/* * Copyright (c) 2007 MIPS Technologies, Inc. * 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 #include #include "arch/isa_traits.hh" #include "config/the_isa.hh" #include "cpu/inorder/pipeline_traits.hh" #include "cpu/inorder/first_stage.hh" #include "cpu/inorder/resources/tlb_unit.hh" #include "cpu/inorder/cpu.hh" using namespace std; using namespace TheISA; using namespace ThePipeline; TLBUnit::TLBUnit(string res_name, int res_id, int res_width, int res_latency, InOrderCPU *_cpu, ThePipeline::Params *params) : Resource(res_name, res_id, res_width, res_latency, _cpu) { // Hard-Code Selection For Now if (res_name == "I-TLB") _tlb = params->itb; else if (res_name == "D-TLB") _tlb = params->dtb; else fatal("Unrecognized TLB name passed by user"); for (int i=0; i < MaxThreads; i++) { tlbBlocked[i] = false; } } TheISA::TLB* TLBUnit::tlb() { return _tlb; } void TLBUnit::init() { resourceEvent = new TLBUnitEvent[width]; for (int i = 0; i < width; i++) { reqs[i] = new TLBUnitRequest(this); } initSlots(); } int TLBUnit::getSlot(DynInstPtr inst) { if (tlbBlocked[inst->threadNumber]) { return -1; } else { return Resource::getSlot(inst); } } ResourceRequest* TLBUnit::getRequest(DynInstPtr _inst, int stage_num, int res_idx, int slot_num, unsigned cmd) { TLBUnitRequest *tlb_req = dynamic_cast(reqs[slot_num]); tlb_req->setRequest(inst, stage_num, id, slot_num, cmd); return ud_req; } void TLBUnit::execute(int slot_idx) { // After this is working, change this to a reinterpret cast // for performance considerations TLBUnitRequest* tlb_req = dynamic_cast(reqs[slot_idx]); assert(tlb_req != 0x0); DynInstPtr inst = tlb_req->inst; ThreadID tid = inst->readTid(); int seq_num = inst->seqNum; int stage_num = tlb_req->getStageNum(); tlb_req->fault = NoFault; assert(cpu->thread[tid]->getTC() != 0x0); assert(cpu->pipelineStage[stage_num] != 0x0); switch (tlb_req->cmd) { case FetchLookup: { tlb_req->fault = _tlb->translateAtomic(tlb_req->memReq, cpu->thread[tid]->getTC(), TheISA::TLB::Execute); if (tlb_req->fault != NoFault) { DPRINTF(InOrderTLB, "[tid:%i]: %s encountered while translating " "addr:%08p for [sn:%i].\n", tid, tlb_req->fault->name(), tlb_req->memReq->getVaddr(), seq_num); DPRINTF(InOrderTLB, "slot:%i sn:%i schedule event.\n", slot_idx, seq_num); cpu->pipelineStage[stage_num]->setResStall(tlb_req, tid); tlbBlocked[tid] = true; scheduleEvent(slot_idx, 1); // @TODO: SHOULDNT BREAK EXECUTION at misspeculated PC Fault // Let CPU handle the fault cpu->trap(tlb_req->fault, tid); } else { DPRINTF(InOrderTLB, "[tid:%i]: [sn:%i] virt. addr %08p translated " "to phys. addr:%08p.\n", tid, seq_num, tlb_req->memReq->getVaddr(), tlb_req->memReq->getPaddr()); tlb_req->done(); } } break; case DataReadLookup: case DataWriteLookup: { DPRINTF(InOrderTLB, "[tid:%i]: [sn:%i]: Attempting to translate %08p.\n", tid, seq_num, tlb_req->memReq->getVaddr()); TheISA::TLB::Mode tlb_mode = (tlb_req->cmd == DataReadLookup) ? TheISA::TLB::Read : TheISA::TLB::Write; tlb_req->fault = _tlb->translateAtomic(tlb_req->memReq, cpu->thread[tid]->getTC(), tlb_mode); if (tlb_req->fault != NoFault) { DPRINTF(InOrderTLB, "[tid:%i]: %s encountered while translating " "addr:%08p for [sn:%i] %s.\n", tid, tlb_req->fault->name(), tlb_req->memReq->getVaddr(), seq_num, inst->instName()); if (inst->isDataPrefetch()) { DPRINTF(InOrderTLB, "Ignoring %s fault for data prefetch\n", tlb_req->fault->name()); tlb_req->fault = NoFault; tlb_req->done(); } else { cpu->pipelineStage[stage_num]->setResStall(tlb_req, tid); tlbBlocked[tid] = true; scheduleEvent(slot_idx, 1); // Let CPU handle the fault cpu->trap(tlb_req->fault, tid, inst); } } else { DPRINTF(InOrderTLB, "[tid:%i]: [sn:%i] virt. addr %08p translated " "to phys. addr:%08p.\n", tid, seq_num, tlb_req->memReq->getVaddr(), tlb_req->memReq->getPaddr()); tlb_req->done(); } } break; default: fatal("Unrecognized command to %s", resName); } } TLBUnitEvent::TLBUnitEvent() : ResourceEvent() { } void TLBUnitEvent::process() { DynInstPtr inst = resource->reqs[slotIdx]->inst; int stage_num = resource->reqs[slotIdx]->getStageNum(); ThreadID tid = inst->threadNumber; DPRINTF(InOrderTLB, "Waking up from TLB Miss caused by [sn:%i].\n", inst->seqNum); TLBUnit* tlb_res = dynamic_cast(resource); assert(tlb_res); tlb_res->tlbBlocked[tid] = false; tlb_res->cpu->pipelineStage[stage_num]-> unsetResStall(tlb_res->reqs[slotIdx], tid); } void TLBUnit::squash(DynInstPtr inst, int stage_num, InstSeqNum squash_seq_num, ThreadID tid) { for (int i = 0; i < width; i++) { ResReqPtr req_ptr = reqs[i]; if (req_ptr->valid && req_ptr->getInst()->readTid() == tid && req_ptr->getInst()->seqNum > squash_seq_num) { DPRINTF(Resource, "[tid:%i]: Squashing [sn:%i].\n", req_ptr->getInst()->readTid(), req_ptr->getInst()->seqNum); req_ptr->setSquashed(); int req_slot_num = req_ptr->getSlot(); tlbBlocked[tid] = false; int stall_stage = reqs[req_slot_num]->getStageNum(); cpu->pipelineStage[stall_stage]-> unsetResStall(reqs[req_slot_num], tid); if (resourceEvent[req_slot_num].scheduled()) unscheduleEvent(req_slot_num); freeSlot(req_slot_num); } } }