cpu/simple/atomic.cc

2623SN/A/*
2623SN/A * Copyright (c) 2002-2005 The Regents of The University of Michigan
2623SN/A * All rights reserved.
2623SN/A *
2623SN/A * Redistribution and use in source and binary forms, with or without
2623SN/A * modification, are permitted provided that the following conditions are
2623SN/A * met: redistributions of source code must retain the above copyright
2623SN/A * notice, this list of conditions and the following disclaimer;
2623SN/A * redistributions in binary form must reproduce the above copyright
2623SN/A * notice, this list of conditions and the following disclaimer in the
2623SN/A * documentation and/or other materials provided with the distribution;
2623SN/A * neither the name of the copyright holders nor the names of its
2623SN/A * contributors may be used to endorse or promote products derived from
2623SN/A * this software without specific prior written permission.
2623SN/A *
2623SN/A * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
2623SN/A * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
2623SN/A * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
2623SN/A * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
2623SN/A * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
2623SN/A * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
2623SN/A * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
2623SN/A * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
2623SN/A * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
2623SN/A * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
2623SN/A * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
2665Ssaidi@eecs.umich.edu *
2665Ssaidi@eecs.umich.edu * Authors: Steve Reinhardt
2623SN/A */
2623SN/A
3170Sstever@eecs.umich.edu#include "arch/locked_mem.hh"
3806Ssaidi@eecs.umich.edu#include "arch/mmaped_ipr.hh"
2623SN/A#include "arch/utility.hh"
4040Ssaidi@eecs.umich.edu#include "base/bigint.hh"
2623SN/A#include "cpu/exetrace.hh"
2623SN/A#include "cpu/simple/atomic.hh"
3348Sbinkertn@umich.edu#include "mem/packet.hh"
3348Sbinkertn@umich.edu#include "mem/packet_access.hh"
2623SN/A#include "sim/builder.hh"
2901Ssaidi@eecs.umich.edu#include "sim/system.hh"
2623SN/A
2623SN/Ausing namespace std;
2623SN/Ausing namespace TheISA;
2623SN/A
2623SN/AAtomicSimpleCPU::TickEvent::TickEvent(AtomicSimpleCPU *c)
2623SN/A    : Event(&mainEventQueue, CPU_Tick_Pri), cpu(c)
2623SN/A{
2623SN/A}
2623SN/A
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::TickEvent::process()
2623SN/A{
2623SN/A    cpu->tick();
2623SN/A}
2623SN/A
2623SN/Aconst char *
2623SN/AAtomicSimpleCPU::TickEvent::description()
2623SN/A{
2623SN/A    return "AtomicSimpleCPU tick event";
2623SN/A}
2623SN/A
2856Srdreslin@umich.eduPort *
2856Srdreslin@umich.eduAtomicSimpleCPU::getPort(const std::string &if_name, int idx)
2856Srdreslin@umich.edu{
2856Srdreslin@umich.edu    if (if_name == "dcache_port")
2856Srdreslin@umich.edu        return &dcachePort;
2856Srdreslin@umich.edu    else if (if_name == "icache_port")
2856Srdreslin@umich.edu        return &icachePort;
2856Srdreslin@umich.edu    else
2856Srdreslin@umich.edu        panic("No Such Port\n");
2856Srdreslin@umich.edu}
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::init()
2623SN/A{
2623SN/A    BaseCPU::init();
2623SN/A#if FULL_SYSTEM
2680Sktlim@umich.edu    for (int i = 0; i < threadContexts.size(); ++i) {
2680Sktlim@umich.edu        ThreadContext *tc = threadContexts[i];
2623SN/A
2623SN/A        // initialize CPU, including PC
2680Sktlim@umich.edu        TheISA::initCPU(tc, tc->readCpuId());
2623SN/A    }
2623SN/A#endif
2623SN/A}
2623SN/A
2623SN/Abool
3349Sbinkertn@umich.eduAtomicSimpleCPU::CpuPort::recvTiming(PacketPtr pkt)
2623SN/A{
3184Srdreslin@umich.edu    panic("AtomicSimpleCPU doesn't expect recvTiming callback!");
2623SN/A    return true;
2623SN/A}
2623SN/A
2623SN/ATick
3349Sbinkertn@umich.eduAtomicSimpleCPU::CpuPort::recvAtomic(PacketPtr pkt)
2623SN/A{
3310Srdreslin@umich.edu    //Snooping a coherence request, just return
3649Srdreslin@umich.edu    return 0;
2623SN/A}
2623SN/A
2623SN/Avoid
3349Sbinkertn@umich.eduAtomicSimpleCPU::CpuPort::recvFunctional(PacketPtr pkt)
2623SN/A{
3184Srdreslin@umich.edu    //No internal storage to update, just return
3184Srdreslin@umich.edu    return;
2623SN/A}
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::CpuPort::recvStatusChange(Status status)
2623SN/A{
3647Srdreslin@umich.edu    if (status == RangeChange) {
3647Srdreslin@umich.edu        if (!snoopRangeSent) {
3647Srdreslin@umich.edu            snoopRangeSent = true;
3647Srdreslin@umich.edu            sendStatusChange(Port::RangeChange);
3647Srdreslin@umich.edu        }
2626SN/A        return;
3647Srdreslin@umich.edu    }
2626SN/A
2623SN/A    panic("AtomicSimpleCPU doesn't expect recvStatusChange callback!");
2623SN/A}
2623SN/A
2657Ssaidi@eecs.umich.eduvoid
2623SN/AAtomicSimpleCPU::CpuPort::recvRetry()
2623SN/A{
2623SN/A    panic("AtomicSimpleCPU doesn't expect recvRetry callback!");
2623SN/A}
2623SN/A
2623SN/A
2623SN/AAtomicSimpleCPU::AtomicSimpleCPU(Params *p)
2623SN/A    : BaseSimpleCPU(p), tickEvent(this),
2623SN/A      width(p->width), simulate_stalls(p->simulate_stalls),
2640Sstever@eecs.umich.edu      icachePort(name() + "-iport", this), dcachePort(name() + "-iport", this)
2623SN/A{
2623SN/A    _status = Idle;
2623SN/A
3647Srdreslin@umich.edu    icachePort.snoopRangeSent = false;
3647Srdreslin@umich.edu    dcachePort.snoopRangeSent = false;
3647Srdreslin@umich.edu
2663Sstever@eecs.umich.edu    ifetch_req = new Request();
3170Sstever@eecs.umich.edu    ifetch_req->setThreadContext(p->cpu_id, 0); // Add thread ID if we add MT
4022Sstever@eecs.umich.edu    ifetch_pkt = new Packet(ifetch_req, MemCmd::ReadReq, Packet::Broadcast);
2623SN/A    ifetch_pkt->dataStatic(&inst);
2623SN/A
2663Sstever@eecs.umich.edu    data_read_req = new Request();
3170Sstever@eecs.umich.edu    data_read_req->setThreadContext(p->cpu_id, 0); // Add thread ID here too
4022Sstever@eecs.umich.edu    data_read_pkt = new Packet(data_read_req, MemCmd::ReadReq,
2641Sstever@eecs.umich.edu                               Packet::Broadcast);
2623SN/A    data_read_pkt->dataStatic(&dataReg);
2623SN/A
2663Sstever@eecs.umich.edu    data_write_req = new Request();
3170Sstever@eecs.umich.edu    data_write_req->setThreadContext(p->cpu_id, 0); // Add thread ID here too
4022Sstever@eecs.umich.edu    data_write_pkt = new Packet(data_write_req, MemCmd::WriteReq,
2641Sstever@eecs.umich.edu                                Packet::Broadcast);
4040Ssaidi@eecs.umich.edu    data_swap_pkt = new Packet(data_write_req, MemCmd::SwapReq,
4040Ssaidi@eecs.umich.edu                                Packet::Broadcast);
2623SN/A}
2623SN/A
2623SN/A
2623SN/AAtomicSimpleCPU::~AtomicSimpleCPU()
2623SN/A{
2623SN/A}
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::serialize(ostream &os)
2623SN/A{
2915Sktlim@umich.edu    SimObject::State so_state = SimObject::getState();
2915Sktlim@umich.edu    SERIALIZE_ENUM(so_state);
3177Shsul@eecs.umich.edu    Status _status = status();
3177Shsul@eecs.umich.edu    SERIALIZE_ENUM(_status);
3145Shsul@eecs.umich.edu    BaseSimpleCPU::serialize(os);
2623SN/A    nameOut(os, csprintf("%s.tickEvent", name()));
2623SN/A    tickEvent.serialize(os);
2623SN/A}
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::unserialize(Checkpoint *cp, const string &section)
2623SN/A{
2915Sktlim@umich.edu    SimObject::State so_state;
2915Sktlim@umich.edu    UNSERIALIZE_ENUM(so_state);
3177Shsul@eecs.umich.edu    UNSERIALIZE_ENUM(_status);
3145Shsul@eecs.umich.edu    BaseSimpleCPU::unserialize(cp, section);
2915Sktlim@umich.edu    tickEvent.unserialize(cp, csprintf("%s.tickEvent", section));
2915Sktlim@umich.edu}
2915Sktlim@umich.edu
2915Sktlim@umich.eduvoid
2915Sktlim@umich.eduAtomicSimpleCPU::resume()
2915Sktlim@umich.edu{
3324Shsul@eecs.umich.edu    if (_status != SwitchedOut && _status != Idle) {
3201Shsul@eecs.umich.edu        assert(system->getMemoryMode() == System::Atomic);
3324Shsul@eecs.umich.edu
3324Shsul@eecs.umich.edu        changeState(SimObject::Running);
3324Shsul@eecs.umich.edu        if (thread->status() == ThreadContext::Active) {
3431Sgblack@eecs.umich.edu            if (!tickEvent.scheduled()) {
3495Sktlim@umich.edu                tickEvent.schedule(nextCycle());
3431Sgblack@eecs.umich.edu            }
3324Shsul@eecs.umich.edu        }
2915Sktlim@umich.edu    }
2623SN/A}
2623SN/A
2623SN/Avoid
2798Sktlim@umich.eduAtomicSimpleCPU::switchOut()
2623SN/A{
2798Sktlim@umich.edu    assert(status() == Running || status() == Idle);
2798Sktlim@umich.edu    _status = SwitchedOut;
2623SN/A
2798Sktlim@umich.edu    tickEvent.squash();
2623SN/A}
2623SN/A
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::takeOverFrom(BaseCPU *oldCPU)
2623SN/A{
2623SN/A    BaseCPU::takeOverFrom(oldCPU);
2623SN/A
2623SN/A    assert(!tickEvent.scheduled());
2623SN/A
2680Sktlim@umich.edu    // if any of this CPU's ThreadContexts are active, mark the CPU as
2623SN/A    // running and schedule its tick event.
2680Sktlim@umich.edu    for (int i = 0; i < threadContexts.size(); ++i) {
2680Sktlim@umich.edu        ThreadContext *tc = threadContexts[i];
2680Sktlim@umich.edu        if (tc->status() == ThreadContext::Active && _status != Running) {
2623SN/A            _status = Running;
3495Sktlim@umich.edu            tickEvent.schedule(nextCycle());
2623SN/A            break;
2623SN/A        }
2623SN/A    }
3512Sktlim@umich.edu    if (_status != Running) {
3512Sktlim@umich.edu        _status = Idle;
3512Sktlim@umich.edu    }
2623SN/A}
2623SN/A
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::activateContext(int thread_num, int delay)
2623SN/A{
2623SN/A    assert(thread_num == 0);
2683Sktlim@umich.edu    assert(thread);
2623SN/A
2623SN/A    assert(_status == Idle);
2623SN/A    assert(!tickEvent.scheduled());
2623SN/A
2623SN/A    notIdleFraction++;
3686Sktlim@umich.edu
3686Sktlim@umich.edu#if FULL_SYSTEM
3686Sktlim@umich.edu    // Connect the ThreadContext's memory ports (Functional/Virtual
3686Sktlim@umich.edu    // Ports)
3686Sktlim@umich.edu    tc->connectMemPorts();
3686Sktlim@umich.edu#endif
3686Sktlim@umich.edu
3430Sgblack@eecs.umich.edu    //Make sure ticks are still on multiples of cycles
3495Sktlim@umich.edu    tickEvent.schedule(nextCycle(curTick + cycles(delay)));
2623SN/A    _status = Running;
2623SN/A}
2623SN/A
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::suspendContext(int thread_num)
2623SN/A{
2623SN/A    assert(thread_num == 0);
2683Sktlim@umich.edu    assert(thread);
2623SN/A
2623SN/A    assert(_status == Running);
2626SN/A
2626SN/A    // tick event may not be scheduled if this gets called from inside
2626SN/A    // an instruction's execution, e.g. "quiesce"
2626SN/A    if (tickEvent.scheduled())
2626SN/A        tickEvent.deschedule();
2623SN/A
2623SN/A    notIdleFraction--;
2623SN/A    _status = Idle;
2623SN/A}
2623SN/A
2623SN/A
2623SN/Atemplate <class T>
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, T &data, unsigned flags)
2623SN/A{
3169Sstever@eecs.umich.edu    // use the CPU's statically allocated read request and packet objects
3169Sstever@eecs.umich.edu    Request *req = data_read_req;
3349Sbinkertn@umich.edu    PacketPtr pkt = data_read_pkt;
3169Sstever@eecs.umich.edu
3169Sstever@eecs.umich.edu    req->setVirt(0, addr, sizeof(T), flags, thread->readPC());
2623SN/A
2623SN/A    if (traceData) {
2623SN/A        traceData->setAddr(addr);
2623SN/A    }
2623SN/A
2623SN/A    // translate to physical address
3169Sstever@eecs.umich.edu    Fault fault = thread->translateDataReadReq(req);
2623SN/A
2623SN/A    // Now do the access.
2623SN/A    if (fault == NoFault) {
3169Sstever@eecs.umich.edu        pkt->reinitFromRequest();
2623SN/A
3806Ssaidi@eecs.umich.edu        if (req->isMmapedIpr())
3806Ssaidi@eecs.umich.edu            dcache_latency = TheISA::handleIprRead(thread->getTC(),pkt);
3806Ssaidi@eecs.umich.edu        else
3806Ssaidi@eecs.umich.edu            dcache_latency = dcachePort.sendAtomic(pkt);
2623SN/A        dcache_access = true;
3814Ssaidi@eecs.umich.edu#if !defined(NDEBUG)
3814Ssaidi@eecs.umich.edu        if (pkt->result != Packet::Success)
3814Ssaidi@eecs.umich.edu            panic("Unable to find responder for address pa = %#X va = %#X\n",
3814Ssaidi@eecs.umich.edu                    pkt->req->getPaddr(), pkt->req->getVaddr());
3814Ssaidi@eecs.umich.edu#endif
3169Sstever@eecs.umich.edu        data = pkt->get<T>();
3170Sstever@eecs.umich.edu
3170Sstever@eecs.umich.edu        if (req->isLocked()) {
3170Sstever@eecs.umich.edu            TheISA::handleLockedRead(thread, req);
3170Sstever@eecs.umich.edu        }
2623SN/A    }
2623SN/A
2623SN/A    // This will need a new way to tell if it has a dcache attached.
3172Sstever@eecs.umich.edu    if (req->isUncacheable())
2623SN/A        recordEvent("Uncached Read");
2623SN/A
2623SN/A    return fault;
2623SN/A}
2623SN/A
2623SN/A#ifndef DOXYGEN_SHOULD_SKIP_THIS
2623SN/A
2623SN/Atemplate
2623SN/AFault
4115Ssaidi@eecs.umich.eduAtomicSimpleCPU::read(Addr addr, Twin32_t &data, unsigned flags);
4115Ssaidi@eecs.umich.edu
4115Ssaidi@eecs.umich.edutemplate
4115Ssaidi@eecs.umich.eduFault
4040Ssaidi@eecs.umich.eduAtomicSimpleCPU::read(Addr addr, Twin64_t &data, unsigned flags);
4040Ssaidi@eecs.umich.edu
4040Ssaidi@eecs.umich.edutemplate
4040Ssaidi@eecs.umich.eduFault
2623SN/AAtomicSimpleCPU::read(Addr addr, uint64_t &data, unsigned flags);
2623SN/A
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, uint32_t &data, unsigned flags);
2623SN/A
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, uint16_t &data, unsigned flags);
2623SN/A
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, uint8_t &data, unsigned flags);
2623SN/A
2623SN/A#endif //DOXYGEN_SHOULD_SKIP_THIS
2623SN/A
2623SN/Atemplate<>
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, double &data, unsigned flags)
2623SN/A{
2623SN/A    return read(addr, *(uint64_t*)&data, flags);
2623SN/A}
2623SN/A
2623SN/Atemplate<>
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, float &data, unsigned flags)
2623SN/A{
2623SN/A    return read(addr, *(uint32_t*)&data, flags);
2623SN/A}
2623SN/A
2623SN/A
2623SN/Atemplate<>
2623SN/AFault
2623SN/AAtomicSimpleCPU::read(Addr addr, int32_t &data, unsigned flags)
2623SN/A{
2623SN/A    return read(addr, (uint32_t&)data, flags);
2623SN/A}
2623SN/A
2623SN/A
2623SN/Atemplate <class T>
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(T data, Addr addr, unsigned flags, uint64_t *res)
2623SN/A{
3169Sstever@eecs.umich.edu    // use the CPU's statically allocated write request and packet objects
3169Sstever@eecs.umich.edu    Request *req = data_write_req;
4040Ssaidi@eecs.umich.edu    PacketPtr pkt;
3169Sstever@eecs.umich.edu
3169Sstever@eecs.umich.edu    req->setVirt(0, addr, sizeof(T), flags, thread->readPC());
2623SN/A
4040Ssaidi@eecs.umich.edu    if (req->isSwap())
4040Ssaidi@eecs.umich.edu        pkt = data_swap_pkt;
4040Ssaidi@eecs.umich.edu    else
4040Ssaidi@eecs.umich.edu        pkt = data_write_pkt;
4040Ssaidi@eecs.umich.edu
2623SN/A    if (traceData) {
2623SN/A        traceData->setAddr(addr);
2623SN/A    }
2623SN/A
2623SN/A    // translate to physical address
3169Sstever@eecs.umich.edu    Fault fault = thread->translateDataWriteReq(req);
2623SN/A
2623SN/A    // Now do the access.
2623SN/A    if (fault == NoFault) {
3170Sstever@eecs.umich.edu        bool do_access = true;  // flag to suppress cache access
2623SN/A
3170Sstever@eecs.umich.edu        if (req->isLocked()) {
3170Sstever@eecs.umich.edu            do_access = TheISA::handleLockedWrite(thread, req);
3170Sstever@eecs.umich.edu        }
4040Ssaidi@eecs.umich.edu        if (req->isCondSwap()) {
4040Ssaidi@eecs.umich.edu             assert(res);
4040Ssaidi@eecs.umich.edu             req->setExtraData(*res);
4040Ssaidi@eecs.umich.edu        }
4040Ssaidi@eecs.umich.edu
2623SN/A
3170Sstever@eecs.umich.edu        if (do_access) {
3170Sstever@eecs.umich.edu            pkt->reinitFromRequest();
3170Sstever@eecs.umich.edu            pkt->dataStatic(&data);
2631SN/A
3806Ssaidi@eecs.umich.edu            if (req->isMmapedIpr()) {
3806Ssaidi@eecs.umich.edu                dcache_latency = TheISA::handleIprWrite(thread->getTC(), pkt);
3806Ssaidi@eecs.umich.edu            } else {
3806Ssaidi@eecs.umich.edu                data = htog(data);
3806Ssaidi@eecs.umich.edu                dcache_latency = dcachePort.sendAtomic(pkt);
3806Ssaidi@eecs.umich.edu            }
3170Sstever@eecs.umich.edu            dcache_access = true;
3170Sstever@eecs.umich.edu
3814Ssaidi@eecs.umich.edu#if !defined(NDEBUG)
3814Ssaidi@eecs.umich.edu            if (pkt->result != Packet::Success)
3814Ssaidi@eecs.umich.edu                panic("Unable to find responder for address pa = %#X va = %#X\n",
3814Ssaidi@eecs.umich.edu                        pkt->req->getPaddr(), pkt->req->getVaddr());
3814Ssaidi@eecs.umich.edu#endif
3170Sstever@eecs.umich.edu        }
3170Sstever@eecs.umich.edu
4040Ssaidi@eecs.umich.edu        if (req->isSwap()) {
4040Ssaidi@eecs.umich.edu            assert(res);
4040Ssaidi@eecs.umich.edu            *res = pkt->get<T>();
4050Ssaidi@eecs.umich.edu        } else if (res) {
4052Ssaidi@eecs.umich.edu            *res = req->getExtraData();
2631SN/A        }
2623SN/A    }
2623SN/A
2623SN/A    // This will need a new way to tell if it's hooked up to a cache or not.
3172Sstever@eecs.umich.edu    if (req->isUncacheable())
2623SN/A        recordEvent("Uncached Write");
2623SN/A
2623SN/A    // If the write needs to have a fault on the access, consider calling
2623SN/A    // changeStatus() and changing it to "bad addr write" or something.
2623SN/A    return fault;
2623SN/A}
2623SN/A
2623SN/A
2623SN/A#ifndef DOXYGEN_SHOULD_SKIP_THIS
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(uint64_t data, Addr addr,
2623SN/A                       unsigned flags, uint64_t *res);
2623SN/A
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(uint32_t data, Addr addr,
2623SN/A                       unsigned flags, uint64_t *res);
2623SN/A
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(uint16_t data, Addr addr,
2623SN/A                       unsigned flags, uint64_t *res);
2623SN/A
2623SN/Atemplate
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(uint8_t data, Addr addr,
2623SN/A                       unsigned flags, uint64_t *res);
2623SN/A
2623SN/A#endif //DOXYGEN_SHOULD_SKIP_THIS
2623SN/A
2623SN/Atemplate<>
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(double data, Addr addr, unsigned flags, uint64_t *res)
2623SN/A{
2623SN/A    return write(*(uint64_t*)&data, addr, flags, res);
2623SN/A}
2623SN/A
2623SN/Atemplate<>
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(float data, Addr addr, unsigned flags, uint64_t *res)
2623SN/A{
2623SN/A    return write(*(uint32_t*)&data, addr, flags, res);
2623SN/A}
2623SN/A
2623SN/A
2623SN/Atemplate<>
2623SN/AFault
2623SN/AAtomicSimpleCPU::write(int32_t data, Addr addr, unsigned flags, uint64_t *res)
2623SN/A{
2623SN/A    return write((uint32_t)data, addr, flags, res);
2623SN/A}
2623SN/A
2623SN/A
2623SN/Avoid
2623SN/AAtomicSimpleCPU::tick()
2623SN/A{
2623SN/A    Tick latency = cycles(1); // instruction takes one cycle by default
2623SN/A
2623SN/A    for (int i = 0; i < width; ++i) {
2623SN/A        numCycles++;
2623SN/A
3387Sgblack@eecs.umich.edu        if (!curStaticInst || !curStaticInst->isDelayedCommit())
3387Sgblack@eecs.umich.edu            checkForInterrupts();
2626SN/A
2662Sstever@eecs.umich.edu        Fault fault = setupFetchRequest(ifetch_req);
2623SN/A
2623SN/A        if (fault == NoFault) {
4182Sgblack@eecs.umich.edu            Tick icache_latency = 0;
4182Sgblack@eecs.umich.edu            bool icache_access = false;
4182Sgblack@eecs.umich.edu            dcache_access = false; // assume no dcache access
2662Sstever@eecs.umich.edu
4182Sgblack@eecs.umich.edu            //Fetch more instruction memory if necessary
4182Sgblack@eecs.umich.edu            if(predecoder.needMoreBytes())
4182Sgblack@eecs.umich.edu            {
4182Sgblack@eecs.umich.edu                icache_access = true;
4182Sgblack@eecs.umich.edu                ifetch_pkt->reinitFromRequest();
2623SN/A
4182Sgblack@eecs.umich.edu                icache_latency = icachePort.sendAtomic(ifetch_pkt);
4182Sgblack@eecs.umich.edu                // ifetch_req is initialized to read the instruction directly
4182Sgblack@eecs.umich.edu                // into the CPU object's inst field.
4182Sgblack@eecs.umich.edu            }
4182Sgblack@eecs.umich.edu
2623SN/A            preExecute();
3814Ssaidi@eecs.umich.edu
4182Sgblack@eecs.umich.edu            if(curStaticInst)
4182Sgblack@eecs.umich.edu            {
4182Sgblack@eecs.umich.edu                fault = curStaticInst->execute(this, traceData);
4182Sgblack@eecs.umich.edu                postExecute();
4182Sgblack@eecs.umich.edu            }
2623SN/A
3814Ssaidi@eecs.umich.edu            // @todo remove me after debugging with legion done
3814Ssaidi@eecs.umich.edu            if (curStaticInst && (!curStaticInst->isMicroOp() ||
3901Ssaidi@eecs.umich.edu                        curStaticInst->isFirstMicroOp()))
3814Ssaidi@eecs.umich.edu                instCnt++;
3814Ssaidi@eecs.umich.edu
2623SN/A            if (simulate_stalls) {
4182Sgblack@eecs.umich.edu                Tick icache_stall =
4182Sgblack@eecs.umich.edu                    icache_access ? icache_latency - cycles(1) : 0;
2623SN/A                Tick dcache_stall =
2662Sstever@eecs.umich.edu                    dcache_access ? dcache_latency - cycles(1) : 0;
2803Ssaidi@eecs.umich.edu                Tick stall_cycles = (icache_stall + dcache_stall) / cycles(1);
2803Ssaidi@eecs.umich.edu                if (cycles(stall_cycles) < (icache_stall + dcache_stall))
2803Ssaidi@eecs.umich.edu                    latency += cycles(stall_cycles+1);
2803Ssaidi@eecs.umich.edu                else
2803Ssaidi@eecs.umich.edu                    latency += cycles(stall_cycles);
2623SN/A            }
2623SN/A
2623SN/A        }
4182Sgblack@eecs.umich.edu        if(predecoder.needMoreBytes())
4182Sgblack@eecs.umich.edu            advancePC(fault);
2623SN/A    }
2623SN/A
2626SN/A    if (_status != Idle)
2626SN/A        tickEvent.schedule(curTick + latency);
2623SN/A}
2623SN/A
2623SN/A
2623SN/A////////////////////////////////////////////////////////////////////////
2623SN/A//
2623SN/A//  AtomicSimpleCPU Simulation Object
2623SN/A//
2623SN/ABEGIN_DECLARE_SIM_OBJECT_PARAMS(AtomicSimpleCPU)
2623SN/A
2623SN/A    Param<Counter> max_insts_any_thread;
2623SN/A    Param<Counter> max_insts_all_threads;
2623SN/A    Param<Counter> max_loads_any_thread;
2623SN/A    Param<Counter> max_loads_all_threads;
3119Sktlim@umich.edu    Param<Tick> progress_interval;
2901Ssaidi@eecs.umich.edu    SimObjectParam<System *> system;
3170Sstever@eecs.umich.edu    Param<int> cpu_id;
2623SN/A
2623SN/A#if FULL_SYSTEM
3453Sgblack@eecs.umich.edu    SimObjectParam<TheISA::ITB *> itb;
3453Sgblack@eecs.umich.edu    SimObjectParam<TheISA::DTB *> dtb;
2623SN/A    Param<Tick> profile;
3617Sbinkertn@umich.edu
3617Sbinkertn@umich.edu    Param<bool> do_quiesce;
3617Sbinkertn@umich.edu    Param<bool> do_checkpoint_insts;
3617Sbinkertn@umich.edu    Param<bool> do_statistics_insts;
2623SN/A#else
2623SN/A    SimObjectParam<Process *> workload;
2623SN/A#endif // FULL_SYSTEM
2623SN/A
2623SN/A    Param<int> clock;
3661Srdreslin@umich.edu    Param<int> phase;
2623SN/A
2623SN/A    Param<bool> defer_registration;
2623SN/A    Param<int> width;
2623SN/A    Param<bool> function_trace;
2623SN/A    Param<Tick> function_trace_start;
2623SN/A    Param<bool> simulate_stalls;
2623SN/A
2623SN/AEND_DECLARE_SIM_OBJECT_PARAMS(AtomicSimpleCPU)
2623SN/A
2623SN/ABEGIN_INIT_SIM_OBJECT_PARAMS(AtomicSimpleCPU)
2623SN/A
2623SN/A    INIT_PARAM(max_insts_any_thread,
2623SN/A               "terminate when any thread reaches this inst count"),
2623SN/A    INIT_PARAM(max_insts_all_threads,
2623SN/A               "terminate when all threads have reached this inst count"),
2623SN/A    INIT_PARAM(max_loads_any_thread,
2623SN/A               "terminate when any thread reaches this load count"),
2623SN/A    INIT_PARAM(max_loads_all_threads,
2623SN/A               "terminate when all threads have reached this load count"),
3119Sktlim@umich.edu    INIT_PARAM(progress_interval, "Progress interval"),
2901Ssaidi@eecs.umich.edu    INIT_PARAM(system, "system object"),
3170Sstever@eecs.umich.edu    INIT_PARAM(cpu_id, "processor ID"),
2623SN/A
2623SN/A#if FULL_SYSTEM
2623SN/A    INIT_PARAM(itb, "Instruction TLB"),
2623SN/A    INIT_PARAM(dtb, "Data TLB"),
2623SN/A    INIT_PARAM(profile, ""),
3617Sbinkertn@umich.edu    INIT_PARAM(do_quiesce, ""),
3617Sbinkertn@umich.edu    INIT_PARAM(do_checkpoint_insts, ""),
3617Sbinkertn@umich.edu    INIT_PARAM(do_statistics_insts, ""),
2623SN/A#else
2623SN/A    INIT_PARAM(workload, "processes to run"),
2623SN/A#endif // FULL_SYSTEM
2623SN/A
2623SN/A    INIT_PARAM(clock, "clock speed"),
3661Srdreslin@umich.edu    INIT_PARAM_DFLT(phase, "clock phase", 0),
2623SN/A    INIT_PARAM(defer_registration, "defer system registration (for sampling)"),
2623SN/A    INIT_PARAM(width, "cpu width"),
2623SN/A    INIT_PARAM(function_trace, "Enable function trace"),
2623SN/A    INIT_PARAM(function_trace_start, "Cycle to start function trace"),
2623SN/A    INIT_PARAM(simulate_stalls, "Simulate cache stall cycles")
2623SN/A
2623SN/AEND_INIT_SIM_OBJECT_PARAMS(AtomicSimpleCPU)
2623SN/A
2623SN/A
2623SN/ACREATE_SIM_OBJECT(AtomicSimpleCPU)
2623SN/A{
2623SN/A    AtomicSimpleCPU::Params *params = new AtomicSimpleCPU::Params();
2623SN/A    params->name = getInstanceName();
2623SN/A    params->numberOfThreads = 1;
2623SN/A    params->max_insts_any_thread = max_insts_any_thread;
2623SN/A    params->max_insts_all_threads = max_insts_all_threads;
2623SN/A    params->max_loads_any_thread = max_loads_any_thread;
2623SN/A    params->max_loads_all_threads = max_loads_all_threads;
3119Sktlim@umich.edu    params->progress_interval = progress_interval;
2623SN/A    params->deferRegistration = defer_registration;
3661Srdreslin@umich.edu    params->phase = phase;
2623SN/A    params->clock = clock;
2623SN/A    params->functionTrace = function_trace;
2623SN/A    params->functionTraceStart = function_trace_start;
2623SN/A    params->width = width;
2623SN/A    params->simulate_stalls = simulate_stalls;
2901Ssaidi@eecs.umich.edu    params->system = system;
3170Sstever@eecs.umich.edu    params->cpu_id = cpu_id;
2623SN/A
2623SN/A#if FULL_SYSTEM
2623SN/A    params->itb = itb;
2623SN/A    params->dtb = dtb;
2623SN/A    params->profile = profile;
3617Sbinkertn@umich.edu    params->do_quiesce = do_quiesce;
3617Sbinkertn@umich.edu    params->do_checkpoint_insts = do_checkpoint_insts;
3617Sbinkertn@umich.edu    params->do_statistics_insts = do_statistics_insts;
2623SN/A#else
2623SN/A    params->process = workload;
2623SN/A#endif
2623SN/A
2623SN/A    AtomicSimpleCPU *cpu = new AtomicSimpleCPU(params);
2623SN/A    return cpu;
2623SN/A}
2623SN/A
2623SN/AREGISTER_SIM_OBJECT("AtomicSimpleCPU", AtomicSimpleCPU)
2623SN/A