base.cc revision 12725
12810SN/A/* 212724Snikos.nikoleris@arm.com * Copyright (c) 2012-2013, 2018 ARM Limited 38856Sandreas.hansson@arm.com * All rights reserved. 48856Sandreas.hansson@arm.com * 58856Sandreas.hansson@arm.com * The license below extends only to copyright in the software and shall 68856Sandreas.hansson@arm.com * not be construed as granting a license to any other intellectual 78856Sandreas.hansson@arm.com * property including but not limited to intellectual property relating 88856Sandreas.hansson@arm.com * to a hardware implementation of the functionality of the software 98856Sandreas.hansson@arm.com * licensed hereunder. You may use the software subject to the license 108856Sandreas.hansson@arm.com * terms below provided that you ensure that this notice is replicated 118856Sandreas.hansson@arm.com * unmodified and in its entirety in all distributions of the software, 128856Sandreas.hansson@arm.com * modified or unmodified, in source code or in binary form. 138856Sandreas.hansson@arm.com * 142810SN/A * Copyright (c) 2003-2005 The Regents of The University of Michigan 152810SN/A * All rights reserved. 162810SN/A * 172810SN/A * Redistribution and use in source and binary forms, with or without 182810SN/A * modification, are permitted provided that the following conditions are 192810SN/A * met: redistributions of source code must retain the above copyright 202810SN/A * notice, this list of conditions and the following disclaimer; 212810SN/A * redistributions in binary form must reproduce the above copyright 222810SN/A * notice, this list of conditions and the following disclaimer in the 232810SN/A * documentation and/or other materials provided with the distribution; 242810SN/A * neither the name of the copyright holders nor the names of its 252810SN/A * contributors may be used to endorse or promote products derived from 262810SN/A * this software without specific prior written permission. 272810SN/A * 282810SN/A * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 292810SN/A * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 302810SN/A * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 312810SN/A * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 322810SN/A * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 332810SN/A * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 342810SN/A * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 352810SN/A * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 362810SN/A * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 372810SN/A * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 382810SN/A * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 392810SN/A * 402810SN/A * Authors: Erik Hallnor 4112724Snikos.nikoleris@arm.com * Nikos Nikoleris 422810SN/A */ 432810SN/A 442810SN/A/** 452810SN/A * @file 462810SN/A * Definition of BaseCache functions. 472810SN/A */ 482810SN/A 4911486Snikos.nikoleris@arm.com#include "mem/cache/base.hh" 5011486Snikos.nikoleris@arm.com 5112724Snikos.nikoleris@arm.com#include "base/compiler.hh" 5212724Snikos.nikoleris@arm.com#include "base/logging.hh" 538232Snate@binkert.org#include "debug/Cache.hh" 5412724Snikos.nikoleris@arm.com#include "debug/CachePort.hh" 5512724Snikos.nikoleris@arm.com#include "debug/CacheVerbose.hh" 5611486Snikos.nikoleris@arm.com#include "mem/cache/mshr.hh" 5712724Snikos.nikoleris@arm.com#include "mem/cache/prefetch/base.hh" 5812724Snikos.nikoleris@arm.com#include "mem/cache/queue_entry.hh" 5912724Snikos.nikoleris@arm.com#include "params/BaseCache.hh" 6012724Snikos.nikoleris@arm.com#include "sim/core.hh" 6112724Snikos.nikoleris@arm.com 6212724Snikos.nikoleris@arm.comclass BaseMasterPort; 6312724Snikos.nikoleris@arm.comclass BaseSlavePort; 642810SN/A 652810SN/Ausing namespace std; 662810SN/A 678856Sandreas.hansson@arm.comBaseCache::CacheSlavePort::CacheSlavePort(const std::string &_name, 688856Sandreas.hansson@arm.com BaseCache *_cache, 698856Sandreas.hansson@arm.com const std::string &_label) 708922Swilliam.wang@arm.com : QueuedSlavePort(_name, _cache, queue), queue(*_cache, *this, _label), 7112084Sspwilson2@wisc.edu blocked(false), mustSendRetry(false), 7212084Sspwilson2@wisc.edu sendRetryEvent([this]{ processSendRetry(); }, _name) 738856Sandreas.hansson@arm.com{ 748856Sandreas.hansson@arm.com} 754475SN/A 7611053Sandreas.hansson@arm.comBaseCache::BaseCache(const BaseCacheParams *p, unsigned blk_size) 775034SN/A : MemObject(p), 7812724Snikos.nikoleris@arm.com cpuSidePort (p->name + ".cpu_side", this, "CpuSidePort"), 7912724Snikos.nikoleris@arm.com memSidePort(p->name + ".mem_side", this, "MemSidePort"), 8011377Sandreas.hansson@arm.com mshrQueue("MSHRs", p->mshrs, 0, p->demand_mshr_reserve), // see below 8111377Sandreas.hansson@arm.com writeBuffer("write buffer", p->write_buffers, p->mshrs), // see below 8212724Snikos.nikoleris@arm.com tags(p->tags), 8312724Snikos.nikoleris@arm.com prefetcher(p->prefetcher), 8412724Snikos.nikoleris@arm.com prefetchOnAccess(p->prefetch_on_access), 8512724Snikos.nikoleris@arm.com writebackClean(p->writeback_clean), 8612724Snikos.nikoleris@arm.com tempBlockWriteback(nullptr), 8712724Snikos.nikoleris@arm.com writebackTempBlockAtomicEvent([this]{ writebackTempBlockAtomic(); }, 8812724Snikos.nikoleris@arm.com name(), false, 8912724Snikos.nikoleris@arm.com EventBase::Delayed_Writeback_Pri), 9011053Sandreas.hansson@arm.com blkSize(blk_size), 9111722Ssophiane.senni@gmail.com lookupLatency(p->tag_latency), 9211722Ssophiane.senni@gmail.com dataLatency(p->data_latency), 9311722Ssophiane.senni@gmail.com forwardLatency(p->tag_latency), 9411722Ssophiane.senni@gmail.com fillLatency(p->data_latency), 959263Smrinmoy.ghosh@arm.com responseLatency(p->response_latency), 965034SN/A numTarget(p->tgts_per_mshr), 9711331Sandreas.hansson@arm.com forwardSnoops(true), 9812724Snikos.nikoleris@arm.com clusivity(p->clusivity), 9910884Sandreas.hansson@arm.com isReadOnly(p->is_read_only), 1004626SN/A blocked(0), 10110360Sandreas.hansson@arm.com order(0), 10211484Snikos.nikoleris@arm.com noTargetMSHR(nullptr), 1035034SN/A missCount(p->max_miss_count), 1048883SAli.Saidi@ARM.com addrRanges(p->addr_ranges.begin(), p->addr_ranges.end()), 1058833Sdam.sunwoo@arm.com system(p->system) 1064458SN/A{ 10711377Sandreas.hansson@arm.com // the MSHR queue has no reserve entries as we check the MSHR 10811377Sandreas.hansson@arm.com // queue on every single allocation, whereas the write queue has 10911377Sandreas.hansson@arm.com // as many reserve entries as we have MSHRs, since every MSHR may 11011377Sandreas.hansson@arm.com // eventually require a writeback, and we do not check the write 11111377Sandreas.hansson@arm.com // buffer before committing to an MSHR 11211377Sandreas.hansson@arm.com 11311331Sandreas.hansson@arm.com // forward snoops is overridden in init() once we can query 11411331Sandreas.hansson@arm.com // whether the connected master is actually snooping or not 11512724Snikos.nikoleris@arm.com 11612724Snikos.nikoleris@arm.com tempBlock = new CacheBlk(); 11712724Snikos.nikoleris@arm.com tempBlock->data = new uint8_t[blkSize]; 11812724Snikos.nikoleris@arm.com 11912724Snikos.nikoleris@arm.com tags->setCache(this); 12012724Snikos.nikoleris@arm.com if (prefetcher) 12112724Snikos.nikoleris@arm.com prefetcher->setCache(this); 12212724Snikos.nikoleris@arm.com} 12312724Snikos.nikoleris@arm.com 12412724Snikos.nikoleris@arm.comBaseCache::~BaseCache() 12512724Snikos.nikoleris@arm.com{ 12612724Snikos.nikoleris@arm.com delete [] tempBlock->data; 12712724Snikos.nikoleris@arm.com delete tempBlock; 1282810SN/A} 1292810SN/A 1303013SN/Avoid 1318856Sandreas.hansson@arm.comBaseCache::CacheSlavePort::setBlocked() 1322810SN/A{ 1333013SN/A assert(!blocked); 13410714Sandreas.hansson@arm.com DPRINTF(CachePort, "Port is blocking new requests\n"); 1352810SN/A blocked = true; 1369614Srene.dejong@arm.com // if we already scheduled a retry in this cycle, but it has not yet 1379614Srene.dejong@arm.com // happened, cancel it 1389614Srene.dejong@arm.com if (sendRetryEvent.scheduled()) { 13910345SCurtis.Dunham@arm.com owner.deschedule(sendRetryEvent); 14010714Sandreas.hansson@arm.com DPRINTF(CachePort, "Port descheduled retry\n"); 14110345SCurtis.Dunham@arm.com mustSendRetry = true; 1429614Srene.dejong@arm.com } 1432810SN/A} 1442810SN/A 1452810SN/Avoid 1468856Sandreas.hansson@arm.comBaseCache::CacheSlavePort::clearBlocked() 1472810SN/A{ 1483013SN/A assert(blocked); 14910714Sandreas.hansson@arm.com DPRINTF(CachePort, "Port is accepting new requests\n"); 1503013SN/A blocked = false; 1518856Sandreas.hansson@arm.com if (mustSendRetry) { 15210714Sandreas.hansson@arm.com // @TODO: need to find a better time (next cycle?) 1538922Swilliam.wang@arm.com owner.schedule(sendRetryEvent, curTick() + 1); 1542897SN/A } 1552810SN/A} 1562810SN/A 15710344Sandreas.hansson@arm.comvoid 15810344Sandreas.hansson@arm.comBaseCache::CacheSlavePort::processSendRetry() 15910344Sandreas.hansson@arm.com{ 16010714Sandreas.hansson@arm.com DPRINTF(CachePort, "Port is sending retry\n"); 16110344Sandreas.hansson@arm.com 16210344Sandreas.hansson@arm.com // reset the flag and call retry 16310344Sandreas.hansson@arm.com mustSendRetry = false; 16410713Sandreas.hansson@arm.com sendRetryReq(); 16510344Sandreas.hansson@arm.com} 1662844SN/A 1672810SN/Avoid 1682858SN/ABaseCache::init() 1692858SN/A{ 17012724Snikos.nikoleris@arm.com if (!cpuSidePort.isConnected() || !memSidePort.isConnected()) 1718922Swilliam.wang@arm.com fatal("Cache ports on %s are not connected\n", name()); 17212724Snikos.nikoleris@arm.com cpuSidePort.sendRangeChange(); 17312724Snikos.nikoleris@arm.com forwardSnoops = cpuSidePort.isSnooping(); 1742858SN/A} 1752858SN/A 1769294Sandreas.hansson@arm.comBaseMasterPort & 1779294Sandreas.hansson@arm.comBaseCache::getMasterPort(const std::string &if_name, PortID idx) 1788922Swilliam.wang@arm.com{ 1798922Swilliam.wang@arm.com if (if_name == "mem_side") { 18012724Snikos.nikoleris@arm.com return memSidePort; 1818922Swilliam.wang@arm.com } else { 1828922Swilliam.wang@arm.com return MemObject::getMasterPort(if_name, idx); 1838922Swilliam.wang@arm.com } 1848922Swilliam.wang@arm.com} 1858922Swilliam.wang@arm.com 1869294Sandreas.hansson@arm.comBaseSlavePort & 1879294Sandreas.hansson@arm.comBaseCache::getSlavePort(const std::string &if_name, PortID idx) 1888922Swilliam.wang@arm.com{ 1898922Swilliam.wang@arm.com if (if_name == "cpu_side") { 19012724Snikos.nikoleris@arm.com return cpuSidePort; 1918922Swilliam.wang@arm.com } else { 1928922Swilliam.wang@arm.com return MemObject::getSlavePort(if_name, idx); 1938922Swilliam.wang@arm.com } 1948922Swilliam.wang@arm.com} 1954628SN/A 19610821Sandreas.hansson@arm.combool 19710821Sandreas.hansson@arm.comBaseCache::inRange(Addr addr) const 19810821Sandreas.hansson@arm.com{ 19910821Sandreas.hansson@arm.com for (const auto& r : addrRanges) { 20010821Sandreas.hansson@arm.com if (r.contains(addr)) { 20110821Sandreas.hansson@arm.com return true; 20210821Sandreas.hansson@arm.com } 20310821Sandreas.hansson@arm.com } 20410821Sandreas.hansson@arm.com return false; 20510821Sandreas.hansson@arm.com} 20610821Sandreas.hansson@arm.com 2072858SN/Avoid 20812724Snikos.nikoleris@arm.comBaseCache::handleTimingReqHit(PacketPtr pkt, CacheBlk *blk, Tick request_time) 20912724Snikos.nikoleris@arm.com{ 21012724Snikos.nikoleris@arm.com if (pkt->needsResponse()) { 21112724Snikos.nikoleris@arm.com pkt->makeTimingResponse(); 21212724Snikos.nikoleris@arm.com // @todo: Make someone pay for this 21312724Snikos.nikoleris@arm.com pkt->headerDelay = pkt->payloadDelay = 0; 21412724Snikos.nikoleris@arm.com 21512724Snikos.nikoleris@arm.com // In this case we are considering request_time that takes 21612724Snikos.nikoleris@arm.com // into account the delay of the xbar, if any, and just 21712724Snikos.nikoleris@arm.com // lat, neglecting responseLatency, modelling hit latency 21812724Snikos.nikoleris@arm.com // just as lookupLatency or or the value of lat overriden 21912724Snikos.nikoleris@arm.com // by access(), that calls accessBlock() function. 22012724Snikos.nikoleris@arm.com cpuSidePort.schedTimingResp(pkt, request_time, true); 22112724Snikos.nikoleris@arm.com } else { 22212724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s satisfied %s, no response needed\n", __func__, 22312724Snikos.nikoleris@arm.com pkt->print()); 22412724Snikos.nikoleris@arm.com 22512724Snikos.nikoleris@arm.com // queue the packet for deletion, as the sending cache is 22612724Snikos.nikoleris@arm.com // still relying on it; if the block is found in access(), 22712724Snikos.nikoleris@arm.com // CleanEvict and Writeback messages will be deleted 22812724Snikos.nikoleris@arm.com // here as well 22912724Snikos.nikoleris@arm.com pendingDelete.reset(pkt); 23012724Snikos.nikoleris@arm.com } 23112724Snikos.nikoleris@arm.com} 23212724Snikos.nikoleris@arm.com 23312724Snikos.nikoleris@arm.comvoid 23412724Snikos.nikoleris@arm.comBaseCache::handleTimingReqMiss(PacketPtr pkt, MSHR *mshr, CacheBlk *blk, 23512724Snikos.nikoleris@arm.com Tick forward_time, Tick request_time) 23612724Snikos.nikoleris@arm.com{ 23712724Snikos.nikoleris@arm.com if (mshr) { 23812724Snikos.nikoleris@arm.com /// MSHR hit 23912724Snikos.nikoleris@arm.com /// @note writebacks will be checked in getNextMSHR() 24012724Snikos.nikoleris@arm.com /// for any conflicting requests to the same block 24112724Snikos.nikoleris@arm.com 24212724Snikos.nikoleris@arm.com //@todo remove hw_pf here 24312724Snikos.nikoleris@arm.com 24412724Snikos.nikoleris@arm.com // Coalesce unless it was a software prefetch (see above). 24512724Snikos.nikoleris@arm.com if (pkt) { 24612724Snikos.nikoleris@arm.com assert(!pkt->isWriteback()); 24712724Snikos.nikoleris@arm.com // CleanEvicts corresponding to blocks which have 24812724Snikos.nikoleris@arm.com // outstanding requests in MSHRs are simply sunk here 24912724Snikos.nikoleris@arm.com if (pkt->cmd == MemCmd::CleanEvict) { 25012724Snikos.nikoleris@arm.com pendingDelete.reset(pkt); 25112724Snikos.nikoleris@arm.com } else if (pkt->cmd == MemCmd::WriteClean) { 25212724Snikos.nikoleris@arm.com // A WriteClean should never coalesce with any 25312724Snikos.nikoleris@arm.com // outstanding cache maintenance requests. 25412724Snikos.nikoleris@arm.com 25512724Snikos.nikoleris@arm.com // We use forward_time here because there is an 25612724Snikos.nikoleris@arm.com // uncached memory write, forwarded to WriteBuffer. 25712724Snikos.nikoleris@arm.com allocateWriteBuffer(pkt, forward_time); 25812724Snikos.nikoleris@arm.com } else { 25912724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s coalescing MSHR for %s\n", __func__, 26012724Snikos.nikoleris@arm.com pkt->print()); 26112724Snikos.nikoleris@arm.com 26212724Snikos.nikoleris@arm.com assert(pkt->req->masterId() < system->maxMasters()); 26312724Snikos.nikoleris@arm.com mshr_hits[pkt->cmdToIndex()][pkt->req->masterId()]++; 26412724Snikos.nikoleris@arm.com 26512724Snikos.nikoleris@arm.com // We use forward_time here because it is the same 26612724Snikos.nikoleris@arm.com // considering new targets. We have multiple 26712724Snikos.nikoleris@arm.com // requests for the same address here. It 26812724Snikos.nikoleris@arm.com // specifies the latency to allocate an internal 26912724Snikos.nikoleris@arm.com // buffer and to schedule an event to the queued 27012724Snikos.nikoleris@arm.com // port and also takes into account the additional 27112724Snikos.nikoleris@arm.com // delay of the xbar. 27212724Snikos.nikoleris@arm.com mshr->allocateTarget(pkt, forward_time, order++, 27312724Snikos.nikoleris@arm.com allocOnFill(pkt->cmd)); 27412724Snikos.nikoleris@arm.com if (mshr->getNumTargets() == numTarget) { 27512724Snikos.nikoleris@arm.com noTargetMSHR = mshr; 27612724Snikos.nikoleris@arm.com setBlocked(Blocked_NoTargets); 27712724Snikos.nikoleris@arm.com // need to be careful with this... if this mshr isn't 27812724Snikos.nikoleris@arm.com // ready yet (i.e. time > curTick()), we don't want to 27912724Snikos.nikoleris@arm.com // move it ahead of mshrs that are ready 28012724Snikos.nikoleris@arm.com // mshrQueue.moveToFront(mshr); 28112724Snikos.nikoleris@arm.com } 28212724Snikos.nikoleris@arm.com } 28312724Snikos.nikoleris@arm.com } 28412724Snikos.nikoleris@arm.com } else { 28512724Snikos.nikoleris@arm.com // no MSHR 28612724Snikos.nikoleris@arm.com assert(pkt->req->masterId() < system->maxMasters()); 28712724Snikos.nikoleris@arm.com mshr_misses[pkt->cmdToIndex()][pkt->req->masterId()]++; 28812724Snikos.nikoleris@arm.com 28912724Snikos.nikoleris@arm.com if (pkt->isEviction() || pkt->cmd == MemCmd::WriteClean) { 29012724Snikos.nikoleris@arm.com // We use forward_time here because there is an 29112724Snikos.nikoleris@arm.com // writeback or writeclean, forwarded to WriteBuffer. 29212724Snikos.nikoleris@arm.com allocateWriteBuffer(pkt, forward_time); 29312724Snikos.nikoleris@arm.com } else { 29412724Snikos.nikoleris@arm.com if (blk && blk->isValid()) { 29512724Snikos.nikoleris@arm.com // If we have a write miss to a valid block, we 29612724Snikos.nikoleris@arm.com // need to mark the block non-readable. Otherwise 29712724Snikos.nikoleris@arm.com // if we allow reads while there's an outstanding 29812724Snikos.nikoleris@arm.com // write miss, the read could return stale data 29912724Snikos.nikoleris@arm.com // out of the cache block... a more aggressive 30012724Snikos.nikoleris@arm.com // system could detect the overlap (if any) and 30112724Snikos.nikoleris@arm.com // forward data out of the MSHRs, but we don't do 30212724Snikos.nikoleris@arm.com // that yet. Note that we do need to leave the 30312724Snikos.nikoleris@arm.com // block valid so that it stays in the cache, in 30412724Snikos.nikoleris@arm.com // case we get an upgrade response (and hence no 30512724Snikos.nikoleris@arm.com // new data) when the write miss completes. 30612724Snikos.nikoleris@arm.com // As long as CPUs do proper store/load forwarding 30712724Snikos.nikoleris@arm.com // internally, and have a sufficiently weak memory 30812724Snikos.nikoleris@arm.com // model, this is probably unnecessary, but at some 30912724Snikos.nikoleris@arm.com // point it must have seemed like we needed it... 31012724Snikos.nikoleris@arm.com assert((pkt->needsWritable() && !blk->isWritable()) || 31112724Snikos.nikoleris@arm.com pkt->req->isCacheMaintenance()); 31212724Snikos.nikoleris@arm.com blk->status &= ~BlkReadable; 31312724Snikos.nikoleris@arm.com } 31412724Snikos.nikoleris@arm.com // Here we are using forward_time, modelling the latency of 31512724Snikos.nikoleris@arm.com // a miss (outbound) just as forwardLatency, neglecting the 31612724Snikos.nikoleris@arm.com // lookupLatency component. 31712724Snikos.nikoleris@arm.com allocateMissBuffer(pkt, forward_time); 31812724Snikos.nikoleris@arm.com } 31912724Snikos.nikoleris@arm.com } 32012724Snikos.nikoleris@arm.com} 32112724Snikos.nikoleris@arm.com 32212724Snikos.nikoleris@arm.comvoid 32312724Snikos.nikoleris@arm.comBaseCache::recvTimingReq(PacketPtr pkt) 32412724Snikos.nikoleris@arm.com{ 32512724Snikos.nikoleris@arm.com // anything that is merely forwarded pays for the forward latency and 32612724Snikos.nikoleris@arm.com // the delay provided by the crossbar 32712724Snikos.nikoleris@arm.com Tick forward_time = clockEdge(forwardLatency) + pkt->headerDelay; 32812724Snikos.nikoleris@arm.com 32912724Snikos.nikoleris@arm.com // We use lookupLatency here because it is used to specify the latency 33012724Snikos.nikoleris@arm.com // to access. 33112724Snikos.nikoleris@arm.com Cycles lat = lookupLatency; 33212724Snikos.nikoleris@arm.com CacheBlk *blk = nullptr; 33312724Snikos.nikoleris@arm.com bool satisfied = false; 33412724Snikos.nikoleris@arm.com { 33512724Snikos.nikoleris@arm.com PacketList writebacks; 33612724Snikos.nikoleris@arm.com // Note that lat is passed by reference here. The function 33712724Snikos.nikoleris@arm.com // access() calls accessBlock() which can modify lat value. 33812724Snikos.nikoleris@arm.com satisfied = access(pkt, blk, lat, writebacks); 33912724Snikos.nikoleris@arm.com 34012724Snikos.nikoleris@arm.com // copy writebacks to write buffer here to ensure they logically 34112724Snikos.nikoleris@arm.com // proceed anything happening below 34212724Snikos.nikoleris@arm.com doWritebacks(writebacks, forward_time); 34312724Snikos.nikoleris@arm.com } 34412724Snikos.nikoleris@arm.com 34512724Snikos.nikoleris@arm.com // Here we charge the headerDelay that takes into account the latencies 34612724Snikos.nikoleris@arm.com // of the bus, if the packet comes from it. 34712724Snikos.nikoleris@arm.com // The latency charged it is just lat that is the value of lookupLatency 34812724Snikos.nikoleris@arm.com // modified by access() function, or if not just lookupLatency. 34912724Snikos.nikoleris@arm.com // In case of a hit we are neglecting response latency. 35012724Snikos.nikoleris@arm.com // In case of a miss we are neglecting forward latency. 35112724Snikos.nikoleris@arm.com Tick request_time = clockEdge(lat) + pkt->headerDelay; 35212724Snikos.nikoleris@arm.com // Here we reset the timing of the packet. 35312724Snikos.nikoleris@arm.com pkt->headerDelay = pkt->payloadDelay = 0; 35412724Snikos.nikoleris@arm.com // track time of availability of next prefetch, if any 35512724Snikos.nikoleris@arm.com Tick next_pf_time = MaxTick; 35612724Snikos.nikoleris@arm.com 35712724Snikos.nikoleris@arm.com if (satisfied) { 35812724Snikos.nikoleris@arm.com // if need to notify the prefetcher we have to do it before 35912724Snikos.nikoleris@arm.com // anything else as later handleTimingReqHit might turn the 36012724Snikos.nikoleris@arm.com // packet in a response 36112724Snikos.nikoleris@arm.com if (prefetcher && 36212724Snikos.nikoleris@arm.com (prefetchOnAccess || (blk && blk->wasPrefetched()))) { 36312724Snikos.nikoleris@arm.com if (blk) 36412724Snikos.nikoleris@arm.com blk->status &= ~BlkHWPrefetched; 36512724Snikos.nikoleris@arm.com 36612724Snikos.nikoleris@arm.com // Don't notify on SWPrefetch 36712724Snikos.nikoleris@arm.com if (!pkt->cmd.isSWPrefetch()) { 36812724Snikos.nikoleris@arm.com assert(!pkt->req->isCacheMaintenance()); 36912724Snikos.nikoleris@arm.com next_pf_time = prefetcher->notify(pkt); 37012724Snikos.nikoleris@arm.com } 37112724Snikos.nikoleris@arm.com } 37212724Snikos.nikoleris@arm.com 37312724Snikos.nikoleris@arm.com handleTimingReqHit(pkt, blk, request_time); 37412724Snikos.nikoleris@arm.com } else { 37512724Snikos.nikoleris@arm.com handleTimingReqMiss(pkt, blk, forward_time, request_time); 37612724Snikos.nikoleris@arm.com 37712724Snikos.nikoleris@arm.com // We should call the prefetcher reguardless if the request is 37812724Snikos.nikoleris@arm.com // satisfied or not, reguardless if the request is in the MSHR 37912724Snikos.nikoleris@arm.com // or not. The request could be a ReadReq hit, but still not 38012724Snikos.nikoleris@arm.com // satisfied (potentially because of a prior write to the same 38112724Snikos.nikoleris@arm.com // cache line. So, even when not satisfied, there is an MSHR 38212724Snikos.nikoleris@arm.com // already allocated for this, we need to let the prefetcher 38312724Snikos.nikoleris@arm.com // know about the request 38412724Snikos.nikoleris@arm.com 38512724Snikos.nikoleris@arm.com // Don't notify prefetcher on SWPrefetch or cache maintenance 38612724Snikos.nikoleris@arm.com // operations 38712724Snikos.nikoleris@arm.com if (prefetcher && pkt && 38812724Snikos.nikoleris@arm.com !pkt->cmd.isSWPrefetch() && 38912724Snikos.nikoleris@arm.com !pkt->req->isCacheMaintenance()) { 39012724Snikos.nikoleris@arm.com next_pf_time = prefetcher->notify(pkt); 39112724Snikos.nikoleris@arm.com } 39212724Snikos.nikoleris@arm.com } 39312724Snikos.nikoleris@arm.com 39412724Snikos.nikoleris@arm.com if (next_pf_time != MaxTick) { 39512724Snikos.nikoleris@arm.com schedMemSideSendEvent(next_pf_time); 39612724Snikos.nikoleris@arm.com } 39712724Snikos.nikoleris@arm.com} 39812724Snikos.nikoleris@arm.com 39912724Snikos.nikoleris@arm.comvoid 40012724Snikos.nikoleris@arm.comBaseCache::handleUncacheableWriteResp(PacketPtr pkt) 40112724Snikos.nikoleris@arm.com{ 40212724Snikos.nikoleris@arm.com Tick completion_time = clockEdge(responseLatency) + 40312724Snikos.nikoleris@arm.com pkt->headerDelay + pkt->payloadDelay; 40412724Snikos.nikoleris@arm.com 40512724Snikos.nikoleris@arm.com // Reset the bus additional time as it is now accounted for 40612724Snikos.nikoleris@arm.com pkt->headerDelay = pkt->payloadDelay = 0; 40712724Snikos.nikoleris@arm.com 40812724Snikos.nikoleris@arm.com cpuSidePort.schedTimingResp(pkt, completion_time, true); 40912724Snikos.nikoleris@arm.com} 41012724Snikos.nikoleris@arm.com 41112724Snikos.nikoleris@arm.comvoid 41212724Snikos.nikoleris@arm.comBaseCache::recvTimingResp(PacketPtr pkt) 41312724Snikos.nikoleris@arm.com{ 41412724Snikos.nikoleris@arm.com assert(pkt->isResponse()); 41512724Snikos.nikoleris@arm.com 41612724Snikos.nikoleris@arm.com // all header delay should be paid for by the crossbar, unless 41712724Snikos.nikoleris@arm.com // this is a prefetch response from above 41812724Snikos.nikoleris@arm.com panic_if(pkt->headerDelay != 0 && pkt->cmd != MemCmd::HardPFResp, 41912724Snikos.nikoleris@arm.com "%s saw a non-zero packet delay\n", name()); 42012724Snikos.nikoleris@arm.com 42112724Snikos.nikoleris@arm.com const bool is_error = pkt->isError(); 42212724Snikos.nikoleris@arm.com 42312724Snikos.nikoleris@arm.com if (is_error) { 42412724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s: Cache received %s with error\n", __func__, 42512724Snikos.nikoleris@arm.com pkt->print()); 42612724Snikos.nikoleris@arm.com } 42712724Snikos.nikoleris@arm.com 42812724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s: Handling response %s\n", __func__, 42912724Snikos.nikoleris@arm.com pkt->print()); 43012724Snikos.nikoleris@arm.com 43112724Snikos.nikoleris@arm.com // if this is a write, we should be looking at an uncacheable 43212724Snikos.nikoleris@arm.com // write 43312724Snikos.nikoleris@arm.com if (pkt->isWrite()) { 43412724Snikos.nikoleris@arm.com assert(pkt->req->isUncacheable()); 43512724Snikos.nikoleris@arm.com handleUncacheableWriteResp(pkt); 43612724Snikos.nikoleris@arm.com return; 43712724Snikos.nikoleris@arm.com } 43812724Snikos.nikoleris@arm.com 43912724Snikos.nikoleris@arm.com // we have dealt with any (uncacheable) writes above, from here on 44012724Snikos.nikoleris@arm.com // we know we are dealing with an MSHR due to a miss or a prefetch 44112724Snikos.nikoleris@arm.com MSHR *mshr = dynamic_cast<MSHR*>(pkt->popSenderState()); 44212724Snikos.nikoleris@arm.com assert(mshr); 44312724Snikos.nikoleris@arm.com 44412724Snikos.nikoleris@arm.com if (mshr == noTargetMSHR) { 44512724Snikos.nikoleris@arm.com // we always clear at least one target 44612724Snikos.nikoleris@arm.com clearBlocked(Blocked_NoTargets); 44712724Snikos.nikoleris@arm.com noTargetMSHR = nullptr; 44812724Snikos.nikoleris@arm.com } 44912724Snikos.nikoleris@arm.com 45012724Snikos.nikoleris@arm.com // Initial target is used just for stats 45112724Snikos.nikoleris@arm.com MSHR::Target *initial_tgt = mshr->getTarget(); 45212724Snikos.nikoleris@arm.com int stats_cmd_idx = initial_tgt->pkt->cmdToIndex(); 45312724Snikos.nikoleris@arm.com Tick miss_latency = curTick() - initial_tgt->recvTime; 45412724Snikos.nikoleris@arm.com 45512724Snikos.nikoleris@arm.com if (pkt->req->isUncacheable()) { 45612724Snikos.nikoleris@arm.com assert(pkt->req->masterId() < system->maxMasters()); 45712724Snikos.nikoleris@arm.com mshr_uncacheable_lat[stats_cmd_idx][pkt->req->masterId()] += 45812724Snikos.nikoleris@arm.com miss_latency; 45912724Snikos.nikoleris@arm.com } else { 46012724Snikos.nikoleris@arm.com assert(pkt->req->masterId() < system->maxMasters()); 46112724Snikos.nikoleris@arm.com mshr_miss_latency[stats_cmd_idx][pkt->req->masterId()] += 46212724Snikos.nikoleris@arm.com miss_latency; 46312724Snikos.nikoleris@arm.com } 46412724Snikos.nikoleris@arm.com 46512724Snikos.nikoleris@arm.com PacketList writebacks; 46612724Snikos.nikoleris@arm.com 46712724Snikos.nikoleris@arm.com bool is_fill = !mshr->isForward && 46812724Snikos.nikoleris@arm.com (pkt->isRead() || pkt->cmd == MemCmd::UpgradeResp); 46912724Snikos.nikoleris@arm.com 47012724Snikos.nikoleris@arm.com CacheBlk *blk = tags->findBlock(pkt->getAddr(), pkt->isSecure()); 47112724Snikos.nikoleris@arm.com 47212724Snikos.nikoleris@arm.com if (is_fill && !is_error) { 47312724Snikos.nikoleris@arm.com DPRINTF(Cache, "Block for addr %#llx being updated in Cache\n", 47412724Snikos.nikoleris@arm.com pkt->getAddr()); 47512724Snikos.nikoleris@arm.com 47612724Snikos.nikoleris@arm.com blk = handleFill(pkt, blk, writebacks, mshr->allocOnFill()); 47712724Snikos.nikoleris@arm.com assert(blk != nullptr); 47812724Snikos.nikoleris@arm.com } 47912724Snikos.nikoleris@arm.com 48012724Snikos.nikoleris@arm.com if (blk && blk->isValid() && pkt->isClean() && !pkt->isInvalidate()) { 48112724Snikos.nikoleris@arm.com // The block was marked not readable while there was a pending 48212724Snikos.nikoleris@arm.com // cache maintenance operation, restore its flag. 48312724Snikos.nikoleris@arm.com blk->status |= BlkReadable; 48412724Snikos.nikoleris@arm.com } 48512724Snikos.nikoleris@arm.com 48612724Snikos.nikoleris@arm.com if (blk && blk->isWritable() && !pkt->req->isCacheInvalidate()) { 48712724Snikos.nikoleris@arm.com // If at this point the referenced block is writable and the 48812724Snikos.nikoleris@arm.com // response is not a cache invalidate, we promote targets that 48912724Snikos.nikoleris@arm.com // were deferred as we couldn't guarrantee a writable copy 49012724Snikos.nikoleris@arm.com mshr->promoteWritable(); 49112724Snikos.nikoleris@arm.com } 49212724Snikos.nikoleris@arm.com 49312724Snikos.nikoleris@arm.com serviceMSHRTargets(mshr, pkt, blk, writebacks); 49412724Snikos.nikoleris@arm.com 49512724Snikos.nikoleris@arm.com if (mshr->promoteDeferredTargets()) { 49612724Snikos.nikoleris@arm.com // avoid later read getting stale data while write miss is 49712724Snikos.nikoleris@arm.com // outstanding.. see comment in timingAccess() 49812724Snikos.nikoleris@arm.com if (blk) { 49912724Snikos.nikoleris@arm.com blk->status &= ~BlkReadable; 50012724Snikos.nikoleris@arm.com } 50112724Snikos.nikoleris@arm.com mshrQueue.markPending(mshr); 50212724Snikos.nikoleris@arm.com schedMemSideSendEvent(clockEdge() + pkt->payloadDelay); 50312724Snikos.nikoleris@arm.com } else { 50412724Snikos.nikoleris@arm.com // while we deallocate an mshr from the queue we still have to 50512724Snikos.nikoleris@arm.com // check the isFull condition before and after as we might 50612724Snikos.nikoleris@arm.com // have been using the reserved entries already 50712724Snikos.nikoleris@arm.com const bool was_full = mshrQueue.isFull(); 50812724Snikos.nikoleris@arm.com mshrQueue.deallocate(mshr); 50912724Snikos.nikoleris@arm.com if (was_full && !mshrQueue.isFull()) { 51012724Snikos.nikoleris@arm.com clearBlocked(Blocked_NoMSHRs); 51112724Snikos.nikoleris@arm.com } 51212724Snikos.nikoleris@arm.com 51312724Snikos.nikoleris@arm.com // Request the bus for a prefetch if this deallocation freed enough 51412724Snikos.nikoleris@arm.com // MSHRs for a prefetch to take place 51512724Snikos.nikoleris@arm.com if (prefetcher && mshrQueue.canPrefetch()) { 51612724Snikos.nikoleris@arm.com Tick next_pf_time = std::max(prefetcher->nextPrefetchReadyTime(), 51712724Snikos.nikoleris@arm.com clockEdge()); 51812724Snikos.nikoleris@arm.com if (next_pf_time != MaxTick) 51912724Snikos.nikoleris@arm.com schedMemSideSendEvent(next_pf_time); 52012724Snikos.nikoleris@arm.com } 52112724Snikos.nikoleris@arm.com } 52212724Snikos.nikoleris@arm.com 52312724Snikos.nikoleris@arm.com // if we used temp block, check to see if its valid and then clear it out 52412724Snikos.nikoleris@arm.com if (blk == tempBlock && tempBlock->isValid()) { 52512724Snikos.nikoleris@arm.com evictBlock(blk, writebacks); 52612724Snikos.nikoleris@arm.com } 52712724Snikos.nikoleris@arm.com 52812724Snikos.nikoleris@arm.com const Tick forward_time = clockEdge(forwardLatency) + pkt->headerDelay; 52912724Snikos.nikoleris@arm.com // copy writebacks to write buffer 53012724Snikos.nikoleris@arm.com doWritebacks(writebacks, forward_time); 53112724Snikos.nikoleris@arm.com 53212724Snikos.nikoleris@arm.com DPRINTF(CacheVerbose, "%s: Leaving with %s\n", __func__, pkt->print()); 53312724Snikos.nikoleris@arm.com delete pkt; 53412724Snikos.nikoleris@arm.com} 53512724Snikos.nikoleris@arm.com 53612724Snikos.nikoleris@arm.com 53712724Snikos.nikoleris@arm.comTick 53812724Snikos.nikoleris@arm.comBaseCache::recvAtomic(PacketPtr pkt) 53912724Snikos.nikoleris@arm.com{ 54012724Snikos.nikoleris@arm.com // We are in atomic mode so we pay just for lookupLatency here. 54112724Snikos.nikoleris@arm.com Cycles lat = lookupLatency; 54212724Snikos.nikoleris@arm.com 54312724Snikos.nikoleris@arm.com // follow the same flow as in recvTimingReq, and check if a cache 54412724Snikos.nikoleris@arm.com // above us is responding 54512724Snikos.nikoleris@arm.com if (pkt->cacheResponding() && !pkt->isClean()) { 54612724Snikos.nikoleris@arm.com assert(!pkt->req->isCacheInvalidate()); 54712724Snikos.nikoleris@arm.com DPRINTF(Cache, "Cache above responding to %s: not responding\n", 54812724Snikos.nikoleris@arm.com pkt->print()); 54912724Snikos.nikoleris@arm.com 55012724Snikos.nikoleris@arm.com // if a cache is responding, and it had the line in Owned 55112724Snikos.nikoleris@arm.com // rather than Modified state, we need to invalidate any 55212724Snikos.nikoleris@arm.com // copies that are not on the same path to memory 55312724Snikos.nikoleris@arm.com assert(pkt->needsWritable() && !pkt->responderHadWritable()); 55412724Snikos.nikoleris@arm.com lat += ticksToCycles(memSidePort.sendAtomic(pkt)); 55512724Snikos.nikoleris@arm.com 55612724Snikos.nikoleris@arm.com return lat * clockPeriod(); 55712724Snikos.nikoleris@arm.com } 55812724Snikos.nikoleris@arm.com 55912724Snikos.nikoleris@arm.com // should assert here that there are no outstanding MSHRs or 56012724Snikos.nikoleris@arm.com // writebacks... that would mean that someone used an atomic 56112724Snikos.nikoleris@arm.com // access in timing mode 56212724Snikos.nikoleris@arm.com 56312724Snikos.nikoleris@arm.com CacheBlk *blk = nullptr; 56412724Snikos.nikoleris@arm.com PacketList writebacks; 56512724Snikos.nikoleris@arm.com bool satisfied = access(pkt, blk, lat, writebacks); 56612724Snikos.nikoleris@arm.com 56712724Snikos.nikoleris@arm.com if (pkt->isClean() && blk && blk->isDirty()) { 56812724Snikos.nikoleris@arm.com // A cache clean opearation is looking for a dirty 56912724Snikos.nikoleris@arm.com // block. If a dirty block is encountered a WriteClean 57012724Snikos.nikoleris@arm.com // will update any copies to the path to the memory 57112724Snikos.nikoleris@arm.com // until the point of reference. 57212724Snikos.nikoleris@arm.com DPRINTF(CacheVerbose, "%s: packet %s found block: %s\n", 57312724Snikos.nikoleris@arm.com __func__, pkt->print(), blk->print()); 57412724Snikos.nikoleris@arm.com PacketPtr wb_pkt = writecleanBlk(blk, pkt->req->getDest(), pkt->id); 57512724Snikos.nikoleris@arm.com writebacks.push_back(wb_pkt); 57612724Snikos.nikoleris@arm.com pkt->setSatisfied(); 57712724Snikos.nikoleris@arm.com } 57812724Snikos.nikoleris@arm.com 57912724Snikos.nikoleris@arm.com // handle writebacks resulting from the access here to ensure they 58012724Snikos.nikoleris@arm.com // logically proceed anything happening below 58112724Snikos.nikoleris@arm.com doWritebacksAtomic(writebacks); 58212724Snikos.nikoleris@arm.com assert(writebacks.empty()); 58312724Snikos.nikoleris@arm.com 58412724Snikos.nikoleris@arm.com if (!satisfied) { 58512724Snikos.nikoleris@arm.com lat += handleAtomicReqMiss(pkt, blk, writebacks); 58612724Snikos.nikoleris@arm.com } 58712724Snikos.nikoleris@arm.com 58812724Snikos.nikoleris@arm.com // Note that we don't invoke the prefetcher at all in atomic mode. 58912724Snikos.nikoleris@arm.com // It's not clear how to do it properly, particularly for 59012724Snikos.nikoleris@arm.com // prefetchers that aggressively generate prefetch candidates and 59112724Snikos.nikoleris@arm.com // rely on bandwidth contention to throttle them; these will tend 59212724Snikos.nikoleris@arm.com // to pollute the cache in atomic mode since there is no bandwidth 59312724Snikos.nikoleris@arm.com // contention. If we ever do want to enable prefetching in atomic 59412724Snikos.nikoleris@arm.com // mode, though, this is the place to do it... see timingAccess() 59512724Snikos.nikoleris@arm.com // for an example (though we'd want to issue the prefetch(es) 59612724Snikos.nikoleris@arm.com // immediately rather than calling requestMemSideBus() as we do 59712724Snikos.nikoleris@arm.com // there). 59812724Snikos.nikoleris@arm.com 59912724Snikos.nikoleris@arm.com // do any writebacks resulting from the response handling 60012724Snikos.nikoleris@arm.com doWritebacksAtomic(writebacks); 60112724Snikos.nikoleris@arm.com 60212724Snikos.nikoleris@arm.com // if we used temp block, check to see if its valid and if so 60312724Snikos.nikoleris@arm.com // clear it out, but only do so after the call to recvAtomic is 60412724Snikos.nikoleris@arm.com // finished so that any downstream observers (such as a snoop 60512724Snikos.nikoleris@arm.com // filter), first see the fill, and only then see the eviction 60612724Snikos.nikoleris@arm.com if (blk == tempBlock && tempBlock->isValid()) { 60712724Snikos.nikoleris@arm.com // the atomic CPU calls recvAtomic for fetch and load/store 60812724Snikos.nikoleris@arm.com // sequentuially, and we may already have a tempBlock 60912724Snikos.nikoleris@arm.com // writeback from the fetch that we have not yet sent 61012724Snikos.nikoleris@arm.com if (tempBlockWriteback) { 61112724Snikos.nikoleris@arm.com // if that is the case, write the prevoius one back, and 61212724Snikos.nikoleris@arm.com // do not schedule any new event 61312724Snikos.nikoleris@arm.com writebackTempBlockAtomic(); 61412724Snikos.nikoleris@arm.com } else { 61512724Snikos.nikoleris@arm.com // the writeback/clean eviction happens after the call to 61612724Snikos.nikoleris@arm.com // recvAtomic has finished (but before any successive 61712724Snikos.nikoleris@arm.com // calls), so that the response handling from the fill is 61812724Snikos.nikoleris@arm.com // allowed to happen first 61912724Snikos.nikoleris@arm.com schedule(writebackTempBlockAtomicEvent, curTick()); 62012724Snikos.nikoleris@arm.com } 62112724Snikos.nikoleris@arm.com 62212724Snikos.nikoleris@arm.com tempBlockWriteback = evictBlock(blk); 62312724Snikos.nikoleris@arm.com } 62412724Snikos.nikoleris@arm.com 62512724Snikos.nikoleris@arm.com if (pkt->needsResponse()) { 62612724Snikos.nikoleris@arm.com pkt->makeAtomicResponse(); 62712724Snikos.nikoleris@arm.com } 62812724Snikos.nikoleris@arm.com 62912724Snikos.nikoleris@arm.com return lat * clockPeriod(); 63012724Snikos.nikoleris@arm.com} 63112724Snikos.nikoleris@arm.com 63212724Snikos.nikoleris@arm.comvoid 63312724Snikos.nikoleris@arm.comBaseCache::functionalAccess(PacketPtr pkt, bool from_cpu_side) 63412724Snikos.nikoleris@arm.com{ 63512724Snikos.nikoleris@arm.com Addr blk_addr = pkt->getBlockAddr(blkSize); 63612724Snikos.nikoleris@arm.com bool is_secure = pkt->isSecure(); 63712724Snikos.nikoleris@arm.com CacheBlk *blk = tags->findBlock(pkt->getAddr(), is_secure); 63812724Snikos.nikoleris@arm.com MSHR *mshr = mshrQueue.findMatch(blk_addr, is_secure); 63912724Snikos.nikoleris@arm.com 64012724Snikos.nikoleris@arm.com pkt->pushLabel(name()); 64112724Snikos.nikoleris@arm.com 64212724Snikos.nikoleris@arm.com CacheBlkPrintWrapper cbpw(blk); 64312724Snikos.nikoleris@arm.com 64412724Snikos.nikoleris@arm.com // Note that just because an L2/L3 has valid data doesn't mean an 64512724Snikos.nikoleris@arm.com // L1 doesn't have a more up-to-date modified copy that still 64612724Snikos.nikoleris@arm.com // needs to be found. As a result we always update the request if 64712724Snikos.nikoleris@arm.com // we have it, but only declare it satisfied if we are the owner. 64812724Snikos.nikoleris@arm.com 64912724Snikos.nikoleris@arm.com // see if we have data at all (owned or otherwise) 65012724Snikos.nikoleris@arm.com bool have_data = blk && blk->isValid() 65112724Snikos.nikoleris@arm.com && pkt->checkFunctional(&cbpw, blk_addr, is_secure, blkSize, 65212724Snikos.nikoleris@arm.com blk->data); 65312724Snikos.nikoleris@arm.com 65412724Snikos.nikoleris@arm.com // data we have is dirty if marked as such or if we have an 65512724Snikos.nikoleris@arm.com // in-service MSHR that is pending a modified line 65612724Snikos.nikoleris@arm.com bool have_dirty = 65712724Snikos.nikoleris@arm.com have_data && (blk->isDirty() || 65812724Snikos.nikoleris@arm.com (mshr && mshr->inService && mshr->isPendingModified())); 65912724Snikos.nikoleris@arm.com 66012724Snikos.nikoleris@arm.com bool done = have_dirty || 66112724Snikos.nikoleris@arm.com cpuSidePort.checkFunctional(pkt) || 66212724Snikos.nikoleris@arm.com mshrQueue.checkFunctional(pkt, blk_addr) || 66312724Snikos.nikoleris@arm.com writeBuffer.checkFunctional(pkt, blk_addr) || 66412724Snikos.nikoleris@arm.com memSidePort.checkFunctional(pkt); 66512724Snikos.nikoleris@arm.com 66612724Snikos.nikoleris@arm.com DPRINTF(CacheVerbose, "%s: %s %s%s%s\n", __func__, pkt->print(), 66712724Snikos.nikoleris@arm.com (blk && blk->isValid()) ? "valid " : "", 66812724Snikos.nikoleris@arm.com have_data ? "data " : "", done ? "done " : ""); 66912724Snikos.nikoleris@arm.com 67012724Snikos.nikoleris@arm.com // We're leaving the cache, so pop cache->name() label 67112724Snikos.nikoleris@arm.com pkt->popLabel(); 67212724Snikos.nikoleris@arm.com 67312724Snikos.nikoleris@arm.com if (done) { 67412724Snikos.nikoleris@arm.com pkt->makeResponse(); 67512724Snikos.nikoleris@arm.com } else { 67612724Snikos.nikoleris@arm.com // if it came as a request from the CPU side then make sure it 67712724Snikos.nikoleris@arm.com // continues towards the memory side 67812724Snikos.nikoleris@arm.com if (from_cpu_side) { 67912724Snikos.nikoleris@arm.com memSidePort.sendFunctional(pkt); 68012724Snikos.nikoleris@arm.com } else if (cpuSidePort.isSnooping()) { 68112724Snikos.nikoleris@arm.com // if it came from the memory side, it must be a snoop request 68212724Snikos.nikoleris@arm.com // and we should only forward it if we are forwarding snoops 68312724Snikos.nikoleris@arm.com cpuSidePort.sendFunctionalSnoop(pkt); 68412724Snikos.nikoleris@arm.com } 68512724Snikos.nikoleris@arm.com } 68612724Snikos.nikoleris@arm.com} 68712724Snikos.nikoleris@arm.com 68812724Snikos.nikoleris@arm.com 68912724Snikos.nikoleris@arm.comvoid 69012724Snikos.nikoleris@arm.comBaseCache::cmpAndSwap(CacheBlk *blk, PacketPtr pkt) 69112724Snikos.nikoleris@arm.com{ 69212724Snikos.nikoleris@arm.com assert(pkt->isRequest()); 69312724Snikos.nikoleris@arm.com 69412724Snikos.nikoleris@arm.com uint64_t overwrite_val; 69512724Snikos.nikoleris@arm.com bool overwrite_mem; 69612724Snikos.nikoleris@arm.com uint64_t condition_val64; 69712724Snikos.nikoleris@arm.com uint32_t condition_val32; 69812724Snikos.nikoleris@arm.com 69912724Snikos.nikoleris@arm.com int offset = pkt->getOffset(blkSize); 70012724Snikos.nikoleris@arm.com uint8_t *blk_data = blk->data + offset; 70112724Snikos.nikoleris@arm.com 70212724Snikos.nikoleris@arm.com assert(sizeof(uint64_t) >= pkt->getSize()); 70312724Snikos.nikoleris@arm.com 70412724Snikos.nikoleris@arm.com overwrite_mem = true; 70512724Snikos.nikoleris@arm.com // keep a copy of our possible write value, and copy what is at the 70612724Snikos.nikoleris@arm.com // memory address into the packet 70712724Snikos.nikoleris@arm.com pkt->writeData((uint8_t *)&overwrite_val); 70812724Snikos.nikoleris@arm.com pkt->setData(blk_data); 70912724Snikos.nikoleris@arm.com 71012724Snikos.nikoleris@arm.com if (pkt->req->isCondSwap()) { 71112724Snikos.nikoleris@arm.com if (pkt->getSize() == sizeof(uint64_t)) { 71212724Snikos.nikoleris@arm.com condition_val64 = pkt->req->getExtraData(); 71312724Snikos.nikoleris@arm.com overwrite_mem = !std::memcmp(&condition_val64, blk_data, 71412724Snikos.nikoleris@arm.com sizeof(uint64_t)); 71512724Snikos.nikoleris@arm.com } else if (pkt->getSize() == sizeof(uint32_t)) { 71612724Snikos.nikoleris@arm.com condition_val32 = (uint32_t)pkt->req->getExtraData(); 71712724Snikos.nikoleris@arm.com overwrite_mem = !std::memcmp(&condition_val32, blk_data, 71812724Snikos.nikoleris@arm.com sizeof(uint32_t)); 71912724Snikos.nikoleris@arm.com } else 72012724Snikos.nikoleris@arm.com panic("Invalid size for conditional read/write\n"); 72112724Snikos.nikoleris@arm.com } 72212724Snikos.nikoleris@arm.com 72312724Snikos.nikoleris@arm.com if (overwrite_mem) { 72412724Snikos.nikoleris@arm.com std::memcpy(blk_data, &overwrite_val, pkt->getSize()); 72512724Snikos.nikoleris@arm.com blk->status |= BlkDirty; 72612724Snikos.nikoleris@arm.com } 72712724Snikos.nikoleris@arm.com} 72812724Snikos.nikoleris@arm.com 72912724Snikos.nikoleris@arm.comQueueEntry* 73012724Snikos.nikoleris@arm.comBaseCache::getNextQueueEntry() 73112724Snikos.nikoleris@arm.com{ 73212724Snikos.nikoleris@arm.com // Check both MSHR queue and write buffer for potential requests, 73312724Snikos.nikoleris@arm.com // note that null does not mean there is no request, it could 73412724Snikos.nikoleris@arm.com // simply be that it is not ready 73512724Snikos.nikoleris@arm.com MSHR *miss_mshr = mshrQueue.getNext(); 73612724Snikos.nikoleris@arm.com WriteQueueEntry *wq_entry = writeBuffer.getNext(); 73712724Snikos.nikoleris@arm.com 73812724Snikos.nikoleris@arm.com // If we got a write buffer request ready, first priority is a 73912724Snikos.nikoleris@arm.com // full write buffer, otherwise we favour the miss requests 74012724Snikos.nikoleris@arm.com if (wq_entry && (writeBuffer.isFull() || !miss_mshr)) { 74112724Snikos.nikoleris@arm.com // need to search MSHR queue for conflicting earlier miss. 74212724Snikos.nikoleris@arm.com MSHR *conflict_mshr = 74312724Snikos.nikoleris@arm.com mshrQueue.findPending(wq_entry->blkAddr, 74412724Snikos.nikoleris@arm.com wq_entry->isSecure); 74512724Snikos.nikoleris@arm.com 74612724Snikos.nikoleris@arm.com if (conflict_mshr && conflict_mshr->order < wq_entry->order) { 74712724Snikos.nikoleris@arm.com // Service misses in order until conflict is cleared. 74812724Snikos.nikoleris@arm.com return conflict_mshr; 74912724Snikos.nikoleris@arm.com 75012724Snikos.nikoleris@arm.com // @todo Note that we ignore the ready time of the conflict here 75112724Snikos.nikoleris@arm.com } 75212724Snikos.nikoleris@arm.com 75312724Snikos.nikoleris@arm.com // No conflicts; issue write 75412724Snikos.nikoleris@arm.com return wq_entry; 75512724Snikos.nikoleris@arm.com } else if (miss_mshr) { 75612724Snikos.nikoleris@arm.com // need to check for conflicting earlier writeback 75712724Snikos.nikoleris@arm.com WriteQueueEntry *conflict_mshr = 75812724Snikos.nikoleris@arm.com writeBuffer.findPending(miss_mshr->blkAddr, 75912724Snikos.nikoleris@arm.com miss_mshr->isSecure); 76012724Snikos.nikoleris@arm.com if (conflict_mshr) { 76112724Snikos.nikoleris@arm.com // not sure why we don't check order here... it was in the 76212724Snikos.nikoleris@arm.com // original code but commented out. 76312724Snikos.nikoleris@arm.com 76412724Snikos.nikoleris@arm.com // The only way this happens is if we are 76512724Snikos.nikoleris@arm.com // doing a write and we didn't have permissions 76612724Snikos.nikoleris@arm.com // then subsequently saw a writeback (owned got evicted) 76712724Snikos.nikoleris@arm.com // We need to make sure to perform the writeback first 76812724Snikos.nikoleris@arm.com // To preserve the dirty data, then we can issue the write 76912724Snikos.nikoleris@arm.com 77012724Snikos.nikoleris@arm.com // should we return wq_entry here instead? I.e. do we 77112724Snikos.nikoleris@arm.com // have to flush writes in order? I don't think so... not 77212724Snikos.nikoleris@arm.com // for Alpha anyway. Maybe for x86? 77312724Snikos.nikoleris@arm.com return conflict_mshr; 77412724Snikos.nikoleris@arm.com 77512724Snikos.nikoleris@arm.com // @todo Note that we ignore the ready time of the conflict here 77612724Snikos.nikoleris@arm.com } 77712724Snikos.nikoleris@arm.com 77812724Snikos.nikoleris@arm.com // No conflicts; issue read 77912724Snikos.nikoleris@arm.com return miss_mshr; 78012724Snikos.nikoleris@arm.com } 78112724Snikos.nikoleris@arm.com 78212724Snikos.nikoleris@arm.com // fall through... no pending requests. Try a prefetch. 78312724Snikos.nikoleris@arm.com assert(!miss_mshr && !wq_entry); 78412724Snikos.nikoleris@arm.com if (prefetcher && mshrQueue.canPrefetch()) { 78512724Snikos.nikoleris@arm.com // If we have a miss queue slot, we can try a prefetch 78612724Snikos.nikoleris@arm.com PacketPtr pkt = prefetcher->getPacket(); 78712724Snikos.nikoleris@arm.com if (pkt) { 78812724Snikos.nikoleris@arm.com Addr pf_addr = pkt->getBlockAddr(blkSize); 78912724Snikos.nikoleris@arm.com if (!tags->findBlock(pf_addr, pkt->isSecure()) && 79012724Snikos.nikoleris@arm.com !mshrQueue.findMatch(pf_addr, pkt->isSecure()) && 79112724Snikos.nikoleris@arm.com !writeBuffer.findMatch(pf_addr, pkt->isSecure())) { 79212724Snikos.nikoleris@arm.com // Update statistic on number of prefetches issued 79312724Snikos.nikoleris@arm.com // (hwpf_mshr_misses) 79412724Snikos.nikoleris@arm.com assert(pkt->req->masterId() < system->maxMasters()); 79512724Snikos.nikoleris@arm.com mshr_misses[pkt->cmdToIndex()][pkt->req->masterId()]++; 79612724Snikos.nikoleris@arm.com 79712724Snikos.nikoleris@arm.com // allocate an MSHR and return it, note 79812724Snikos.nikoleris@arm.com // that we send the packet straight away, so do not 79912724Snikos.nikoleris@arm.com // schedule the send 80012724Snikos.nikoleris@arm.com return allocateMissBuffer(pkt, curTick(), false); 80112724Snikos.nikoleris@arm.com } else { 80212724Snikos.nikoleris@arm.com // free the request and packet 80312724Snikos.nikoleris@arm.com delete pkt->req; 80412724Snikos.nikoleris@arm.com delete pkt; 80512724Snikos.nikoleris@arm.com } 80612724Snikos.nikoleris@arm.com } 80712724Snikos.nikoleris@arm.com } 80812724Snikos.nikoleris@arm.com 80912724Snikos.nikoleris@arm.com return nullptr; 81012724Snikos.nikoleris@arm.com} 81112724Snikos.nikoleris@arm.com 81212724Snikos.nikoleris@arm.comvoid 81312724Snikos.nikoleris@arm.comBaseCache::satisfyRequest(PacketPtr pkt, CacheBlk *blk, bool, bool) 81412724Snikos.nikoleris@arm.com{ 81512724Snikos.nikoleris@arm.com assert(pkt->isRequest()); 81612724Snikos.nikoleris@arm.com 81712724Snikos.nikoleris@arm.com assert(blk && blk->isValid()); 81812724Snikos.nikoleris@arm.com // Occasionally this is not true... if we are a lower-level cache 81912724Snikos.nikoleris@arm.com // satisfying a string of Read and ReadEx requests from 82012724Snikos.nikoleris@arm.com // upper-level caches, a Read will mark the block as shared but we 82112724Snikos.nikoleris@arm.com // can satisfy a following ReadEx anyway since we can rely on the 82212724Snikos.nikoleris@arm.com // Read requester(s) to have buffered the ReadEx snoop and to 82312724Snikos.nikoleris@arm.com // invalidate their blocks after receiving them. 82412724Snikos.nikoleris@arm.com // assert(!pkt->needsWritable() || blk->isWritable()); 82512724Snikos.nikoleris@arm.com assert(pkt->getOffset(blkSize) + pkt->getSize() <= blkSize); 82612724Snikos.nikoleris@arm.com 82712724Snikos.nikoleris@arm.com // Check RMW operations first since both isRead() and 82812724Snikos.nikoleris@arm.com // isWrite() will be true for them 82912724Snikos.nikoleris@arm.com if (pkt->cmd == MemCmd::SwapReq) { 83012724Snikos.nikoleris@arm.com cmpAndSwap(blk, pkt); 83112724Snikos.nikoleris@arm.com } else if (pkt->isWrite()) { 83212724Snikos.nikoleris@arm.com // we have the block in a writable state and can go ahead, 83312724Snikos.nikoleris@arm.com // note that the line may be also be considered writable in 83412724Snikos.nikoleris@arm.com // downstream caches along the path to memory, but always 83512724Snikos.nikoleris@arm.com // Exclusive, and never Modified 83612724Snikos.nikoleris@arm.com assert(blk->isWritable()); 83712724Snikos.nikoleris@arm.com // Write or WriteLine at the first cache with block in writable state 83812724Snikos.nikoleris@arm.com if (blk->checkWrite(pkt)) { 83912724Snikos.nikoleris@arm.com pkt->writeDataToBlock(blk->data, blkSize); 84012724Snikos.nikoleris@arm.com } 84112724Snikos.nikoleris@arm.com // Always mark the line as dirty (and thus transition to the 84212724Snikos.nikoleris@arm.com // Modified state) even if we are a failed StoreCond so we 84312724Snikos.nikoleris@arm.com // supply data to any snoops that have appended themselves to 84412724Snikos.nikoleris@arm.com // this cache before knowing the store will fail. 84512724Snikos.nikoleris@arm.com blk->status |= BlkDirty; 84612724Snikos.nikoleris@arm.com DPRINTF(CacheVerbose, "%s for %s (write)\n", __func__, pkt->print()); 84712724Snikos.nikoleris@arm.com } else if (pkt->isRead()) { 84812724Snikos.nikoleris@arm.com if (pkt->isLLSC()) { 84912724Snikos.nikoleris@arm.com blk->trackLoadLocked(pkt); 85012724Snikos.nikoleris@arm.com } 85112724Snikos.nikoleris@arm.com 85212724Snikos.nikoleris@arm.com // all read responses have a data payload 85312724Snikos.nikoleris@arm.com assert(pkt->hasRespData()); 85412724Snikos.nikoleris@arm.com pkt->setDataFromBlock(blk->data, blkSize); 85512724Snikos.nikoleris@arm.com } else if (pkt->isUpgrade()) { 85612724Snikos.nikoleris@arm.com // sanity check 85712724Snikos.nikoleris@arm.com assert(!pkt->hasSharers()); 85812724Snikos.nikoleris@arm.com 85912724Snikos.nikoleris@arm.com if (blk->isDirty()) { 86012724Snikos.nikoleris@arm.com // we were in the Owned state, and a cache above us that 86112724Snikos.nikoleris@arm.com // has the line in Shared state needs to be made aware 86212724Snikos.nikoleris@arm.com // that the data it already has is in fact dirty 86312724Snikos.nikoleris@arm.com pkt->setCacheResponding(); 86412724Snikos.nikoleris@arm.com blk->status &= ~BlkDirty; 86512724Snikos.nikoleris@arm.com } 86612724Snikos.nikoleris@arm.com } else { 86712724Snikos.nikoleris@arm.com assert(pkt->isInvalidate()); 86812724Snikos.nikoleris@arm.com invalidateBlock(blk); 86912724Snikos.nikoleris@arm.com DPRINTF(CacheVerbose, "%s for %s (invalidation)\n", __func__, 87012724Snikos.nikoleris@arm.com pkt->print()); 87112724Snikos.nikoleris@arm.com } 87212724Snikos.nikoleris@arm.com} 87312724Snikos.nikoleris@arm.com 87412724Snikos.nikoleris@arm.com///////////////////////////////////////////////////// 87512724Snikos.nikoleris@arm.com// 87612724Snikos.nikoleris@arm.com// Access path: requests coming in from the CPU side 87712724Snikos.nikoleris@arm.com// 87812724Snikos.nikoleris@arm.com///////////////////////////////////////////////////// 87912724Snikos.nikoleris@arm.com 88012724Snikos.nikoleris@arm.combool 88112724Snikos.nikoleris@arm.comBaseCache::access(PacketPtr pkt, CacheBlk *&blk, Cycles &lat, 88212724Snikos.nikoleris@arm.com PacketList &writebacks) 88312724Snikos.nikoleris@arm.com{ 88412724Snikos.nikoleris@arm.com // sanity check 88512724Snikos.nikoleris@arm.com assert(pkt->isRequest()); 88612724Snikos.nikoleris@arm.com 88712724Snikos.nikoleris@arm.com chatty_assert(!(isReadOnly && pkt->isWrite()), 88812724Snikos.nikoleris@arm.com "Should never see a write in a read-only cache %s\n", 88912724Snikos.nikoleris@arm.com name()); 89012724Snikos.nikoleris@arm.com 89112724Snikos.nikoleris@arm.com // Here lat is the value passed as parameter to accessBlock() function 89212724Snikos.nikoleris@arm.com // that can modify its value. 89312724Snikos.nikoleris@arm.com blk = tags->accessBlock(pkt->getAddr(), pkt->isSecure(), lat); 89412724Snikos.nikoleris@arm.com 89512724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s for %s %s\n", __func__, pkt->print(), 89612724Snikos.nikoleris@arm.com blk ? "hit " + blk->print() : "miss"); 89712724Snikos.nikoleris@arm.com 89812724Snikos.nikoleris@arm.com if (pkt->req->isCacheMaintenance()) { 89912724Snikos.nikoleris@arm.com // A cache maintenance operation is always forwarded to the 90012724Snikos.nikoleris@arm.com // memory below even if the block is found in dirty state. 90112724Snikos.nikoleris@arm.com 90212724Snikos.nikoleris@arm.com // We defer any changes to the state of the block until we 90312724Snikos.nikoleris@arm.com // create and mark as in service the mshr for the downstream 90412724Snikos.nikoleris@arm.com // packet. 90512724Snikos.nikoleris@arm.com return false; 90612724Snikos.nikoleris@arm.com } 90712724Snikos.nikoleris@arm.com 90812724Snikos.nikoleris@arm.com if (pkt->isEviction()) { 90912724Snikos.nikoleris@arm.com // We check for presence of block in above caches before issuing 91012724Snikos.nikoleris@arm.com // Writeback or CleanEvict to write buffer. Therefore the only 91112724Snikos.nikoleris@arm.com // possible cases can be of a CleanEvict packet coming from above 91212724Snikos.nikoleris@arm.com // encountering a Writeback generated in this cache peer cache and 91312724Snikos.nikoleris@arm.com // waiting in the write buffer. Cases of upper level peer caches 91412724Snikos.nikoleris@arm.com // generating CleanEvict and Writeback or simply CleanEvict and 91512724Snikos.nikoleris@arm.com // CleanEvict almost simultaneously will be caught by snoops sent out 91612724Snikos.nikoleris@arm.com // by crossbar. 91712724Snikos.nikoleris@arm.com WriteQueueEntry *wb_entry = writeBuffer.findMatch(pkt->getAddr(), 91812724Snikos.nikoleris@arm.com pkt->isSecure()); 91912724Snikos.nikoleris@arm.com if (wb_entry) { 92012724Snikos.nikoleris@arm.com assert(wb_entry->getNumTargets() == 1); 92112724Snikos.nikoleris@arm.com PacketPtr wbPkt = wb_entry->getTarget()->pkt; 92212724Snikos.nikoleris@arm.com assert(wbPkt->isWriteback()); 92312724Snikos.nikoleris@arm.com 92412724Snikos.nikoleris@arm.com if (pkt->isCleanEviction()) { 92512724Snikos.nikoleris@arm.com // The CleanEvict and WritebackClean snoops into other 92612724Snikos.nikoleris@arm.com // peer caches of the same level while traversing the 92712724Snikos.nikoleris@arm.com // crossbar. If a copy of the block is found, the 92812724Snikos.nikoleris@arm.com // packet is deleted in the crossbar. Hence, none of 92912724Snikos.nikoleris@arm.com // the other upper level caches connected to this 93012724Snikos.nikoleris@arm.com // cache have the block, so we can clear the 93112724Snikos.nikoleris@arm.com // BLOCK_CACHED flag in the Writeback if set and 93212724Snikos.nikoleris@arm.com // discard the CleanEvict by returning true. 93312724Snikos.nikoleris@arm.com wbPkt->clearBlockCached(); 93412724Snikos.nikoleris@arm.com return true; 93512724Snikos.nikoleris@arm.com } else { 93612724Snikos.nikoleris@arm.com assert(pkt->cmd == MemCmd::WritebackDirty); 93712724Snikos.nikoleris@arm.com // Dirty writeback from above trumps our clean 93812724Snikos.nikoleris@arm.com // writeback... discard here 93912724Snikos.nikoleris@arm.com // Note: markInService will remove entry from writeback buffer. 94012724Snikos.nikoleris@arm.com markInService(wb_entry); 94112724Snikos.nikoleris@arm.com delete wbPkt; 94212724Snikos.nikoleris@arm.com } 94312724Snikos.nikoleris@arm.com } 94412724Snikos.nikoleris@arm.com } 94512724Snikos.nikoleris@arm.com 94612724Snikos.nikoleris@arm.com // Writeback handling is special case. We can write the block into 94712724Snikos.nikoleris@arm.com // the cache without having a writeable copy (or any copy at all). 94812724Snikos.nikoleris@arm.com if (pkt->isWriteback()) { 94912724Snikos.nikoleris@arm.com assert(blkSize == pkt->getSize()); 95012724Snikos.nikoleris@arm.com 95112724Snikos.nikoleris@arm.com // we could get a clean writeback while we are having 95212724Snikos.nikoleris@arm.com // outstanding accesses to a block, do the simple thing for 95312724Snikos.nikoleris@arm.com // now and drop the clean writeback so that we do not upset 95412724Snikos.nikoleris@arm.com // any ordering/decisions about ownership already taken 95512724Snikos.nikoleris@arm.com if (pkt->cmd == MemCmd::WritebackClean && 95612724Snikos.nikoleris@arm.com mshrQueue.findMatch(pkt->getAddr(), pkt->isSecure())) { 95712724Snikos.nikoleris@arm.com DPRINTF(Cache, "Clean writeback %#llx to block with MSHR, " 95812724Snikos.nikoleris@arm.com "dropping\n", pkt->getAddr()); 95912724Snikos.nikoleris@arm.com return true; 96012724Snikos.nikoleris@arm.com } 96112724Snikos.nikoleris@arm.com 96212724Snikos.nikoleris@arm.com if (!blk) { 96312724Snikos.nikoleris@arm.com // need to do a replacement 96412724Snikos.nikoleris@arm.com blk = allocateBlock(pkt->getAddr(), pkt->isSecure(), writebacks); 96512724Snikos.nikoleris@arm.com if (!blk) { 96612724Snikos.nikoleris@arm.com // no replaceable block available: give up, fwd to next level. 96712724Snikos.nikoleris@arm.com incMissCount(pkt); 96812724Snikos.nikoleris@arm.com return false; 96912724Snikos.nikoleris@arm.com } 97012724Snikos.nikoleris@arm.com tags->insertBlock(pkt, blk); 97112724Snikos.nikoleris@arm.com 97212724Snikos.nikoleris@arm.com blk->status |= (BlkValid | BlkReadable); 97312724Snikos.nikoleris@arm.com } 97412724Snikos.nikoleris@arm.com // only mark the block dirty if we got a writeback command, 97512724Snikos.nikoleris@arm.com // and leave it as is for a clean writeback 97612724Snikos.nikoleris@arm.com if (pkt->cmd == MemCmd::WritebackDirty) { 97712724Snikos.nikoleris@arm.com // TODO: the coherent cache can assert(!blk->isDirty()); 97812724Snikos.nikoleris@arm.com blk->status |= BlkDirty; 97912724Snikos.nikoleris@arm.com } 98012724Snikos.nikoleris@arm.com // if the packet does not have sharers, it is passing 98112724Snikos.nikoleris@arm.com // writable, and we got the writeback in Modified or Exclusive 98212724Snikos.nikoleris@arm.com // state, if not we are in the Owned or Shared state 98312724Snikos.nikoleris@arm.com if (!pkt->hasSharers()) { 98412724Snikos.nikoleris@arm.com blk->status |= BlkWritable; 98512724Snikos.nikoleris@arm.com } 98612724Snikos.nikoleris@arm.com // nothing else to do; writeback doesn't expect response 98712724Snikos.nikoleris@arm.com assert(!pkt->needsResponse()); 98812724Snikos.nikoleris@arm.com pkt->writeDataToBlock(blk->data, blkSize); 98912724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s new state is %s\n", __func__, blk->print()); 99012724Snikos.nikoleris@arm.com incHitCount(pkt); 99112724Snikos.nikoleris@arm.com // populate the time when the block will be ready to access. 99212724Snikos.nikoleris@arm.com blk->whenReady = clockEdge(fillLatency) + pkt->headerDelay + 99312724Snikos.nikoleris@arm.com pkt->payloadDelay; 99412724Snikos.nikoleris@arm.com return true; 99512724Snikos.nikoleris@arm.com } else if (pkt->cmd == MemCmd::CleanEvict) { 99612724Snikos.nikoleris@arm.com if (blk) { 99712724Snikos.nikoleris@arm.com // Found the block in the tags, need to stop CleanEvict from 99812724Snikos.nikoleris@arm.com // propagating further down the hierarchy. Returning true will 99912724Snikos.nikoleris@arm.com // treat the CleanEvict like a satisfied write request and delete 100012724Snikos.nikoleris@arm.com // it. 100112724Snikos.nikoleris@arm.com return true; 100212724Snikos.nikoleris@arm.com } 100312724Snikos.nikoleris@arm.com // We didn't find the block here, propagate the CleanEvict further 100412724Snikos.nikoleris@arm.com // down the memory hierarchy. Returning false will treat the CleanEvict 100512724Snikos.nikoleris@arm.com // like a Writeback which could not find a replaceable block so has to 100612724Snikos.nikoleris@arm.com // go to next level. 100712724Snikos.nikoleris@arm.com return false; 100812724Snikos.nikoleris@arm.com } else if (pkt->cmd == MemCmd::WriteClean) { 100912724Snikos.nikoleris@arm.com // WriteClean handling is a special case. We can allocate a 101012724Snikos.nikoleris@arm.com // block directly if it doesn't exist and we can update the 101112724Snikos.nikoleris@arm.com // block immediately. The WriteClean transfers the ownership 101212724Snikos.nikoleris@arm.com // of the block as well. 101312724Snikos.nikoleris@arm.com assert(blkSize == pkt->getSize()); 101412724Snikos.nikoleris@arm.com 101512724Snikos.nikoleris@arm.com if (!blk) { 101612724Snikos.nikoleris@arm.com if (pkt->writeThrough()) { 101712724Snikos.nikoleris@arm.com // if this is a write through packet, we don't try to 101812724Snikos.nikoleris@arm.com // allocate if the block is not present 101912724Snikos.nikoleris@arm.com return false; 102012724Snikos.nikoleris@arm.com } else { 102112724Snikos.nikoleris@arm.com // a writeback that misses needs to allocate a new block 102212724Snikos.nikoleris@arm.com blk = allocateBlock(pkt->getAddr(), pkt->isSecure(), 102312724Snikos.nikoleris@arm.com writebacks); 102412724Snikos.nikoleris@arm.com if (!blk) { 102512724Snikos.nikoleris@arm.com // no replaceable block available: give up, fwd to 102612724Snikos.nikoleris@arm.com // next level. 102712724Snikos.nikoleris@arm.com incMissCount(pkt); 102812724Snikos.nikoleris@arm.com return false; 102912724Snikos.nikoleris@arm.com } 103012724Snikos.nikoleris@arm.com tags->insertBlock(pkt, blk); 103112724Snikos.nikoleris@arm.com 103212724Snikos.nikoleris@arm.com blk->status |= (BlkValid | BlkReadable); 103312724Snikos.nikoleris@arm.com } 103412724Snikos.nikoleris@arm.com } 103512724Snikos.nikoleris@arm.com 103612724Snikos.nikoleris@arm.com // at this point either this is a writeback or a write-through 103712724Snikos.nikoleris@arm.com // write clean operation and the block is already in this 103812724Snikos.nikoleris@arm.com // cache, we need to update the data and the block flags 103912724Snikos.nikoleris@arm.com assert(blk); 104012724Snikos.nikoleris@arm.com // TODO: the coherent cache can assert(!blk->isDirty()); 104112724Snikos.nikoleris@arm.com if (!pkt->writeThrough()) { 104212724Snikos.nikoleris@arm.com blk->status |= BlkDirty; 104312724Snikos.nikoleris@arm.com } 104412724Snikos.nikoleris@arm.com // nothing else to do; writeback doesn't expect response 104512724Snikos.nikoleris@arm.com assert(!pkt->needsResponse()); 104612724Snikos.nikoleris@arm.com pkt->writeDataToBlock(blk->data, blkSize); 104712724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s new state is %s\n", __func__, blk->print()); 104812724Snikos.nikoleris@arm.com 104912724Snikos.nikoleris@arm.com incHitCount(pkt); 105012724Snikos.nikoleris@arm.com // populate the time when the block will be ready to access. 105112724Snikos.nikoleris@arm.com blk->whenReady = clockEdge(fillLatency) + pkt->headerDelay + 105212724Snikos.nikoleris@arm.com pkt->payloadDelay; 105312724Snikos.nikoleris@arm.com // if this a write-through packet it will be sent to cache 105412724Snikos.nikoleris@arm.com // below 105512724Snikos.nikoleris@arm.com return !pkt->writeThrough(); 105612724Snikos.nikoleris@arm.com } else if (blk && (pkt->needsWritable() ? blk->isWritable() : 105712724Snikos.nikoleris@arm.com blk->isReadable())) { 105812724Snikos.nikoleris@arm.com // OK to satisfy access 105912724Snikos.nikoleris@arm.com incHitCount(pkt); 106012724Snikos.nikoleris@arm.com satisfyRequest(pkt, blk); 106112724Snikos.nikoleris@arm.com maintainClusivity(pkt->fromCache(), blk); 106212724Snikos.nikoleris@arm.com 106312724Snikos.nikoleris@arm.com return true; 106412724Snikos.nikoleris@arm.com } 106512724Snikos.nikoleris@arm.com 106612724Snikos.nikoleris@arm.com // Can't satisfy access normally... either no block (blk == nullptr) 106712724Snikos.nikoleris@arm.com // or have block but need writable 106812724Snikos.nikoleris@arm.com 106912724Snikos.nikoleris@arm.com incMissCount(pkt); 107012724Snikos.nikoleris@arm.com 107112724Snikos.nikoleris@arm.com if (!blk && pkt->isLLSC() && pkt->isWrite()) { 107212724Snikos.nikoleris@arm.com // complete miss on store conditional... just give up now 107312724Snikos.nikoleris@arm.com pkt->req->setExtraData(0); 107412724Snikos.nikoleris@arm.com return true; 107512724Snikos.nikoleris@arm.com } 107612724Snikos.nikoleris@arm.com 107712724Snikos.nikoleris@arm.com return false; 107812724Snikos.nikoleris@arm.com} 107912724Snikos.nikoleris@arm.com 108012724Snikos.nikoleris@arm.comvoid 108112724Snikos.nikoleris@arm.comBaseCache::maintainClusivity(bool from_cache, CacheBlk *blk) 108212724Snikos.nikoleris@arm.com{ 108312724Snikos.nikoleris@arm.com if (from_cache && blk && blk->isValid() && !blk->isDirty() && 108412724Snikos.nikoleris@arm.com clusivity == Enums::mostly_excl) { 108512724Snikos.nikoleris@arm.com // if we have responded to a cache, and our block is still 108612724Snikos.nikoleris@arm.com // valid, but not dirty, and this cache is mostly exclusive 108712724Snikos.nikoleris@arm.com // with respect to the cache above, drop the block 108812724Snikos.nikoleris@arm.com invalidateBlock(blk); 108912724Snikos.nikoleris@arm.com } 109012724Snikos.nikoleris@arm.com} 109112724Snikos.nikoleris@arm.com 109212724Snikos.nikoleris@arm.comCacheBlk* 109312724Snikos.nikoleris@arm.comBaseCache::handleFill(PacketPtr pkt, CacheBlk *blk, PacketList &writebacks, 109412724Snikos.nikoleris@arm.com bool allocate) 109512724Snikos.nikoleris@arm.com{ 109612724Snikos.nikoleris@arm.com assert(pkt->isResponse() || pkt->cmd == MemCmd::WriteLineReq); 109712724Snikos.nikoleris@arm.com Addr addr = pkt->getAddr(); 109812724Snikos.nikoleris@arm.com bool is_secure = pkt->isSecure(); 109912724Snikos.nikoleris@arm.com#if TRACING_ON 110012724Snikos.nikoleris@arm.com CacheBlk::State old_state = blk ? blk->status : 0; 110112724Snikos.nikoleris@arm.com#endif 110212724Snikos.nikoleris@arm.com 110312724Snikos.nikoleris@arm.com // When handling a fill, we should have no writes to this line. 110412724Snikos.nikoleris@arm.com assert(addr == pkt->getBlockAddr(blkSize)); 110512724Snikos.nikoleris@arm.com assert(!writeBuffer.findMatch(addr, is_secure)); 110612724Snikos.nikoleris@arm.com 110712724Snikos.nikoleris@arm.com if (!blk) { 110812724Snikos.nikoleris@arm.com // better have read new data... 110912724Snikos.nikoleris@arm.com assert(pkt->hasData()); 111012724Snikos.nikoleris@arm.com 111112724Snikos.nikoleris@arm.com // only read responses and write-line requests have data; 111212724Snikos.nikoleris@arm.com // note that we don't write the data here for write-line - that 111312724Snikos.nikoleris@arm.com // happens in the subsequent call to satisfyRequest 111412724Snikos.nikoleris@arm.com assert(pkt->isRead() || pkt->cmd == MemCmd::WriteLineReq); 111512724Snikos.nikoleris@arm.com 111612724Snikos.nikoleris@arm.com // need to do a replacement if allocating, otherwise we stick 111712724Snikos.nikoleris@arm.com // with the temporary storage 111812724Snikos.nikoleris@arm.com blk = allocate ? allocateBlock(addr, is_secure, writebacks) : nullptr; 111912724Snikos.nikoleris@arm.com 112012724Snikos.nikoleris@arm.com if (!blk) { 112112724Snikos.nikoleris@arm.com // No replaceable block or a mostly exclusive 112212724Snikos.nikoleris@arm.com // cache... just use temporary storage to complete the 112312724Snikos.nikoleris@arm.com // current request and then get rid of it 112412724Snikos.nikoleris@arm.com assert(!tempBlock->isValid()); 112512724Snikos.nikoleris@arm.com blk = tempBlock; 112612724Snikos.nikoleris@arm.com tempBlock->set = tags->extractSet(addr); 112712724Snikos.nikoleris@arm.com tempBlock->tag = tags->extractTag(addr); 112812724Snikos.nikoleris@arm.com DPRINTF(Cache, "using temp block for %#llx (%s)\n", addr, 112912724Snikos.nikoleris@arm.com is_secure ? "s" : "ns"); 113012724Snikos.nikoleris@arm.com } else { 113112724Snikos.nikoleris@arm.com tags->insertBlock(pkt, blk); 113212724Snikos.nikoleris@arm.com } 113312724Snikos.nikoleris@arm.com 113412724Snikos.nikoleris@arm.com // we should never be overwriting a valid block 113512724Snikos.nikoleris@arm.com assert(!blk->isValid()); 113612724Snikos.nikoleris@arm.com } else { 113712724Snikos.nikoleris@arm.com // existing block... probably an upgrade 113812724Snikos.nikoleris@arm.com assert(blk->tag == tags->extractTag(addr)); 113912724Snikos.nikoleris@arm.com // either we're getting new data or the block should already be valid 114012724Snikos.nikoleris@arm.com assert(pkt->hasData() || blk->isValid()); 114112724Snikos.nikoleris@arm.com // don't clear block status... if block is already dirty we 114212724Snikos.nikoleris@arm.com // don't want to lose that 114312724Snikos.nikoleris@arm.com } 114412724Snikos.nikoleris@arm.com 114512724Snikos.nikoleris@arm.com if (is_secure) 114612724Snikos.nikoleris@arm.com blk->status |= BlkSecure; 114712724Snikos.nikoleris@arm.com blk->status |= BlkValid | BlkReadable; 114812724Snikos.nikoleris@arm.com 114912724Snikos.nikoleris@arm.com // sanity check for whole-line writes, which should always be 115012724Snikos.nikoleris@arm.com // marked as writable as part of the fill, and then later marked 115112724Snikos.nikoleris@arm.com // dirty as part of satisfyRequest 115212724Snikos.nikoleris@arm.com if (pkt->cmd == MemCmd::WriteLineReq) { 115312724Snikos.nikoleris@arm.com assert(!pkt->hasSharers()); 115412724Snikos.nikoleris@arm.com } 115512724Snikos.nikoleris@arm.com 115612724Snikos.nikoleris@arm.com // here we deal with setting the appropriate state of the line, 115712724Snikos.nikoleris@arm.com // and we start by looking at the hasSharers flag, and ignore the 115812724Snikos.nikoleris@arm.com // cacheResponding flag (normally signalling dirty data) if the 115912724Snikos.nikoleris@arm.com // packet has sharers, thus the line is never allocated as Owned 116012724Snikos.nikoleris@arm.com // (dirty but not writable), and always ends up being either 116112724Snikos.nikoleris@arm.com // Shared, Exclusive or Modified, see Packet::setCacheResponding 116212724Snikos.nikoleris@arm.com // for more details 116312724Snikos.nikoleris@arm.com if (!pkt->hasSharers()) { 116412724Snikos.nikoleris@arm.com // we could get a writable line from memory (rather than a 116512724Snikos.nikoleris@arm.com // cache) even in a read-only cache, note that we set this bit 116612724Snikos.nikoleris@arm.com // even for a read-only cache, possibly revisit this decision 116712724Snikos.nikoleris@arm.com blk->status |= BlkWritable; 116812724Snikos.nikoleris@arm.com 116912724Snikos.nikoleris@arm.com // check if we got this via cache-to-cache transfer (i.e., from a 117012724Snikos.nikoleris@arm.com // cache that had the block in Modified or Owned state) 117112724Snikos.nikoleris@arm.com if (pkt->cacheResponding()) { 117212724Snikos.nikoleris@arm.com // we got the block in Modified state, and invalidated the 117312724Snikos.nikoleris@arm.com // owners copy 117412724Snikos.nikoleris@arm.com blk->status |= BlkDirty; 117512724Snikos.nikoleris@arm.com 117612724Snikos.nikoleris@arm.com chatty_assert(!isReadOnly, "Should never see dirty snoop response " 117712724Snikos.nikoleris@arm.com "in read-only cache %s\n", name()); 117812724Snikos.nikoleris@arm.com } 117912724Snikos.nikoleris@arm.com } 118012724Snikos.nikoleris@arm.com 118112724Snikos.nikoleris@arm.com DPRINTF(Cache, "Block addr %#llx (%s) moving from state %x to %s\n", 118212724Snikos.nikoleris@arm.com addr, is_secure ? "s" : "ns", old_state, blk->print()); 118312724Snikos.nikoleris@arm.com 118412724Snikos.nikoleris@arm.com // if we got new data, copy it in (checking for a read response 118512724Snikos.nikoleris@arm.com // and a response that has data is the same in the end) 118612724Snikos.nikoleris@arm.com if (pkt->isRead()) { 118712724Snikos.nikoleris@arm.com // sanity checks 118812724Snikos.nikoleris@arm.com assert(pkt->hasData()); 118912724Snikos.nikoleris@arm.com assert(pkt->getSize() == blkSize); 119012724Snikos.nikoleris@arm.com 119112724Snikos.nikoleris@arm.com pkt->writeDataToBlock(blk->data, blkSize); 119212724Snikos.nikoleris@arm.com } 119312724Snikos.nikoleris@arm.com // We pay for fillLatency here. 119412724Snikos.nikoleris@arm.com blk->whenReady = clockEdge() + fillLatency * clockPeriod() + 119512724Snikos.nikoleris@arm.com pkt->payloadDelay; 119612724Snikos.nikoleris@arm.com 119712724Snikos.nikoleris@arm.com return blk; 119812724Snikos.nikoleris@arm.com} 119912724Snikos.nikoleris@arm.com 120012724Snikos.nikoleris@arm.comCacheBlk* 120112724Snikos.nikoleris@arm.comBaseCache::allocateBlock(Addr addr, bool is_secure, PacketList &writebacks) 120212724Snikos.nikoleris@arm.com{ 120312724Snikos.nikoleris@arm.com // Find replacement victim 120412724Snikos.nikoleris@arm.com CacheBlk *blk = tags->findVictim(addr); 120512724Snikos.nikoleris@arm.com 120612724Snikos.nikoleris@arm.com // It is valid to return nullptr if there is no victim 120712724Snikos.nikoleris@arm.com if (!blk) 120812724Snikos.nikoleris@arm.com return nullptr; 120912724Snikos.nikoleris@arm.com 121012724Snikos.nikoleris@arm.com if (blk->isValid()) { 121112724Snikos.nikoleris@arm.com Addr repl_addr = tags->regenerateBlkAddr(blk); 121212724Snikos.nikoleris@arm.com MSHR *repl_mshr = mshrQueue.findMatch(repl_addr, blk->isSecure()); 121312724Snikos.nikoleris@arm.com if (repl_mshr) { 121412724Snikos.nikoleris@arm.com // must be an outstanding upgrade or clean request 121512724Snikos.nikoleris@arm.com // on a block we're about to replace... 121612724Snikos.nikoleris@arm.com assert((!blk->isWritable() && repl_mshr->needsWritable()) || 121712724Snikos.nikoleris@arm.com repl_mshr->isCleaning()); 121812724Snikos.nikoleris@arm.com // too hard to replace block with transient state 121912724Snikos.nikoleris@arm.com // allocation failed, block not inserted 122012724Snikos.nikoleris@arm.com return nullptr; 122112724Snikos.nikoleris@arm.com } else { 122212724Snikos.nikoleris@arm.com DPRINTF(Cache, "replacement: replacing %#llx (%s) with %#llx " 122312724Snikos.nikoleris@arm.com "(%s): %s\n", repl_addr, blk->isSecure() ? "s" : "ns", 122412724Snikos.nikoleris@arm.com addr, is_secure ? "s" : "ns", 122512724Snikos.nikoleris@arm.com blk->isDirty() ? "writeback" : "clean"); 122612724Snikos.nikoleris@arm.com 122712724Snikos.nikoleris@arm.com if (blk->wasPrefetched()) { 122812724Snikos.nikoleris@arm.com unusedPrefetches++; 122912724Snikos.nikoleris@arm.com } 123012724Snikos.nikoleris@arm.com evictBlock(blk, writebacks); 123112724Snikos.nikoleris@arm.com replacements++; 123212724Snikos.nikoleris@arm.com } 123312724Snikos.nikoleris@arm.com } 123412724Snikos.nikoleris@arm.com 123512724Snikos.nikoleris@arm.com return blk; 123612724Snikos.nikoleris@arm.com} 123712724Snikos.nikoleris@arm.com 123812724Snikos.nikoleris@arm.comvoid 123912724Snikos.nikoleris@arm.comBaseCache::invalidateBlock(CacheBlk *blk) 124012724Snikos.nikoleris@arm.com{ 124112724Snikos.nikoleris@arm.com if (blk != tempBlock) 124212724Snikos.nikoleris@arm.com tags->invalidate(blk); 124312724Snikos.nikoleris@arm.com blk->invalidate(); 124412724Snikos.nikoleris@arm.com} 124512724Snikos.nikoleris@arm.com 124612724Snikos.nikoleris@arm.comPacketPtr 124712724Snikos.nikoleris@arm.comBaseCache::writebackBlk(CacheBlk *blk) 124812724Snikos.nikoleris@arm.com{ 124912724Snikos.nikoleris@arm.com chatty_assert(!isReadOnly || writebackClean, 125012724Snikos.nikoleris@arm.com "Writeback from read-only cache"); 125112724Snikos.nikoleris@arm.com assert(blk && blk->isValid() && (blk->isDirty() || writebackClean)); 125212724Snikos.nikoleris@arm.com 125312724Snikos.nikoleris@arm.com writebacks[Request::wbMasterId]++; 125412724Snikos.nikoleris@arm.com 125512724Snikos.nikoleris@arm.com Request *req = new Request(tags->regenerateBlkAddr(blk), blkSize, 0, 125612724Snikos.nikoleris@arm.com Request::wbMasterId); 125712724Snikos.nikoleris@arm.com if (blk->isSecure()) 125812724Snikos.nikoleris@arm.com req->setFlags(Request::SECURE); 125912724Snikos.nikoleris@arm.com 126012724Snikos.nikoleris@arm.com req->taskId(blk->task_id); 126112724Snikos.nikoleris@arm.com 126212724Snikos.nikoleris@arm.com PacketPtr pkt = 126312724Snikos.nikoleris@arm.com new Packet(req, blk->isDirty() ? 126412724Snikos.nikoleris@arm.com MemCmd::WritebackDirty : MemCmd::WritebackClean); 126512724Snikos.nikoleris@arm.com 126612724Snikos.nikoleris@arm.com DPRINTF(Cache, "Create Writeback %s writable: %d, dirty: %d\n", 126712724Snikos.nikoleris@arm.com pkt->print(), blk->isWritable(), blk->isDirty()); 126812724Snikos.nikoleris@arm.com 126912724Snikos.nikoleris@arm.com if (blk->isWritable()) { 127012724Snikos.nikoleris@arm.com // not asserting shared means we pass the block in modified 127112724Snikos.nikoleris@arm.com // state, mark our own block non-writeable 127212724Snikos.nikoleris@arm.com blk->status &= ~BlkWritable; 127312724Snikos.nikoleris@arm.com } else { 127412724Snikos.nikoleris@arm.com // we are in the Owned state, tell the receiver 127512724Snikos.nikoleris@arm.com pkt->setHasSharers(); 127612724Snikos.nikoleris@arm.com } 127712724Snikos.nikoleris@arm.com 127812724Snikos.nikoleris@arm.com // make sure the block is not marked dirty 127912724Snikos.nikoleris@arm.com blk->status &= ~BlkDirty; 128012724Snikos.nikoleris@arm.com 128112724Snikos.nikoleris@arm.com pkt->allocate(); 128212724Snikos.nikoleris@arm.com pkt->setDataFromBlock(blk->data, blkSize); 128312724Snikos.nikoleris@arm.com 128412724Snikos.nikoleris@arm.com return pkt; 128512724Snikos.nikoleris@arm.com} 128612724Snikos.nikoleris@arm.com 128712724Snikos.nikoleris@arm.comPacketPtr 128812724Snikos.nikoleris@arm.comBaseCache::writecleanBlk(CacheBlk *blk, Request::Flags dest, PacketId id) 128912724Snikos.nikoleris@arm.com{ 129012724Snikos.nikoleris@arm.com Request *req = new Request(tags->regenerateBlkAddr(blk), blkSize, 0, 129112724Snikos.nikoleris@arm.com Request::wbMasterId); 129212724Snikos.nikoleris@arm.com if (blk->isSecure()) { 129312724Snikos.nikoleris@arm.com req->setFlags(Request::SECURE); 129412724Snikos.nikoleris@arm.com } 129512724Snikos.nikoleris@arm.com req->taskId(blk->task_id); 129612724Snikos.nikoleris@arm.com 129712724Snikos.nikoleris@arm.com PacketPtr pkt = new Packet(req, MemCmd::WriteClean, blkSize, id); 129812724Snikos.nikoleris@arm.com 129912724Snikos.nikoleris@arm.com if (dest) { 130012724Snikos.nikoleris@arm.com req->setFlags(dest); 130112724Snikos.nikoleris@arm.com pkt->setWriteThrough(); 130212724Snikos.nikoleris@arm.com } 130312724Snikos.nikoleris@arm.com 130412724Snikos.nikoleris@arm.com DPRINTF(Cache, "Create %s writable: %d, dirty: %d\n", pkt->print(), 130512724Snikos.nikoleris@arm.com blk->isWritable(), blk->isDirty()); 130612724Snikos.nikoleris@arm.com 130712724Snikos.nikoleris@arm.com if (blk->isWritable()) { 130812724Snikos.nikoleris@arm.com // not asserting shared means we pass the block in modified 130912724Snikos.nikoleris@arm.com // state, mark our own block non-writeable 131012724Snikos.nikoleris@arm.com blk->status &= ~BlkWritable; 131112724Snikos.nikoleris@arm.com } else { 131212724Snikos.nikoleris@arm.com // we are in the Owned state, tell the receiver 131312724Snikos.nikoleris@arm.com pkt->setHasSharers(); 131412724Snikos.nikoleris@arm.com } 131512724Snikos.nikoleris@arm.com 131612724Snikos.nikoleris@arm.com // make sure the block is not marked dirty 131712724Snikos.nikoleris@arm.com blk->status &= ~BlkDirty; 131812724Snikos.nikoleris@arm.com 131912724Snikos.nikoleris@arm.com pkt->allocate(); 132012724Snikos.nikoleris@arm.com pkt->setDataFromBlock(blk->data, blkSize); 132112724Snikos.nikoleris@arm.com 132212724Snikos.nikoleris@arm.com return pkt; 132312724Snikos.nikoleris@arm.com} 132412724Snikos.nikoleris@arm.com 132512724Snikos.nikoleris@arm.com 132612724Snikos.nikoleris@arm.comvoid 132712724Snikos.nikoleris@arm.comBaseCache::memWriteback() 132812724Snikos.nikoleris@arm.com{ 132912724Snikos.nikoleris@arm.com CacheBlkVisitorWrapper visitor(*this, &BaseCache::writebackVisitor); 133012724Snikos.nikoleris@arm.com tags->forEachBlk(visitor); 133112724Snikos.nikoleris@arm.com} 133212724Snikos.nikoleris@arm.com 133312724Snikos.nikoleris@arm.comvoid 133412724Snikos.nikoleris@arm.comBaseCache::memInvalidate() 133512724Snikos.nikoleris@arm.com{ 133612724Snikos.nikoleris@arm.com CacheBlkVisitorWrapper visitor(*this, &BaseCache::invalidateVisitor); 133712724Snikos.nikoleris@arm.com tags->forEachBlk(visitor); 133812724Snikos.nikoleris@arm.com} 133912724Snikos.nikoleris@arm.com 134012724Snikos.nikoleris@arm.combool 134112724Snikos.nikoleris@arm.comBaseCache::isDirty() const 134212724Snikos.nikoleris@arm.com{ 134312724Snikos.nikoleris@arm.com CacheBlkIsDirtyVisitor visitor; 134412724Snikos.nikoleris@arm.com tags->forEachBlk(visitor); 134512724Snikos.nikoleris@arm.com 134612724Snikos.nikoleris@arm.com return visitor.isDirty(); 134712724Snikos.nikoleris@arm.com} 134812724Snikos.nikoleris@arm.com 134912724Snikos.nikoleris@arm.combool 135012724Snikos.nikoleris@arm.comBaseCache::writebackVisitor(CacheBlk &blk) 135112724Snikos.nikoleris@arm.com{ 135212724Snikos.nikoleris@arm.com if (blk.isDirty()) { 135312724Snikos.nikoleris@arm.com assert(blk.isValid()); 135412724Snikos.nikoleris@arm.com 135512724Snikos.nikoleris@arm.com Request request(tags->regenerateBlkAddr(&blk), 135612724Snikos.nikoleris@arm.com blkSize, 0, Request::funcMasterId); 135712724Snikos.nikoleris@arm.com request.taskId(blk.task_id); 135812724Snikos.nikoleris@arm.com if (blk.isSecure()) { 135912724Snikos.nikoleris@arm.com request.setFlags(Request::SECURE); 136012724Snikos.nikoleris@arm.com } 136112724Snikos.nikoleris@arm.com 136212724Snikos.nikoleris@arm.com Packet packet(&request, MemCmd::WriteReq); 136312724Snikos.nikoleris@arm.com packet.dataStatic(blk.data); 136412724Snikos.nikoleris@arm.com 136512724Snikos.nikoleris@arm.com memSidePort.sendFunctional(&packet); 136612724Snikos.nikoleris@arm.com 136712724Snikos.nikoleris@arm.com blk.status &= ~BlkDirty; 136812724Snikos.nikoleris@arm.com } 136912724Snikos.nikoleris@arm.com 137012724Snikos.nikoleris@arm.com return true; 137112724Snikos.nikoleris@arm.com} 137212724Snikos.nikoleris@arm.com 137312724Snikos.nikoleris@arm.combool 137412724Snikos.nikoleris@arm.comBaseCache::invalidateVisitor(CacheBlk &blk) 137512724Snikos.nikoleris@arm.com{ 137612724Snikos.nikoleris@arm.com if (blk.isDirty()) 137712724Snikos.nikoleris@arm.com warn_once("Invalidating dirty cache lines. " \ 137812724Snikos.nikoleris@arm.com "Expect things to break.\n"); 137912724Snikos.nikoleris@arm.com 138012724Snikos.nikoleris@arm.com if (blk.isValid()) { 138112724Snikos.nikoleris@arm.com assert(!blk.isDirty()); 138212724Snikos.nikoleris@arm.com invalidateBlock(&blk); 138312724Snikos.nikoleris@arm.com } 138412724Snikos.nikoleris@arm.com 138512724Snikos.nikoleris@arm.com return true; 138612724Snikos.nikoleris@arm.com} 138712724Snikos.nikoleris@arm.com 138812724Snikos.nikoleris@arm.comTick 138912724Snikos.nikoleris@arm.comBaseCache::nextQueueReadyTime() const 139012724Snikos.nikoleris@arm.com{ 139112724Snikos.nikoleris@arm.com Tick nextReady = std::min(mshrQueue.nextReadyTime(), 139212724Snikos.nikoleris@arm.com writeBuffer.nextReadyTime()); 139312724Snikos.nikoleris@arm.com 139412724Snikos.nikoleris@arm.com // Don't signal prefetch ready time if no MSHRs available 139512724Snikos.nikoleris@arm.com // Will signal once enoguh MSHRs are deallocated 139612724Snikos.nikoleris@arm.com if (prefetcher && mshrQueue.canPrefetch()) { 139712724Snikos.nikoleris@arm.com nextReady = std::min(nextReady, 139812724Snikos.nikoleris@arm.com prefetcher->nextPrefetchReadyTime()); 139912724Snikos.nikoleris@arm.com } 140012724Snikos.nikoleris@arm.com 140112724Snikos.nikoleris@arm.com return nextReady; 140212724Snikos.nikoleris@arm.com} 140312724Snikos.nikoleris@arm.com 140412724Snikos.nikoleris@arm.com 140512724Snikos.nikoleris@arm.combool 140612724Snikos.nikoleris@arm.comBaseCache::sendMSHRQueuePacket(MSHR* mshr) 140712724Snikos.nikoleris@arm.com{ 140812724Snikos.nikoleris@arm.com assert(mshr); 140912724Snikos.nikoleris@arm.com 141012724Snikos.nikoleris@arm.com // use request from 1st target 141112724Snikos.nikoleris@arm.com PacketPtr tgt_pkt = mshr->getTarget()->pkt; 141212724Snikos.nikoleris@arm.com 141312724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s: MSHR %s\n", __func__, tgt_pkt->print()); 141412724Snikos.nikoleris@arm.com 141512724Snikos.nikoleris@arm.com CacheBlk *blk = tags->findBlock(mshr->blkAddr, mshr->isSecure); 141612724Snikos.nikoleris@arm.com 141712724Snikos.nikoleris@arm.com // either a prefetch that is not present upstream, or a normal 141812724Snikos.nikoleris@arm.com // MSHR request, proceed to get the packet to send downstream 141912724Snikos.nikoleris@arm.com PacketPtr pkt = createMissPacket(tgt_pkt, blk, mshr->needsWritable()); 142012724Snikos.nikoleris@arm.com 142112724Snikos.nikoleris@arm.com mshr->isForward = (pkt == nullptr); 142212724Snikos.nikoleris@arm.com 142312724Snikos.nikoleris@arm.com if (mshr->isForward) { 142412724Snikos.nikoleris@arm.com // not a cache block request, but a response is expected 142512724Snikos.nikoleris@arm.com // make copy of current packet to forward, keep current 142612724Snikos.nikoleris@arm.com // copy for response handling 142712724Snikos.nikoleris@arm.com pkt = new Packet(tgt_pkt, false, true); 142812724Snikos.nikoleris@arm.com assert(!pkt->isWrite()); 142912724Snikos.nikoleris@arm.com } 143012724Snikos.nikoleris@arm.com 143112724Snikos.nikoleris@arm.com // play it safe and append (rather than set) the sender state, 143212724Snikos.nikoleris@arm.com // as forwarded packets may already have existing state 143312724Snikos.nikoleris@arm.com pkt->pushSenderState(mshr); 143412724Snikos.nikoleris@arm.com 143512724Snikos.nikoleris@arm.com if (pkt->isClean() && blk && blk->isDirty()) { 143612724Snikos.nikoleris@arm.com // A cache clean opearation is looking for a dirty block. Mark 143712724Snikos.nikoleris@arm.com // the packet so that the destination xbar can determine that 143812724Snikos.nikoleris@arm.com // there will be a follow-up write packet as well. 143912724Snikos.nikoleris@arm.com pkt->setSatisfied(); 144012724Snikos.nikoleris@arm.com } 144112724Snikos.nikoleris@arm.com 144212724Snikos.nikoleris@arm.com if (!memSidePort.sendTimingReq(pkt)) { 144312724Snikos.nikoleris@arm.com // we are awaiting a retry, but we 144412724Snikos.nikoleris@arm.com // delete the packet and will be creating a new packet 144512724Snikos.nikoleris@arm.com // when we get the opportunity 144612724Snikos.nikoleris@arm.com delete pkt; 144712724Snikos.nikoleris@arm.com 144812724Snikos.nikoleris@arm.com // note that we have now masked any requestBus and 144912724Snikos.nikoleris@arm.com // schedSendEvent (we will wait for a retry before 145012724Snikos.nikoleris@arm.com // doing anything), and this is so even if we do not 145112724Snikos.nikoleris@arm.com // care about this packet and might override it before 145212724Snikos.nikoleris@arm.com // it gets retried 145312724Snikos.nikoleris@arm.com return true; 145412724Snikos.nikoleris@arm.com } else { 145512724Snikos.nikoleris@arm.com // As part of the call to sendTimingReq the packet is 145612724Snikos.nikoleris@arm.com // forwarded to all neighbouring caches (and any caches 145712724Snikos.nikoleris@arm.com // above them) as a snoop. Thus at this point we know if 145812724Snikos.nikoleris@arm.com // any of the neighbouring caches are responding, and if 145912724Snikos.nikoleris@arm.com // so, we know it is dirty, and we can determine if it is 146012724Snikos.nikoleris@arm.com // being passed as Modified, making our MSHR the ordering 146112724Snikos.nikoleris@arm.com // point 146212724Snikos.nikoleris@arm.com bool pending_modified_resp = !pkt->hasSharers() && 146312724Snikos.nikoleris@arm.com pkt->cacheResponding(); 146412724Snikos.nikoleris@arm.com markInService(mshr, pending_modified_resp); 146512724Snikos.nikoleris@arm.com 146612724Snikos.nikoleris@arm.com if (pkt->isClean() && blk && blk->isDirty()) { 146712724Snikos.nikoleris@arm.com // A cache clean opearation is looking for a dirty 146812724Snikos.nikoleris@arm.com // block. If a dirty block is encountered a WriteClean 146912724Snikos.nikoleris@arm.com // will update any copies to the path to the memory 147012724Snikos.nikoleris@arm.com // until the point of reference. 147112724Snikos.nikoleris@arm.com DPRINTF(CacheVerbose, "%s: packet %s found block: %s\n", 147212724Snikos.nikoleris@arm.com __func__, pkt->print(), blk->print()); 147312724Snikos.nikoleris@arm.com PacketPtr wb_pkt = writecleanBlk(blk, pkt->req->getDest(), 147412724Snikos.nikoleris@arm.com pkt->id); 147512724Snikos.nikoleris@arm.com PacketList writebacks; 147612724Snikos.nikoleris@arm.com writebacks.push_back(wb_pkt); 147712724Snikos.nikoleris@arm.com doWritebacks(writebacks, 0); 147812724Snikos.nikoleris@arm.com } 147912724Snikos.nikoleris@arm.com 148012724Snikos.nikoleris@arm.com return false; 148112724Snikos.nikoleris@arm.com } 148212724Snikos.nikoleris@arm.com} 148312724Snikos.nikoleris@arm.com 148412724Snikos.nikoleris@arm.combool 148512724Snikos.nikoleris@arm.comBaseCache::sendWriteQueuePacket(WriteQueueEntry* wq_entry) 148612724Snikos.nikoleris@arm.com{ 148712724Snikos.nikoleris@arm.com assert(wq_entry); 148812724Snikos.nikoleris@arm.com 148912724Snikos.nikoleris@arm.com // always a single target for write queue entries 149012724Snikos.nikoleris@arm.com PacketPtr tgt_pkt = wq_entry->getTarget()->pkt; 149112724Snikos.nikoleris@arm.com 149212724Snikos.nikoleris@arm.com DPRINTF(Cache, "%s: write %s\n", __func__, tgt_pkt->print()); 149312724Snikos.nikoleris@arm.com 149412724Snikos.nikoleris@arm.com // forward as is, both for evictions and uncacheable writes 149512724Snikos.nikoleris@arm.com if (!memSidePort.sendTimingReq(tgt_pkt)) { 149612724Snikos.nikoleris@arm.com // note that we have now masked any requestBus and 149712724Snikos.nikoleris@arm.com // schedSendEvent (we will wait for a retry before 149812724Snikos.nikoleris@arm.com // doing anything), and this is so even if we do not 149912724Snikos.nikoleris@arm.com // care about this packet and might override it before 150012724Snikos.nikoleris@arm.com // it gets retried 150112724Snikos.nikoleris@arm.com return true; 150212724Snikos.nikoleris@arm.com } else { 150312724Snikos.nikoleris@arm.com markInService(wq_entry); 150412724Snikos.nikoleris@arm.com return false; 150512724Snikos.nikoleris@arm.com } 150612724Snikos.nikoleris@arm.com} 150712724Snikos.nikoleris@arm.com 150812724Snikos.nikoleris@arm.comvoid 150912724Snikos.nikoleris@arm.comBaseCache::serialize(CheckpointOut &cp) const 151012724Snikos.nikoleris@arm.com{ 151112724Snikos.nikoleris@arm.com bool dirty(isDirty()); 151212724Snikos.nikoleris@arm.com 151312724Snikos.nikoleris@arm.com if (dirty) { 151412724Snikos.nikoleris@arm.com warn("*** The cache still contains dirty data. ***\n"); 151512724Snikos.nikoleris@arm.com warn(" Make sure to drain the system using the correct flags.\n"); 151612724Snikos.nikoleris@arm.com warn(" This checkpoint will not restore correctly " \ 151712724Snikos.nikoleris@arm.com "and dirty data in the cache will be lost!\n"); 151812724Snikos.nikoleris@arm.com } 151912724Snikos.nikoleris@arm.com 152012724Snikos.nikoleris@arm.com // Since we don't checkpoint the data in the cache, any dirty data 152112724Snikos.nikoleris@arm.com // will be lost when restoring from a checkpoint of a system that 152212724Snikos.nikoleris@arm.com // wasn't drained properly. Flag the checkpoint as invalid if the 152312724Snikos.nikoleris@arm.com // cache contains dirty data. 152412724Snikos.nikoleris@arm.com bool bad_checkpoint(dirty); 152512724Snikos.nikoleris@arm.com SERIALIZE_SCALAR(bad_checkpoint); 152612724Snikos.nikoleris@arm.com} 152712724Snikos.nikoleris@arm.com 152812724Snikos.nikoleris@arm.comvoid 152912724Snikos.nikoleris@arm.comBaseCache::unserialize(CheckpointIn &cp) 153012724Snikos.nikoleris@arm.com{ 153112724Snikos.nikoleris@arm.com bool bad_checkpoint; 153212724Snikos.nikoleris@arm.com UNSERIALIZE_SCALAR(bad_checkpoint); 153312724Snikos.nikoleris@arm.com if (bad_checkpoint) { 153412724Snikos.nikoleris@arm.com fatal("Restoring from checkpoints with dirty caches is not " 153512724Snikos.nikoleris@arm.com "supported in the classic memory system. Please remove any " 153612724Snikos.nikoleris@arm.com "caches or drain them properly before taking checkpoints.\n"); 153712724Snikos.nikoleris@arm.com } 153812724Snikos.nikoleris@arm.com} 153912724Snikos.nikoleris@arm.com 154012724Snikos.nikoleris@arm.comvoid 15412810SN/ABaseCache::regStats() 15422810SN/A{ 154311522Sstephan.diestelhorst@arm.com MemObject::regStats(); 154411522Sstephan.diestelhorst@arm.com 15452810SN/A using namespace Stats; 15462810SN/A 15472810SN/A // Hit statistics 15484022SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 15494022SN/A MemCmd cmd(access_idx); 15504022SN/A const string &cstr = cmd.toString(); 15512810SN/A 15522810SN/A hits[access_idx] 15538833Sdam.sunwoo@arm.com .init(system->maxMasters()) 15542810SN/A .name(name() + "." + cstr + "_hits") 15552810SN/A .desc("number of " + cstr + " hits") 15562810SN/A .flags(total | nozero | nonan) 15572810SN/A ; 15588833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 15598833Sdam.sunwoo@arm.com hits[access_idx].subname(i, system->getMasterName(i)); 15608833Sdam.sunwoo@arm.com } 15612810SN/A } 15622810SN/A 15634871SN/A// These macros make it easier to sum the right subset of commands and 15644871SN/A// to change the subset of commands that are considered "demand" vs 15654871SN/A// "non-demand" 15664871SN/A#define SUM_DEMAND(s) \ 156711455Sandreas.hansson@arm.com (s[MemCmd::ReadReq] + s[MemCmd::WriteReq] + s[MemCmd::WriteLineReq] + \ 156810885Sandreas.hansson@arm.com s[MemCmd::ReadExReq] + s[MemCmd::ReadCleanReq] + s[MemCmd::ReadSharedReq]) 15694871SN/A 15704871SN/A// should writebacks be included here? prior code was inconsistent... 15714871SN/A#define SUM_NON_DEMAND(s) \ 15724871SN/A (s[MemCmd::SoftPFReq] + s[MemCmd::HardPFReq]) 15734871SN/A 15742810SN/A demandHits 15752810SN/A .name(name() + ".demand_hits") 15762810SN/A .desc("number of demand (read+write) hits") 15778833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 15782810SN/A ; 15794871SN/A demandHits = SUM_DEMAND(hits); 15808833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 15818833Sdam.sunwoo@arm.com demandHits.subname(i, system->getMasterName(i)); 15828833Sdam.sunwoo@arm.com } 15832810SN/A 15842810SN/A overallHits 15852810SN/A .name(name() + ".overall_hits") 15862810SN/A .desc("number of overall hits") 15878833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 15882810SN/A ; 15894871SN/A overallHits = demandHits + SUM_NON_DEMAND(hits); 15908833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 15918833Sdam.sunwoo@arm.com overallHits.subname(i, system->getMasterName(i)); 15928833Sdam.sunwoo@arm.com } 15932810SN/A 15942810SN/A // Miss statistics 15954022SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 15964022SN/A MemCmd cmd(access_idx); 15974022SN/A const string &cstr = cmd.toString(); 15982810SN/A 15992810SN/A misses[access_idx] 16008833Sdam.sunwoo@arm.com .init(system->maxMasters()) 16012810SN/A .name(name() + "." + cstr + "_misses") 16022810SN/A .desc("number of " + cstr + " misses") 16032810SN/A .flags(total | nozero | nonan) 16042810SN/A ; 16058833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16068833Sdam.sunwoo@arm.com misses[access_idx].subname(i, system->getMasterName(i)); 16078833Sdam.sunwoo@arm.com } 16082810SN/A } 16092810SN/A 16102810SN/A demandMisses 16112810SN/A .name(name() + ".demand_misses") 16122810SN/A .desc("number of demand (read+write) misses") 16138833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 16142810SN/A ; 16154871SN/A demandMisses = SUM_DEMAND(misses); 16168833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16178833Sdam.sunwoo@arm.com demandMisses.subname(i, system->getMasterName(i)); 16188833Sdam.sunwoo@arm.com } 16192810SN/A 16202810SN/A overallMisses 16212810SN/A .name(name() + ".overall_misses") 16222810SN/A .desc("number of overall misses") 16238833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 16242810SN/A ; 16254871SN/A overallMisses = demandMisses + SUM_NON_DEMAND(misses); 16268833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16278833Sdam.sunwoo@arm.com overallMisses.subname(i, system->getMasterName(i)); 16288833Sdam.sunwoo@arm.com } 16292810SN/A 16302810SN/A // Miss latency statistics 16314022SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 16324022SN/A MemCmd cmd(access_idx); 16334022SN/A const string &cstr = cmd.toString(); 16342810SN/A 16352810SN/A missLatency[access_idx] 16368833Sdam.sunwoo@arm.com .init(system->maxMasters()) 16372810SN/A .name(name() + "." + cstr + "_miss_latency") 16382810SN/A .desc("number of " + cstr + " miss cycles") 16392810SN/A .flags(total | nozero | nonan) 16402810SN/A ; 16418833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16428833Sdam.sunwoo@arm.com missLatency[access_idx].subname(i, system->getMasterName(i)); 16438833Sdam.sunwoo@arm.com } 16442810SN/A } 16452810SN/A 16462810SN/A demandMissLatency 16472810SN/A .name(name() + ".demand_miss_latency") 16482810SN/A .desc("number of demand (read+write) miss cycles") 16498833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 16502810SN/A ; 16514871SN/A demandMissLatency = SUM_DEMAND(missLatency); 16528833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16538833Sdam.sunwoo@arm.com demandMissLatency.subname(i, system->getMasterName(i)); 16548833Sdam.sunwoo@arm.com } 16552810SN/A 16562810SN/A overallMissLatency 16572810SN/A .name(name() + ".overall_miss_latency") 16582810SN/A .desc("number of overall miss cycles") 16598833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 16602810SN/A ; 16614871SN/A overallMissLatency = demandMissLatency + SUM_NON_DEMAND(missLatency); 16628833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16638833Sdam.sunwoo@arm.com overallMissLatency.subname(i, system->getMasterName(i)); 16648833Sdam.sunwoo@arm.com } 16652810SN/A 16662810SN/A // access formulas 16674022SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 16684022SN/A MemCmd cmd(access_idx); 16694022SN/A const string &cstr = cmd.toString(); 16702810SN/A 16712810SN/A accesses[access_idx] 16722810SN/A .name(name() + "." + cstr + "_accesses") 16732810SN/A .desc("number of " + cstr + " accesses(hits+misses)") 16742810SN/A .flags(total | nozero | nonan) 16752810SN/A ; 16768833Sdam.sunwoo@arm.com accesses[access_idx] = hits[access_idx] + misses[access_idx]; 16772810SN/A 16788833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16798833Sdam.sunwoo@arm.com accesses[access_idx].subname(i, system->getMasterName(i)); 16808833Sdam.sunwoo@arm.com } 16812810SN/A } 16822810SN/A 16832810SN/A demandAccesses 16842810SN/A .name(name() + ".demand_accesses") 16852810SN/A .desc("number of demand (read+write) accesses") 16868833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 16872810SN/A ; 16882810SN/A demandAccesses = demandHits + demandMisses; 16898833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 16908833Sdam.sunwoo@arm.com demandAccesses.subname(i, system->getMasterName(i)); 16918833Sdam.sunwoo@arm.com } 16922810SN/A 16932810SN/A overallAccesses 16942810SN/A .name(name() + ".overall_accesses") 16952810SN/A .desc("number of overall (read+write) accesses") 16968833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 16972810SN/A ; 16982810SN/A overallAccesses = overallHits + overallMisses; 16998833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17008833Sdam.sunwoo@arm.com overallAccesses.subname(i, system->getMasterName(i)); 17018833Sdam.sunwoo@arm.com } 17022810SN/A 17032810SN/A // miss rate formulas 17044022SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 17054022SN/A MemCmd cmd(access_idx); 17064022SN/A const string &cstr = cmd.toString(); 17072810SN/A 17082810SN/A missRate[access_idx] 17092810SN/A .name(name() + "." + cstr + "_miss_rate") 17102810SN/A .desc("miss rate for " + cstr + " accesses") 17112810SN/A .flags(total | nozero | nonan) 17122810SN/A ; 17138833Sdam.sunwoo@arm.com missRate[access_idx] = misses[access_idx] / accesses[access_idx]; 17142810SN/A 17158833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17168833Sdam.sunwoo@arm.com missRate[access_idx].subname(i, system->getMasterName(i)); 17178833Sdam.sunwoo@arm.com } 17182810SN/A } 17192810SN/A 17202810SN/A demandMissRate 17212810SN/A .name(name() + ".demand_miss_rate") 17222810SN/A .desc("miss rate for demand accesses") 17238833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 17242810SN/A ; 17252810SN/A demandMissRate = demandMisses / demandAccesses; 17268833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17278833Sdam.sunwoo@arm.com demandMissRate.subname(i, system->getMasterName(i)); 17288833Sdam.sunwoo@arm.com } 17292810SN/A 17302810SN/A overallMissRate 17312810SN/A .name(name() + ".overall_miss_rate") 17322810SN/A .desc("miss rate for overall accesses") 17338833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 17342810SN/A ; 17352810SN/A overallMissRate = overallMisses / overallAccesses; 17368833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17378833Sdam.sunwoo@arm.com overallMissRate.subname(i, system->getMasterName(i)); 17388833Sdam.sunwoo@arm.com } 17392810SN/A 17402810SN/A // miss latency formulas 17414022SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 17424022SN/A MemCmd cmd(access_idx); 17434022SN/A const string &cstr = cmd.toString(); 17442810SN/A 17452810SN/A avgMissLatency[access_idx] 17462810SN/A .name(name() + "." + cstr + "_avg_miss_latency") 17472810SN/A .desc("average " + cstr + " miss latency") 17482810SN/A .flags(total | nozero | nonan) 17492810SN/A ; 17502810SN/A avgMissLatency[access_idx] = 17512810SN/A missLatency[access_idx] / misses[access_idx]; 17528833Sdam.sunwoo@arm.com 17538833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17548833Sdam.sunwoo@arm.com avgMissLatency[access_idx].subname(i, system->getMasterName(i)); 17558833Sdam.sunwoo@arm.com } 17562810SN/A } 17572810SN/A 17582810SN/A demandAvgMissLatency 17592810SN/A .name(name() + ".demand_avg_miss_latency") 17602810SN/A .desc("average overall miss latency") 17618833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 17622810SN/A ; 17632810SN/A demandAvgMissLatency = demandMissLatency / demandMisses; 17648833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17658833Sdam.sunwoo@arm.com demandAvgMissLatency.subname(i, system->getMasterName(i)); 17668833Sdam.sunwoo@arm.com } 17672810SN/A 17682810SN/A overallAvgMissLatency 17692810SN/A .name(name() + ".overall_avg_miss_latency") 17702810SN/A .desc("average overall miss latency") 17718833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 17722810SN/A ; 17732810SN/A overallAvgMissLatency = overallMissLatency / overallMisses; 17748833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 17758833Sdam.sunwoo@arm.com overallAvgMissLatency.subname(i, system->getMasterName(i)); 17768833Sdam.sunwoo@arm.com } 17772810SN/A 17782810SN/A blocked_cycles.init(NUM_BLOCKED_CAUSES); 17792810SN/A blocked_cycles 17802810SN/A .name(name() + ".blocked_cycles") 17812810SN/A .desc("number of cycles access was blocked") 17822810SN/A .subname(Blocked_NoMSHRs, "no_mshrs") 17832810SN/A .subname(Blocked_NoTargets, "no_targets") 17842810SN/A ; 17852810SN/A 17862810SN/A 17872810SN/A blocked_causes.init(NUM_BLOCKED_CAUSES); 17882810SN/A blocked_causes 17892810SN/A .name(name() + ".blocked") 17902810SN/A .desc("number of cycles access was blocked") 17912810SN/A .subname(Blocked_NoMSHRs, "no_mshrs") 17922810SN/A .subname(Blocked_NoTargets, "no_targets") 17932810SN/A ; 17942810SN/A 17952810SN/A avg_blocked 17962810SN/A .name(name() + ".avg_blocked_cycles") 17972810SN/A .desc("average number of cycles each access was blocked") 17982810SN/A .subname(Blocked_NoMSHRs, "no_mshrs") 17992810SN/A .subname(Blocked_NoTargets, "no_targets") 18002810SN/A ; 18012810SN/A 18022810SN/A avg_blocked = blocked_cycles / blocked_causes; 18032810SN/A 180411436SRekai.GonzalezAlberquilla@arm.com unusedPrefetches 180511436SRekai.GonzalezAlberquilla@arm.com .name(name() + ".unused_prefetches") 180611436SRekai.GonzalezAlberquilla@arm.com .desc("number of HardPF blocks evicted w/o reference") 180711436SRekai.GonzalezAlberquilla@arm.com .flags(nozero) 180811436SRekai.GonzalezAlberquilla@arm.com ; 180911436SRekai.GonzalezAlberquilla@arm.com 18104626SN/A writebacks 18118833Sdam.sunwoo@arm.com .init(system->maxMasters()) 18124626SN/A .name(name() + ".writebacks") 18134626SN/A .desc("number of writebacks") 18148833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 18154626SN/A ; 18168833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18178833Sdam.sunwoo@arm.com writebacks.subname(i, system->getMasterName(i)); 18188833Sdam.sunwoo@arm.com } 18194626SN/A 18204626SN/A // MSHR statistics 18214626SN/A // MSHR hit statistics 18224626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 18234626SN/A MemCmd cmd(access_idx); 18244626SN/A const string &cstr = cmd.toString(); 18254626SN/A 18264626SN/A mshr_hits[access_idx] 18278833Sdam.sunwoo@arm.com .init(system->maxMasters()) 18284626SN/A .name(name() + "." + cstr + "_mshr_hits") 18294626SN/A .desc("number of " + cstr + " MSHR hits") 18304626SN/A .flags(total | nozero | nonan) 18314626SN/A ; 18328833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18338833Sdam.sunwoo@arm.com mshr_hits[access_idx].subname(i, system->getMasterName(i)); 18348833Sdam.sunwoo@arm.com } 18354626SN/A } 18364626SN/A 18374626SN/A demandMshrHits 18384626SN/A .name(name() + ".demand_mshr_hits") 18394626SN/A .desc("number of demand (read+write) MSHR hits") 18408833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 18414626SN/A ; 18424871SN/A demandMshrHits = SUM_DEMAND(mshr_hits); 18438833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18448833Sdam.sunwoo@arm.com demandMshrHits.subname(i, system->getMasterName(i)); 18458833Sdam.sunwoo@arm.com } 18464626SN/A 18474626SN/A overallMshrHits 18484626SN/A .name(name() + ".overall_mshr_hits") 18494626SN/A .desc("number of overall MSHR hits") 18508833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 18514626SN/A ; 18524871SN/A overallMshrHits = demandMshrHits + SUM_NON_DEMAND(mshr_hits); 18538833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18548833Sdam.sunwoo@arm.com overallMshrHits.subname(i, system->getMasterName(i)); 18558833Sdam.sunwoo@arm.com } 18564626SN/A 18574626SN/A // MSHR miss statistics 18584626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 18594626SN/A MemCmd cmd(access_idx); 18604626SN/A const string &cstr = cmd.toString(); 18614626SN/A 18624626SN/A mshr_misses[access_idx] 18638833Sdam.sunwoo@arm.com .init(system->maxMasters()) 18644626SN/A .name(name() + "." + cstr + "_mshr_misses") 18654626SN/A .desc("number of " + cstr + " MSHR misses") 18664626SN/A .flags(total | nozero | nonan) 18674626SN/A ; 18688833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18698833Sdam.sunwoo@arm.com mshr_misses[access_idx].subname(i, system->getMasterName(i)); 18708833Sdam.sunwoo@arm.com } 18714626SN/A } 18724626SN/A 18734626SN/A demandMshrMisses 18744626SN/A .name(name() + ".demand_mshr_misses") 18754626SN/A .desc("number of demand (read+write) MSHR misses") 18768833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 18774626SN/A ; 18784871SN/A demandMshrMisses = SUM_DEMAND(mshr_misses); 18798833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18808833Sdam.sunwoo@arm.com demandMshrMisses.subname(i, system->getMasterName(i)); 18818833Sdam.sunwoo@arm.com } 18824626SN/A 18834626SN/A overallMshrMisses 18844626SN/A .name(name() + ".overall_mshr_misses") 18854626SN/A .desc("number of overall MSHR misses") 18868833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 18874626SN/A ; 18884871SN/A overallMshrMisses = demandMshrMisses + SUM_NON_DEMAND(mshr_misses); 18898833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 18908833Sdam.sunwoo@arm.com overallMshrMisses.subname(i, system->getMasterName(i)); 18918833Sdam.sunwoo@arm.com } 18924626SN/A 18934626SN/A // MSHR miss latency statistics 18944626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 18954626SN/A MemCmd cmd(access_idx); 18964626SN/A const string &cstr = cmd.toString(); 18974626SN/A 18984626SN/A mshr_miss_latency[access_idx] 18998833Sdam.sunwoo@arm.com .init(system->maxMasters()) 19004626SN/A .name(name() + "." + cstr + "_mshr_miss_latency") 19014626SN/A .desc("number of " + cstr + " MSHR miss cycles") 19024626SN/A .flags(total | nozero | nonan) 19034626SN/A ; 19048833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 19058833Sdam.sunwoo@arm.com mshr_miss_latency[access_idx].subname(i, system->getMasterName(i)); 19068833Sdam.sunwoo@arm.com } 19074626SN/A } 19084626SN/A 19094626SN/A demandMshrMissLatency 19104626SN/A .name(name() + ".demand_mshr_miss_latency") 19114626SN/A .desc("number of demand (read+write) MSHR miss cycles") 19128833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 19134626SN/A ; 19144871SN/A demandMshrMissLatency = SUM_DEMAND(mshr_miss_latency); 19158833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 19168833Sdam.sunwoo@arm.com demandMshrMissLatency.subname(i, system->getMasterName(i)); 19178833Sdam.sunwoo@arm.com } 19184626SN/A 19194626SN/A overallMshrMissLatency 19204626SN/A .name(name() + ".overall_mshr_miss_latency") 19214626SN/A .desc("number of overall MSHR miss cycles") 19228833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 19234626SN/A ; 19244871SN/A overallMshrMissLatency = 19254871SN/A demandMshrMissLatency + SUM_NON_DEMAND(mshr_miss_latency); 19268833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 19278833Sdam.sunwoo@arm.com overallMshrMissLatency.subname(i, system->getMasterName(i)); 19288833Sdam.sunwoo@arm.com } 19294626SN/A 19304626SN/A // MSHR uncacheable statistics 19314626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 19324626SN/A MemCmd cmd(access_idx); 19334626SN/A const string &cstr = cmd.toString(); 19344626SN/A 19354626SN/A mshr_uncacheable[access_idx] 19368833Sdam.sunwoo@arm.com .init(system->maxMasters()) 19374626SN/A .name(name() + "." + cstr + "_mshr_uncacheable") 19384626SN/A .desc("number of " + cstr + " MSHR uncacheable") 19394626SN/A .flags(total | nozero | nonan) 19404626SN/A ; 19418833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 19428833Sdam.sunwoo@arm.com mshr_uncacheable[access_idx].subname(i, system->getMasterName(i)); 19438833Sdam.sunwoo@arm.com } 19444626SN/A } 19454626SN/A 19464626SN/A overallMshrUncacheable 19474626SN/A .name(name() + ".overall_mshr_uncacheable_misses") 19484626SN/A .desc("number of overall MSHR uncacheable misses") 19498833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 19504626SN/A ; 19514871SN/A overallMshrUncacheable = 19524871SN/A SUM_DEMAND(mshr_uncacheable) + SUM_NON_DEMAND(mshr_uncacheable); 19538833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 19548833Sdam.sunwoo@arm.com overallMshrUncacheable.subname(i, system->getMasterName(i)); 19558833Sdam.sunwoo@arm.com } 19564626SN/A 19574626SN/A // MSHR miss latency statistics 19584626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 19594626SN/A MemCmd cmd(access_idx); 19604626SN/A const string &cstr = cmd.toString(); 19614626SN/A 19624626SN/A mshr_uncacheable_lat[access_idx] 19638833Sdam.sunwoo@arm.com .init(system->maxMasters()) 19644626SN/A .name(name() + "." + cstr + "_mshr_uncacheable_latency") 19654626SN/A .desc("number of " + cstr + " MSHR uncacheable cycles") 19664626SN/A .flags(total | nozero | nonan) 19674626SN/A ; 19688833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 196911483Snikos.nikoleris@arm.com mshr_uncacheable_lat[access_idx].subname( 197011483Snikos.nikoleris@arm.com i, system->getMasterName(i)); 19718833Sdam.sunwoo@arm.com } 19724626SN/A } 19734626SN/A 19744626SN/A overallMshrUncacheableLatency 19754626SN/A .name(name() + ".overall_mshr_uncacheable_latency") 19764626SN/A .desc("number of overall MSHR uncacheable cycles") 19778833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 19784626SN/A ; 19794871SN/A overallMshrUncacheableLatency = 19804871SN/A SUM_DEMAND(mshr_uncacheable_lat) + 19814871SN/A SUM_NON_DEMAND(mshr_uncacheable_lat); 19828833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 19838833Sdam.sunwoo@arm.com overallMshrUncacheableLatency.subname(i, system->getMasterName(i)); 19848833Sdam.sunwoo@arm.com } 19854626SN/A 19864626SN/A#if 0 19874626SN/A // MSHR access formulas 19884626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 19894626SN/A MemCmd cmd(access_idx); 19904626SN/A const string &cstr = cmd.toString(); 19914626SN/A 19924626SN/A mshrAccesses[access_idx] 19934626SN/A .name(name() + "." + cstr + "_mshr_accesses") 19944626SN/A .desc("number of " + cstr + " mshr accesses(hits+misses)") 19954626SN/A .flags(total | nozero | nonan) 19964626SN/A ; 19974626SN/A mshrAccesses[access_idx] = 19984626SN/A mshr_hits[access_idx] + mshr_misses[access_idx] 19994626SN/A + mshr_uncacheable[access_idx]; 20004626SN/A } 20014626SN/A 20024626SN/A demandMshrAccesses 20034626SN/A .name(name() + ".demand_mshr_accesses") 20044626SN/A .desc("number of demand (read+write) mshr accesses") 20054626SN/A .flags(total | nozero | nonan) 20064626SN/A ; 20074626SN/A demandMshrAccesses = demandMshrHits + demandMshrMisses; 20084626SN/A 20094626SN/A overallMshrAccesses 20104626SN/A .name(name() + ".overall_mshr_accesses") 20114626SN/A .desc("number of overall (read+write) mshr accesses") 20124626SN/A .flags(total | nozero | nonan) 20134626SN/A ; 20144626SN/A overallMshrAccesses = overallMshrHits + overallMshrMisses 20154626SN/A + overallMshrUncacheable; 20164626SN/A#endif 20174626SN/A 20184626SN/A // MSHR miss rate formulas 20194626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 20204626SN/A MemCmd cmd(access_idx); 20214626SN/A const string &cstr = cmd.toString(); 20224626SN/A 20234626SN/A mshrMissRate[access_idx] 20244626SN/A .name(name() + "." + cstr + "_mshr_miss_rate") 20254626SN/A .desc("mshr miss rate for " + cstr + " accesses") 20264626SN/A .flags(total | nozero | nonan) 20274626SN/A ; 20284626SN/A mshrMissRate[access_idx] = 20294626SN/A mshr_misses[access_idx] / accesses[access_idx]; 20308833Sdam.sunwoo@arm.com 20318833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 20328833Sdam.sunwoo@arm.com mshrMissRate[access_idx].subname(i, system->getMasterName(i)); 20338833Sdam.sunwoo@arm.com } 20344626SN/A } 20354626SN/A 20364626SN/A demandMshrMissRate 20374626SN/A .name(name() + ".demand_mshr_miss_rate") 20384626SN/A .desc("mshr miss rate for demand accesses") 20398833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 20404626SN/A ; 20414626SN/A demandMshrMissRate = demandMshrMisses / demandAccesses; 20428833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 20438833Sdam.sunwoo@arm.com demandMshrMissRate.subname(i, system->getMasterName(i)); 20448833Sdam.sunwoo@arm.com } 20454626SN/A 20464626SN/A overallMshrMissRate 20474626SN/A .name(name() + ".overall_mshr_miss_rate") 20484626SN/A .desc("mshr miss rate for overall accesses") 20498833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 20504626SN/A ; 20514626SN/A overallMshrMissRate = overallMshrMisses / overallAccesses; 20528833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 20538833Sdam.sunwoo@arm.com overallMshrMissRate.subname(i, system->getMasterName(i)); 20548833Sdam.sunwoo@arm.com } 20554626SN/A 20564626SN/A // mshrMiss latency formulas 20574626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 20584626SN/A MemCmd cmd(access_idx); 20594626SN/A const string &cstr = cmd.toString(); 20604626SN/A 20614626SN/A avgMshrMissLatency[access_idx] 20624626SN/A .name(name() + "." + cstr + "_avg_mshr_miss_latency") 20634626SN/A .desc("average " + cstr + " mshr miss latency") 20644626SN/A .flags(total | nozero | nonan) 20654626SN/A ; 20664626SN/A avgMshrMissLatency[access_idx] = 20674626SN/A mshr_miss_latency[access_idx] / mshr_misses[access_idx]; 20688833Sdam.sunwoo@arm.com 20698833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 207011483Snikos.nikoleris@arm.com avgMshrMissLatency[access_idx].subname( 207111483Snikos.nikoleris@arm.com i, system->getMasterName(i)); 20728833Sdam.sunwoo@arm.com } 20734626SN/A } 20744626SN/A 20754626SN/A demandAvgMshrMissLatency 20764626SN/A .name(name() + ".demand_avg_mshr_miss_latency") 20774626SN/A .desc("average overall mshr miss latency") 20788833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 20794626SN/A ; 20804626SN/A demandAvgMshrMissLatency = demandMshrMissLatency / demandMshrMisses; 20818833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 20828833Sdam.sunwoo@arm.com demandAvgMshrMissLatency.subname(i, system->getMasterName(i)); 20838833Sdam.sunwoo@arm.com } 20844626SN/A 20854626SN/A overallAvgMshrMissLatency 20864626SN/A .name(name() + ".overall_avg_mshr_miss_latency") 20874626SN/A .desc("average overall mshr miss latency") 20888833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 20894626SN/A ; 20904626SN/A overallAvgMshrMissLatency = overallMshrMissLatency / overallMshrMisses; 20918833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 20928833Sdam.sunwoo@arm.com overallAvgMshrMissLatency.subname(i, system->getMasterName(i)); 20938833Sdam.sunwoo@arm.com } 20944626SN/A 20954626SN/A // mshrUncacheable latency formulas 20964626SN/A for (int access_idx = 0; access_idx < MemCmd::NUM_MEM_CMDS; ++access_idx) { 20974626SN/A MemCmd cmd(access_idx); 20984626SN/A const string &cstr = cmd.toString(); 20994626SN/A 21004626SN/A avgMshrUncacheableLatency[access_idx] 21014626SN/A .name(name() + "." + cstr + "_avg_mshr_uncacheable_latency") 21024626SN/A .desc("average " + cstr + " mshr uncacheable latency") 21034626SN/A .flags(total | nozero | nonan) 21044626SN/A ; 21054626SN/A avgMshrUncacheableLatency[access_idx] = 21064626SN/A mshr_uncacheable_lat[access_idx] / mshr_uncacheable[access_idx]; 21078833Sdam.sunwoo@arm.com 21088833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 210911483Snikos.nikoleris@arm.com avgMshrUncacheableLatency[access_idx].subname( 211011483Snikos.nikoleris@arm.com i, system->getMasterName(i)); 21118833Sdam.sunwoo@arm.com } 21124626SN/A } 21134626SN/A 21144626SN/A overallAvgMshrUncacheableLatency 21154626SN/A .name(name() + ".overall_avg_mshr_uncacheable_latency") 21164626SN/A .desc("average overall mshr uncacheable latency") 21178833Sdam.sunwoo@arm.com .flags(total | nozero | nonan) 21184626SN/A ; 211911483Snikos.nikoleris@arm.com overallAvgMshrUncacheableLatency = 212011483Snikos.nikoleris@arm.com overallMshrUncacheableLatency / overallMshrUncacheable; 21218833Sdam.sunwoo@arm.com for (int i = 0; i < system->maxMasters(); i++) { 21228833Sdam.sunwoo@arm.com overallAvgMshrUncacheableLatency.subname(i, system->getMasterName(i)); 21238833Sdam.sunwoo@arm.com } 21244626SN/A 212512702Snikos.nikoleris@arm.com replacements 212612702Snikos.nikoleris@arm.com .name(name() + ".replacements") 212712702Snikos.nikoleris@arm.com .desc("number of replacements") 212812702Snikos.nikoleris@arm.com ; 21292810SN/A} 213012724Snikos.nikoleris@arm.com 213112724Snikos.nikoleris@arm.com/////////////// 213212724Snikos.nikoleris@arm.com// 213312724Snikos.nikoleris@arm.com// CpuSidePort 213412724Snikos.nikoleris@arm.com// 213512724Snikos.nikoleris@arm.com/////////////// 213612724Snikos.nikoleris@arm.combool 213712724Snikos.nikoleris@arm.comBaseCache::CpuSidePort::recvTimingSnoopResp(PacketPtr pkt) 213812724Snikos.nikoleris@arm.com{ 213912725Snikos.nikoleris@arm.com // Snoops shouldn't happen when bypassing caches 214012725Snikos.nikoleris@arm.com assert(!cache->system->bypassCaches()); 214112725Snikos.nikoleris@arm.com 214212725Snikos.nikoleris@arm.com assert(pkt->isResponse()); 214312725Snikos.nikoleris@arm.com 214412724Snikos.nikoleris@arm.com // Express snoop responses from master to slave, e.g., from L1 to L2 214512724Snikos.nikoleris@arm.com cache->recvTimingSnoopResp(pkt); 214612724Snikos.nikoleris@arm.com return true; 214712724Snikos.nikoleris@arm.com} 214812724Snikos.nikoleris@arm.com 214912724Snikos.nikoleris@arm.com 215012724Snikos.nikoleris@arm.combool 215112724Snikos.nikoleris@arm.comBaseCache::CpuSidePort::tryTiming(PacketPtr pkt) 215212724Snikos.nikoleris@arm.com{ 215312725Snikos.nikoleris@arm.com if (cache->system->bypassCaches() || pkt->isExpressSnoop()) { 215412724Snikos.nikoleris@arm.com // always let express snoop packets through even if blocked 215512724Snikos.nikoleris@arm.com return true; 215612724Snikos.nikoleris@arm.com } else if (blocked || mustSendRetry) { 215712724Snikos.nikoleris@arm.com // either already committed to send a retry, or blocked 215812724Snikos.nikoleris@arm.com mustSendRetry = true; 215912724Snikos.nikoleris@arm.com return false; 216012724Snikos.nikoleris@arm.com } 216112724Snikos.nikoleris@arm.com mustSendRetry = false; 216212724Snikos.nikoleris@arm.com return true; 216312724Snikos.nikoleris@arm.com} 216412724Snikos.nikoleris@arm.com 216512724Snikos.nikoleris@arm.combool 216612724Snikos.nikoleris@arm.comBaseCache::CpuSidePort::recvTimingReq(PacketPtr pkt) 216712724Snikos.nikoleris@arm.com{ 216812725Snikos.nikoleris@arm.com assert(pkt->isRequest()); 216912725Snikos.nikoleris@arm.com 217012725Snikos.nikoleris@arm.com if (cache->system->bypassCaches()) { 217112725Snikos.nikoleris@arm.com // Just forward the packet if caches are disabled. 217212725Snikos.nikoleris@arm.com // @todo This should really enqueue the packet rather 217312725Snikos.nikoleris@arm.com bool M5_VAR_USED success = cache->memSidePort.sendTimingReq(pkt); 217412725Snikos.nikoleris@arm.com assert(success); 217512725Snikos.nikoleris@arm.com return true; 217612725Snikos.nikoleris@arm.com } else if (tryTiming(pkt)) { 217712724Snikos.nikoleris@arm.com cache->recvTimingReq(pkt); 217812724Snikos.nikoleris@arm.com return true; 217912724Snikos.nikoleris@arm.com } 218012724Snikos.nikoleris@arm.com return false; 218112724Snikos.nikoleris@arm.com} 218212724Snikos.nikoleris@arm.com 218312724Snikos.nikoleris@arm.comTick 218412724Snikos.nikoleris@arm.comBaseCache::CpuSidePort::recvAtomic(PacketPtr pkt) 218512724Snikos.nikoleris@arm.com{ 218612725Snikos.nikoleris@arm.com if (cache->system->bypassCaches()) { 218712725Snikos.nikoleris@arm.com // Forward the request if the system is in cache bypass mode. 218812725Snikos.nikoleris@arm.com return cache->memSidePort.sendAtomic(pkt); 218912725Snikos.nikoleris@arm.com } else { 219012725Snikos.nikoleris@arm.com return cache->recvAtomic(pkt); 219112725Snikos.nikoleris@arm.com } 219212724Snikos.nikoleris@arm.com} 219312724Snikos.nikoleris@arm.com 219412724Snikos.nikoleris@arm.comvoid 219512724Snikos.nikoleris@arm.comBaseCache::CpuSidePort::recvFunctional(PacketPtr pkt) 219612724Snikos.nikoleris@arm.com{ 219712725Snikos.nikoleris@arm.com if (cache->system->bypassCaches()) { 219812725Snikos.nikoleris@arm.com // The cache should be flushed if we are in cache bypass mode, 219912725Snikos.nikoleris@arm.com // so we don't need to check if we need to update anything. 220012725Snikos.nikoleris@arm.com cache->memSidePort.sendFunctional(pkt); 220112725Snikos.nikoleris@arm.com return; 220212725Snikos.nikoleris@arm.com } 220312725Snikos.nikoleris@arm.com 220412724Snikos.nikoleris@arm.com // functional request 220512724Snikos.nikoleris@arm.com cache->functionalAccess(pkt, true); 220612724Snikos.nikoleris@arm.com} 220712724Snikos.nikoleris@arm.com 220812724Snikos.nikoleris@arm.comAddrRangeList 220912724Snikos.nikoleris@arm.comBaseCache::CpuSidePort::getAddrRanges() const 221012724Snikos.nikoleris@arm.com{ 221112724Snikos.nikoleris@arm.com return cache->getAddrRanges(); 221212724Snikos.nikoleris@arm.com} 221312724Snikos.nikoleris@arm.com 221412724Snikos.nikoleris@arm.com 221512724Snikos.nikoleris@arm.comBaseCache:: 221612724Snikos.nikoleris@arm.comCpuSidePort::CpuSidePort(const std::string &_name, BaseCache *_cache, 221712724Snikos.nikoleris@arm.com const std::string &_label) 221812724Snikos.nikoleris@arm.com : CacheSlavePort(_name, _cache, _label), cache(_cache) 221912724Snikos.nikoleris@arm.com{ 222012724Snikos.nikoleris@arm.com} 222112724Snikos.nikoleris@arm.com 222212724Snikos.nikoleris@arm.com/////////////// 222312724Snikos.nikoleris@arm.com// 222412724Snikos.nikoleris@arm.com// MemSidePort 222512724Snikos.nikoleris@arm.com// 222612724Snikos.nikoleris@arm.com/////////////// 222712724Snikos.nikoleris@arm.combool 222812724Snikos.nikoleris@arm.comBaseCache::MemSidePort::recvTimingResp(PacketPtr pkt) 222912724Snikos.nikoleris@arm.com{ 223012724Snikos.nikoleris@arm.com cache->recvTimingResp(pkt); 223112724Snikos.nikoleris@arm.com return true; 223212724Snikos.nikoleris@arm.com} 223312724Snikos.nikoleris@arm.com 223412724Snikos.nikoleris@arm.com// Express snooping requests to memside port 223512724Snikos.nikoleris@arm.comvoid 223612724Snikos.nikoleris@arm.comBaseCache::MemSidePort::recvTimingSnoopReq(PacketPtr pkt) 223712724Snikos.nikoleris@arm.com{ 223812725Snikos.nikoleris@arm.com // Snoops shouldn't happen when bypassing caches 223912725Snikos.nikoleris@arm.com assert(!cache->system->bypassCaches()); 224012725Snikos.nikoleris@arm.com 224112724Snikos.nikoleris@arm.com // handle snooping requests 224212724Snikos.nikoleris@arm.com cache->recvTimingSnoopReq(pkt); 224312724Snikos.nikoleris@arm.com} 224412724Snikos.nikoleris@arm.com 224512724Snikos.nikoleris@arm.comTick 224612724Snikos.nikoleris@arm.comBaseCache::MemSidePort::recvAtomicSnoop(PacketPtr pkt) 224712724Snikos.nikoleris@arm.com{ 224812725Snikos.nikoleris@arm.com // Snoops shouldn't happen when bypassing caches 224912725Snikos.nikoleris@arm.com assert(!cache->system->bypassCaches()); 225012725Snikos.nikoleris@arm.com 225112724Snikos.nikoleris@arm.com return cache->recvAtomicSnoop(pkt); 225212724Snikos.nikoleris@arm.com} 225312724Snikos.nikoleris@arm.com 225412724Snikos.nikoleris@arm.comvoid 225512724Snikos.nikoleris@arm.comBaseCache::MemSidePort::recvFunctionalSnoop(PacketPtr pkt) 225612724Snikos.nikoleris@arm.com{ 225712725Snikos.nikoleris@arm.com // Snoops shouldn't happen when bypassing caches 225812725Snikos.nikoleris@arm.com assert(!cache->system->bypassCaches()); 225912725Snikos.nikoleris@arm.com 226012724Snikos.nikoleris@arm.com // functional snoop (note that in contrast to atomic we don't have 226112724Snikos.nikoleris@arm.com // a specific functionalSnoop method, as they have the same 226212724Snikos.nikoleris@arm.com // behaviour regardless) 226312724Snikos.nikoleris@arm.com cache->functionalAccess(pkt, false); 226412724Snikos.nikoleris@arm.com} 226512724Snikos.nikoleris@arm.com 226612724Snikos.nikoleris@arm.comvoid 226712724Snikos.nikoleris@arm.comBaseCache::CacheReqPacketQueue::sendDeferredPacket() 226812724Snikos.nikoleris@arm.com{ 226912724Snikos.nikoleris@arm.com // sanity check 227012724Snikos.nikoleris@arm.com assert(!waitingOnRetry); 227112724Snikos.nikoleris@arm.com 227212724Snikos.nikoleris@arm.com // there should never be any deferred request packets in the 227312724Snikos.nikoleris@arm.com // queue, instead we resly on the cache to provide the packets 227412724Snikos.nikoleris@arm.com // from the MSHR queue or write queue 227512724Snikos.nikoleris@arm.com assert(deferredPacketReadyTime() == MaxTick); 227612724Snikos.nikoleris@arm.com 227712724Snikos.nikoleris@arm.com // check for request packets (requests & writebacks) 227812724Snikos.nikoleris@arm.com QueueEntry* entry = cache.getNextQueueEntry(); 227912724Snikos.nikoleris@arm.com 228012724Snikos.nikoleris@arm.com if (!entry) { 228112724Snikos.nikoleris@arm.com // can happen if e.g. we attempt a writeback and fail, but 228212724Snikos.nikoleris@arm.com // before the retry, the writeback is eliminated because 228312724Snikos.nikoleris@arm.com // we snoop another cache's ReadEx. 228412724Snikos.nikoleris@arm.com } else { 228512724Snikos.nikoleris@arm.com // let our snoop responses go first if there are responses to 228612724Snikos.nikoleris@arm.com // the same addresses 228712724Snikos.nikoleris@arm.com if (checkConflictingSnoop(entry->blkAddr)) { 228812724Snikos.nikoleris@arm.com return; 228912724Snikos.nikoleris@arm.com } 229012724Snikos.nikoleris@arm.com waitingOnRetry = entry->sendPacket(cache); 229112724Snikos.nikoleris@arm.com } 229212724Snikos.nikoleris@arm.com 229312724Snikos.nikoleris@arm.com // if we succeeded and are not waiting for a retry, schedule the 229412724Snikos.nikoleris@arm.com // next send considering when the next queue is ready, note that 229512724Snikos.nikoleris@arm.com // snoop responses have their own packet queue and thus schedule 229612724Snikos.nikoleris@arm.com // their own events 229712724Snikos.nikoleris@arm.com if (!waitingOnRetry) { 229812724Snikos.nikoleris@arm.com schedSendEvent(cache.nextQueueReadyTime()); 229912724Snikos.nikoleris@arm.com } 230012724Snikos.nikoleris@arm.com} 230112724Snikos.nikoleris@arm.com 230212724Snikos.nikoleris@arm.comBaseCache::MemSidePort::MemSidePort(const std::string &_name, 230312724Snikos.nikoleris@arm.com BaseCache *_cache, 230412724Snikos.nikoleris@arm.com const std::string &_label) 230512724Snikos.nikoleris@arm.com : CacheMasterPort(_name, _cache, _reqQueue, _snoopRespQueue), 230612724Snikos.nikoleris@arm.com _reqQueue(*_cache, *this, _snoopRespQueue, _label), 230712724Snikos.nikoleris@arm.com _snoopRespQueue(*_cache, *this, _label), cache(_cache) 230812724Snikos.nikoleris@arm.com{ 230912724Snikos.nikoleris@arm.com} 2310