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path: root/src/mem/cache/cache_impl.hh
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/*
 * Copyright (c) 2002-2005 The Regents of The University of Michigan
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met: redistributions of source code must retain the above copyright
 * notice, this list of conditions and the following disclaimer;
 * redistributions in binary form must reproduce the above copyright
 * notice, this list of conditions and the following disclaimer in the
 * documentation and/or other materials provided with the distribution;
 * neither the name of the copyright holders nor the names of its
 * contributors may be used to endorse or promote products derived from
 * this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 *
 * Authors: Erik Hallnor
 *          Dave Greene
 *          Nathan Binkert
 *          Steve Reinhardt
 *          Ron Dreslinski
 */

/**
 * @file
 * Cache definitions.
 */

#include <assert.h>
#include <math.h>

#include <cassert>
#include <iostream>
#include <cstring>
#include <string>

#include "sim/host.hh"
#include "base/misc.hh"
#include "cpu/smt.hh"

#include "mem/cache/cache.hh"
#include "mem/cache/cache_blk.hh"
#include "mem/cache/miss/mshr.hh"
#include "mem/cache/prefetch/base_prefetcher.hh"

#include "sim/sim_exit.hh" // for SimExitEvent

bool SIGNAL_NACK_HACK;

template<class TagStore, class Coherence>
Cache<TagStore,Coherence>::Cache(const std::string &_name,
                                 Cache<TagStore,Coherence>::Params &params)
    : BaseCache(_name, params.baseParams),
      prefetchAccess(params.prefetchAccess),
      tags(params.tags), missQueue(params.missQueue),
      coherence(params.coherence), prefetcher(params.prefetcher),
      hitLatency(params.hitLatency),
      compressionAlg(params.compressionAlg),
      blkSize(params.blkSize),
      doFastWrites(params.doFastWrites),
      prefetchMiss(params.prefetchMiss),
      storeCompressed(params.storeCompressed),
      compressOnWriteback(params.compressOnWriteback),
      compLatency(params.compLatency),
      adaptiveCompression(params.adaptiveCompression),
      writebackCompressed(params.writebackCompressed)
{
    cpuSidePort = new CpuSidePort(_name + "-cpu_side_port", this);
    memSidePort = new MemSidePort(_name + "-mem_side_port", this);
    cpuSidePort->setOtherPort(memSidePort);
    memSidePort->setOtherPort(cpuSidePort);

    tags->setCache(this);
    missQueue->setCache(this);
    missQueue->setPrefetcher(prefetcher);
    coherence->setCache(this);
    prefetcher->setCache(this);
    invalidateReq = new Request((Addr) NULL, blkSize, 0);
    invalidatePkt = new Packet(invalidateReq, MemCmd::InvalidateReq, 0);
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::regStats()
{
    BaseCache::regStats();
    tags->regStats(name());
    missQueue->regStats(name());
    coherence->regStats(name());
    prefetcher->regStats(name());
}

template<class TagStore, class Coherence>
typename Cache<TagStore,Coherence>::BlkType*
Cache<TagStore,Coherence>::handleAccess(PacketPtr &pkt, int & lat,
                                        PacketList & writebacks, bool update)
{
    // Set the block offset here
    int offset = tags->extractBlkOffset(pkt->getAddr());

    BlkType *blk = NULL;
    if (update) {
        blk = tags->findBlock(pkt->getAddr(), lat);
    } else {
        blk = tags->findBlock(pkt->getAddr());
        lat = 0;
    }
    if (blk != NULL) {

        if (!update) {

            if (pkt->isWrite()){
                assert(offset < blkSize);
                assert(pkt->getSize() <= blkSize);
                assert(offset+pkt->getSize() <= blkSize);
                std::memcpy(blk->data + offset, pkt->getPtr<uint8_t>(),
                       pkt->getSize());
            } else if (pkt->isReadWrite()) {
                cmpAndSwap(blk, pkt);
            } else if (!(pkt->flags & SATISFIED)) {
                pkt->flags |= SATISFIED;
                pkt->result = Packet::Success;
                assert(offset < blkSize);
                assert(pkt->getSize() <= blkSize);
                assert(offset + pkt->getSize() <=blkSize);
                std::memcpy(pkt->getPtr<uint8_t>(), blk->data + offset,
                       pkt->getSize());
            }
            return blk;
        }

        // Hit
        if (blk->isPrefetch()) {
            //Signal that this was a hit under prefetch (no need for
            //use prefetch (only can get here if true)
            DPRINTF(HWPrefetch, "Hit a block that was prefetched\n");
            blk->status &= ~BlkHWPrefetched;
            if (prefetchMiss) {
                //If we are using the miss stream, signal the
                //prefetcher otherwise the access stream would have
                //already signaled this hit
                prefetcher->handleMiss(pkt, curTick);
            }
        }

        if ((pkt->isReadWrite() && blk->isWritable()) ||
            (pkt->isWrite() && blk->isWritable()) ||
            (pkt->isRead() && blk->isValid())) {

            // We are satisfying the request
            pkt->flags |= SATISFIED;

            if (blk->isCompressed()) {
                // If the data is compressed, need to increase the latency
                lat += (compLatency/4);
            }

            bool write_data = false;

            assert(verifyData(blk));

            assert(offset < blkSize);
            assert(pkt->getSize() <= blkSize);
            assert(offset+pkt->getSize() <= blkSize);

            if (pkt->isWrite()) {
                if (blk->checkWrite(pkt->req)) {
                    write_data = true;
                    blk->status |= BlkDirty;
                    std::memcpy(blk->data + offset, pkt->getPtr<uint8_t>(),
                           pkt->getSize());
                }
            } else if (pkt->isReadWrite()) {
                cmpAndSwap(blk, pkt);
            } else {
                assert(pkt->isRead());
                if (pkt->req->isLocked()) {
                    blk->trackLoadLocked(pkt->req);
                }
                std::memcpy(pkt->getPtr<uint8_t>(), blk->data + offset,
                            pkt->getSize());
            }

            if (write_data ||
                (adaptiveCompression && blk->isCompressed()))
            {
                // If we wrote data, need to update the internal block
                // data.
                updateData(blk, writebacks,
                           !(adaptiveCompression &&
                             blk->isReferenced()));
            }
        } else {
            // permission violation, treat it as a miss
            blk = NULL;
        }
    } else {
        // complete miss (no matching block)
        if (pkt->req->isLocked() && pkt->isWrite()) {
            // miss on store conditional... just give up now
            pkt->req->setExtraData(0);
            pkt->flags |= SATISFIED;
        }
    }

    return blk;
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::cmpAndSwap(BlkType *blk, PacketPtr &pkt){
            uint64_t overwrite_val;
            bool overwrite_mem;
            uint64_t condition_val64;
            uint32_t condition_val32;

            int offset = tags->extractBlkOffset(pkt->getAddr());

            assert(sizeof(uint64_t) >= pkt->getSize());

            overwrite_mem = true;
            // keep a copy of our possible write value, and copy what is at the
            // memory address into the packet
            std::memcpy(&overwrite_val, pkt->getPtr<uint8_t>(), pkt->getSize());
            std::memcpy(pkt->getPtr<uint8_t>(), blk->data + offset,
                        pkt->getSize());

            if (pkt->req->isCondSwap()) {
                if (pkt->getSize() == sizeof(uint64_t)) {
                    condition_val64 = pkt->req->getExtraData();
                    overwrite_mem = !std::memcmp(&condition_val64, blk->data + offset,
                                                 sizeof(uint64_t));
                } else if (pkt->getSize() == sizeof(uint32_t)) {
                    condition_val32 = (uint32_t)pkt->req->getExtraData();
                    overwrite_mem = !std::memcmp(&condition_val32, blk->data + offset,
                                                 sizeof(uint32_t));
                } else
                    panic("Invalid size for conditional read/write\n");
            }

            if (overwrite_mem)
                std::memcpy(blk->data + offset,
                            &overwrite_val, pkt->getSize());

}

template<class TagStore, class Coherence>
typename Cache<TagStore,Coherence>::BlkType*
Cache<TagStore,Coherence>::handleFill(BlkType *blk, PacketPtr &pkt,
                                      CacheBlk::State new_state,
                                      PacketList & writebacks,
                                      PacketPtr target)
{
#ifndef NDEBUG
    BlkType *tmp_blk = tags->findBlock(pkt->getAddr());
    assert(tmp_blk == blk);
#endif
    blk = doReplacement(blk, pkt, new_state, writebacks);


    if (pkt->isRead()) {
        std::memcpy(blk->data, pkt->getPtr<uint8_t>(), blkSize);
    }

        blk->whenReady = pkt->finishTime;

    // Respond to target, if any
    if (target) {

        target->flags |= SATISFIED;

        if (target->cmd == MemCmd::InvalidateReq) {
            tags->invalidateBlk(blk);
            blk = NULL;
        }

        if (blk && ((target->isWrite() || target->isReadWrite()) ?
                    blk->isWritable() : blk->isValid())) {
            assert(target->isWrite() || target->isReadWrite() || target->isRead());
            assert(target->getOffset(blkSize) + target->getSize() <= blkSize);
            if (target->isWrite()) {
                if (blk->checkWrite(pkt->req)) {
                    blk->status |= BlkDirty;
                    std::memcpy(blk->data + target->getOffset(blkSize),
                           target->getPtr<uint8_t>(), target->getSize());
                }
            } else if (target->isReadWrite()) {
                cmpAndSwap(blk, target);
            } else {
                if (pkt->req->isLocked()) {
                    blk->trackLoadLocked(pkt->req);
                }
                std::memcpy(target->getPtr<uint8_t>(),
                       blk->data + target->getOffset(blkSize),
                       target->getSize());
            }
        }
    }

    if (blk) {
        // Need to write the data into the block
        updateData(blk, writebacks, !adaptiveCompression || true);
    }
    return blk;
}

template<class TagStore, class Coherence>
typename Cache<TagStore,Coherence>::BlkType*
Cache<TagStore,Coherence>::handleFill(BlkType *blk, MSHR * mshr,
                                      CacheBlk::State new_state,
                                      PacketList & writebacks, PacketPtr pkt)
{
/*
#ifndef NDEBUG
    BlkType *tmp_blk = findBlock(mshr->pkt->getAddr());
    assert(tmp_blk == blk);
#endif
    PacketPtr pkt = mshr->pkt;*/
    blk = doReplacement(blk, pkt, new_state, writebacks);

    if (pkt->isRead()) {
        std::memcpy(blk->data, pkt->getPtr<uint8_t>(), blkSize);
    }

    blk->whenReady = pkt->finishTime;


    // respond to MSHR targets, if any

    // First offset for critical word first calculations
    int initial_offset = 0;

    if (mshr->hasTargets()) {
        initial_offset = mshr->getTarget()->getOffset(blkSize);
    }

    while (mshr->hasTargets()) {
        PacketPtr target = mshr->getTarget();

        target->flags |= SATISFIED;

        // How many bytes pass the first request is this one
        int transfer_offset = target->getOffset(blkSize) - initial_offset;
        if (transfer_offset < 0) {
            transfer_offset += blkSize;
        }

        // If critical word (no offset) return first word time
        Tick completion_time = tags->getHitLatency() +
            transfer_offset ? pkt->finishTime : pkt->firstWordTime;

        if (target->cmd == MemCmd::InvalidateReq) {
            //Mark the blk as invalid now, if it hasn't been already
            if (blk) {
                tags->invalidateBlk(blk);
                blk = NULL;
            }

            //Also get rid of the invalidate
            mshr->popTarget();

            DPRINTF(Cache, "Popping off a Invalidate for addr %x\n",
                    pkt->getAddr());

            continue;
        }

        if (blk && ((target->isWrite() || target->isReadWrite()) ?
            blk->isWritable() : blk->isValid())) {
            assert(target->isWrite() || target->isRead() || target->isReadWrite() );
            assert(target->getOffset(blkSize) + target->getSize() <= blkSize);
            if (target->isWrite()) {
                if (blk->checkWrite(pkt->req)) {
                    blk->status |= BlkDirty;
                    std::memcpy(blk->data + target->getOffset(blkSize),
                           target->getPtr<uint8_t>(), target->getSize());
                }
            } else if (target->isReadWrite()) {
                cmpAndSwap(blk, target);
            } else {
                if (target->req->isLocked()) {
                    blk->trackLoadLocked(target->req);
                }
                std::memcpy(target->getPtr<uint8_t>(),
                       blk->data + target->getOffset(blkSize),
                       target->getSize());
            }
        } else {
            // Invalid access, need to do another request
            // can occur if block is invalidated, or not correct
            // permissions
//            mshr->pkt = pkt;
            break;
        }
        if (!target->req->isUncacheable()) {
            missLatency[target->cmdToIndex()][0/*pkt->req->getThreadNum()*/] +=
                completion_time - target->time;
        }
        respond(target, completion_time);
        mshr->popTarget();
    }

    if (blk) {
        // Need to write the data into the block
        updateData(blk, writebacks, !adaptiveCompression || true);
    }

    return blk;
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::handleSnoop(BlkType *blk,
                                       CacheBlk::State new_state,
                                       PacketPtr &pkt)
{
    //Must have the block to supply
    assert(blk);
    // Can only supply data, and if it hasn't already been supllied
    assert(pkt->isRead());
    assert(!(pkt->flags & SATISFIED));
    pkt->flags |= SATISFIED;
    Addr offset = pkt->getOffset(blkSize);
    assert(offset < blkSize);
    assert(pkt->getSize() <= blkSize);
    assert(offset + pkt->getSize() <=blkSize);
    std::memcpy(pkt->getPtr<uint8_t>(), blk->data + offset, pkt->getSize());

    handleSnoop(blk, new_state);
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::handleSnoop(BlkType *blk,
                                       CacheBlk::State new_state)
{
    if (blk && blk->status != new_state) {
        if ((new_state && BlkValid) == 0) {
            tags->invalidateBlk(blk);
        } else {
            assert(new_state >= 0 && new_state < 128);
            blk->status = new_state;
        }
    }
}

template<class TagStore, class Coherence>
PacketPtr
Cache<TagStore,Coherence>::writebackBlk(BlkType *blk)
{
    assert(blk && blk->isValid() && blk->isModified());
    int data_size = blkSize;
    data_size = blk->size;
    if (compressOnWriteback) {
        // not already compressed
        // need to compress to ship it
        assert(data_size == blkSize);
        uint8_t *tmp_data = new uint8_t[blkSize];
        data_size = compressionAlg->compress(tmp_data,blk->data,
                                      data_size);
        delete [] tmp_data;
    }

/*    PacketPtr writeback =
        buildWritebackReq(tags->regenerateBlkAddr(blk->tag, blk->set),
                          blk->asid, blkSize,
                          blk->data, data_size);
*/

    Request *writebackReq =
        new Request(tags->regenerateBlkAddr(blk->tag, blk->set), blkSize, 0);
    PacketPtr writeback = new Packet(writebackReq, MemCmd::Writeback, -1);
    writeback->allocate();
    std::memcpy(writeback->getPtr<uint8_t>(),blk->data,blkSize);

    blk->status &= ~BlkDirty;
    return writeback;
}


template<class TagStore, class Coherence>
bool
Cache<TagStore,Coherence>::verifyData(BlkType *blk)
{
    bool retval;
    // The data stored in the blk
    uint8_t *blk_data = new uint8_t[blkSize];
    tags->readData(blk, blk_data);
    // Pointer for uncompressed data, assumed uncompressed
    uint8_t *tmp_data = blk_data;
    // The size of the data being stored, assumed uncompressed
    int data_size = blkSize;

    // If the block is compressed need to uncompress to access
    if (blk->isCompressed()){
        // Allocate new storage for the data
        tmp_data = new uint8_t[blkSize];
        data_size = compressionAlg->uncompress(tmp_data,blk_data, blk->size);
        assert(data_size == blkSize);
        // Don't need to keep blk_data around
        delete [] blk_data;
    } else {
        assert(blkSize == blk->size);
    }

    retval = std::memcmp(tmp_data, blk->data, blkSize) == 0;
    delete [] tmp_data;
    return retval;
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::updateData(BlkType *blk, PacketList &writebacks,
                                        bool compress_block)
{
    if (storeCompressed && compress_block) {
        uint8_t *comp_data = new uint8_t[blkSize];
        int new_size = compressionAlg->compress(comp_data, blk->data, blkSize);
        if (new_size > (blkSize - tags->getSubBlockSize())){
            // no benefit to storing it compressed
            blk->status &= ~BlkCompressed;
            tags->writeData(blk, blk->data, blkSize,
                          writebacks);
        } else {
            // Store the data compressed
            blk->status |= BlkCompressed;
            tags->writeData(blk, comp_data, new_size,
                          writebacks);
        }
        delete [] comp_data;
    } else {
        blk->status &= ~BlkCompressed;
        tags->writeData(blk, blk->data, blkSize, writebacks);
    }
}

template<class TagStore, class Coherence>
typename Cache<TagStore,Coherence>::BlkType*
Cache<TagStore,Coherence>::doReplacement(BlkType *blk, PacketPtr &pkt,
                                         CacheBlk::State new_state,
                                         PacketList &writebacks)
{
    if (blk == NULL) {
        // need to do a replacement
        BlkList compress_list;
        blk = tags->findReplacement(pkt, writebacks, compress_list);
        while (adaptiveCompression && !compress_list.empty()) {
            updateData(compress_list.front(), writebacks, true);
            compress_list.pop_front();
        }
        if (blk->isValid()) {
            DPRINTF(Cache, "replacement: replacing %x with %x: %s\n",
                    tags->regenerateBlkAddr(blk->tag,blk->set), pkt->getAddr(),
                    (blk->isModified()) ? "writeback" : "clean");

            if (blk->isModified()) {
                // Need to write the data back
                writebacks.push_back(writebackBlk(blk));
            }
        }
        blk->tag = tags->extractTag(pkt->getAddr(), blk);
    } else {
        // must be a status change
        // assert(blk->status != new_state);
        if (blk->status == new_state) warn("Changing state to same value\n");
    }

    blk->status = new_state;
    return blk;
}


template<class TagStore, class Coherence>
bool
Cache<TagStore,Coherence>::access(PacketPtr &pkt)
{
//@todo Add back in MemDebug Calls
//    MemDebug::cacheAccess(pkt);
    BlkType *blk = NULL;
    PacketList writebacks;
    int size = blkSize;
    int lat = hitLatency;
    if (prefetchAccess) {
        //We are determining prefetches on access stream, call prefetcher
        prefetcher->handleMiss(pkt, curTick);
    }

    Addr blk_addr = pkt->getAddr() & ~(Addr(blkSize-1));

    if (!pkt->req->isUncacheable()) {
        if (!missQueue->findMSHR(blk_addr)) {
            blk = handleAccess(pkt, lat, writebacks);
        }
    } else {
        size = pkt->getSize();
    }
    // If this is a block size write/hint (WH64) allocate the block here
    // if the coherence protocol allows it.
    /** @todo make the fast write alloc (wh64) work with coherence. */
    /** @todo Do we want to do fast writes for writebacks as well? */
    if (!blk && pkt->getSize() >= blkSize && coherence->allowFastWrites() &&
        (pkt->cmd == MemCmd::WriteReq
         || pkt->cmd == MemCmd::WriteInvalidateReq) ) {
        // not outstanding misses, can do this
        MSHR* outstanding_miss = missQueue->findMSHR(pkt->getAddr());
        if (pkt->cmd == MemCmd::WriteInvalidateReq || !outstanding_miss) {
            if (outstanding_miss) {
                warn("WriteInv doing a fastallocate"
                     "with an outstanding miss to the same address\n");
            }
            blk = handleFill(NULL, pkt, BlkValid | BlkWritable,
                                   writebacks);
            ++fastWrites;
        }
    }
    while (!writebacks.empty()) {
        PacketPtr wbPkt = writebacks.front();
        missQueue->doWriteback(wbPkt);
        writebacks.pop_front();
        delete wbPkt;
    }

    DPRINTF(Cache, "%s %x %s\n", pkt->cmdString(), pkt->getAddr(),
            (blk) ? "hit" : "miss");

    if (blk) {
        // Hit
        hits[pkt->cmdToIndex()][0/*pkt->req->getThreadNum()*/]++;
        // clear dirty bit if write through
        respond(pkt, curTick+lat);
        return true;
    }

    // Miss
    if (!pkt->req->isUncacheable()) {
        misses[pkt->cmdToIndex()][0/*pkt->req->getThreadNum()*/]++;
        /** @todo Move miss count code into BaseCache */
        if (missCount) {
            --missCount;
            if (missCount == 0)
                exitSimLoop("A cache reached the maximum miss count");
        }
    }

    if (pkt->flags & SATISFIED) {
        // happens when a store conditional fails because it missed
        // the cache completely
        respond(pkt, curTick+lat);
    } else {
        missQueue->handleMiss(pkt, size, curTick + hitLatency);
    }

    if (!pkt->needsResponse()) {
        //Need to clean up the packet on a writeback miss, but leave the request
        //for the next level.
        delete pkt;
    }

    return true;
}


template<class TagStore, class Coherence>
PacketPtr
Cache<TagStore,Coherence>::getPacket()
{
    assert(missQueue->havePending());
    PacketPtr pkt = missQueue->getPacket();
    if (pkt) {
        if (!pkt->req->isUncacheable()) {
            if (pkt->cmd == MemCmd::HardPFReq)
                misses[MemCmd::HardPFReq][0/*pkt->req->getThreadNum()*/]++;
            BlkType *blk = tags->findBlock(pkt->getAddr());
            MemCmd cmd =
                coherence->getBusCmd(pkt->cmd, (blk) ? blk->status : 0);
            missQueue->setBusCmd(pkt, cmd);
        }
    }

    assert(!isMemSideBusRequested() || missQueue->havePending());
    assert(!pkt || pkt->time <= curTick);
    SIGNAL_NACK_HACK = false;
    return pkt;
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::sendResult(PacketPtr &pkt, MSHR* mshr,
                                                bool success)
{
    if (success && !(SIGNAL_NACK_HACK)) {
        //Remember if it was an upgrade because writeback MSHR's are removed
        //in Mark in Service
        bool upgrade = (mshr->pkt && mshr->pkt->cmd == MemCmd::UpgradeReq);

        missQueue->markInService(mshr->pkt, mshr);

        //Temp Hack for UPGRADES
        if (upgrade) {
            assert(pkt);  //Upgrades need to be fixed
            pkt->flags &= ~CACHE_LINE_FILL;
            BlkType *blk = tags->findBlock(pkt->getAddr());
            CacheBlk::State old_state = (blk) ? blk->status : 0;
            CacheBlk::State new_state = coherence->getNewState(pkt,old_state);
            if (old_state != new_state)
                DPRINTF(Cache, "Block for blk addr %x moving from state "
                        "%i to %i\n", pkt->getAddr(), old_state, new_state);
            //Set the state on the upgrade
            std::memcpy(pkt->getPtr<uint8_t>(), blk->data, blkSize);
            PacketList writebacks;
            handleFill(blk, mshr, new_state, writebacks, pkt);
            assert(writebacks.empty());
            missQueue->handleResponse(pkt, curTick + hitLatency);
        }
    } else if (pkt && !pkt->req->isUncacheable()) {
        pkt->flags &= ~NACKED_LINE;
        SIGNAL_NACK_HACK = false;
        pkt->flags &= ~SATISFIED;

//Rmove copy from mshr
        delete mshr->pkt;
        mshr->pkt = pkt;

        missQueue->restoreOrigCmd(pkt);
    }
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::handleResponse(PacketPtr &pkt)
{
    BlkType *blk = NULL;
    if (pkt->senderState) {
        //Delete temp copy in MSHR, restore it.
        delete ((MSHR*)pkt->senderState)->pkt;
        ((MSHR*)pkt->senderState)->pkt = pkt;
        if (pkt->result == Packet::Nacked) {
            //pkt->reinitFromRequest();
            warn("NACKs from devices not connected to the same bus "
                 "not implemented\n");
            return;
        }
        if (pkt->result == Packet::BadAddress) {
            //Make the response a Bad address and send it
        }
//	MemDebug::cacheResponse(pkt);
        DPRINTF(Cache, "Handling reponse to %x\n", pkt->getAddr());

        if (pkt->isCacheFill() && !pkt->isNoAllocate()) {
            DPRINTF(Cache, "Block for addr %x being updated in Cache\n",
                    pkt->getAddr());
            blk = tags->findBlock(pkt->getAddr());
            CacheBlk::State old_state = (blk) ? blk->status : 0;
            PacketList writebacks;
            CacheBlk::State new_state = coherence->getNewState(pkt,old_state);
            if (old_state != new_state)
                DPRINTF(Cache, "Block for blk addr %x moving from "
                        "state %i to %i\n",
                        pkt->getAddr(),
                        old_state, new_state);
            blk = handleFill(blk, (MSHR*)pkt->senderState,
                                   new_state, writebacks, pkt);
            while (!writebacks.empty()) {
                PacketPtr wbPkt = writebacks.front();
                missQueue->doWriteback(wbPkt);
                writebacks.pop_front();
                delete wbPkt;
            }
        }
        missQueue->handleResponse(pkt, curTick + hitLatency);
    }
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::snoop(PacketPtr &pkt)
{
    if (pkt->req->isUncacheable()) {
        //Can't get a hit on an uncacheable address
        //Revisit this for multi level coherence
        return;
    }

    ///// PROPAGATE SNOOP UPWARD HERE

    Addr blk_addr = pkt->getAddr() & ~(Addr(blkSize-1));
    BlkType *blk = tags->findBlock(pkt->getAddr());
    MSHR *mshr = missQueue->findMSHR(blk_addr);
    if (coherence->hasProtocol() || pkt->isInvalidate()) {
        //@todo Move this into handle bus req
        //If we find an mshr, and it is in service, we need to NACK or
        //invalidate
        if (mshr) {
            if (mshr->inService) {
                if ((mshr->pkt->isInvalidate() || !mshr->pkt->isCacheFill())
                    && (pkt->cmd != MemCmd::InvalidateReq
                        && pkt->cmd != MemCmd::WriteInvalidateReq)) {
                    //If the outstanding request was an invalidate
                    //(upgrade,readex,..)  Then we need to ACK the request
                    //until we get the data Also NACK if the outstanding
                    //request is not a cachefill (writeback)
                    assert(!(pkt->flags & SATISFIED));
                    pkt->flags |= SATISFIED;
                    pkt->flags |= NACKED_LINE;
                    SIGNAL_NACK_HACK = true;
                    ///@todo NACK's from other levels
                    //warn("NACKs from devices not connected to the same bus "
                    //"not implemented\n");
                    //respondToSnoop(pkt, curTick + hitLatency);
                    return;
                }
                else {
                    //The supplier will be someone else, because we are
                    //waiting for the data.  This should cause this cache to
                    //be forced to go to the shared state, not the exclusive
                    //even though the shared line won't be asserted.  But for
                    //now we will just invlidate ourselves and allow the other
                    //cache to go into the exclusive state.  @todo Make it so
                    //a read to a pending read doesn't invalidate.  @todo Make
                    //it so that a read to a pending read can't be exclusive
                    //now.

                    //Set the address so find match works
                    //panic("Don't have invalidates yet\n");
                    invalidatePkt->addrOverride(pkt->getAddr());

                    //Append the invalidate on
                    missQueue->addTarget(mshr,invalidatePkt);
                    DPRINTF(Cache, "Appending Invalidate to addr: %x\n",
                            pkt->getAddr());
                    return;
                }
            }
        }
        //We also need to check the writeback buffers and handle those
        std::vector<MSHR *> writebacks;
        if (missQueue->findWrites(blk_addr, writebacks)) {
            DPRINTF(Cache, "Snoop hit in writeback to addr: %x\n",
                    pkt->getAddr());

            //Look through writebacks for any non-uncachable writes, use that
            for (int i=0; i<writebacks.size(); i++) {
                mshr = writebacks[i];

                if (!mshr->pkt->req->isUncacheable()) {
                    if (pkt->isRead()) {
                        //Only Upgrades don't get here
                        //Supply the data
                        assert(!(pkt->flags & SATISFIED));
                        pkt->flags |= SATISFIED;

                        //If we are in an exclusive protocol, make it ask again
                        //to get write permissions (upgrade), signal shared
                        pkt->flags |= SHARED_LINE;

                        assert(pkt->isRead());
                        Addr offset = pkt->getAddr() & (blkSize - 1);
                        assert(offset < blkSize);
                        assert(pkt->getSize() <= blkSize);
                        assert(offset + pkt->getSize() <=blkSize);
                        std::memcpy(pkt->getPtr<uint8_t>(), mshr->pkt->getPtr<uint8_t>() + offset, pkt->getSize());

                        respondToSnoop(pkt, curTick + hitLatency);
                    }

                    if (pkt->isInvalidate()) {
                        //This must be an upgrade or other cache will take
                        //ownership
                        missQueue->markInService(mshr->pkt, mshr);
                    }
                    return;
                }
            }
        }
    }
    CacheBlk::State new_state;
    bool satisfy = coherence->handleBusRequest(pkt,blk,mshr, new_state);

    if (blk && mshr && !mshr->inService && new_state == 0) {
            //There was a outstanding write to a shared block, not need ReadEx
            //not update, so change No Allocate param in MSHR
            mshr->pkt->flags &= ~NO_ALLOCATE;
    }

    if (satisfy) {
        DPRINTF(Cache, "Cache snooped a %s request for addr %x and "
                "now supplying data, new state is %i\n",
                pkt->cmdString(), blk_addr, new_state);

        handleSnoop(blk, new_state, pkt);
        respondToSnoop(pkt, curTick + hitLatency);
        return;
    }
    if (blk)
        DPRINTF(Cache, "Cache snooped a %s request for addr %x, "
                "new state is %i\n", pkt->cmdString(), blk_addr, new_state);

    handleSnoop(blk, new_state);
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::snoopResponse(PacketPtr &pkt)
{
    //Need to handle the response, if NACKED
    if (pkt->flags & NACKED_LINE) {
        //Need to mark it as not in service, and retry for bus
        assert(0); //Yeah, we saw a NACK come through

        //For now this should never get called, we return false when we see a
        //NACK instead, by doing this we allow the bus_blocked mechanism to
        //handle the retry For now it retrys in just 2 cycles, need to figure
        //out how to change that Eventually we will want to also have success
        //come in as a parameter Need to make sure that we handle the
        //functionality that happens on successufl return of the sendAddr
        //function
    }
}


/**
 * @todo Fix to not assume write allocate
 */
template<class TagStore, class Coherence>
Tick
Cache<TagStore,Coherence>::probe(PacketPtr &pkt, bool update,
                                           CachePort* otherSidePort)
{
//    MemDebug::cacheProbe(pkt);
    if (!pkt->req->isUncacheable()) {
        if (pkt->isInvalidate() && !pkt->isRead() && !pkt->isWrite()) {
            //Upgrade or Invalidate, satisfy it, don't forward
            DPRINTF(Cache, "%s %x ?\n", pkt->cmdString(), pkt->getAddr());
            pkt->flags |= SATISFIED;
            return 0;
        }
    }

    if (!update && (otherSidePort == cpuSidePort)) {
        // Still need to change data in all locations.
        otherSidePort->checkAndSendFunctional(pkt);
        if (pkt->isRead() && pkt->result == Packet::Success)
            return 0;
    }

    PacketList writebacks;
    int lat;

    BlkType *blk = handleAccess(pkt, lat, writebacks, update);

    DPRINTF(Cache, "%s %x %s\n", pkt->cmdString(),
            pkt->getAddr(), (blk) ? "hit" : "miss");


    // Need to check for outstanding misses and writes
    Addr blk_addr = pkt->getAddr() & ~(blkSize - 1);

    // There can only be one matching outstanding miss.
    MSHR* mshr = missQueue->findMSHR(blk_addr);

    // There can be many matching outstanding writes.
    std::vector<MSHR*> writes;
    missQueue->findWrites(blk_addr, writes);

    if (!update) {
        bool notDone = !(pkt->flags & SATISFIED); //Hit in cache (was a block)
        // Check for data in MSHR and writebuffer.
        if (mshr) {
            MSHR::TargetList *targets = mshr->getTargetList();
            MSHR::TargetList::iterator i = targets->begin();
            MSHR::TargetList::iterator end = targets->end();
            for (; i != end && notDone; ++i) {
                PacketPtr target = *i;
                // If the target contains data, and it overlaps the
                // probed request, need to update data
                if (target->intersect(pkt)) {
                    DPRINTF(Cache, "Functional %s access to blk_addr %x intersects a MSHR\n",
                            pkt->cmdString(), blk_addr);
                    notDone = fixPacket(pkt, target);
                }
            }
        }
        for (int i = 0; i < writes.size() && notDone; ++i) {
            PacketPtr write = writes[i]->pkt;
            if (write->intersect(pkt)) {
                DPRINTF(Cache, "Functional %s access to blk_addr %x intersects a writeback\n",
                        pkt->cmdString(), blk_addr);
                notDone = fixPacket(pkt, write);
            }
        }
        if (notDone && otherSidePort == memSidePort) {
            otherSidePort->checkAndSendFunctional(pkt);
            assert(pkt->result == Packet::Success);
        }
        return 0;
    } else if (!blk && !(pkt->flags & SATISFIED)) {
        // update the cache state and statistics
        if (mshr || !writes.empty()){
            // Can't handle it, return request unsatisfied.
            panic("Atomic access ran into outstanding MSHR's or WB's!");
        }
        if (!pkt->req->isUncacheable() /*Uncacheables just go through*/
            && (pkt->cmd != MemCmd::Writeback)/*Writebacks on miss fall through*/) {
                // Fetch the cache block to fill
            BlkType *blk = tags->findBlock(pkt->getAddr());
            MemCmd temp_cmd =
                coherence->getBusCmd(pkt->cmd, (blk) ? blk->status : 0);

            PacketPtr busPkt = new Packet(pkt->req,temp_cmd, -1, blkSize);

            busPkt->allocate();

            busPkt->time = curTick;

            DPRINTF(Cache, "Sending a atomic %s for %x\n",
                    busPkt->cmdString(), busPkt->getAddr());

            lat = memSidePort->sendAtomic(busPkt);

            //Be sure to flip the response to a request for coherence
            if (busPkt->needsResponse()) {
                busPkt->makeAtomicResponse();
            }

/*		if (!(busPkt->flags & SATISFIED)) {
// blocked at a higher level, just return
return 0;
}

*/		misses[pkt->cmdToIndex()][0/*pkt->req->getThreadNum()*/]++;

            CacheBlk::State old_state = (blk) ? blk->status : 0;
            CacheBlk::State new_state =
                coherence->getNewState(busPkt, old_state);
            DPRINTF(Cache, "Receive response: %s for addr %x in state %i\n",
                    busPkt->cmdString(), busPkt->getAddr(), old_state);
            if (old_state != new_state)
                DPRINTF(Cache, "Block for blk addr %x moving from state "
                        "%i to %i\n", busPkt->getAddr(), old_state, new_state);

            handleFill(blk, busPkt, new_state, writebacks, pkt);
            //Free the packet
            delete busPkt;

            // Handle writebacks if needed
            while (!writebacks.empty()){
                PacketPtr wbPkt = writebacks.front();
                memSidePort->sendAtomic(wbPkt);
                writebacks.pop_front();
                delete wbPkt;
            }
                return lat + hitLatency;
        } else {
            return memSidePort->sendAtomic(pkt);
        }
    } else {
        if (blk) {
            // There was a cache hit.
            // Handle writebacks if needed
            while (!writebacks.empty()){
                PacketPtr wbPkt = writebacks.front();
                memSidePort->sendAtomic(wbPkt);
                writebacks.pop_front();
                delete wbPkt;
            }

            hits[pkt->cmdToIndex()][0/*pkt->req->getThreadNum()*/]++;
        }

        return hitLatency;
    }

    return 0;
}

template<class TagStore, class Coherence>
Tick
Cache<TagStore,Coherence>::snoopProbe(PacketPtr &pkt)
{
    ///// PROPAGATE SNOOP UPWARD HERE

    Addr blk_addr = pkt->getAddr() & ~(Addr(blkSize-1));
    BlkType *blk = tags->findBlock(pkt->getAddr());
    MSHR *mshr = missQueue->findMSHR(blk_addr);
    CacheBlk::State new_state = 0;
    bool satisfy = coherence->handleBusRequest(pkt,blk,mshr, new_state);
    if (satisfy) {
        DPRINTF(Cache, "Cache snooped a %s request for addr %x and "
                "now supplying data, new state is %i\n",
                pkt->cmdString(), blk_addr, new_state);

            handleSnoop(blk, new_state, pkt);
            return hitLatency;
    }
    if (blk)
        DPRINTF(Cache, "Cache snooped a %s request for addr %x, "
                "new state is %i\n",
                    pkt->cmdString(), blk_addr, new_state);
    handleSnoop(blk, new_state);
    return 0;
}

template<class TagStore, class Coherence>
Port *
Cache<TagStore,Coherence>::getPort(const std::string &if_name, int idx)
{
    if (if_name == "" || if_name == "cpu_side") {
        return cpuSidePort;
    } else if (if_name == "mem_side") {
        return memSidePort;
    } else if (if_name == "functional") {
        return new CpuSidePort(name() + "-cpu_side_funcport", this);
    } else {
        panic("Port name %s unrecognized\n", if_name);
    }
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::deletePortRefs(Port *p)
{
    if (cpuSidePort == p || memSidePort == p)
        panic("Can only delete functional ports\n");

    delete p;
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::CpuSidePort::
getDeviceAddressRanges(AddrRangeList &resp, bool &snoop)
{
    // CPU side port doesn't snoop; it's a target only.
    bool dummy;
    otherPort->getPeerAddressRanges(resp, dummy);
    snoop = false;
}


template<class TagStore, class Coherence>
bool
Cache<TagStore,Coherence>::CpuSidePort::recvTiming(PacketPtr pkt)
{
    assert(pkt->result != Packet::Nacked);

    if (!pkt->req->isUncacheable()
        && pkt->isInvalidate()
        && !pkt->isRead() && !pkt->isWrite()) {
        //Upgrade or Invalidate
        //Look into what happens if two slave caches on bus
        DPRINTF(Cache, "%s %x ?\n", pkt->cmdString(), pkt->getAddr());

        assert(!(pkt->flags & SATISFIED));
        pkt->flags |= SATISFIED;
        //Invalidates/Upgrades need no response if they get the bus
        return true;
    }

    if (pkt->isRequest() && blocked)
    {
        DPRINTF(Cache,"Scheduling a retry while blocked\n");
        mustSendRetry = true;
        return false;
    }

    if (pkt->isWrite() && (pkt->req->isLocked())) {
        pkt->req->setExtraData(1);
    }
    myCache()->access(pkt);
    return true;
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::CpuSidePort::recvRetry()
{
    recvRetryCommon();
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::CpuSidePort::processRequestEvent()
{
    if (waitingOnRetry)
        return;
    //We have some responses to drain first
    if (!drainList.empty()) {
        if (!drainResponse()) {
            // more responses to drain... re-request bus
            scheduleRequestEvent(curTick + 1);
        }
    }
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::CpuSidePort::processResponseEvent()
{
    assert(transmitList.size());
    assert(transmitList.front().first <= curTick);
    PacketPtr pkt = transmitList.front().second;
    transmitList.pop_front();
    if (!transmitList.empty()) {
        Tick time = transmitList.front().first;
        responseEvent->schedule(time <= curTick ? curTick+1 : time);
    }

    if (pkt->flags & NACKED_LINE)
        pkt->result = Packet::Nacked;
    else
        pkt->result = Packet::Success;
    pkt->makeTimingResponse();
    DPRINTF(CachePort, "%s attempting to send a response\n", name());
    if (!drainList.empty() || waitingOnRetry) {
        //Already have a list, just append
        drainList.push_back(pkt);
        DPRINTF(CachePort, "%s appending response onto drain list\n", name());
    }
    else if (!sendTiming(pkt)) {
        //It failed, save it to list of drain events
        DPRINTF(CachePort, "%s now waiting for a retry\n", name());
        drainList.push_back(pkt);
        waitingOnRetry = true;
    }

    // Check if we're done draining once this list is empty
    if (drainList.empty() && transmitList.empty())
        myCache()->checkDrain();
}


template<class TagStore, class Coherence>
Tick
Cache<TagStore,Coherence>::CpuSidePort::recvAtomic(PacketPtr pkt)
{
    myCache()->probe(pkt, true, NULL);
    //TEMP ALWAYS SUCCES FOR NOW
    pkt->result = Packet::Success;
    //Fix this timing info
    return myCache()->hitLatency;
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::CpuSidePort::recvFunctional(PacketPtr pkt)
{
    if (checkFunctional(pkt)) {
        //TEMP USE CPU?THREAD 0 0
        pkt->req->setThreadContext(0,0);

        myCache()->probe(pkt, false, cache->memSidePort);
        //TEMP ALWAYS SUCCESFUL FOR NOW
        pkt->result = Packet::Success;
    }
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::MemSidePort::
getDeviceAddressRanges(AddrRangeList &resp, bool &snoop)
{
    // Memory-side port always snoops.
    bool dummy;
    otherPort->getPeerAddressRanges(resp, dummy);
    snoop = true;
}


template<class TagStore, class Coherence>
bool
Cache<TagStore,Coherence>::MemSidePort::recvTiming(PacketPtr pkt)
{
    // this needs to be fixed so that the cache updates the mshr and sends the
    // packet back out on the link, but it probably won't happen so until this
    // gets fixed, just panic when it does
    if (pkt->result == Packet::Nacked)
        panic("Need to implement cache resending nacked packets!\n");

    if (pkt->isRequest() && blocked) {
        DPRINTF(Cache,"Scheduling a retry while blocked\n");
        mustSendRetry = true;
        return false;
    }

    if (pkt->isResponse()) {
        myCache()->handleResponse(pkt);
    } else {
        myCache()->snoop(pkt);
    }
    return true;
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::MemSidePort::recvRetry()
{
    if (recvRetryCommon()) {
        return;
    }

    DPRINTF(CachePort, "%s attempting to send a retry for MSHR\n", name());
    if (!cache->isMemSideBusRequested()) {
        //This can happen if I am the owner of a block and see an upgrade
        //while the block was in my WB Buffers.  I just remove the
        //wb and de-assert the masterRequest
        waitingOnRetry = false;
        return;
    }
    PacketPtr pkt = myCache()->getPacket();
    MSHR* mshr = (MSHR*) pkt->senderState;
    //Copy the packet, it may be modified/destroyed elsewhere
    PacketPtr copyPkt = new Packet(*pkt);
    copyPkt->dataStatic<uint8_t>(pkt->getPtr<uint8_t>());
    mshr->pkt = copyPkt;

    bool success = sendTiming(pkt);
    DPRINTF(Cache, "Address %x was %s in sending the timing request\n",
            pkt->getAddr(), success ? "succesful" : "unsuccesful");

    waitingOnRetry = !success;
    if (waitingOnRetry) {
        DPRINTF(CachePort, "%s now waiting on a retry\n", name());
    }

    myCache()->sendResult(pkt, mshr, success);

    if (success && cache->isMemSideBusRequested())
    {
        DPRINTF(CachePort, "%s has more requests\n", name());
        //Still more to issue, rerequest in 1 cycle
        new RequestEvent(this, curTick + 1);
    }
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::MemSidePort::processRequestEvent()
{
    if (waitingOnRetry)
        return;
    //We have some responses to drain first
    if (!drainList.empty()) {
        if (!drainResponse()) {
            // more responses to drain... re-request bus
            scheduleRequestEvent(curTick + 1);
        }
        return;
    }

    DPRINTF(CachePort, "%s trying to send a MSHR request\n", name());
    if (!isBusRequested()) {
        //This can happen if I am the owner of a block and see an upgrade
        //while the block was in my WB Buffers.  I just remove the
        //wb and de-assert the masterRequest
        return;
    }

    PacketPtr pkt = myCache()->getPacket();
    MSHR* mshr = (MSHR*) pkt->senderState;
    //Copy the packet, it may be modified/destroyed elsewhere
    PacketPtr copyPkt = new Packet(*pkt);
    copyPkt->dataStatic<uint8_t>(pkt->getPtr<uint8_t>());
    mshr->pkt = copyPkt;

    bool success = sendTiming(pkt);
    DPRINTF(Cache, "Address %x was %s in sending the timing request\n",
            pkt->getAddr(), success ? "succesful" : "unsuccesful");

    waitingOnRetry = !success;
    if (waitingOnRetry) {
        DPRINTF(CachePort, "%s now waiting on a retry\n", name());
    }

    myCache()->sendResult(pkt, mshr, success);
    if (success && isBusRequested())
    {
        DPRINTF(CachePort, "%s still more MSHR requests to send\n", name());
        //Still more to issue, rerequest in 1 cycle
        scheduleRequestEvent(curTick+1);
    }
}


template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::MemSidePort::processResponseEvent()
{
    assert(transmitList.size());
    assert(transmitList.front().first <= curTick);
    PacketPtr pkt = transmitList.front().second;
    transmitList.pop_front();
    if (!transmitList.empty()) {
        Tick time = transmitList.front().first;
        responseEvent->schedule(time <= curTick ? curTick+1 : time);
    }

    if (pkt->flags & NACKED_LINE)
        pkt->result = Packet::Nacked;
    else
        pkt->result = Packet::Success;
    pkt->makeTimingResponse();
    DPRINTF(CachePort, "%s attempting to send a response\n", name());
    if (!drainList.empty() || waitingOnRetry) {
        //Already have a list, just append
        drainList.push_back(pkt);
        DPRINTF(CachePort, "%s appending response onto drain list\n", name());
    }
    else if (!sendTiming(pkt)) {
        //It failed, save it to list of drain events
        DPRINTF(CachePort, "%s now waiting for a retry\n", name());
        drainList.push_back(pkt);
        waitingOnRetry = true;
    }

    // Check if we're done draining once this list is empty
    if (drainList.empty() && transmitList.empty())
        myCache()->checkDrain();
}


template<class TagStore, class Coherence>
Tick
Cache<TagStore,Coherence>::MemSidePort::recvAtomic(PacketPtr pkt)
{
    if (pkt->isResponse())
        myCache()->handleResponse(pkt);
    else
        return myCache()->snoopProbe(pkt);
    //Fix this timing info
    return myCache()->hitLatency;
}

template<class TagStore, class Coherence>
void
Cache<TagStore,Coherence>::MemSidePort::recvFunctional(PacketPtr pkt)
{
    myCache()->probe(pkt, false, cache->cpuSidePort);
    if (pkt->result != Packet::Success)
        checkFunctional(pkt);
}


template<class TagStore, class Coherence>
Cache<TagStore,Coherence>::
CpuSidePort::CpuSidePort(const std::string &_name,
                         Cache<TagStore,Coherence> *_cache)
    : BaseCache::CachePort(_name, _cache)
{
    responseEvent = new ResponseEvent(this);
}

template<class TagStore, class Coherence>
Cache<TagStore,Coherence>::
MemSidePort::MemSidePort(const std::string &_name,
                         Cache<TagStore,Coherence> *_cache)
    : BaseCache::CachePort(_name, _cache)
{
    responseEvent = new ResponseEvent(this);
}