misc.isa revision 7720
1// -*- mode:c++ -*- 2 3// Copyright (c) 2010 ARM Limited 4// All rights reserved 5// 6// The license below extends only to copyright in the software and shall 7// not be construed as granting a license to any other intellectual 8// property including but not limited to intellectual property relating 9// to a hardware implementation of the functionality of the software 10// licensed hereunder. You may use the software subject to the license 11// terms below provided that you ensure that this notice is replicated 12// unmodified and in its entirety in all distributions of the software, 13// modified or unmodified, in source code or in binary form. 14// 15// Redistribution and use in source and binary forms, with or without 16// modification, are permitted provided that the following conditions are 17// met: redistributions of source code must retain the above copyright 18// notice, this list of conditions and the following disclaimer; 19// redistributions in binary form must reproduce the above copyright 20// notice, this list of conditions and the following disclaimer in the 21// documentation and/or other materials provided with the distribution; 22// neither the name of the copyright holders nor the names of its 23// contributors may be used to endorse or promote products derived from 24// this software without specific prior written permission. 25// 26// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 27// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 28// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 29// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 30// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 31// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 32// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 33// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 34// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 35// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 36// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 37// 38// Authors: Gabe Black 39 40let {{ 41 42 svcCode = ''' 43#if FULL_SYSTEM 44 fault = new SupervisorCall; 45#else 46 fault = new SupervisorCall(machInst); 47#endif 48 ''' 49 50 svcIop = InstObjParams("svc", "Svc", "PredOp", 51 { "code": svcCode, 52 "predicate_test": predicateTest }, ["IsSyscall"]) 53 header_output = BasicDeclare.subst(svcIop) 54 decoder_output = BasicConstructor.subst(svcIop) 55 exec_output = PredOpExecute.subst(svcIop) 56 57}}; 58 59let {{ 60 61 header_output = decoder_output = exec_output = "" 62 63 mrsCpsrCode = "Dest = (Cpsr | CondCodes) & 0xF8FF03DF" 64 mrsCpsrIop = InstObjParams("mrs", "MrsCpsr", "MrsOp", 65 { "code": mrsCpsrCode, 66 "predicate_test": condPredicateTest }, 67 ["IsSerializeAfter"]) 68 header_output += MrsDeclare.subst(mrsCpsrIop) 69 decoder_output += MrsConstructor.subst(mrsCpsrIop) 70 exec_output += PredOpExecute.subst(mrsCpsrIop) 71 72 mrsSpsrCode = "Dest = Spsr" 73 mrsSpsrIop = InstObjParams("mrs", "MrsSpsr", "MrsOp", 74 { "code": mrsSpsrCode, 75 "predicate_test": predicateTest }, 76 ["IsSerializeAfter"]) 77 header_output += MrsDeclare.subst(mrsSpsrIop) 78 decoder_output += MrsConstructor.subst(mrsSpsrIop) 79 exec_output += PredOpExecute.subst(mrsSpsrIop) 80 81 msrCpsrRegCode = ''' 82 SCTLR sctlr = Sctlr; 83 uint32_t newCpsr = 84 cpsrWriteByInstr(Cpsr | CondCodes, Op1, byteMask, false, sctlr.nmfi); 85 Cpsr = ~CondCodesMask & newCpsr; 86 ArmISA::PCState pc = PCS; 87 pc.nextThumb(((CPSR)newCpsr).t); 88 pc.nextJazelle(((CPSR)newCpsr).j); 89 PCS = pc; 90 CondCodes = CondCodesMask & newCpsr; 91 ''' 92 msrCpsrRegIop = InstObjParams("msr", "MsrCpsrReg", "MsrRegOp", 93 { "code": msrCpsrRegCode, 94 "predicate_test": condPredicateTest }, 95 ["IsSerializeAfter","IsNonSpeculative"]) 96 header_output += MsrRegDeclare.subst(msrCpsrRegIop) 97 decoder_output += MsrRegConstructor.subst(msrCpsrRegIop) 98 exec_output += PredOpExecute.subst(msrCpsrRegIop) 99 100 msrSpsrRegCode = "Spsr = spsrWriteByInstr(Spsr, Op1, byteMask, false);" 101 msrSpsrRegIop = InstObjParams("msr", "MsrSpsrReg", "MsrRegOp", 102 { "code": msrSpsrRegCode, 103 "predicate_test": predicateTest }, 104 ["IsSerializeAfter","IsNonSpeculative"]) 105 header_output += MsrRegDeclare.subst(msrSpsrRegIop) 106 decoder_output += MsrRegConstructor.subst(msrSpsrRegIop) 107 exec_output += PredOpExecute.subst(msrSpsrRegIop) 108 109 msrCpsrImmCode = ''' 110 SCTLR sctlr = Sctlr; 111 uint32_t newCpsr = 112 cpsrWriteByInstr(Cpsr | CondCodes, imm, byteMask, false, sctlr.nmfi); 113 Cpsr = ~CondCodesMask & newCpsr; 114 ArmISA::PCState pc = PCS; 115 pc.nextThumb(((CPSR)newCpsr).t); 116 pc.nextJazelle(((CPSR)newCpsr).j); 117 PCS = pc; 118 CondCodes = CondCodesMask & newCpsr; 119 ''' 120 msrCpsrImmIop = InstObjParams("msr", "MsrCpsrImm", "MsrImmOp", 121 { "code": msrCpsrImmCode, 122 "predicate_test": condPredicateTest }, 123 ["IsSerializeAfter","IsNonSpeculative"]) 124 header_output += MsrImmDeclare.subst(msrCpsrImmIop) 125 decoder_output += MsrImmConstructor.subst(msrCpsrImmIop) 126 exec_output += PredOpExecute.subst(msrCpsrImmIop) 127 128 msrSpsrImmCode = "Spsr = spsrWriteByInstr(Spsr, imm, byteMask, false);" 129 msrSpsrImmIop = InstObjParams("msr", "MsrSpsrImm", "MsrImmOp", 130 { "code": msrSpsrImmCode, 131 "predicate_test": predicateTest }, 132 ["IsSerializeAfter","IsNonSpeculative"]) 133 header_output += MsrImmDeclare.subst(msrSpsrImmIop) 134 decoder_output += MsrImmConstructor.subst(msrSpsrImmIop) 135 exec_output += PredOpExecute.subst(msrSpsrImmIop) 136 137 revCode = ''' 138 uint32_t val = Op1; 139 Dest = swap_byte(val); 140 ''' 141 revIop = InstObjParams("rev", "Rev", "RegRegOp", 142 { "code": revCode, 143 "predicate_test": predicateTest }, []) 144 header_output += RegRegOpDeclare.subst(revIop) 145 decoder_output += RegRegOpConstructor.subst(revIop) 146 exec_output += PredOpExecute.subst(revIop) 147 148 rev16Code = ''' 149 uint32_t val = Op1; 150 Dest = (bits(val, 15, 8) << 0) | 151 (bits(val, 7, 0) << 8) | 152 (bits(val, 31, 24) << 16) | 153 (bits(val, 23, 16) << 24); 154 ''' 155 rev16Iop = InstObjParams("rev16", "Rev16", "RegRegOp", 156 { "code": rev16Code, 157 "predicate_test": predicateTest }, []) 158 header_output += RegRegOpDeclare.subst(rev16Iop) 159 decoder_output += RegRegOpConstructor.subst(rev16Iop) 160 exec_output += PredOpExecute.subst(rev16Iop) 161 162 revshCode = ''' 163 uint16_t val = Op1; 164 Dest = sext<16>(swap_byte(val)); 165 ''' 166 revshIop = InstObjParams("revsh", "Revsh", "RegRegOp", 167 { "code": revshCode, 168 "predicate_test": predicateTest }, []) 169 header_output += RegRegOpDeclare.subst(revshIop) 170 decoder_output += RegRegOpConstructor.subst(revshIop) 171 exec_output += PredOpExecute.subst(revshIop) 172 173 rbitCode = ''' 174 uint8_t *opBytes = (uint8_t *)&Op1; 175 uint32_t resTemp; 176 uint8_t *destBytes = (uint8_t *)&resTemp; 177 // This reverses the bytes and bits of the input, or so says the 178 // internet. 179 for (int i = 0; i < 4; i++) { 180 uint32_t temp = opBytes[i]; 181 temp = (temp * 0x0802 & 0x22110) | (temp * 0x8020 & 0x88440); 182 destBytes[3 - i] = (temp * 0x10101) >> 16; 183 } 184 Dest = resTemp; 185 ''' 186 rbitIop = InstObjParams("rbit", "Rbit", "RegRegOp", 187 { "code": rbitCode, 188 "predicate_test": predicateTest }, []) 189 header_output += RegRegOpDeclare.subst(rbitIop) 190 decoder_output += RegRegOpConstructor.subst(rbitIop) 191 exec_output += PredOpExecute.subst(rbitIop) 192 193 clzCode = ''' 194 Dest = (Op1 == 0) ? 32 : (31 - findMsbSet(Op1)); 195 ''' 196 clzIop = InstObjParams("clz", "Clz", "RegRegOp", 197 { "code": clzCode, 198 "predicate_test": predicateTest }, []) 199 header_output += RegRegOpDeclare.subst(clzIop) 200 decoder_output += RegRegOpConstructor.subst(clzIop) 201 exec_output += PredOpExecute.subst(clzIop) 202 203 ssatCode = ''' 204 int32_t operand = shift_rm_imm(Op1, shiftAmt, shiftType, 0); 205 int32_t res; 206 if (satInt(res, operand, imm)) 207 CondCodes = CondCodes | (1 << 27); 208 else 209 CondCodes = CondCodes; 210 Dest = res; 211 ''' 212 ssatIop = InstObjParams("ssat", "Ssat", "RegImmRegShiftOp", 213 { "code": ssatCode, 214 "predicate_test": condPredicateTest }, []) 215 header_output += RegImmRegShiftOpDeclare.subst(ssatIop) 216 decoder_output += RegImmRegShiftOpConstructor.subst(ssatIop) 217 exec_output += PredOpExecute.subst(ssatIop) 218 219 usatCode = ''' 220 int32_t operand = shift_rm_imm(Op1, shiftAmt, shiftType, 0); 221 int32_t res; 222 if (uSatInt(res, operand, imm)) 223 CondCodes = CondCodes | (1 << 27); 224 else 225 CondCodes = CondCodes; 226 Dest = res; 227 ''' 228 usatIop = InstObjParams("usat", "Usat", "RegImmRegShiftOp", 229 { "code": usatCode, 230 "predicate_test": condPredicateTest }, []) 231 header_output += RegImmRegShiftOpDeclare.subst(usatIop) 232 decoder_output += RegImmRegShiftOpConstructor.subst(usatIop) 233 exec_output += PredOpExecute.subst(usatIop) 234 235 ssat16Code = ''' 236 int32_t res; 237 uint32_t resTemp = 0; 238 CondCodes = CondCodes; 239 int32_t argLow = sext<16>(bits(Op1, 15, 0)); 240 int32_t argHigh = sext<16>(bits(Op1, 31, 16)); 241 if (satInt(res, argLow, imm)) 242 CondCodes = CondCodes | (1 << 27); 243 replaceBits(resTemp, 15, 0, res); 244 if (satInt(res, argHigh, imm)) 245 CondCodes = CondCodes | (1 << 27); 246 replaceBits(resTemp, 31, 16, res); 247 Dest = resTemp; 248 ''' 249 ssat16Iop = InstObjParams("ssat16", "Ssat16", "RegImmRegOp", 250 { "code": ssat16Code, 251 "predicate_test": condPredicateTest }, []) 252 header_output += RegImmRegOpDeclare.subst(ssat16Iop) 253 decoder_output += RegImmRegOpConstructor.subst(ssat16Iop) 254 exec_output += PredOpExecute.subst(ssat16Iop) 255 256 usat16Code = ''' 257 int32_t res; 258 uint32_t resTemp = 0; 259 CondCodes = CondCodes; 260 int32_t argLow = sext<16>(bits(Op1, 15, 0)); 261 int32_t argHigh = sext<16>(bits(Op1, 31, 16)); 262 if (uSatInt(res, argLow, imm)) 263 CondCodes = CondCodes | (1 << 27); 264 replaceBits(resTemp, 15, 0, res); 265 if (uSatInt(res, argHigh, imm)) 266 CondCodes = CondCodes | (1 << 27); 267 replaceBits(resTemp, 31, 16, res); 268 Dest = resTemp; 269 ''' 270 usat16Iop = InstObjParams("usat16", "Usat16", "RegImmRegOp", 271 { "code": usat16Code, 272 "predicate_test": condPredicateTest }, []) 273 header_output += RegImmRegOpDeclare.subst(usat16Iop) 274 decoder_output += RegImmRegOpConstructor.subst(usat16Iop) 275 exec_output += PredOpExecute.subst(usat16Iop) 276 277 sxtbIop = InstObjParams("sxtb", "Sxtb", "RegImmRegOp", 278 { "code": 279 "Dest = sext<8>((uint8_t)(Op1.ud >> imm));", 280 "predicate_test": predicateTest }, []) 281 header_output += RegImmRegOpDeclare.subst(sxtbIop) 282 decoder_output += RegImmRegOpConstructor.subst(sxtbIop) 283 exec_output += PredOpExecute.subst(sxtbIop) 284 285 sxtabIop = InstObjParams("sxtab", "Sxtab", "RegRegRegImmOp", 286 { "code": 287 ''' 288 Dest = sext<8>((uint8_t)(Op2.ud >> imm)) + 289 Op1; 290 ''', 291 "predicate_test": predicateTest }, []) 292 header_output += RegRegRegImmOpDeclare.subst(sxtabIop) 293 decoder_output += RegRegRegImmOpConstructor.subst(sxtabIop) 294 exec_output += PredOpExecute.subst(sxtabIop) 295 296 sxtb16Code = ''' 297 uint32_t resTemp = 0; 298 replaceBits(resTemp, 15, 0, sext<8>(bits(Op1, imm + 7, imm))); 299 replaceBits(resTemp, 31, 16, 300 sext<8>(bits(Op1, (imm + 23) % 32, (imm + 16) % 32))); 301 Dest = resTemp; 302 ''' 303 sxtb16Iop = InstObjParams("sxtb16", "Sxtb16", "RegImmRegOp", 304 { "code": sxtb16Code, 305 "predicate_test": predicateTest }, []) 306 header_output += RegImmRegOpDeclare.subst(sxtb16Iop) 307 decoder_output += RegImmRegOpConstructor.subst(sxtb16Iop) 308 exec_output += PredOpExecute.subst(sxtb16Iop) 309 310 sxtab16Code = ''' 311 uint32_t resTemp = 0; 312 replaceBits(resTemp, 15, 0, sext<8>(bits(Op2, imm + 7, imm)) + 313 bits(Op1, 15, 0)); 314 replaceBits(resTemp, 31, 16, 315 sext<8>(bits(Op2, (imm + 23) % 32, (imm + 16) % 32)) + 316 bits(Op1, 31, 16)); 317 Dest = resTemp; 318 ''' 319 sxtab16Iop = InstObjParams("sxtab16", "Sxtab16", "RegRegRegImmOp", 320 { "code": sxtab16Code, 321 "predicate_test": predicateTest }, []) 322 header_output += RegRegRegImmOpDeclare.subst(sxtab16Iop) 323 decoder_output += RegRegRegImmOpConstructor.subst(sxtab16Iop) 324 exec_output += PredOpExecute.subst(sxtab16Iop) 325 326 sxthCode = ''' 327 uint64_t rotated = (uint32_t)Op1; 328 rotated = (rotated | (rotated << 32)) >> imm; 329 Dest = sext<16>((uint16_t)rotated); 330 ''' 331 sxthIop = InstObjParams("sxth", "Sxth", "RegImmRegOp", 332 { "code": sxthCode, 333 "predicate_test": predicateTest }, []) 334 header_output += RegImmRegOpDeclare.subst(sxthIop) 335 decoder_output += RegImmRegOpConstructor.subst(sxthIop) 336 exec_output += PredOpExecute.subst(sxthIop) 337 338 sxtahCode = ''' 339 uint64_t rotated = (uint32_t)Op2; 340 rotated = (rotated | (rotated << 32)) >> imm; 341 Dest = sext<16>((uint16_t)rotated) + Op1; 342 ''' 343 sxtahIop = InstObjParams("sxtah", "Sxtah", "RegRegRegImmOp", 344 { "code": sxtahCode, 345 "predicate_test": predicateTest }, []) 346 header_output += RegRegRegImmOpDeclare.subst(sxtahIop) 347 decoder_output += RegRegRegImmOpConstructor.subst(sxtahIop) 348 exec_output += PredOpExecute.subst(sxtahIop) 349 350 uxtbIop = InstObjParams("uxtb", "Uxtb", "RegImmRegOp", 351 { "code": "Dest = (uint8_t)(Op1.ud >> imm);", 352 "predicate_test": predicateTest }, []) 353 header_output += RegImmRegOpDeclare.subst(uxtbIop) 354 decoder_output += RegImmRegOpConstructor.subst(uxtbIop) 355 exec_output += PredOpExecute.subst(uxtbIop) 356 357 uxtabIop = InstObjParams("uxtab", "Uxtab", "RegRegRegImmOp", 358 { "code": 359 "Dest = (uint8_t)(Op2.ud >> imm) + Op1;", 360 "predicate_test": predicateTest }, []) 361 header_output += RegRegRegImmOpDeclare.subst(uxtabIop) 362 decoder_output += RegRegRegImmOpConstructor.subst(uxtabIop) 363 exec_output += PredOpExecute.subst(uxtabIop) 364 365 uxtb16Code = ''' 366 uint32_t resTemp = 0; 367 replaceBits(resTemp, 15, 0, (uint8_t)(bits(Op1, imm + 7, imm))); 368 replaceBits(resTemp, 31, 16, 369 (uint8_t)(bits(Op1, (imm + 23) % 32, (imm + 16) % 32))); 370 Dest = resTemp; 371 ''' 372 uxtb16Iop = InstObjParams("uxtb16", "Uxtb16", "RegImmRegOp", 373 { "code": uxtb16Code, 374 "predicate_test": predicateTest }, []) 375 header_output += RegImmRegOpDeclare.subst(uxtb16Iop) 376 decoder_output += RegImmRegOpConstructor.subst(uxtb16Iop) 377 exec_output += PredOpExecute.subst(uxtb16Iop) 378 379 uxtab16Code = ''' 380 uint32_t resTemp = 0; 381 replaceBits(resTemp, 15, 0, (uint8_t)(bits(Op2, imm + 7, imm)) + 382 bits(Op1, 15, 0)); 383 replaceBits(resTemp, 31, 16, 384 (uint8_t)(bits(Op2, (imm + 23) % 32, (imm + 16) % 32)) + 385 bits(Op1, 31, 16)); 386 Dest = resTemp; 387 ''' 388 uxtab16Iop = InstObjParams("uxtab16", "Uxtab16", "RegRegRegImmOp", 389 { "code": uxtab16Code, 390 "predicate_test": predicateTest }, []) 391 header_output += RegRegRegImmOpDeclare.subst(uxtab16Iop) 392 decoder_output += RegRegRegImmOpConstructor.subst(uxtab16Iop) 393 exec_output += PredOpExecute.subst(uxtab16Iop) 394 395 uxthCode = ''' 396 uint64_t rotated = (uint32_t)Op1; 397 rotated = (rotated | (rotated << 32)) >> imm; 398 Dest = (uint16_t)rotated; 399 ''' 400 uxthIop = InstObjParams("uxth", "Uxth", "RegImmRegOp", 401 { "code": uxthCode, 402 "predicate_test": predicateTest }, []) 403 header_output += RegImmRegOpDeclare.subst(uxthIop) 404 decoder_output += RegImmRegOpConstructor.subst(uxthIop) 405 exec_output += PredOpExecute.subst(uxthIop) 406 407 uxtahCode = ''' 408 uint64_t rotated = (uint32_t)Op2; 409 rotated = (rotated | (rotated << 32)) >> imm; 410 Dest = (uint16_t)rotated + Op1; 411 ''' 412 uxtahIop = InstObjParams("uxtah", "Uxtah", "RegRegRegImmOp", 413 { "code": uxtahCode, 414 "predicate_test": predicateTest }, []) 415 header_output += RegRegRegImmOpDeclare.subst(uxtahIop) 416 decoder_output += RegRegRegImmOpConstructor.subst(uxtahIop) 417 exec_output += PredOpExecute.subst(uxtahIop) 418 419 selCode = ''' 420 uint32_t resTemp = 0; 421 for (unsigned i = 0; i < 4; i++) { 422 int low = i * 8; 423 int high = low + 7; 424 replaceBits(resTemp, high, low, 425 bits(CondCodes, 16 + i) ? 426 bits(Op1, high, low) : bits(Op2, high, low)); 427 } 428 Dest = resTemp; 429 ''' 430 selIop = InstObjParams("sel", "Sel", "RegRegRegOp", 431 { "code": selCode, 432 "predicate_test": condPredicateTest }, []) 433 header_output += RegRegRegOpDeclare.subst(selIop) 434 decoder_output += RegRegRegOpConstructor.subst(selIop) 435 exec_output += PredOpExecute.subst(selIop) 436 437 usad8Code = ''' 438 uint32_t resTemp = 0; 439 for (unsigned i = 0; i < 4; i++) { 440 int low = i * 8; 441 int high = low + 7; 442 int32_t diff = bits(Op1, high, low) - 443 bits(Op2, high, low); 444 resTemp += ((diff < 0) ? -diff : diff); 445 } 446 Dest = resTemp; 447 ''' 448 usad8Iop = InstObjParams("usad8", "Usad8", "RegRegRegOp", 449 { "code": usad8Code, 450 "predicate_test": predicateTest }, []) 451 header_output += RegRegRegOpDeclare.subst(usad8Iop) 452 decoder_output += RegRegRegOpConstructor.subst(usad8Iop) 453 exec_output += PredOpExecute.subst(usad8Iop) 454 455 usada8Code = ''' 456 uint32_t resTemp = 0; 457 for (unsigned i = 0; i < 4; i++) { 458 int low = i * 8; 459 int high = low + 7; 460 int32_t diff = bits(Op1, high, low) - 461 bits(Op2, high, low); 462 resTemp += ((diff < 0) ? -diff : diff); 463 } 464 Dest = Op3 + resTemp; 465 ''' 466 usada8Iop = InstObjParams("usada8", "Usada8", "RegRegRegRegOp", 467 { "code": usada8Code, 468 "predicate_test": predicateTest }, []) 469 header_output += RegRegRegRegOpDeclare.subst(usada8Iop) 470 decoder_output += RegRegRegRegOpConstructor.subst(usada8Iop) 471 exec_output += PredOpExecute.subst(usada8Iop) 472 473 bkptCode = ''' 474 ArmISA::PCState pc = PCS; 475 return new PrefetchAbort(pc.pc(), ArmFault::DebugEvent); 476 ''' 477 bkptIop = InstObjParams("bkpt", "BkptInst", "ArmStaticInst", 478 bkptCode) 479 header_output += BasicDeclare.subst(bkptIop) 480 decoder_output += BasicConstructor.subst(bkptIop) 481 exec_output += BasicExecute.subst(bkptIop) 482 483 nopIop = InstObjParams("nop", "NopInst", "PredOp", \ 484 { "code" : "", "predicate_test" : predicateTest }) 485 header_output += BasicDeclare.subst(nopIop) 486 decoder_output += BasicConstructor.subst(nopIop) 487 exec_output += PredOpExecute.subst(nopIop) 488 489 yieldIop = InstObjParams("yield", "YieldInst", "PredOp", \ 490 { "code" : "", "predicate_test" : predicateTest }) 491 header_output += BasicDeclare.subst(yieldIop) 492 decoder_output += BasicConstructor.subst(yieldIop) 493 exec_output += PredOpExecute.subst(yieldIop) 494 495 wfeCode = ''' 496#if FULL_SYSTEM 497 if (SevMailbox) 498 SevMailbox = 0; 499 else 500 PseudoInst::quiesce(xc->tcBase()); 501#endif 502 ''' 503 wfeIop = InstObjParams("wfe", "WfeInst", "PredOp", \ 504 { "code" : wfeCode, "predicate_test" : predicateTest }, 505 ["IsNonSpeculative", "IsQuiesce", "IsSerializeAfter"]) 506 header_output += BasicDeclare.subst(wfeIop) 507 decoder_output += BasicConstructor.subst(wfeIop) 508 exec_output += PredOpExecute.subst(wfeIop) 509 510 wfiCode = ''' 511#if FULL_SYSTEM 512 PseudoInst::quiesce(xc->tcBase()); 513#endif 514 ''' 515 wfiIop = InstObjParams("wfi", "WfiInst", "PredOp", \ 516 { "code" : wfiCode, "predicate_test" : predicateTest }, 517 ["IsNonSpeculative", "IsQuiesce"]) 518 header_output += BasicDeclare.subst(wfiIop) 519 decoder_output += BasicConstructor.subst(wfiIop) 520 exec_output += PredOpExecute.subst(wfiIop) 521 522 sevCode = ''' 523 // Need a way for O3 to not scoreboard these accesses as pipe flushes. 524 System *sys = xc->tcBase()->getSystemPtr(); 525 for (int x = 0; x < sys->numContexts(); x++) { 526 ThreadContext *oc = sys->getThreadContext(x); 527 oc->setMiscReg(MISCREG_SEV_MAILBOX, 1); 528 } 529 ''' 530 sevIop = InstObjParams("sev", "SevInst", "PredOp", \ 531 { "code" : sevCode, "predicate_test" : predicateTest }, 532 ["IsNonSpeculative", "IsQuiesce", "IsSerializeAfter"]) 533 header_output += BasicDeclare.subst(sevIop) 534 decoder_output += BasicConstructor.subst(sevIop) 535 exec_output += PredOpExecute.subst(sevIop) 536 537 itIop = InstObjParams("it", "ItInst", "PredOp", \ 538 { "code" : "Itstate = machInst.newItstate;", 539 "predicate_test" : predicateTest }, 540 ["IsNonSpeculative", "IsSerializeAfter"]) 541 header_output += BasicDeclare.subst(itIop) 542 decoder_output += BasicConstructor.subst(itIop) 543 exec_output += PredOpExecute.subst(itIop) 544 unknownCode = ''' 545#if FULL_SYSTEM 546 return new UndefinedInstruction; 547#else 548 return new UndefinedInstruction(machInst, true); 549#endif 550 ''' 551 unknownIop = InstObjParams("unknown", "Unknown", "UnknownOp", \ 552 { "code": unknownCode, 553 "predicate_test": predicateTest }) 554 header_output += BasicDeclare.subst(unknownIop) 555 decoder_output += BasicConstructor.subst(unknownIop) 556 exec_output += PredOpExecute.subst(unknownIop) 557 558 ubfxCode = ''' 559 Dest = bits(Op1, imm2, imm1); 560 ''' 561 ubfxIop = InstObjParams("ubfx", "Ubfx", "RegRegImmImmOp", 562 { "code": ubfxCode, 563 "predicate_test": predicateTest }, []) 564 header_output += RegRegImmImmOpDeclare.subst(ubfxIop) 565 decoder_output += RegRegImmImmOpConstructor.subst(ubfxIop) 566 exec_output += PredOpExecute.subst(ubfxIop) 567 568 sbfxCode = ''' 569 int32_t resTemp = bits(Op1, imm2, imm1); 570 Dest = resTemp | -(resTemp & (1 << (imm2 - imm1))); 571 ''' 572 sbfxIop = InstObjParams("sbfx", "Sbfx", "RegRegImmImmOp", 573 { "code": sbfxCode, 574 "predicate_test": predicateTest }, []) 575 header_output += RegRegImmImmOpDeclare.subst(sbfxIop) 576 decoder_output += RegRegImmImmOpConstructor.subst(sbfxIop) 577 exec_output += PredOpExecute.subst(sbfxIop) 578 579 bfcCode = ''' 580 Dest = Op1 & ~(mask(imm2 - imm1 + 1) << imm1); 581 ''' 582 bfcIop = InstObjParams("bfc", "Bfc", "RegRegImmImmOp", 583 { "code": bfcCode, 584 "predicate_test": predicateTest }, []) 585 header_output += RegRegImmImmOpDeclare.subst(bfcIop) 586 decoder_output += RegRegImmImmOpConstructor.subst(bfcIop) 587 exec_output += PredOpExecute.subst(bfcIop) 588 589 bfiCode = ''' 590 uint32_t bitMask = (mask(imm2 - imm1 + 1) << imm1); 591 Dest = ((Op1 << imm1) & bitMask) | (Dest & ~bitMask); 592 ''' 593 bfiIop = InstObjParams("bfi", "Bfi", "RegRegImmImmOp", 594 { "code": bfiCode, 595 "predicate_test": predicateTest }, []) 596 header_output += RegRegImmImmOpDeclare.subst(bfiIop) 597 decoder_output += RegRegImmImmOpConstructor.subst(bfiIop) 598 exec_output += PredOpExecute.subst(bfiIop) 599 600 mrc15code = ''' 601 CPSR cpsr = Cpsr; 602 if (cpsr.mode == MODE_USER) 603#if FULL_SYSTEM 604 return new UndefinedInstruction; 605#else 606 return new UndefinedInstruction(false, mnemonic); 607#endif 608 Dest = MiscOp1; 609 ''' 610 611 mrc15Iop = InstObjParams("mrc", "Mrc15", "RegRegOp", 612 { "code": mrc15code, 613 "predicate_test": predicateTest }, []) 614 header_output += RegRegOpDeclare.subst(mrc15Iop) 615 decoder_output += RegRegOpConstructor.subst(mrc15Iop) 616 exec_output += PredOpExecute.subst(mrc15Iop) 617 618 619 mcr15code = ''' 620 CPSR cpsr = Cpsr; 621 if (cpsr.mode == MODE_USER) 622#if FULL_SYSTEM 623 return new UndefinedInstruction; 624#else 625 return new UndefinedInstruction(false, mnemonic); 626#endif 627 MiscDest = Op1; 628 ''' 629 mcr15Iop = InstObjParams("mcr", "Mcr15", "RegRegOp", 630 { "code": mcr15code, 631 "predicate_test": predicateTest }, 632 ["IsSerializeAfter","IsNonSpeculative"]) 633 header_output += RegRegOpDeclare.subst(mcr15Iop) 634 decoder_output += RegRegOpConstructor.subst(mcr15Iop) 635 exec_output += PredOpExecute.subst(mcr15Iop) 636 637 mrc15UserIop = InstObjParams("mrc", "Mrc15User", "RegRegOp", 638 { "code": "Dest = MiscOp1;", 639 "predicate_test": predicateTest }, []) 640 header_output += RegRegOpDeclare.subst(mrc15UserIop) 641 decoder_output += RegRegOpConstructor.subst(mrc15UserIop) 642 exec_output += PredOpExecute.subst(mrc15UserIop) 643 644 mcr15UserIop = InstObjParams("mcr", "Mcr15User", "RegRegOp", 645 { "code": "MiscDest = Op1", 646 "predicate_test": predicateTest }, 647 ["IsSerializeAfter","IsNonSpeculative"]) 648 header_output += RegRegOpDeclare.subst(mcr15UserIop) 649 decoder_output += RegRegOpConstructor.subst(mcr15UserIop) 650 exec_output += PredOpExecute.subst(mcr15UserIop) 651 652 enterxCode = ''' 653 ArmISA::PCState pc = PCS; 654 pc.nextThumb(true); 655 pc.nextJazelle(true); 656 PCS = pc; 657 ''' 658 enterxIop = InstObjParams("enterx", "Enterx", "PredOp", 659 { "code": enterxCode, 660 "predicate_test": predicateTest }, []) 661 header_output += BasicDeclare.subst(enterxIop) 662 decoder_output += BasicConstructor.subst(enterxIop) 663 exec_output += PredOpExecute.subst(enterxIop) 664 665 leavexCode = ''' 666 ArmISA::PCState pc = PCS; 667 pc.nextThumb(true); 668 pc.nextJazelle(false); 669 PCS = pc; 670 ''' 671 leavexIop = InstObjParams("leavex", "Leavex", "PredOp", 672 { "code": leavexCode, 673 "predicate_test": predicateTest }, []) 674 header_output += BasicDeclare.subst(leavexIop) 675 decoder_output += BasicConstructor.subst(leavexIop) 676 exec_output += PredOpExecute.subst(leavexIop) 677 678 setendCode = ''' 679 CPSR cpsr = Cpsr; 680 cpsr.e = imm; 681 Cpsr = cpsr; 682 ''' 683 setendIop = InstObjParams("setend", "Setend", "ImmOp", 684 { "code": setendCode, 685 "predicate_test": predicateTest }, 686 ["IsSerializeAfter","IsNonSpeculative"]) 687 header_output += ImmOpDeclare.subst(setendIop) 688 decoder_output += ImmOpConstructor.subst(setendIop) 689 exec_output += PredOpExecute.subst(setendIop) 690 691 clrexCode = ''' 692 unsigned memAccessFlags = Request::CLEAR_LL | 693 ArmISA::TLB::AlignWord | Request::LLSC; 694 fault = xc->read(0, (uint32_t&)Mem, memAccessFlags); 695 ''' 696 clrexIop = InstObjParams("clrex", "Clrex","PredOp", 697 { "code": clrexCode, 698 "predicate_test": predicateTest },[]) 699 header_output += ClrexDeclare.subst(clrexIop) 700 decoder_output += BasicConstructor.subst(clrexIop) 701 exec_output += PredOpExecute.subst(clrexIop) 702 exec_output += ClrexInitiateAcc.subst(clrexIop) 703 exec_output += ClrexCompleteAcc.subst(clrexIop) 704 705 isbCode = ''' 706 ''' 707 isbIop = InstObjParams("isb", "Isb", "PredOp", 708 {"code": isbCode, 709 "predicate_test": predicateTest}, ['IsSerializing']) 710 header_output += BasicDeclare.subst(isbIop) 711 decoder_output += BasicConstructor.subst(isbIop) 712 exec_output += PredOpExecute.subst(isbIop) 713 714 dsbCode = ''' 715 ''' 716 dsbIop = InstObjParams("dsb", "Dsb", "PredOp", 717 {"code": dsbCode, 718 "predicate_test": predicateTest},['IsMemBarrier']) 719 header_output += BasicDeclare.subst(dsbIop) 720 decoder_output += BasicConstructor.subst(dsbIop) 721 exec_output += PredOpExecute.subst(dsbIop) 722 723 dmbCode = ''' 724 ''' 725 dmbIop = InstObjParams("dmb", "Dmb", "PredOp", 726 {"code": dmbCode, 727 "predicate_test": predicateTest},['IsMemBarrier']) 728 header_output += BasicDeclare.subst(dmbIop) 729 decoder_output += BasicConstructor.subst(dmbIop) 730 exec_output += PredOpExecute.subst(dmbIop) 731 732 dbgCode = ''' 733 ''' 734 dbgIop = InstObjParams("dbg", "Dbg", "PredOp", 735 {"code": dbgCode, 736 "predicate_test": predicateTest}) 737 header_output += BasicDeclare.subst(dbgIop) 738 decoder_output += BasicConstructor.subst(dbgIop) 739 exec_output += PredOpExecute.subst(dbgIop) 740 741 cpsCode = ''' 742 uint32_t mode = bits(imm, 4, 0); 743 uint32_t f = bits(imm, 5); 744 uint32_t i = bits(imm, 6); 745 uint32_t a = bits(imm, 7); 746 bool setMode = bits(imm, 8); 747 bool enable = bits(imm, 9); 748 CPSR cpsr = Cpsr; 749 SCTLR sctlr = Sctlr; 750 if (cpsr.mode != MODE_USER) { 751 if (enable) { 752 if (f) cpsr.f = 0; 753 if (i) cpsr.i = 0; 754 if (a) cpsr.a = 0; 755 } else { 756 if (f && !sctlr.nmfi) cpsr.f = 1; 757 if (i) cpsr.i = 1; 758 if (a) cpsr.a = 1; 759 } 760 if (setMode) { 761 cpsr.mode = mode; 762 } 763 } 764 Cpsr = cpsr; 765 ''' 766 cpsIop = InstObjParams("cps", "Cps", "ImmOp", 767 { "code": cpsCode, 768 "predicate_test": predicateTest }, 769 ["IsSerializeAfter","IsNonSpeculative"]) 770 header_output += ImmOpDeclare.subst(cpsIop) 771 decoder_output += ImmOpConstructor.subst(cpsIop) 772 exec_output += PredOpExecute.subst(cpsIop) 773}}; 774