tlb.cc revision 7741
1/* 2 * Copyright (c) 2001-2005 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: Ali Saidi 29 */ 30 31#include <cstring> 32 33#include "arch/sparc/asi.hh" 34#include "arch/sparc/faults.hh" 35#include "arch/sparc/registers.hh" 36#include "arch/sparc/tlb.hh" 37#include "base/bitfield.hh" 38#include "base/trace.hh" 39#include "cpu/thread_context.hh" 40#include "cpu/base.hh" 41#include "mem/packet_access.hh" 42#include "mem/request.hh" 43#include "sim/system.hh" 44 45/* @todo remove some of the magic constants. -- ali 46 * */ 47namespace SparcISA { 48 49TLB::TLB(const Params *p) 50 : BaseTLB(p), size(p->size), usedEntries(0), lastReplaced(0), 51 cacheValid(false) 52{ 53 // To make this work you'll have to change the hypervisor and OS 54 if (size > 64) 55 fatal("SPARC T1 TLB registers don't support more than 64 TLB entries"); 56 57 tlb = new TlbEntry[size]; 58 std::memset(tlb, 0, sizeof(TlbEntry) * size); 59 60 for (int x = 0; x < size; x++) 61 freeList.push_back(&tlb[x]); 62 63 c0_tsb_ps0 = 0; 64 c0_tsb_ps1 = 0; 65 c0_config = 0; 66 cx_tsb_ps0 = 0; 67 cx_tsb_ps1 = 0; 68 cx_config = 0; 69 sfsr = 0; 70 tag_access = 0; 71 sfar = 0; 72 cacheEntry[0] = NULL; 73 cacheEntry[1] = NULL; 74} 75 76void 77TLB::clearUsedBits() 78{ 79 MapIter i; 80 for (i = lookupTable.begin(); i != lookupTable.end(); i++) { 81 TlbEntry *t = i->second; 82 if (!t->pte.locked()) { 83 t->used = false; 84 usedEntries--; 85 } 86 } 87} 88 89 90void 91TLB::insert(Addr va, int partition_id, int context_id, bool real, 92 const PageTableEntry& PTE, int entry) 93{ 94 MapIter i; 95 TlbEntry *new_entry = NULL; 96// TlbRange tr; 97 int x; 98 99 cacheValid = false; 100 va &= ~(PTE.size()-1); 101 /* tr.va = va; 102 tr.size = PTE.size() - 1; 103 tr.contextId = context_id; 104 tr.partitionId = partition_id; 105 tr.real = real; 106*/ 107 108 DPRINTF(TLB, 109 "TLB: Inserting Entry; va=%#x pa=%#x pid=%d cid=%d r=%d entryid=%d\n", 110 va, PTE.paddr(), partition_id, context_id, (int)real, entry); 111 112 // Demap any entry that conflicts 113 for (x = 0; x < size; x++) { 114 if (tlb[x].range.real == real && 115 tlb[x].range.partitionId == partition_id && 116 tlb[x].range.va < va + PTE.size() - 1 && 117 tlb[x].range.va + tlb[x].range.size >= va && 118 (real || tlb[x].range.contextId == context_id )) 119 { 120 if (tlb[x].valid) { 121 freeList.push_front(&tlb[x]); 122 DPRINTF(TLB, "TLB: Conflicting entry %#X , deleting it\n", x); 123 124 tlb[x].valid = false; 125 if (tlb[x].used) { 126 tlb[x].used = false; 127 usedEntries--; 128 } 129 lookupTable.erase(tlb[x].range); 130 } 131 } 132 } 133 134 if (entry != -1) { 135 assert(entry < size && entry >= 0); 136 new_entry = &tlb[entry]; 137 } else { 138 if (!freeList.empty()) { 139 new_entry = freeList.front(); 140 } else { 141 x = lastReplaced; 142 do { 143 ++x; 144 if (x == size) 145 x = 0; 146 if (x == lastReplaced) 147 goto insertAllLocked; 148 } while (tlb[x].pte.locked()); 149 lastReplaced = x; 150 new_entry = &tlb[x]; 151 } 152 } 153 154insertAllLocked: 155 // Update the last ently if their all locked 156 if (!new_entry) { 157 new_entry = &tlb[size-1]; 158 } 159 160 freeList.remove(new_entry); 161 if (new_entry->valid && new_entry->used) 162 usedEntries--; 163 if (new_entry->valid) 164 lookupTable.erase(new_entry->range); 165 166 167 assert(PTE.valid()); 168 new_entry->range.va = va; 169 new_entry->range.size = PTE.size() - 1; 170 new_entry->range.partitionId = partition_id; 171 new_entry->range.contextId = context_id; 172 new_entry->range.real = real; 173 new_entry->pte = PTE; 174 new_entry->used = true;; 175 new_entry->valid = true; 176 usedEntries++; 177 178 i = lookupTable.insert(new_entry->range, new_entry); 179 assert(i != lookupTable.end()); 180 181 // If all entries have their used bit set, clear it on them all, 182 // but the one we just inserted 183 if (usedEntries == size) { 184 clearUsedBits(); 185 new_entry->used = true; 186 usedEntries++; 187 } 188} 189 190 191TlbEntry* 192TLB::lookup(Addr va, int partition_id, bool real, int context_id, 193 bool update_used) 194{ 195 MapIter i; 196 TlbRange tr; 197 TlbEntry *t; 198 199 DPRINTF(TLB, "TLB: Looking up entry va=%#x pid=%d cid=%d r=%d\n", 200 va, partition_id, context_id, real); 201 // Assemble full address structure 202 tr.va = va; 203 tr.size = 1; 204 tr.contextId = context_id; 205 tr.partitionId = partition_id; 206 tr.real = real; 207 208 // Try to find the entry 209 i = lookupTable.find(tr); 210 if (i == lookupTable.end()) { 211 DPRINTF(TLB, "TLB: No valid entry found\n"); 212 return NULL; 213 } 214 215 // Mark the entries used bit and clear other used bits in needed 216 t = i->second; 217 DPRINTF(TLB, "TLB: Valid entry found pa: %#x size: %#x\n", t->pte.paddr(), 218 t->pte.size()); 219 220 // Update the used bits only if this is a real access (not a fake 221 // one from virttophys() 222 if (!t->used && update_used) { 223 t->used = true; 224 usedEntries++; 225 if (usedEntries == size) { 226 clearUsedBits(); 227 t->used = true; 228 usedEntries++; 229 } 230 } 231 232 return t; 233} 234 235void 236TLB::dumpAll() 237{ 238 MapIter i; 239 for (int x = 0; x < size; x++) { 240 if (tlb[x].valid) { 241 DPRINTFN("%4d: %#2x:%#2x %c %#4x %#8x %#8x %#16x\n", 242 x, tlb[x].range.partitionId, tlb[x].range.contextId, 243 tlb[x].range.real ? 'R' : ' ', tlb[x].range.size, 244 tlb[x].range.va, tlb[x].pte.paddr(), tlb[x].pte()); 245 } 246 } 247} 248 249void 250TLB::demapPage(Addr va, int partition_id, bool real, int context_id) 251{ 252 TlbRange tr; 253 MapIter i; 254 255 DPRINTF(IPR, "TLB: Demapping Page va=%#x pid=%#d cid=%d r=%d\n", 256 va, partition_id, context_id, real); 257 258 cacheValid = false; 259 260 // Assemble full address structure 261 tr.va = va; 262 tr.size = 1; 263 tr.contextId = context_id; 264 tr.partitionId = partition_id; 265 tr.real = real; 266 267 // Demap any entry that conflicts 268 i = lookupTable.find(tr); 269 if (i != lookupTable.end()) { 270 DPRINTF(IPR, "TLB: Demapped page\n"); 271 i->second->valid = false; 272 if (i->second->used) { 273 i->second->used = false; 274 usedEntries--; 275 } 276 freeList.push_front(i->second); 277 lookupTable.erase(i); 278 } 279} 280 281void 282TLB::demapContext(int partition_id, int context_id) 283{ 284 DPRINTF(IPR, "TLB: Demapping Context pid=%#d cid=%d\n", 285 partition_id, context_id); 286 cacheValid = false; 287 for (int x = 0; x < size; x++) { 288 if (tlb[x].range.contextId == context_id && 289 tlb[x].range.partitionId == partition_id) { 290 if (tlb[x].valid == true) { 291 freeList.push_front(&tlb[x]); 292 } 293 tlb[x].valid = false; 294 if (tlb[x].used) { 295 tlb[x].used = false; 296 usedEntries--; 297 } 298 lookupTable.erase(tlb[x].range); 299 } 300 } 301} 302 303void 304TLB::demapAll(int partition_id) 305{ 306 DPRINTF(TLB, "TLB: Demapping All pid=%#d\n", partition_id); 307 cacheValid = false; 308 for (int x = 0; x < size; x++) { 309 if (tlb[x].valid && !tlb[x].pte.locked() && 310 tlb[x].range.partitionId == partition_id) { 311 freeList.push_front(&tlb[x]); 312 tlb[x].valid = false; 313 if (tlb[x].used) { 314 tlb[x].used = false; 315 usedEntries--; 316 } 317 lookupTable.erase(tlb[x].range); 318 } 319 } 320} 321 322void 323TLB::invalidateAll() 324{ 325 cacheValid = false; 326 lookupTable.clear(); 327 328 for (int x = 0; x < size; x++) { 329 if (tlb[x].valid == true) 330 freeList.push_back(&tlb[x]); 331 tlb[x].valid = false; 332 tlb[x].used = false; 333 } 334 usedEntries = 0; 335} 336 337uint64_t 338TLB::TteRead(int entry) 339{ 340 if (entry >= size) 341 panic("entry: %d\n", entry); 342 343 assert(entry < size); 344 if (tlb[entry].valid) 345 return tlb[entry].pte(); 346 else 347 return (uint64_t)-1ll; 348} 349 350uint64_t 351TLB::TagRead(int entry) 352{ 353 assert(entry < size); 354 uint64_t tag; 355 if (!tlb[entry].valid) 356 return (uint64_t)-1ll; 357 358 tag = tlb[entry].range.contextId; 359 tag |= tlb[entry].range.va; 360 tag |= (uint64_t)tlb[entry].range.partitionId << 61; 361 tag |= tlb[entry].range.real ? ULL(1) << 60 : 0; 362 tag |= (uint64_t)~tlb[entry].pte._size() << 56; 363 return tag; 364} 365 366bool 367TLB::validVirtualAddress(Addr va, bool am) 368{ 369 if (am) 370 return true; 371 if (va >= StartVAddrHole && va <= EndVAddrHole) 372 return false; 373 return true; 374} 375 376void 377TLB::writeSfsr(bool write, ContextType ct, bool se, FaultTypes ft, int asi) 378{ 379 if (sfsr & 0x1) 380 sfsr = 0x3; 381 else 382 sfsr = 1; 383 384 if (write) 385 sfsr |= 1 << 2; 386 sfsr |= ct << 4; 387 if (se) 388 sfsr |= 1 << 6; 389 sfsr |= ft << 7; 390 sfsr |= asi << 16; 391} 392 393void 394TLB::writeTagAccess(Addr va, int context) 395{ 396 DPRINTF(TLB, "TLB: Writing Tag Access: va: %#X ctx: %#X value: %#X\n", 397 va, context, mbits(va, 63,13) | mbits(context,12,0)); 398 399 tag_access = mbits(va, 63,13) | mbits(context,12,0); 400} 401 402void 403TLB::writeSfsr(Addr a, bool write, ContextType ct, 404 bool se, FaultTypes ft, int asi) 405{ 406 DPRINTF(TLB, "TLB: Fault: A=%#x w=%d ct=%d ft=%d asi=%d\n", 407 a, (int)write, ct, ft, asi); 408 TLB::writeSfsr(write, ct, se, ft, asi); 409 sfar = a; 410} 411 412Fault 413TLB::translateInst(RequestPtr req, ThreadContext *tc) 414{ 415 uint64_t tlbdata = tc->readMiscRegNoEffect(MISCREG_TLB_DATA); 416 417 Addr vaddr = req->getVaddr(); 418 TlbEntry *e; 419 420 assert(req->getAsi() == ASI_IMPLICIT); 421 422 DPRINTF(TLB, "TLB: ITB Request to translate va=%#x size=%d\n", 423 vaddr, req->getSize()); 424 425 // Be fast if we can! 426 if (cacheValid && cacheState == tlbdata) { 427 if (cacheEntry[0]) { 428 if (cacheEntry[0]->range.va < vaddr + sizeof(MachInst) && 429 cacheEntry[0]->range.va + cacheEntry[0]->range.size >= vaddr) { 430 req->setPaddr(cacheEntry[0]->pte.translate(vaddr)); 431 return NoFault; 432 } 433 } else { 434 req->setPaddr(vaddr & PAddrImplMask); 435 return NoFault; 436 } 437 } 438 439 bool hpriv = bits(tlbdata,0,0); 440 bool red = bits(tlbdata,1,1); 441 bool priv = bits(tlbdata,2,2); 442 bool addr_mask = bits(tlbdata,3,3); 443 bool lsu_im = bits(tlbdata,4,4); 444 445 int part_id = bits(tlbdata,15,8); 446 int tl = bits(tlbdata,18,16); 447 int pri_context = bits(tlbdata,47,32); 448 int context; 449 ContextType ct; 450 int asi; 451 bool real = false; 452 453 DPRINTF(TLB, "TLB: priv:%d hpriv:%d red:%d lsuim:%d part_id: %#X\n", 454 priv, hpriv, red, lsu_im, part_id); 455 456 if (tl > 0) { 457 asi = ASI_N; 458 ct = Nucleus; 459 context = 0; 460 } else { 461 asi = ASI_P; 462 ct = Primary; 463 context = pri_context; 464 } 465 466 if ( hpriv || red ) { 467 cacheValid = true; 468 cacheState = tlbdata; 469 cacheEntry[0] = NULL; 470 req->setPaddr(vaddr & PAddrImplMask); 471 return NoFault; 472 } 473 474 // If the access is unaligned trap 475 if (vaddr & 0x3) { 476 writeSfsr(false, ct, false, OtherFault, asi); 477 return new MemAddressNotAligned; 478 } 479 480 if (addr_mask) 481 vaddr = vaddr & VAddrAMask; 482 483 if (!validVirtualAddress(vaddr, addr_mask)) { 484 writeSfsr(false, ct, false, VaOutOfRange, asi); 485 return new InstructionAccessException; 486 } 487 488 if (!lsu_im) { 489 e = lookup(vaddr, part_id, true); 490 real = true; 491 context = 0; 492 } else { 493 e = lookup(vaddr, part_id, false, context); 494 } 495 496 if (e == NULL || !e->valid) { 497 writeTagAccess(vaddr, context); 498 if (real) 499 return new InstructionRealTranslationMiss; 500 else 501#if FULL_SYSTEM 502 return new FastInstructionAccessMMUMiss; 503#else 504 return new FastInstructionAccessMMUMiss(req->getVaddr()); 505#endif 506 } 507 508 // were not priviledged accesing priv page 509 if (!priv && e->pte.priv()) { 510 writeTagAccess(vaddr, context); 511 writeSfsr(false, ct, false, PrivViolation, asi); 512 return new InstructionAccessException; 513 } 514 515 // cache translation date for next translation 516 cacheValid = true; 517 cacheState = tlbdata; 518 cacheEntry[0] = e; 519 520 req->setPaddr(e->pte.translate(vaddr)); 521 DPRINTF(TLB, "TLB: %#X -> %#X\n", vaddr, req->getPaddr()); 522 return NoFault; 523} 524 525Fault 526TLB::translateData(RequestPtr req, ThreadContext *tc, bool write) 527{ 528 /* 529 * @todo this could really use some profiling and fixing to make 530 * it faster! 531 */ 532 uint64_t tlbdata = tc->readMiscRegNoEffect(MISCREG_TLB_DATA); 533 Addr vaddr = req->getVaddr(); 534 Addr size = req->getSize(); 535 ASI asi; 536 asi = (ASI)req->getAsi(); 537 bool implicit = false; 538 bool hpriv = bits(tlbdata,0,0); 539 bool unaligned = vaddr & (size - 1); 540 541 DPRINTF(TLB, "TLB: DTB Request to translate va=%#x size=%d asi=%#x\n", 542 vaddr, size, asi); 543 544 if (lookupTable.size() != 64 - freeList.size()) 545 panic("Lookup table size: %d tlb size: %d\n", lookupTable.size(), 546 freeList.size()); 547 if (asi == ASI_IMPLICIT) 548 implicit = true; 549 550 // Only use the fast path here if there doesn't need to be an unaligned 551 // trap later 552 if (!unaligned) { 553 if (hpriv && implicit) { 554 req->setPaddr(vaddr & PAddrImplMask); 555 return NoFault; 556 } 557 558 // Be fast if we can! 559 if (cacheValid && cacheState == tlbdata) { 560 561 562 563 if (cacheEntry[0]) { 564 TlbEntry *ce = cacheEntry[0]; 565 Addr ce_va = ce->range.va; 566 if (cacheAsi[0] == asi && 567 ce_va < vaddr + size && ce_va + ce->range.size > vaddr && 568 (!write || ce->pte.writable())) { 569 req->setPaddr(ce->pte.translate(vaddr)); 570 if (ce->pte.sideffect() || (ce->pte.paddr() >> 39) & 1) 571 req->setFlags(Request::UNCACHEABLE); 572 DPRINTF(TLB, "TLB: %#X -> %#X\n", vaddr, req->getPaddr()); 573 return NoFault; 574 } // if matched 575 } // if cache entry valid 576 if (cacheEntry[1]) { 577 TlbEntry *ce = cacheEntry[1]; 578 Addr ce_va = ce->range.va; 579 if (cacheAsi[1] == asi && 580 ce_va < vaddr + size && ce_va + ce->range.size > vaddr && 581 (!write || ce->pte.writable())) { 582 req->setPaddr(ce->pte.translate(vaddr)); 583 if (ce->pte.sideffect() || (ce->pte.paddr() >> 39) & 1) 584 req->setFlags(Request::UNCACHEABLE); 585 DPRINTF(TLB, "TLB: %#X -> %#X\n", vaddr, req->getPaddr()); 586 return NoFault; 587 } // if matched 588 } // if cache entry valid 589 } 590 } 591 592 bool red = bits(tlbdata,1,1); 593 bool priv = bits(tlbdata,2,2); 594 bool addr_mask = bits(tlbdata,3,3); 595 bool lsu_dm = bits(tlbdata,5,5); 596 597 int part_id = bits(tlbdata,15,8); 598 int tl = bits(tlbdata,18,16); 599 int pri_context = bits(tlbdata,47,32); 600 int sec_context = bits(tlbdata,63,48); 601 602 bool real = false; 603 ContextType ct = Primary; 604 int context = 0; 605 606 TlbEntry *e; 607 608 DPRINTF(TLB, "TLB: priv:%d hpriv:%d red:%d lsudm:%d part_id: %#X\n", 609 priv, hpriv, red, lsu_dm, part_id); 610 611 if (implicit) { 612 if (tl > 0) { 613 asi = ASI_N; 614 ct = Nucleus; 615 context = 0; 616 } else { 617 asi = ASI_P; 618 ct = Primary; 619 context = pri_context; 620 } 621 } else { 622 // We need to check for priv level/asi priv 623 if (!priv && !hpriv && !asiIsUnPriv(asi)) { 624 // It appears that context should be Nucleus in these cases? 625 writeSfsr(vaddr, write, Nucleus, false, IllegalAsi, asi); 626 return new PrivilegedAction; 627 } 628 629 if (!hpriv && asiIsHPriv(asi)) { 630 writeSfsr(vaddr, write, Nucleus, false, IllegalAsi, asi); 631 return new DataAccessException; 632 } 633 634 if (asiIsPrimary(asi)) { 635 context = pri_context; 636 ct = Primary; 637 } else if (asiIsSecondary(asi)) { 638 context = sec_context; 639 ct = Secondary; 640 } else if (asiIsNucleus(asi)) { 641 ct = Nucleus; 642 context = 0; 643 } else { // ???? 644 ct = Primary; 645 context = pri_context; 646 } 647 } 648 649 if (!implicit && asi != ASI_P && asi != ASI_S) { 650 if (asiIsLittle(asi)) 651 panic("Little Endian ASIs not supported\n"); 652 653 //XXX It's unclear from looking at the documentation how a no fault 654 // load differs from a regular one, other than what happens concerning 655 // nfo and e bits in the TTE 656// if (asiIsNoFault(asi)) 657// panic("No Fault ASIs not supported\n"); 658 659 if (asiIsPartialStore(asi)) 660 panic("Partial Store ASIs not supported\n"); 661 662 if (asiIsCmt(asi)) 663 panic("Cmt ASI registers not implmented\n"); 664 665 if (asiIsInterrupt(asi)) 666 goto handleIntRegAccess; 667 if (asiIsMmu(asi)) 668 goto handleMmuRegAccess; 669 if (asiIsScratchPad(asi)) 670 goto handleScratchRegAccess; 671 if (asiIsQueue(asi)) 672 goto handleQueueRegAccess; 673 if (asiIsSparcError(asi)) 674 goto handleSparcErrorRegAccess; 675 676 if (!asiIsReal(asi) && !asiIsNucleus(asi) && !asiIsAsIfUser(asi) && 677 !asiIsTwin(asi) && !asiIsBlock(asi) && !asiIsNoFault(asi)) 678 panic("Accessing ASI %#X. Should we?\n", asi); 679 } 680 681 // If the asi is unaligned trap 682 if (unaligned) { 683 writeSfsr(vaddr, false, ct, false, OtherFault, asi); 684 return new MemAddressNotAligned; 685 } 686 687 if (addr_mask) 688 vaddr = vaddr & VAddrAMask; 689 690 if (!validVirtualAddress(vaddr, addr_mask)) { 691 writeSfsr(vaddr, false, ct, true, VaOutOfRange, asi); 692 return new DataAccessException; 693 } 694 695 if ((!lsu_dm && !hpriv && !red) || asiIsReal(asi)) { 696 real = true; 697 context = 0; 698 } 699 700 if (hpriv && (implicit || (!asiIsAsIfUser(asi) && !asiIsReal(asi)))) { 701 req->setPaddr(vaddr & PAddrImplMask); 702 return NoFault; 703 } 704 705 e = lookup(vaddr, part_id, real, context); 706 707 if (e == NULL || !e->valid) { 708 writeTagAccess(vaddr, context); 709 DPRINTF(TLB, "TLB: DTB Failed to find matching TLB entry\n"); 710 if (real) 711 return new DataRealTranslationMiss; 712 else 713#if FULL_SYSTEM 714 return new FastDataAccessMMUMiss; 715#else 716 return new FastDataAccessMMUMiss(req->getVaddr()); 717#endif 718 719 } 720 721 if (!priv && e->pte.priv()) { 722 writeTagAccess(vaddr, context); 723 writeSfsr(vaddr, write, ct, e->pte.sideffect(), PrivViolation, asi); 724 return new DataAccessException; 725 } 726 727 if (write && !e->pte.writable()) { 728 writeTagAccess(vaddr, context); 729 writeSfsr(vaddr, write, ct, e->pte.sideffect(), OtherFault, asi); 730 return new FastDataAccessProtection; 731 } 732 733 if (e->pte.nofault() && !asiIsNoFault(asi)) { 734 writeTagAccess(vaddr, context); 735 writeSfsr(vaddr, write, ct, e->pte.sideffect(), LoadFromNfo, asi); 736 return new DataAccessException; 737 } 738 739 if (e->pte.sideffect() && asiIsNoFault(asi)) { 740 writeTagAccess(vaddr, context); 741 writeSfsr(vaddr, write, ct, e->pte.sideffect(), SideEffect, asi); 742 return new DataAccessException; 743 } 744 745 if (e->pte.sideffect() || (e->pte.paddr() >> 39) & 1) 746 req->setFlags(Request::UNCACHEABLE); 747 748 // cache translation date for next translation 749 cacheState = tlbdata; 750 if (!cacheValid) { 751 cacheEntry[1] = NULL; 752 cacheEntry[0] = NULL; 753 } 754 755 if (cacheEntry[0] != e && cacheEntry[1] != e) { 756 cacheEntry[1] = cacheEntry[0]; 757 cacheEntry[0] = e; 758 cacheAsi[1] = cacheAsi[0]; 759 cacheAsi[0] = asi; 760 if (implicit) 761 cacheAsi[0] = (ASI)0; 762 } 763 cacheValid = true; 764 req->setPaddr(e->pte.translate(vaddr)); 765 DPRINTF(TLB, "TLB: %#X -> %#X\n", vaddr, req->getPaddr()); 766 return NoFault; 767 768 /** Normal flow ends here. */ 769handleIntRegAccess: 770 if (!hpriv) { 771 writeSfsr(vaddr, write, Primary, true, IllegalAsi, asi); 772 if (priv) 773 return new DataAccessException; 774 else 775 return new PrivilegedAction; 776 } 777 778 if ((asi == ASI_SWVR_UDB_INTR_W && !write) || 779 (asi == ASI_SWVR_UDB_INTR_R && write)) { 780 writeSfsr(vaddr, write, Primary, true, IllegalAsi, asi); 781 return new DataAccessException; 782 } 783 784 goto regAccessOk; 785 786 787handleScratchRegAccess: 788 if (vaddr > 0x38 || (vaddr >= 0x20 && vaddr < 0x30 && !hpriv)) { 789 writeSfsr(vaddr, write, Primary, true, IllegalAsi, asi); 790 return new DataAccessException; 791 } 792 goto regAccessOk; 793 794handleQueueRegAccess: 795 if (!priv && !hpriv) { 796 writeSfsr(vaddr, write, Primary, true, IllegalAsi, asi); 797 return new PrivilegedAction; 798 } 799 if ((!hpriv && vaddr & 0xF) || vaddr > 0x3f8 || vaddr < 0x3c0) { 800 writeSfsr(vaddr, write, Primary, true, IllegalAsi, asi); 801 return new DataAccessException; 802 } 803 goto regAccessOk; 804 805handleSparcErrorRegAccess: 806 if (!hpriv) { 807 writeSfsr(vaddr, write, Primary, true, IllegalAsi, asi); 808 if (priv) 809 return new DataAccessException; 810 else 811 return new PrivilegedAction; 812 } 813 goto regAccessOk; 814 815 816regAccessOk: 817handleMmuRegAccess: 818 DPRINTF(TLB, "TLB: DTB Translating MM IPR access\n"); 819 req->setFlags(Request::MMAPED_IPR); 820 req->setPaddr(req->getVaddr()); 821 return NoFault; 822}; 823 824Fault 825TLB::translateAtomic(RequestPtr req, ThreadContext *tc, Mode mode) 826{ 827 if (mode == Execute) 828 return translateInst(req, tc); 829 else 830 return translateData(req, tc, mode == Write); 831} 832 833void 834TLB::translateTiming(RequestPtr req, ThreadContext *tc, 835 Translation *translation, Mode mode) 836{ 837 assert(translation); 838 translation->finish(translateAtomic(req, tc, mode), req, tc, mode); 839} 840 841#if FULL_SYSTEM 842 843Tick 844TLB::doMmuRegRead(ThreadContext *tc, Packet *pkt) 845{ 846 Addr va = pkt->getAddr(); 847 ASI asi = (ASI)pkt->req->getAsi(); 848 uint64_t temp; 849 850 DPRINTF(IPR, "Memory Mapped IPR Read: asi=%#X a=%#x\n", 851 (uint32_t)pkt->req->getAsi(), pkt->getAddr()); 852 853 TLB *itb = tc->getITBPtr(); 854 855 switch (asi) { 856 case ASI_LSU_CONTROL_REG: 857 assert(va == 0); 858 pkt->set(tc->readMiscReg(MISCREG_MMU_LSU_CTRL)); 859 break; 860 case ASI_MMU: 861 switch (va) { 862 case 0x8: 863 pkt->set(tc->readMiscReg(MISCREG_MMU_P_CONTEXT)); 864 break; 865 case 0x10: 866 pkt->set(tc->readMiscReg(MISCREG_MMU_S_CONTEXT)); 867 break; 868 default: 869 goto doMmuReadError; 870 } 871 break; 872 case ASI_QUEUE: 873 pkt->set(tc->readMiscReg(MISCREG_QUEUE_CPU_MONDO_HEAD + 874 (va >> 4) - 0x3c)); 875 break; 876 case ASI_DMMU_CTXT_ZERO_TSB_BASE_PS0: 877 assert(va == 0); 878 pkt->set(c0_tsb_ps0); 879 break; 880 case ASI_DMMU_CTXT_ZERO_TSB_BASE_PS1: 881 assert(va == 0); 882 pkt->set(c0_tsb_ps1); 883 break; 884 case ASI_DMMU_CTXT_ZERO_CONFIG: 885 assert(va == 0); 886 pkt->set(c0_config); 887 break; 888 case ASI_IMMU_CTXT_ZERO_TSB_BASE_PS0: 889 assert(va == 0); 890 pkt->set(itb->c0_tsb_ps0); 891 break; 892 case ASI_IMMU_CTXT_ZERO_TSB_BASE_PS1: 893 assert(va == 0); 894 pkt->set(itb->c0_tsb_ps1); 895 break; 896 case ASI_IMMU_CTXT_ZERO_CONFIG: 897 assert(va == 0); 898 pkt->set(itb->c0_config); 899 break; 900 case ASI_DMMU_CTXT_NONZERO_TSB_BASE_PS0: 901 assert(va == 0); 902 pkt->set(cx_tsb_ps0); 903 break; 904 case ASI_DMMU_CTXT_NONZERO_TSB_BASE_PS1: 905 assert(va == 0); 906 pkt->set(cx_tsb_ps1); 907 break; 908 case ASI_DMMU_CTXT_NONZERO_CONFIG: 909 assert(va == 0); 910 pkt->set(cx_config); 911 break; 912 case ASI_IMMU_CTXT_NONZERO_TSB_BASE_PS0: 913 assert(va == 0); 914 pkt->set(itb->cx_tsb_ps0); 915 break; 916 case ASI_IMMU_CTXT_NONZERO_TSB_BASE_PS1: 917 assert(va == 0); 918 pkt->set(itb->cx_tsb_ps1); 919 break; 920 case ASI_IMMU_CTXT_NONZERO_CONFIG: 921 assert(va == 0); 922 pkt->set(itb->cx_config); 923 break; 924 case ASI_SPARC_ERROR_STATUS_REG: 925 pkt->set((uint64_t)0); 926 break; 927 case ASI_HYP_SCRATCHPAD: 928 case ASI_SCRATCHPAD: 929 pkt->set(tc->readMiscReg(MISCREG_SCRATCHPAD_R0 + (va >> 3))); 930 break; 931 case ASI_IMMU: 932 switch (va) { 933 case 0x0: 934 temp = itb->tag_access; 935 pkt->set(bits(temp,63,22) | bits(temp,12,0) << 48); 936 break; 937 case 0x18: 938 pkt->set(itb->sfsr); 939 break; 940 case 0x30: 941 pkt->set(itb->tag_access); 942 break; 943 default: 944 goto doMmuReadError; 945 } 946 break; 947 case ASI_DMMU: 948 switch (va) { 949 case 0x0: 950 temp = tag_access; 951 pkt->set(bits(temp,63,22) | bits(temp,12,0) << 48); 952 break; 953 case 0x18: 954 pkt->set(sfsr); 955 break; 956 case 0x20: 957 pkt->set(sfar); 958 break; 959 case 0x30: 960 pkt->set(tag_access); 961 break; 962 case 0x80: 963 pkt->set(tc->readMiscReg(MISCREG_MMU_PART_ID)); 964 break; 965 default: 966 goto doMmuReadError; 967 } 968 break; 969 case ASI_DMMU_TSB_PS0_PTR_REG: 970 pkt->set(MakeTsbPtr(Ps0, 971 tag_access, 972 c0_tsb_ps0, 973 c0_config, 974 cx_tsb_ps0, 975 cx_config)); 976 break; 977 case ASI_DMMU_TSB_PS1_PTR_REG: 978 pkt->set(MakeTsbPtr(Ps1, 979 tag_access, 980 c0_tsb_ps1, 981 c0_config, 982 cx_tsb_ps1, 983 cx_config)); 984 break; 985 case ASI_IMMU_TSB_PS0_PTR_REG: 986 pkt->set(MakeTsbPtr(Ps0, 987 itb->tag_access, 988 itb->c0_tsb_ps0, 989 itb->c0_config, 990 itb->cx_tsb_ps0, 991 itb->cx_config)); 992 break; 993 case ASI_IMMU_TSB_PS1_PTR_REG: 994 pkt->set(MakeTsbPtr(Ps1, 995 itb->tag_access, 996 itb->c0_tsb_ps1, 997 itb->c0_config, 998 itb->cx_tsb_ps1, 999 itb->cx_config)); 1000 break; 1001 case ASI_SWVR_INTR_RECEIVE: 1002 { 1003 SparcISA::Interrupts * interrupts = 1004 dynamic_cast<SparcISA::Interrupts *>( 1005 tc->getCpuPtr()->getInterruptController()); 1006 pkt->set(interrupts->get_vec(IT_INT_VEC)); 1007 } 1008 break; 1009 case ASI_SWVR_UDB_INTR_R: 1010 { 1011 SparcISA::Interrupts * interrupts = 1012 dynamic_cast<SparcISA::Interrupts *>( 1013 tc->getCpuPtr()->getInterruptController()); 1014 temp = findMsbSet(interrupts->get_vec(IT_INT_VEC)); 1015 tc->getCpuPtr()->clearInterrupt(IT_INT_VEC, temp); 1016 pkt->set(temp); 1017 } 1018 break; 1019 default: 1020doMmuReadError: 1021 panic("need to impl DTB::doMmuRegRead() got asi=%#x, va=%#x\n", 1022 (uint32_t)asi, va); 1023 } 1024 pkt->makeAtomicResponse(); 1025 return tc->getCpuPtr()->ticks(1); 1026} 1027 1028Tick 1029TLB::doMmuRegWrite(ThreadContext *tc, Packet *pkt) 1030{ 1031 uint64_t data = pkt->get<uint64_t>(); 1032 Addr va = pkt->getAddr(); 1033 ASI asi = (ASI)pkt->req->getAsi(); 1034 1035 Addr ta_insert; 1036 Addr va_insert; 1037 Addr ct_insert; 1038 int part_insert; 1039 int entry_insert = -1; 1040 bool real_insert; 1041 bool ignore; 1042 int part_id; 1043 int ctx_id; 1044 PageTableEntry pte; 1045 1046 DPRINTF(IPR, "Memory Mapped IPR Write: asi=%#X a=%#x d=%#X\n", 1047 (uint32_t)asi, va, data); 1048 1049 TLB *itb = tc->getITBPtr(); 1050 1051 switch (asi) { 1052 case ASI_LSU_CONTROL_REG: 1053 assert(va == 0); 1054 tc->setMiscReg(MISCREG_MMU_LSU_CTRL, data); 1055 break; 1056 case ASI_MMU: 1057 switch (va) { 1058 case 0x8: 1059 tc->setMiscReg(MISCREG_MMU_P_CONTEXT, data); 1060 break; 1061 case 0x10: 1062 tc->setMiscReg(MISCREG_MMU_S_CONTEXT, data); 1063 break; 1064 default: 1065 goto doMmuWriteError; 1066 } 1067 break; 1068 case ASI_QUEUE: 1069 assert(mbits(data,13,6) == data); 1070 tc->setMiscReg(MISCREG_QUEUE_CPU_MONDO_HEAD + 1071 (va >> 4) - 0x3c, data); 1072 break; 1073 case ASI_DMMU_CTXT_ZERO_TSB_BASE_PS0: 1074 assert(va == 0); 1075 c0_tsb_ps0 = data; 1076 break; 1077 case ASI_DMMU_CTXT_ZERO_TSB_BASE_PS1: 1078 assert(va == 0); 1079 c0_tsb_ps1 = data; 1080 break; 1081 case ASI_DMMU_CTXT_ZERO_CONFIG: 1082 assert(va == 0); 1083 c0_config = data; 1084 break; 1085 case ASI_IMMU_CTXT_ZERO_TSB_BASE_PS0: 1086 assert(va == 0); 1087 itb->c0_tsb_ps0 = data; 1088 break; 1089 case ASI_IMMU_CTXT_ZERO_TSB_BASE_PS1: 1090 assert(va == 0); 1091 itb->c0_tsb_ps1 = data; 1092 break; 1093 case ASI_IMMU_CTXT_ZERO_CONFIG: 1094 assert(va == 0); 1095 itb->c0_config = data; 1096 break; 1097 case ASI_DMMU_CTXT_NONZERO_TSB_BASE_PS0: 1098 assert(va == 0); 1099 cx_tsb_ps0 = data; 1100 break; 1101 case ASI_DMMU_CTXT_NONZERO_TSB_BASE_PS1: 1102 assert(va == 0); 1103 cx_tsb_ps1 = data; 1104 break; 1105 case ASI_DMMU_CTXT_NONZERO_CONFIG: 1106 assert(va == 0); 1107 cx_config = data; 1108 break; 1109 case ASI_IMMU_CTXT_NONZERO_TSB_BASE_PS0: 1110 assert(va == 0); 1111 itb->cx_tsb_ps0 = data; 1112 break; 1113 case ASI_IMMU_CTXT_NONZERO_TSB_BASE_PS1: 1114 assert(va == 0); 1115 itb->cx_tsb_ps1 = data; 1116 break; 1117 case ASI_IMMU_CTXT_NONZERO_CONFIG: 1118 assert(va == 0); 1119 itb->cx_config = data; 1120 break; 1121 case ASI_SPARC_ERROR_EN_REG: 1122 case ASI_SPARC_ERROR_STATUS_REG: 1123 inform("Ignoring write to SPARC ERROR regsiter\n"); 1124 break; 1125 case ASI_HYP_SCRATCHPAD: 1126 case ASI_SCRATCHPAD: 1127 tc->setMiscReg(MISCREG_SCRATCHPAD_R0 + (va >> 3), data); 1128 break; 1129 case ASI_IMMU: 1130 switch (va) { 1131 case 0x18: 1132 itb->sfsr = data; 1133 break; 1134 case 0x30: 1135 sext<59>(bits(data, 59,0)); 1136 itb->tag_access = data; 1137 break; 1138 default: 1139 goto doMmuWriteError; 1140 } 1141 break; 1142 case ASI_ITLB_DATA_ACCESS_REG: 1143 entry_insert = bits(va, 8,3); 1144 case ASI_ITLB_DATA_IN_REG: 1145 assert(entry_insert != -1 || mbits(va,10,9) == va); 1146 ta_insert = itb->tag_access; 1147 va_insert = mbits(ta_insert, 63,13); 1148 ct_insert = mbits(ta_insert, 12,0); 1149 part_insert = tc->readMiscReg(MISCREG_MMU_PART_ID); 1150 real_insert = bits(va, 9,9); 1151 pte.populate(data, bits(va,10,10) ? PageTableEntry::sun4v : 1152 PageTableEntry::sun4u); 1153 tc->getITBPtr()->insert(va_insert, part_insert, ct_insert, real_insert, 1154 pte, entry_insert); 1155 break; 1156 case ASI_DTLB_DATA_ACCESS_REG: 1157 entry_insert = bits(va, 8,3); 1158 case ASI_DTLB_DATA_IN_REG: 1159 assert(entry_insert != -1 || mbits(va,10,9) == va); 1160 ta_insert = tag_access; 1161 va_insert = mbits(ta_insert, 63,13); 1162 ct_insert = mbits(ta_insert, 12,0); 1163 part_insert = tc->readMiscReg(MISCREG_MMU_PART_ID); 1164 real_insert = bits(va, 9,9); 1165 pte.populate(data, bits(va,10,10) ? PageTableEntry::sun4v : 1166 PageTableEntry::sun4u); 1167 insert(va_insert, part_insert, ct_insert, real_insert, pte, 1168 entry_insert); 1169 break; 1170 case ASI_IMMU_DEMAP: 1171 ignore = false; 1172 ctx_id = -1; 1173 part_id = tc->readMiscReg(MISCREG_MMU_PART_ID); 1174 switch (bits(va,5,4)) { 1175 case 0: 1176 ctx_id = tc->readMiscReg(MISCREG_MMU_P_CONTEXT); 1177 break; 1178 case 1: 1179 ignore = true; 1180 break; 1181 case 3: 1182 ctx_id = 0; 1183 break; 1184 default: 1185 ignore = true; 1186 } 1187 1188 switch (bits(va,7,6)) { 1189 case 0: // demap page 1190 if (!ignore) 1191 tc->getITBPtr()->demapPage(mbits(va,63,13), part_id, 1192 bits(va,9,9), ctx_id); 1193 break; 1194 case 1: // demap context 1195 if (!ignore) 1196 tc->getITBPtr()->demapContext(part_id, ctx_id); 1197 break; 1198 case 2: 1199 tc->getITBPtr()->demapAll(part_id); 1200 break; 1201 default: 1202 panic("Invalid type for IMMU demap\n"); 1203 } 1204 break; 1205 case ASI_DMMU: 1206 switch (va) { 1207 case 0x18: 1208 sfsr = data; 1209 break; 1210 case 0x30: 1211 sext<59>(bits(data, 59,0)); 1212 tag_access = data; 1213 break; 1214 case 0x80: 1215 tc->setMiscReg(MISCREG_MMU_PART_ID, data); 1216 break; 1217 default: 1218 goto doMmuWriteError; 1219 } 1220 break; 1221 case ASI_DMMU_DEMAP: 1222 ignore = false; 1223 ctx_id = -1; 1224 part_id = tc->readMiscReg(MISCREG_MMU_PART_ID); 1225 switch (bits(va,5,4)) { 1226 case 0: 1227 ctx_id = tc->readMiscReg(MISCREG_MMU_P_CONTEXT); 1228 break; 1229 case 1: 1230 ctx_id = tc->readMiscReg(MISCREG_MMU_S_CONTEXT); 1231 break; 1232 case 3: 1233 ctx_id = 0; 1234 break; 1235 default: 1236 ignore = true; 1237 } 1238 1239 switch (bits(va,7,6)) { 1240 case 0: // demap page 1241 if (!ignore) 1242 demapPage(mbits(va,63,13), part_id, bits(va,9,9), ctx_id); 1243 break; 1244 case 1: // demap context 1245 if (!ignore) 1246 demapContext(part_id, ctx_id); 1247 break; 1248 case 2: 1249 demapAll(part_id); 1250 break; 1251 default: 1252 panic("Invalid type for IMMU demap\n"); 1253 } 1254 break; 1255 case ASI_SWVR_INTR_RECEIVE: 1256 { 1257 int msb; 1258 // clear all the interrupts that aren't set in the write 1259 SparcISA::Interrupts * interrupts = 1260 dynamic_cast<SparcISA::Interrupts *>( 1261 tc->getCpuPtr()->getInterruptController()); 1262 while (interrupts->get_vec(IT_INT_VEC) & data) { 1263 msb = findMsbSet(interrupts->get_vec(IT_INT_VEC) & data); 1264 tc->getCpuPtr()->clearInterrupt(IT_INT_VEC, msb); 1265 } 1266 } 1267 break; 1268 case ASI_SWVR_UDB_INTR_W: 1269 tc->getSystemPtr()->threadContexts[bits(data,12,8)]->getCpuPtr()-> 1270 postInterrupt(bits(data, 5, 0), 0); 1271 break; 1272 default: 1273doMmuWriteError: 1274 panic("need to impl DTB::doMmuRegWrite() got asi=%#x, va=%#x d=%#x\n", 1275 (uint32_t)pkt->req->getAsi(), pkt->getAddr(), data); 1276 } 1277 pkt->makeAtomicResponse(); 1278 return tc->getCpuPtr()->ticks(1); 1279} 1280 1281#endif 1282 1283void 1284TLB::GetTsbPtr(ThreadContext *tc, Addr addr, int ctx, Addr *ptrs) 1285{ 1286 uint64_t tag_access = mbits(addr,63,13) | mbits(ctx,12,0); 1287 TLB * itb = tc->getITBPtr(); 1288 ptrs[0] = MakeTsbPtr(Ps0, tag_access, 1289 c0_tsb_ps0, 1290 c0_config, 1291 cx_tsb_ps0, 1292 cx_config); 1293 ptrs[1] = MakeTsbPtr(Ps1, tag_access, 1294 c0_tsb_ps1, 1295 c0_config, 1296 cx_tsb_ps1, 1297 cx_config); 1298 ptrs[2] = MakeTsbPtr(Ps0, tag_access, 1299 itb->c0_tsb_ps0, 1300 itb->c0_config, 1301 itb->cx_tsb_ps0, 1302 itb->cx_config); 1303 ptrs[3] = MakeTsbPtr(Ps1, tag_access, 1304 itb->c0_tsb_ps1, 1305 itb->c0_config, 1306 itb->cx_tsb_ps1, 1307 itb->cx_config); 1308} 1309 1310uint64_t 1311TLB::MakeTsbPtr(TsbPageSize ps, uint64_t tag_access, uint64_t c0_tsb, 1312 uint64_t c0_config, uint64_t cX_tsb, uint64_t cX_config) 1313{ 1314 uint64_t tsb; 1315 uint64_t config; 1316 1317 if (bits(tag_access, 12,0) == 0) { 1318 tsb = c0_tsb; 1319 config = c0_config; 1320 } else { 1321 tsb = cX_tsb; 1322 config = cX_config; 1323 } 1324 1325 uint64_t ptr = mbits(tsb,63,13); 1326 bool split = bits(tsb,12,12); 1327 int tsb_size = bits(tsb,3,0); 1328 int page_size = (ps == Ps0) ? bits(config, 2,0) : bits(config,10,8); 1329 1330 if (ps == Ps1 && split) 1331 ptr |= ULL(1) << (13 + tsb_size); 1332 ptr |= (tag_access >> (9 + page_size * 3)) & mask(12+tsb_size, 4); 1333 1334 return ptr; 1335} 1336 1337void 1338TLB::serialize(std::ostream &os) 1339{ 1340 SERIALIZE_SCALAR(size); 1341 SERIALIZE_SCALAR(usedEntries); 1342 SERIALIZE_SCALAR(lastReplaced); 1343 1344 // convert the pointer based free list into an index based one 1345 int *free_list = (int*)malloc(sizeof(int) * size); 1346 int cntr = 0; 1347 std::list<TlbEntry*>::iterator i; 1348 i = freeList.begin(); 1349 while (i != freeList.end()) { 1350 free_list[cntr++] = ((size_t)*i - (size_t)tlb)/ sizeof(TlbEntry); 1351 i++; 1352 } 1353 SERIALIZE_SCALAR(cntr); 1354 SERIALIZE_ARRAY(free_list, cntr); 1355 1356 SERIALIZE_SCALAR(c0_tsb_ps0); 1357 SERIALIZE_SCALAR(c0_tsb_ps1); 1358 SERIALIZE_SCALAR(c0_config); 1359 SERIALIZE_SCALAR(cx_tsb_ps0); 1360 SERIALIZE_SCALAR(cx_tsb_ps1); 1361 SERIALIZE_SCALAR(cx_config); 1362 SERIALIZE_SCALAR(sfsr); 1363 SERIALIZE_SCALAR(tag_access); 1364 1365 for (int x = 0; x < size; x++) { 1366 nameOut(os, csprintf("%s.PTE%d", name(), x)); 1367 tlb[x].serialize(os); 1368 } 1369 SERIALIZE_SCALAR(sfar); 1370} 1371 1372void 1373TLB::unserialize(Checkpoint *cp, const std::string §ion) 1374{ 1375 int oldSize; 1376 1377 paramIn(cp, section, "size", oldSize); 1378 if (oldSize != size) 1379 panic("Don't support unserializing different sized TLBs\n"); 1380 UNSERIALIZE_SCALAR(usedEntries); 1381 UNSERIALIZE_SCALAR(lastReplaced); 1382 1383 int cntr; 1384 UNSERIALIZE_SCALAR(cntr); 1385 1386 int *free_list = (int*)malloc(sizeof(int) * cntr); 1387 freeList.clear(); 1388 UNSERIALIZE_ARRAY(free_list, cntr); 1389 for (int x = 0; x < cntr; x++) 1390 freeList.push_back(&tlb[free_list[x]]); 1391 1392 UNSERIALIZE_SCALAR(c0_tsb_ps0); 1393 UNSERIALIZE_SCALAR(c0_tsb_ps1); 1394 UNSERIALIZE_SCALAR(c0_config); 1395 UNSERIALIZE_SCALAR(cx_tsb_ps0); 1396 UNSERIALIZE_SCALAR(cx_tsb_ps1); 1397 UNSERIALIZE_SCALAR(cx_config); 1398 UNSERIALIZE_SCALAR(sfsr); 1399 UNSERIALIZE_SCALAR(tag_access); 1400 1401 lookupTable.clear(); 1402 for (int x = 0; x < size; x++) { 1403 tlb[x].unserialize(cp, csprintf("%s.PTE%d", section, x)); 1404 if (tlb[x].valid) 1405 lookupTable.insert(tlb[x].range, &tlb[x]); 1406 1407 } 1408 UNSERIALIZE_SCALAR(sfar); 1409} 1410 1411/* end namespace SparcISA */ } 1412 1413SparcISA::TLB * 1414SparcTLBParams::create() 1415{ 1416 return new SparcISA::TLB(this); 1417} 1418