timing.cc revision 3184 
12623SN/A/*
22623SN/A * Copyright (c) 2002-2005 The Regents of The University of Michigan
32623SN/A * All rights reserved.
42623SN/A *
52623SN/A * Redistribution and use in source and binary forms, with or without
62623SN/A * modification, are permitted provided that the following conditions are
72623SN/A * met: redistributions of source code must retain the above copyright
82623SN/A * notice, this list of conditions and the following disclaimer;
92623SN/A * redistributions in binary form must reproduce the above copyright
102623SN/A * notice, this list of conditions and the following disclaimer in the
112623SN/A * documentation and/or other materials provided with the distribution;
122623SN/A * neither the name of the copyright holders nor the names of its
132623SN/A * contributors may be used to endorse or promote products derived from
142623SN/A * this software without specific prior written permission.
152623SN/A *
162623SN/A * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
172623SN/A * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
182623SN/A * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
192623SN/A * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
202623SN/A * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
212623SN/A * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
222623SN/A * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
232623SN/A * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
242623SN/A * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
252623SN/A * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
262623SN/A * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
272665Ssaidi@eecs.umich.edu *
282665Ssaidi@eecs.umich.edu * Authors: Steve Reinhardt
292623SN/A */
302623SN/A
313170Sstever@eecs.umich.edu#include "arch/locked_mem.hh"
322623SN/A#include "arch/utility.hh"
332623SN/A#include "cpu/exetrace.hh"
342623SN/A#include "cpu/simple/timing.hh"
352623SN/A#include "mem/packet_impl.hh"
362623SN/A#include "sim/builder.hh"
372901Ssaidi@eecs.umich.edu#include "sim/system.hh"
382623SN/A
392623SN/Ausing namespace std;
402623SN/Ausing namespace TheISA;
412623SN/A
422856Srdreslin@umich.eduPort *
432856Srdreslin@umich.eduTimingSimpleCPU::getPort(const std::string &if_name, int idx)
442856Srdreslin@umich.edu{
452856Srdreslin@umich.edu    if (if_name == "dcache_port")
462856Srdreslin@umich.edu        return &dcachePort;
472856Srdreslin@umich.edu    else if (if_name == "icache_port")
482856Srdreslin@umich.edu        return &icachePort;
492856Srdreslin@umich.edu    else
502856Srdreslin@umich.edu        panic("No Such Port\n");
512856Srdreslin@umich.edu}
522623SN/A
532623SN/Avoid
542623SN/ATimingSimpleCPU::init()
552623SN/A{
562623SN/A    BaseCPU::init();
572623SN/A#if FULL_SYSTEM
582680Sktlim@umich.edu    for (int i = 0; i < threadContexts.size(); ++i) {
592680Sktlim@umich.edu        ThreadContext *tc = threadContexts[i];
602623SN/A
612623SN/A        // initialize CPU, including PC
622680Sktlim@umich.edu        TheISA::initCPU(tc, tc->readCpuId());
632623SN/A    }
642623SN/A#endif
652623SN/A}
662623SN/A
672623SN/ATick
682630SN/ATimingSimpleCPU::CpuPort::recvAtomic(Packet *pkt)
692623SN/A{
702623SN/A    panic("TimingSimpleCPU doesn't expect recvAtomic callback!");
712623SN/A    return curTick;
722623SN/A}
732623SN/A
742623SN/Avoid
752630SN/ATimingSimpleCPU::CpuPort::recvFunctional(Packet *pkt)
762623SN/A{
773184Srdreslin@umich.edu    //No internal storage to update, jusst return
783184Srdreslin@umich.edu    return;
792623SN/A}
802623SN/A
812623SN/Avoid
822623SN/ATimingSimpleCPU::CpuPort::recvStatusChange(Status status)
832623SN/A{
842631SN/A    if (status == RangeChange)
852631SN/A        return;
862631SN/A
872623SN/A    panic("TimingSimpleCPU doesn't expect recvStatusChange callback!");
882623SN/A}
892623SN/A
902948Ssaidi@eecs.umich.edu
912948Ssaidi@eecs.umich.eduvoid
922948Ssaidi@eecs.umich.eduTimingSimpleCPU::CpuPort::TickEvent::schedule(Packet *_pkt, Tick t)
932948Ssaidi@eecs.umich.edu{
942948Ssaidi@eecs.umich.edu    pkt = _pkt;
952948Ssaidi@eecs.umich.edu    Event::schedule(t);
962948Ssaidi@eecs.umich.edu}
972948Ssaidi@eecs.umich.edu
982623SN/ATimingSimpleCPU::TimingSimpleCPU(Params *p)
993170Sstever@eecs.umich.edu    : BaseSimpleCPU(p), icachePort(this, p->clock), dcachePort(this, p->clock),
1003170Sstever@eecs.umich.edu      cpu_id(p->cpu_id)
1012623SN/A{
1022623SN/A    _status = Idle;
1032623SN/A    ifetch_pkt = dcache_pkt = NULL;
1042839Sktlim@umich.edu    drainEvent = NULL;
1052867Sktlim@umich.edu    fetchEvent = NULL;
1062901Ssaidi@eecs.umich.edu    changeState(SimObject::Running);
1072623SN/A}
1082623SN/A
1092623SN/A
1102623SN/ATimingSimpleCPU::~TimingSimpleCPU()
1112623SN/A{
1122623SN/A}
1132623SN/A
1142623SN/Avoid
1152623SN/ATimingSimpleCPU::serialize(ostream &os)
1162623SN/A{
1172915Sktlim@umich.edu    SimObject::State so_state = SimObject::getState();
1182915Sktlim@umich.edu    SERIALIZE_ENUM(so_state);
1192623SN/A    BaseSimpleCPU::serialize(os);
1202623SN/A}
1212623SN/A
1222623SN/Avoid
1232623SN/ATimingSimpleCPU::unserialize(Checkpoint *cp, const string &section)
1242623SN/A{
1252915Sktlim@umich.edu    SimObject::State so_state;
1262915Sktlim@umich.edu    UNSERIALIZE_ENUM(so_state);
1272623SN/A    BaseSimpleCPU::unserialize(cp, section);
1282798Sktlim@umich.edu}
1292798Sktlim@umich.edu
1302901Ssaidi@eecs.umich.eduunsigned int
1312839Sktlim@umich.eduTimingSimpleCPU::drain(Event *drain_event)
1322798Sktlim@umich.edu{
1332839Sktlim@umich.edu    // TimingSimpleCPU is ready to drain if it's not waiting for
1342798Sktlim@umich.edu    // an access to complete.
1352798Sktlim@umich.edu    if (status() == Idle || status() == Running || status() == SwitchedOut) {
1362901Ssaidi@eecs.umich.edu        changeState(SimObject::Drained);
1372901Ssaidi@eecs.umich.edu        return 0;
1382798Sktlim@umich.edu    } else {
1392839Sktlim@umich.edu        changeState(SimObject::Draining);
1402839Sktlim@umich.edu        drainEvent = drain_event;
1412901Ssaidi@eecs.umich.edu        return 1;
1422798Sktlim@umich.edu    }
1432623SN/A}
1442623SN/A
1452623SN/Avoid
1462798Sktlim@umich.eduTimingSimpleCPU::resume()
1472623SN/A{
1482798Sktlim@umich.edu    if (_status != SwitchedOut && _status != Idle) {
1492867Sktlim@umich.edu        // Delete the old event if it existed.
1502867Sktlim@umich.edu        if (fetchEvent) {
1512915Sktlim@umich.edu            if (fetchEvent->scheduled())
1522915Sktlim@umich.edu                fetchEvent->deschedule();
1532915Sktlim@umich.edu
1542867Sktlim@umich.edu            delete fetchEvent;
1552867Sktlim@umich.edu        }
1562867Sktlim@umich.edu
1572867Sktlim@umich.edu        fetchEvent =
1582867Sktlim@umich.edu            new EventWrapper<TimingSimpleCPU, &TimingSimpleCPU::fetch>(this, false);
1592867Sktlim@umich.edu        fetchEvent->schedule(curTick);
1602623SN/A    }
1612798Sktlim@umich.edu
1622901Ssaidi@eecs.umich.edu    assert(system->getMemoryMode() == System::Timing);
1632901Ssaidi@eecs.umich.edu    changeState(SimObject::Running);
1642798Sktlim@umich.edu}
1652798Sktlim@umich.edu
1662798Sktlim@umich.eduvoid
1672798Sktlim@umich.eduTimingSimpleCPU::switchOut()
1682798Sktlim@umich.edu{
1692798Sktlim@umich.edu    assert(status() == Running || status() == Idle);
1702798Sktlim@umich.edu    _status = SwitchedOut;
1712867Sktlim@umich.edu
1722867Sktlim@umich.edu    // If we've been scheduled to resume but are then told to switch out,
1732867Sktlim@umich.edu    // we'll need to cancel it.
1742867Sktlim@umich.edu    if (fetchEvent && fetchEvent->scheduled())
1752867Sktlim@umich.edu        fetchEvent->deschedule();
1762623SN/A}
1772623SN/A
1782623SN/A
1792623SN/Avoid
1802623SN/ATimingSimpleCPU::takeOverFrom(BaseCPU *oldCPU)
1812623SN/A{
1822623SN/A    BaseCPU::takeOverFrom(oldCPU);
1832623SN/A
1842680Sktlim@umich.edu    // if any of this CPU's ThreadContexts are active, mark the CPU as
1852623SN/A    // running and schedule its tick event.
1862680Sktlim@umich.edu    for (int i = 0; i < threadContexts.size(); ++i) {
1872680Sktlim@umich.edu        ThreadContext *tc = threadContexts[i];
1882680Sktlim@umich.edu        if (tc->status() == ThreadContext::Active && _status != Running) {
1892623SN/A            _status = Running;
1902623SN/A            break;
1912623SN/A        }
1922623SN/A    }
1932623SN/A}
1942623SN/A
1952623SN/A
1962623SN/Avoid
1972623SN/ATimingSimpleCPU::activateContext(int thread_num, int delay)
1982623SN/A{
1992623SN/A    assert(thread_num == 0);
2002683Sktlim@umich.edu    assert(thread);
2012623SN/A
2022623SN/A    assert(_status == Idle);
2032623SN/A
2042623SN/A    notIdleFraction++;
2052623SN/A    _status = Running;
2062623SN/A    // kick things off by initiating the fetch of the next instruction
2072867Sktlim@umich.edu    fetchEvent =
2082867Sktlim@umich.edu        new EventWrapper<TimingSimpleCPU, &TimingSimpleCPU::fetch>(this, false);
2092867Sktlim@umich.edu    fetchEvent->schedule(curTick + cycles(delay));
2102623SN/A}
2112623SN/A
2122623SN/A
2132623SN/Avoid
2142623SN/ATimingSimpleCPU::suspendContext(int thread_num)
2152623SN/A{
2162623SN/A    assert(thread_num == 0);
2172683Sktlim@umich.edu    assert(thread);
2182623SN/A
2192644Sstever@eecs.umich.edu    assert(_status == Running);
2202623SN/A
2212644Sstever@eecs.umich.edu    // just change status to Idle... if status != Running,
2222644Sstever@eecs.umich.edu    // completeInst() will not initiate fetch of next instruction.
2232623SN/A
2242623SN/A    notIdleFraction--;
2252623SN/A    _status = Idle;
2262623SN/A}
2272623SN/A
2282623SN/A
2292623SN/Atemplate <class T>
2302623SN/AFault
2312623SN/ATimingSimpleCPU::read(Addr addr, T &data, unsigned flags)
2322623SN/A{
2333169Sstever@eecs.umich.edu    Request *req =
2343169Sstever@eecs.umich.edu        new Request(/* asid */ 0, addr, sizeof(T), flags, thread->readPC(),
2353170Sstever@eecs.umich.edu                    cpu_id, /* thread ID */ 0);
2362623SN/A
2372623SN/A    if (traceData) {
2383169Sstever@eecs.umich.edu        traceData->setAddr(req->getVaddr());
2392623SN/A    }
2402623SN/A
2412623SN/A   // translate to physical address
2423169Sstever@eecs.umich.edu    Fault fault = thread->translateDataReadReq(req);
2432623SN/A
2442623SN/A    // Now do the access.
2452623SN/A    if (fault == NoFault) {
2463169Sstever@eecs.umich.edu        Packet *pkt =
2473169Sstever@eecs.umich.edu            new Packet(req, Packet::ReadReq, Packet::Broadcast);
2483169Sstever@eecs.umich.edu        pkt->dataDynamic<T>(new T);
2492623SN/A
2503169Sstever@eecs.umich.edu        if (!dcachePort.sendTiming(pkt)) {
2512623SN/A            _status = DcacheRetry;
2523169Sstever@eecs.umich.edu            dcache_pkt = pkt;
2532623SN/A        } else {
2542623SN/A            _status = DcacheWaitResponse;
2553169Sstever@eecs.umich.edu            // memory system takes ownership of packet
2562623SN/A            dcache_pkt = NULL;
2572623SN/A        }
2582623SN/A    }
2592623SN/A
2602623SN/A    // This will need a new way to tell if it has a dcache attached.
2613172Sstever@eecs.umich.edu    if (req->isUncacheable())
2622623SN/A        recordEvent("Uncached Read");
2632623SN/A
2642623SN/A    return fault;
2652623SN/A}
2662623SN/A
2672623SN/A#ifndef DOXYGEN_SHOULD_SKIP_THIS
2682623SN/A
2692623SN/Atemplate
2702623SN/AFault
2712623SN/ATimingSimpleCPU::read(Addr addr, uint64_t &data, unsigned flags);
2722623SN/A
2732623SN/Atemplate
2742623SN/AFault
2752623SN/ATimingSimpleCPU::read(Addr addr, uint32_t &data, unsigned flags);
2762623SN/A
2772623SN/Atemplate
2782623SN/AFault
2792623SN/ATimingSimpleCPU::read(Addr addr, uint16_t &data, unsigned flags);
2802623SN/A
2812623SN/Atemplate
2822623SN/AFault
2832623SN/ATimingSimpleCPU::read(Addr addr, uint8_t &data, unsigned flags);
2842623SN/A
2852623SN/A#endif //DOXYGEN_SHOULD_SKIP_THIS
2862623SN/A
2872623SN/Atemplate<>
2882623SN/AFault
2892623SN/ATimingSimpleCPU::read(Addr addr, double &data, unsigned flags)
2902623SN/A{
2912623SN/A    return read(addr, *(uint64_t*)&data, flags);
2922623SN/A}
2932623SN/A
2942623SN/Atemplate<>
2952623SN/AFault
2962623SN/ATimingSimpleCPU::read(Addr addr, float &data, unsigned flags)
2972623SN/A{
2982623SN/A    return read(addr, *(uint32_t*)&data, flags);
2992623SN/A}
3002623SN/A
3012623SN/A
3022623SN/Atemplate<>
3032623SN/AFault
3042623SN/ATimingSimpleCPU::read(Addr addr, int32_t &data, unsigned flags)
3052623SN/A{
3062623SN/A    return read(addr, (uint32_t&)data, flags);
3072623SN/A}
3082623SN/A
3092623SN/A
3102623SN/Atemplate <class T>
3112623SN/AFault
3122623SN/ATimingSimpleCPU::write(T data, Addr addr, unsigned flags, uint64_t *res)
3132623SN/A{
3143169Sstever@eecs.umich.edu    Request *req =
3153169Sstever@eecs.umich.edu        new Request(/* asid */ 0, addr, sizeof(T), flags, thread->readPC(),
3163170Sstever@eecs.umich.edu                    cpu_id, /* thread ID */ 0);
3172623SN/A
3182623SN/A    // translate to physical address
3193169Sstever@eecs.umich.edu    Fault fault = thread->translateDataWriteReq(req);
3203169Sstever@eecs.umich.edu
3212623SN/A    // Now do the access.
3222623SN/A    if (fault == NoFault) {
3233169Sstever@eecs.umich.edu        assert(dcache_pkt == NULL);
3243169Sstever@eecs.umich.edu        dcache_pkt = new Packet(req, Packet::WriteReq, Packet::Broadcast);
3253169Sstever@eecs.umich.edu        dcache_pkt->allocate();
3263169Sstever@eecs.umich.edu        dcache_pkt->set(data);
3272623SN/A
3283170Sstever@eecs.umich.edu        bool do_access = true;  // flag to suppress cache access
3293170Sstever@eecs.umich.edu
3303170Sstever@eecs.umich.edu        if (req->isLocked()) {
3313170Sstever@eecs.umich.edu            do_access = TheISA::handleLockedWrite(thread, req);
3323170Sstever@eecs.umich.edu        }
3333170Sstever@eecs.umich.edu
3343170Sstever@eecs.umich.edu        if (do_access) {
3353170Sstever@eecs.umich.edu            if (!dcachePort.sendTiming(dcache_pkt)) {
3363170Sstever@eecs.umich.edu                _status = DcacheRetry;
3373170Sstever@eecs.umich.edu            } else {
3383170Sstever@eecs.umich.edu                _status = DcacheWaitResponse;
3393170Sstever@eecs.umich.edu                // memory system takes ownership of packet
3403170Sstever@eecs.umich.edu                dcache_pkt = NULL;
3413170Sstever@eecs.umich.edu            }
3422623SN/A        }
3432623SN/A    }
3442623SN/A
3452623SN/A    // This will need a new way to tell if it's hooked up to a cache or not.
3463172Sstever@eecs.umich.edu    if (req->isUncacheable())
3472623SN/A        recordEvent("Uncached Write");
3482623SN/A
3492623SN/A    // If the write needs to have a fault on the access, consider calling
3502623SN/A    // changeStatus() and changing it to "bad addr write" or something.
3512623SN/A    return fault;
3522623SN/A}
3532623SN/A
3542623SN/A
3552623SN/A#ifndef DOXYGEN_SHOULD_SKIP_THIS
3562623SN/Atemplate
3572623SN/AFault
3582623SN/ATimingSimpleCPU::write(uint64_t data, Addr addr,
3592623SN/A                       unsigned flags, uint64_t *res);
3602623SN/A
3612623SN/Atemplate
3622623SN/AFault
3632623SN/ATimingSimpleCPU::write(uint32_t data, Addr addr,
3642623SN/A                       unsigned flags, uint64_t *res);
3652623SN/A
3662623SN/Atemplate
3672623SN/AFault
3682623SN/ATimingSimpleCPU::write(uint16_t data, Addr addr,
3692623SN/A                       unsigned flags, uint64_t *res);
3702623SN/A
3712623SN/Atemplate
3722623SN/AFault
3732623SN/ATimingSimpleCPU::write(uint8_t data, Addr addr,
3742623SN/A                       unsigned flags, uint64_t *res);
3752623SN/A
3762623SN/A#endif //DOXYGEN_SHOULD_SKIP_THIS
3772623SN/A
3782623SN/Atemplate<>
3792623SN/AFault
3802623SN/ATimingSimpleCPU::write(double data, Addr addr, unsigned flags, uint64_t *res)
3812623SN/A{
3822623SN/A    return write(*(uint64_t*)&data, addr, flags, res);
3832623SN/A}
3842623SN/A
3852623SN/Atemplate<>
3862623SN/AFault
3872623SN/ATimingSimpleCPU::write(float data, Addr addr, unsigned flags, uint64_t *res)
3882623SN/A{
3892623SN/A    return write(*(uint32_t*)&data, addr, flags, res);
3902623SN/A}
3912623SN/A
3922623SN/A
3932623SN/Atemplate<>
3942623SN/AFault
3952623SN/ATimingSimpleCPU::write(int32_t data, Addr addr, unsigned flags, uint64_t *res)
3962623SN/A{
3972623SN/A    return write((uint32_t)data, addr, flags, res);
3982623SN/A}
3992623SN/A
4002623SN/A
4012623SN/Avoid
4022623SN/ATimingSimpleCPU::fetch()
4032623SN/A{
4042631SN/A    checkForInterrupts();
4052631SN/A
4062663Sstever@eecs.umich.edu    Request *ifetch_req = new Request();
4073170Sstever@eecs.umich.edu    ifetch_req->setThreadContext(cpu_id, /* thread ID */ 0);
4082662Sstever@eecs.umich.edu    Fault fault = setupFetchRequest(ifetch_req);
4092623SN/A
4102641Sstever@eecs.umich.edu    ifetch_pkt = new Packet(ifetch_req, Packet::ReadReq, Packet::Broadcast);
4112623SN/A    ifetch_pkt->dataStatic(&inst);
4122623SN/A
4132623SN/A    if (fault == NoFault) {
4142630SN/A        if (!icachePort.sendTiming(ifetch_pkt)) {
4152623SN/A            // Need to wait for retry
4162623SN/A            _status = IcacheRetry;
4172623SN/A        } else {
4182623SN/A            // Need to wait for cache to respond
4192623SN/A            _status = IcacheWaitResponse;
4202623SN/A            // ownership of packet transferred to memory system
4212623SN/A            ifetch_pkt = NULL;
4222623SN/A        }
4232623SN/A    } else {
4242644Sstever@eecs.umich.edu        // fetch fault: advance directly to next instruction (fault handler)
4252644Sstever@eecs.umich.edu        advanceInst(fault);
4262623SN/A    }
4272623SN/A}
4282623SN/A
4292623SN/A
4302623SN/Avoid
4312644Sstever@eecs.umich.eduTimingSimpleCPU::advanceInst(Fault fault)
4322623SN/A{
4332623SN/A    advancePC(fault);
4342623SN/A
4352631SN/A    if (_status == Running) {
4362631SN/A        // kick off fetch of next instruction... callback from icache
4372631SN/A        // response will cause that instruction to be executed,
4382631SN/A        // keeping the CPU running.
4392631SN/A        fetch();
4402631SN/A    }
4412623SN/A}
4422623SN/A
4432623SN/A
4442623SN/Avoid
4452644Sstever@eecs.umich.eduTimingSimpleCPU::completeIfetch(Packet *pkt)
4462623SN/A{
4472623SN/A    // received a response from the icache: execute the received
4482623SN/A    // instruction
4492644Sstever@eecs.umich.edu    assert(pkt->result == Packet::Success);
4502623SN/A    assert(_status == IcacheWaitResponse);
4512798Sktlim@umich.edu
4522623SN/A    _status = Running;
4532644Sstever@eecs.umich.edu
4542644Sstever@eecs.umich.edu    delete pkt->req;
4552644Sstever@eecs.umich.edu    delete pkt;
4562644Sstever@eecs.umich.edu
4572839Sktlim@umich.edu    if (getState() == SimObject::Draining) {
4582839Sktlim@umich.edu        completeDrain();
4592798Sktlim@umich.edu        return;
4602798Sktlim@umich.edu    }
4612798Sktlim@umich.edu
4622623SN/A    preExecute();
4632644Sstever@eecs.umich.edu    if (curStaticInst->isMemRef() && !curStaticInst->isDataPrefetch()) {
4642623SN/A        // load or store: just send to dcache
4652623SN/A        Fault fault = curStaticInst->initiateAcc(this, traceData);
4663170Sstever@eecs.umich.edu        if (_status != Running) {
4673170Sstever@eecs.umich.edu            // instruction will complete in dcache response callback
4683170Sstever@eecs.umich.edu            assert(_status == DcacheWaitResponse || _status == DcacheRetry);
4693170Sstever@eecs.umich.edu            assert(fault == NoFault);
4702644Sstever@eecs.umich.edu        } else {
4713170Sstever@eecs.umich.edu            if (fault == NoFault) {
4723170Sstever@eecs.umich.edu                // early fail on store conditional: complete now
4733170Sstever@eecs.umich.edu                assert(dcache_pkt != NULL);
4743170Sstever@eecs.umich.edu                fault = curStaticInst->completeAcc(dcache_pkt, this,
4753170Sstever@eecs.umich.edu                                                   traceData);
4763170Sstever@eecs.umich.edu                delete dcache_pkt->req;
4773170Sstever@eecs.umich.edu                delete dcache_pkt;
4783170Sstever@eecs.umich.edu                dcache_pkt = NULL;
4793170Sstever@eecs.umich.edu            }
4802644Sstever@eecs.umich.edu            postExecute();
4812644Sstever@eecs.umich.edu            advanceInst(fault);
4822644Sstever@eecs.umich.edu        }
4832623SN/A    } else {
4842623SN/A        // non-memory instruction: execute completely now
4852623SN/A        Fault fault = curStaticInst->execute(this, traceData);
4862644Sstever@eecs.umich.edu        postExecute();
4872644Sstever@eecs.umich.edu        advanceInst(fault);
4882623SN/A    }
4892623SN/A}
4902623SN/A
4912948Ssaidi@eecs.umich.eduvoid
4922948Ssaidi@eecs.umich.eduTimingSimpleCPU::IcachePort::ITickEvent::process()
4932948Ssaidi@eecs.umich.edu{
4942948Ssaidi@eecs.umich.edu    cpu->completeIfetch(pkt);
4952948Ssaidi@eecs.umich.edu}
4962623SN/A
4972623SN/Abool
4982630SN/ATimingSimpleCPU::IcachePort::recvTiming(Packet *pkt)
4992623SN/A{
5003170Sstever@eecs.umich.edu    // delay processing of returned data until next CPU clock edge
5012948Ssaidi@eecs.umich.edu    Tick time = pkt->req->getTime();
5022948Ssaidi@eecs.umich.edu    while (time < curTick)
5032948Ssaidi@eecs.umich.edu        time += lat;
5042948Ssaidi@eecs.umich.edu
5052948Ssaidi@eecs.umich.edu    if (time == curTick)
5062948Ssaidi@eecs.umich.edu        cpu->completeIfetch(pkt);
5072948Ssaidi@eecs.umich.edu    else
5082948Ssaidi@eecs.umich.edu        tickEvent.schedule(pkt, time);
5092948Ssaidi@eecs.umich.edu
5102623SN/A    return true;
5112623SN/A}
5122623SN/A
5132657Ssaidi@eecs.umich.eduvoid
5142623SN/ATimingSimpleCPU::IcachePort::recvRetry()
5152623SN/A{
5162623SN/A    // we shouldn't get a retry unless we have a packet that we're
5172623SN/A    // waiting to transmit
5182623SN/A    assert(cpu->ifetch_pkt != NULL);
5192623SN/A    assert(cpu->_status == IcacheRetry);
5202623SN/A    Packet *tmp = cpu->ifetch_pkt;
5212657Ssaidi@eecs.umich.edu    if (sendTiming(tmp)) {
5222657Ssaidi@eecs.umich.edu        cpu->_status = IcacheWaitResponse;
5232657Ssaidi@eecs.umich.edu        cpu->ifetch_pkt = NULL;
5242657Ssaidi@eecs.umich.edu    }
5252623SN/A}
5262623SN/A
5272623SN/Avoid
5282623SN/ATimingSimpleCPU::completeDataAccess(Packet *pkt)
5292623SN/A{
5302623SN/A    // received a response from the dcache: complete the load or store
5312623SN/A    // instruction
5322641Sstever@eecs.umich.edu    assert(pkt->result == Packet::Success);
5332623SN/A    assert(_status == DcacheWaitResponse);
5342623SN/A    _status = Running;
5352623SN/A
5362839Sktlim@umich.edu    if (getState() == SimObject::Draining) {
5372839Sktlim@umich.edu        completeDrain();
5382798Sktlim@umich.edu
5392798Sktlim@umich.edu        delete pkt->req;
5402798Sktlim@umich.edu        delete pkt;
5412798Sktlim@umich.edu
5422798Sktlim@umich.edu        return;
5432798Sktlim@umich.edu    }
5442798Sktlim@umich.edu
5452623SN/A    Fault fault = curStaticInst->completeAcc(pkt, this, traceData);
5462623SN/A
5473170Sstever@eecs.umich.edu    if (pkt->isRead() && pkt->req->isLocked()) {
5483170Sstever@eecs.umich.edu        TheISA::handleLockedRead(thread, pkt->req);
5493170Sstever@eecs.umich.edu    }
5503170Sstever@eecs.umich.edu
5512644Sstever@eecs.umich.edu    delete pkt->req;
5522644Sstever@eecs.umich.edu    delete pkt;
5532644Sstever@eecs.umich.edu
5542644Sstever@eecs.umich.edu    postExecute();
5552644Sstever@eecs.umich.edu    advanceInst(fault);
5562623SN/A}
5572623SN/A
5582623SN/A
5592798Sktlim@umich.eduvoid
5602839Sktlim@umich.eduTimingSimpleCPU::completeDrain()
5612798Sktlim@umich.edu{
5622839Sktlim@umich.edu    DPRINTF(Config, "Done draining\n");
5632901Ssaidi@eecs.umich.edu    changeState(SimObject::Drained);
5642839Sktlim@umich.edu    drainEvent->process();
5652798Sktlim@umich.edu}
5662623SN/A
5672623SN/Abool
5682630SN/ATimingSimpleCPU::DcachePort::recvTiming(Packet *pkt)
5692623SN/A{
5703170Sstever@eecs.umich.edu    // delay processing of returned data until next CPU clock edge
5712948Ssaidi@eecs.umich.edu    Tick time = pkt->req->getTime();
5722948Ssaidi@eecs.umich.edu    while (time < curTick)
5732948Ssaidi@eecs.umich.edu        time += lat;
5742948Ssaidi@eecs.umich.edu
5752948Ssaidi@eecs.umich.edu    if (time == curTick)
5762948Ssaidi@eecs.umich.edu        cpu->completeDataAccess(pkt);
5772948Ssaidi@eecs.umich.edu    else
5782948Ssaidi@eecs.umich.edu        tickEvent.schedule(pkt, time);
5792948Ssaidi@eecs.umich.edu
5802948Ssaidi@eecs.umich.edu    return true;
5812948Ssaidi@eecs.umich.edu}
5822948Ssaidi@eecs.umich.edu
5832948Ssaidi@eecs.umich.eduvoid
5842948Ssaidi@eecs.umich.eduTimingSimpleCPU::DcachePort::DTickEvent::process()
5852948Ssaidi@eecs.umich.edu{
5862630SN/A    cpu->completeDataAccess(pkt);
5872623SN/A}
5882623SN/A
5892657Ssaidi@eecs.umich.eduvoid
5902623SN/ATimingSimpleCPU::DcachePort::recvRetry()
5912623SN/A{
5922623SN/A    // we shouldn't get a retry unless we have a packet that we're
5932623SN/A    // waiting to transmit
5942623SN/A    assert(cpu->dcache_pkt != NULL);
5952623SN/A    assert(cpu->_status == DcacheRetry);
5962623SN/A    Packet *tmp = cpu->dcache_pkt;
5972657Ssaidi@eecs.umich.edu    if (sendTiming(tmp)) {
5982657Ssaidi@eecs.umich.edu        cpu->_status = DcacheWaitResponse;
5993170Sstever@eecs.umich.edu        // memory system takes ownership of packet
6002657Ssaidi@eecs.umich.edu        cpu->dcache_pkt = NULL;
6012657Ssaidi@eecs.umich.edu    }
6022623SN/A}
6032623SN/A
6042623SN/A
6052623SN/A////////////////////////////////////////////////////////////////////////
6062623SN/A//
6072623SN/A//  TimingSimpleCPU Simulation Object
6082623SN/A//
6092623SN/ABEGIN_DECLARE_SIM_OBJECT_PARAMS(TimingSimpleCPU)
6102623SN/A
6112623SN/A    Param<Counter> max_insts_any_thread;
6122623SN/A    Param<Counter> max_insts_all_threads;
6132623SN/A    Param<Counter> max_loads_any_thread;
6142623SN/A    Param<Counter> max_loads_all_threads;
6153119Sktlim@umich.edu    Param<Tick> progress_interval;
6162623SN/A    SimObjectParam<MemObject *> mem;
6172901Ssaidi@eecs.umich.edu    SimObjectParam<System *> system;
6183170Sstever@eecs.umich.edu    Param<int> cpu_id;
6192623SN/A
6202623SN/A#if FULL_SYSTEM
6212623SN/A    SimObjectParam<AlphaITB *> itb;
6222623SN/A    SimObjectParam<AlphaDTB *> dtb;
6232623SN/A    Param<Tick> profile;
6242623SN/A#else
6252623SN/A    SimObjectParam<Process *> workload;
6262623SN/A#endif // FULL_SYSTEM
6272623SN/A
6282623SN/A    Param<int> clock;
6292623SN/A
6302623SN/A    Param<bool> defer_registration;
6312623SN/A    Param<int> width;
6322623SN/A    Param<bool> function_trace;
6332623SN/A    Param<Tick> function_trace_start;
6342623SN/A    Param<bool> simulate_stalls;
6352623SN/A
6362623SN/AEND_DECLARE_SIM_OBJECT_PARAMS(TimingSimpleCPU)
6372623SN/A
6382623SN/ABEGIN_INIT_SIM_OBJECT_PARAMS(TimingSimpleCPU)
6392623SN/A
6402623SN/A    INIT_PARAM(max_insts_any_thread,
6412623SN/A               "terminate when any thread reaches this inst count"),
6422623SN/A    INIT_PARAM(max_insts_all_threads,
6432623SN/A               "terminate when all threads have reached this inst count"),
6442623SN/A    INIT_PARAM(max_loads_any_thread,
6452623SN/A               "terminate when any thread reaches this load count"),
6462623SN/A    INIT_PARAM(max_loads_all_threads,
6472623SN/A               "terminate when all threads have reached this load count"),
6483119Sktlim@umich.edu    INIT_PARAM(progress_interval, "Progress interval"),
6492623SN/A    INIT_PARAM(mem, "memory"),
6502901Ssaidi@eecs.umich.edu    INIT_PARAM(system, "system object"),
6513170Sstever@eecs.umich.edu    INIT_PARAM(cpu_id, "processor ID"),
6522623SN/A
6532623SN/A#if FULL_SYSTEM
6542623SN/A    INIT_PARAM(itb, "Instruction TLB"),
6552623SN/A    INIT_PARAM(dtb, "Data TLB"),
6562623SN/A    INIT_PARAM(profile, ""),
6572623SN/A#else
6582623SN/A    INIT_PARAM(workload, "processes to run"),
6592623SN/A#endif // FULL_SYSTEM
6602623SN/A
6612623SN/A    INIT_PARAM(clock, "clock speed"),
6622623SN/A    INIT_PARAM(defer_registration, "defer system registration (for sampling)"),
6632623SN/A    INIT_PARAM(width, "cpu width"),
6642623SN/A    INIT_PARAM(function_trace, "Enable function trace"),
6652623SN/A    INIT_PARAM(function_trace_start, "Cycle to start function trace"),
6662623SN/A    INIT_PARAM(simulate_stalls, "Simulate cache stall cycles")
6672623SN/A
6682623SN/AEND_INIT_SIM_OBJECT_PARAMS(TimingSimpleCPU)
6692623SN/A
6702623SN/A
6712623SN/ACREATE_SIM_OBJECT(TimingSimpleCPU)
6722623SN/A{
6732623SN/A    TimingSimpleCPU::Params *params = new TimingSimpleCPU::Params();
6742623SN/A    params->name = getInstanceName();
6752623SN/A    params->numberOfThreads = 1;
6762623SN/A    params->max_insts_any_thread = max_insts_any_thread;
6772623SN/A    params->max_insts_all_threads = max_insts_all_threads;
6782623SN/A    params->max_loads_any_thread = max_loads_any_thread;
6792623SN/A    params->max_loads_all_threads = max_loads_all_threads;
6803119Sktlim@umich.edu    params->progress_interval = progress_interval;
6812623SN/A    params->deferRegistration = defer_registration;
6822623SN/A    params->clock = clock;
6832623SN/A    params->functionTrace = function_trace;
6842623SN/A    params->functionTraceStart = function_trace_start;
6852623SN/A    params->mem = mem;
6862901Ssaidi@eecs.umich.edu    params->system = system;
6873170Sstever@eecs.umich.edu    params->cpu_id = cpu_id;
6882623SN/A
6892623SN/A#if FULL_SYSTEM
6902623SN/A    params->itb = itb;
6912623SN/A    params->dtb = dtb;
6922623SN/A    params->profile = profile;
6932623SN/A#else
6942623SN/A    params->process = workload;
6952623SN/A#endif
6962623SN/A
6972623SN/A    TimingSimpleCPU *cpu = new TimingSimpleCPU(params);
6982623SN/A    return cpu;
6992623SN/A}
7002623SN/A
7012623SN/AREGISTER_SIM_OBJECT("TimingSimpleCPU", TimingSimpleCPU)
7022623SN/A
703