decoder.isa revision 2954:6839b9e49575
1// Copyright (c) 2006 The Regents of The University of Michigan 2// All rights reserved. 3// 4// Redistribution and use in source and binary forms, with or without 5// modification, are permitted provided that the following conditions are 6// met: redistributions of source code must retain the above copyright 7// notice, this list of conditions and the following disclaimer; 8// redistributions in binary form must reproduce the above copyright 9// notice, this list of conditions and the following disclaimer in the 10// documentation and/or other materials provided with the distribution; 11// neither the name of the copyright holders nor the names of its 12// contributors may be used to endorse or promote products derived from 13// this software without specific prior written permission. 14// 15// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 16// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 17// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 18// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 19// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 20// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 21// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 25// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26// 27// Authors: Ali Saidi 28// Gabe Black 29// Steve Reinhardt 30 31//////////////////////////////////////////////////////////////////// 32// 33// The actual decoder specification 34// 35 36decode OP default Unknown::unknown() 37{ 38 0x0: decode OP2 39 { 40 //Throw an illegal instruction acception 41 0x0: Trap::illtrap({{fault = new IllegalInstruction;}}); 42 format BranchN 43 { 44 0x1: decode BPCC 45 { 46 0x0: bpcci(19, {{ 47 if(passesCondition(Ccr<3:0>, COND2)) 48 NNPC = xc->readPC() + disp; 49 else 50 handle_annul 51 }}); 52 0x2: bpccx(19, {{ 53 if(passesCondition(Ccr<7:4>, COND2)) 54 NNPC = xc->readPC() + disp; 55 else 56 handle_annul 57 }}); 58 } 59 0x2: bicc(22, {{ 60 if(passesCondition(Ccr<3:0>, COND2)) 61 NNPC = xc->readPC() + disp; 62 else 63 handle_annul 64 }}); 65 } 66 0x3: decode RCOND2 67 { 68 format BranchSplit 69 { 70 0x1: bpreq({{ 71 if(Rs1.sdw == 0) 72 NNPC = xc->readPC() + disp; 73 else 74 handle_annul 75 }}); 76 0x2: bprle({{ 77 if(Rs1.sdw <= 0) 78 NNPC = xc->readPC() + disp; 79 else 80 handle_annul 81 }}); 82 0x3: bprl({{ 83 if(Rs1.sdw < 0) 84 NNPC = xc->readPC() + disp; 85 else 86 handle_annul 87 }}); 88 0x5: bprne({{ 89 if(Rs1.sdw != 0) 90 NNPC = xc->readPC() + disp; 91 else 92 handle_annul 93 }}); 94 0x6: bprg({{ 95 if(Rs1.sdw > 0) 96 NNPC = xc->readPC() + disp; 97 else 98 handle_annul 99 }}); 100 0x7: bprge({{ 101 if(Rs1.sdw >= 0) 102 NNPC = xc->readPC() + disp; 103 else 104 handle_annul 105 }}); 106 } 107 } 108 //SETHI (or NOP if rd == 0 and imm == 0) 109 0x4: SetHi::sethi({{Rd = imm;}}); 110 0x5: Trap::fbpfcc({{fault = new FpDisabled;}}); 111 0x6: Trap::fbfcc({{fault = new FpDisabled;}}); 112 } 113 0x1: BranchN::call(30, {{ 114 R15 = xc->readPC(); 115 NNPC = R15 + disp; 116 }}); 117 0x2: decode OP3 { 118 format IntOp { 119 0x00: add({{Rd = Rs1.sdw + Rs2_or_imm13;}}); 120 0x01: and({{Rd = Rs1.udw & Rs2_or_imm13;}}); 121 0x02: or({{Rd = Rs1.udw | Rs2_or_imm13;}}); 122 0x03: xor({{Rd = Rs1.udw ^ Rs2_or_imm13;}}); 123 0x04: sub({{Rd = Rs1.sdw - Rs2_or_imm13;}}); 124 0x05: andn({{Rd = Rs1.udw & ~Rs2_or_imm13;}}); 125 0x06: orn({{Rd = Rs1.udw | ~Rs2_or_imm13;}}); 126 0x07: xnor({{Rd = ~(Rs1.udw ^ Rs2_or_imm13);}}); 127 0x08: addc({{Rd = Rs1.sdw + Rs2_or_imm13 + Ccr<0:0>;}}); 128 0x09: mulx({{Rd = Rs1 * Rs2_or_imm13;}}); 129 0x0A: umul({{ 130 Rd = Rs1.udw<31:0> * Rs2_or_imm13<31:0>; 131 Y = Rd<63:32>; 132 }}); 133 0x0B: smul({{ 134 Rd.sdw = Rs1.sdw<31:0> * Rs2_or_imm13<31:0>; 135 Y = Rd.sdw; 136 }}); 137 0x0C: subc({{Rd.sdw = Rs1.sdw + (~Rs2_or_imm13) + 1 - Ccr<0:0>}}); 138 0x0D: udivx({{ 139 if(Rs2_or_imm13 == 0) fault = new DivisionByZero; 140 else Rd.udw = Rs1.udw / Rs2_or_imm13; 141 }}); 142 0x0E: udiv({{ 143 if(Rs2_or_imm13 == 0) fault = new DivisionByZero; 144 else 145 { 146 Rd.udw = ((Y << 32) | Rs1.udw<31:0>) / Rs2_or_imm13; 147 if(Rd.udw >> 32 != 0) 148 Rd.udw = 0xFFFFFFFF; 149 } 150 }}); 151 0x0F: sdiv({{ 152 if(Rs2_or_imm13.sdw == 0) 153 fault = new DivisionByZero; 154 else 155 { 156 Rd.udw = ((int64_t)((Y << 32) | Rs1.sdw<31:0>)) / Rs2_or_imm13.sdw; 157 if(Rd.udw<63:31> != 0) 158 Rd.udw = 0x7FFFFFFF; 159 else if(Rd.udw<63:> && Rd.udw<62:31> != 0xFFFFFFFF) 160 Rd.udw = 0xFFFFFFFF80000000ULL; 161 } 162 }}); 163 } 164 format IntOpCc { 165 0x10: addcc({{ 166 int64_t resTemp, val2 = Rs2_or_imm13; 167 Rd = resTemp = Rs1 + val2;}}, 168 {{(Rs1<31:0> + val2<31:0>)<32:>}}, 169 {{Rs1<31:> == val2<31:> && val2<31:> != resTemp<31:>}}, 170 {{(Rs1<63:1> + val2<63:1> + (Rs1 & val2)<0:>)<63:>}}, 171 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}} 172 ); 173 0x11: IntOpCcRes::andcc({{Rd = Rs1 & Rs2_or_imm13;}}); 174 0x12: IntOpCcRes::orcc({{Rd = Rs1 | Rs2_or_imm13;}}); 175 0x13: IntOpCcRes::xorcc({{Rd = Rs1 ^ Rs2_or_imm13;}}); 176 0x14: subcc({{ 177 int64_t val2 = Rs2_or_imm13; 178 Rd = Rs1 - val2;}}, 179 {{(~(Rs1<31:0> + (~val2)<31:0> + 1))<32:>}}, 180 {{(Rs1<31:> != val2<31:>) && (Rs1<31:> != Rd<31:>)}}, 181 {{(~(Rs1<63:1> + (~val2)<63:1> + 182 (Rs1 | ~val2)<0:>))<63:>}}, 183 {{Rs1<63:> != val2<63:> && Rs1<63:> != Rd<63:>}} 184 ); 185 0x15: IntOpCcRes::andncc({{Rd = Rs1 & ~Rs2_or_imm13;}}); 186 0x16: IntOpCcRes::orncc({{Rd = Rs1 | ~Rs2_or_imm13;}}); 187 0x17: IntOpCcRes::xnorcc({{Rd = ~(Rs1 ^ Rs2_or_imm13);}}); 188 0x18: addccc({{ 189 int64_t resTemp, val2 = Rs2_or_imm13; 190 int64_t carryin = Ccr<0:0>; 191 Rd = resTemp = Rs1 + val2 + carryin;}}, 192 {{(Rs1<31:0> + val2<31:0> + carryin)<32:>}}, 193 {{Rs1<31:> == val2<31:> && val2<31:> != resTemp<31:>}}, 194 {{(Rs1<63:1> + val2<63:1> + 195 ((Rs1 & val2) | (carryin & (Rs1 | val2)))<0:>)<63:>}}, 196 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}} 197 ); 198 0x1A: umulcc({{ 199 uint64_t resTemp; 200 Rd = resTemp = Rs1.udw<31:0> * Rs2_or_imm13.udw<31:0>; 201 Y = resTemp<63:32>;}}, 202 {{0}},{{0}},{{0}},{{0}}); 203 0x1B: smulcc({{ 204 int64_t resTemp; 205 Rd = resTemp = Rs1.sdw<31:0> * Rs2_or_imm13.sdw<31:0>; 206 Y = resTemp<63:32>;}}, 207 {{0}},{{0}},{{0}},{{0}}); 208 0x1C: subccc({{ 209 int64_t resTemp, val2 = Rs2_or_imm13; 210 int64_t carryin = Ccr<0:0>; 211 Rd = resTemp = Rs1 + ~val2 + 1 - carryin;}}, 212 {{(~((Rs1<31:0> + (~(val2 + carryin))<31:0> + 1))<32:>)}}, 213 {{Rs1<31:> != val2<31:> && Rs1<31:> != resTemp<31:>}}, 214 {{(~((Rs1<63:1> + (~(val2 + carryin))<63:1>) + (Rs1<0:> + (~(val2+carryin))<0:> + 1)<63:1>))<63:>}}, 215 {{Rs1<63:> != val2<63:> && Rs1<63:> != resTemp<63:>}} 216 ); 217 0x1D: udivxcc({{ 218 if(Rs2_or_imm13.udw == 0) fault = new DivisionByZero; 219 else Rd = Rs1.udw / Rs2_or_imm13.udw;}} 220 ,{{0}},{{0}},{{0}},{{0}}); 221 0x1E: udivcc({{ 222 uint32_t resTemp, val2 = Rs2_or_imm13.udw; 223 int32_t overflow; 224 if(val2 == 0) fault = new DivisionByZero; 225 else 226 { 227 resTemp = (uint64_t)((Y << 32) | Rs1.udw<31:0>) / val2; 228 overflow = (resTemp<63:32> != 0); 229 if(overflow) Rd = resTemp = 0xFFFFFFFF; 230 else Rd = resTemp; 231 } }}, 232 {{0}}, 233 {{overflow}}, 234 {{0}}, 235 {{0}} 236 ); 237 0x1F: sdivcc({{ 238 int32_t resTemp, val2 = Rs2_or_imm13.sdw; 239 int32_t overflow, underflow; 240 if(val2 == 0) fault = new DivisionByZero; 241 else 242 { 243 Rd = resTemp = (int64_t)((Y << 32) | Rs1.sdw<31:0>) / val2; 244 overflow = (resTemp<63:31> != 0); 245 underflow = (resTemp<63:> && resTemp<62:31> != 0xFFFFFFFF); 246 if(overflow) Rd = resTemp = 0x7FFFFFFF; 247 else if(underflow) Rd = resTemp = 0xFFFFFFFF80000000ULL; 248 else Rd = resTemp; 249 } }}, 250 {{0}}, 251 {{overflow || underflow}}, 252 {{0}}, 253 {{0}} 254 ); 255 0x20: taddcc({{ 256 int64_t resTemp, val2 = Rs2_or_imm13; 257 Rd = resTemp = Rs1 + val2; 258 int32_t overflow = Rs1<1:0> || val2<1:0> || (Rs1<31:> == val2<31:> && val2<31:> != resTemp<31:>);}}, 259 {{((Rs1 & 0xFFFFFFFF + val2 & 0xFFFFFFFF) >> 31)}}, 260 {{overflow}}, 261 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}}, 262 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}} 263 ); 264 0x21: tsubcc({{ 265 int64_t resTemp, val2 = Rs2_or_imm13; 266 Rd = resTemp = Rs1 + val2; 267 int32_t overflow = Rs1<1:0> || val2<1:0> || (Rs1<31:> == val2<31:> && val2<31:> != resTemp<31:>);}}, 268 {{(Rs1 & 0xFFFFFFFF + val2 & 0xFFFFFFFF) >> 31}}, 269 {{overflow}}, 270 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}}, 271 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}} 272 ); 273 0x22: taddcctv({{ 274 int64_t resTemp, val2 = Rs2_or_imm13; 275 Rd = Rs1 + val2; 276 int32_t overflow = Rs1<1:0> || val2<1:0> || 277 (Rs1<31:> == val2<31:> && val2<31:> != Rd<31:>); 278 if(overflow) fault = new TagOverflow;}}, 279 {{((Rs1 & 0xFFFFFFFF + val2 & 0xFFFFFFFF) >> 31)}}, 280 {{overflow}}, 281 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}}, 282 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}} 283 ); 284 0x23: tsubcctv({{ 285 int64_t resTemp, val2 = Rs2_or_imm13; 286 Rd = resTemp = Rs1 + val2; 287 int32_t overflow = Rs1<1:0> || val2<1:0> || (Rs1<31:> == val2<31:> && val2<31:> != resTemp<31:>); 288 if(overflow) fault = new TagOverflow;}}, 289 {{((Rs1 & 0xFFFFFFFF + val2 & 0xFFFFFFFF) >> 31)}}, 290 {{overflow}}, 291 {{((Rs1 >> 1) + (val2 >> 1) + (Rs1 & val2 & 0x1))<63:>}}, 292 {{Rs1<63:> == val2<63:> && val2<63:> != resTemp<63:>}} 293 ); 294 0x24: mulscc({{ 295 int64_t resTemp, multiplicand = Rs2_or_imm13; 296 int32_t multiplier = Rs1<31:0>; 297 int32_t savedLSB = Rs1<0:>; 298 multiplier = multiplier<31:1> | 299 ((Ccr<3:3> 300 ^ Ccr<1:1>) << 32); 301 if(!Y<0:>) 302 multiplicand = 0; 303 Rd = resTemp = multiplicand + multiplier; 304 Y = Y<31:1> | (savedLSB << 31);}}, 305 {{((multiplicand & 0xFFFFFFFF + multiplier & 0xFFFFFFFF) >> 31)}}, 306 {{multiplicand<31:> == multiplier<31:> && multiplier<31:> != resTemp<31:>}}, 307 {{((multiplicand >> 1) + (multiplier >> 1) + (multiplicand & multiplier & 0x1))<63:>}}, 308 {{multiplicand<63:> == multiplier<63:> && multiplier<63:> != resTemp<63:>}} 309 ); 310 } 311 format IntOp 312 { 313 0x25: decode X { 314 0x0: sll({{Rd = Rs1 << (I ? SHCNT32 : Rs2<4:0>);}}); 315 0x1: sllx({{Rd = Rs1 << (I ? SHCNT64 : Rs2<5:0>);}}); 316 } 317 0x26: decode X { 318 0x0: srl({{Rd = Rs1.uw >> (I ? SHCNT32 : Rs2<4:0>);}}); 319 0x1: srlx({{Rd = Rs1.udw >> (I ? SHCNT64 : Rs2<5:0>);}}); 320 } 321 0x27: decode X { 322 0x0: sra({{Rd = Rs1.sw >> (I ? SHCNT32 : Rs2<4:0>);}}); 323 0x1: srax({{Rd = Rs1.sdw >> (I ? SHCNT64 : Rs2<5:0>);}}); 324 } 325 // XXX might want a format rdipr thing here 326 0x28: decode RS1 { 327 0xF: decode I { 328 0x0: Nop::stbar({{/*stuff*/}}); 329 0x1: Nop::membar({{/*stuff*/}}); 330 } 331 default: rdasr({{ 332 Rd = xc->readMiscRegWithEffect(RS1 + AsrStart, fault); 333 }}); 334 } 335 0x29: HPriv::rdhpr({{ 336 // XXX Need to protect with format that traps non-priv/priv 337 // access 338 Rd = xc->readMiscRegWithEffect(RS1 + HprStart, fault); 339 }}); 340 0x2A: Priv::rdpr({{ 341 // XXX Need to protect with format that traps non-priv 342 // access 343 Rd = xc->readMiscRegWithEffect(RS1 + PrStart, fault); 344 }}); 345 0x2B: BasicOperate::flushw({{ 346 if(NWindows - 2 - Cansave == 0) 347 { 348 if(Otherwin) 349 fault = new SpillNOther(Wstate<5:3>); 350 else 351 fault = new SpillNNormal(Wstate<2:0>); 352 } 353 }}); 354 0x2C: decode MOVCC3 355 { 356 0x0: Trap::movccfcc({{fault = new FpDisabled;}}); 357 0x1: decode CC 358 { 359 0x0: movcci({{ 360 if(passesCondition(Ccr<3:0>, COND4)) 361 Rd = Rs2_or_imm11; 362 else 363 Rd = Rd; 364 }}); 365 0x2: movccx({{ 366 if(passesCondition(Ccr<7:4>, COND4)) 367 Rd = Rs2_or_imm11; 368 else 369 Rd = Rd; 370 }}); 371 } 372 } 373 0x2D: sdivx({{ 374 if(Rs2_or_imm13.sdw == 0) fault = new DivisionByZero; 375 else Rd.sdw = Rs1.sdw / Rs2_or_imm13.sdw; 376 }}); 377 0x2E: decode RS1 { 378 0x0: IntOp::popc({{ 379 int64_t count = 0; 380 uint64_t temp = Rs2_or_imm13; 381 //Count the 1s in the front 4bits until none are left 382 uint8_t oneBits[] = {0,1,1,2,1,2,2,3,1,2,2,3,2,3,3,4}; 383 while(temp) 384 { 385 count += oneBits[temp & 0xF]; 386 temp = temp >> 4; 387 } 388 Rd = count; 389 }}); 390 } 391 0x2F: decode RCOND3 392 { 393 0x1: movreq({{Rd = (Rs1.sdw == 0) ? Rs2_or_imm10 : Rd;}}); 394 0x2: movrle({{Rd = (Rs1.sdw <= 0) ? Rs2_or_imm10 : Rd;}}); 395 0x3: movrl({{Rd = (Rs1.sdw < 0) ? Rs2_or_imm10 : Rd;}}); 396 0x5: movrne({{Rd = (Rs1.sdw != 0) ? Rs2_or_imm10 : Rd;}}); 397 0x6: movrg({{Rd = (Rs1.sdw > 0) ? Rs2_or_imm10 : Rd;}}); 398 0x7: movrge({{Rd = (Rs1.sdw >= 0) ? Rs2_or_imm10 : Rd;}}); 399 } 400 0x30: wrasr({{ 401 xc->setMiscRegWithEffect(RD + AsrStart, Rs1 ^ Rs2_or_imm13); 402 }}); 403 0x31: decode FCN { 404 0x0: BasicOperate::saved({{/*Boogy Boogy*/}}); 405 0x1: BasicOperate::restored({{/*Boogy Boogy*/}}); 406 } 407 0x32: Priv::wrpr({{ 408 // XXX Need to protect with format that traps non-priv 409 // access 410 fault = xc->setMiscRegWithEffect(RD + PrStart, Rs1 ^ Rs2_or_imm13); 411 }}); 412 0x33: HPriv::wrhpr({{ 413 // XXX Need to protect with format that traps non-priv/priv 414 // access 415 fault = xc->setMiscRegWithEffect(RD + HprStart, Rs1 ^ Rs2_or_imm13); 416 }}); 417 0x34: decode OPF{ 418 0x01: Trap::fmovs({{fault = new FpDisabled;}}); 419 0x02: Trap::fmovd({{fault = new FpDisabled;}}); 420 0x03: Trap::fmovq({{fault = new FpDisabled;}}); 421 0x05: Trap::fnegs({{fault = new FpDisabled;}}); 422 0x06: Trap::fnegd({{fault = new FpDisabled;}}); 423 0x07: Trap::fnegq({{fault = new FpDisabled;}}); 424 0x09: Trap::fabss({{fault = new FpDisabled;}}); 425 0x0A: Trap::fabsd({{fault = new FpDisabled;}}); 426 0x0B: Trap::fabsq({{fault = new FpDisabled;}}); 427 0x29: Trap::fsqrts({{fault = new FpDisabled;}}); 428 0x2A: Trap::fsqrtd({{fault = new FpDisabled;}}); 429 0x2B: Trap::fsqrtq({{fault = new FpDisabled;}}); 430 0x41: Trap::fadds({{fault = new FpDisabled;}}); 431 0x42: BasicOperate::faddd({{Frd = Frs1 + Frs2;}}); 432 0x43: Trap::faddq({{fault = new FpDisabled;}}); 433 0x45: Trap::fsubs({{fault = new FpDisabled;}}); 434 0x46: Trap::fsubd({{fault = new FpDisabled;}}); 435 0x47: Trap::fsubq({{fault = new FpDisabled;}}); 436 0x49: Trap::fmuls({{fault = new FpDisabled;}}); 437 0x4A: BasicOperate::fmuld({{Frd = Frs1.sf * Frs2.sf;}}); 438 0x4B: Trap::fmulq({{fault = new FpDisabled;}}); 439 0x4D: Trap::fdivs({{fault = new FpDisabled;}}); 440 0x4E: Trap::fdivd({{fault = new FpDisabled;}}); 441 0x4F: Trap::fdivq({{fault = new FpDisabled;}}); 442 0x69: Trap::fsmuld({{fault = new FpDisabled;}}); 443 0x6E: Trap::fdmulq({{fault = new FpDisabled;}}); 444 0x81: Trap::fstox({{fault = new FpDisabled;}}); 445 0x82: Trap::fdtox({{fault = new FpDisabled;}}); 446 0x83: Trap::fqtox({{fault = new FpDisabled;}}); 447 0x84: Trap::fxtos({{fault = new FpDisabled;}}); 448 0x88: Trap::fxtod({{fault = new FpDisabled;}}); 449 0x8C: Trap::fxtoq({{fault = new FpDisabled;}}); 450 0xC4: Trap::fitos({{fault = new FpDisabled;}}); 451 0xC6: Trap::fdtos({{fault = new FpDisabled;}}); 452 0xC7: Trap::fqtos({{fault = new FpDisabled;}}); 453 0xC8: Trap::fitod({{fault = new FpDisabled;}}); 454 0xC9: Trap::fstod({{fault = new FpDisabled;}}); 455 0xCB: Trap::fqtod({{fault = new FpDisabled;}}); 456 0xCC: Trap::fitoq({{fault = new FpDisabled;}}); 457 0xCD: Trap::fstoq({{fault = new FpDisabled;}}); 458 0xCE: Trap::fdtoq({{fault = new FpDisabled;}}); 459 0xD1: Trap::fstoi({{fault = new FpDisabled;}}); 460 0xD2: Trap::fdtoi({{fault = new FpDisabled;}}); 461 0xD3: Trap::fqtoi({{fault = new FpDisabled;}}); 462 default: Trap::fpop1({{fault = new FpDisabled;}}); 463 } 464 0x35: Trap::fpop2({{fault = new FpDisabled;}}); 465 //This used to be just impdep1, but now it's a whole bunch 466 //of instructions 467 0x36: decode OPF{ 468 0x00: Trap::edge8({{fault = new IllegalInstruction;}}); 469 0x01: Trap::edge8n({{fault = new IllegalInstruction;}}); 470 0x02: Trap::edge8l({{fault = new IllegalInstruction;}}); 471 0x03: Trap::edge8ln({{fault = new IllegalInstruction;}}); 472 0x04: Trap::edge16({{fault = new IllegalInstruction;}}); 473 0x05: Trap::edge16n({{fault = new IllegalInstruction;}}); 474 0x06: Trap::edge16l({{fault = new IllegalInstruction;}}); 475 0x07: Trap::edge16ln({{fault = new IllegalInstruction;}}); 476 0x08: Trap::edge32({{fault = new IllegalInstruction;}}); 477 0x09: Trap::edge32n({{fault = new IllegalInstruction;}}); 478 0x0A: Trap::edge32l({{fault = new IllegalInstruction;}}); 479 0x0B: Trap::edge32ln({{fault = new IllegalInstruction;}}); 480 0x10: Trap::array8({{fault = new IllegalInstruction;}}); 481 0x12: Trap::array16({{fault = new IllegalInstruction;}}); 482 0x14: Trap::array32({{fault = new IllegalInstruction;}}); 483 0x18: Trap::alignaddress({{fault = new IllegalInstruction;}}); 484 0x19: Trap::bmask({{fault = new IllegalInstruction;}}); 485 0x1A: Trap::alignaddresslittle({{fault = new IllegalInstruction;}}); 486 0x20: Trap::fcmple16({{fault = new IllegalInstruction;}}); 487 0x22: Trap::fcmpne16({{fault = new IllegalInstruction;}}); 488 0x24: Trap::fcmple32({{fault = new IllegalInstruction;}}); 489 0x26: Trap::fcmpne32({{fault = new IllegalInstruction;}}); 490 0x28: Trap::fcmpgt16({{fault = new IllegalInstruction;}}); 491 0x2A: Trap::fcmpeq16({{fault = new IllegalInstruction;}}); 492 0x2C: Trap::fcmpgt32({{fault = new IllegalInstruction;}}); 493 0x2E: Trap::fcmpeq32({{fault = new IllegalInstruction;}}); 494 0x31: Trap::fmul8x16({{fault = new IllegalInstruction;}}); 495 0x33: Trap::fmul8x16au({{fault = new IllegalInstruction;}}); 496 0x35: Trap::fmul8x16al({{fault = new IllegalInstruction;}}); 497 0x36: Trap::fmul8sux16({{fault = new IllegalInstruction;}}); 498 0x37: Trap::fmul8ulx16({{fault = new IllegalInstruction;}}); 499 0x38: Trap::fmuld8sux16({{fault = new IllegalInstruction;}}); 500 0x39: Trap::fmuld8ulx16({{fault = new IllegalInstruction;}}); 501 0x3A: Trap::fpack32({{fault = new IllegalInstruction;}}); 502 0x3B: Trap::fpack16({{fault = new IllegalInstruction;}}); 503 0x3D: Trap::fpackfix({{fault = new IllegalInstruction;}}); 504 0x3E: Trap::pdist({{fault = new IllegalInstruction;}}); 505 0x48: Trap::faligndata({{fault = new IllegalInstruction;}}); 506 0x4B: Trap::fpmerge({{fault = new IllegalInstruction;}}); 507 0x4C: Trap::bshuffle({{fault = new IllegalInstruction;}}); 508 0x4D: Trap::fexpand({{fault = new IllegalInstruction;}}); 509 0x50: Trap::fpadd16({{fault = new IllegalInstruction;}}); 510 0x51: Trap::fpadd16s({{fault = new IllegalInstruction;}}); 511 0x52: Trap::fpadd32({{fault = new IllegalInstruction;}}); 512 0x53: Trap::fpadd32s({{fault = new IllegalInstruction;}}); 513 0x54: Trap::fpsub16({{fault = new IllegalInstruction;}}); 514 0x55: Trap::fpsub16s({{fault = new IllegalInstruction;}}); 515 0x56: Trap::fpsub32({{fault = new IllegalInstruction;}}); 516 0x57: Trap::fpsub32s({{fault = new IllegalInstruction;}}); 517 0x60: BasicOperate::fzero({{Frd = 0;}}); 518 0x61: Trap::fzeros({{fault = new IllegalInstruction;}}); 519 0x62: Trap::fnor({{fault = new IllegalInstruction;}}); 520 0x63: Trap::fnors({{fault = new IllegalInstruction;}}); 521 0x64: Trap::fandnot2({{fault = new IllegalInstruction;}}); 522 0x65: Trap::fandnot2s({{fault = new IllegalInstruction;}}); 523 0x66: Trap::fnot2({{fault = new IllegalInstruction;}}); 524 0x67: Trap::fnot2s({{fault = new IllegalInstruction;}}); 525 0x68: Trap::fandnot1({{fault = new IllegalInstruction;}}); 526 0x69: Trap::fandnot1s({{fault = new IllegalInstruction;}}); 527 0x6A: Trap::fnot1({{fault = new IllegalInstruction;}}); 528 0x6B: Trap::fnot1s({{fault = new IllegalInstruction;}}); 529 0x6C: Trap::fxor({{fault = new IllegalInstruction;}}); 530 0x6D: Trap::fxors({{fault = new IllegalInstruction;}}); 531 0x6E: Trap::fnand({{fault = new IllegalInstruction;}}); 532 0x6F: Trap::fnands({{fault = new IllegalInstruction;}}); 533 0x70: Trap::fand({{fault = new IllegalInstruction;}}); 534 0x71: Trap::fands({{fault = new IllegalInstruction;}}); 535 0x72: Trap::fxnor({{fault = new IllegalInstruction;}}); 536 0x73: Trap::fxnors({{fault = new IllegalInstruction;}}); 537 0x74: Trap::fsrc1({{fault = new IllegalInstruction;}}); 538 0x75: Trap::fsrc1s({{fault = new IllegalInstruction;}}); 539 0x76: Trap::fornot2({{fault = new IllegalInstruction;}}); 540 0x77: Trap::fornot2s({{fault = new IllegalInstruction;}}); 541 0x78: Trap::fsrc2({{fault = new IllegalInstruction;}}); 542 0x79: Trap::fsrc2s({{fault = new IllegalInstruction;}}); 543 0x7A: Trap::fornot1({{fault = new IllegalInstruction;}}); 544 0x7B: Trap::fornot1s({{fault = new IllegalInstruction;}}); 545 0x7C: Trap::for({{fault = new IllegalInstruction;}}); 546 0x7D: Trap::fors({{fault = new IllegalInstruction;}}); 547 0x7E: Trap::fone({{fault = new IllegalInstruction;}}); 548 0x7F: Trap::fones({{fault = new IllegalInstruction;}}); 549 0x80: Trap::shutdown({{fault = new IllegalInstruction;}}); 550 0x81: Trap::siam({{fault = new IllegalInstruction;}}); 551 } 552 0x37: Trap::impdep2({{fault = new IllegalInstruction;}}); 553 0x38: Branch::jmpl({{ 554 Addr target = Rs1 + Rs2_or_imm13; 555 if(target & 0x3) 556 fault = new MemAddressNotAligned; 557 else 558 { 559 Rd = xc->readPC(); 560 NNPC = target; 561 } 562 }}); 563 0x39: Branch::return({{ 564 //If both MemAddressNotAligned and 565 //a fill trap happen, it's not clear 566 //which one should be returned. 567 Addr target = Rs1 + Rs2_or_imm13; 568 if(target & 0x3) 569 fault = new MemAddressNotAligned; 570 else 571 NNPC = target; 572 if(fault == NoFault) 573 { 574 //CWP should be set directly so that it always happens 575 //Also, this will allow writing to the new window and 576 //reading from the old one 577 Cwp = (Cwp - 1 + NWindows) % NWindows; 578 if(Canrestore == 0) 579 { 580 if(Otherwin) 581 fault = new FillNOther(Wstate<5:3>); 582 else 583 fault = new FillNNormal(Wstate<2:0>); 584 } 585 else 586 { 587 Rd = Rs1 + Rs2_or_imm13; 588 Cansave = Cansave + 1; 589 Canrestore = Canrestore - 1; 590 } 591 //This is here to make sure the CWP is written 592 //no matter what. This ensures that the results 593 //are written in the new window as well. 594 xc->setMiscRegWithEffect(MISCREG_CWP, Cwp); 595 } 596 }}); 597 0x3A: decode CC 598 { 599 0x0: Trap::tcci({{ 600 if(passesCondition(Ccr<3:0>, COND2)) 601 { 602 int lTrapNum = I ? (Rs1 + SW_TRAP) : (Rs1 + Rs2); 603 DPRINTF(Sparc, "The trap number is %d\n", lTrapNum); 604#if FULL_SYSTEM 605 fault = new TrapInstruction(lTrapNum); 606#else 607 DPRINTF(Sparc, "The syscall number is %d\n", R1); 608 xc->syscall(R1); 609#endif 610 } 611 }}); 612 0x2: Trap::tccx({{ 613 if(passesCondition(Ccr<7:4>, COND2)) 614 { 615 int lTrapNum = I ? (Rs1 + SW_TRAP) : (Rs1 + Rs2); 616 DPRINTF(Sparc, "The trap number is %d\n", lTrapNum); 617#if FULL_SYSTEM 618 fault = new TrapInstruction(lTrapNum); 619#else 620 DPRINTF(Sparc, "The syscall number is %d\n", R1); 621 xc->syscall(R1); 622#endif 623 } 624 }}); 625 } 626 0x3B: Nop::flush({{/*Instruction memory flush*/}}); 627 0x3C: save({{ 628 //CWP should be set directly so that it always happens 629 //Also, this will allow writing to the new window and 630 //reading from the old one 631 if(Cansave == 0) 632 { 633 if(Otherwin) 634 fault = new SpillNOther(Wstate<5:3>); 635 else 636 fault = new SpillNNormal(Wstate<2:0>); 637 Cwp = (Cwp + 2) % NWindows; 638 } 639 else if(Cleanwin - Canrestore == 0) 640 { 641 Cwp = (Cwp + 1) % NWindows; 642 fault = new CleanWindow; 643 } 644 else 645 { 646 Cwp = (Cwp + 1) % NWindows; 647 Rd = Rs1 + Rs2_or_imm13; 648 Cansave = Cansave - 1; 649 Canrestore = Canrestore + 1; 650 } 651 //This is here to make sure the CWP is written 652 //no matter what. This ensures that the results 653 //are written in the new window as well. 654 xc->setMiscRegWithEffect(MISCREG_CWP, Cwp); 655 }}); 656 0x3D: restore({{ 657 //CWP should be set directly so that it always happens 658 //Also, this will allow writing to the new window and 659 //reading from the old one 660 Cwp = (Cwp - 1 + NWindows) % NWindows; 661 if(Canrestore == 0) 662 { 663 if(Otherwin) 664 fault = new FillNOther(Wstate<5:3>); 665 else 666 fault = new FillNNormal(Wstate<2:0>); 667 } 668 else 669 { 670 Rd = Rs1 + Rs2_or_imm13; 671 Cansave = Cansave + 1; 672 Canrestore = Canrestore - 1; 673 } 674 //This is here to make sure the CWP is written 675 //no matter what. This ensures that the results 676 //are written in the new window as well. 677 xc->setMiscRegWithEffect(MISCREG_CWP, Cwp); 678 }}); 679 0x3E: decode FCN { 680 0x0: Priv::done({{ 681 if(Tl == 0) 682 return new IllegalInstruction; 683 684 Cwp = Tstate<4:0>; 685 Pstate = Tstate<20:8>; 686 Asi = Tstate<31:24>; 687 Ccr = Tstate<39:32>; 688 Gl = Tstate<42:40>; 689 NPC = Tnpc; 690 NNPC = Tnpc + 4; 691 Tl = Tl - 1; 692 }}); 693 0x1: Priv::retry({{ 694 if(Tl == 0) 695 return new IllegalInstruction; 696 Cwp = Tstate<4:0>; 697 Pstate = Tstate<20:8>; 698 Asi = Tstate<31:24>; 699 Ccr = Tstate<39:32>; 700 Gl = Tstate<42:40>; 701 NPC = Tpc; 702 NNPC = Tnpc + 4; 703 Tl = Tl - 1; 704 }}); 705 } 706 } 707 } 708 0x3: decode OP3 { 709 format Load { 710 0x00: lduw({{Rd = Mem;}}, {{32}}); 711 0x01: ldub({{Rd = Mem;}}, {{8}}); 712 0x02: lduh({{Rd = Mem;}}, {{16}}); 713 0x03: ldd({{ 714 uint64_t val = Mem; 715 RdLow = val<31:0>; 716 RdHigh = val<63:32>; 717 }}, {{64}}); 718 } 719 format Store { 720 0x04: stw({{Mem = Rd.sw;}}, {{32}}); 721 0x05: stb({{Mem = Rd.sb;}}, {{8}}); 722 0x06: sth({{Mem = Rd.shw;}}, {{16}}); 723 0x07: std({{Mem = RdLow<31:0> | RdHigh<31:0> << 32;}}, {{64}}); 724 } 725 format Load { 726 0x08: ldsw({{Rd = (int32_t)Mem;}}, {{32}}); 727 0x09: ldsb({{Rd = (int8_t)Mem;}}, {{8}}); 728 0x0A: ldsh({{Rd = (int16_t)Mem;}}, {{16}}); 729 0x0B: ldx({{Rd = (int64_t)Mem;}}, {{64}}); 730 0x0D: ldstub({{ 731 Rd = Mem; 732 Mem = 0xFF; 733 }}, {{8}}); 734 } 735 0x0E: Store::stx({{Mem = Rd}}, {{64}}); 736 0x0F: LoadStore::swap({{ 737 uint32_t temp = Rd; 738 Rd = Mem; 739 Mem = temp; 740 }}, {{32}}); 741 format Load { 742 0x10: lduwa({{Rd = Mem;}}, {{32}}); 743 0x11: lduba({{Rd = Mem;}}, {{8}}); 744 0x12: lduha({{Rd = Mem;}}, {{16}}); 745 0x13: ldda({{ 746 uint64_t val = Mem; 747 RdLow = val<31:0>; 748 RdHigh = val<63:32>; 749 }}, {{64}}); 750 } 751 format Store { 752 0x14: stwa({{Mem = Rd;}}, {{32}}); 753 0x15: stba({{Mem = Rd;}}, {{8}}); 754 0x16: stha({{Mem = Rd;}}, {{16}}); 755 0x17: stda({{Mem = RdLow<31:0> | RdHigh<31:0> << 32;}}, {{64}}); 756 } 757 format Load { 758 0x18: ldswa({{Rd = (int32_t)Mem;}}, {{32}}); 759 0x19: ldsba({{Rd = (int8_t)Mem;}}, {{8}}); 760 0x1A: ldsha({{Rd = (int16_t)Mem;}}, {{16}}); 761 0x1B: ldxa({{Rd = (int64_t)Mem;}}, {{64}}); 762 } 763 0x1D: LoadStore::ldstuba({{ 764 Rd = Mem; 765 Mem = 0xFF; 766 }}, {{8}}); 767 0x1E: Store::stxa({{Mem = Rd}}, {{64}}); 768 0x1F: LoadStore::swapa({{ 769 uint32_t temp = Rd; 770 Rd = Mem; 771 Mem = temp; 772 }}, {{32}}); 773 format Trap { 774 0x20: ldf({{fault = new FpDisabled;}}); 775 0x21: decode X { 776 0x0: Load::ldfsr({{Fsr = Mem<31:0> | Fsr<63:32>;}}, {{32}}); 777 0x1: Load::ldxfsr({{Fsr = Mem;}}, {{64}}); 778 } 779 0x22: ldqf({{fault = new FpDisabled;}}); 780 0x23: lddf({{fault = new FpDisabled;}}); 781 0x24: stf({{fault = new FpDisabled;}}); 782 0x25: decode X { 783 0x0: Store::stfsr({{Mem = Fsr<31:0>;}}, {{32}}); 784 0x1: Store::stxfsr({{Mem = Fsr;}}, {{64}}); 785 } 786 0x26: stqf({{fault = new FpDisabled;}}); 787 0x27: stdf({{fault = new FpDisabled;}}); 788 0x2D: Nop::prefetch({{ }}); 789 0x30: ldfa({{fault = new FpDisabled;}}); 790 0x32: ldqfa({{fault = new FpDisabled;}}); 791 0x33: lddfa({{fault = new FpDisabled;}}); 792 0x34: stfa({{fault = new FpDisabled;}}); 793 0x36: stqfa({{fault = new FpDisabled;}}); 794 //XXX need to work in the ASI thing 795 0x37: Store::stdfa({{Mem = ((uint64_t)Frd);}}, {{64}}); 796 0x3C: Cas::casa({{ 797 uint64_t val = Mem.uw; 798 if(Rs2.uw == val) 799 Mem.uw = Rd.uw; 800 Rd.uw = val; 801 }}); 802 0x3D: Nop::prefetcha({{ }}); 803 0x3E: Cas::casxa({{ 804 uint64_t val = Mem.udw; 805 if(Rs2 == val) 806 Mem.udw = Rd; 807 Rd = val; 808 }}); 809 } 810 } 811} 812