/* * Copyright (c) 2012-2013, 2016-2018 ARM Limited * All rights reserved * * The license below extends only to copyright in the software and shall * not be construed as granting a license to any other intellectual * property including but not limited to intellectual property relating * to a hardware implementation of the functionality of the software * licensed hereunder. You may use the software subject to the license * terms below provided that you ensure that this notice is replicated * unmodified and in its entirety in all distributions of the software, * modified or unmodified, in source code or in binary form. * * 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: Thomas Grass * Andreas Hansson * Sascha Bischoff */ #include "cpu/testers/traffic_gen/base.hh" #include #include "base/intmath.hh" #include "base/random.hh" #include "config/have_protobuf.hh" #include "cpu/testers/traffic_gen/base_gen.hh" #include "cpu/testers/traffic_gen/dram_gen.hh" #include "cpu/testers/traffic_gen/dram_rot_gen.hh" #include "cpu/testers/traffic_gen/exit_gen.hh" #include "cpu/testers/traffic_gen/idle_gen.hh" #include "cpu/testers/traffic_gen/linear_gen.hh" #include "cpu/testers/traffic_gen/random_gen.hh" #include "debug/Checkpoint.hh" #include "debug/TrafficGen.hh" #include "params/BaseTrafficGen.hh" #include "sim/sim_exit.hh" #include "sim/stats.hh" #include "sim/system.hh" #if HAVE_PROTOBUF #include "cpu/testers/traffic_gen/trace_gen.hh" #endif using namespace std; BaseTrafficGen::BaseTrafficGen(const BaseTrafficGenParams* p) : MemObject(p), system(p->system), elasticReq(p->elastic_req), progressCheck(p->progress_check), noProgressEvent([this]{ noProgress(); }, name()), nextTransitionTick(0), nextPacketTick(0), port(name() + ".port", *this), retryPkt(NULL), retryPktTick(0), updateEvent([this]{ update(); }, name()), numSuppressed(0), masterID(system->getMasterId(this)) { } BaseMasterPort& BaseTrafficGen::getMasterPort(const string& if_name, PortID idx) { if (if_name == "port") { return port; } else { return MemObject::getMasterPort(if_name, idx); } } void BaseTrafficGen::init() { MemObject::init(); if (!port.isConnected()) fatal("The port of %s is not connected!\n", name()); } DrainState BaseTrafficGen::drain() { if (!updateEvent.scheduled()) { // no event has been scheduled yet (e.g. switched from atomic mode) return DrainState::Drained; } if (retryPkt == NULL) { // shut things down nextPacketTick = MaxTick; nextTransitionTick = MaxTick; deschedule(updateEvent); return DrainState::Drained; } else { return DrainState::Draining; } } void BaseTrafficGen::serialize(CheckpointOut &cp) const { DPRINTF(Checkpoint, "Serializing BaseTrafficGen\n"); // save ticks of the graph event if it is scheduled Tick nextEvent = updateEvent.scheduled() ? updateEvent.when() : 0; DPRINTF(TrafficGen, "Saving nextEvent=%llu\n", nextEvent); SERIALIZE_SCALAR(nextEvent); SERIALIZE_SCALAR(nextTransitionTick); SERIALIZE_SCALAR(nextPacketTick); } void BaseTrafficGen::unserialize(CheckpointIn &cp) { // restore scheduled events Tick nextEvent; UNSERIALIZE_SCALAR(nextEvent); if (nextEvent != 0) schedule(updateEvent, nextEvent); UNSERIALIZE_SCALAR(nextTransitionTick); UNSERIALIZE_SCALAR(nextPacketTick); } void BaseTrafficGen::update() { // shift our progress-tracking event forward reschedule(noProgressEvent, curTick() + progressCheck, true); // if we have reached the time for the next state transition, then // perform the transition if (curTick() >= nextTransitionTick) { transition(); } else { assert(curTick() >= nextPacketTick); // get the next packet and try to send it PacketPtr pkt = activeGenerator->getNextPacket(); // suppress packets that are not destined for a memory, such as // device accesses that could be part of a trace if (system->isMemAddr(pkt->getAddr())) { numPackets++; if (!port.sendTimingReq(pkt)) { retryPkt = pkt; retryPktTick = curTick(); } } else { DPRINTF(TrafficGen, "Suppressed packet %s 0x%x\n", pkt->cmdString(), pkt->getAddr()); ++numSuppressed; if (numSuppressed % 10000) warn("%s suppressed %d packets with non-memory addresses\n", name(), numSuppressed); delete pkt; pkt = nullptr; } } // if we are waiting for a retry, do not schedule any further // events, in the case of a transition or a successful send, go // ahead and determine when the next update should take place if (retryPkt == NULL) { nextPacketTick = activeGenerator->nextPacketTick(elasticReq, 0); scheduleUpdate(); } } void BaseTrafficGen::transition() { if (activeGenerator) activeGenerator->exit(); activeGenerator = nextGenerator(); if (activeGenerator) { const Tick duration = activeGenerator->duration; if (duration != MaxTick && duration != 0) { // we could have been delayed and not transitioned on the // exact tick when we were supposed to (due to back // pressure when sending a packet) nextTransitionTick = curTick() + duration; } else { nextTransitionTick = MaxTick; } activeGenerator->enter(); nextPacketTick = activeGenerator->nextPacketTick(elasticReq, 0); } else { nextPacketTick = MaxTick; nextTransitionTick = MaxTick; assert(!updateEvent.scheduled()); } } void BaseTrafficGen::scheduleUpdate() { // schedule next update event based on either the next execute // tick or the next transition, which ever comes first const Tick nextEventTick = std::min(nextPacketTick, nextTransitionTick); if (nextEventTick == MaxTick) return; DPRINTF(TrafficGen, "Next event scheduled at %lld\n", nextEventTick); // The next transition tick may be in the past if there was a // retry, so ensure that we don't schedule anything in the past. schedule(updateEvent, std::max(curTick(), nextEventTick)); } void BaseTrafficGen::start() { transition(); scheduleUpdate(); } void BaseTrafficGen::recvReqRetry() { assert(retryPkt != NULL); DPRINTF(TrafficGen, "Received retry\n"); numRetries++; // attempt to send the packet, and if we are successful start up // the machinery again if (port.sendTimingReq(retryPkt)) { retryPkt = NULL; // remember how much delay was incurred due to back-pressure // when sending the request, we also use this to derive // the tick for the next packet Tick delay = curTick() - retryPktTick; retryPktTick = 0; retryTicks += delay; if (drainState() != DrainState::Draining) { // packet is sent, so find out when the next one is due nextPacketTick = activeGenerator->nextPacketTick(elasticReq, delay); scheduleUpdate(); } else { // shut things down nextPacketTick = MaxTick; nextTransitionTick = MaxTick; signalDrainDone(); } } } void BaseTrafficGen::noProgress() { fatal("BaseTrafficGen %s spent %llu ticks without making progress", name(), progressCheck); } void BaseTrafficGen::regStats() { ClockedObject::regStats(); // Initialise all the stats using namespace Stats; numPackets .name(name() + ".numPackets") .desc("Number of packets generated"); numRetries .name(name() + ".numRetries") .desc("Number of retries"); retryTicks .name(name() + ".retryTicks") .desc("Time spent waiting due to back-pressure (ticks)"); } std::shared_ptr BaseTrafficGen::createIdle(Tick duration) { return std::shared_ptr(new IdleGen(*this, duration)); } std::shared_ptr BaseTrafficGen::createExit(Tick duration) { return std::shared_ptr(new ExitGen(*this, duration)); } std::shared_ptr BaseTrafficGen::createLinear(Tick duration, Addr start_addr, Addr end_addr, Addr blocksize, Tick min_period, Tick max_period, uint8_t read_percent, Addr data_limit) { return std::shared_ptr(new LinearGen(*this, duration, start_addr, end_addr, blocksize, min_period, max_period, read_percent, data_limit)); } std::shared_ptr BaseTrafficGen::createRandom(Tick duration, Addr start_addr, Addr end_addr, Addr blocksize, Tick min_period, Tick max_period, uint8_t read_percent, Addr data_limit) { return std::shared_ptr(new RandomGen(*this, duration, start_addr, end_addr, blocksize, min_period, max_period, read_percent, data_limit)); } std::shared_ptr BaseTrafficGen::createDram(Tick duration, Addr start_addr, Addr end_addr, Addr blocksize, Tick min_period, Tick max_period, uint8_t read_percent, Addr data_limit, unsigned int num_seq_pkts, unsigned int page_size, unsigned int nbr_of_banks_DRAM, unsigned int nbr_of_banks_util, unsigned int addr_mapping, unsigned int nbr_of_ranks) { return std::shared_ptr(new DramGen(*this, duration, start_addr, end_addr, blocksize, min_period, max_period, read_percent, data_limit, num_seq_pkts, page_size, nbr_of_banks_DRAM, nbr_of_banks_util, addr_mapping, nbr_of_ranks)); } std::shared_ptr BaseTrafficGen::createDramRot(Tick duration, Addr start_addr, Addr end_addr, Addr blocksize, Tick min_period, Tick max_period, uint8_t read_percent, Addr data_limit, unsigned int num_seq_pkts, unsigned int page_size, unsigned int nbr_of_banks_DRAM, unsigned int nbr_of_banks_util, unsigned int addr_mapping, unsigned int nbr_of_ranks, unsigned int max_seq_count_per_rank) { return std::shared_ptr(new DramRotGen(*this, duration, start_addr, end_addr, blocksize, min_period, max_period, read_percent, data_limit, num_seq_pkts, page_size, nbr_of_banks_DRAM, nbr_of_banks_util, addr_mapping, nbr_of_ranks, max_seq_count_per_rank)); } std::shared_ptr BaseTrafficGen::createTrace(Tick duration, const std::string& trace_file, Addr addr_offset) { #if HAVE_PROTOBUF return std::shared_ptr( new TraceGen(*this, duration, trace_file, addr_offset)); #else panic("Can't instantiate trace generation without Protobuf support!\n"); #endif } bool BaseTrafficGen::TrafficGenPort::recvTimingResp(PacketPtr pkt) { delete pkt; return true; }