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gem5/cpu/ozone/lw_lsq_impl.hh
Kevin Lim 21df09cf7a Fixes for ozone CPU to successfully boot and run linux. 
cpu/base_dyn_inst.hh:
    Remove snoop function (did not mean to commit it).
cpu/ozone/back_end_impl.hh:
    Set instruction as having its result ready, not completed.
cpu/ozone/cpu.hh:
    Fixes for store conditionals.  Use an additional lock addr list to make sure that the access is valid.  I don't know if this is fully necessary, but it gives me a peace of mind (at some performance cost).
    Make sure to schedule for cycles(1) and not just 1 cycle in the future as tick = 1ps.
    Also support the new Checker.
cpu/ozone/cpu_builder.cc:
    Add parameter for maxOutstandingMemOps so it can be set through the config.
    Also add in the checker.  Right now it's a BaseCPU simobject, but that may change in the future.
cpu/ozone/cpu_impl.hh:
    Add support for the checker.  For now there's a dynamic cast to convert the simobject passed back from the builder to the proper Checker type.  It's ugly, but only happens at startup, and is probably a justified use of dynamic cast.

    Support switching out/taking over from other CPUs.

    Correct indexing problem for float registers.
cpu/ozone/dyn_inst.hh:
    Add ability for instructions to wait on memory instructions in addition to source register instructions.  This is needed for memory dependence predictors and memory barriers.
cpu/ozone/dyn_inst_impl.hh:
    Support waiting on memory operations.
    Use "resultReady" to differentiate an instruction having its registers produced vs being totally completed.
cpu/ozone/front_end.hh:
    Support switching out.
    Also record if an interrupt is pending.
cpu/ozone/front_end_impl.hh:
    Support switching out.  Also support stalling the front end if an interrupt is pending.
cpu/ozone/lw_back_end.hh:
    Add checker in.
    Support switching out.
    Support memory barriers.
cpu/ozone/lw_back_end_impl.hh:
    Lots of changes to get things to work right.
    Faults, traps, interrupts all wait until all stores have written back (important).
    Memory barriers are supported, as is the general ability for instructions to be dependent on other memory instructions.
cpu/ozone/lw_lsq.hh:
    Support switching out.
    Also use store writeback events in all cases, not just dcache misses.
cpu/ozone/lw_lsq_impl.hh:
    Support switching out.
    Also use store writeback events in all cases, not just dcache misses.
    Support the checker CPU.  Marks instructions as completed once the functional access is done (which has to be done for the checker to be able to verify results).
cpu/ozone/simple_params.hh:
    Add max outstanding mem ops parameter.
python/m5/objects/OzoneCPU.py:
    Add max outstanding mem ops, checker.

--HG--
extra : convert_revision : f4d408e1bb1f25836a097b6abe3856111e950c59
2006-05-11 19:18:36 -04:00

896 lines
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/*
* Copyright (c) 2004-2005 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.
*/
#include "arch/isa_traits.hh"
#include "base/str.hh"
#include "cpu/ozone/lw_lsq.hh"
#include "cpu/checker/cpu.hh"
template <class Impl>
OzoneLWLSQ<Impl>::StoreCompletionEvent::StoreCompletionEvent(DynInstPtr &_inst,
BackEnd *_be,
Event *wb_event,
OzoneLWLSQ<Impl> *lsq_ptr)
: Event(&mainEventQueue),
inst(_inst),
be(_be),
wbEvent(wb_event),
miss(false),
lsqPtr(lsq_ptr)
{
this->setFlags(Event::AutoDelete);
}
template <class Impl>
void
OzoneLWLSQ<Impl>::StoreCompletionEvent::process()
{
DPRINTF(OzoneLSQ, "Cache miss complete for store [sn:%lli]\n",
inst->seqNum);
//lsqPtr->removeMSHR(lsqPtr->storeQueue[storeIdx].inst->seqNum);
// lsqPtr->cpu->wakeCPU();
if (lsqPtr->isSwitchedOut()) {
if (wbEvent)
delete wbEvent;
return;
}
if (wbEvent) {
wbEvent->process();
delete wbEvent;
}
lsqPtr->completeStore(inst->sqIdx);
if (miss)
be->removeDcacheMiss(inst);
}
template <class Impl>
const char *
OzoneLWLSQ<Impl>::StoreCompletionEvent::description()
{
return "LSQ store completion event";
}
template <class Impl>
OzoneLWLSQ<Impl>::OzoneLWLSQ()
: loads(0), stores(0), storesToWB(0), stalled(false), isLoadBlocked(false),
loadBlockedHandled(false)
{
}
template<class Impl>
void
OzoneLWLSQ<Impl>::init(Params *params, unsigned maxLQEntries,
unsigned maxSQEntries, unsigned id)
{
DPRINTF(OzoneLSQ, "Creating OzoneLWLSQ%i object.\n",id);
lsqID = id;
LQEntries = maxLQEntries;
SQEntries = maxSQEntries;
for (int i = 0; i < LQEntries * 2; i++) {
LQIndices.push(i);
SQIndices.push(i);
}
// May want to initialize these entries to NULL
// loadHead = loadTail = 0;
// storeHead = storeWBIdx = storeTail = 0;
usedPorts = 0;
cachePorts = params->cachePorts;
dcacheInterface = params->dcacheInterface;
loadFaultInst = storeFaultInst = memDepViolator = NULL;
blockedLoadSeqNum = 0;
}
template<class Impl>
std::string
OzoneLWLSQ<Impl>::name() const
{
return "lsqunit";
}
template<class Impl>
void
OzoneLWLSQ<Impl>::clearLQ()
{
loadQueue.clear();
}
template<class Impl>
void
OzoneLWLSQ<Impl>::clearSQ()
{
storeQueue.clear();
}
/*
template<class Impl>
void
OzoneLWLSQ<Impl>::setPageTable(PageTable *pt_ptr)
{
DPRINTF(OzoneLSQ, "Setting the page table pointer.\n");
pTable = pt_ptr;
}
*/
template<class Impl>
void
OzoneLWLSQ<Impl>::resizeLQ(unsigned size)
{
assert( size >= LQEntries);
if (size > LQEntries) {
while (size > loadQueue.size()) {
DynInstPtr dummy;
loadQueue.push_back(dummy);
LQEntries++;
}
} else {
LQEntries = size;
}
}
template<class Impl>
void
OzoneLWLSQ<Impl>::resizeSQ(unsigned size)
{
if (size > SQEntries) {
while (size > storeQueue.size()) {
SQEntry dummy;
storeQueue.push_back(dummy);
SQEntries++;
}
} else {
SQEntries = size;
}
}
template <class Impl>
void
OzoneLWLSQ<Impl>::insert(DynInstPtr &inst)
{
// Make sure we really have a memory reference.
assert(inst->isMemRef());
// Make sure it's one of the two classes of memory references.
assert(inst->isLoad() || inst->isStore());
if (inst->isLoad()) {
insertLoad(inst);
} else {
insertStore(inst);
}
// inst->setInLSQ();
}
template <class Impl>
void
OzoneLWLSQ<Impl>::insertLoad(DynInstPtr &load_inst)
{
assert(loads < LQEntries * 2);
assert(!LQIndices.empty());
int load_index = LQIndices.front();
LQIndices.pop();
DPRINTF(OzoneLSQ, "Inserting load PC %#x, idx:%i [sn:%lli]\n",
load_inst->readPC(), load_index, load_inst->seqNum);
load_inst->lqIdx = load_index;
loadQueue.push_front(load_inst);
LQItHash[load_index] = loadQueue.begin();
++loads;
}
template <class Impl>
void
OzoneLWLSQ<Impl>::insertStore(DynInstPtr &store_inst)
{
// Make sure it is not full before inserting an instruction.
assert(stores - storesToWB < SQEntries);
assert(!SQIndices.empty());
int store_index = SQIndices.front();
SQIndices.pop();
DPRINTF(OzoneLSQ, "Inserting store PC %#x, idx:%i [sn:%lli]\n",
store_inst->readPC(), store_index, store_inst->seqNum);
store_inst->sqIdx = store_index;
SQEntry entry(store_inst);
if (loadQueue.empty()) {
entry.lqIt = loadQueue.end();
} else {
entry.lqIt = loadQueue.begin();
}
storeQueue.push_front(entry);
SQItHash[store_index] = storeQueue.begin();
++stores;
}
template <class Impl>
typename Impl::DynInstPtr
OzoneLWLSQ<Impl>::getMemDepViolator()
{
DynInstPtr temp = memDepViolator;
memDepViolator = NULL;
return temp;
}
template <class Impl>
unsigned
OzoneLWLSQ<Impl>::numFreeEntries()
{
unsigned free_lq_entries = LQEntries - loads;
unsigned free_sq_entries = SQEntries - stores;
// Both the LQ and SQ entries have an extra dummy entry to differentiate
// empty/full conditions. Subtract 1 from the free entries.
if (free_lq_entries < free_sq_entries) {
return free_lq_entries - 1;
} else {
return free_sq_entries - 1;
}
}
template <class Impl>
int
OzoneLWLSQ<Impl>::numLoadsReady()
{
int retval = 0;
LQIt lq_it = loadQueue.begin();
LQIt end_it = loadQueue.end();
while (lq_it != end_it) {
if ((*lq_it)->readyToIssue()) {
++retval;
}
}
return retval;
}
template <class Impl>
Fault
OzoneLWLSQ<Impl>::executeLoad(DynInstPtr &inst)
{
// Execute a specific load.
Fault load_fault = NoFault;
DPRINTF(OzoneLSQ, "Executing load PC %#x, [sn:%lli]\n",
inst->readPC(),inst->seqNum);
// Make sure it's really in the list.
// Normally it should always be in the list. However,
/* due to a syscall it may not be the list.
#ifdef DEBUG
int i = loadHead;
while (1) {
if (i == loadTail && !find(inst)) {
assert(0 && "Load not in the queue!");
} else if (loadQueue[i] == inst) {
break;
}
i = i + 1;
if (i >= LQEntries) {
i = 0;
}
}
#endif // DEBUG*/
load_fault = inst->initiateAcc();
// Might want to make sure that I'm not overwriting a previously faulting
// instruction that hasn't been checked yet.
// Actually probably want the oldest faulting load
if (load_fault != NoFault) {
DPRINTF(OzoneLSQ, "Load [sn:%lli] has a fault\n", inst->seqNum);
// Maybe just set it as can commit here, although that might cause
// some other problems with sending traps to the ROB too quickly.
be->instToCommit(inst);
// iewStage->activityThisCycle();
}
return load_fault;
}
template <class Impl>
Fault
OzoneLWLSQ<Impl>::executeStore(DynInstPtr &store_inst)
{
// Make sure that a store exists.
assert(stores != 0);
int store_idx = store_inst->sqIdx;
SQHashIt sq_hash_it = SQItHash.find(store_idx);
assert(sq_hash_it != SQItHash.end());
DPRINTF(OzoneLSQ, "Executing store PC %#x [sn:%lli]\n",
store_inst->readPC(), store_inst->seqNum);
SQIt sq_it = (*sq_hash_it).second;
Fault store_fault = store_inst->initiateAcc();
// Store size should now be available. Use it to get proper offset for
// addr comparisons.
int size = (*sq_it).size;
if (size == 0) {
DPRINTF(OzoneLSQ,"Fault on Store PC %#x, [sn:%lli],Size = 0\n",
store_inst->readPC(),store_inst->seqNum);
return store_fault;
}
assert(store_fault == NoFault);
if (!storeFaultInst) {
if (store_fault != NoFault) {
panic("Fault in a store instruction!");
storeFaultInst = store_inst;
} else if (store_inst->isNonSpeculative()) {
// Nonspeculative accesses (namely store conditionals)
// need to set themselves as able to writeback if we
// haven't had a fault by here.
(*sq_it).canWB = true;
++storesToWB;
DPRINTF(OzoneLSQ, "Nonspeculative store! storesToWB:%i\n",
storesToWB);
}
}
LQIt lq_it = --(loadQueue.end());
if (!memDepViolator) {
while (lq_it != loadQueue.end()) {
if ((*lq_it)->seqNum < store_inst->seqNum) {
lq_it--;
continue;
}
// Actually should only check loads that have actually executed
// Might be safe because effAddr is set to InvalAddr when the
// dyn inst is created.
// Must actually check all addrs in the proper size range
// Which is more correct than needs to be. What if for now we just
// assume all loads are quad-word loads, and do the addr based
// on that.
// @todo: Fix this, magic number being used here
if (((*lq_it)->effAddr >> 8) ==
(store_inst->effAddr >> 8)) {
// A load incorrectly passed this store. Squash and refetch.
// For now return a fault to show that it was unsuccessful.
memDepViolator = (*lq_it);
return TheISA::genMachineCheckFault();
}
lq_it--;
}
// If we've reached this point, there was no violation.
memDepViolator = NULL;
}
return store_fault;
}
template <class Impl>
void
OzoneLWLSQ<Impl>::commitLoad()
{
assert(!loadQueue.empty());
DPRINTF(OzoneLSQ, "[sn:%lli] Committing head load instruction, PC %#x\n",
loadQueue.back()->seqNum, loadQueue.back()->readPC());
LQIndices.push(loadQueue.back()->lqIdx);
LQItHash.erase(loadQueue.back()->lqIdx);
loadQueue.pop_back();
--loads;
}
template <class Impl>
void
OzoneLWLSQ<Impl>::commitLoads(InstSeqNum &youngest_inst)
{
assert(loads == 0 || !loadQueue.empty());
while (loads != 0 &&
loadQueue.back()->seqNum <= youngest_inst) {
commitLoad();
}
}
template <class Impl>
void
OzoneLWLSQ<Impl>::commitStores(InstSeqNum &youngest_inst)
{
assert(stores == 0 || !storeQueue.empty());
SQIt sq_it = --(storeQueue.end());
while (!storeQueue.empty() && sq_it != storeQueue.end()) {
assert((*sq_it).inst);
if (!(*sq_it).canWB) {
if ((*sq_it).inst->seqNum > youngest_inst) {
break;
}
++storesToWB;
DPRINTF(OzoneLSQ, "Marking store as able to write back, PC "
"%#x [sn:%lli], storesToWB:%i\n",
(*sq_it).inst->readPC(),
(*sq_it).inst->seqNum,
storesToWB);
(*sq_it).canWB = true;
}
sq_it--;
}
}
template <class Impl>
void
OzoneLWLSQ<Impl>::writebackStores()
{
SQIt sq_it = --(storeQueue.end());
while (storesToWB > 0 &&
sq_it != storeQueue.end() &&
(*sq_it).inst &&
(*sq_it).canWB &&
usedPorts < cachePorts) {
DynInstPtr inst = (*sq_it).inst;
if ((*sq_it).size == 0 && !(*sq_it).completed) {
sq_it--;
completeStore(inst->sqIdx);
continue;
}
if (inst->isDataPrefetch() || (*sq_it).committed) {
sq_it--;
continue;
}
if (dcacheInterface && dcacheInterface->isBlocked()) {
DPRINTF(OzoneLSQ, "Unable to write back any more stores, cache"
" is blocked!\n");
break;
}
++usedPorts;
assert((*sq_it).req);
assert(!(*sq_it).committed);
(*sq_it).committed = true;
MemReqPtr req = (*sq_it).req;
req->cmd = Write;
req->completionEvent = NULL;
req->time = curTick;
switch((*sq_it).size) {
case 1:
cpu->write(req, (uint8_t &)(*sq_it).data);
break;
case 2:
cpu->write(req, (uint16_t &)(*sq_it).data);
break;
case 4:
cpu->write(req, (uint32_t &)(*sq_it).data);
break;
case 8:
cpu->write(req, (uint64_t &)(*sq_it).data);
break;
default:
panic("Unexpected store size!\n");
}
if (!(req->flags & LOCKED)) {
(*sq_it).inst->setCompleted();
if (cpu->checker) {
cpu->checker->tick((*sq_it).inst);
}
}
DPRINTF(OzoneLSQ, "D-Cache: Writing back store idx:%i PC:%#x "
"to Addr:%#x, data:%#x [sn:%lli]\n",
inst->sqIdx,inst->readPC(),
req->paddr, *(req->data),
inst->seqNum);
if (dcacheInterface) {
assert(!req->completionEvent);
StoreCompletionEvent *store_event = new
StoreCompletionEvent(inst, be, NULL, this);
req->completionEvent = store_event;
MemAccessResult result = dcacheInterface->access(req);
if (isStalled() &&
inst->seqNum == stallingStoreIsn) {
DPRINTF(OzoneLSQ, "Unstalling, stalling store [sn:%lli] "
"load [sn:%lli]\n",
stallingStoreIsn, (*stallingLoad)->seqNum);
stalled = false;
stallingStoreIsn = 0;
be->replayMemInst((*stallingLoad));
}
if (result != MA_HIT && dcacheInterface->doEvents()) {
// Event *wb = NULL;
store_event->miss = true;
typename BackEnd::LdWritebackEvent *wb = NULL;
if (req->flags & LOCKED) {
// Stx_C does not generate a system port transaction.
// req->result=1;
wb = new typename BackEnd::LdWritebackEvent(inst,
be);
store_event->wbEvent = wb;
}
DPRINTF(OzoneLSQ,"D-Cache Write Miss!\n");
// DPRINTF(Activity, "Active st accessing mem miss [sn:%lli]\n",
// inst->seqNum);
// Will stores need their own kind of writeback events?
// Do stores even need writeback events?
be->addDcacheMiss(inst);
lastDcacheStall = curTick;
_status = DcacheMissStall;
// Increment stat here or something
sq_it--;
} else {
DPRINTF(OzoneLSQ,"D-Cache: Write Hit on idx:%i !\n",
inst->sqIdx);
// DPRINTF(Activity, "Active st accessing mem hit [sn:%lli]\n",
// inst->seqNum);
if (req->flags & LOCKED) {
// Stx_C does not generate a system port transaction.
/* if (req->flags & UNCACHEABLE) {
req->result = 2;
} else {
req->result = 1;
}
*/
typename BackEnd::LdWritebackEvent *wb =
new typename BackEnd::LdWritebackEvent(inst,
be);
store_event->wbEvent = wb;
}
sq_it--;
// completeStore(inst->sqIdx);
}
} else {
panic("Must HAVE DCACHE!!!!!\n");
}
}
// Not sure this should set it to 0.
usedPorts = 0;
assert(stores >= 0 && storesToWB >= 0);
}
template <class Impl>
void
OzoneLWLSQ<Impl>::squash(const InstSeqNum &squashed_num)
{
DPRINTF(OzoneLSQ, "Squashing until [sn:%lli]!"
"(Loads:%i Stores:%i)\n",squashed_num,loads,stores);
LQIt lq_it = loadQueue.begin();
while (loads != 0 && (*lq_it)->seqNum > squashed_num) {
assert(!loadQueue.empty());
// Clear the smart pointer to make sure it is decremented.
DPRINTF(OzoneLSQ,"Load Instruction PC %#x squashed, "
"[sn:%lli]\n",
(*lq_it)->readPC(),
(*lq_it)->seqNum);
if (isStalled() && lq_it == stallingLoad) {
stalled = false;
stallingStoreIsn = 0;
stallingLoad = NULL;
}
--loads;
// Inefficient!
LQHashIt lq_hash_it = LQItHash.find((*lq_it)->lqIdx);
assert(lq_hash_it != LQItHash.end());
LQItHash.erase(lq_hash_it);
LQIndices.push((*lq_it)->lqIdx);
loadQueue.erase(lq_it++);
}
if (isLoadBlocked) {
if (squashed_num < blockedLoadSeqNum) {
isLoadBlocked = false;
loadBlockedHandled = false;
blockedLoadSeqNum = 0;
}
}
SQIt sq_it = storeQueue.begin();
while (stores != 0 && (*sq_it).inst->seqNum > squashed_num) {
assert(!storeQueue.empty());
if ((*sq_it).canWB) {
break;
}
// Clear the smart pointer to make sure it is decremented.
DPRINTF(OzoneLSQ,"Store Instruction PC %#x idx:%i squashed [sn:%lli]\n",
(*sq_it).inst->readPC(), (*sq_it).inst->sqIdx,
(*sq_it).inst->seqNum);
// I don't think this can happen. It should have been cleared by the
// stalling load.
if (isStalled() &&
(*sq_it).inst->seqNum == stallingStoreIsn) {
panic("Is stalled should have been cleared by stalling load!\n");
stalled = false;
stallingStoreIsn = 0;
}
SQHashIt sq_hash_it = SQItHash.find((*sq_it).inst->sqIdx);
assert(sq_hash_it != SQItHash.end());
SQItHash.erase(sq_hash_it);
SQIndices.push((*sq_it).inst->sqIdx);
(*sq_it).inst = NULL;
(*sq_it).canWB = 0;
if ((*sq_it).req) {
assert(!(*sq_it).req->completionEvent);
}
(*sq_it).req = NULL;
--stores;
storeQueue.erase(sq_it++);
}
}
template <class Impl>
void
OzoneLWLSQ<Impl>::dumpInsts()
{
cprintf("Load store queue: Dumping instructions.\n");
cprintf("Load queue size: %i\n", loads);
cprintf("Load queue: ");
LQIt lq_it = --(loadQueue.end());
while (lq_it != loadQueue.end() && (*lq_it)) {
cprintf("[sn:%lli] %#x ", (*lq_it)->seqNum,
(*lq_it)->readPC());
lq_it--;
}
cprintf("\nStore queue size: %i\n", stores);
cprintf("Store queue: ");
SQIt sq_it = --(storeQueue.end());
while (sq_it != storeQueue.end() && (*sq_it).inst) {
cprintf("[sn:%lli]\nPC:%#x\nSize:%i\nCommitted:%i\nCompleted:%i\ncanWB:%i\n",
(*sq_it).inst->seqNum,
(*sq_it).inst->readPC(),
(*sq_it).size,
(*sq_it).committed,
(*sq_it).completed,
(*sq_it).canWB);
sq_it--;
}
cprintf("\n");
}
template <class Impl>
void
OzoneLWLSQ<Impl>::completeStore(int store_idx)
{
SQHashIt sq_hash_it = SQItHash.find(store_idx);
assert(sq_hash_it != SQItHash.end());
SQIt sq_it = (*sq_hash_it).second;
assert((*sq_it).inst);
(*sq_it).completed = true;
DynInstPtr inst = (*sq_it).inst;
--storesToWB;
if (isStalled() &&
inst->seqNum == stallingStoreIsn) {
DPRINTF(OzoneLSQ, "Unstalling, stalling store [sn:%lli] "
"load [sn:%lli]\n",
stallingStoreIsn, (*stallingLoad)->seqNum);
stalled = false;
stallingStoreIsn = 0;
be->replayMemInst((*stallingLoad));
}
DPRINTF(OzoneLSQ, "Completing store idx:%i [sn:%lli], storesToWB:%i\n",
inst->sqIdx, inst->seqNum, storesToWB);
assert(!storeQueue.empty());
SQItHash.erase(sq_hash_it);
SQIndices.push(inst->sqIdx);
storeQueue.erase(sq_it);
--stores;
// assert(!inst->isCompleted());
inst->setCompleted();
if (cpu->checker) {
cpu->checker->tick(inst);
}
}
template <class Impl>
void
OzoneLWLSQ<Impl>::switchOut()
{
switchedOut = true;
SQIt sq_it = --(storeQueue.end());
while (storesToWB > 0 &&
sq_it != storeQueue.end() &&
(*sq_it).inst &&
(*sq_it).canWB) {
DynInstPtr inst = (*sq_it).inst;
if ((*sq_it).size == 0 && !(*sq_it).completed) {
sq_it--;
// completeStore(inst->sqIdx);
continue;
}
// Store conditionals don't complete until *after* they have written
// back. If it's here and not yet sent to memory, then don't bother
// as it's not part of committed state.
if (inst->isDataPrefetch() || (*sq_it).committed ||
(*sq_it).req->flags & LOCKED) {
sq_it--;
continue;
}
assert((*sq_it).req);
assert(!(*sq_it).committed);
MemReqPtr req = (*sq_it).req;
(*sq_it).committed = true;
req->cmd = Write;
req->completionEvent = NULL;
req->time = curTick;
assert(!req->data);
req->data = new uint8_t[64];
memcpy(req->data, (uint8_t *)&(*sq_it).data, req->size);
DPRINTF(OzoneLSQ, "Switching out : Writing back store idx:%i PC:%#x "
"to Addr:%#x, data:%#x directly to memory [sn:%lli]\n",
inst->sqIdx,inst->readPC(),
req->paddr, *(req->data),
inst->seqNum);
switch((*sq_it).size) {
case 1:
cpu->write(req, (uint8_t &)(*sq_it).data);
break;
case 2:
cpu->write(req, (uint16_t &)(*sq_it).data);
break;
case 4:
cpu->write(req, (uint32_t &)(*sq_it).data);
break;
case 8:
cpu->write(req, (uint64_t &)(*sq_it).data);
break;
default:
panic("Unexpected store size!\n");
}
}
// Clear the queue to free up resources
storeQueue.clear();
loadQueue.clear();
loads = stores = storesToWB = 0;
}
template <class Impl>
void
OzoneLWLSQ<Impl>::takeOverFrom(ExecContext *old_xc)
{
// Clear out any old state. May be redundant if this is the first time
// the CPU is being used.
stalled = false;
isLoadBlocked = false;
loadBlockedHandled = false;
switchedOut = false;
// Could do simple checks here to see if indices are on twice
while (!LQIndices.empty())
LQIndices.pop();
while (!SQIndices.empty())
SQIndices.pop();
for (int i = 0; i < LQEntries * 2; i++) {
LQIndices.push(i);
SQIndices.push(i);
}
// May want to initialize these entries to NULL
// loadHead = loadTail = 0;
// storeHead = storeWBIdx = storeTail = 0;
usedPorts = 0;
loadFaultInst = storeFaultInst = memDepViolator = NULL;
blockedLoadSeqNum = 0;
}
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