interrupts.cc revision 6137:d3ee4e0d690c
1/* 2 * Copyright (c) 2008 The Hewlett-Packard Development Company 3 * All rights reserved. 4 * 5 * Redistribution and use of this software in source and binary forms, 6 * with or without modification, are permitted provided that the 7 * following conditions are met: 8 * 9 * The software must be used only for Non-Commercial Use which means any 10 * use which is NOT directed to receiving any direct monetary 11 * compensation for, or commercial advantage from such use. Illustrative 12 * examples of non-commercial use are academic research, personal study, 13 * teaching, education and corporate research & development. 14 * Illustrative examples of commercial use are distributing products for 15 * commercial advantage and providing services using the software for 16 * commercial advantage. 17 * 18 * If you wish to use this software or functionality therein that may be 19 * covered by patents for commercial use, please contact: 20 * Director of Intellectual Property Licensing 21 * Office of Strategy and Technology 22 * Hewlett-Packard Company 23 * 1501 Page Mill Road 24 * Palo Alto, California 94304 25 * 26 * Redistributions of source code must retain the above copyright notice, 27 * this list of conditions and the following disclaimer. Redistributions 28 * in binary form must reproduce the above copyright notice, this list of 29 * conditions and the following disclaimer in the documentation and/or 30 * other materials provided with the distribution. Neither the name of 31 * the COPYRIGHT HOLDER(s), HEWLETT-PACKARD COMPANY, nor the names of its 32 * contributors may be used to endorse or promote products derived from 33 * this software without specific prior written permission. No right of 34 * sublicense is granted herewith. Derivatives of the software and 35 * output created using the software may be prepared, but only for 36 * Non-Commercial Uses. Derivatives of the software may be shared with 37 * others provided: (i) the others agree to abide by the list of 38 * conditions herein which includes the Non-Commercial Use restrictions; 39 * and (ii) such Derivatives of the software include the above copyright 40 * notice to acknowledge the contribution from this software where 41 * applicable, this list of conditions and the disclaimer below. 42 * 43 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 44 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 45 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 46 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 47 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 48 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 49 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 50 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 51 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 52 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 53 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 54 * 55 * Authors: Gabe Black 56 */ 57 58#include "arch/x86/apicregs.hh" 59#include "arch/x86/interrupts.hh" 60#include "arch/x86/intmessage.hh" 61#include "cpu/base.hh" 62#include "dev/x86/i82094aa.hh" 63#include "dev/x86/pc.hh" 64#include "dev/x86/south_bridge.hh" 65#include "mem/packet_access.hh" 66#include "sim/system.hh" 67 68int 69divideFromConf(uint32_t conf) 70{ 71 // This figures out what division we want from the division configuration 72 // register in the local APIC. The encoding is a little odd but it can 73 // be deciphered fairly easily. 74 int shift = ((conf & 0x8) >> 1) | (conf & 0x3); 75 shift = (shift + 1) % 8; 76 return 1 << shift; 77} 78 79namespace X86ISA 80{ 81 82ApicRegIndex 83decodeAddr(Addr paddr) 84{ 85 ApicRegIndex regNum; 86 paddr &= ~mask(3); 87 switch (paddr) 88 { 89 case 0x20: 90 regNum = APIC_ID; 91 break; 92 case 0x30: 93 regNum = APIC_VERSION; 94 break; 95 case 0x80: 96 regNum = APIC_TASK_PRIORITY; 97 break; 98 case 0x90: 99 regNum = APIC_ARBITRATION_PRIORITY; 100 break; 101 case 0xA0: 102 regNum = APIC_PROCESSOR_PRIORITY; 103 break; 104 case 0xB0: 105 regNum = APIC_EOI; 106 break; 107 case 0xD0: 108 regNum = APIC_LOGICAL_DESTINATION; 109 break; 110 case 0xE0: 111 regNum = APIC_DESTINATION_FORMAT; 112 break; 113 case 0xF0: 114 regNum = APIC_SPURIOUS_INTERRUPT_VECTOR; 115 break; 116 case 0x100: 117 case 0x108: 118 case 0x110: 119 case 0x118: 120 case 0x120: 121 case 0x128: 122 case 0x130: 123 case 0x138: 124 case 0x140: 125 case 0x148: 126 case 0x150: 127 case 0x158: 128 case 0x160: 129 case 0x168: 130 case 0x170: 131 case 0x178: 132 regNum = APIC_IN_SERVICE((paddr - 0x100) / 0x8); 133 break; 134 case 0x180: 135 case 0x188: 136 case 0x190: 137 case 0x198: 138 case 0x1A0: 139 case 0x1A8: 140 case 0x1B0: 141 case 0x1B8: 142 case 0x1C0: 143 case 0x1C8: 144 case 0x1D0: 145 case 0x1D8: 146 case 0x1E0: 147 case 0x1E8: 148 case 0x1F0: 149 case 0x1F8: 150 regNum = APIC_TRIGGER_MODE((paddr - 0x180) / 0x8); 151 break; 152 case 0x200: 153 case 0x208: 154 case 0x210: 155 case 0x218: 156 case 0x220: 157 case 0x228: 158 case 0x230: 159 case 0x238: 160 case 0x240: 161 case 0x248: 162 case 0x250: 163 case 0x258: 164 case 0x260: 165 case 0x268: 166 case 0x270: 167 case 0x278: 168 regNum = APIC_INTERRUPT_REQUEST((paddr - 0x200) / 0x8); 169 break; 170 case 0x280: 171 regNum = APIC_ERROR_STATUS; 172 break; 173 case 0x300: 174 regNum = APIC_INTERRUPT_COMMAND_LOW; 175 break; 176 case 0x310: 177 regNum = APIC_INTERRUPT_COMMAND_HIGH; 178 break; 179 case 0x320: 180 regNum = APIC_LVT_TIMER; 181 break; 182 case 0x330: 183 regNum = APIC_LVT_THERMAL_SENSOR; 184 break; 185 case 0x340: 186 regNum = APIC_LVT_PERFORMANCE_MONITORING_COUNTERS; 187 break; 188 case 0x350: 189 regNum = APIC_LVT_LINT0; 190 break; 191 case 0x360: 192 regNum = APIC_LVT_LINT1; 193 break; 194 case 0x370: 195 regNum = APIC_LVT_ERROR; 196 break; 197 case 0x380: 198 regNum = APIC_INITIAL_COUNT; 199 break; 200 case 0x390: 201 regNum = APIC_CURRENT_COUNT; 202 break; 203 case 0x3E0: 204 regNum = APIC_DIVIDE_CONFIGURATION; 205 break; 206 default: 207 // A reserved register field. 208 panic("Accessed reserved register field %#x.\n", paddr); 209 break; 210 } 211 return regNum; 212} 213} 214 215Tick 216X86ISA::Interrupts::read(PacketPtr pkt) 217{ 218 Addr offset = pkt->getAddr() - pioAddr; 219 //Make sure we're at least only accessing one register. 220 if ((offset & ~mask(3)) != ((offset + pkt->getSize()) & ~mask(3))) 221 panic("Accessed more than one register at a time in the APIC!\n"); 222 ApicRegIndex reg = decodeAddr(offset); 223 uint32_t val = htog(readReg(reg)); 224 DPRINTF(LocalApic, 225 "Reading Local APIC register %d at offset %#x as %#x.\n", 226 reg, offset, val); 227 pkt->setData(((uint8_t *)&val) + (offset & mask(3))); 228 pkt->makeAtomicResponse(); 229 return latency; 230} 231 232Tick 233X86ISA::Interrupts::write(PacketPtr pkt) 234{ 235 Addr offset = pkt->getAddr() - pioAddr; 236 //Make sure we're at least only accessing one register. 237 if ((offset & ~mask(3)) != ((offset + pkt->getSize()) & ~mask(3))) 238 panic("Accessed more than one register at a time in the APIC!\n"); 239 ApicRegIndex reg = decodeAddr(offset); 240 uint32_t val = regs[reg]; 241 pkt->writeData(((uint8_t *)&val) + (offset & mask(3))); 242 DPRINTF(LocalApic, 243 "Writing Local APIC register %d at offset %#x as %#x.\n", 244 reg, offset, gtoh(val)); 245 setReg(reg, gtoh(val)); 246 pkt->makeAtomicResponse(); 247 return latency; 248} 249void 250X86ISA::Interrupts::requestInterrupt(uint8_t vector, 251 uint8_t deliveryMode, bool level) 252{ 253 /* 254 * Fixed and lowest-priority delivery mode interrupts are handled 255 * using the IRR/ISR registers, checking against the TPR, etc. 256 * The SMI, NMI, ExtInt, INIT, etc interrupts go straight through. 257 */ 258 if (deliveryMode == DeliveryMode::Fixed || 259 deliveryMode == DeliveryMode::LowestPriority) { 260 DPRINTF(LocalApic, "Interrupt is an %s.\n", 261 DeliveryMode::names[deliveryMode]); 262 // Queue up the interrupt in the IRR. 263 if (vector > IRRV) 264 IRRV = vector; 265 if (!getRegArrayBit(APIC_INTERRUPT_REQUEST_BASE, vector)) { 266 setRegArrayBit(APIC_INTERRUPT_REQUEST_BASE, vector); 267 if (level) { 268 setRegArrayBit(APIC_TRIGGER_MODE_BASE, vector); 269 } else { 270 clearRegArrayBit(APIC_TRIGGER_MODE_BASE, vector); 271 } 272 } 273 } else if (!DeliveryMode::isReserved(deliveryMode)) { 274 DPRINTF(LocalApic, "Interrupt is an %s.\n", 275 DeliveryMode::names[deliveryMode]); 276 if (deliveryMode == DeliveryMode::SMI && !pendingSmi) { 277 pendingUnmaskableInt = pendingSmi = true; 278 smiVector = vector; 279 } else if (deliveryMode == DeliveryMode::NMI && !pendingNmi) { 280 pendingUnmaskableInt = pendingNmi = true; 281 nmiVector = vector; 282 } else if (deliveryMode == DeliveryMode::ExtInt && !pendingExtInt) { 283 pendingExtInt = true; 284 extIntVector = vector; 285 } else if (deliveryMode == DeliveryMode::INIT && !pendingInit) { 286 pendingUnmaskableInt = pendingInit = true; 287 initVector = vector; 288 } else if (deliveryMode == DeliveryMode::SIPI && 289 !pendingStartup && !startedUp) { 290 pendingUnmaskableInt = pendingStartup = true; 291 startupVector = vector; 292 } 293 } 294 cpu->wakeup(); 295} 296 297 298void 299X86ISA::Interrupts::setCPU(BaseCPU * newCPU) 300{ 301 assert(newCPU); 302 if (cpu != NULL && cpu->cpuId() != newCPU->cpuId()) { 303 panic("Local APICs can't be moved between CPUs" 304 " with different IDs.\n"); 305 } 306 cpu = newCPU; 307 initialApicId = cpu->cpuId(); 308 regs[APIC_ID] = (initialApicId << 24); 309} 310 311 312void 313X86ISA::Interrupts::init() 314{ 315 BasicPioDevice::init(); 316 Pc * pc = dynamic_cast<Pc *>(platform); 317 assert(pc); 318 pc->southBridge->ioApic->registerLocalApic(initialApicId, this); 319} 320 321 322Tick 323X86ISA::Interrupts::recvMessage(PacketPtr pkt) 324{ 325 Addr offset = pkt->getAddr() - x86InterruptAddress(initialApicId, 0); 326 assert(pkt->cmd == MemCmd::MessageReq); 327 switch(offset) 328 { 329 case 0: 330 { 331 TriggerIntMessage message = pkt->get<TriggerIntMessage>(); 332 DPRINTF(LocalApic, 333 "Got Trigger Interrupt message with vector %#x.\n", 334 message.vector); 335 336 requestInterrupt(message.vector, 337 message.deliveryMode, message.trigger); 338 } 339 break; 340 default: 341 panic("Local apic got unknown interrupt message at offset %#x.\n", 342 offset); 343 break; 344 } 345 pkt->makeAtomicResponse(); 346 return latency; 347} 348 349 350Tick 351X86ISA::Interrupts::recvResponse(PacketPtr pkt) 352{ 353 assert(!pkt->isError()); 354 assert(pkt->cmd == MemCmd::MessageResp); 355 if (--pendingIPIs == 0) { 356 InterruptCommandRegLow low = regs[APIC_INTERRUPT_COMMAND_LOW]; 357 // Record that the ICR is now idle. 358 low.deliveryStatus = 0; 359 regs[APIC_INTERRUPT_COMMAND_LOW] = low; 360 } 361 delete pkt->req; 362 delete pkt; 363 DPRINTF(LocalApic, "ICR is now idle.\n"); 364 return 0; 365} 366 367 368void 369X86ISA::Interrupts::addressRanges(AddrRangeList &range_list) 370{ 371 range_list.clear(); 372 Range<Addr> range = RangeEx(x86LocalAPICAddress(initialApicId, 0), 373 x86LocalAPICAddress(initialApicId, 0) + 374 PageBytes); 375 range_list.push_back(range); 376 pioAddr = range.start; 377} 378 379 380void 381X86ISA::Interrupts::getIntAddrRange(AddrRangeList &range_list) 382{ 383 range_list.clear(); 384 range_list.push_back(RangeEx(x86InterruptAddress(initialApicId, 0), 385 x86InterruptAddress(initialApicId, 0) + 386 PhysAddrAPICRangeSize)); 387} 388 389 390uint32_t 391X86ISA::Interrupts::readReg(ApicRegIndex reg) 392{ 393 if (reg >= APIC_TRIGGER_MODE(0) && 394 reg <= APIC_TRIGGER_MODE(15)) { 395 panic("Local APIC Trigger Mode registers are unimplemented.\n"); 396 } 397 switch (reg) { 398 case APIC_ARBITRATION_PRIORITY: 399 panic("Local APIC Arbitration Priority register unimplemented.\n"); 400 break; 401 case APIC_PROCESSOR_PRIORITY: 402 panic("Local APIC Processor Priority register unimplemented.\n"); 403 break; 404 case APIC_ERROR_STATUS: 405 regs[APIC_INTERNAL_STATE] &= ~ULL(0x1); 406 break; 407 case APIC_CURRENT_COUNT: 408 { 409 if (apicTimerEvent.scheduled()) { 410 assert(clock); 411 // Compute how many m5 ticks happen per count. 412 uint64_t ticksPerCount = clock * 413 divideFromConf(regs[APIC_DIVIDE_CONFIGURATION]); 414 // Compute how many m5 ticks are left. 415 uint64_t val = apicTimerEvent.when() - curTick; 416 // Turn that into a count. 417 val = (val + ticksPerCount - 1) / ticksPerCount; 418 return val; 419 } else { 420 return 0; 421 } 422 } 423 default: 424 break; 425 } 426 return regs[reg]; 427} 428 429void 430X86ISA::Interrupts::setReg(ApicRegIndex reg, uint32_t val) 431{ 432 uint32_t newVal = val; 433 if (reg >= APIC_IN_SERVICE(0) && 434 reg <= APIC_IN_SERVICE(15)) { 435 panic("Local APIC In-Service registers are unimplemented.\n"); 436 } 437 if (reg >= APIC_TRIGGER_MODE(0) && 438 reg <= APIC_TRIGGER_MODE(15)) { 439 panic("Local APIC Trigger Mode registers are unimplemented.\n"); 440 } 441 if (reg >= APIC_INTERRUPT_REQUEST(0) && 442 reg <= APIC_INTERRUPT_REQUEST(15)) { 443 panic("Local APIC Interrupt Request registers " 444 "are unimplemented.\n"); 445 } 446 switch (reg) { 447 case APIC_ID: 448 newVal = val & 0xFF; 449 break; 450 case APIC_VERSION: 451 // The Local APIC Version register is read only. 452 return; 453 case APIC_TASK_PRIORITY: 454 newVal = val & 0xFF; 455 break; 456 case APIC_ARBITRATION_PRIORITY: 457 panic("Local APIC Arbitration Priority register unimplemented.\n"); 458 break; 459 case APIC_PROCESSOR_PRIORITY: 460 panic("Local APIC Processor Priority register unimplemented.\n"); 461 break; 462 case APIC_EOI: 463 // Remove the interrupt that just completed from the local apic state. 464 clearRegArrayBit(APIC_IN_SERVICE_BASE, ISRV); 465 updateISRV(); 466 return; 467 case APIC_LOGICAL_DESTINATION: 468 newVal = val & 0xFF000000; 469 break; 470 case APIC_DESTINATION_FORMAT: 471 newVal = val | 0x0FFFFFFF; 472 break; 473 case APIC_SPURIOUS_INTERRUPT_VECTOR: 474 regs[APIC_INTERNAL_STATE] &= ~ULL(1 << 1); 475 regs[APIC_INTERNAL_STATE] |= val & (1 << 8); 476 if (val & (1 << 9)) 477 warn("Focus processor checking not implemented.\n"); 478 break; 479 case APIC_ERROR_STATUS: 480 { 481 if (regs[APIC_INTERNAL_STATE] & 0x1) { 482 regs[APIC_INTERNAL_STATE] &= ~ULL(0x1); 483 newVal = 0; 484 } else { 485 regs[APIC_INTERNAL_STATE] |= ULL(0x1); 486 return; 487 } 488 489 } 490 break; 491 case APIC_INTERRUPT_COMMAND_LOW: 492 { 493 InterruptCommandRegLow low = regs[APIC_INTERRUPT_COMMAND_LOW]; 494 // Check if we're already sending an IPI. 495 if (low.deliveryStatus) { 496 newVal = low; 497 break; 498 } 499 low = val; 500 InterruptCommandRegHigh high = regs[APIC_INTERRUPT_COMMAND_HIGH]; 501 // Record that an IPI is being sent. 502 low.deliveryStatus = 1; 503 TriggerIntMessage message; 504 message.destination = high.destination; 505 message.vector = low.vector; 506 message.deliveryMode = low.deliveryMode; 507 message.destMode = low.destMode; 508 message.level = low.level; 509 message.trigger = low.trigger; 510 bool timing = sys->getMemoryMode() == Enums::timing; 511 // Be careful no updates of the delivery status bit get lost. 512 regs[APIC_INTERRUPT_COMMAND_LOW] = low; 513 switch (low.destShorthand) { 514 case 0: 515 pendingIPIs++; 516 intPort->sendMessage(message, timing); 517 newVal = regs[APIC_INTERRUPT_COMMAND_LOW]; 518 break; 519 case 1: 520 newVal = val; 521 requestInterrupt(message.vector, 522 message.deliveryMode, message.trigger); 523 break; 524 case 2: 525 requestInterrupt(message.vector, 526 message.deliveryMode, message.trigger); 527 // Fall through 528 case 3: 529 { 530 int numContexts = sys->numContexts(); 531 pendingIPIs += (numContexts - 1); 532 for (int i = 0; i < numContexts; i++) { 533 int thisId = sys->getThreadContext(i)->contextId(); 534 if (thisId != initialApicId) { 535 PacketPtr pkt = buildIntRequest(thisId, message); 536 if (timing) 537 intPort->sendMessageTiming(pkt, latency); 538 else 539 intPort->sendMessageAtomic(pkt); 540 } 541 } 542 } 543 newVal = regs[APIC_INTERRUPT_COMMAND_LOW]; 544 break; 545 } 546 } 547 break; 548 case APIC_LVT_TIMER: 549 case APIC_LVT_THERMAL_SENSOR: 550 case APIC_LVT_PERFORMANCE_MONITORING_COUNTERS: 551 case APIC_LVT_LINT0: 552 case APIC_LVT_LINT1: 553 case APIC_LVT_ERROR: 554 { 555 uint64_t readOnlyMask = (1 << 12) | (1 << 14); 556 newVal = (val & ~readOnlyMask) | 557 (regs[reg] & readOnlyMask); 558 } 559 break; 560 case APIC_INITIAL_COUNT: 561 { 562 assert(clock); 563 newVal = bits(val, 31, 0); 564 // Compute how many timer ticks we're being programmed for. 565 uint64_t newCount = newVal * 566 (divideFromConf(regs[APIC_DIVIDE_CONFIGURATION])); 567 // Schedule on the edge of the next tick plus the new count. 568 Tick offset = curTick % clock; 569 if (offset) { 570 reschedule(apicTimerEvent, 571 curTick + (newCount + 1) * clock - offset, true); 572 } else { 573 reschedule(apicTimerEvent, 574 curTick + newCount * clock, true); 575 } 576 } 577 break; 578 case APIC_CURRENT_COUNT: 579 //Local APIC Current Count register is read only. 580 return; 581 case APIC_DIVIDE_CONFIGURATION: 582 newVal = val & 0xB; 583 break; 584 default: 585 break; 586 } 587 regs[reg] = newVal; 588 return; 589} 590 591 592X86ISA::Interrupts::Interrupts(Params * p) : 593 BasicPioDevice(p), IntDev(this), latency(p->pio_latency), clock(0), 594 apicTimerEvent(this), 595 pendingSmi(false), smiVector(0), 596 pendingNmi(false), nmiVector(0), 597 pendingExtInt(false), extIntVector(0), 598 pendingInit(false), initVector(0), 599 pendingStartup(false), startupVector(0), 600 startedUp(false), pendingUnmaskableInt(false), 601 pendingIPIs(0), cpu(NULL) 602{ 603 pioSize = PageBytes; 604 memset(regs, 0, sizeof(regs)); 605 //Set the local apic DFR to the flat model. 606 regs[APIC_DESTINATION_FORMAT] = (uint32_t)(-1); 607 ISRV = 0; 608 IRRV = 0; 609} 610 611 612bool 613X86ISA::Interrupts::checkInterrupts(ThreadContext *tc) const 614{ 615 RFLAGS rflags = tc->readMiscRegNoEffect(MISCREG_RFLAGS); 616 if (pendingUnmaskableInt) { 617 DPRINTF(LocalApic, "Reported pending unmaskable interrupt.\n"); 618 return true; 619 } 620 if (rflags.intf) { 621 if (pendingExtInt) { 622 DPRINTF(LocalApic, "Reported pending external interrupt.\n"); 623 return true; 624 } 625 if (IRRV > ISRV && bits(IRRV, 7, 4) > 626 bits(regs[APIC_TASK_PRIORITY], 7, 4)) { 627 DPRINTF(LocalApic, "Reported pending regular interrupt.\n"); 628 return true; 629 } 630 } 631 return false; 632} 633 634Fault 635X86ISA::Interrupts::getInterrupt(ThreadContext *tc) 636{ 637 assert(checkInterrupts(tc)); 638 // These are all probably fairly uncommon, so we'll make them easier to 639 // check for. 640 if (pendingUnmaskableInt) { 641 if (pendingSmi) { 642 DPRINTF(LocalApic, "Generated SMI fault object.\n"); 643 return new SystemManagementInterrupt(); 644 } else if (pendingNmi) { 645 DPRINTF(LocalApic, "Generated NMI fault object.\n"); 646 return new NonMaskableInterrupt(nmiVector); 647 } else if (pendingInit) { 648 DPRINTF(LocalApic, "Generated INIT fault object.\n"); 649 return new InitInterrupt(initVector); 650 } else if (pendingStartup) { 651 DPRINTF(LocalApic, "Generating SIPI fault object.\n"); 652 return new StartupInterrupt(startupVector); 653 } else { 654 panic("pendingUnmaskableInt set, but no unmaskable " 655 "ints were pending.\n"); 656 return NoFault; 657 } 658 } else if (pendingExtInt) { 659 DPRINTF(LocalApic, "Generated external interrupt fault object.\n"); 660 return new ExternalInterrupt(extIntVector); 661 } else { 662 DPRINTF(LocalApic, "Generated regular interrupt fault object.\n"); 663 // The only thing left are fixed and lowest priority interrupts. 664 return new ExternalInterrupt(IRRV); 665 } 666} 667 668void 669X86ISA::Interrupts::updateIntrInfo(ThreadContext *tc) 670{ 671 assert(checkInterrupts(tc)); 672 if (pendingUnmaskableInt) { 673 if (pendingSmi) { 674 DPRINTF(LocalApic, "SMI sent to core.\n"); 675 pendingSmi = false; 676 } else if (pendingNmi) { 677 DPRINTF(LocalApic, "NMI sent to core.\n"); 678 pendingNmi = false; 679 } else if (pendingInit) { 680 DPRINTF(LocalApic, "Init sent to core.\n"); 681 pendingInit = false; 682 startedUp = false; 683 } else if (pendingStartup) { 684 DPRINTF(LocalApic, "SIPI sent to core.\n"); 685 pendingStartup = false; 686 startedUp = true; 687 } 688 if (!(pendingSmi || pendingNmi || pendingInit || pendingStartup)) 689 pendingUnmaskableInt = false; 690 } else if (pendingExtInt) { 691 pendingExtInt = false; 692 } else { 693 DPRINTF(LocalApic, "Interrupt %d sent to core.\n", IRRV); 694 // Mark the interrupt as "in service". 695 ISRV = IRRV; 696 setRegArrayBit(APIC_IN_SERVICE_BASE, ISRV); 697 // Clear it out of the IRR. 698 clearRegArrayBit(APIC_INTERRUPT_REQUEST_BASE, IRRV); 699 updateIRRV(); 700 } 701} 702 703X86ISA::Interrupts * 704X86LocalApicParams::create() 705{ 706 return new X86ISA::Interrupts(this); 707} 708