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author | Gabe Black <gblack@eecs.umich.edu> | 2007-08-26 20:27:11 -0700 |
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committer | Gabe Black <gblack@eecs.umich.edu> | 2007-08-26 20:27:11 -0700 |
commit | e7e2d5ce9072808d94d5fe399e6c4262d92b7923 (patch) | |
tree | 53a28ee1349088de6fa589e0f0a4119fb619ba82 | |
parent | e056e49c4562108eeb7abbbeb1ee8acb096fe363 (diff) | |
download | gem5-e7e2d5ce9072808d94d5fe399e6c4262d92b7923.tar.xz |
Simple CPU: Added code that will split requests that cross block boundaries into multiple memory access.
--HG--
extra : convert_revision : 600f79f32ef30a6e1db951503bcfe8cd332858d1
-rw-r--r-- | src/cpu/simple/atomic.cc | 223 |
1 files changed, 149 insertions, 74 deletions
diff --git a/src/cpu/simple/atomic.cc b/src/cpu/simple/atomic.cc index 86deb84e6..8a05d800e 100644 --- a/src/cpu/simple/atomic.cc +++ b/src/cpu/simple/atomic.cc @@ -285,46 +285,81 @@ AtomicSimpleCPU::read(Addr addr, T &data, unsigned flags) { // use the CPU's statically allocated read request and packet objects Request *req = &data_read_req; - req->setVirt(0, addr, sizeof(T), flags, thread->readPC()); if (traceData) { traceData->setAddr(addr); } - // translate to physical address - Fault fault = thread->translateDataReadReq(req); - - // Now do the access. - if (fault == NoFault) { - Packet pkt = - Packet(req, - req->isLocked() ? MemCmd::LoadLockedReq : MemCmd::ReadReq, - Packet::Broadcast); - pkt.dataStatic(&data); - - if (req->isMmapedIpr()) - dcache_latency = TheISA::handleIprRead(thread->getTC(), &pkt); - else { - if (hasPhysMemPort && pkt.getAddr() == physMemAddr) - dcache_latency = physmemPort.sendAtomic(&pkt); - else - dcache_latency = dcachePort.sendAtomic(&pkt); - } - dcache_access = true; - assert(!pkt.isError()); + //The block size of our peer. + int blockSize = dcachePort.peerBlockSize(); + //The size of the data we're trying to read. + int dataSize = sizeof(T); + + uint8_t * dataPtr = (uint8_t *)&data; + + //The address of the second part of this access if it needs to be split + //across a cache line boundary. + Addr secondAddr = roundDown(addr + dataSize - 1, blockSize); + + if(secondAddr > addr) + dataSize = secondAddr - addr; + + dcache_latency = 0; - data = gtoh(data); + while(1) { + req->setVirt(0, addr, dataSize, flags, thread->readPC()); - if (req->isLocked()) { - TheISA::handleLockedRead(thread, req); + // translate to physical address + Fault fault = thread->translateDataReadReq(req); + + // Now do the access. + if (fault == NoFault) { + Packet pkt = Packet(req, + req->isLocked() ? MemCmd::LoadLockedReq : MemCmd::ReadReq, + Packet::Broadcast); + pkt.dataStatic(dataPtr); + + if (req->isMmapedIpr()) + dcache_latency += TheISA::handleIprRead(thread->getTC(), &pkt); + else { + if (hasPhysMemPort && pkt.getAddr() == physMemAddr) + dcache_latency += physmemPort.sendAtomic(&pkt); + else + dcache_latency += dcachePort.sendAtomic(&pkt); + } + dcache_access = true; + assert(!pkt.isError()); + + if (req->isLocked()) { + TheISA::handleLockedRead(thread, req); + } + } + + // This will need a new way to tell if it has a dcache attached. + if (req->isUncacheable()) + recordEvent("Uncached Read"); + + //If there's a fault, return it + if (fault != NoFault) + return fault; + //If we don't need to access a second cache line, stop now. + if (secondAddr <= addr) + { + data = gtoh(data); + return fault; } - } - // This will need a new way to tell if it has a dcache attached. - if (req->isUncacheable()) - recordEvent("Uncached Read"); + /* + * Set up for accessing the second cache line. + */ - return fault; + //Move the pointer we're reading into to the correct location. + dataPtr += dataSize; + //Adjust the size to get the remaining bytes. + dataSize = addr + sizeof(T) - secondAddr; + //And access the right address. + addr = secondAddr; + } } #ifndef DOXYGEN_SHOULD_SKIP_THIS @@ -384,65 +419,105 @@ AtomicSimpleCPU::write(T data, Addr addr, unsigned flags, uint64_t *res) { // use the CPU's statically allocated write request and packet objects Request *req = &data_write_req; - req->setVirt(0, addr, sizeof(T), flags, thread->readPC()); if (traceData) { traceData->setAddr(addr); } - // translate to physical address - Fault fault = thread->translateDataWriteReq(req); - - // Now do the access. - if (fault == NoFault) { - MemCmd cmd = MemCmd::WriteReq; // default - bool do_access = true; // flag to suppress cache access - - if (req->isLocked()) { - cmd = MemCmd::StoreCondReq; - do_access = TheISA::handleLockedWrite(thread, req); - } else if (req->isSwap()) { - cmd = MemCmd::SwapReq; - if (req->isCondSwap()) { - assert(res); - req->setExtraData(*res); - } - } + //The block size of our peer. + int blockSize = dcachePort.peerBlockSize(); + //The size of the data we're trying to read. + int dataSize = sizeof(T); - if (do_access) { - Packet pkt = Packet(req, cmd, Packet::Broadcast); - pkt.dataStatic(&data); + uint8_t * dataPtr = (uint8_t *)&data; - if (req->isMmapedIpr()) { - dcache_latency = TheISA::handleIprWrite(thread->getTC(), &pkt); - } else { - data = htog(data); - if (hasPhysMemPort && pkt.getAddr() == physMemAddr) - dcache_latency = physmemPort.sendAtomic(&pkt); - else - dcache_latency = dcachePort.sendAtomic(&pkt); + //The address of the second part of this access if it needs to be split + //across a cache line boundary. + Addr secondAddr = roundDown(addr + dataSize - 1, blockSize); + + if(secondAddr > addr) + dataSize = secondAddr - addr; + + dcache_latency = 0; + + while(1) { + req->setVirt(0, addr, dataSize, flags, thread->readPC()); + + // translate to physical address + Fault fault = thread->translateDataWriteReq(req); + + // Now do the access. + if (fault == NoFault) { + MemCmd cmd = MemCmd::WriteReq; // default + bool do_access = true; // flag to suppress cache access + + if (req->isLocked()) { + cmd = MemCmd::StoreCondReq; + do_access = TheISA::handleLockedWrite(thread, req); + } else if (req->isSwap()) { + cmd = MemCmd::SwapReq; + if (req->isCondSwap()) { + assert(res); + req->setExtraData(*res); + } } - dcache_access = true; - assert(!pkt.isError()); - if (req->isSwap()) { - assert(res); - *res = pkt.get<T>(); + if (do_access) { + Packet pkt = Packet(req, cmd, Packet::Broadcast); + pkt.dataStatic(dataPtr); + + if (req->isMmapedIpr()) { + dcache_latency += + TheISA::handleIprWrite(thread->getTC(), &pkt); + } else { + //XXX This needs to be outside of the loop in order to + //work properly for cache line boundary crossing + //accesses in transendian simulations. + data = htog(data); + if (hasPhysMemPort && pkt.getAddr() == physMemAddr) + dcache_latency += physmemPort.sendAtomic(&pkt); + else + dcache_latency += dcachePort.sendAtomic(&pkt); + } + dcache_access = true; + assert(!pkt.isError()); + + if (req->isSwap()) { + assert(res); + *res = pkt.get<T>(); + } + } + + if (res && !req->isSwap()) { + *res = req->getExtraData(); } } - if (res && !req->isSwap()) { - *res = req->getExtraData(); + // This will need a new way to tell if it's hooked up to a cache or not. + if (req->isUncacheable()) + recordEvent("Uncached Write"); + + //If there's a fault or we don't need to access a second cache line, + //stop now. + if (fault != NoFault || secondAddr <= addr) + { + // If the write needs to have a fault on the access, consider + // calling changeStatus() and changing it to "bad addr write" + // or something. + return fault; } - } - // This will need a new way to tell if it's hooked up to a cache or not. - if (req->isUncacheable()) - recordEvent("Uncached Write"); + /* + * Set up for accessing the second cache line. + */ - // If the write needs to have a fault on the access, consider calling - // changeStatus() and changing it to "bad addr write" or something. - return fault; + //Move the pointer we're reading into to the correct location. + dataPtr += dataSize; + //Adjust the size to get the remaining bytes. + dataSize = addr + sizeof(T) - secondAddr; + //And access the right address. + addr = secondAddr; + } } |