github.com/MangoDowner/go-gm@v0.0.0-20180818020936-8baa2bd4408c/src/cmd/asm/internal/arch/arch.go (about) 1 // Copyright 2015 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 package arch 6 7 import ( 8 "cmd/internal/obj" 9 "cmd/internal/obj/arm" 10 "cmd/internal/obj/arm64" 11 "cmd/internal/obj/mips" 12 "cmd/internal/obj/ppc64" 13 "cmd/internal/obj/s390x" 14 "cmd/internal/obj/x86" 15 "fmt" 16 "strings" 17 ) 18 19 // Pseudo-registers whose names are the constant name without the leading R. 20 const ( 21 RFP = -(iota + 1) 22 RSB 23 RSP 24 RPC 25 ) 26 27 // Arch wraps the link architecture object with more architecture-specific information. 28 type Arch struct { 29 *obj.LinkArch 30 // Map of instruction names to enumeration. 31 Instructions map[string]obj.As 32 // Map of register names to enumeration. 33 Register map[string]int16 34 // Table of register prefix names. These are things like R for R(0) and SPR for SPR(268). 35 RegisterPrefix map[string]bool 36 // RegisterNumber converts R(10) into arm.REG_R10. 37 RegisterNumber func(string, int16) (int16, bool) 38 // Instruction is a jump. 39 IsJump func(word string) bool 40 } 41 42 // nilRegisterNumber is the register number function for architectures 43 // that do not accept the R(N) notation. It always returns failure. 44 func nilRegisterNumber(name string, n int16) (int16, bool) { 45 return 0, false 46 } 47 48 // Set configures the architecture specified by GOARCH and returns its representation. 49 // It returns nil if GOARCH is not recognized. 50 func Set(GOARCH string) *Arch { 51 switch GOARCH { 52 case "386": 53 return archX86(&x86.Link386) 54 case "amd64": 55 return archX86(&x86.Linkamd64) 56 case "amd64p32": 57 return archX86(&x86.Linkamd64p32) 58 case "arm": 59 return archArm() 60 case "arm64": 61 return archArm64() 62 case "mips": 63 a := archMips() 64 a.LinkArch = &mips.Linkmips 65 return a 66 case "mipsle": 67 a := archMips() 68 a.LinkArch = &mips.Linkmipsle 69 return a 70 case "mips64": 71 a := archMips64() 72 a.LinkArch = &mips.Linkmips64 73 return a 74 case "mips64le": 75 a := archMips64() 76 a.LinkArch = &mips.Linkmips64le 77 return a 78 case "ppc64": 79 a := archPPC64() 80 a.LinkArch = &ppc64.Linkppc64 81 return a 82 case "ppc64le": 83 a := archPPC64() 84 a.LinkArch = &ppc64.Linkppc64le 85 return a 86 case "s390x": 87 a := archS390x() 88 a.LinkArch = &s390x.Links390x 89 return a 90 } 91 return nil 92 } 93 94 func jumpX86(word string) bool { 95 return word[0] == 'J' || word == "CALL" || strings.HasPrefix(word, "LOOP") || word == "XBEGIN" 96 } 97 98 func archX86(linkArch *obj.LinkArch) *Arch { 99 register := make(map[string]int16) 100 // Create maps for easy lookup of instruction names etc. 101 for i, s := range x86.Register { 102 register[s] = int16(i + x86.REG_AL) 103 } 104 // Pseudo-registers. 105 register["SB"] = RSB 106 register["FP"] = RFP 107 register["PC"] = RPC 108 // Register prefix not used on this architecture. 109 110 instructions := make(map[string]obj.As) 111 for i, s := range obj.Anames { 112 instructions[s] = obj.As(i) 113 } 114 for i, s := range x86.Anames { 115 if obj.As(i) >= obj.A_ARCHSPECIFIC { 116 instructions[s] = obj.As(i) + obj.ABaseAMD64 117 } 118 } 119 // Annoying aliases. 120 instructions["JA"] = x86.AJHI /* alternate */ 121 instructions["JAE"] = x86.AJCC /* alternate */ 122 instructions["JB"] = x86.AJCS /* alternate */ 123 instructions["JBE"] = x86.AJLS /* alternate */ 124 instructions["JC"] = x86.AJCS /* alternate */ 125 instructions["JCC"] = x86.AJCC /* carry clear (CF = 0) */ 126 instructions["JCS"] = x86.AJCS /* carry set (CF = 1) */ 127 instructions["JE"] = x86.AJEQ /* alternate */ 128 instructions["JEQ"] = x86.AJEQ /* equal (ZF = 1) */ 129 instructions["JG"] = x86.AJGT /* alternate */ 130 instructions["JGE"] = x86.AJGE /* greater than or equal (signed) (SF = OF) */ 131 instructions["JGT"] = x86.AJGT /* greater than (signed) (ZF = 0 && SF = OF) */ 132 instructions["JHI"] = x86.AJHI /* higher (unsigned) (CF = 0 && ZF = 0) */ 133 instructions["JHS"] = x86.AJCC /* alternate */ 134 instructions["JL"] = x86.AJLT /* alternate */ 135 instructions["JLE"] = x86.AJLE /* less than or equal (signed) (ZF = 1 || SF != OF) */ 136 instructions["JLO"] = x86.AJCS /* alternate */ 137 instructions["JLS"] = x86.AJLS /* lower or same (unsigned) (CF = 1 || ZF = 1) */ 138 instructions["JLT"] = x86.AJLT /* less than (signed) (SF != OF) */ 139 instructions["JMI"] = x86.AJMI /* negative (minus) (SF = 1) */ 140 instructions["JNA"] = x86.AJLS /* alternate */ 141 instructions["JNAE"] = x86.AJCS /* alternate */ 142 instructions["JNB"] = x86.AJCC /* alternate */ 143 instructions["JNBE"] = x86.AJHI /* alternate */ 144 instructions["JNC"] = x86.AJCC /* alternate */ 145 instructions["JNE"] = x86.AJNE /* not equal (ZF = 0) */ 146 instructions["JNG"] = x86.AJLE /* alternate */ 147 instructions["JNGE"] = x86.AJLT /* alternate */ 148 instructions["JNL"] = x86.AJGE /* alternate */ 149 instructions["JNLE"] = x86.AJGT /* alternate */ 150 instructions["JNO"] = x86.AJOC /* alternate */ 151 instructions["JNP"] = x86.AJPC /* alternate */ 152 instructions["JNS"] = x86.AJPL /* alternate */ 153 instructions["JNZ"] = x86.AJNE /* alternate */ 154 instructions["JO"] = x86.AJOS /* alternate */ 155 instructions["JOC"] = x86.AJOC /* overflow clear (OF = 0) */ 156 instructions["JOS"] = x86.AJOS /* overflow set (OF = 1) */ 157 instructions["JP"] = x86.AJPS /* alternate */ 158 instructions["JPC"] = x86.AJPC /* parity clear (PF = 0) */ 159 instructions["JPE"] = x86.AJPS /* alternate */ 160 instructions["JPL"] = x86.AJPL /* non-negative (plus) (SF = 0) */ 161 instructions["JPO"] = x86.AJPC /* alternate */ 162 instructions["JPS"] = x86.AJPS /* parity set (PF = 1) */ 163 instructions["JS"] = x86.AJMI /* alternate */ 164 instructions["JZ"] = x86.AJEQ /* alternate */ 165 instructions["MASKMOVDQU"] = x86.AMASKMOVOU 166 instructions["MOVD"] = x86.AMOVQ 167 instructions["MOVDQ2Q"] = x86.AMOVQ 168 instructions["MOVNTDQ"] = x86.AMOVNTO 169 instructions["MOVOA"] = x86.AMOVO 170 instructions["PSLLDQ"] = x86.APSLLO 171 instructions["PSRLDQ"] = x86.APSRLO 172 instructions["PADDD"] = x86.APADDL 173 174 return &Arch{ 175 LinkArch: linkArch, 176 Instructions: instructions, 177 Register: register, 178 RegisterPrefix: nil, 179 RegisterNumber: nilRegisterNumber, 180 IsJump: jumpX86, 181 } 182 } 183 184 func archArm() *Arch { 185 register := make(map[string]int16) 186 // Create maps for easy lookup of instruction names etc. 187 // Note that there is no list of names as there is for x86. 188 for i := arm.REG_R0; i < arm.REG_SPSR; i++ { 189 register[obj.Rconv(i)] = int16(i) 190 } 191 // Avoid unintentionally clobbering g using R10. 192 delete(register, "R10") 193 register["g"] = arm.REG_R10 194 for i := 0; i < 16; i++ { 195 register[fmt.Sprintf("C%d", i)] = int16(i) 196 } 197 198 // Pseudo-registers. 199 register["SB"] = RSB 200 register["FP"] = RFP 201 register["PC"] = RPC 202 register["SP"] = RSP 203 registerPrefix := map[string]bool{ 204 "F": true, 205 "R": true, 206 } 207 208 instructions := make(map[string]obj.As) 209 for i, s := range obj.Anames { 210 instructions[s] = obj.As(i) 211 } 212 for i, s := range arm.Anames { 213 if obj.As(i) >= obj.A_ARCHSPECIFIC { 214 instructions[s] = obj.As(i) + obj.ABaseARM 215 } 216 } 217 // Annoying aliases. 218 instructions["B"] = obj.AJMP 219 instructions["BL"] = obj.ACALL 220 // MCR differs from MRC by the way fields of the word are encoded. 221 // (Details in arm.go). Here we add the instruction so parse will find 222 // it, but give it an opcode number known only to us. 223 instructions["MCR"] = aMCR 224 225 return &Arch{ 226 LinkArch: &arm.Linkarm, 227 Instructions: instructions, 228 Register: register, 229 RegisterPrefix: registerPrefix, 230 RegisterNumber: armRegisterNumber, 231 IsJump: jumpArm, 232 } 233 } 234 235 func archArm64() *Arch { 236 register := make(map[string]int16) 237 // Create maps for easy lookup of instruction names etc. 238 // Note that there is no list of names as there is for 386 and amd64. 239 register[obj.Rconv(arm64.REGSP)] = int16(arm64.REGSP) 240 for i := arm64.REG_R0; i <= arm64.REG_R31; i++ { 241 register[obj.Rconv(i)] = int16(i) 242 } 243 for i := arm64.REG_F0; i <= arm64.REG_F31; i++ { 244 register[obj.Rconv(i)] = int16(i) 245 } 246 for i := arm64.REG_V0; i <= arm64.REG_V31; i++ { 247 register[obj.Rconv(i)] = int16(i) 248 } 249 register["LR"] = arm64.REGLINK 250 register["DAIF"] = arm64.REG_DAIF 251 register["NZCV"] = arm64.REG_NZCV 252 register["FPSR"] = arm64.REG_FPSR 253 register["FPCR"] = arm64.REG_FPCR 254 register["SPSR_EL1"] = arm64.REG_SPSR_EL1 255 register["ELR_EL1"] = arm64.REG_ELR_EL1 256 register["SPSR_EL2"] = arm64.REG_SPSR_EL2 257 register["ELR_EL2"] = arm64.REG_ELR_EL2 258 register["CurrentEL"] = arm64.REG_CurrentEL 259 register["SP_EL0"] = arm64.REG_SP_EL0 260 register["SPSel"] = arm64.REG_SPSel 261 register["DAIFSet"] = arm64.REG_DAIFSet 262 register["DAIFClr"] = arm64.REG_DAIFClr 263 // Conditional operators, like EQ, NE, etc. 264 register["EQ"] = arm64.COND_EQ 265 register["NE"] = arm64.COND_NE 266 register["HS"] = arm64.COND_HS 267 register["CS"] = arm64.COND_HS 268 register["LO"] = arm64.COND_LO 269 register["CC"] = arm64.COND_LO 270 register["MI"] = arm64.COND_MI 271 register["PL"] = arm64.COND_PL 272 register["VS"] = arm64.COND_VS 273 register["VC"] = arm64.COND_VC 274 register["HI"] = arm64.COND_HI 275 register["LS"] = arm64.COND_LS 276 register["GE"] = arm64.COND_GE 277 register["LT"] = arm64.COND_LT 278 register["GT"] = arm64.COND_GT 279 register["LE"] = arm64.COND_LE 280 register["AL"] = arm64.COND_AL 281 register["NV"] = arm64.COND_NV 282 // Pseudo-registers. 283 register["SB"] = RSB 284 register["FP"] = RFP 285 register["PC"] = RPC 286 register["SP"] = RSP 287 // Avoid unintentionally clobbering g using R28. 288 delete(register, "R28") 289 register["g"] = arm64.REG_R28 290 registerPrefix := map[string]bool{ 291 "F": true, 292 "R": true, 293 "V": true, 294 } 295 296 instructions := make(map[string]obj.As) 297 for i, s := range obj.Anames { 298 instructions[s] = obj.As(i) 299 } 300 for i, s := range arm64.Anames { 301 if obj.As(i) >= obj.A_ARCHSPECIFIC { 302 instructions[s] = obj.As(i) + obj.ABaseARM64 303 } 304 } 305 // Annoying aliases. 306 instructions["B"] = arm64.AB 307 instructions["BL"] = arm64.ABL 308 309 return &Arch{ 310 LinkArch: &arm64.Linkarm64, 311 Instructions: instructions, 312 Register: register, 313 RegisterPrefix: registerPrefix, 314 RegisterNumber: arm64RegisterNumber, 315 IsJump: jumpArm64, 316 } 317 318 } 319 320 func archPPC64() *Arch { 321 register := make(map[string]int16) 322 // Create maps for easy lookup of instruction names etc. 323 // Note that there is no list of names as there is for x86. 324 for i := ppc64.REG_R0; i <= ppc64.REG_R31; i++ { 325 register[obj.Rconv(i)] = int16(i) 326 } 327 for i := ppc64.REG_F0; i <= ppc64.REG_F31; i++ { 328 register[obj.Rconv(i)] = int16(i) 329 } 330 for i := ppc64.REG_V0; i <= ppc64.REG_V31; i++ { 331 register[obj.Rconv(i)] = int16(i) 332 } 333 for i := ppc64.REG_VS0; i <= ppc64.REG_VS63; i++ { 334 register[obj.Rconv(i)] = int16(i) 335 } 336 for i := ppc64.REG_CR0; i <= ppc64.REG_CR7; i++ { 337 register[obj.Rconv(i)] = int16(i) 338 } 339 for i := ppc64.REG_MSR; i <= ppc64.REG_CR; i++ { 340 register[obj.Rconv(i)] = int16(i) 341 } 342 register["CR"] = ppc64.REG_CR 343 register["XER"] = ppc64.REG_XER 344 register["LR"] = ppc64.REG_LR 345 register["CTR"] = ppc64.REG_CTR 346 register["FPSCR"] = ppc64.REG_FPSCR 347 register["MSR"] = ppc64.REG_MSR 348 // Pseudo-registers. 349 register["SB"] = RSB 350 register["FP"] = RFP 351 register["PC"] = RPC 352 // Avoid unintentionally clobbering g using R30. 353 delete(register, "R30") 354 register["g"] = ppc64.REG_R30 355 registerPrefix := map[string]bool{ 356 "CR": true, 357 "F": true, 358 "R": true, 359 "SPR": true, 360 } 361 362 instructions := make(map[string]obj.As) 363 for i, s := range obj.Anames { 364 instructions[s] = obj.As(i) 365 } 366 for i, s := range ppc64.Anames { 367 if obj.As(i) >= obj.A_ARCHSPECIFIC { 368 instructions[s] = obj.As(i) + obj.ABasePPC64 369 } 370 } 371 // Annoying aliases. 372 instructions["BR"] = ppc64.ABR 373 instructions["BL"] = ppc64.ABL 374 375 return &Arch{ 376 LinkArch: &ppc64.Linkppc64, 377 Instructions: instructions, 378 Register: register, 379 RegisterPrefix: registerPrefix, 380 RegisterNumber: ppc64RegisterNumber, 381 IsJump: jumpPPC64, 382 } 383 } 384 385 func archMips() *Arch { 386 register := make(map[string]int16) 387 // Create maps for easy lookup of instruction names etc. 388 // Note that there is no list of names as there is for x86. 389 for i := mips.REG_R0; i <= mips.REG_R31; i++ { 390 register[obj.Rconv(i)] = int16(i) 391 } 392 393 for i := mips.REG_F0; i <= mips.REG_F31; i++ { 394 register[obj.Rconv(i)] = int16(i) 395 } 396 for i := mips.REG_M0; i <= mips.REG_M31; i++ { 397 register[obj.Rconv(i)] = int16(i) 398 } 399 for i := mips.REG_FCR0; i <= mips.REG_FCR31; i++ { 400 register[obj.Rconv(i)] = int16(i) 401 } 402 register["HI"] = mips.REG_HI 403 register["LO"] = mips.REG_LO 404 // Pseudo-registers. 405 register["SB"] = RSB 406 register["FP"] = RFP 407 register["PC"] = RPC 408 // Avoid unintentionally clobbering g using R30. 409 delete(register, "R30") 410 register["g"] = mips.REG_R30 411 412 registerPrefix := map[string]bool{ 413 "F": true, 414 "FCR": true, 415 "M": true, 416 "R": true, 417 } 418 419 instructions := make(map[string]obj.As) 420 for i, s := range obj.Anames { 421 instructions[s] = obj.As(i) 422 } 423 for i, s := range mips.Anames { 424 if obj.As(i) >= obj.A_ARCHSPECIFIC { 425 instructions[s] = obj.As(i) + obj.ABaseMIPS 426 } 427 } 428 // Annoying alias. 429 instructions["JAL"] = mips.AJAL 430 431 return &Arch{ 432 LinkArch: &mips.Linkmipsle, 433 Instructions: instructions, 434 Register: register, 435 RegisterPrefix: registerPrefix, 436 RegisterNumber: mipsRegisterNumber, 437 IsJump: jumpMIPS, 438 } 439 } 440 441 func archMips64() *Arch { 442 register := make(map[string]int16) 443 // Create maps for easy lookup of instruction names etc. 444 // Note that there is no list of names as there is for x86. 445 for i := mips.REG_R0; i <= mips.REG_R31; i++ { 446 register[obj.Rconv(i)] = int16(i) 447 } 448 for i := mips.REG_F0; i <= mips.REG_F31; i++ { 449 register[obj.Rconv(i)] = int16(i) 450 } 451 for i := mips.REG_M0; i <= mips.REG_M31; i++ { 452 register[obj.Rconv(i)] = int16(i) 453 } 454 for i := mips.REG_FCR0; i <= mips.REG_FCR31; i++ { 455 register[obj.Rconv(i)] = int16(i) 456 } 457 register["HI"] = mips.REG_HI 458 register["LO"] = mips.REG_LO 459 // Pseudo-registers. 460 register["SB"] = RSB 461 register["FP"] = RFP 462 register["PC"] = RPC 463 // Avoid unintentionally clobbering g using R30. 464 delete(register, "R30") 465 register["g"] = mips.REG_R30 466 // Avoid unintentionally clobbering RSB using R28. 467 delete(register, "R28") 468 register["RSB"] = mips.REG_R28 469 registerPrefix := map[string]bool{ 470 "F": true, 471 "FCR": true, 472 "M": true, 473 "R": true, 474 } 475 476 instructions := make(map[string]obj.As) 477 for i, s := range obj.Anames { 478 instructions[s] = obj.As(i) 479 } 480 for i, s := range mips.Anames { 481 if obj.As(i) >= obj.A_ARCHSPECIFIC { 482 instructions[s] = obj.As(i) + obj.ABaseMIPS 483 } 484 } 485 // Annoying alias. 486 instructions["JAL"] = mips.AJAL 487 488 return &Arch{ 489 LinkArch: &mips.Linkmips64, 490 Instructions: instructions, 491 Register: register, 492 RegisterPrefix: registerPrefix, 493 RegisterNumber: mipsRegisterNumber, 494 IsJump: jumpMIPS, 495 } 496 } 497 498 func archS390x() *Arch { 499 register := make(map[string]int16) 500 // Create maps for easy lookup of instruction names etc. 501 // Note that there is no list of names as there is for x86. 502 for i := s390x.REG_R0; i <= s390x.REG_R15; i++ { 503 register[obj.Rconv(i)] = int16(i) 504 } 505 for i := s390x.REG_F0; i <= s390x.REG_F15; i++ { 506 register[obj.Rconv(i)] = int16(i) 507 } 508 for i := s390x.REG_V0; i <= s390x.REG_V31; i++ { 509 register[obj.Rconv(i)] = int16(i) 510 } 511 for i := s390x.REG_AR0; i <= s390x.REG_AR15; i++ { 512 register[obj.Rconv(i)] = int16(i) 513 } 514 register["LR"] = s390x.REG_LR 515 // Pseudo-registers. 516 register["SB"] = RSB 517 register["FP"] = RFP 518 register["PC"] = RPC 519 // Avoid unintentionally clobbering g using R13. 520 delete(register, "R13") 521 register["g"] = s390x.REG_R13 522 registerPrefix := map[string]bool{ 523 "AR": true, 524 "F": true, 525 "R": true, 526 } 527 528 instructions := make(map[string]obj.As) 529 for i, s := range obj.Anames { 530 instructions[s] = obj.As(i) 531 } 532 for i, s := range s390x.Anames { 533 if obj.As(i) >= obj.A_ARCHSPECIFIC { 534 instructions[s] = obj.As(i) + obj.ABaseS390X 535 } 536 } 537 // Annoying aliases. 538 instructions["BR"] = s390x.ABR 539 instructions["BL"] = s390x.ABL 540 541 return &Arch{ 542 LinkArch: &s390x.Links390x, 543 Instructions: instructions, 544 Register: register, 545 RegisterPrefix: registerPrefix, 546 RegisterNumber: s390xRegisterNumber, 547 IsJump: jumpS390x, 548 } 549 }