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|
/*
* Copyright (c) 2004-2006 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: Kevin Lim
* Korey Sewell
*/
#include "config/full_system.hh"
#include "config/use_checker.hh"
#include "cpu/activity.hh"
#include "cpu/simple_thread.hh"
#include "cpu/thread_context.hh"
#include "cpu/o3/isa_specific.hh"
#include "cpu/o3/cpu.hh"
#include "enums/MemoryMode.hh"
#include "sim/core.hh"
#include "sim/stat_control.hh"
#if FULL_SYSTEM
#include "cpu/quiesce_event.hh"
#include "sim/system.hh"
#else
#include "sim/process.hh"
#endif
#if USE_CHECKER
#include "cpu/checker/cpu.hh"
#endif
using namespace std;
using namespace TheISA;
BaseO3CPU::BaseO3CPU(Params *params)
: BaseCPU(params), cpu_id(0)
{
}
void
BaseO3CPU::regStats()
{
BaseCPU::regStats();
}
template <class Impl>
FullO3CPU<Impl>::TickEvent::TickEvent(FullO3CPU<Impl> *c)
: Event(&mainEventQueue, CPU_Tick_Pri), cpu(c)
{
}
template <class Impl>
void
FullO3CPU<Impl>::TickEvent::process()
{
cpu->tick();
}
template <class Impl>
const char *
FullO3CPU<Impl>::TickEvent::description()
{
return "FullO3CPU tick";
}
template <class Impl>
FullO3CPU<Impl>::ActivateThreadEvent::ActivateThreadEvent()
: Event(&mainEventQueue, CPU_Switch_Pri)
{
}
template <class Impl>
void
FullO3CPU<Impl>::ActivateThreadEvent::init(int thread_num,
FullO3CPU<Impl> *thread_cpu)
{
tid = thread_num;
cpu = thread_cpu;
}
template <class Impl>
void
FullO3CPU<Impl>::ActivateThreadEvent::process()
{
cpu->activateThread(tid);
}
template <class Impl>
const char *
FullO3CPU<Impl>::ActivateThreadEvent::description()
{
return "FullO3CPU \"Activate Thread\"";
}
template <class Impl>
FullO3CPU<Impl>::DeallocateContextEvent::DeallocateContextEvent()
: Event(&mainEventQueue, CPU_Tick_Pri), tid(0), remove(false), cpu(NULL)
{
}
template <class Impl>
void
FullO3CPU<Impl>::DeallocateContextEvent::init(int thread_num,
FullO3CPU<Impl> *thread_cpu)
{
tid = thread_num;
cpu = thread_cpu;
remove = false;
}
template <class Impl>
void
FullO3CPU<Impl>::DeallocateContextEvent::process()
{
cpu->deactivateThread(tid);
if (remove)
cpu->removeThread(tid);
}
template <class Impl>
const char *
FullO3CPU<Impl>::DeallocateContextEvent::description()
{
return "FullO3CPU \"Deallocate Context\"";
}
template <class Impl>
FullO3CPU<Impl>::FullO3CPU(O3CPU *o3_cpu, Params *params)
: BaseO3CPU(params),
itb(params->itb),
dtb(params->dtb),
tickEvent(this),
removeInstsThisCycle(false),
fetch(o3_cpu, params),
decode(o3_cpu, params),
rename(o3_cpu, params),
iew(o3_cpu, params),
commit(o3_cpu, params),
regFile(o3_cpu, params->numPhysIntRegs,
params->numPhysFloatRegs),
freeList(params->numberOfThreads,
TheISA::NumIntRegs, params->numPhysIntRegs,
TheISA::NumFloatRegs, params->numPhysFloatRegs),
rob(o3_cpu,
params->numROBEntries, params->squashWidth,
params->smtROBPolicy, params->smtROBThreshold,
params->numberOfThreads),
scoreboard(params->numberOfThreads,
TheISA::NumIntRegs, params->numPhysIntRegs,
TheISA::NumFloatRegs, params->numPhysFloatRegs,
TheISA::NumMiscRegs * number_of_threads,
TheISA::ZeroReg),
timeBuffer(params->backComSize, params->forwardComSize),
fetchQueue(params->backComSize, params->forwardComSize),
decodeQueue(params->backComSize, params->forwardComSize),
renameQueue(params->backComSize, params->forwardComSize),
iewQueue(params->backComSize, params->forwardComSize),
activityRec(NumStages,
params->backComSize + params->forwardComSize,
params->activity),
globalSeqNum(1),
#if FULL_SYSTEM
system(params->system),
physmem(system->physmem),
#endif // FULL_SYSTEM
drainCount(0),
deferRegistration(params->deferRegistration),
numThreads(number_of_threads)
{
if (!deferRegistration) {
_status = Running;
} else {
_status = Idle;
}
#if USE_CHECKER
if (params->checker) {
BaseCPU *temp_checker = params->checker;
checker = dynamic_cast<Checker<DynInstPtr> *>(temp_checker);
#if FULL_SYSTEM
checker->setSystem(params->system);
#endif
} else {
checker = NULL;
}
#endif // USE_CHECKER
#if !FULL_SYSTEM
thread.resize(number_of_threads);
tids.resize(number_of_threads);
#endif
// The stages also need their CPU pointer setup. However this
// must be done at the upper level CPU because they have pointers
// to the upper level CPU, and not this FullO3CPU.
// Set up Pointers to the activeThreads list for each stage
fetch.setActiveThreads(&activeThreads);
decode.setActiveThreads(&activeThreads);
rename.setActiveThreads(&activeThreads);
iew.setActiveThreads(&activeThreads);
commit.setActiveThreads(&activeThreads);
// Give each of the stages the time buffer they will use.
fetch.setTimeBuffer(&timeBuffer);
decode.setTimeBuffer(&timeBuffer);
rename.setTimeBuffer(&timeBuffer);
iew.setTimeBuffer(&timeBuffer);
commit.setTimeBuffer(&timeBuffer);
// Also setup each of the stages' queues.
fetch.setFetchQueue(&fetchQueue);
decode.setFetchQueue(&fetchQueue);
commit.setFetchQueue(&fetchQueue);
decode.setDecodeQueue(&decodeQueue);
rename.setDecodeQueue(&decodeQueue);
rename.setRenameQueue(&renameQueue);
iew.setRenameQueue(&renameQueue);
iew.setIEWQueue(&iewQueue);
commit.setIEWQueue(&iewQueue);
commit.setRenameQueue(&renameQueue);
commit.setIEWStage(&iew);
rename.setIEWStage(&iew);
rename.setCommitStage(&commit);
#if !FULL_SYSTEM
int active_threads = params->workload.size();
if (active_threads > Impl::MaxThreads) {
panic("Workload Size too large. Increase the 'MaxThreads'"
"constant in your O3CPU impl. file (e.g. o3/alpha/impl.hh) or "
"edit your workload size.");
}
#else
int active_threads = 1;
#endif
//Make Sure That this a Valid Architeture
assert(params->numPhysIntRegs >= numThreads * TheISA::NumIntRegs);
assert(params->numPhysFloatRegs >= numThreads * TheISA::NumFloatRegs);
rename.setScoreboard(&scoreboard);
iew.setScoreboard(&scoreboard);
// Setup the rename map for whichever stages need it.
PhysRegIndex lreg_idx = 0;
PhysRegIndex freg_idx = params->numPhysIntRegs; //Index to 1 after int regs
for (int tid=0; tid < numThreads; tid++) {
bool bindRegs = (tid <= active_threads - 1);
commitRenameMap[tid].init(TheISA::NumIntRegs,
params->numPhysIntRegs,
lreg_idx, //Index for Logical. Regs
TheISA::NumFloatRegs,
params->numPhysFloatRegs,
freg_idx, //Index for Float Regs
TheISA::NumMiscRegs,
TheISA::ZeroReg,
TheISA::ZeroReg,
tid,
false);
renameMap[tid].init(TheISA::NumIntRegs,
params->numPhysIntRegs,
lreg_idx, //Index for Logical. Regs
TheISA::NumFloatRegs,
params->numPhysFloatRegs,
freg_idx, //Index for Float Regs
TheISA::NumMiscRegs,
TheISA::ZeroReg,
TheISA::ZeroReg,
tid,
bindRegs);
activateThreadEvent[tid].init(tid, this);
deallocateContextEvent[tid].init(tid, this);
}
rename.setRenameMap(renameMap);
commit.setRenameMap(commitRenameMap);
// Give renameMap & rename stage access to the freeList;
for (int i=0; i < numThreads; i++) {
renameMap[i].setFreeList(&freeList);
}
rename.setFreeList(&freeList);
// Setup the ROB for whichever stages need it.
commit.setROB(&rob);
lastRunningCycle = curTick;
lastActivatedCycle = -1;
// Give renameMap & rename stage access to the freeList;
//for (int i=0; i < numThreads; i++) {
//globalSeqNum[i] = 1;
//}
contextSwitch = false;
}
template <class Impl>
FullO3CPU<Impl>::~FullO3CPU()
{
}
template <class Impl>
void
FullO3CPU<Impl>::fullCPURegStats()
{
BaseO3CPU::regStats();
// Register any of the O3CPU's stats here.
timesIdled
.name(name() + ".timesIdled")
.desc("Number of times that the entire CPU went into an idle state and"
" unscheduled itself")
.prereq(timesIdled);
idleCycles
.name(name() + ".idleCycles")
.desc("Total number of cycles that the CPU has spent unscheduled due "
"to idling")
.prereq(idleCycles);
// Number of Instructions simulated
// --------------------------------
// Should probably be in Base CPU but need templated
// MaxThreads so put in here instead
committedInsts
.init(numThreads)
.name(name() + ".committedInsts")
.desc("Number of Instructions Simulated");
totalCommittedInsts
.name(name() + ".committedInsts_total")
.desc("Number of Instructions Simulated");
cpi
.name(name() + ".cpi")
.desc("CPI: Cycles Per Instruction")
.precision(6);
cpi = numCycles / committedInsts;
totalCpi
.name(name() + ".cpi_total")
.desc("CPI: Total CPI of All Threads")
.precision(6);
totalCpi = numCycles / totalCommittedInsts;
ipc
.name(name() + ".ipc")
.desc("IPC: Instructions Per Cycle")
.precision(6);
ipc = committedInsts / numCycles;
totalIpc
.name(name() + ".ipc_total")
.desc("IPC: Total IPC of All Threads")
.precision(6);
totalIpc = totalCommittedInsts / numCycles;
}
template <class Impl>
Port *
FullO3CPU<Impl>::getPort(const std::string &if_name, int idx)
{
if (if_name == "dcache_port")
return iew.getDcachePort();
else if (if_name == "icache_port")
return fetch.getIcachePort();
else
panic("No Such Port\n");
}
template <class Impl>
void
FullO3CPU<Impl>::tick()
{
DPRINTF(O3CPU, "\n\nFullO3CPU: Ticking main, FullO3CPU.\n");
++numCycles;
// activity = false;
//Tick each of the stages
fetch.tick();
decode.tick();
rename.tick();
iew.tick();
commit.tick();
#if !FULL_SYSTEM
doContextSwitch();
#endif
// Now advance the time buffers
timeBuffer.advance();
fetchQueue.advance();
decodeQueue.advance();
renameQueue.advance();
iewQueue.advance();
activityRec.advance();
if (removeInstsThisCycle) {
cleanUpRemovedInsts();
}
if (!tickEvent.scheduled()) {
if (_status == SwitchedOut ||
getState() == SimObject::Drained) {
DPRINTF(O3CPU, "Switched out!\n");
// increment stat
lastRunningCycle = curTick;
} else if (!activityRec.active() || _status == Idle) {
DPRINTF(O3CPU, "Idle!\n");
lastRunningCycle = curTick;
timesIdled++;
} else {
tickEvent.schedule(nextCycle(curTick + ticks(1)));
DPRINTF(O3CPU, "Scheduling next tick!\n");
}
}
#if !FULL_SYSTEM
updateThreadPriority();
#endif
}
template <class Impl>
void
FullO3CPU<Impl>::init()
{
if (!deferRegistration) {
registerThreadContexts();
}
// Set inSyscall so that the CPU doesn't squash when initially
// setting up registers.
for (int i = 0; i < number_of_threads; ++i)
thread[i]->inSyscall = true;
for (int tid=0; tid < number_of_threads; tid++) {
#if FULL_SYSTEM
ThreadContext *src_tc = threadContexts[tid];
#else
ThreadContext *src_tc = thread[tid]->getTC();
#endif
// Threads start in the Suspended State
if (src_tc->status() != ThreadContext::Suspended) {
continue;
}
#if FULL_SYSTEM
TheISA::initCPU(src_tc, src_tc->readCpuId());
#endif
}
// Clear inSyscall.
for (int i = 0; i < number_of_threads; ++i)
thread[i]->inSyscall = false;
// Initialize stages.
fetch.initStage();
iew.initStage();
rename.initStage();
commit.initStage();
commit.setThreads(thread);
}
template <class Impl>
void
FullO3CPU<Impl>::activateThread(unsigned tid)
{
list<unsigned>::iterator isActive = find(
activeThreads.begin(), activeThreads.end(), tid);
DPRINTF(O3CPU, "[tid:%i]: Calling activate thread.\n", tid);
if (isActive == activeThreads.end()) {
DPRINTF(O3CPU, "[tid:%i]: Adding to active threads list\n",
tid);
activeThreads.push_back(tid);
}
}
template <class Impl>
void
FullO3CPU<Impl>::deactivateThread(unsigned tid)
{
//Remove From Active List, if Active
list<unsigned>::iterator thread_it =
find(activeThreads.begin(), activeThreads.end(), tid);
DPRINTF(O3CPU, "[tid:%i]: Calling deactivate thread.\n", tid);
if (thread_it != activeThreads.end()) {
DPRINTF(O3CPU,"[tid:%i]: Removing from active threads list\n",
tid);
activeThreads.erase(thread_it);
}
}
template <class Impl>
void
FullO3CPU<Impl>::activateContext(int tid, int delay)
{
// Needs to set each stage to running as well.
if (delay){
DPRINTF(O3CPU, "[tid:%i]: Scheduling thread context to activate "
"on cycle %d\n", tid, curTick + ticks(delay));
scheduleActivateThreadEvent(tid, delay);
} else {
activateThread(tid);
}
if (lastActivatedCycle < curTick) {
scheduleTickEvent(delay);
// Be sure to signal that there's some activity so the CPU doesn't
// deschedule itself.
activityRec.activity();
fetch.wakeFromQuiesce();
lastActivatedCycle = curTick;
_status = Running;
}
}
template <class Impl>
bool
FullO3CPU<Impl>::deallocateContext(int tid, bool remove, int delay)
{
// Schedule removal of thread data from CPU
if (delay){
DPRINTF(O3CPU, "[tid:%i]: Scheduling thread context to deallocate "
"on cycle %d\n", tid, curTick + ticks(delay));
scheduleDeallocateContextEvent(tid, remove, delay);
return false;
} else {
deactivateThread(tid);
if (remove)
removeThread(tid);
return true;
}
}
template <class Impl>
void
FullO3CPU<Impl>::suspendContext(int tid)
{
DPRINTF(O3CPU,"[tid: %i]: Suspending Thread Context.\n", tid);
bool deallocated = deallocateContext(tid, false, 1);
// If this was the last thread then unschedule the tick event.
if (activeThreads.size() == 1 && !deallocated ||
activeThreads.size() == 0)
unscheduleTickEvent();
_status = Idle;
}
template <class Impl>
void
FullO3CPU<Impl>::haltContext(int tid)
{
//For now, this is the same as deallocate
DPRINTF(O3CPU,"[tid:%i]: Halt Context called. Deallocating", tid);
deallocateContext(tid, true, 1);
}
template <class Impl>
void
FullO3CPU<Impl>::insertThread(unsigned tid)
{
DPRINTF(O3CPU,"[tid:%i] Initializing thread into CPU");
// Will change now that the PC and thread state is internal to the CPU
// and not in the ThreadContext.
#if FULL_SYSTEM
ThreadContext *src_tc = system->threadContexts[tid];
#else
ThreadContext *src_tc = tcBase(tid);
#endif
//Bind Int Regs to Rename Map
for (int ireg = 0; ireg < TheISA::NumIntRegs; ireg++) {
PhysRegIndex phys_reg = freeList.getIntReg();
renameMap[tid].setEntry(ireg,phys_reg);
scoreboard.setReg(phys_reg);
}
//Bind Float Regs to Rename Map
for (int freg = 0; freg < TheISA::NumFloatRegs; freg++) {
PhysRegIndex phys_reg = freeList.getFloatReg();
renameMap[tid].setEntry(freg,phys_reg);
scoreboard.setReg(phys_reg);
}
//Copy Thread Data Into RegFile
//this->copyFromTC(tid);
//Set PC/NPC/NNPC
setPC(src_tc->readPC(), tid);
setNextPC(src_tc->readNextPC(), tid);
setNextNPC(src_tc->readNextNPC(), tid);
src_tc->setStatus(ThreadContext::Active);
activateContext(tid,1);
//Reset ROB/IQ/LSQ Entries
commit.rob->resetEntries();
iew.resetEntries();
}
template <class Impl>
void
FullO3CPU<Impl>::removeThread(unsigned tid)
{
DPRINTF(O3CPU,"[tid:%i] Removing thread context from CPU.\n", tid);
// Copy Thread Data From RegFile
// If thread is suspended, it might be re-allocated
//this->copyToTC(tid);
// Unbind Int Regs from Rename Map
for (int ireg = 0; ireg < TheISA::NumIntRegs; ireg++) {
PhysRegIndex phys_reg = renameMap[tid].lookup(ireg);
scoreboard.unsetReg(phys_reg);
freeList.addReg(phys_reg);
}
// Unbind Float Regs from Rename Map
for (int freg = 0; freg < TheISA::NumFloatRegs; freg++) {
PhysRegIndex phys_reg = renameMap[tid].lookup(freg);
scoreboard.unsetReg(phys_reg);
freeList.addReg(phys_reg);
}
// Squash Throughout Pipeline
InstSeqNum squash_seq_num = commit.rob->readHeadInst(tid)->seqNum;
fetch.squash(0, sizeof(TheISA::MachInst), 0, squash_seq_num, tid);
decode.squash(tid);
rename.squash(squash_seq_num, tid);
iew.squash(tid);
commit.rob->squash(squash_seq_num, tid);
assert(iew.ldstQueue.getCount(tid) == 0);
// Reset ROB/IQ/LSQ Entries
// Commented out for now. This should be possible to do by
// telling all the pipeline stages to drain first, and then
// checking until the drain completes. Once the pipeline is
// drained, call resetEntries(). - 10-09-06 ktlim
/*
if (activeThreads.size() >= 1) {
commit.rob->resetEntries();
iew.resetEntries();
}
*/
}
template <class Impl>
void
FullO3CPU<Impl>::activateWhenReady(int tid)
{
DPRINTF(O3CPU,"[tid:%i]: Checking if resources are available for incoming"
"(e.g. PhysRegs/ROB/IQ/LSQ) \n",
tid);
bool ready = true;
if (freeList.numFreeIntRegs() >= TheISA::NumIntRegs) {
DPRINTF(O3CPU,"[tid:%i] Suspending thread due to not enough "
"Phys. Int. Regs.\n",
tid);
ready = false;
} else if (freeList.numFreeFloatRegs() >= TheISA::NumFloatRegs) {
DPRINTF(O3CPU,"[tid:%i] Suspending thread due to not enough "
"Phys. Float. Regs.\n",
tid);
ready = false;
} else if (commit.rob->numFreeEntries() >=
commit.rob->entryAmount(activeThreads.size() + 1)) {
DPRINTF(O3CPU,"[tid:%i] Suspending thread due to not enough "
"ROB entries.\n",
tid);
ready = false;
} else if (iew.instQueue.numFreeEntries() >=
iew.instQueue.entryAmount(activeThreads.size() + 1)) {
DPRINTF(O3CPU,"[tid:%i] Suspending thread due to not enough "
"IQ entries.\n",
tid);
ready = false;
} else if (iew.ldstQueue.numFreeEntries() >=
iew.ldstQueue.entryAmount(activeThreads.size() + 1)) {
DPRINTF(O3CPU,"[tid:%i] Suspending thread due to not enough "
"LSQ entries.\n",
tid);
ready = false;
}
if (ready) {
insertThread(tid);
contextSwitch = false;
cpuWaitList.remove(tid);
} else {
suspendContext(tid);
//blocks fetch
contextSwitch = true;
//@todo: dont always add to waitlist
//do waitlist
cpuWaitList.push_back(tid);
}
}
#if FULL_SYSTEM
template <class Impl>
void
FullO3CPU<Impl>::updateMemPorts()
{
// Update all ThreadContext's memory ports (Functional/Virtual
// Ports)
for (int i = 0; i < thread.size(); ++i)
thread[i]->connectMemPorts();
}
#endif
template <class Impl>
void
FullO3CPU<Impl>::serialize(std::ostream &os)
{
SimObject::State so_state = SimObject::getState();
SERIALIZE_ENUM(so_state);
BaseCPU::serialize(os);
nameOut(os, csprintf("%s.tickEvent", name()));
tickEvent.serialize(os);
// Use SimpleThread's ability to checkpoint to make it easier to
// write out the registers. Also make this static so it doesn't
// get instantiated multiple times (causes a panic in statistics).
static SimpleThread temp;
for (int i = 0; i < thread.size(); i++) {
nameOut(os, csprintf("%s.xc.%i", name(), i));
temp.copyTC(thread[i]->getTC());
temp.serialize(os);
}
}
template <class Impl>
void
FullO3CPU<Impl>::unserialize(Checkpoint *cp, const std::string §ion)
{
SimObject::State so_state;
UNSERIALIZE_ENUM(so_state);
BaseCPU::unserialize(cp, section);
tickEvent.unserialize(cp, csprintf("%s.tickEvent", section));
// Use SimpleThread's ability to checkpoint to make it easier to
// read in the registers. Also make this static so it doesn't
// get instantiated multiple times (causes a panic in statistics).
static SimpleThread temp;
for (int i = 0; i < thread.size(); i++) {
temp.copyTC(thread[i]->getTC());
temp.unserialize(cp, csprintf("%s.xc.%i", section, i));
thread[i]->getTC()->copyArchRegs(temp.getTC());
}
}
template <class Impl>
unsigned int
FullO3CPU<Impl>::drain(Event *drain_event)
{
DPRINTF(O3CPU, "Switching out\n");
// If the CPU isn't doing anything, then return immediately.
if (_status == Idle || _status == SwitchedOut) {
return 0;
}
drainCount = 0;
fetch.drain();
decode.drain();
rename.drain();
iew.drain();
commit.drain();
// Wake the CPU and record activity so everything can drain out if
// the CPU was not able to immediately drain.
if (getState() != SimObject::Drained) {
// A bit of a hack...set the drainEvent after all the drain()
// calls have been made, that way if all of the stages drain
// immediately, the signalDrained() function knows not to call
// process on the drain event.
drainEvent = drain_event;
wakeCPU();
activityRec.activity();
return 1;
} else {
return 0;
}
}
template <class Impl>
void
FullO3CPU<Impl>::resume()
{
fetch.resume();
decode.resume();
rename.resume();
iew.resume();
commit.resume();
changeState(SimObject::Running);
if (_status == SwitchedOut || _status == Idle)
return;
#if FULL_SYSTEM
assert(system->getMemoryMode() == Enums::timing);
#endif
if (!tickEvent.scheduled())
tickEvent.schedule(nextCycle());
_status = Running;
}
template <class Impl>
void
FullO3CPU<Impl>::signalDrained()
{
if (++drainCount == NumStages) {
if (tickEvent.scheduled())
tickEvent.squash();
changeState(SimObject::Drained);
BaseCPU::switchOut();
if (drainEvent) {
drainEvent->process();
drainEvent = NULL;
}
}
assert(drainCount <= 5);
}
template <class Impl>
void
FullO3CPU<Impl>::switchOut()
{
fetch.switchOut();
rename.switchOut();
iew.switchOut();
commit.switchOut();
instList.clear();
while (!removeList.empty()) {
removeList.pop();
}
_status = SwitchedOut;
#if USE_CHECKER
if (checker)
checker->switchOut();
#endif
if (tickEvent.scheduled())
tickEvent.squash();
}
template <class Impl>
void
FullO3CPU<Impl>::takeOverFrom(BaseCPU *oldCPU)
{
// Flush out any old data from the time buffers.
for (int i = 0; i < timeBuffer.getSize(); ++i) {
timeBuffer.advance();
fetchQueue.advance();
decodeQueue.advance();
renameQueue.advance();
iewQueue.advance();
}
activityRec.reset();
BaseCPU::takeOverFrom(oldCPU, fetch.getIcachePort(), iew.getDcachePort());
fetch.takeOverFrom();
decode.takeOverFrom();
rename.takeOverFrom();
iew.takeOverFrom();
commit.takeOverFrom();
assert(!tickEvent.scheduled());
// @todo: Figure out how to properly select the tid to put onto
// the active threads list.
int tid = 0;
list<unsigned>::iterator isActive = find(
activeThreads.begin(), activeThreads.end(), tid);
if (isActive == activeThreads.end()) {
//May Need to Re-code this if the delay variable is the delay
//needed for thread to activate
DPRINTF(O3CPU, "Adding Thread %i to active threads list\n",
tid);
activeThreads.push_back(tid);
}
// Set all statuses to active, schedule the CPU's tick event.
// @todo: Fix up statuses so this is handled properly
for (int i = 0; i < threadContexts.size(); ++i) {
ThreadContext *tc = threadContexts[i];
if (tc->status() == ThreadContext::Active && _status != Running) {
_status = Running;
tickEvent.schedule(nextCycle());
}
}
if (!tickEvent.scheduled())
tickEvent.schedule(nextCycle());
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readIntReg(int reg_idx)
{
return regFile.readIntReg(reg_idx);
}
template <class Impl>
FloatReg
FullO3CPU<Impl>::readFloatReg(int reg_idx, int width)
{
return regFile.readFloatReg(reg_idx, width);
}
template <class Impl>
FloatReg
FullO3CPU<Impl>::readFloatReg(int reg_idx)
{
return regFile.readFloatReg(reg_idx);
}
template <class Impl>
FloatRegBits
FullO3CPU<Impl>::readFloatRegBits(int reg_idx, int width)
{
return regFile.readFloatRegBits(reg_idx, width);
}
template <class Impl>
FloatRegBits
FullO3CPU<Impl>::readFloatRegBits(int reg_idx)
{
return regFile.readFloatRegBits(reg_idx);
}
template <class Impl>
void
FullO3CPU<Impl>::setIntReg(int reg_idx, uint64_t val)
{
regFile.setIntReg(reg_idx, val);
}
template <class Impl>
void
FullO3CPU<Impl>::setFloatReg(int reg_idx, FloatReg val, int width)
{
regFile.setFloatReg(reg_idx, val, width);
}
template <class Impl>
void
FullO3CPU<Impl>::setFloatReg(int reg_idx, FloatReg val)
{
regFile.setFloatReg(reg_idx, val);
}
template <class Impl>
void
FullO3CPU<Impl>::setFloatRegBits(int reg_idx, FloatRegBits val, int width)
{
regFile.setFloatRegBits(reg_idx, val, width);
}
template <class Impl>
void
FullO3CPU<Impl>::setFloatRegBits(int reg_idx, FloatRegBits val)
{
regFile.setFloatRegBits(reg_idx, val);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readArchIntReg(int reg_idx, unsigned tid)
{
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(reg_idx);
return regFile.readIntReg(phys_reg);
}
template <class Impl>
float
FullO3CPU<Impl>::readArchFloatRegSingle(int reg_idx, unsigned tid)
{
int idx = reg_idx + TheISA::FP_Base_DepTag;
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(idx);
return regFile.readFloatReg(phys_reg);
}
template <class Impl>
double
FullO3CPU<Impl>::readArchFloatRegDouble(int reg_idx, unsigned tid)
{
int idx = reg_idx + TheISA::FP_Base_DepTag;
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(idx);
return regFile.readFloatReg(phys_reg, 64);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readArchFloatRegInt(int reg_idx, unsigned tid)
{
int idx = reg_idx + TheISA::FP_Base_DepTag;
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(idx);
return regFile.readFloatRegBits(phys_reg);
}
template <class Impl>
void
FullO3CPU<Impl>::setArchIntReg(int reg_idx, uint64_t val, unsigned tid)
{
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(reg_idx);
regFile.setIntReg(phys_reg, val);
}
template <class Impl>
void
FullO3CPU<Impl>::setArchFloatRegSingle(int reg_idx, float val, unsigned tid)
{
int idx = reg_idx + TheISA::FP_Base_DepTag;
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(idx);
regFile.setFloatReg(phys_reg, val);
}
template <class Impl>
void
FullO3CPU<Impl>::setArchFloatRegDouble(int reg_idx, double val, unsigned tid)
{
int idx = reg_idx + TheISA::FP_Base_DepTag;
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(idx);
regFile.setFloatReg(phys_reg, val, 64);
}
template <class Impl>
void
FullO3CPU<Impl>::setArchFloatRegInt(int reg_idx, uint64_t val, unsigned tid)
{
int idx = reg_idx + TheISA::FP_Base_DepTag;
PhysRegIndex phys_reg = commitRenameMap[tid].lookup(idx);
regFile.setFloatRegBits(phys_reg, val);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readPC(unsigned tid)
{
return commit.readPC(tid);
}
template <class Impl>
void
FullO3CPU<Impl>::setPC(Addr new_PC,unsigned tid)
{
commit.setPC(new_PC, tid);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readMicroPC(unsigned tid)
{
return commit.readMicroPC(tid);
}
template <class Impl>
void
FullO3CPU<Impl>::setMicroPC(Addr new_PC,unsigned tid)
{
commit.setMicroPC(new_PC, tid);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readNextPC(unsigned tid)
{
return commit.readNextPC(tid);
}
template <class Impl>
void
FullO3CPU<Impl>::setNextPC(uint64_t val,unsigned tid)
{
commit.setNextPC(val, tid);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readNextNPC(unsigned tid)
{
return commit.readNextNPC(tid);
}
template <class Impl>
void
FullO3CPU<Impl>::setNextNPC(uint64_t val,unsigned tid)
{
commit.setNextNPC(val, tid);
}
template <class Impl>
uint64_t
FullO3CPU<Impl>::readNextMicroPC(unsigned tid)
{
return commit.readNextMicroPC(tid);
}
template <class Impl>
void
FullO3CPU<Impl>::setNextMicroPC(Addr new_PC,unsigned tid)
{
commit.setNextMicroPC(new_PC, tid);
}
template <class Impl>
typename FullO3CPU<Impl>::ListIt
FullO3CPU<Impl>::addInst(DynInstPtr &inst)
{
instList.push_back(inst);
return --(instList.end());
}
template <class Impl>
void
FullO3CPU<Impl>::instDone(unsigned tid)
{
// Keep an instruction count.
thread[tid]->numInst++;
thread[tid]->numInsts++;
committedInsts[tid]++;
totalCommittedInsts++;
// Check for instruction-count-based events.
comInstEventQueue[tid]->serviceEvents(thread[tid]->numInst);
}
template <class Impl>
void
FullO3CPU<Impl>::addToRemoveList(DynInstPtr &inst)
{
removeInstsThisCycle = true;
removeList.push(inst->getInstListIt());
}
template <class Impl>
void
FullO3CPU<Impl>::removeFrontInst(DynInstPtr &inst)
{
DPRINTF(O3CPU, "Removing committed instruction [tid:%i] PC %#x "
"[sn:%lli]\n",
inst->threadNumber, inst->readPC(), inst->seqNum);
removeInstsThisCycle = true;
// Remove the front instruction.
removeList.push(inst->getInstListIt());
}
template <class Impl>
void
FullO3CPU<Impl>::removeInstsNotInROB(unsigned tid)
{
DPRINTF(O3CPU, "Thread %i: Deleting instructions from instruction"
" list.\n", tid);
ListIt end_it;
bool rob_empty = false;
if (instList.empty()) {
return;
} else if (rob.isEmpty(/*tid*/)) {
DPRINTF(O3CPU, "ROB is empty, squashing all insts.\n");
end_it = instList.begin();
rob_empty = true;
} else {
end_it = (rob.readTailInst(tid))->getInstListIt();
DPRINTF(O3CPU, "ROB is not empty, squashing insts not in ROB.\n");
}
removeInstsThisCycle = true;
ListIt inst_it = instList.end();
inst_it--;
// Walk through the instruction list, removing any instructions
// that were inserted after the given instruction iterator, end_it.
while (inst_it != end_it) {
assert(!instList.empty());
squashInstIt(inst_it, tid);
inst_it--;
}
// If the ROB was empty, then we actually need to remove the first
// instruction as well.
if (rob_empty) {
squashInstIt(inst_it, tid);
}
}
template <class Impl>
void
FullO3CPU<Impl>::removeInstsUntil(const InstSeqNum &seq_num,
unsigned tid)
{
assert(!instList.empty());
removeInstsThisCycle = true;
ListIt inst_iter = instList.end();
inst_iter--;
DPRINTF(O3CPU, "Deleting instructions from instruction "
"list that are from [tid:%i] and above [sn:%lli] (end=%lli).\n",
tid, seq_num, (*inst_iter)->seqNum);
while ((*inst_iter)->seqNum > seq_num) {
bool break_loop = (inst_iter == instList.begin());
squashInstIt(inst_iter, tid);
inst_iter--;
if (break_loop)
break;
}
}
template <class Impl>
inline void
FullO3CPU<Impl>::squashInstIt(const ListIt &instIt, const unsigned &tid)
{
if ((*instIt)->threadNumber == tid) {
DPRINTF(O3CPU, "Squashing instruction, "
"[tid:%i] [sn:%lli] PC %#x\n",
(*instIt)->threadNumber,
(*instIt)->seqNum,
(*instIt)->readPC());
// Mark it as squashed.
(*instIt)->setSquashed();
// @todo: Formulate a consistent method for deleting
// instructions from the instruction list
// Remove the instruction from the list.
removeList.push(instIt);
}
}
template <class Impl>
void
FullO3CPU<Impl>::cleanUpRemovedInsts()
{
while (!removeList.empty()) {
DPRINTF(O3CPU, "Removing instruction, "
"[tid:%i] [sn:%lli] PC %#x\n",
(*removeList.front())->threadNumber,
(*removeList.front())->seqNum,
(*removeList.front())->readPC());
instList.erase(removeList.front());
removeList.pop();
}
removeInstsThisCycle = false;
}
/*
template <class Impl>
void
FullO3CPU<Impl>::removeAllInsts()
{
instList.clear();
}
*/
template <class Impl>
void
FullO3CPU<Impl>::dumpInsts()
{
int num = 0;
ListIt inst_list_it = instList.begin();
cprintf("Dumping Instruction List\n");
while (inst_list_it != instList.end()) {
cprintf("Instruction:%i\nPC:%#x\n[tid:%i]\n[sn:%lli]\nIssued:%i\n"
"Squashed:%i\n\n",
num, (*inst_list_it)->readPC(), (*inst_list_it)->threadNumber,
(*inst_list_it)->seqNum, (*inst_list_it)->isIssued(),
(*inst_list_it)->isSquashed());
inst_list_it++;
++num;
}
}
/*
template <class Impl>
void
FullO3CPU<Impl>::wakeDependents(DynInstPtr &inst)
{
iew.wakeDependents(inst);
}
*/
template <class Impl>
void
FullO3CPU<Impl>::wakeCPU()
{
if (activityRec.active() || tickEvent.scheduled()) {
DPRINTF(Activity, "CPU already running.\n");
return;
}
DPRINTF(Activity, "Waking up CPU\n");
idleCycles += tickToCycles((curTick - 1) - lastRunningCycle);
numCycles += tickToCycles((curTick - 1) - lastRunningCycle);
tickEvent.schedule(nextCycle());
}
template <class Impl>
int
FullO3CPU<Impl>::getFreeTid()
{
for (int i=0; i < numThreads; i++) {
if (!tids[i]) {
tids[i] = true;
return i;
}
}
return -1;
}
template <class Impl>
void
FullO3CPU<Impl>::doContextSwitch()
{
if (contextSwitch) {
//ADD CODE TO DEACTIVE THREAD HERE (???)
for (int tid=0; tid < cpuWaitList.size(); tid++) {
activateWhenReady(tid);
}
if (cpuWaitList.size() == 0)
contextSwitch = true;
}
}
template <class Impl>
void
FullO3CPU<Impl>::updateThreadPriority()
{
if (activeThreads.size() > 1)
{
//DEFAULT TO ROUND ROBIN SCHEME
//e.g. Move highest priority to end of thread list
list<unsigned>::iterator list_begin = activeThreads.begin();
list<unsigned>::iterator list_end = activeThreads.end();
unsigned high_thread = *list_begin;
activeThreads.erase(list_begin);
activeThreads.push_back(high_thread);
}
}
// Forward declaration of FullO3CPU.
template class FullO3CPU<O3CPUImpl>;
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