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/*
* Copyright (c) 2012 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 <sstream>
#include "base/random.hh"
#include "cpu/testers/traffic_gen/traffic_gen.hh"
#include "debug/Checkpoint.hh"
#include "debug/TrafficGen.hh"
#include "sim/stats.hh"
#include "sim/system.hh"
using namespace std;
TrafficGen::TrafficGen(const TrafficGenParams* p)
: MemObject(p),
system(p->system),
masterID(system->getMasterId(name())),
port(name() + ".port", *this),
stateGraph(*this, port, p->config_file, masterID),
updateStateGraphEvent(this)
{
}
TrafficGen*
TrafficGenParams::create()
{
return new TrafficGen(this);
}
BaseMasterPort&
TrafficGen::getMasterPort(const string& if_name, PortID idx)
{
if (if_name == "port") {
return port;
} else {
return MemObject::getMasterPort(if_name, idx);
}
}
void
TrafficGen::init()
{
if (!port.isConnected())
fatal("The port of %s is not connected!\n", name());
Enums::MemoryMode mode = system->getMemoryMode();
// if the system is in timing mode active the request generator
if (mode == Enums::timing) {
DPRINTF(TrafficGen, "Timing mode, activating request generator\n");
// enter initial state
stateGraph.enterState(stateGraph.currState);
} else {
DPRINTF(TrafficGen,
"Traffic generator is only active in timing mode\n");
}
}
void
TrafficGen::initState()
{
// when not restoring from a checkpoint, make sure we kick things off
if (system->getMemoryMode() == Enums::timing) {
Tick nextStateGraphEvent = stateGraph.nextEventTick();
schedule(updateStateGraphEvent, nextStateGraphEvent);
} else {
DPRINTF(TrafficGen,
"Traffic generator is only active in timing mode\n");
}
}
unsigned int
TrafficGen::drain(DrainManager *dm)
{
// @todo we should also stop putting new requests in the queue and
// either interrupt the current state or wait for a transition
return port.drain(dm);
}
void
TrafficGen::serialize(ostream &os)
{
DPRINTF(Checkpoint, "Serializing TrafficGen\n");
// save ticks of the graph event if it is scheduled
Tick nextStateGraphEvent = updateStateGraphEvent.scheduled() ?
updateStateGraphEvent.when() : 0;
DPRINTF(TrafficGen, "Saving nextStateGraphEvent=%llu\n",
nextStateGraphEvent);
SERIALIZE_SCALAR(nextStateGraphEvent);
Tick nextTransitionTick = stateGraph.nextTransitionTick;
SERIALIZE_SCALAR(nextTransitionTick);
// @todo: also serialise the current state, figure out the best
// way to drain and restore
}
void
TrafficGen::unserialize(Checkpoint* cp, const string& section)
{
// restore scheduled events
Tick nextStateGraphEvent;
UNSERIALIZE_SCALAR(nextStateGraphEvent);
if (nextStateGraphEvent != 0) {
schedule(updateStateGraphEvent, nextStateGraphEvent);
}
Tick nextTransitionTick;
UNSERIALIZE_SCALAR(nextTransitionTick);
stateGraph.nextTransitionTick = nextTransitionTick;
}
void
TrafficGen::updateStateGraph()
{
// schedule next update event based on either the next execute
// tick or the next transition, which ever comes first
Tick nextStateGraphEvent = stateGraph.nextEventTick();
DPRINTF(TrafficGen, "Updating state graph, next event at %lld\n",
nextStateGraphEvent);
schedule(updateStateGraphEvent, nextStateGraphEvent);
// perform the update associated with the current update event
stateGraph.update();
}
void
TrafficGen::StateGraph::parseConfig(const string& file_name,
MasterID master_id)
{
// keep track of the transitions parsed to create the matrix when
// done
vector<Transition> transitions;
// open input file
ifstream infile;
infile.open(file_name.c_str(), ifstream::in);
if (!infile.is_open()) {
fatal("Traffic generator %s config file not found at %s\n",
owner.name(), file_name);
}
// read line by line and determine the action based on the first
// keyword
string keyword;
string line;
while (getline(infile, line).good()) {
// see if this line is a comment line, and if so skip it
if (line.find('#') != 1) {
// create an input stream for the tokenization
istringstream is(line);
// determine the keyword
is >> keyword;
if (keyword == "STATE") {
// parse the behaviour of this state
uint32_t id;
Tick duration;
string mode;
is >> id >> duration >> mode;
if (mode == "TRACE") {
string traceFile;
Addr addrOffset;
is >> traceFile >> addrOffset;
states[id] = new TraceGen(port, master_id, duration,
traceFile, addrOffset);
DPRINTF(TrafficGen, "State: %d TraceGen\n", id);
} else if (mode == "IDLE") {
states[id] = new IdleGen(port, master_id, duration);
DPRINTF(TrafficGen, "State: %d IdleGen\n", id);
} else if (mode == "LINEAR" || mode == "RANDOM") {
uint32_t read_percent;
Addr start_addr;
Addr end_addr;
Addr blocksize;
Tick min_period;
Tick max_period;
Addr data_limit;
is >> read_percent >> start_addr >> end_addr >>
blocksize >> min_period >> max_period >> data_limit;
DPRINTF(TrafficGen, "%s, addr %x to %x, size %d,"
" period %d to %d, %d%% reads\n",
mode, start_addr, end_addr, blocksize, min_period,
max_period, read_percent);
if (read_percent > 100)
panic("%s cannot have more than 100% reads", name());
if (mode == "LINEAR") {
states[id] = new LinearGen(port, master_id,
duration, start_addr,
end_addr, blocksize,
min_period, max_period,
read_percent, data_limit);
DPRINTF(TrafficGen, "State: %d LinearGen\n", id);
} else if (mode == "RANDOM") {
states[id] = new RandomGen(port, master_id,
duration, start_addr,
end_addr, blocksize,
min_period, max_period,
read_percent, data_limit);
DPRINTF(TrafficGen, "State: %d RandomGen\n", id);
}
} else {
fatal("%s: Unknown traffic generator mode: %s",
name(), mode);
}
} else if (keyword == "TRANSITION") {
Transition transition;
is >> transition.from >> transition.to >> transition.p;
transitions.push_back(transition);
DPRINTF(TrafficGen, "Transition: %d -> %d\n", transition.from,
transition.to);
} else if (keyword == "INIT") {
// set the initial state as the active state
is >> currState;
DPRINTF(TrafficGen, "Initial state: %d\n", currState);
}
}
}
// resize and populate state transition matrix
transitionMatrix.resize(transitions.size());
for (size_t i = 0; i < transitions.size(); i++) {
transitionMatrix[i].resize(transitions.size());
}
for (vector<Transition>::iterator t = transitions.begin();
t != transitions.end(); ++t) {
transitionMatrix[t->from][t->to] = t->p;
}
// ensure the egress edges do not have a probability larger than
// one
for (size_t i = 0; i < transitions.size(); i++) {
double sum = 0;
for (size_t j = 0; j < transitions.size(); j++) {
sum += transitionMatrix[i][j];
}
// avoid comparing floating point numbers
if (abs(sum - 1.0) > 0.001)
fatal("%s has transition probability != 1 for state %d\n",
name(), i);
}
// close input file
infile.close();
}
void
TrafficGen::StateGraph::update()
{
// if we have reached the time for the next state transition, then
// perform the transition
if (curTick() >= nextTransitionTick) {
transition();
} else {
// we are still in the current state and should execute it
states[currState]->execute();
}
}
void
TrafficGen::StateGraph::transition()
{
// exit the current state
states[currState]->exit();
// determine next state
double p = random_mt.gen_real1();
assert(currState < transitionMatrix.size());
double cumulative = transitionMatrix[currState][0];
size_t i = 1;
while (p < cumulative && i != transitionMatrix[currState].size()) {
cumulative += transitionMatrix[currState][i];
++i;
}
enterState(i);
}
void
TrafficGen::StateGraph::enterState(uint32_t newState)
{
DPRINTF(TrafficGen, "Transition to state %d\n", newState);
currState = newState;
nextTransitionTick += states[currState]->duration;
states[currState]->enter();
}
TrafficGen::StateGraph::BaseGen::BaseGen(QueuedMasterPort& _port,
MasterID master_id,
Tick _duration)
: port(_port), masterID(master_id), duration(_duration)
{
}
void
TrafficGen::StateGraph::LinearGen::enter()
{
// reset the address and the data counter
nextAddr = startAddr;
dataManipulated = 0;
// this test only needs to happen once, but cannot be performed
// before init() is called and the ports are connected
if (port.deviceBlockSize() && blocksize > port.deviceBlockSize())
fatal("TrafficGen %s block size (%d) is larger than port"
" block size (%d)\n", blocksize, port.deviceBlockSize());
}
void
TrafficGen::StateGraph::LinearGen::execute()
{
// choose if we generate a read or a write here
bool isRead = random_mt.random<uint8_t>(0, 100) < readPercent;
if (readPercent == 0)
assert(!isRead);
DPRINTF(TrafficGen, "LinearGen::execute: %c to addr %x, size %d\n",
isRead ? 'r' : 'w', nextAddr, blocksize);
// Create new request
Request::Flags flags;
Request *req = new Request(nextAddr, blocksize, flags, masterID);
PacketPtr pkt = new Packet(req, isRead ? MemCmd::ReadReq :
MemCmd::WriteReq);
uint8_t* pkt_data = new uint8_t[req->getSize()];
pkt->dataDynamicArray(pkt_data);
if (!isRead) {
memset(pkt_data, 0xA, req->getSize());
}
port.schedTimingReq(pkt, curTick());
// increment the address
nextAddr += blocksize;
// Add the amount of data manipulated to the total
dataManipulated += blocksize;
}
Tick
TrafficGen::StateGraph::LinearGen::nextExecuteTick()
{
// If we have reached the end of the address space, reset the
// address to the start of the range
if (nextAddr + blocksize > endAddr) {
DPRINTF(TrafficGen, "Wrapping address to the start of "
"the range\n");
nextAddr = startAddr;
}
// Check to see if we have reached the data limit. If dataLimit is
// zero we do not have a data limit and therefore we will keep
// generating requests for the entire residency in this state.
if (dataLimit && dataManipulated >= dataLimit) {
DPRINTF(TrafficGen, "Data limit for LinearGen reached.\n");
// there are no more requests, therefore return MaxTick
return MaxTick;
} else {
// return the time when the next request should take place
return curTick() + random_mt.random<Tick>(minPeriod, maxPeriod);
}
}
void
TrafficGen::StateGraph::RandomGen::enter()
{
// reset the counter to zero
dataManipulated = 0;
// this test only needs to happen once, but cannot be performed
// before init() is called and the ports are connected
if (port.deviceBlockSize() && blocksize > port.deviceBlockSize())
fatal("TrafficGen %s block size (%d) is larger than port"
" block size (%d)\n", name(), blocksize, port.deviceBlockSize());
}
void
TrafficGen::StateGraph::RandomGen::execute()
{
// choose if we generate a read or a write here
bool isRead = random_mt.random<uint8_t>(0, 100) < readPercent;
if (readPercent == 0)
assert(!isRead);
// address of the request
Addr addr = random_mt.random<Addr>(startAddr, endAddr - 1);
// round down to start address of block
addr -= addr % blocksize;
DPRINTF(TrafficGen, "RandomGen::execute: %c to addr %x, size %d\n",
isRead ? 'r' : 'w', addr, blocksize);
// create new request packet
Request::Flags flags;
Request *req = new Request(addr, blocksize, flags, masterID);
PacketPtr pkt = new Packet(req, isRead ? MemCmd::ReadReq :
MemCmd::WriteReq);
uint8_t* pkt_data = new uint8_t[req->getSize()];
pkt->dataDynamicArray(pkt_data);
if (!isRead) {
memset(pkt_data, 0xA, req->getSize());
}
port.schedTimingReq(pkt, curTick());
// Add the amount of data manipulated to the total
dataManipulated += blocksize;
}
Tick
TrafficGen::StateGraph::RandomGen::nextExecuteTick()
{
// Check to see if we have reached the data limit. If dataLimit is
// zero we do not have a data limit and therefore we will keep
// generating requests for the entire residency in this state.
if (dataLimit && dataManipulated >= dataLimit)
{
DPRINTF(TrafficGen, "Data limit for RandomGen reached.\n");
// No more requests. Return MaxTick.
return MaxTick;
} else {
// Return the time when the next request should take place.
return curTick() + random_mt.random<Tick>(minPeriod, maxPeriod);
}
}
Tick
TrafficGen::StateGraph::TraceGen::nextExecuteTick() {
// We need to look at the next line to calculate the next time an
// event occurs, or potentially return MaxTick to signal that
// nothing has to be done.
string buffer;
if (!traceComplete && trace.good()){
getline(trace, buffer);
DPRINTF(TrafficGen, "Input trace: %s\n", buffer);
} else {
// We are at the end of the file, thus we have no more data in
// the trace Return MaxTick to signal that there will be no
// more transactions in this active period for the state.
return MaxTick;
}
//Reset the nextElement to the default values
currElement = nextElement;
nextElement.clear();
// Check that we have something to process. This assume no EOF at
// the end of the line.
if (buffer.size() > 0 && !trace.eof()) {
istringstream iss(buffer);
char rOrW, ch;
iss >> rOrW;
iss >> ch; assert(ch == ',');
iss >> nextElement.addr;
iss >> ch; assert(ch == ',');
iss >> nextElement.blocksize;
iss >> ch; assert(ch == ',');
iss >> nextElement.tick;
if (rOrW == 'r') {
nextElement.cmd = MemCmd::ReadReq;
} else if (rOrW == 'w') {
nextElement.cmd = MemCmd::WriteReq;
} else {
fatal("Incorrect trace file format!\n");
}
}
// Check that we have a valid request
if (!nextElement.isValid()) {
// If it is not valid, assume that we have reached the end of
// the trace. Even if this is not the case, we do not know
// what to do with the request as it makes no sense.
if (trace.good()) {
// Trace is good, therefore we are not at the end of the
// file. This means that the input trace cannot be read
// correctly or it contains data that makes no sense.
warn("Unable to read the trace file format\n");
warn("%s", buffer);
}
traceComplete = true;
return MaxTick;
}
DPRINTF(TrafficGen, "currElement: %c addr %d size %d tick %d (%d)\n",
currElement.cmd.isRead() ? 'r' : 'w',
currElement.addr,
currElement.blocksize,
currElement.tick + tickOffset,
currElement.tick);
DPRINTF(TrafficGen, "nextElement: %c addr %d size %d tick %d (%d)\n",
nextElement.cmd.isRead() ? 'r' : 'w',
nextElement.addr,
nextElement.blocksize,
nextElement.tick + tickOffset,
nextElement.tick);
return tickOffset + nextElement.tick;
}
void
TrafficGen::StateGraph::TraceGen::enter() {
// update the trace offset to the time where the state was entered.
tickOffset = curTick();
// seek to the start of the input trace file
trace.seekg(0, ifstream::beg);
trace.clear();
// clear everything
nextElement.clear();
currElement.clear();
traceComplete = false;
}
void
TrafficGen::StateGraph::TraceGen::execute() {
// it is the responsibility of nextExecuteTick to prevent the
// state graph from executing the state if it should not
assert(currElement.isValid());
DPRINTF(TrafficGen, "TraceGen::execute: %c %d %d %d\n",
currElement.cmd.isRead() ? 'r' : 'w',
currElement.addr,
currElement.blocksize,
currElement.tick);
Request::Flags flags;
Request *req = new Request(currElement.addr + addrOffset,
currElement.blocksize, flags, masterID);
PacketPtr pkt = new Packet(req, currElement.cmd);
uint8_t* pkt_data = new uint8_t[req->getSize()];
pkt->dataDynamicArray(pkt_data);
if (currElement.cmd.isWrite()) {
memset(pkt_data, 0xA, req->getSize());
}
port.schedTimingReq(pkt, curTick());
}
void
TrafficGen::StateGraph::TraceGen::exit() {
// Check if we reached the end of the trace file. If we did not
// then we want to generate a warning stating that not the entire
// trace was played.
if (!trace.eof()) {
warn("Trace player %s was unable to replay the entire trace!\n",
name());
}
// clear any previous error flags for the input trace file
trace.clear();
}
bool
TrafficGen::TrafficGenPort::recvTimingResp(PacketPtr pkt)
{
delete pkt->req;
delete pkt;
return true;
}
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