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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.
*
* Authors: Kevin Lim
* Korey Sewell
*/
#ifndef __CPU_O3_CPU_HH__
#define __CPU_O3_CPU_HH__
#include <iostream>
#include <list>
#include <queue>
#include <set>
#include <vector>
#include "arch/types.hh"
#include "base/statistics.hh"
#include "base/timebuf.hh"
#include "config/full_system.hh"
#include "config/use_checker.hh"
#include "cpu/activity.hh"
#include "cpu/base.hh"
#include "cpu/simple_thread.hh"
#include "cpu/o3/comm.hh"
#include "cpu/o3/cpu_policy.hh"
#include "cpu/o3/scoreboard.hh"
#include "cpu/o3/thread_state.hh"
//#include "cpu/o3/thread_context.hh"
#include "sim/process.hh"
template <class>
class Checker;
class ThreadContext;
template <class>
class O3ThreadContext;
class Checkpoint;
class MemObject;
class Process;
class BaseO3CPU : public BaseCPU
{
//Stuff that's pretty ISA independent will go here.
public:
typedef BaseCPU::Params Params;
BaseO3CPU(Params *params);
void regStats();
/** Sets this CPU's ID. */
void setCpuId(int id) { cpu_id = id; }
/** Reads this CPU's ID. */
int readCpuId() { return cpu_id; }
protected:
int cpu_id;
};
/**
* FullO3CPU class, has each of the stages (fetch through commit)
* within it, as well as all of the time buffers between stages. The
* tick() function for the CPU is defined here.
*/
template <class Impl>
class FullO3CPU : public BaseO3CPU
{
public:
// Typedefs from the Impl here.
typedef typename Impl::CPUPol CPUPolicy;
typedef typename Impl::DynInstPtr DynInstPtr;
typedef typename Impl::O3CPU O3CPU;
typedef typename Impl::Params Params;
typedef O3ThreadState<Impl> Thread;
typedef typename std::list<DynInstPtr>::iterator ListIt;
friend class O3ThreadContext<Impl>;
public:
enum Status {
Running,
Idle,
Halted,
Blocked,
SwitchedOut
};
TheISA::ITB * itb;
TheISA::DTB * dtb;
/** Overall CPU status. */
Status _status;
/** Per-thread status in CPU, used for SMT. */
Status _threadStatus[Impl::MaxThreads];
private:
class TickEvent : public Event
{
private:
/** Pointer to the CPU. */
FullO3CPU<Impl> *cpu;
public:
/** Constructs a tick event. */
TickEvent(FullO3CPU<Impl> *c);
/** Processes a tick event, calling tick() on the CPU. */
void process();
/** Returns the description of the tick event. */
const char *description() const;
};
/** The tick event used for scheduling CPU ticks. */
TickEvent tickEvent;
/** Schedule tick event, regardless of its current state. */
void scheduleTickEvent(int delay)
{
if (tickEvent.squashed())
tickEvent.reschedule(nextCycle(curTick + ticks(delay)));
else if (!tickEvent.scheduled())
tickEvent.schedule(nextCycle(curTick + ticks(delay)));
}
/** Unschedule tick event, regardless of its current state. */
void unscheduleTickEvent()
{
if (tickEvent.scheduled())
tickEvent.squash();
}
class ActivateThreadEvent : public Event
{
private:
/** Number of Thread to Activate */
int tid;
/** Pointer to the CPU. */
FullO3CPU<Impl> *cpu;
public:
/** Constructs the event. */
ActivateThreadEvent();
/** Initialize Event */
void init(int thread_num, FullO3CPU<Impl> *thread_cpu);
/** Processes the event, calling activateThread() on the CPU. */
void process();
/** Returns the description of the event. */
const char *description() const;
};
/** Schedule thread to activate , regardless of its current state. */
void scheduleActivateThreadEvent(int tid, int delay)
{
// Schedule thread to activate, regardless of its current state.
if (activateThreadEvent[tid].squashed())
activateThreadEvent[tid].
reschedule(nextCycle(curTick + ticks(delay)));
else if (!activateThreadEvent[tid].scheduled())
activateThreadEvent[tid].
schedule(nextCycle(curTick + ticks(delay)));
}
/** Unschedule actiavte thread event, regardless of its current state. */
void unscheduleActivateThreadEvent(int tid)
{
if (activateThreadEvent[tid].scheduled())
activateThreadEvent[tid].squash();
}
/** The tick event used for scheduling CPU ticks. */
ActivateThreadEvent activateThreadEvent[Impl::MaxThreads];
class DeallocateContextEvent : public Event
{
private:
/** Number of Thread to deactivate */
int tid;
/** Should the thread be removed from the CPU? */
bool remove;
/** Pointer to the CPU. */
FullO3CPU<Impl> *cpu;
public:
/** Constructs the event. */
DeallocateContextEvent();
/** Initialize Event */
void init(int thread_num, FullO3CPU<Impl> *thread_cpu);
/** Processes the event, calling activateThread() on the CPU. */
void process();
/** Sets whether the thread should also be removed from the CPU. */
void setRemove(bool _remove) { remove = _remove; }
/** Returns the description of the event. */
const char *description() const;
};
/** Schedule cpu to deallocate thread context.*/
void scheduleDeallocateContextEvent(int tid, bool remove, int delay)
{
// Schedule thread to activate, regardless of its current state.
if (deallocateContextEvent[tid].squashed())
deallocateContextEvent[tid].
reschedule(nextCycle(curTick + ticks(delay)));
else if (!deallocateContextEvent[tid].scheduled())
deallocateContextEvent[tid].
schedule(nextCycle(curTick + ticks(delay)));
}
/** Unschedule thread deallocation in CPU */
void unscheduleDeallocateContextEvent(int tid)
{
if (deallocateContextEvent[tid].scheduled())
deallocateContextEvent[tid].squash();
}
/** The tick event used for scheduling CPU ticks. */
DeallocateContextEvent deallocateContextEvent[Impl::MaxThreads];
public:
/** Constructs a CPU with the given parameters. */
FullO3CPU(O3CPU *o3_cpu, Params *params);
/** Destructor. */
~FullO3CPU();
/** Registers statistics. */
void fullCPURegStats();
/** Translates instruction requestion. */
Fault translateInstReq(RequestPtr &req, Thread *thread)
{
return this->itb->translate(req, thread->getTC());
}
/** Translates data read request. */
Fault translateDataReadReq(RequestPtr &req, Thread *thread)
{
return this->dtb->translate(req, thread->getTC(), false);
}
/** Translates data write request. */
Fault translateDataWriteReq(RequestPtr &req, Thread *thread)
{
return this->dtb->translate(req, thread->getTC(), true);
}
/** Returns a specific port. */
Port *getPort(const std::string &if_name, int idx);
/** Ticks CPU, calling tick() on each stage, and checking the overall
* activity to see if the CPU should deschedule itself.
*/
void tick();
/** Initialize the CPU */
void init();
/** Returns the Number of Active Threads in the CPU */
int numActiveThreads()
{ return activeThreads.size(); }
/** Add Thread to Active Threads List */
void activateThread(unsigned tid);
/** Remove Thread from Active Threads List */
void deactivateThread(unsigned tid);
/** Setup CPU to insert a thread's context */
void insertThread(unsigned tid);
/** Remove all of a thread's context from CPU */
void removeThread(unsigned tid);
/** Count the Total Instructions Committed in the CPU. */
virtual Counter totalInstructions() const
{
Counter total(0);
for (int i=0; i < thread.size(); i++)
total += thread[i]->numInst;
return total;
}
/** Add Thread to Active Threads List. */
void activateContext(int tid, int delay);
/** Remove Thread from Active Threads List */
void suspendContext(int tid);
/** Remove Thread from Active Threads List &&
* Possibly Remove Thread Context from CPU.
*/
bool deallocateContext(int tid, bool remove, int delay = 1);
/** Remove Thread from Active Threads List &&
* Remove Thread Context from CPU.
*/
void haltContext(int tid);
/** Activate a Thread When CPU Resources are Available. */
void activateWhenReady(int tid);
/** Add or Remove a Thread Context in the CPU. */
void doContextSwitch();
/** Update The Order In Which We Process Threads. */
void updateThreadPriority();
/** Serialize state. */
virtual void serialize(std::ostream &os);
/** Unserialize from a checkpoint. */
virtual void unserialize(Checkpoint *cp, const std::string §ion);
public:
/** Executes a syscall on this cycle.
* ---------------------------------------
* Note: this is a virtual function. CPU-Specific
* functionality defined in derived classes
*/
virtual void syscall(int tid) { panic("Unimplemented!"); }
/** Starts draining the CPU's pipeline of all instructions in
* order to stop all memory accesses. */
virtual unsigned int drain(Event *drain_event);
/** Resumes execution after a drain. */
virtual void resume();
/** Signals to this CPU that a stage has completed switching out. */
void signalDrained();
/** Switches out this CPU. */
virtual void switchOut();
/** Takes over from another CPU. */
virtual void takeOverFrom(BaseCPU *oldCPU);
/** Get the current instruction sequence number, and increment it. */
InstSeqNum getAndIncrementInstSeq()
{ return globalSeqNum++; }
#if FULL_SYSTEM
/** Update the Virt and Phys ports of all ThreadContexts to
* reflect change in memory connections. */
void updateMemPorts();
/** Check if this address is a valid instruction address. */
bool validInstAddr(Addr addr) { return true; }
/** Check if this address is a valid data address. */
bool validDataAddr(Addr addr) { return true; }
/** Get instruction asid. */
int getInstAsid(unsigned tid)
{ return regFile.miscRegs[tid].getInstAsid(); }
/** Get data asid. */
int getDataAsid(unsigned tid)
{ return regFile.miscRegs[tid].getDataAsid(); }
#else
/** Get instruction asid. */
int getInstAsid(unsigned tid)
{ return thread[tid]->getInstAsid(); }
/** Get data asid. */
int getDataAsid(unsigned tid)
{ return thread[tid]->getDataAsid(); }
#endif
/** Register accessors. Index refers to the physical register index. */
uint64_t readIntReg(int reg_idx);
TheISA::FloatReg readFloatReg(int reg_idx);
TheISA::FloatReg readFloatReg(int reg_idx, int width);
TheISA::FloatRegBits readFloatRegBits(int reg_idx);
TheISA::FloatRegBits readFloatRegBits(int reg_idx, int width);
void setIntReg(int reg_idx, uint64_t val);
void setFloatReg(int reg_idx, TheISA::FloatReg val);
void setFloatReg(int reg_idx, TheISA::FloatReg val, int width);
void setFloatRegBits(int reg_idx, TheISA::FloatRegBits val);
void setFloatRegBits(int reg_idx, TheISA::FloatRegBits val, int width);
uint64_t readArchIntReg(int reg_idx, unsigned tid);
float readArchFloatRegSingle(int reg_idx, unsigned tid);
double readArchFloatRegDouble(int reg_idx, unsigned tid);
uint64_t readArchFloatRegInt(int reg_idx, unsigned tid);
/** Architectural register accessors. Looks up in the commit
* rename table to obtain the true physical index of the
* architected register first, then accesses that physical
* register.
*/
void setArchIntReg(int reg_idx, uint64_t val, unsigned tid);
void setArchFloatRegSingle(int reg_idx, float val, unsigned tid);
void setArchFloatRegDouble(int reg_idx, double val, unsigned tid);
void setArchFloatRegInt(int reg_idx, uint64_t val, unsigned tid);
/** Reads the commit PC of a specific thread. */
Addr readPC(unsigned tid);
/** Sets the commit PC of a specific thread. */
void setPC(Addr new_PC, unsigned tid);
/** Reads the commit micro PC of a specific thread. */
Addr readMicroPC(unsigned tid);
/** Sets the commmit micro PC of a specific thread. */
void setMicroPC(Addr new_microPC, unsigned tid);
/** Reads the next PC of a specific thread. */
Addr readNextPC(unsigned tid);
/** Sets the next PC of a specific thread. */
void setNextPC(Addr val, unsigned tid);
/** Reads the next NPC of a specific thread. */
Addr readNextNPC(unsigned tid);
/** Sets the next NPC of a specific thread. */
void setNextNPC(Addr val, unsigned tid);
/** Reads the commit next micro PC of a specific thread. */
Addr readNextMicroPC(unsigned tid);
/** Sets the commit next micro PC of a specific thread. */
void setNextMicroPC(Addr val, unsigned tid);
/** Function to add instruction onto the head of the list of the
* instructions. Used when new instructions are fetched.
*/
ListIt addInst(DynInstPtr &inst);
/** Function to tell the CPU that an instruction has completed. */
void instDone(unsigned tid);
/** Add Instructions to the CPU Remove List*/
void addToRemoveList(DynInstPtr &inst);
/** Remove an instruction from the front end of the list. There's
* no restriction on location of the instruction.
*/
void removeFrontInst(DynInstPtr &inst);
/** Remove all instructions that are not currently in the ROB.
* There's also an option to not squash delay slot instructions.*/
void removeInstsNotInROB(unsigned tid);
/** Remove all instructions younger than the given sequence number. */
void removeInstsUntil(const InstSeqNum &seq_num,unsigned tid);
/** Removes the instruction pointed to by the iterator. */
inline void squashInstIt(const ListIt &instIt, const unsigned &tid);
/** Cleans up all instructions on the remove list. */
void cleanUpRemovedInsts();
/** Debug function to print all instructions on the list. */
void dumpInsts();
public:
/** List of all the instructions in flight. */
std::list<DynInstPtr> instList;
/** List of all the instructions that will be removed at the end of this
* cycle.
*/
std::queue<ListIt> removeList;
#ifdef DEBUG
/** Debug structure to keep track of the sequence numbers still in
* flight.
*/
std::set<InstSeqNum> snList;
#endif
/** Records if instructions need to be removed this cycle due to
* being retired or squashed.
*/
bool removeInstsThisCycle;
protected:
/** The fetch stage. */
typename CPUPolicy::Fetch fetch;
/** The decode stage. */
typename CPUPolicy::Decode decode;
/** The dispatch stage. */
typename CPUPolicy::Rename rename;
/** The issue/execute/writeback stages. */
typename CPUPolicy::IEW iew;
/** The commit stage. */
typename CPUPolicy::Commit commit;
/** The register file. */
typename CPUPolicy::RegFile regFile;
/** The free list. */
typename CPUPolicy::FreeList freeList;
/** The rename map. */
typename CPUPolicy::RenameMap renameMap[Impl::MaxThreads];
/** The commit rename map. */
typename CPUPolicy::RenameMap commitRenameMap[Impl::MaxThreads];
/** The re-order buffer. */
typename CPUPolicy::ROB rob;
/** Active Threads List */
std::list<unsigned> activeThreads;
/** Integer Register Scoreboard */
Scoreboard scoreboard;
public:
/** Enum to give each stage a specific index, so when calling
* activateStage() or deactivateStage(), they can specify which stage
* is being activated/deactivated.
*/
enum StageIdx {
FetchIdx,
DecodeIdx,
RenameIdx,
IEWIdx,
CommitIdx,
NumStages };
/** Typedefs from the Impl to get the structs that each of the
* time buffers should use.
*/
typedef typename CPUPolicy::TimeStruct TimeStruct;
typedef typename CPUPolicy::FetchStruct FetchStruct;
typedef typename CPUPolicy::DecodeStruct DecodeStruct;
typedef typename CPUPolicy::RenameStruct RenameStruct;
typedef typename CPUPolicy::IEWStruct IEWStruct;
/** The main time buffer to do backwards communication. */
TimeBuffer<TimeStruct> timeBuffer;
/** The fetch stage's instruction queue. */
TimeBuffer<FetchStruct> fetchQueue;
/** The decode stage's instruction queue. */
TimeBuffer<DecodeStruct> decodeQueue;
/** The rename stage's instruction queue. */
TimeBuffer<RenameStruct> renameQueue;
/** The IEW stage's instruction queue. */
TimeBuffer<IEWStruct> iewQueue;
private:
/** The activity recorder; used to tell if the CPU has any
* activity remaining or if it can go to idle and deschedule
* itself.
*/
ActivityRecorder activityRec;
public:
/** Records that there was time buffer activity this cycle. */
void activityThisCycle() { activityRec.activity(); }
/** Changes a stage's status to active within the activity recorder. */
void activateStage(const StageIdx idx)
{ activityRec.activateStage(idx); }
/** Changes a stage's status to inactive within the activity recorder. */
void deactivateStage(const StageIdx idx)
{ activityRec.deactivateStage(idx); }
/** Wakes the CPU, rescheduling the CPU if it's not already active. */
void wakeCPU();
/** Gets a free thread id. Use if thread ids change across system. */
int getFreeTid();
public:
/** Returns a pointer to a thread context. */
ThreadContext *tcBase(unsigned tid)
{
return thread[tid]->getTC();
}
/** The global sequence number counter. */
InstSeqNum globalSeqNum;//[Impl::MaxThreads];
#if USE_CHECKER
/** Pointer to the checker, which can dynamically verify
* instruction results at run time. This can be set to NULL if it
* is not being used.
*/
Checker<DynInstPtr> *checker;
#endif
#if FULL_SYSTEM
/** Pointer to the system. */
System *system;
/** Pointer to physical memory. */
PhysicalMemory *physmem;
#endif
/** Event to call process() on once draining has completed. */
Event *drainEvent;
/** Counter of how many stages have completed draining. */
int drainCount;
/** Pointers to all of the threads in the CPU. */
std::vector<Thread *> thread;
/** Whether or not the CPU should defer its registration. */
bool deferRegistration;
/** Is there a context switch pending? */
bool contextSwitch;
/** Threads Scheduled to Enter CPU */
std::list<int> cpuWaitList;
/** The cycle that the CPU was last running, used for statistics. */
Tick lastRunningCycle;
/** The cycle that the CPU was last activated by a new thread*/
Tick lastActivatedCycle;
/** Number of Threads CPU can process */
unsigned numThreads;
/** Mapping for system thread id to cpu id */
std::map<unsigned,unsigned> threadMap;
/** Available thread ids in the cpu*/
std::vector<unsigned> tids;
/** Stat for total number of times the CPU is descheduled. */
Stats::Scalar<> timesIdled;
/** Stat for total number of cycles the CPU spends descheduled. */
Stats::Scalar<> idleCycles;
/** Stat for the number of committed instructions per thread. */
Stats::Vector<> committedInsts;
/** Stat for the total number of committed instructions. */
Stats::Scalar<> totalCommittedInsts;
/** Stat for the CPI per thread. */
Stats::Formula cpi;
/** Stat for the total CPI. */
Stats::Formula totalCpi;
/** Stat for the IPC per thread. */
Stats::Formula ipc;
/** Stat for the total IPC. */
Stats::Formula totalIpc;
};
#endif // __CPU_O3_CPU_HH__
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