decode_impl.hh revision 3093
1/* 2 * Copyright (c) 2004-2006 The Regents of The University of Michigan 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions are 7 * met: redistributions of source code must retain the above copyright 8 * notice, this list of conditions and the following disclaimer; 9 * redistributions in binary form must reproduce the above copyright 10 * notice, this list of conditions and the following disclaimer in the 11 * documentation and/or other materials provided with the distribution; 12 * neither the name of the copyright holders nor the names of its 13 * contributors may be used to endorse or promote products derived from 14 * this software without specific prior written permission. 15 * 16 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 17 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 18 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 19 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 20 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 21 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 22 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 23 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 24 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 25 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 26 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 * 28 * Authors: Kevin Lim 29 */ 30 31#include "cpu/o3/decode.hh" 32 33template<class Impl> 34DefaultDecode<Impl>::DefaultDecode(Params *params) 35 : renameToDecodeDelay(params->renameToDecodeDelay), 36 iewToDecodeDelay(params->iewToDecodeDelay), 37 commitToDecodeDelay(params->commitToDecodeDelay), 38 fetchToDecodeDelay(params->fetchToDecodeDelay), 39 decodeWidth(params->decodeWidth), 40 numThreads(params->numberOfThreads) 41{ 42 _status = Inactive; 43 44 // Setup status, make sure stall signals are clear. 45 for (int i = 0; i < numThreads; ++i) { 46 decodeStatus[i] = Idle; 47 48 stalls[i].rename = false; 49 stalls[i].iew = false; 50 stalls[i].commit = false; 51 52 squashAfterDelaySlot[i] = false; 53 } 54 55 // @todo: Make into a parameter 56 skidBufferMax = (fetchToDecodeDelay * params->fetchWidth) + decodeWidth; 57} 58 59template <class Impl> 60std::string 61DefaultDecode<Impl>::name() const 62{ 63 return cpu->name() + ".decode"; 64} 65 66template <class Impl> 67void 68DefaultDecode<Impl>::regStats() 69{ 70 decodeIdleCycles 71 .name(name() + ".DECODE:IdleCycles") 72 .desc("Number of cycles decode is idle") 73 .prereq(decodeIdleCycles); 74 decodeBlockedCycles 75 .name(name() + ".DECODE:BlockedCycles") 76 .desc("Number of cycles decode is blocked") 77 .prereq(decodeBlockedCycles); 78 decodeRunCycles 79 .name(name() + ".DECODE:RunCycles") 80 .desc("Number of cycles decode is running") 81 .prereq(decodeRunCycles); 82 decodeUnblockCycles 83 .name(name() + ".DECODE:UnblockCycles") 84 .desc("Number of cycles decode is unblocking") 85 .prereq(decodeUnblockCycles); 86 decodeSquashCycles 87 .name(name() + ".DECODE:SquashCycles") 88 .desc("Number of cycles decode is squashing") 89 .prereq(decodeSquashCycles); 90 decodeBranchResolved 91 .name(name() + ".DECODE:BranchResolved") 92 .desc("Number of times decode resolved a branch") 93 .prereq(decodeBranchResolved); 94 decodeBranchMispred 95 .name(name() + ".DECODE:BranchMispred") 96 .desc("Number of times decode detected a branch misprediction") 97 .prereq(decodeBranchMispred); 98 decodeControlMispred 99 .name(name() + ".DECODE:ControlMispred") 100 .desc("Number of times decode detected an instruction incorrectly" 101 " predicted as a control") 102 .prereq(decodeControlMispred); 103 decodeDecodedInsts 104 .name(name() + ".DECODE:DecodedInsts") 105 .desc("Number of instructions handled by decode") 106 .prereq(decodeDecodedInsts); 107 decodeSquashedInsts 108 .name(name() + ".DECODE:SquashedInsts") 109 .desc("Number of squashed instructions handled by decode") 110 .prereq(decodeSquashedInsts); 111} 112 113template<class Impl> 114void 115DefaultDecode<Impl>::setCPU(O3CPU *cpu_ptr) 116{ 117 DPRINTF(Decode, "Setting CPU pointer.\n"); 118 cpu = cpu_ptr; 119} 120 121template<class Impl> 122void 123DefaultDecode<Impl>::setTimeBuffer(TimeBuffer<TimeStruct> *tb_ptr) 124{ 125 DPRINTF(Decode, "Setting time buffer pointer.\n"); 126 timeBuffer = tb_ptr; 127 128 // Setup wire to write information back to fetch. 129 toFetch = timeBuffer->getWire(0); 130 131 // Create wires to get information from proper places in time buffer. 132 fromRename = timeBuffer->getWire(-renameToDecodeDelay); 133 fromIEW = timeBuffer->getWire(-iewToDecodeDelay); 134 fromCommit = timeBuffer->getWire(-commitToDecodeDelay); 135} 136 137template<class Impl> 138void 139DefaultDecode<Impl>::setDecodeQueue(TimeBuffer<DecodeStruct> *dq_ptr) 140{ 141 DPRINTF(Decode, "Setting decode queue pointer.\n"); 142 decodeQueue = dq_ptr; 143 144 // Setup wire to write information to proper place in decode queue. 145 toRename = decodeQueue->getWire(0); 146} 147 148template<class Impl> 149void 150DefaultDecode<Impl>::setFetchQueue(TimeBuffer<FetchStruct> *fq_ptr) 151{ 152 DPRINTF(Decode, "Setting fetch queue pointer.\n"); 153 fetchQueue = fq_ptr; 154 155 // Setup wire to read information from fetch queue. 156 fromFetch = fetchQueue->getWire(-fetchToDecodeDelay); 157} 158 159template<class Impl> 160void 161DefaultDecode<Impl>::setActiveThreads(std::list<unsigned> *at_ptr) 162{ 163 DPRINTF(Decode, "Setting active threads list pointer.\n"); 164 activeThreads = at_ptr; 165} 166 167template <class Impl> 168bool 169DefaultDecode<Impl>::drain() 170{ 171 // Decode is done draining at any time. 172 cpu->signalDrained(); 173 return true; 174} 175 176template <class Impl> 177void 178DefaultDecode<Impl>::takeOverFrom() 179{ 180 _status = Inactive; 181 182 // Be sure to reset state and clear out any old instructions. 183 for (int i = 0; i < numThreads; ++i) { 184 decodeStatus[i] = Idle; 185 186 stalls[i].rename = false; 187 stalls[i].iew = false; 188 stalls[i].commit = false; 189 while (!insts[i].empty()) 190 insts[i].pop(); 191 while (!skidBuffer[i].empty()) 192 skidBuffer[i].pop(); 193 branchCount[i] = 0; 194 } 195 wroteToTimeBuffer = false; 196} 197 198template<class Impl> 199bool 200DefaultDecode<Impl>::checkStall(unsigned tid) const 201{ 202 bool ret_val = false; 203 204 if (stalls[tid].rename) { 205 DPRINTF(Decode,"[tid:%i]: Stall fom Rename stage detected.\n", tid); 206 ret_val = true; 207 } else if (stalls[tid].iew) { 208 DPRINTF(Decode,"[tid:%i]: Stall fom IEW stage detected.\n", tid); 209 ret_val = true; 210 } else if (stalls[tid].commit) { 211 DPRINTF(Decode,"[tid:%i]: Stall fom Commit stage detected.\n", tid); 212 ret_val = true; 213 } 214 215 return ret_val; 216} 217 218template<class Impl> 219inline bool 220DefaultDecode<Impl>::fetchInstsValid() 221{ 222 return fromFetch->size > 0; 223} 224 225template<class Impl> 226bool 227DefaultDecode<Impl>::block(unsigned tid) 228{ 229 DPRINTF(Decode, "[tid:%u]: Blocking.\n", tid); 230 231 // Add the current inputs to the skid buffer so they can be 232 // reprocessed when this stage unblocks. 233 skidInsert(tid); 234 235 // If the decode status is blocked or unblocking then decode has not yet 236 // signalled fetch to unblock. In that case, there is no need to tell 237 // fetch to block. 238 if (decodeStatus[tid] != Blocked) { 239 // Set the status to Blocked. 240 decodeStatus[tid] = Blocked; 241 242 if (decodeStatus[tid] != Unblocking) { 243 toFetch->decodeBlock[tid] = true; 244 wroteToTimeBuffer = true; 245 } 246 247 return true; 248 } 249 250 return false; 251} 252 253template<class Impl> 254bool 255DefaultDecode<Impl>::unblock(unsigned tid) 256{ 257 // Decode is done unblocking only if the skid buffer is empty. 258 if (skidBuffer[tid].empty()) { 259 DPRINTF(Decode, "[tid:%u]: Done unblocking.\n", tid); 260 toFetch->decodeUnblock[tid] = true; 261 wroteToTimeBuffer = true; 262 263 decodeStatus[tid] = Running; 264 return true; 265 } 266 267 DPRINTF(Decode, "[tid:%u]: Currently unblocking.\n", tid); 268 269 return false; 270} 271 272template<class Impl> 273void 274DefaultDecode<Impl>::squash(DynInstPtr &inst, unsigned tid) 275{ 276 DPRINTF(Decode, "[tid:%i]: Squashing due to incorrect branch prediction " 277 "detected at decode.\n", tid); 278 279 // Send back mispredict information. 280 toFetch->decodeInfo[tid].branchMispredict = true; 281 toFetch->decodeInfo[tid].predIncorrect = true; 282 toFetch->decodeInfo[tid].doneSeqNum = inst->seqNum; 283 toFetch->decodeInfo[tid].squash = true; 284 toFetch->decodeInfo[tid].nextPC = inst->branchTarget(); 285#if ISA_HAS_DELAY_SLOT 286 toFetch->decodeInfo[tid].branchTaken = inst->readNextNPC() != 287 (inst->readNextPC() + sizeof(TheISA::MachInst)); 288 289 toFetch->decodeInfo[tid].bdelayDoneSeqNum = bdelayDoneSeqNum[tid]; 290 squashAfterDelaySlot[tid] = false; 291 292 InstSeqNum squash_seq_num = bdelayDoneSeqNum[tid]; 293#else 294 toFetch->decodeInfo[tid].branchTaken = 295 inst->readNextPC() != (inst->readPC() + sizeof(TheISA::MachInst)); 296 297 InstSeqNum squash_seq_num = inst->seqNum; 298#endif 299 300 // Might have to tell fetch to unblock. 301 if (decodeStatus[tid] == Blocked || 302 decodeStatus[tid] == Unblocking) { 303 toFetch->decodeUnblock[tid] = 1; 304 } 305 306 // Set status to squashing. 307 decodeStatus[tid] = Squashing; 308 309 for (int i=0; i<fromFetch->size; i++) { 310 if (fromFetch->insts[i]->threadNumber == tid && 311 fromFetch->insts[i]->seqNum > squash_seq_num) { 312 fromFetch->insts[i]->setSquashed(); 313 } 314 } 315 316 // Clear the instruction list and skid buffer in case they have any 317 // insts in them. 318 while (!insts[tid].empty()) { 319 320#if ISA_HAS_DELAY_SLOT 321 if (insts[tid].front()->seqNum <= squash_seq_num) { 322 DPRINTF(Decode, "[tid:%i]: Cannot remove incoming decode " 323 "instructions before delay slot [sn:%i]. %i insts" 324 "left in decode.\n", tid, squash_seq_num, 325 insts[tid].size()); 326 break; 327 } 328#endif 329 insts[tid].pop(); 330 } 331 332 while (!skidBuffer[tid].empty()) { 333 334#if ISA_HAS_DELAY_SLOT 335 if (skidBuffer[tid].front()->seqNum <= squash_seq_num) { 336 DPRINTF(Decode, "[tid:%i]: Cannot remove skidBuffer " 337 "instructions before delay slot [sn:%i]. %i insts" 338 "left in decode.\n", tid, squash_seq_num, 339 insts[tid].size()); 340 break; 341 } 342#endif 343 skidBuffer[tid].pop(); 344 } 345 346 // Squash instructions up until this one 347 cpu->removeInstsUntil(squash_seq_num, tid); 348} 349 350template<class Impl> 351unsigned 352DefaultDecode<Impl>::squash(unsigned tid) 353{ 354 DPRINTF(Decode, "[tid:%i]: Squashing.\n",tid); 355 356 if (decodeStatus[tid] == Blocked || 357 decodeStatus[tid] == Unblocking) { 358#if !FULL_SYSTEM 359 // In syscall emulation, we can have both a block and a squash due 360 // to a syscall in the same cycle. This would cause both signals to 361 // be high. This shouldn't happen in full system. 362 // @todo: Determine if this still happens. 363 if (toFetch->decodeBlock[tid]) { 364 toFetch->decodeBlock[tid] = 0; 365 } else { 366 toFetch->decodeUnblock[tid] = 1; 367 } 368#else 369 toFetch->decodeUnblock[tid] = 1; 370#endif 371 } 372 373 // Set status to squashing. 374 decodeStatus[tid] = Squashing; 375 376 // Go through incoming instructions from fetch and squash them. 377 unsigned squash_count = 0; 378 379 for (int i=0; i<fromFetch->size; i++) { 380 if (fromFetch->insts[i]->threadNumber == tid) { 381 fromFetch->insts[i]->setSquashed(); 382 squash_count++; 383 } 384 } 385 386 // Clear the instruction list and skid buffer in case they have any 387 // insts in them. 388 while (!insts[tid].empty()) { 389 insts[tid].pop(); 390 } 391 392 while (!skidBuffer[tid].empty()) { 393 skidBuffer[tid].pop(); 394 } 395 396 return squash_count; 397} 398 399template<class Impl> 400void 401DefaultDecode<Impl>::skidInsert(unsigned tid) 402{ 403 DynInstPtr inst = NULL; 404 405 while (!insts[tid].empty()) { 406 inst = insts[tid].front(); 407 408 insts[tid].pop(); 409 410 assert(tid == inst->threadNumber); 411 412 DPRINTF(Decode,"Inserting [sn:%lli] PC:%#x into decode skidBuffer %i\n", 413 inst->seqNum, inst->readPC(), inst->threadNumber); 414 415 skidBuffer[tid].push(inst); 416 } 417 418 // @todo: Eventually need to enforce this by not letting a thread 419 // fetch past its skidbuffer 420 assert(skidBuffer[tid].size() <= skidBufferMax); 421} 422 423template<class Impl> 424bool 425DefaultDecode<Impl>::skidsEmpty() 426{ 427 std::list<unsigned>::iterator threads = (*activeThreads).begin(); 428 429 while (threads != (*activeThreads).end()) { 430 if (!skidBuffer[*threads++].empty()) 431 return false; 432 } 433 434 return true; 435} 436 437template<class Impl> 438void 439DefaultDecode<Impl>::updateStatus() 440{ 441 bool any_unblocking = false; 442 443 std::list<unsigned>::iterator threads = (*activeThreads).begin(); 444 445 threads = (*activeThreads).begin(); 446 447 while (threads != (*activeThreads).end()) { 448 unsigned tid = *threads++; 449 450 if (decodeStatus[tid] == Unblocking) { 451 any_unblocking = true; 452 break; 453 } 454 } 455 456 // Decode will have activity if it's unblocking. 457 if (any_unblocking) { 458 if (_status == Inactive) { 459 _status = Active; 460 461 DPRINTF(Activity, "Activating stage.\n"); 462 463 cpu->activateStage(O3CPU::DecodeIdx); 464 } 465 } else { 466 // If it's not unblocking, then decode will not have any internal 467 // activity. Switch it to inactive. 468 if (_status == Active) { 469 _status = Inactive; 470 DPRINTF(Activity, "Deactivating stage.\n"); 471 472 cpu->deactivateStage(O3CPU::DecodeIdx); 473 } 474 } 475} 476 477template <class Impl> 478void 479DefaultDecode<Impl>::sortInsts() 480{ 481 int insts_from_fetch = fromFetch->size; 482#ifdef DEBUG 483 for (int i=0; i < numThreads; i++) 484 assert(insts[i].empty()); 485#endif 486 for (int i = 0; i < insts_from_fetch; ++i) { 487 insts[fromFetch->insts[i]->threadNumber].push(fromFetch->insts[i]); 488 } 489} 490 491template<class Impl> 492void 493DefaultDecode<Impl>::readStallSignals(unsigned tid) 494{ 495 if (fromRename->renameBlock[tid]) { 496 stalls[tid].rename = true; 497 } 498 499 if (fromRename->renameUnblock[tid]) { 500 assert(stalls[tid].rename); 501 stalls[tid].rename = false; 502 } 503 504 if (fromIEW->iewBlock[tid]) { 505 stalls[tid].iew = true; 506 } 507 508 if (fromIEW->iewUnblock[tid]) { 509 assert(stalls[tid].iew); 510 stalls[tid].iew = false; 511 } 512 513 if (fromCommit->commitBlock[tid]) { 514 stalls[tid].commit = true; 515 } 516 517 if (fromCommit->commitUnblock[tid]) { 518 assert(stalls[tid].commit); 519 stalls[tid].commit = false; 520 } 521} 522 523template <class Impl> 524bool 525DefaultDecode<Impl>::checkSignalsAndUpdate(unsigned tid) 526{ 527 // Check if there's a squash signal, squash if there is. 528 // Check stall signals, block if necessary. 529 // If status was blocked 530 // Check if stall conditions have passed 531 // if so then go to unblocking 532 // If status was Squashing 533 // check if squashing is not high. Switch to running this cycle. 534 535 // Update the per thread stall statuses. 536 readStallSignals(tid); 537 538 // Check squash signals from commit. 539 if (fromCommit->commitInfo[tid].squash) { 540 541 DPRINTF(Decode, "[tid:%u]: Squashing instructions due to squash " 542 "from commit.\n", tid); 543 544 squash(tid); 545 546 return true; 547 } 548 549 // Check ROB squash signals from commit. 550 if (fromCommit->commitInfo[tid].robSquashing) { 551 DPRINTF(Decode, "[tid:%u]: ROB is still squashing.\n", tid); 552 553 // Continue to squash. 554 decodeStatus[tid] = Squashing; 555 556 return true; 557 } 558 559 if (checkStall(tid)) { 560 return block(tid); 561 } 562 563 if (decodeStatus[tid] == Blocked) { 564 DPRINTF(Decode, "[tid:%u]: Done blocking, switching to unblocking.\n", 565 tid); 566 567 decodeStatus[tid] = Unblocking; 568 569 unblock(tid); 570 571 return true; 572 } 573 574 if (decodeStatus[tid] == Squashing) { 575 // Switch status to running if decode isn't being told to block or 576 // squash this cycle. 577 DPRINTF(Decode, "[tid:%u]: Done squashing, switching to running.\n", 578 tid); 579 580 decodeStatus[tid] = Running; 581 582 return false; 583 } 584 585 // If we've reached this point, we have not gotten any signals that 586 // cause decode to change its status. Decode remains the same as before. 587 return false; 588} 589 590template<class Impl> 591void 592DefaultDecode<Impl>::tick() 593{ 594 wroteToTimeBuffer = false; 595 596 bool status_change = false; 597 598 toRenameIndex = 0; 599 600 std::list<unsigned>::iterator threads = (*activeThreads).begin(); 601 602 sortInsts(); 603 604 //Check stall and squash signals. 605 while (threads != (*activeThreads).end()) { 606 unsigned tid = *threads++; 607 608 DPRINTF(Decode,"Processing [tid:%i]\n",tid); 609 status_change = checkSignalsAndUpdate(tid) || status_change; 610 611 decode(status_change, tid); 612 } 613 614 if (status_change) { 615 updateStatus(); 616 } 617 618 if (wroteToTimeBuffer) { 619 DPRINTF(Activity, "Activity this cycle.\n"); 620 621 cpu->activityThisCycle(); 622 } 623} 624 625template<class Impl> 626void 627DefaultDecode<Impl>::decode(bool &status_change, unsigned tid) 628{ 629 // If status is Running or idle, 630 // call decodeInsts() 631 // If status is Unblocking, 632 // buffer any instructions coming from fetch 633 // continue trying to empty skid buffer 634 // check if stall conditions have passed 635 636 if (decodeStatus[tid] == Blocked) { 637 ++decodeBlockedCycles; 638 } else if (decodeStatus[tid] == Squashing) { 639 ++decodeSquashCycles; 640 } 641 642 // Decode should try to decode as many instructions as its bandwidth 643 // will allow, as long as it is not currently blocked. 644 if (decodeStatus[tid] == Running || 645 decodeStatus[tid] == Idle) { 646 DPRINTF(Decode, "[tid:%u]: Not blocked, so attempting to run " 647 "stage.\n",tid); 648 649 decodeInsts(tid); 650 } else if (decodeStatus[tid] == Unblocking) { 651 // Make sure that the skid buffer has something in it if the 652 // status is unblocking. 653 assert(!skidsEmpty()); 654 655 // If the status was unblocking, then instructions from the skid 656 // buffer were used. Remove those instructions and handle 657 // the rest of unblocking. 658 decodeInsts(tid); 659 660 if (fetchInstsValid()) { 661 // Add the current inputs to the skid buffer so they can be 662 // reprocessed when this stage unblocks. 663 skidInsert(tid); 664 } 665 666 status_change = unblock(tid) || status_change; 667 } 668} 669 670template <class Impl> 671void 672DefaultDecode<Impl>::decodeInsts(unsigned tid) 673{ 674 // Instructions can come either from the skid buffer or the list of 675 // instructions coming from fetch, depending on decode's status. 676 int insts_available = decodeStatus[tid] == Unblocking ? 677 skidBuffer[tid].size() : insts[tid].size(); 678 679 if (insts_available == 0) { 680 DPRINTF(Decode, "[tid:%u] Nothing to do, breaking out" 681 " early.\n",tid); 682 // Should I change the status to idle? 683 ++decodeIdleCycles; 684 return; 685 } else if (decodeStatus[tid] == Unblocking) { 686 DPRINTF(Decode, "[tid:%u] Unblocking, removing insts from skid " 687 "buffer.\n",tid); 688 ++decodeUnblockCycles; 689 } else if (decodeStatus[tid] == Running) { 690 ++decodeRunCycles; 691 } 692 693 DynInstPtr inst; 694 695 std::queue<DynInstPtr> 696 &insts_to_decode = decodeStatus[tid] == Unblocking ? 697 skidBuffer[tid] : insts[tid]; 698 699 DPRINTF(Decode, "[tid:%u]: Sending instruction to rename.\n",tid); 700 701 while (insts_available > 0 && toRenameIndex < decodeWidth) { 702 assert(!insts_to_decode.empty()); 703 704 inst = insts_to_decode.front(); 705 706 insts_to_decode.pop(); 707 708 DPRINTF(Decode, "[tid:%u]: Processing instruction [sn:%lli] with " 709 "PC %#x\n", 710 tid, inst->seqNum, inst->readPC()); 711 712 if (inst->isSquashed()) { 713 DPRINTF(Decode, "[tid:%u]: Instruction %i with PC %#x is " 714 "squashed, skipping.\n", 715 tid, inst->seqNum, inst->readPC()); 716 717 ++decodeSquashedInsts; 718 719 --insts_available; 720 721 continue; 722 } 723 724 // Also check if instructions have no source registers. Mark 725 // them as ready to issue at any time. Not sure if this check 726 // should exist here or at a later stage; however it doesn't matter 727 // too much for function correctness. 728 if (inst->numSrcRegs() == 0) { 729 inst->setCanIssue(); 730 } 731 732 // This current instruction is valid, so add it into the decode 733 // queue. The next instruction may not be valid, so check to 734 // see if branches were predicted correctly. 735 toRename->insts[toRenameIndex] = inst; 736 737 ++(toRename->size); 738 ++toRenameIndex; 739 ++decodeDecodedInsts; 740 --insts_available; 741 742 // Ensure that if it was predicted as a branch, it really is a 743 // branch. 744 if (inst->predTaken() && !inst->isControl()) { 745 DPRINTF(Decode, "PredPC : %#x != NextPC: %#x\n",inst->predPC, 746 inst->nextPC + 4); 747 748 panic("Instruction predicted as a branch!"); 749 750 ++decodeControlMispred; 751 752 // Might want to set some sort of boolean and just do 753 // a check at the end 754 squash(inst, inst->threadNumber); 755 756 break; 757 } 758 759 // Go ahead and compute any PC-relative branches. 760 if (inst->isDirectCtrl() && inst->isUncondCtrl()) { 761 ++decodeBranchResolved; 762 763 if (inst->branchTarget() != inst->readPredTarg()) { 764 ++decodeBranchMispred; 765 766 // Might want to set some sort of boolean and just do 767 // a check at the end 768#if !ISA_HAS_DELAY_SLOT 769 squash(inst, inst->threadNumber); 770 inst->setPredTarg(inst->branchTarget()); 771 break; 772#else 773 // If mispredicted as taken, then ignore delay slot 774 // instruction... else keep delay slot and squash 775 // after it is sent to rename 776 if (inst->predTaken() && inst->isCondDelaySlot()) { 777 DPRINTF(Decode, "[tid:%i]: Conditional delay slot inst." 778 "[sn:%i] PC %#x mispredicted as taken.\n", tid, 779 inst->seqNum, inst->PC); 780 bdelayDoneSeqNum[tid] = inst->seqNum; 781 squash(inst, inst->threadNumber); 782 inst->setPredTarg(inst->branchTarget()); 783 break; 784 } else { 785 DPRINTF(Decode, "[tid:%i]: Misprediction detected at " 786 "[sn:%i] PC %#x, will squash after delay slot " 787 "inst. is sent to Rename\n", 788 tid, inst->seqNum, inst->PC); 789 bdelayDoneSeqNum[tid] = inst->seqNum + 1; 790 squashAfterDelaySlot[tid] = true; 791 squashInst[tid] = inst; 792 continue; 793 } 794#endif 795 } 796 } 797 798 if (squashAfterDelaySlot[tid]) { 799 assert(!inst->isSquashed()); 800 squash(squashInst[tid], squashInst[tid]->threadNumber); 801 squashInst[tid]->setPredTarg(squashInst[tid]->branchTarget()); 802 assert(!inst->isSquashed()); 803 break; 804 } 805 } 806 807 // If we didn't process all instructions, then we will need to block 808 // and put all those instructions into the skid buffer. 809 if (!insts_to_decode.empty()) { 810 block(tid); 811 } 812 813 // Record that decode has written to the time buffer for activity 814 // tracking. 815 if (toRenameIndex) { 816 wroteToTimeBuffer = true; 817 } 818} 819