assert(removeAddr != outstandingAddrs.end());
outstandingAddrs.erase(removeAddr);
- switch (pkt->cmd) {
- case Packet::ReadResp:
+ switch (pkt->cmd.toInt()) {
+ case MemCmd::ReadResp:
if (memcmp(pkt_data, data, pkt->getSize()) != 0) {
cerr << name() << ": on read of 0x" << hex << req->getPaddr()
exitSimLoop("Maximum number of loads reached!");
break;
- case Packet::WriteResp:
+ case MemCmd::WriteResp:
numWritesStat++;
break;
/*
<< dec << curTick << endl;
}
- PacketPtr pkt = new Packet(req, Packet::ReadReq, Packet::Broadcast);
+ PacketPtr pkt = new Packet(req, MemCmd::ReadReq, Packet::Broadcast);
pkt->dataDynamicArray(new uint8_t[req->getSize()]);
MemTestSenderState *state = new MemTestSenderState(result);
pkt->senderState = state;
<< dec << curTick << endl;
}
*/
- PacketPtr pkt = new Packet(req, Packet::WriteReq, Packet::Broadcast);
+ PacketPtr pkt = new Packet(req, MemCmd::WriteReq, Packet::Broadcast);
uint8_t *pkt_data = new uint8_t[req->getSize()];
pkt->dataDynamicArray(pkt_data);
memcpy(pkt_data, &data, req->getSize());
// Build packet here.
PacketPtr data_pkt = new Packet(mem_req,
- Packet::ReadReq, Packet::Broadcast);
+ MemCmd::ReadReq, Packet::Broadcast);
data_pkt->dataDynamicArray(new uint8_t[cacheBlkSize]);
cacheDataPC[tid] = block_PC;
"addr %#x, data %#x\n",
store_idx, req->getVaddr(), data);
- PacketPtr data_pkt = new Packet(req, Packet::ReadReq, Packet::Broadcast);
+ PacketPtr data_pkt = new Packet(req, MemCmd::ReadReq,
+ Packet::Broadcast);
data_pkt->dataStatic(load_inst->memData);
WritebackEvent *wb = new WritebackEvent(load_inst, data_pkt, this);
// if we the cache is not blocked, do cache access
if (!lsq->cacheBlocked()) {
PacketPtr data_pkt =
- new Packet(req, Packet::ReadReq, Packet::Broadcast);
+ new Packet(req, MemCmd::ReadReq, Packet::Broadcast);
data_pkt->dataStatic(load_inst->memData);
LSQSenderState *state = new LSQSenderState;
(sizeof(TheISA::IntReg) - req->getSize()) : 0),
req->getSize());
- PacketPtr data_pkt = new Packet(req, Packet::WriteReq, Packet::Broadcast);
+ PacketPtr data_pkt = new Packet(req, MemCmd::WriteReq,
+ Packet::Broadcast);
data_pkt->dataStatic(inst->memData);
LSQSenderState *state = new LSQSenderState;
ifetch_req = new Request();
ifetch_req->setThreadContext(p->cpu_id, 0); // Add thread ID if we add MT
- ifetch_pkt = new Packet(ifetch_req, Packet::ReadReq, Packet::Broadcast);
+ ifetch_pkt = new Packet(ifetch_req, MemCmd::ReadReq, Packet::Broadcast);
ifetch_pkt->dataStatic(&inst);
data_read_req = new Request();
data_read_req->setThreadContext(p->cpu_id, 0); // Add thread ID here too
- data_read_pkt = new Packet(data_read_req, Packet::ReadReq,
+ data_read_pkt = new Packet(data_read_req, MemCmd::ReadReq,
Packet::Broadcast);
data_read_pkt->dataStatic(&dataReg);
data_write_req = new Request();
data_write_req->setThreadContext(p->cpu_id, 0); // Add thread ID here too
- data_write_pkt = new Packet(data_write_req, Packet::WriteReq,
+ data_write_pkt = new Packet(data_write_req, MemCmd::WriteReq,
Packet::Broadcast);
}
// Now do the access.
if (fault == NoFault) {
PacketPtr pkt =
- new Packet(req, Packet::ReadReq, Packet::Broadcast);
+ new Packet(req, MemCmd::ReadReq, Packet::Broadcast);
pkt->dataDynamic<T>(new T);
if (!dcachePort.sendTiming(pkt)) {
// Now do the access.
if (fault == NoFault) {
assert(dcache_pkt == NULL);
- dcache_pkt = new Packet(req, Packet::WriteReq, Packet::Broadcast);
+ dcache_pkt = new Packet(req, MemCmd::WriteReq, Packet::Broadcast);
dcache_pkt->allocate();
dcache_pkt->set(data);
ifetch_req->setThreadContext(cpu_id, /* thread ID */ 0);
Fault fault = setupFetchRequest(ifetch_req);
- ifetch_pkt = new Packet(ifetch_req, Packet::ReadReq, Packet::Broadcast);
+ ifetch_pkt = new Packet(ifetch_req, MemCmd::ReadReq, Packet::Broadcast);
ifetch_pkt->dataStatic(&inst);
if (fault == NoFault) {
virtual ~DmaDevice();
void dmaWrite(Addr addr, int size, Event *event, uint8_t *data)
- { dmaPort->dmaAction(Packet::WriteInvalidateReq, addr, size, event, data) ; }
+ {
+ dmaPort->dmaAction(MemCmd::WriteInvalidateReq,
+ addr, size, event, data);
+ }
void dmaRead(Addr addr, int size, Event *event, uint8_t *data = NULL)
- { dmaPort->dmaAction(Packet::ReadReq, addr, size, event, data); }
+ { dmaPort->dmaAction(MemCmd::ReadReq, addr, size, event, data); }
bool dmaPending() { return dmaPort->dmaPending(); }
void
BaseCache::regStats()
{
- Request temp_req((Addr) NULL, 4, 0);
- Packet::Command temp_cmd = Packet::ReadReq;
- Packet temp_pkt(&temp_req, temp_cmd, 0); //@todo FIx command strings so this isn't neccessary
- temp_pkt.allocate(); //Temp allocate, all need data
-
using namespace Stats;
// Hit statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
hits[access_idx]
.init(maxThreadsPerCPU)
.desc("number of demand (read+write) hits")
.flags(total)
;
- demandHits = hits[Packet::ReadReq] + hits[Packet::WriteReq];
+ demandHits = hits[MemCmd::ReadReq] + hits[MemCmd::WriteReq];
overallHits
.name(name() + ".overall_hits")
.desc("number of overall hits")
.flags(total)
;
- overallHits = demandHits + hits[Packet::SoftPFReq] + hits[Packet::HardPFReq]
- + hits[Packet::Writeback];
+ overallHits = demandHits + hits[MemCmd::SoftPFReq] + hits[MemCmd::HardPFReq]
+ + hits[MemCmd::Writeback];
// Miss statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
misses[access_idx]
.init(maxThreadsPerCPU)
.desc("number of demand (read+write) misses")
.flags(total)
;
- demandMisses = misses[Packet::ReadReq] + misses[Packet::WriteReq];
+ demandMisses = misses[MemCmd::ReadReq] + misses[MemCmd::WriteReq];
overallMisses
.name(name() + ".overall_misses")
.desc("number of overall misses")
.flags(total)
;
- overallMisses = demandMisses + misses[Packet::SoftPFReq] +
- misses[Packet::HardPFReq] + misses[Packet::Writeback];
+ overallMisses = demandMisses + misses[MemCmd::SoftPFReq] +
+ misses[MemCmd::HardPFReq] + misses[MemCmd::Writeback];
// Miss latency statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
missLatency[access_idx]
.init(maxThreadsPerCPU)
.desc("number of demand (read+write) miss cycles")
.flags(total)
;
- demandMissLatency = missLatency[Packet::ReadReq] + missLatency[Packet::WriteReq];
+ demandMissLatency = missLatency[MemCmd::ReadReq] + missLatency[MemCmd::WriteReq];
overallMissLatency
.name(name() + ".overall_miss_latency")
.desc("number of overall miss cycles")
.flags(total)
;
- overallMissLatency = demandMissLatency + missLatency[Packet::SoftPFReq] +
- missLatency[Packet::HardPFReq];
+ overallMissLatency = demandMissLatency + missLatency[MemCmd::SoftPFReq] +
+ missLatency[MemCmd::HardPFReq];
// access formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
accesses[access_idx]
.name(name() + "." + cstr + "_accesses")
overallAccesses = overallHits + overallMisses;
// miss rate formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
missRate[access_idx]
.name(name() + "." + cstr + "_miss_rate")
overallMissRate = overallMisses / overallAccesses;
// miss latency formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
avgMissLatency[access_idx]
.name(name() + "." + cstr + "_avg_miss_latency")
*/
/** Number of hits per thread for each type of command. @sa Packet::Command */
- Stats::Vector<> hits[NUM_MEM_CMDS];
+ Stats::Vector<> hits[MemCmd::NUM_MEM_CMDS];
/** Number of hits for demand accesses. */
Stats::Formula demandHits;
/** Number of hit for all accesses. */
Stats::Formula overallHits;
/** Number of misses per thread for each type of command. @sa Packet::Command */
- Stats::Vector<> misses[NUM_MEM_CMDS];
+ Stats::Vector<> misses[MemCmd::NUM_MEM_CMDS];
/** Number of misses for demand accesses. */
Stats::Formula demandMisses;
/** Number of misses for all accesses. */
* Total number of cycles per thread/command spent waiting for a miss.
* Used to calculate the average miss latency.
*/
- Stats::Vector<> missLatency[NUM_MEM_CMDS];
+ Stats::Vector<> missLatency[MemCmd::NUM_MEM_CMDS];
/** Total number of cycles spent waiting for demand misses. */
Stats::Formula demandMissLatency;
/** Total number of cycles spent waiting for all misses. */
Stats::Formula overallMissLatency;
/** The number of accesses per command and thread. */
- Stats::Formula accesses[NUM_MEM_CMDS];
+ Stats::Formula accesses[MemCmd::NUM_MEM_CMDS];
/** The number of demand accesses. */
Stats::Formula demandAccesses;
/** The number of overall accesses. */
Stats::Formula overallAccesses;
/** The miss rate per command and thread. */
- Stats::Formula missRate[NUM_MEM_CMDS];
+ Stats::Formula missRate[MemCmd::NUM_MEM_CMDS];
/** The miss rate of all demand accesses. */
Stats::Formula demandMissRate;
/** The miss rate for all accesses. */
Stats::Formula overallMissRate;
/** The average miss latency per command and thread. */
- Stats::Formula avgMissLatency[NUM_MEM_CMDS];
+ Stats::Formula avgMissLatency[MemCmd::NUM_MEM_CMDS];
/** The average miss latency for demand misses. */
Stats::Formula demandAvgMissLatency;
/** The average miss latency for all misses. */
}
}
else {
- if (pkt->cmd != Packet::UpgradeReq)
+ if (pkt->cmd != MemCmd::UpgradeReq)
{
delete pkt->req;
delete pkt;
}
}
else {
- if (pkt->cmd != Packet::UpgradeReq)
+ if (pkt->cmd != MemCmd::UpgradeReq)
{
delete pkt->req;
delete pkt;
coherence->setCache(this);
prefetcher->setCache(this);
invalidateReq = new Request((Addr) NULL, blkSize, 0);
- invalidatePkt = new Packet(invalidateReq, Packet::InvalidateReq, 0);
+ invalidatePkt = new Packet(invalidateReq, MemCmd::InvalidateReq, 0);
}
template<class TagStore, class Coherence>
target->flags |= SATISFIED;
- if (target->cmd == Packet::InvalidateReq) {
+ if (target->cmd == MemCmd::InvalidateReq) {
tags->invalidateBlk(blk);
blk = NULL;
}
Tick completion_time = tags->getHitLatency() +
transfer_offset ? pkt->finishTime : pkt->firstWordTime;
- if (target->cmd == Packet::InvalidateReq) {
+ if (target->cmd == MemCmd::InvalidateReq) {
//Mark the blk as invalid now, if it hasn't been already
if (blk) {
tags->invalidateBlk(blk);
Request *writebackReq =
new Request(tags->regenerateBlkAddr(blk->tag, blk->set), blkSize, 0);
- PacketPtr writeback = new Packet(writebackReq, Packet::Writeback, -1);
+ PacketPtr writeback = new Packet(writebackReq, MemCmd::Writeback, -1);
writeback->allocate();
std::memcpy(writeback->getPtr<uint8_t>(),blk->data,blkSize);
/** @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 == Packet::WriteReq
- || pkt->cmd == Packet::WriteInvalidateReq) ) {
+ (pkt->cmd == MemCmd::WriteReq
+ || pkt->cmd == MemCmd::WriteInvalidateReq) ) {
// not outstanding misses, can do this
MSHR* outstanding_miss = missQueue->findMSHR(pkt->getAddr());
- if (pkt->cmd == Packet::WriteInvalidateReq || !outstanding_miss) {
+ if (pkt->cmd == MemCmd::WriteInvalidateReq || !outstanding_miss) {
if (outstanding_miss) {
warn("WriteInv doing a fastallocate"
"with an outstanding miss to the same address\n");
// clear dirty bit if write through
if (pkt->needsResponse())
respond(pkt, curTick+lat);
- if (pkt->cmd == Packet::Writeback) {
+ if (pkt->cmd == MemCmd::Writeback) {
//Signal that you can kill the pkt/req
pkt->flags |= SATISFIED;
}
missQueue->handleMiss(pkt, size, curTick + hitLatency);
}
- if (pkt->cmd == Packet::Writeback) {
+ if (pkt->cmd == MemCmd::Writeback) {
//Need to clean up the packet on a writeback miss, but leave the request
delete pkt;
}
PacketPtr pkt = missQueue->getPacket();
if (pkt) {
if (!pkt->req->isUncacheable()) {
- if (pkt->cmd == Packet::HardPFReq)
- misses[Packet::HardPFReq][0/*pkt->req->getThreadNum()*/]++;
+ if (pkt->cmd == MemCmd::HardPFReq)
+ misses[MemCmd::HardPFReq][0/*pkt->req->getThreadNum()*/]++;
BlkType *blk = tags->findBlock(pkt->getAddr());
- Packet::Command cmd = coherence->getBusCmd(pkt->cmd,
- (blk)? blk->status : 0);
+ MemCmd cmd =
+ coherence->getBusCmd(pkt->cmd, (blk) ? blk->status : 0);
missQueue->setBusCmd(pkt, cmd);
}
}
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 == Packet::UpgradeReq);
+ bool upgrade = (mshr->pkt && mshr->pkt->cmd == MemCmd::UpgradeReq);
missQueue->markInService(mshr->pkt, mshr);
if (mshr) {
if (mshr->inService) {
if ((mshr->pkt->isInvalidate() || !mshr->pkt->isCacheFill())
- && (pkt->cmd != Packet::InvalidateReq
- && pkt->cmd != Packet::WriteInvalidateReq)) {
+ && (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
panic("Atomic access ran into outstanding MSHR's or WB's!");
}
if (!pkt->req->isUncacheable() /*Uncacheables just go through*/
- && (pkt->cmd != Packet::Writeback)/*Writebacks on miss fall through*/) {
+ && (pkt->cmd != MemCmd::Writeback)/*Writebacks on miss fall through*/) {
// Fetch the cache block to fill
BlkType *blk = tags->findBlock(pkt->getAddr());
- Packet::Command temp_cmd = coherence->getBusCmd(pkt->cmd,
- (blk)? blk->status : 0);
+ MemCmd temp_cmd =
+ coherence->getBusCmd(pkt->cmd, (blk) ? blk->status : 0);
PacketPtr busPkt = new Packet(pkt->req,temp_cmd, -1, blkSize);
CoherenceProtocol::StateTransition::StateTransition()
- : busCmd(Packet::InvalidCmd), newState(-1), snoopFunc(invalidTransition)
+ : busCmd(MemCmd::InvalidCmd), newState(-1), snoopFunc(invalidTransition)
{
}
// requestCount and snoopCount arrays, most of these are invalid,
// so we just select the interesting ones to print here.
- requestCount[Invalid][Packet::ReadReq]
+ requestCount[Invalid][MemCmd::ReadReq]
.name(name() + ".read_invalid")
.desc("read misses to invalid blocks")
;
- requestCount[Invalid][Packet::WriteReq]
+ requestCount[Invalid][MemCmd::WriteReq]
.name(name() +".write_invalid")
.desc("write misses to invalid blocks")
;
- requestCount[Invalid][Packet::SoftPFReq]
+ requestCount[Invalid][MemCmd::SoftPFReq]
.name(name() +".swpf_invalid")
.desc("soft prefetch misses to invalid blocks")
;
- requestCount[Invalid][Packet::HardPFReq]
+ requestCount[Invalid][MemCmd::HardPFReq]
.name(name() +".hwpf_invalid")
.desc("hard prefetch misses to invalid blocks")
;
- requestCount[Shared][Packet::WriteReq]
+ requestCount[Shared][MemCmd::WriteReq]
.name(name() + ".write_shared")
.desc("write misses to shared blocks")
;
- requestCount[Owned][Packet::WriteReq]
+ requestCount[Owned][MemCmd::WriteReq]
.name(name() + ".write_owned")
.desc("write misses to owned blocks")
;
- snoopCount[Shared][Packet::ReadReq]
+ snoopCount[Shared][MemCmd::ReadReq]
.name(name() + ".snoop_read_shared")
.desc("read snoops on shared blocks")
;
- snoopCount[Shared][Packet::ReadExReq]
+ snoopCount[Shared][MemCmd::ReadExReq]
.name(name() + ".snoop_readex_shared")
.desc("readEx snoops on shared blocks")
;
- snoopCount[Shared][Packet::UpgradeReq]
+ snoopCount[Shared][MemCmd::UpgradeReq]
.name(name() + ".snoop_upgrade_shared")
.desc("upgradee snoops on shared blocks")
;
- snoopCount[Modified][Packet::ReadReq]
+ snoopCount[Modified][MemCmd::ReadReq]
.name(name() + ".snoop_read_modified")
.desc("read snoops on modified blocks")
;
- snoopCount[Modified][Packet::ReadExReq]
+ snoopCount[Modified][MemCmd::ReadExReq]
.name(name() + ".snoop_readex_modified")
.desc("readEx snoops on modified blocks")
;
- snoopCount[Owned][Packet::ReadReq]
+ snoopCount[Owned][MemCmd::ReadReq]
.name(name() + ".snoop_read_owned")
.desc("read snoops on owned blocks")
;
- snoopCount[Owned][Packet::ReadExReq]
+ snoopCount[Owned][MemCmd::ReadExReq]
.name(name() + ".snoop_readex_owned")
.desc("readEx snoops on owned blocks")
;
- snoopCount[Owned][Packet::UpgradeReq]
+ snoopCount[Owned][MemCmd::UpgradeReq]
.name(name() + ".snoop_upgrade_owned")
.desc("upgrade snoops on owned blocks")
;
- snoopCount[Exclusive][Packet::ReadReq]
+ snoopCount[Exclusive][MemCmd::ReadReq]
.name(name() + ".snoop_read_exclusive")
.desc("read snoops on exclusive blocks")
;
- snoopCount[Exclusive][Packet::ReadExReq]
+ snoopCount[Exclusive][MemCmd::ReadExReq]
.name(name() + ".snoop_readex_exclusive")
.desc("readEx snoops on exclusive blocks")
;
- snoopCount[Shared][Packet::InvalidateReq]
+ snoopCount[Shared][MemCmd::InvalidateReq]
.name(name() + ".snoop_inv_shared")
.desc("Invalidate snoops on shared blocks")
;
- snoopCount[Owned][Packet::InvalidateReq]
+ snoopCount[Owned][MemCmd::InvalidateReq]
.name(name() + ".snoop_inv_owned")
.desc("Invalidate snoops on owned blocks")
;
- snoopCount[Exclusive][Packet::InvalidateReq]
+ snoopCount[Exclusive][MemCmd::InvalidateReq]
.name(name() + ".snoop_inv_exclusive")
.desc("Invalidate snoops on exclusive blocks")
;
- snoopCount[Modified][Packet::InvalidateReq]
+ snoopCount[Modified][MemCmd::InvalidateReq]
.name(name() + ".snoop_inv_modified")
.desc("Invalidate snoops on modified blocks")
;
- snoopCount[Invalid][Packet::InvalidateReq]
+ snoopCount[Invalid][MemCmd::InvalidateReq]
.name(name() + ".snoop_inv_invalid")
.desc("Invalidate snoops on invalid blocks")
;
- snoopCount[Shared][Packet::WriteInvalidateReq]
+ snoopCount[Shared][MemCmd::WriteInvalidateReq]
.name(name() + ".snoop_writeinv_shared")
.desc("WriteInvalidate snoops on shared blocks")
;
- snoopCount[Owned][Packet::WriteInvalidateReq]
+ snoopCount[Owned][MemCmd::WriteInvalidateReq]
.name(name() + ".snoop_writeinv_owned")
.desc("WriteInvalidate snoops on owned blocks")
;
- snoopCount[Exclusive][Packet::WriteInvalidateReq]
+ snoopCount[Exclusive][MemCmd::WriteInvalidateReq]
.name(name() + ".snoop_writeinv_exclusive")
.desc("WriteInvalidate snoops on exclusive blocks")
;
- snoopCount[Modified][Packet::WriteInvalidateReq]
+ snoopCount[Modified][MemCmd::WriteInvalidateReq]
.name(name() + ".snoop_writeinv_modified")
.desc("WriteInvalidate snoops on modified blocks")
;
- snoopCount[Invalid][Packet::WriteInvalidateReq]
+ snoopCount[Invalid][MemCmd::WriteInvalidateReq]
.name(name() + ".snoop_writeinv_invalid")
.desc("WriteInvalidate snoops on invalid blocks")
;
}
// set up a few shortcuts to save typing & visual clutter
- typedef Packet P;
- StateTransition (&tt)[stateMax+1][NUM_MEM_CMDS] = transitionTable;
+ typedef MemCmd MC;
+ StateTransition (&tt)[stateMax+1][MC::NUM_MEM_CMDS] = transitionTable;
- P::Command writeToSharedCmd = doUpgrades ? P::UpgradeReq : P::ReadExReq;
- P::Command writeToSharedResp = doUpgrades ? P::UpgradeReq : P::ReadExResp;
+ MC::Command writeToSharedCmd =
+ doUpgrades ? MC::UpgradeReq : MC::ReadExReq;
+ MC::Command writeToSharedResp =
+ doUpgrades ? MC::UpgradeReq : MC::ReadExResp;
// Note that all transitions by default cause a panic.
// Override the valid transitions with the appropriate actions here.
//
// ----- incoming requests: specify outgoing bus request -----
//
- tt[Invalid][P::ReadReq].onRequest(P::ReadReq);
+ tt[Invalid][MC::ReadReq].onRequest(MC::ReadReq);
// we only support write allocate right now
- tt[Invalid][P::WriteReq].onRequest(P::ReadExReq);
- tt[Shared][P::WriteReq].onRequest(writeToSharedCmd);
+ tt[Invalid][MC::WriteReq].onRequest(MC::ReadExReq);
+ tt[Shared][MC::WriteReq].onRequest(writeToSharedCmd);
if (hasOwned) {
- tt[Owned][P::WriteReq].onRequest(writeToSharedCmd);
+ tt[Owned][MC::WriteReq].onRequest(writeToSharedCmd);
}
// Prefetching causes a read
- tt[Invalid][P::SoftPFReq].onRequest(P::ReadReq);
- tt[Invalid][P::HardPFReq].onRequest(P::ReadReq);
+ tt[Invalid][MC::SoftPFReq].onRequest(MC::ReadReq);
+ tt[Invalid][MC::HardPFReq].onRequest(MC::ReadReq);
//
// ----- on response to given request: specify new state -----
//
- tt[Invalid][P::ReadExResp].onResponse(Modified);
+ tt[Invalid][MC::ReadExResp].onResponse(Modified);
tt[Shared][writeToSharedResp].onResponse(Modified);
// Go to Exclusive state on read response if we have one (will
// move into shared if the shared line is asserted in the
// getNewState function)
//
// originally had this as:
- // tt[Invalid][P::ReadResp].onResponse(hasExclusive ? Exclusive: Shared);
+ // tt[Invalid][MC::ReadResp].onResponse(hasExclusive ? Exclusive: Shared);
// ...but for some reason that caused a link error...
if (hasExclusive) {
- tt[Invalid][P::ReadResp].onResponse(Exclusive);
+ tt[Invalid][MC::ReadResp].onResponse(Exclusive);
} else {
- tt[Invalid][P::ReadResp].onResponse(Shared);
+ tt[Invalid][MC::ReadResp].onResponse(Shared);
}
if (hasOwned) {
tt[Owned][writeToSharedResp].onResponse(Modified);
//
// ----- bus snoop transition functions -----
//
- tt[Invalid][P::ReadReq].onSnoop(nullTransition);
- tt[Invalid][P::ReadExReq].onSnoop(nullTransition);
- tt[Invalid][P::InvalidateReq].onSnoop(invalidateTrans);
- tt[Invalid][P::WriteInvalidateReq].onSnoop(invalidateTrans);
- tt[Shared][P::ReadReq].onSnoop(hasExclusive
+ tt[Invalid][MC::ReadReq].onSnoop(nullTransition);
+ tt[Invalid][MC::ReadExReq].onSnoop(nullTransition);
+ tt[Invalid][MC::InvalidateReq].onSnoop(invalidateTrans);
+ tt[Invalid][MC::WriteInvalidateReq].onSnoop(invalidateTrans);
+ tt[Shared][MC::ReadReq].onSnoop(hasExclusive
? assertShared : nullTransition);
- tt[Shared][P::ReadExReq].onSnoop(invalidateTrans);
- tt[Shared][P::InvalidateReq].onSnoop(invalidateTrans);
- tt[Shared][P::WriteInvalidateReq].onSnoop(invalidateTrans);
+ tt[Shared][MC::ReadExReq].onSnoop(invalidateTrans);
+ tt[Shared][MC::InvalidateReq].onSnoop(invalidateTrans);
+ tt[Shared][MC::WriteInvalidateReq].onSnoop(invalidateTrans);
if (doUpgrades) {
- tt[Invalid][P::UpgradeReq].onSnoop(nullTransition);
- tt[Shared][P::UpgradeReq].onSnoop(invalidateTrans);
+ tt[Invalid][MC::UpgradeReq].onSnoop(nullTransition);
+ tt[Shared][MC::UpgradeReq].onSnoop(invalidateTrans);
}
- tt[Modified][P::ReadExReq].onSnoop(supplyAndInvalidateTrans);
- tt[Modified][P::ReadReq].onSnoop(hasOwned
+ tt[Modified][MC::ReadExReq].onSnoop(supplyAndInvalidateTrans);
+ tt[Modified][MC::ReadReq].onSnoop(hasOwned
? supplyAndGotoOwnedTrans
: supplyAndGotoSharedTrans);
- tt[Modified][P::InvalidateReq].onSnoop(invalidateTrans);
- tt[Modified][P::WriteInvalidateReq].onSnoop(invalidateTrans);
+ tt[Modified][MC::InvalidateReq].onSnoop(invalidateTrans);
+ tt[Modified][MC::WriteInvalidateReq].onSnoop(invalidateTrans);
if (hasExclusive) {
- tt[Exclusive][P::ReadReq].onSnoop(assertShared);
- tt[Exclusive][P::ReadExReq].onSnoop(invalidateTrans);
- tt[Exclusive][P::InvalidateReq].onSnoop(invalidateTrans);
- tt[Exclusive][P::WriteInvalidateReq].onSnoop(invalidateTrans);
+ tt[Exclusive][MC::ReadReq].onSnoop(assertShared);
+ tt[Exclusive][MC::ReadExReq].onSnoop(invalidateTrans);
+ tt[Exclusive][MC::InvalidateReq].onSnoop(invalidateTrans);
+ tt[Exclusive][MC::WriteInvalidateReq].onSnoop(invalidateTrans);
}
if (hasOwned) {
- tt[Owned][P::ReadReq].onSnoop(supplyAndGotoOwnedTrans);
- tt[Owned][P::ReadExReq].onSnoop(supplyAndInvalidateTrans);
- tt[Owned][P::UpgradeReq].onSnoop(invalidateTrans);
- tt[Owned][P::InvalidateReq].onSnoop(invalidateTrans);
- tt[Owned][P::WriteInvalidateReq].onSnoop(invalidateTrans);
+ tt[Owned][MC::ReadReq].onSnoop(supplyAndGotoOwnedTrans);
+ tt[Owned][MC::ReadExReq].onSnoop(supplyAndInvalidateTrans);
+ tt[Owned][MC::UpgradeReq].onSnoop(invalidateTrans);
+ tt[Owned][MC::InvalidateReq].onSnoop(invalidateTrans);
+ tt[Owned][MC::WriteInvalidateReq].onSnoop(invalidateTrans);
}
// @todo add in hardware prefetch to this list
}
-Packet::Command
-CoherenceProtocol::getBusCmd(Packet::Command cmdIn, CacheBlk::State state,
+MemCmd
+CoherenceProtocol::getBusCmd(MemCmd cmdIn, CacheBlk::State state,
MSHR *mshr)
{
state &= stateMask;
- int cmd_idx = (int) cmdIn;
+ int cmd_idx = cmdIn.toInt();
assert(0 <= state && state <= stateMax);
- assert(0 <= cmd_idx && cmd_idx < NUM_MEM_CMDS);
+ assert(0 <= cmd_idx && cmd_idx < MemCmd::NUM_MEM_CMDS);
- Packet::Command cmdOut = transitionTable[state][cmd_idx].busCmd;
+ MemCmd::Command cmdOut = transitionTable[state][cmd_idx].busCmd;
- assert(cmdOut != Packet::InvalidCmd);
+ assert(cmdOut != MemCmd::InvalidCmd);
++requestCount[state][cmd_idx];
int cmd_idx = pkt->cmdToIndex();
assert(0 <= state && state <= stateMax);
- assert(0 <= cmd_idx && cmd_idx < NUM_MEM_CMDS);
+ assert(0 <= cmd_idx && cmd_idx < MemCmd::NUM_MEM_CMDS);
CacheBlk::State newState = transitionTable[state][cmd_idx].newState;
int cmd_idx = pkt->cmdToIndex();
assert(0 <= state && state <= stateMax);
- assert(0 <= cmd_idx && cmd_idx < NUM_MEM_CMDS);
+ assert(0 <= cmd_idx && cmd_idx < MemCmd::NUM_MEM_CMDS);
// assert(mshr == NULL); // can't currently handle outstanding requests
//Check first if MSHR, and also insure, if there is one, that it is not in service
* @param mshr The MSHR matching the request.
* @return The proper bus command, as determined by the protocol.
*/
- Packet::Command getBusCmd(Packet::Command cmd, CacheBlk::State status,
- MSHR *mshr = NULL);
+ MemCmd getBusCmd(MemCmd cmd, CacheBlk::State status,
+ MSHR *mshr = NULL);
/**
* Return the proper state given the current state and the bus response.
* The table of all possible transitions, organized by starting state and
* request command.
*/
- StateTransition transitionTable[stateMax+1][NUM_MEM_CMDS];
+ StateTransition transitionTable[stateMax+1][MemCmd::NUM_MEM_CMDS];
/**
* @addtogroup CoherenceStatistics
/**
* State accesses from parent cache.
*/
- Stats::Scalar<> requestCount[stateMax+1][NUM_MEM_CMDS];
+ Stats::Scalar<> requestCount[stateMax+1][MemCmd::NUM_MEM_CMDS];
/**
* State accesses from snooped requests.
*/
- Stats::Scalar<> snoopCount[stateMax+1][NUM_MEM_CMDS];
+ Stats::Scalar<> snoopCount[stateMax+1][MemCmd::NUM_MEM_CMDS];
/**
* @}
*/
//Got rid of, there could be an MSHR, but it can't be in service
if (blk != NULL)
{
- if (pkt->cmd != Packet::Writeback) {
+ if (pkt->cmd != MemCmd::Writeback) {
return protocol->handleBusRequest(cache, pkt, blk, mshr,
new_state);
}
* @param state The current state of the cache block.
* @return The proper bus command, as determined by the protocol.
*/
- Packet::Command getBusCmd(Packet::Command &cmd, CacheBlk::State state)
+ MemCmd getBusCmd(MemCmd cmd,
+ CacheBlk::State state)
{
- if (cmd == Packet::Writeback) return Packet::Writeback;
+ if (cmd == MemCmd::Writeback) return MemCmd::Writeback;
return protocol->getBusCmd(cmd, state);
}
if (isTiming) {
// Forward to other caches
Request* req = new Request(pkt->req->getPaddr(), pkt->getSize(), 0);
- PacketPtr tmp = new Packet(req, Packet::InvalidateReq, -1);
+ PacketPtr tmp = new Packet(req, MemCmd::InvalidateReq, -1);
cshrs.allocate(tmp);
cache->setSlaveRequest(Request_Coherence, curTick);
if (cshrs.isFull())
cache->setBlockedForSnoop(Blocked_Coherence);
}
else {
- PacketPtr tmp = new Packet(pkt->req, Packet::InvalidateReq, -1);
+ PacketPtr tmp = new Packet(pkt->req, MemCmd::InvalidateReq, -1);
cache->cpuSidePort->sendAtomic(tmp);
delete tmp;
}
/**/
-/* PacketPtr tmp = new Packet(pkt->req, Packet::InvalidateReq, -1);
+/* PacketPtr tmp = new Packet(pkt->req, MemCmd::InvalidateReq, -1);
cache->cpuSidePort->sendFunctional(tmp);
delete tmp;
*/
if (pkt->isRead()) {
/*For now we will see if someone above us has the data by
doing a functional access on reads. Fix this later */
- PacketPtr tmp = new Packet(pkt->req, Packet::ReadReq, -1);
+ PacketPtr tmp = new Packet(pkt->req, MemCmd::ReadReq, -1);
tmp->allocate();
cache->cpuSidePort->sendFunctional(tmp);
bool hit = (tmp->result == Packet::Success);
* @return The proper bus command, as determined by the protocol.
* @todo Make changes so writebacks don't get here.
*/
- Packet::Command getBusCmd(Packet::Command &cmd, CacheBlk::State state)
+ MemCmd getBusCmd(MemCmd cmd, CacheBlk::State state)
{
- if (cmd == Packet::HardPFReq && state)
+ if (cmd == MemCmd::HardPFReq && state)
warn("Trying to issue a prefetch to a block we already have\n");
- if (cmd == Packet::Writeback)
- return Packet::Writeback;
- return Packet::ReadReq;
+ if (cmd == MemCmd::Writeback)
+ return MemCmd::Writeback;
+ return MemCmd::ReadReq;
}
/**
{
if (pkt->senderState) //Blocking Buffers don't get mshrs
{
- if (((MSHR *)(pkt->senderState))->originalCmd == Packet::HardPFReq) {
+ if (((MSHR *)(pkt->senderState))->originalCmd == MemCmd::HardPFReq) {
DPRINTF(HWPrefetch, "Marking a hardware prefetch as such in the state\n");
return BlkHWPrefetched | BlkValid | BlkWritable;
}
}
void
-BlockingBuffer::setBusCmd(PacketPtr &pkt, Packet::Command cmd)
+BlockingBuffer::setBusCmd(PacketPtr &pkt, MemCmd cmd)
{
MSHR *mshr = (MSHR*) pkt->senderState;
mshr->originalCmd = pkt->cmd;
{
// Generate request
Request * req = new Request(addr, size, 0);
- PacketPtr pkt = new Packet(req, Packet::Writeback, -1);
+ PacketPtr pkt = new Packet(req, MemCmd::Writeback, -1);
pkt->allocate();
if (data) {
std::memcpy(pkt->getPtr<uint8_t>(), data, size);
* @param pkt The request to update.
* @param cmd The bus command to use.
*/
- void setBusCmd(PacketPtr &pkt, Packet::Command cmd);
+ void setBusCmd(PacketPtr &pkt, MemCmd cmd);
/**
* Restore the original command in case of a bus transmission error.
* @param pkt The request to update.
* @param cmd The bus command to use.
*/
- virtual void setBusCmd(PacketPtr &pkt, Packet::Command cmd) = 0;
+ virtual void setBusCmd(PacketPtr &pkt, MemCmd cmd) = 0;
/**
* Restore the original command in case of a bus transmission error.
{
MissBuffer::regStats(name);
- Request temp_req((Addr) NULL, 4, 0);
- Packet::Command temp_cmd = Packet::ReadReq;
- Packet temp_pkt(&temp_req, temp_cmd, 0); //@todo FIx command strings so this isn't neccessary
- temp_pkt.allocate();
-
using namespace Stats;
// MSHR hit statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshr_hits[access_idx]
.init(maxThreadsPerCPU)
.desc("number of demand (read+write) MSHR hits")
.flags(total)
;
- demandMshrHits = mshr_hits[Packet::ReadReq] + mshr_hits[Packet::WriteReq];
+ demandMshrHits = mshr_hits[MemCmd::ReadReq] + mshr_hits[MemCmd::WriteReq];
overallMshrHits
.name(name + ".overall_mshr_hits")
.desc("number of overall MSHR hits")
.flags(total)
;
- overallMshrHits = demandMshrHits + mshr_hits[Packet::SoftPFReq] +
- mshr_hits[Packet::HardPFReq];
+ overallMshrHits = demandMshrHits + mshr_hits[MemCmd::SoftPFReq] +
+ mshr_hits[MemCmd::HardPFReq];
// MSHR miss statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshr_misses[access_idx]
.init(maxThreadsPerCPU)
.desc("number of demand (read+write) MSHR misses")
.flags(total)
;
- demandMshrMisses = mshr_misses[Packet::ReadReq] + mshr_misses[Packet::WriteReq];
+ demandMshrMisses = mshr_misses[MemCmd::ReadReq] + mshr_misses[MemCmd::WriteReq];
overallMshrMisses
.name(name + ".overall_mshr_misses")
.desc("number of overall MSHR misses")
.flags(total)
;
- overallMshrMisses = demandMshrMisses + mshr_misses[Packet::SoftPFReq] +
- mshr_misses[Packet::HardPFReq];
+ overallMshrMisses = demandMshrMisses + mshr_misses[MemCmd::SoftPFReq] +
+ mshr_misses[MemCmd::HardPFReq];
// MSHR miss latency statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshr_miss_latency[access_idx]
.init(maxThreadsPerCPU)
.desc("number of demand (read+write) MSHR miss cycles")
.flags(total)
;
- demandMshrMissLatency = mshr_miss_latency[Packet::ReadReq]
- + mshr_miss_latency[Packet::WriteReq];
+ demandMshrMissLatency = mshr_miss_latency[MemCmd::ReadReq]
+ + mshr_miss_latency[MemCmd::WriteReq];
overallMshrMissLatency
.name(name + ".overall_mshr_miss_latency")
.flags(total)
;
overallMshrMissLatency = demandMshrMissLatency +
- mshr_miss_latency[Packet::SoftPFReq] + mshr_miss_latency[Packet::HardPFReq];
+ mshr_miss_latency[MemCmd::SoftPFReq] + mshr_miss_latency[MemCmd::HardPFReq];
// MSHR uncacheable statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshr_uncacheable[access_idx]
.init(maxThreadsPerCPU)
.desc("number of overall MSHR uncacheable misses")
.flags(total)
;
- overallMshrUncacheable = mshr_uncacheable[Packet::ReadReq]
- + mshr_uncacheable[Packet::WriteReq] + mshr_uncacheable[Packet::SoftPFReq]
- + mshr_uncacheable[Packet::HardPFReq];
+ overallMshrUncacheable = mshr_uncacheable[MemCmd::ReadReq]
+ + mshr_uncacheable[MemCmd::WriteReq] + mshr_uncacheable[MemCmd::SoftPFReq]
+ + mshr_uncacheable[MemCmd::HardPFReq];
// MSHR miss latency statistics
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshr_uncacheable_lat[access_idx]
.init(maxThreadsPerCPU)
.desc("number of overall MSHR uncacheable cycles")
.flags(total)
;
- overallMshrUncacheableLatency = mshr_uncacheable_lat[Packet::ReadReq]
- + mshr_uncacheable_lat[Packet::WriteReq]
- + mshr_uncacheable_lat[Packet::SoftPFReq]
- + mshr_uncacheable_lat[Packet::HardPFReq];
+ overallMshrUncacheableLatency = mshr_uncacheable_lat[MemCmd::ReadReq]
+ + mshr_uncacheable_lat[MemCmd::WriteReq]
+ + mshr_uncacheable_lat[MemCmd::SoftPFReq]
+ + mshr_uncacheable_lat[MemCmd::HardPFReq];
#if 0
// MSHR access formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshrAccesses[access_idx]
.name(name + "." + cstr + "_mshr_accesses")
#endif
// MSHR miss rate formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
mshrMissRate[access_idx]
.name(name + "." + cstr + "_mshr_miss_rate")
overallMshrMissRate = overallMshrMisses / cache->overallAccesses;
// mshrMiss latency formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
avgMshrMissLatency[access_idx]
.name(name + "." + cstr + "_avg_mshr_miss_latency")
overallAvgMshrMissLatency = overallMshrMissLatency / overallMshrMisses;
// mshrUncacheable latency formulas
- for (int access_idx = 0; access_idx < NUM_MEM_CMDS; ++access_idx) {
- Packet::Command cmd = (Packet::Command)access_idx;
- const string &cstr = temp_pkt.cmdIdxToString(cmd);
+ for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) {
+ MemCmd cmd(access_idx);
+ const string &cstr = cmd.toString();
avgMshrUncacheableLatency[access_idx]
.name(name + "." + cstr + "_avg_mshr_uncacheable_latency")
if (mq.isFull()) {
cache->setBlocked(Blocked_NoMSHRs);
}
- if (pkt->cmd != Packet::HardPFReq) {
+ if (pkt->cmd != MemCmd::HardPFReq) {
//If we need to request the bus (not on HW prefetch), do so
cache->setMasterRequest(Request_MSHR, time);
}
}
void
-MissQueue::setBusCmd(PacketPtr &pkt, Packet::Command cmd)
+MissQueue::setBusCmd(PacketPtr &pkt, MemCmd cmd)
{
assert(pkt->senderState != 0);
MSHR * mshr = (MSHR*)pkt->senderState;
mshr->originalCmd = pkt->cmd;
- if (cmd == Packet::UpgradeReq || cmd == Packet::InvalidateReq) {
+ if (cmd == MemCmd::UpgradeReq || cmd == MemCmd::InvalidateReq) {
pkt->flags |= NO_ALLOCATE;
pkt->flags &= ~CACHE_LINE_FILL;
}
else if (!pkt->req->isUncacheable() && !pkt->isNoAllocate() &&
- (cmd & (1 << 6)/*NeedsResponse*/)) {
+ cmd.needsResponse()) {
pkt->flags |= CACHE_LINE_FILL;
}
if (pkt->isCacheFill() || pkt->isNoAllocate())
if (!mq.havePending()){
cache->clearMasterRequest(Request_MSHR);
}
- if (mshr->originalCmd == Packet::HardPFReq) {
+ if (mshr->originalCmd == MemCmd::HardPFReq) {
DPRINTF(HWPrefetch, "%s:Marking a HW_PF in service\n",
cache->name());
//Also clear pending if need be
MissQueue::handleResponse(PacketPtr &pkt, Tick time)
{
MSHR* mshr = (MSHR*)pkt->senderState;
- if (((MSHR*)(pkt->senderState))->originalCmd == Packet::HardPFReq) {
+ if (((MSHR*)(pkt->senderState))->originalCmd == MemCmd::HardPFReq) {
DPRINTF(HWPrefetch, "%s:Handling the response to a HW_PF\n",
cache->name());
}
BlockedCause cause = NUM_BLOCKED_CAUSES;
if (pkt->isCacheFill() && !pkt->isNoAllocate()) {
- mshr_miss_latency[mshr->originalCmd][0/*pkt->req->getThreadNum()*/] +=
+ mshr_miss_latency[mshr->originalCmd.toInt()][0/*pkt->req->getThreadNum()*/] +=
curTick - pkt->time;
// targets were handled in the cache tags
if (mshr == noTargetMSHR) {
if (mshr->hasTargets()) {
// Didn't satisfy all the targets, need to resend
- Packet::Command cmd = mshr->getTarget()->cmd;
+ MemCmd cmd = mshr->getTarget()->cmd;
mshr->pkt->setDest(Packet::Broadcast);
mshr->pkt->result = Packet::Unknown;
mq.markPending(mshr, cmd);
}
} else {
if (pkt->req->isUncacheable()) {
- mshr_uncacheable_lat[pkt->cmd][0/*pkt->req->getThreadNum()*/] +=
+ mshr_uncacheable_lat[pkt->cmd.toInt()][0/*pkt->req->getThreadNum()*/] +=
curTick - pkt->time;
}
if (mshr->hasTargets() && pkt->req->isUncacheable()) {
{
// Generate request
Request * req = new Request(addr, size, 0);
- PacketPtr pkt = new Packet(req, Packet::Writeback, -1);
+ PacketPtr pkt = new Packet(req, MemCmd::Writeback, -1);
pkt->allocate();
if (data) {
memcpy(pkt->getPtr<uint8_t>(), data, size);
* @{
*/
/** Number of misses that hit in the MSHRs per command and thread. */
- Stats::Vector<> mshr_hits[NUM_MEM_CMDS];
+ Stats::Vector<> mshr_hits[MemCmd::NUM_MEM_CMDS];
/** Demand misses that hit in the MSHRs. */
Stats::Formula demandMshrHits;
/** Total number of misses that hit in the MSHRs. */
Stats::Formula overallMshrHits;
/** Number of misses that miss in the MSHRs, per command and thread. */
- Stats::Vector<> mshr_misses[NUM_MEM_CMDS];
+ Stats::Vector<> mshr_misses[MemCmd::NUM_MEM_CMDS];
/** Demand misses that miss in the MSHRs. */
Stats::Formula demandMshrMisses;
/** Total number of misses that miss in the MSHRs. */
Stats::Formula overallMshrMisses;
/** Number of misses that miss in the MSHRs, per command and thread. */
- Stats::Vector<> mshr_uncacheable[NUM_MEM_CMDS];
+ Stats::Vector<> mshr_uncacheable[MemCmd::NUM_MEM_CMDS];
/** Total number of misses that miss in the MSHRs. */
Stats::Formula overallMshrUncacheable;
/** Total cycle latency of each MSHR miss, per command and thread. */
- Stats::Vector<> mshr_miss_latency[NUM_MEM_CMDS];
+ Stats::Vector<> mshr_miss_latency[MemCmd::NUM_MEM_CMDS];
/** Total cycle latency of demand MSHR misses. */
Stats::Formula demandMshrMissLatency;
/** Total cycle latency of overall MSHR misses. */
Stats::Formula overallMshrMissLatency;
/** Total cycle latency of each MSHR miss, per command and thread. */
- Stats::Vector<> mshr_uncacheable_lat[NUM_MEM_CMDS];
+ Stats::Vector<> mshr_uncacheable_lat[MemCmd::NUM_MEM_CMDS];
/** Total cycle latency of overall MSHR misses. */
Stats::Formula overallMshrUncacheableLatency;
/** The total number of MSHR accesses per command and thread. */
- Stats::Formula mshrAccesses[NUM_MEM_CMDS];
+ Stats::Formula mshrAccesses[MemCmd::NUM_MEM_CMDS];
/** The total number of demand MSHR accesses. */
Stats::Formula demandMshrAccesses;
/** The total number of MSHR accesses. */
Stats::Formula overallMshrAccesses;
/** The miss rate in the MSHRs pre command and thread. */
- Stats::Formula mshrMissRate[NUM_MEM_CMDS];
+ Stats::Formula mshrMissRate[MemCmd::NUM_MEM_CMDS];
/** The demand miss rate in the MSHRs. */
Stats::Formula demandMshrMissRate;
/** The overall miss rate in the MSHRs. */
Stats::Formula overallMshrMissRate;
/** The average latency of an MSHR miss, per command and thread. */
- Stats::Formula avgMshrMissLatency[NUM_MEM_CMDS];
+ Stats::Formula avgMshrMissLatency[MemCmd::NUM_MEM_CMDS];
/** The average latency of a demand MSHR miss. */
Stats::Formula demandAvgMshrMissLatency;
/** The average overall latency of an MSHR miss. */
Stats::Formula overallAvgMshrMissLatency;
/** The average latency of an MSHR miss, per command and thread. */
- Stats::Formula avgMshrUncacheableLatency[NUM_MEM_CMDS];
+ Stats::Formula avgMshrUncacheableLatency[MemCmd::NUM_MEM_CMDS];
/** The average overall latency of an MSHR miss. */
Stats::Formula overallAvgMshrUncacheableLatency;
* @param pkt The request to update.
* @param cmd The bus command to use.
*/
- void setBusCmd(PacketPtr &pkt, Packet::Command cmd);
+ void setBusCmd(PacketPtr &pkt, MemCmd cmd);
/**
* Restore the original command in case of a bus transmission error.
}
void
-MSHR::allocate(Packet::Command cmd, Addr _addr, int size,
+MSHR::allocate(MemCmd cmd, Addr _addr, int size,
PacketPtr &target)
{
addr = _addr;
*/
if (!inService && target->isWrite()) {
- pkt->cmd = Packet::WriteReq;
+ pkt->cmd = MemCmd::WriteReq;
}
}
/** The number of currently allocated targets. */
short ntargets;
/** The original requesting command. */
- Packet::Command originalCmd;
+ MemCmd originalCmd;
/** Order number of assigned by the miss queue. */
uint64_t order;
* @param size The number of bytes to request.
* @param pkt The original miss.
*/
- void allocate(Packet::Command cmd, Addr addr, int size,
+ void allocate(MemCmd cmd, Addr addr, int size,
PacketPtr &pkt);
/**
MSHR *mshr = freeList.front();
assert(mshr->getNumTargets() == 0);
freeList.pop_front();
- mshr->allocate(Packet::ReadReq, addr, size, target);
+ mshr->allocate(MemCmd::ReadReq, addr, size, target);
mshr->allocIter = allocatedList.insert(allocatedList.end(), mshr);
mshr->readyIter = pendingList.insert(pendingList.end(), mshr);
assert(mshr->getNumTargets() == 0);
freeList.pop_front();
PacketPtr dummy;
- mshr->allocate(Packet::ReadReq, addr, size, dummy);
+ mshr->allocate(MemCmd::ReadReq, addr, size, dummy);
mshr->allocIter = allocatedList.insert(allocatedList.end(), mshr);
mshr->inService = true;
++inServiceMSHRs;
MSHRQueue::markInService(MSHR* mshr)
{
//assert(mshr == pendingList.front());
- if (!mshr->pkt->needsResponse() && !(mshr->pkt->cmd == Packet::UpgradeReq)) {
+ if (!mshr->pkt->needsResponse() && !(mshr->pkt->cmd == MemCmd::UpgradeReq)) {
assert(mshr->getNumTargets() == 0);
deallocate(mshr);
return;
}
void
-MSHRQueue::markPending(MSHR* mshr, Packet::Command cmd)
+MSHRQueue::markPending(MSHR* mshr, MemCmd cmd)
{
//assert(mshr->readyIter == NULL);
mshr->pkt->cmd = cmd;
* @param mshr The MSHR to resend.
* @param cmd The command to resend.
*/
- void markPending(MSHR* mshr, Packet::Command cmd);
+ void markPending(MSHR* mshr, MemCmd cmd);
/**
* Squash outstanding requests with the given thread number. If a request
//create a prefetch memreq
Request * prefetchReq = new Request(*addr, blkSize, 0);
PacketPtr prefetch;
- prefetch = new Packet(prefetchReq, Packet::HardPFReq, -1);
+ prefetch = new Packet(prefetchReq, MemCmd::HardPFReq, -1);
prefetch->allocate();
prefetch->req->setThreadContext(pkt->req->getCpuNum(),
pkt->req->getThreadNum());
*/
Request *writebackReq = new Request(regenerateBlkAddr(tag_ptr->tag, 0),
blkSize, 0);
- PacketPtr writeback = new Packet(writebackReq, Packet::Writeback, -1);
+ PacketPtr writeback = new Packet(writebackReq, MemCmd::Writeback,
+ -1);
writeback->allocate();
memcpy(writeback->getPtr<uint8_t>(), tag_ptr->data, blkSize);
#include "base/trace.hh"
#include "mem/packet.hh"
-static const std::string ReadReqString("ReadReq");
-static const std::string WriteReqString("WriteReq");
-static const std::string WriteReqNoAckString("WriteReqNoAck|Writeback");
-static const std::string ReadRespString("ReadResp");
-static const std::string WriteRespString("WriteResp");
-static const std::string SoftPFReqString("SoftPFReq");
-static const std::string SoftPFRespString("SoftPFResp");
-static const std::string HardPFReqString("HardPFReq");
-static const std::string HardPFRespString("HardPFResp");
-static const std::string InvalidateReqString("InvalidateReq");
-static const std::string WriteInvalidateReqString("WriteInvalidateReq");
-static const std::string WriteInvalidateRespString("WriteInvalidateResp");
-static const std::string UpgradeReqString("UpgradeReq");
-static const std::string ReadExReqString("ReadExReq");
-static const std::string ReadExRespString("ReadExResp");
-static const std::string OtherCmdString("<other>");
-
-const std::string &
-Packet::cmdString() const
+// The one downside to bitsets is that static initializers can get ugly.
+#define SET1(a1) (1 << (a1))
+#define SET2(a1, a2) (SET1(a1) | SET1(a2))
+#define SET3(a1, a2, a3) (SET2(a1, a2) | SET1(a3))
+#define SET4(a1, a2, a3, a4) (SET3(a1, a2, a3) | SET1(a4))
+#define SET5(a1, a2, a3, a4, a5) (SET4(a1, a2, a3, a4) | SET1(a5))
+#define SET6(a1, a2, a3, a4, a5, a6) (SET5(a1, a2, a3, a4, a5) | SET1(a6))
+
+const MemCmd::CommandInfo
+MemCmd::commandInfo[] =
{
- switch (cmd) {
- case ReadReq: return ReadReqString;
- case WriteReq: return WriteReqString;
- case WriteReqNoAck: return WriteReqNoAckString;
- case ReadResp: return ReadRespString;
- case WriteResp: return WriteRespString;
- case SoftPFReq: return SoftPFReqString;
- case SoftPFResp: return SoftPFRespString;
- case HardPFReq: return HardPFReqString;
- case HardPFResp: return HardPFRespString;
- case InvalidateReq: return InvalidateReqString;
- case WriteInvalidateReq:return WriteInvalidateReqString;
- case WriteInvalidateResp:return WriteInvalidateRespString;
- case UpgradeReq: return UpgradeReqString;
- case ReadExReq: return ReadExReqString;
- case ReadExResp: return ReadExRespString;
- default: return OtherCmdString;
- }
-}
+ /* InvalidCmd */
+ { 0, InvalidCmd, "InvalidCmd" },
+ /* ReadReq */
+ { SET3(IsRead, IsRequest, NeedsResponse), ReadResp, "ReadReq" },
+ /* WriteReq */
+ { SET4(IsWrite, IsRequest, NeedsResponse, HasData),
+ WriteResp, "WriteReq" },
+ /* WriteReqNoAck */
+ { SET3(IsWrite, IsRequest, HasData), InvalidCmd, "WriteReqNoAck" },
+ /* ReadResp */
+ { SET3(IsRead, IsResponse, HasData), InvalidCmd, "ReadResp" },
+ /* WriteResp */
+ { SET2(IsWrite, IsResponse), InvalidCmd, "WriteResp" },
+ /* Writeback */
+ { SET3(IsWrite, IsRequest, HasData), InvalidCmd, "Writeback" },
+ /* SoftPFReq */
+ { SET4(IsRead, IsRequest, IsSWPrefetch, NeedsResponse),
+ SoftPFResp, "SoftPFReq" },
+ /* HardPFReq */
+ { SET4(IsRead, IsRequest, IsHWPrefetch, NeedsResponse),
+ HardPFResp, "HardPFReq" },
+ /* SoftPFResp */
+ { SET4(IsRead, IsResponse, IsSWPrefetch, HasData),
+ InvalidCmd, "SoftPFResp" },
+ /* HardPFResp */
+ { SET4(IsRead, IsResponse, IsHWPrefetch, HasData),
+ InvalidCmd, "HardPFResp" },
+ /* InvalidateReq */
+ { SET2(IsInvalidate, IsRequest), InvalidCmd, "InvalidateReq" },
+ /* WriteInvalidateReq */
+ { SET5(IsWrite, IsInvalidate, IsRequest, HasData, NeedsResponse),
+ WriteInvalidateResp, "WriteInvalidateReq" },
+ /* WriteInvalidateResp */
+ { SET5(IsWrite, IsInvalidate, IsRequest, NeedsResponse, IsResponse),
+ InvalidCmd, "WriteInvalidateResp" },
+ /* UpgradeReq */
+ { SET3(IsInvalidate, IsRequest, IsUpgrade), InvalidCmd, "UpgradeReq" },
+ /* ReadExReq */
+ { SET4(IsRead, IsInvalidate, IsRequest, NeedsResponse),
+ ReadExResp, "ReadExReq" },
+ /* ReadExResp */
+ { SET4(IsRead, IsInvalidate, IsResponse, HasData),
+ InvalidCmd, "ReadExResp" }
+};
-const std::string &
-Packet::cmdIdxToString(Packet::Command idx)
-{
- switch (idx) {
- case ReadReq: return ReadReqString;
- case WriteReq: return WriteReqString;
- case WriteReqNoAck: return WriteReqNoAckString;
- case ReadResp: return ReadRespString;
- case WriteResp: return WriteRespString;
- case SoftPFReq: return SoftPFReqString;
- case SoftPFResp: return SoftPFRespString;
- case HardPFReq: return HardPFReqString;
- case HardPFResp: return HardPFRespString;
- case InvalidateReq: return InvalidateReqString;
- case WriteInvalidateReq:return WriteInvalidateReqString;
- case WriteInvalidateResp:return WriteInvalidateRespString;
- case UpgradeReq: return UpgradeReqString;
- case ReadExReq: return ReadExReqString;
- case ReadExResp: return ReadExRespString;
- default: return OtherCmdString;
- }
-}
/** delete the data pointed to in the data pointer. Ok to call to matter how
* data was allocted. */
bool result;
if (timing->isRead() || timing->isWrite()) {
- timing->toggleData();
+ // Ugly hack to deal with the fact that we queue the requests
+ // and don't convert them to responses until we issue them on
+ // the bus. I tried to avoid this by converting packets to
+ // responses right away, but this breaks during snoops where a
+ // responder may do the conversion before other caches have
+ // done the snoop. Would work if we copied the packet instead
+ // of just hanging on to a pointer.
+ MemCmd oldCmd = timing->cmd;
+ timing->cmd = timing->cmd.responseCommand();
result = fixPacket(func, timing);
- timing->toggleData();
+ timing->cmd = oldCmd;
}
else {
//Don't toggle if it isn't a read/write response
#include <cassert>
#include <list>
+#include <bitset>
#include "base/misc.hh"
#include "mem/request.hh"
#define NO_ALLOCATE (1 << 5)
#define SNOOP_COMMIT (1 << 6)
-//for now. @todo fix later
-#define NUM_MEM_CMDS (1 << 11)
+
+class MemCmd
+{
+ public:
+
+ /** List of all commands associated with a packet. */
+ enum Command
+ {
+ InvalidCmd,
+ ReadReq,
+ WriteReq,
+ WriteReqNoAck,
+ ReadResp,
+ WriteResp,
+ Writeback,
+ SoftPFReq,
+ HardPFReq,
+ SoftPFResp,
+ HardPFResp,
+ InvalidateReq,
+ WriteInvalidateReq,
+ WriteInvalidateResp,
+ UpgradeReq,
+ ReadExReq,
+ ReadExResp,
+ NUM_MEM_CMDS
+ };
+
+ private:
+ /** List of command attributes. */
+ enum Attribute
+ {
+ IsRead,
+ IsWrite,
+ IsPrefetch,
+ IsInvalidate,
+ IsRequest,
+ IsResponse,
+ NeedsResponse,
+ IsSWPrefetch,
+ IsHWPrefetch,
+ IsUpgrade,
+ HasData,
+ NUM_COMMAND_ATTRIBUTES
+ };
+
+ /** Structure that defines attributes and other data associated
+ * with a Command. */
+ struct CommandInfo {
+ /** Set of attribute flags. */
+ const std::bitset<NUM_COMMAND_ATTRIBUTES> attributes;
+ /** Corresponding response for requests; InvalidCmd if no
+ * response is applicable. */
+ const Command response;
+ /** String representation (for printing) */
+ const std::string str;
+ };
+
+ /** Array to map Command enum to associated info. */
+ static const CommandInfo commandInfo[];
+
+ private:
+
+ Command cmd;
+
+ bool testCmdAttrib(MemCmd::Attribute attrib) const {
+ return commandInfo[cmd].attributes[attrib] != 0;
+ }
+
+ public:
+
+ bool isRead() const { return testCmdAttrib(IsRead); }
+ bool isWrite() const { return testCmdAttrib(IsWrite); }
+ bool isRequest() const { return testCmdAttrib(IsRequest); }
+ bool isResponse() const { return testCmdAttrib(IsResponse); }
+ bool needsResponse() const { return testCmdAttrib(NeedsResponse); }
+ bool isInvalidate() const { return testCmdAttrib(IsInvalidate); }
+ bool hasData() const { return testCmdAttrib(HasData); }
+
+ const Command responseCommand() const {
+ return commandInfo[cmd].response;
+ }
+
+ /** Return the string to a cmd given by idx. */
+ const std::string &toString() const {
+ return commandInfo[cmd].str;
+ }
+
+ int toInt() const { return (int)cmd; }
+
+ MemCmd(Command _cmd)
+ : cmd(_cmd)
+ { }
+
+ MemCmd(int _cmd)
+ : cmd((Command)_cmd)
+ { }
+
+ MemCmd()
+ : cmd(InvalidCmd)
+ { }
+
+ bool operator==(MemCmd c2) { return (cmd == c2.cmd); }
+ bool operator!=(MemCmd c2) { return (cmd != c2.cmd); }
+
+ friend class Packet;
+};
+
/**
* A Packet is used to encapsulate a transfer between two objects in
* the memory system (e.g., the L1 and L2 cache). (In contrast, a
class Packet
{
public:
+
+ typedef MemCmd::Command Command;
+
/** Temporary FLAGS field until cache gets working, this should be in coherence/sender state. */
uint64_t flags;
* to cast to the state appropriate to the sender. */
SenderState *senderState;
- private:
- /** List of command attributes. */
- // If you add a new CommandAttribute, make sure to increase NUM_MEM_CMDS
- // as well.
- enum CommandAttribute
- {
- IsRead = 1 << 0,
- IsWrite = 1 << 1,
- IsPrefetch = 1 << 2,
- IsInvalidate = 1 << 3,
- IsRequest = 1 << 4,
- IsResponse = 1 << 5,
- NeedsResponse = 1 << 6,
- IsSWPrefetch = 1 << 7,
- IsHWPrefetch = 1 << 8,
- IsUpgrade = 1 << 9,
- HasData = 1 << 10
- };
-
public:
- /** List of all commands associated with a packet. */
- enum Command
- {
- InvalidCmd = 0,
- ReadReq = IsRead | IsRequest | NeedsResponse,
- WriteReq = IsWrite | IsRequest | NeedsResponse | HasData,
- WriteReqNoAck = IsWrite | IsRequest | HasData,
- ReadResp = IsRead | IsResponse | NeedsResponse | HasData,
- WriteResp = IsWrite | IsResponse | NeedsResponse,
- Writeback = IsWrite | IsRequest | HasData,
- SoftPFReq = IsRead | IsRequest | IsSWPrefetch | NeedsResponse,
- HardPFReq = IsRead | IsRequest | IsHWPrefetch | NeedsResponse,
- SoftPFResp = IsRead | IsResponse | IsSWPrefetch
- | NeedsResponse | HasData,
- HardPFResp = IsRead | IsResponse | IsHWPrefetch
- | NeedsResponse | HasData,
- InvalidateReq = IsInvalidate | IsRequest,
- WriteInvalidateReq = IsWrite | IsInvalidate | IsRequest
- | HasData | NeedsResponse,
- WriteInvalidateResp = IsWrite | IsInvalidate | IsRequest
- | NeedsResponse | IsResponse,
- UpgradeReq = IsInvalidate | IsRequest | IsUpgrade,
- ReadExReq = IsRead | IsInvalidate | IsRequest | NeedsResponse,
- ReadExResp = IsRead | IsInvalidate | IsResponse
- | NeedsResponse | HasData
- };
+
+ /** The command field of the packet. */
+ MemCmd cmd;
/** Return the string name of the cmd field (for debugging and
* tracing). */
- const std::string &cmdString() const;
-
- /** Reutrn the string to a cmd given by idx. */
- const std::string &cmdIdxToString(Command idx);
+ const std::string &cmdString() const { return cmd.toString(); }
/** Return the index of this command. */
- inline int cmdToIndex() const { return (int) cmd; }
+ inline int cmdToIndex() const { return cmd.toInt(); }
- /** The command field of the packet. */
- Command cmd;
+ public:
- bool isRead() const { return (cmd & IsRead) != 0; }
- bool isWrite() const { return (cmd & IsWrite) != 0; }
- bool isRequest() const { return (cmd & IsRequest) != 0; }
- bool isResponse() const { return (cmd & IsResponse) != 0; }
- bool needsResponse() const { return (cmd & NeedsResponse) != 0; }
- bool isInvalidate() const { return (cmd & IsInvalidate) != 0; }
- bool hasData() const { return (cmd & HasData) != 0; }
+ bool isRead() const { return cmd.isRead(); }
+ bool isWrite() const { return cmd.isWrite(); }
+ bool isRequest() const { return cmd.isRequest(); }
+ bool isResponse() const { return cmd.isResponse(); }
+ bool needsResponse() const { return cmd.needsResponse(); }
+ bool isInvalidate() const { return cmd.isInvalidate(); }
+ bool hasData() const { return cmd.hasData(); }
bool isCacheFill() const { return (flags & CACHE_LINE_FILL) != 0; }
bool isNoAllocate() const { return (flags & NO_ALLOCATE) != 0; }
Addr getOffset(int blkSize) const { return addr & (Addr)(blkSize - 1); }
void addrOverride(Addr newAddr) { assert(addrSizeValid); addr = newAddr; }
- void cmdOverride(Command newCmd) { cmd = newCmd; }
+ void cmdOverride(MemCmd newCmd) { cmd = newCmd; }
/** Constructor. Note that a Request object must be constructed
* first, but the Requests's physical address and size fields
* need not be valid. The command and destination addresses
* must be supplied. */
- Packet(Request *_req, Command _cmd, short _dest)
+ Packet(Request *_req, MemCmd _cmd, short _dest)
: data(NULL), staticData(false), dynamicData(false), arrayData(false),
addr(_req->paddr), size(_req->size), dest(_dest),
addrSizeValid(_req->validPaddr),
/** Alternate constructor if you are trying to create a packet with
* a request that is for a whole block, not the address from the req.
* this allows for overriding the size/addr of the req.*/
- Packet(Request *_req, Command _cmd, short _dest, int _blkSize)
+ Packet(Request *_req, MemCmd _cmd, short _dest, int _blkSize)
: data(NULL), staticData(false), dynamicData(false), arrayData(false),
addr(_req->paddr & ~(_blkSize - 1)), size(_blkSize),
dest(_dest),
void makeTimingResponse() {
assert(needsResponse());
assert(isRequest());
- int icmd = (int)cmd;
- icmd &= ~(IsRequest);
- icmd |= IsResponse;
- if (isRead())
- icmd |= HasData;
- if (isWrite())
- icmd &= ~HasData;
- cmd = (Command)icmd;
+ cmd = cmd.responseCommand();
dest = src;
srcValid = false;
}
-
- void toggleData() {
- int icmd = (int)cmd;
- icmd ^= HasData;
- cmd = (Command)icmd;
- }
-
/**
* Take a request packet and modify it in place to be suitable for
* returning as a response to that request.
{
assert(needsResponse());
assert(isRequest());
- int icmd = (int)cmd;
- icmd &= ~(IsRequest);
- icmd |= IsResponse;
- if (isRead())
- icmd |= HasData;
- if (isWrite())
- icmd &= ~HasData;
- cmd = (Command)icmd;
+ cmd = cmd.responseCommand();
}
/**
}
void
-Port::blobHelper(Addr addr, uint8_t *p, int size, Packet::Command cmd)
+Port::blobHelper(Addr addr, uint8_t *p, int size, MemCmd cmd)
{
Request req;
Packet pkt(&req, cmd, Packet::Broadcast);
void
Port::writeBlob(Addr addr, uint8_t *p, int size)
{
- blobHelper(addr, p, size, Packet::WriteReq);
+ blobHelper(addr, p, size, MemCmd::WriteReq);
}
void
Port::readBlob(Addr addr, uint8_t *p, int size)
{
- blobHelper(addr, p, size, Packet::ReadReq);
+ blobHelper(addr, p, size, MemCmd::ReadReq);
}
void
uint8_t *buf = new uint8_t[size];
std::memset(buf, val, size);
- blobHelper(addr, buf, size, Packet::WriteReq);
+ blobHelper(addr, buf, size, MemCmd::WriteReq);
delete [] buf;
}
/** Internal helper function for read/writeBlob().
*/
- void blobHelper(Addr addr, uint8_t *p, int size, Packet::Command cmd);
+ void blobHelper(Addr addr, uint8_t *p, int size, MemCmd cmd);
};
/** A simple functional port that is only meant for one way communication to
sendTiming(pkt, latency);
}
else {
- if (pkt->cmd != Packet::UpgradeReq)
+ if (pkt->cmd != MemCmd::UpgradeReq)
{
delete pkt->req;
delete pkt;
projects / gem5.git / commitdiff