Request_PF
};
+class MSHR;
/**
* A basic cache interface. Implements some common functions for speed.
*/
virtual int deviceBlockSize();
+ virtual void recvRetry();
+
public:
void setBlocked();
bool blocked;
+ bool mustSendRetry;
+
bool isCpuSide;
+
+ bool waitingOnRetry;
+
+ std::list<Packet *> drainList;
+
+ Packet *cshrRetry;
};
struct CacheEvent : public Event
CachePort *cpuSidePort;
CachePort *memSidePort;
+ bool snoopRangesSent;
+
public:
virtual Port *getPort(const std::string &if_name, int idx = -1);
fatal("No implementation");
}
- virtual void recvStatusChange(Port::Status status, bool isCpuSide)
+ void recvStatusChange(Port::Status status, bool isCpuSide)
{
- fatal("No implementation");
+ if (status == Port::RangeChange){
+ if (!isCpuSide) {
+ cpuSidePort->sendStatusChange(Port::RangeChange);
+ if (!snoopRangesSent) {
+ snoopRangesSent = true;
+ memSidePort->sendStatusChange(Port::RangeChange);
+ }
+ }
+ else {
+ memSidePort->sendStatusChange(Port::RangeChange);
+ }
+ }
}
virtual Packet *getPacket()
fatal("No implementation");
}
- virtual void sendResult(Packet* &pkt, bool success)
+ virtual void sendResult(Packet* &pkt, MSHR* mshr, bool success)
{
fatal("No implementation");
protected:
- /** True if this cache is connected to the CPU. */
- bool topLevelCache;
-
/** Stores time the cache blocked for statistics. */
Tick blockedCycle;
*/
BaseCache(const std::string &name, Params ¶ms)
: MemObject(name), blocked(0), blockedSnoop(0), masterRequests(0),
- slaveRequests(0), topLevelCache(false), blkSize(params.blkSize),
+ slaveRequests(0), blkSize(params.blkSize),
missCount(params.maxMisses)
{
//Start ports at null if more than one is created we should panic
cpuSidePort = NULL;
memSidePort = NULL;
+ snoopRangesSent = false;
}
+ virtual void init();
+
/**
* Query block size of a cache.
* @return The block size
return blkSize;
}
- /**
- * Returns true if this cache is connect to the CPU.
- * @return True if this is a L1 cache.
- */
- bool isTopLevel()
- {
- return topLevelCache;
- }
-
/**
* Returns true if the cache is blocked for accesses.
*/
blocked_causes[cause]++;
blockedCycle = curTick;
}
- blocked |= flag;
- DPRINTF(Cache,"Blocking for cause %s\n", cause);
- cpuSidePort->setBlocked();
+ int old_state = blocked;
+ if (!(blocked & flag)) {
+ //Wasn't already blocked for this cause
+ blocked |= flag;
+ DPRINTF(Cache,"Blocking for cause %s\n", cause);
+ if (!old_state)
+ cpuSidePort->setBlocked();
+ }
}
/**
void setBlockedForSnoop(BlockedCause cause)
{
uint8_t flag = 1 << cause;
- blockedSnoop |= flag;
- memSidePort->setBlocked();
+ uint8_t old_state = blockedSnoop;
+ if (!(blockedSnoop & flag)) {
+ //Wasn't already blocked for this cause
+ blockedSnoop |= flag;
+ if (!old_state)
+ memSidePort->setBlocked();
+ }
}
/**
void clearBlocked(BlockedCause cause)
{
uint8_t flag = 1 << cause;
- blocked &= ~flag;
- blockedSnoop &= ~flag;
DPRINTF(Cache,"Unblocking for cause %s, causes left=%i\n",
cause, blocked);
- if (!isBlocked()) {
- blocked_cycles[cause] += curTick - blockedCycle;
- DPRINTF(Cache,"Unblocking from all causes\n");
- cpuSidePort->clearBlocked();
+ if (blocked & flag)
+ {
+ blocked &= ~flag;
+ if (!isBlocked()) {
+ blocked_cycles[cause] += curTick - blockedCycle;
+ DPRINTF(Cache,"Unblocking from all causes\n");
+ cpuSidePort->clearBlocked();
+ }
}
- if (!isBlockedForSnoop()) {
- memSidePort->clearBlocked();
+ if (blockedSnoop & flag)
+ {
+ blockedSnoop &= ~flag;
+ if (!isBlockedForSnoop()) {
+ memSidePort->clearBlocked();
+ }
}
}
*/
void setMasterRequest(RequestCause cause, Tick time)
{
- if (!doMasterRequest())
+ if (!doMasterRequest() && !memSidePort->waitingOnRetry)
{
BaseCache::CacheEvent * reqCpu = new BaseCache::CacheEvent(memSidePort);
reqCpu->schedule(time);
/**
* Send a response to the slave interface.
- * @param req The request being responded to.
+ * @param pkt The request being responded to.
* @param time The time the response is ready.
*/
void respond(Packet *pkt, Tick time)
{
- pkt->makeTimingResponse();
- pkt->result = Packet::Success;
- CacheEvent *reqCpu = new CacheEvent(cpuSidePort, pkt);
- reqCpu->schedule(time);
+ if (pkt->needsResponse()) {
+ CacheEvent *reqCpu = new CacheEvent(cpuSidePort, pkt);
+ reqCpu->schedule(time);
+ }
+ else {
+ if (pkt->cmd == Packet::Writeback) delete pkt->req;
+ delete pkt;
+ }
}
/**
* Send a reponse to the slave interface and calculate miss latency.
- * @param req The request to respond to.
+ * @param pkt The request to respond to.
* @param time The time the response is ready.
*/
void respondToMiss(Packet *pkt, Tick time)
{
if (!pkt->req->isUncacheable()) {
- missLatency[pkt->cmdToIndex()][pkt->req->getThreadNum()] += time - pkt->time;
+ missLatency[pkt->cmdToIndex()][0/*pkt->req->getThreadNum()*/] += time - pkt->time;
+ }
+ if (pkt->needsResponse()) {
+ CacheEvent *reqCpu = new CacheEvent(cpuSidePort, pkt);
+ reqCpu->schedule(time);
+ }
+ else {
+ if (pkt->cmd == Packet::Writeback) delete pkt->req;
+ delete pkt;
}
- pkt->makeTimingResponse();
- pkt->result = Packet::Success;
- CacheEvent *reqCpu = new CacheEvent(cpuSidePort, pkt);
- reqCpu->schedule(time);
}
/**
* Suppliess the data if cache to cache transfers are enabled.
- * @param req The bus transaction to fulfill.
+ * @param pkt The bus transaction to fulfill.
*/
- void respondToSnoop(Packet *pkt)
+ void respondToSnoop(Packet *pkt, Tick time)
{
- assert("Implement\n" && 0);
-// mi->respond(pkt,curTick + hitLatency);
+ assert (pkt->needsResponse());
+ CacheEvent *reqMem = new CacheEvent(memSidePort, pkt);
+ reqMem->schedule(time);
}
/**
*/
void rangeChange() {}
- void getAddressRanges(AddrRangeList &resp, AddrRangeList &snoop)
+ void getAddressRanges(AddrRangeList &resp, AddrRangeList &snoop, bool isCpuSide)
{
- panic("Unimplimented\n");
+ if (isCpuSide)
+ {
+ AddrRangeList dummy;
+ memSidePort->getPeerAddressRanges(resp, dummy);
+ }
+ else
+ {
+ //This is where snoops get updated
+ AddrRangeList dummy;
+ cpuSidePort->getPeerAddressRanges(dummy, snoop);
+ return;
+ }
}
};
projects / gem5.git / blobdiff