get the next register, but for VFP registers, the 2577 // sort order is guaranteed because they're all of the form D<n>. 2578 SStream_concat0(O, "{"); 2579 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum))); 2580 if (MI->csh->detail) { 2581 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2582 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)); 2583 MI->flat_insn->detail->arm.op_count++; 2584 } 2585 SStream_concat0(O, ", "); 2586 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2); 2587 if (MI->csh->detail) { 2588 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2589 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 2; 2590 MI->flat_insn->detail->arm.op_count++; 2591 } 2592 SStream_concat0(O, ", "); 2593 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4); 2594 if (MI->csh->detail) { 2595 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2596 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 4; 2597 MI->flat_insn->detail->arm.op_count++; 2598 } 2599 SStream_concat0(O, ", "); 2600 printRegName(MI->csh, O, MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 6); 2601 if (MI->csh->detail) { 2602 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2603 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = MCOperand_getReg(MCInst_getOperand(MI, OpNum)) + 6; 2604 MI->flat_insn->detail->arm.op_count++; 2605 } 2606 SStream_concat0(O, "}"); 2607 } 2608 2609 void ARM_addVectorDataType(MCInst *MI, arm_vectordata_type vd) 2610 { 2611 if (MI->csh->detail) { 2612 MI->flat_insn->detail->arm.vector_data = vd; 2613 } 2614 } 2615 2616 void ARM_addVectorDataSize(MCInst *MI, int size) 2617 { 2618 if (MI->csh->detail) { 2619 MI->flat_insn->detail->arm.vector_size = size; 2620 } 2621 } 2622 2623 void ARM_addReg(MCInst *MI, int reg) 2624 { 2625 if (MI->csh->detail) { 2626 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_REG; 2627 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = reg; 2628 MI->flat_insn->detail->arm.op_count++; 2629 } 2630 } 2631 2632 void ARM_addUserMode(MCInst *MI) 2633 { 2634 if (MI->csh->detail) { 2635 MI->flat_insn->detail->arm.usermode = true; 2636 } 2637 } 2638 2639 void ARM_addSysReg(MCInst *MI, arm_sysreg reg) 2640 { 2641 if (MI->csh->detail) { 2642 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].type = ARM_OP_SYSREG; 2643 MI->flat_insn->detail->arm.operands[MI->flat_insn->detail->arm.op_count].reg = reg; 2644 MI->flat_insn->detail->arm.op_count++; 2645 } 2646 } 2647 2648 #endif 2649