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/*
* Copyright (c) 2011 The Regents of The University of Michigan
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Authors: Korey Sewell
*
*/
#include <list>
#include <vector>
#include "arch/isa_traits.hh"
#include "arch/locked_mem.hh"
#include "arch/predecoder.hh"
#include "arch/utility.hh"
#include "config/the_isa.hh"
#include "cpu/inorder/resources/cache_unit.hh"
#include "cpu/inorder/resources/fetch_unit.hh"
#include "cpu/inorder/cpu.hh"
#include "cpu/inorder/pipeline_traits.hh"
#include "cpu/inorder/resource_pool.hh"
#include "debug/Activity.hh"
#include "debug/InOrderCachePort.hh"
#include "debug/InOrderStall.hh"
#include "debug/RefCount.hh"
#include "debug/ThreadModel.hh"
#include "mem/request.hh"
using namespace std;
using namespace TheISA;
using namespace ThePipeline;
FetchUnit::FetchUnit(string res_name, int res_id, int res_width,
int res_latency, InOrderCPU *_cpu,
ThePipeline::Params *params)
: CacheUnit(res_name, res_id, res_width, res_latency, _cpu, params),
instSize(sizeof(TheISA::MachInst)), fetchBuffSize(params->fetchBuffSize)
{
for (int tid = 0; tid < MaxThreads; tid++)
predecoder[tid] = new Predecoder(NULL);
}
FetchUnit::~FetchUnit()
{
std::list<FetchBlock*>::iterator fetch_it = fetchBuffer.begin();
std::list<FetchBlock*>::iterator end_it = fetchBuffer.end();
while (fetch_it != end_it) {
delete (*fetch_it)->block;
delete *fetch_it;
fetch_it++;
}
fetchBuffer.clear();
std::list<FetchBlock*>::iterator pend_it = pendingFetch.begin();
std::list<FetchBlock*>::iterator pend_end = pendingFetch.end();
while (pend_it != pend_end) {
if ((*pend_it)->block) {
delete (*pend_it)->block;
}
delete *pend_it;
pend_it++;
}
pendingFetch.clear();
}
void
FetchUnit::createMachInst(std::list<FetchBlock*>::iterator fetch_it,
DynInstPtr inst)
{
ExtMachInst ext_inst;
Addr block_addr = cacheBlockAlign(inst->getMemAddr());
Addr fetch_addr = inst->getMemAddr();
unsigned fetch_offset = (fetch_addr - block_addr) / instSize;
ThreadID tid = inst->readTid();
TheISA::PCState instPC = inst->pcState();
DPRINTF(InOrderCachePort, "Creating instruction [sn:%i] w/fetch data @"
"addr:%08p block:%08p\n", inst->seqNum, fetch_addr, block_addr);
assert((*fetch_it)->valid);
TheISA::MachInst *fetchInsts =
reinterpret_cast<TheISA::MachInst *>((*fetch_it)->block);
MachInst mach_inst =
TheISA::gtoh(fetchInsts[fetch_offset]);
predecoder[tid]->setTC(cpu->thread[tid]->getTC());
predecoder[tid]->moreBytes(instPC, inst->instAddr(), mach_inst);
assert(predecoder[tid]->extMachInstReady());
ext_inst = predecoder[tid]->getExtMachInst(instPC);
inst->pcState(instPC);
inst->setStaticInst(decoder.decode(ext_inst, instPC.instAddr()));
}
void
FetchUnit::removeAddrDependency(DynInstPtr inst)
{
inst->unsetMemAddr();
}
ResReqPtr
FetchUnit::getRequest(DynInstPtr inst, int stage_num, int res_idx,
int slot_num, unsigned cmd)
{
ScheduleEntry* sched_entry = *inst->curSkedEntry;
CacheRequest* cache_req = dynamic_cast<CacheRequest*>(reqs[slot_num]);
if (!inst->validMemAddr()) {
panic("Mem. Addr. must be set before requesting cache access\n");
}
assert(sched_entry->cmd == InitiateFetch);
DPRINTF(InOrderCachePort,
"[tid:%i]: Fetch request from [sn:%i] for addr %08p\n",
inst->readTid(), inst->seqNum, inst->getMemAddr());
cache_req->setRequest(inst, stage_num, id, slot_num,
sched_entry->cmd, MemCmd::ReadReq,
inst->curSkedEntry->idx);
return cache_req;
}
void
FetchUnit::setupMemRequest(DynInstPtr inst, CacheReqPtr cache_req,
int acc_size, int flags)
{
ThreadID tid = inst->readTid();
Addr aligned_addr = cacheBlockAlign(inst->getMemAddr());
if (cache_req->memReq == NULL) {
cache_req->memReq =
new Request(tid, aligned_addr, acc_size, flags,
inst->instAddr(), cpu->readCpuId(), tid);
DPRINTF(InOrderCachePort, "[sn:%i] Created memReq @%x, ->%x\n",
inst->seqNum, &cache_req->memReq, cache_req->memReq);
}
}
std::list<FetchUnit::FetchBlock*>::iterator
FetchUnit::findBlock(std::list<FetchBlock*> &fetch_blocks, int asid,
Addr block_addr)
{
std::list<FetchBlock*>::iterator fetch_it = fetch_blocks.begin();
std::list<FetchBlock*>::iterator end_it = fetch_blocks.end();
while (fetch_it != end_it) {
if ((*fetch_it)->asid == asid &&
(*fetch_it)->addr == block_addr) {
return fetch_it;
}
fetch_it++;
}
return fetch_it;
}
std::list<FetchUnit::FetchBlock*>::iterator
FetchUnit::findReplacementBlock()
{
std::list<FetchBlock*>::iterator fetch_it = fetchBuffer.begin();
std::list<FetchBlock*>::iterator end_it = fetchBuffer.end();
while (fetch_it != end_it) {
if ((*fetch_it)->cnt == 0) {
return fetch_it;
} else {
DPRINTF(InOrderCachePort, "Block %08p has %i insts pending.\n",
(*fetch_it)->addr, (*fetch_it)->cnt);
}
fetch_it++;
}
return fetch_it;
}
void
FetchUnit::markBlockUsed(std::list<FetchBlock*>::iterator block_it)
{
// Move block from whatever location it is in fetch buffer
// to the back (represents most-recently-used location)
if (block_it != fetchBuffer.end()) {
FetchBlock *mru_blk = *block_it;
fetchBuffer.erase(block_it);
fetchBuffer.push_back(mru_blk);
}
}
int
FetchUnit::blocksInUse()
{
std::list<FetchBlock*>::iterator fetch_it = fetchBuffer.begin();
std::list<FetchBlock*>::iterator end_it = fetchBuffer.end();
int cnt = 0;
while (fetch_it != end_it) {
if ((*fetch_it)->cnt > 0)
cnt++;
fetch_it++;
}
return cnt;
}
void
FetchUnit::clearFetchBuffer()
{
std::list<FetchBlock*>::iterator fetch_it = fetchBuffer.begin();
std::list<FetchBlock*>::iterator end_it = fetchBuffer.end();
while (fetch_it != end_it) {
if ((*fetch_it)->block) {
delete [] (*fetch_it)->block;
}
delete *fetch_it;
fetch_it++;
}
fetchBuffer.clear();
}
void
FetchUnit::execute(int slot_num)
{
CacheReqPtr cache_req = dynamic_cast<CacheReqPtr>(reqs[slot_num]);
assert(cache_req);
if (cachePortBlocked && cache_req->cmd == InitiateFetch) {
DPRINTF(InOrderCachePort, "Cache Port Blocked. Cannot Access\n");
cache_req->done(false);
return;
}
DynInstPtr inst = cache_req->inst;
ThreadID tid = inst->readTid();
Addr block_addr = cacheBlockAlign(inst->getMemAddr());
int asid = cpu->asid[tid];
if (inst->fault != NoFault) {
DPRINTF(InOrderCachePort,
"[tid:%i]: [sn:%i]: Detected %s fault @ %x. Forwarding to "
"next stage.\n", tid, inst->seqNum, inst->fault->name(),
cacheBlockAlign(inst->getMemAddr()));
finishCacheUnitReq(inst, cache_req);
return;
}
switch (cache_req->cmd)
{
case InitiateFetch:
{
// Check to see if we've already got this request buffered
// or pending to be buffered
bool do_fetch = true;
int total_pending = pendingFetch.size() + blocksInUse();
std::list<FetchBlock*>::iterator pending_it;
pending_it = findBlock(pendingFetch, asid, block_addr);
if (pending_it != pendingFetch.end()) {
(*pending_it)->cnt++;
do_fetch = false;
DPRINTF(InOrderCachePort, "%08p is a pending fetch block "
"(pending:%i).\n", block_addr,
(*pending_it)->cnt);
} else if (total_pending < fetchBuffSize) {
std::list<FetchBlock*>::iterator buff_it;
buff_it = findBlock(fetchBuffer, asid, block_addr);
if (buff_it != fetchBuffer.end()) {
(*buff_it)->cnt++;
do_fetch = false;
DPRINTF(InOrderCachePort, "%08p is in fetch buffer "
"(pending:%i).\n", block_addr, (*buff_it)->cnt);
}
}
if (!do_fetch) {
DPRINTF(InOrderCachePort, "Inst. [sn:%i] marked to be filled "
"through fetch buffer.\n", inst->seqNum);
cache_req->fetchBufferFill = true;
cache_req->setCompleted(true);
return;
}
// Check to see if there is room in the fetchbuffer for this instruction.
// If not, block this request.
if (total_pending >= fetchBuffSize) {
DPRINTF(InOrderCachePort, "No room available in fetch buffer.\n");
cache_req->done(false);
return;
}
doTLBAccess(inst, cache_req, cacheBlkSize, Request::INST_FETCH, TheISA::TLB::Execute);
if (inst->fault == NoFault) {
DPRINTF(InOrderCachePort,
"[tid:%u]: Initiating fetch access to %s for "
"addr:%#x (block:%#x)\n", tid, name(),
cache_req->inst->getMemAddr(), block_addr);
cache_req->reqData = new uint8_t[cacheBlkSize];
inst->setCurResSlot(slot_num);
doCacheAccess(inst);
if (cache_req->isMemAccPending()) {
pendingFetch.push_back(new FetchBlock(asid, block_addr));
// mark replacement block
}
}
break;
}
case CompleteFetch:
if (inst->fault != NoFault) {
DPRINTF(InOrderCachePort,
"[tid:%i]: [sn:%i]: Detected %s fault @ %x. Forwarding to "
"next stage.\n", tid, inst->seqNum, inst->fault->name(),
inst->getMemAddr());
finishCacheUnitReq(inst, cache_req);
return;
}
if (cache_req->fetchBufferFill) {
// Block request if it's depending on a previous fetch, but it hasnt made it yet
std::list<FetchBlock*>::iterator fetch_it = findBlock(fetchBuffer, asid, block_addr);
if (fetch_it == fetchBuffer.end()) {
DPRINTF(InOrderCachePort, "%#x not available yet\n",
block_addr);
cache_req->setCompleted(false);
return;
}
// Make New Instruction
createMachInst(fetch_it, inst);
if (inst->traceData) {
inst->traceData->setStaticInst(inst->staticInst);
inst->traceData->setPC(inst->pcState());
}
// FetchBuffer Book-Keeping
(*fetch_it)->cnt--;
assert((*fetch_it)->cnt >= 0);
markBlockUsed(fetch_it);
cache_req->done();
return;
}
if (cache_req->isMemAccComplete()) {
if (fetchBuffer.size() >= fetchBuffSize) {
// If there is no replacement block, then we'll just have
// to wait till that gets cleared before satisfying the fetch
// for this instruction
std::list<FetchBlock*>::iterator repl_it =
findReplacementBlock();
if (repl_it == fetchBuffer.end()) {
DPRINTF(InOrderCachePort, "Unable to find replacement block"
" and complete fetch.\n");
cache_req->setCompleted(false);
return;
}
delete [] (*repl_it)->block;
delete *repl_it;
fetchBuffer.erase(repl_it);
}
DPRINTF(InOrderCachePort,
"[tid:%i]: Completing Fetch Access for [sn:%i]\n",
tid, inst->seqNum);
// Make New Instruction
std::list<FetchBlock*>::iterator fetch_it =
findBlock(pendingFetch, asid, block_addr);
assert(fetch_it != pendingFetch.end());
assert((*fetch_it)->valid);
createMachInst(fetch_it, inst);
if (inst->traceData) {
inst->traceData->setStaticInst(inst->staticInst);
inst->traceData->setPC(inst->pcState());
}
// Update instructions waiting on new fetch block
FetchBlock *new_block = (*fetch_it);
new_block->cnt--;
assert(new_block->cnt >= 0);
// Finally, update FetchBuffer w/Pending Block into the
// MRU location
pendingFetch.erase(fetch_it);
fetchBuffer.push_back(new_block);
DPRINTF(InOrderCachePort, "[tid:%i]: Instruction [sn:%i] is: %s\n",
tid, inst->seqNum,
inst->staticInst->disassemble(inst->instAddr()));
inst->unsetMemAddr();
cache_req->done();
} else {
DPRINTF(InOrderCachePort,
"[tid:%i]: [sn:%i]: Unable to Complete Fetch Access\n",
tid, inst->seqNum);
DPRINTF(InOrderStall,
"STALL: [tid:%i]: Fetch miss from %08p\n",
tid, cache_req->inst->instAddr());
cache_req->setCompleted(false);
// NOTE: For SwitchOnCacheMiss ThreadModel, we *don't* switch on
// fetch miss, but we could ...
// cache_req->setMemStall(true);
}
break;
default:
fatal("Unrecognized command to %s", resName);
}
}
void
FetchUnit::processCacheCompletion(PacketPtr pkt)
{
// Cast to correct packet type
// @todo: use pkt Sender state here to be consistent with other
// cpu models
CacheReqPacket* cache_pkt = dynamic_cast<CacheReqPacket*>(pkt);
assert(cache_pkt);
DPRINTF(InOrderCachePort, "Finished request for %x\n",
cache_pkt->getAddr());
if (processSquash(cache_pkt))
return;
Addr block_addr = cacheBlockAlign(cache_pkt->cacheReq->
getInst()->getMemAddr());
DPRINTF(InOrderCachePort,
"[tid:%u]: [sn:%i]: Waking from fetch access to addr:%#x(phys:%#x), size:%i\n",
cache_pkt->cacheReq->getInst()->readTid(),
cache_pkt->cacheReq->getInst()->seqNum,
block_addr, cache_pkt->getAddr(), cache_pkt->getSize());
// Cast to correct request type
CacheRequest *cache_req = dynamic_cast<CacheReqPtr>(
findRequest(cache_pkt->cacheReq->getInst(), cache_pkt->instIdx));
if (!cache_req) {
panic("[tid:%u]: [sn:%i]: Can't find slot for fetch access to "
"addr. %08p\n", cache_pkt->cacheReq->getInst()->readTid(),
cache_pkt->cacheReq->getInst()->seqNum,
block_addr);
}
// Get resource request info
unsigned stage_num = cache_req->getStageNum();
DynInstPtr inst = cache_req->inst;
ThreadID tid = cache_req->inst->readTid();
short asid = cpu->asid[tid];
assert(!cache_req->isSquashed());
assert(inst->curSkedEntry->cmd == CompleteFetch);
DPRINTF(InOrderCachePort,
"[tid:%u]: [sn:%i]: Processing fetch access for block %#x\n",
tid, inst->seqNum, block_addr);
std::list<FetchBlock*>::iterator pend_it = findBlock(pendingFetch, asid,
block_addr);
assert(pend_it != pendingFetch.end());
// Copy Data to pendingFetch queue...
(*pend_it)->block = new uint8_t[cacheBlkSize];
memcpy((*pend_it)->block, cache_pkt->getPtr<uint8_t>(), cacheBlkSize);
(*pend_it)->valid = true;
cache_req->setMemAccPending(false);
cache_req->setMemAccCompleted();
if (cache_req->isMemStall() &&
cpu->threadModel == InOrderCPU::SwitchOnCacheMiss) {
DPRINTF(InOrderCachePort, "[tid:%u] Waking up from Cache Miss.\n",
tid);
cpu->activateContext(tid);
DPRINTF(ThreadModel, "Activating [tid:%i] after return from cache"
"miss.\n", tid);
}
// Wake up the CPU (if it went to sleep and was waiting on this
// completion event).
cpu->wakeCPU();
DPRINTF(Activity, "[tid:%u] Activating %s due to cache completion\n",
tid, cpu->pipelineStage[stage_num]->name());
cpu->switchToActive(stage_num);
}
void
FetchUnit::squashCacheRequest(CacheReqPtr req_ptr)
{
DynInstPtr inst = req_ptr->getInst();
ThreadID tid = inst->readTid();
Addr block_addr = cacheBlockAlign(inst->getMemAddr());
int asid = cpu->asid[tid];
// Check Fetch Buffer (or pending fetch) for this block and
// update pending counts
std::list<FetchBlock*>::iterator buff_it = findBlock(fetchBuffer,
asid,
block_addr);
if (buff_it != fetchBuffer.end()) {
(*buff_it)->cnt--;
DPRINTF(InOrderCachePort, "[sn:%i] Removing Pending Access "
"for Fetch Buffer block %08p (cnt=%i)\n", inst->seqNum,
block_addr, (*buff_it)->cnt);
assert((*buff_it)->cnt >= 0);
} else {
std::list<FetchBlock*>::iterator block_it = findBlock(pendingFetch,
asid,
block_addr);
if (block_it != pendingFetch.end()) {
(*block_it)->cnt--;
DPRINTF(InOrderCachePort, "[sn:%i] Removing Pending Access "
"for Pending Buffer Block %08p (cnt=%i)\n",
inst->seqNum,
block_addr, (*block_it)->cnt);
assert((*block_it)->cnt >= 0);
if ((*block_it)->cnt == 0) {
if ((*block_it)->block) {
delete [] (*block_it)->block;
}
delete *block_it;
pendingFetch.erase(block_it);
}
}
}
CacheUnit::squashCacheRequest(req_ptr);
}
void
FetchUnit::trap(Fault fault, ThreadID tid, DynInstPtr inst)
{
//@todo: per thread?
predecoder[tid]->reset();
//@todo: squash using dummy inst seq num
squash(NULL, NumStages - 1, 0, tid);
//@todo: make sure no blocks are in use
assert(blocksInUse() == 0);
assert(pendingFetch.size() == 0);
//@todo: clear pendingFetch and fetchBuffer
clearFetchBuffer();
}
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