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/*
Copyright (C) 2008 Grame & RTL
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "JackEngineProfiling.h"
#include "JackGraphManager.h"
#include "JackClientControl.h"
#include "JackEngineControl.h"
#include "JackClientInterface.h"
#include "JackGlobals.h"
#include "JackTime.h"
#include <iostream>
#include <fstream>
namespace Jack
{
JackEngineProfiling::JackEngineProfiling():fAudioCycle(0),fMeasuredClient(0)
{
jack_info("Engine profiling activated, beware %ld MBytes are needed to record profiling points...", sizeof(fProfileTable) / (1024 * 1024));
// Force memory page in
memset(fProfileTable, 0, sizeof(fProfileTable));
}
JackEngineProfiling::~JackEngineProfiling()
{
std::ofstream fStream("JackEngineProfiling.log", std::ios_base::ate);
jack_info("Write server and clients timing data...");
if (!fStream.is_open()) {
jack_error("JackEngineProfiling::Save cannot open JackEngineProfiling.log file");
} else {
// For each measured point
for (int i = 2; i < TIME_POINTS; i++) {
// Driver timing values
long d1 = long(fProfileTable[i].fCurCycleBegin - fProfileTable[i - 1].fCurCycleBegin);
long d2 = long(fProfileTable[i].fPrevCycleEnd - fProfileTable[i - 1].fCurCycleBegin);
if (d1 <= 0 || fProfileTable[i].fAudioCycle <= 0)
continue; // Skip non valid cycles
// Print driver delta and end cycle
fStream << d1 << "\t" << d2 << "\t";
// For each measured client
for (unsigned int j = 0; j < fMeasuredClient; j++) {
int ref = fIntervalTable[j].fRefNum;
// Is valid client cycle
if (fProfileTable[i].fClientTable[ref].fStatus != NotTriggered) {
long d5 = long(fProfileTable[i].fClientTable[ref].fSignaledAt - fProfileTable[i - 1].fCurCycleBegin);
long d6 = long(fProfileTable[i].fClientTable[ref].fAwakeAt - fProfileTable[i - 1].fCurCycleBegin);
long d7 = long(fProfileTable[i].fClientTable[ref].fFinishedAt - fProfileTable[i - 1].fCurCycleBegin);
fStream << ref << "\t" ;
fStream << ((d5 > 0) ? d5 : 0) << "\t";
fStream << ((d6 > 0) ? d6 : 0) << "\t" ;
fStream << ((d7 > 0) ? d7 : 0) << "\t";
fStream << ((d6 > 0 && d5 > 0) ? (d6 - d5) : 0) << "\t" ;
fStream << ((d7 > 0 && d6 > 0) ? (d7 - d6) : 0) << "\t" ;
fStream << fProfileTable[i].fClientTable[ref].fStatus << "\t" ;;
} else { // Print tabs
fStream << "\t \t \t \t \t \t \t";
}
}
// Terminate line
fStream << std::endl;
}
}
// Driver period
std::ofstream fStream1("Timing1.plot", std::ios_base::ate);
if (!fStream1.is_open()) {
jack_error("JackEngineProfiling::Save cannot open Timing1.plot file");
} else {
fStream1 << "set grid\n";
fStream1 << "set title \"Audio driver timing\"\n";
fStream1 << "set xlabel \"audio cycles\"\n";
fStream1 << "set ylabel \"usec\"\n";
fStream1 << "plot \"JackEngineProfiling.log\" using 1 title \"Audio period\" with lines \n";
fStream1 << "set output 'Timing1.svg\n";
fStream1 << "set terminal svg\n";
fStream1 << "set grid\n";
fStream1 << "set title \"Audio driver timing\"\n";
fStream1 << "set xlabel \"audio cycles\"\n";
fStream1 << "set ylabel \"usec\"\n";
fStream1 << "plot \"JackEngineProfiling.log\" using 1 title \"Audio period\" with lines \n";
fStream1 << "unset output\n";
}
// Driver end date
std::ofstream fStream2("Timing2.plot", std::ios_base::ate);
if (!fStream2.is_open()) {
jack_error("JackEngineProfiling::Save cannot open Timing2.plot file");
} else {
fStream2 << "set grid\n";
fStream2 << "set title \"Driver end date\"\n";
fStream2 << "set xlabel \"audio cycles\"\n";
fStream2 << "set ylabel \"usec\"\n";
fStream2 << "plot \"JackEngineProfiling.log\" using 2 title \"Driver end date\" with lines \n";
fStream2 << "set output 'Timing2.svg\n";
fStream2 << "set terminal svg\n";
fStream2 << "set grid\n";
fStream2 << "set title \"Driver end date\"\n";
fStream2 << "set xlabel \"audio cycles\"\n";
fStream2 << "set ylabel \"usec\"\n";
fStream2 << "plot \"JackEngineProfiling.log\" using 2 title \"Driver end date\" with lines \n";
fStream2 << "unset output\n";
}
// Clients end date
if (fMeasuredClient > 0) {
std::ofstream fStream3("Timing3.plot", std::ios_base::ate);
if (!fStream3.is_open()) {
jack_error("JackEngineProfiling::Save cannot open Timing3.plot file");
} else {
fStream3 << "set multiplot\n";
fStream3 << "set grid\n";
fStream3 << "set title \"Clients end date\"\n";
fStream3 << "set xlabel \"audio cycles\"\n";
fStream3 << "set ylabel \"usec\"\n";
fStream3 << "plot ";
for (unsigned int i = 0; i < fMeasuredClient; i++) {
if (i == 0) {
if (i + 1 == fMeasuredClient) { // Last client
fStream3 << "\"JackEngineProfiling.log\" using 1 title \"Audio period\" with lines,\"JackEngineProfiling.log\" using ";
fStream3 << ((i + 1) * 7) - 1;
fStream3 << " title \"" << fIntervalTable[i].fName << "\"with lines";
} else {
fStream3 << "\"JackEngineProfiling.log\" using 1 title \"Audio period\" with lines,\"JackEngineProfiling.log\" using ";
fStream3 << ((i + 1) * 7) - 1;
fStream3 << " title \"" << fIntervalTable[i].fName << "\"with lines,";
}
} else if (i + 1 == fMeasuredClient) { // Last client
fStream3 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) - 1 << " title \"" << fIntervalTable[i].fName << "\" with lines";
} else {
fStream3 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) - 1 << " title \"" << fIntervalTable[i].fName << "\" with lines,";
}
}
fStream3 << "\n unset multiplot\n";
fStream3 << "set output 'Timing3.svg\n";
fStream3 << "set terminal svg\n";
fStream3 << "set multiplot\n";
fStream3 << "set grid\n";
fStream3 << "set title \"Clients end date\"\n";
fStream3 << "set xlabel \"audio cycles\"\n";
fStream3 << "set ylabel \"usec\"\n";
fStream3 << "plot ";
for (unsigned int i = 0; i < fMeasuredClient; i++) {
if (i == 0) {
if ((i + 1) == fMeasuredClient) { // Last client
fStream3 << "\"JackEngineProfiling.log\" using 1 title \"Audio period\" with lines,\"JackEngineProfiling.log\" using ";
fStream3 << ((i + 1) * 7) - 1;
fStream3 << " title \"" << fIntervalTable[i].fName << "\"with lines";
} else {
fStream3 << "\"JackEngineProfiling.log\" using 1 title \"Audio period\" with lines,\"JackEngineProfiling.log\" using ";
fStream3 << ((i + 1) * 7) - 1;
fStream3 << " title \"" << fIntervalTable[i].fName << "\"with lines,";
}
} else if ((i + 1) == fMeasuredClient) { // Last client
fStream3 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) - 1 << " title \"" << fIntervalTable[i].fName << "\" with lines";
} else {
fStream3 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) - 1 << " title \"" << fIntervalTable[i].fName << "\" with lines,";
}
}
fStream3 << "\nunset multiplot\n";
fStream3 << "unset output\n";
}
}
// Clients scheduling
if (fMeasuredClient > 0) {
std::ofstream fStream4("Timing4.plot", std::ios_base::ate);
if (!fStream4.is_open()) {
jack_error("JackEngineProfiling::Save cannot open Timing4.plot file");
} else {
fStream4 << "set multiplot\n";
fStream4 << "set grid\n";
fStream4 << "set title \"Clients scheduling latency\"\n";
fStream4 << "set xlabel \"audio cycles\"\n";
fStream4 << "set ylabel \"usec\"\n";
fStream4 << "plot ";
for (unsigned int i = 0; i < fMeasuredClient; i++) {
if ((i + 1) == fMeasuredClient) { // Last client
fStream4 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) << " title \"" << fIntervalTable[i].fName << "\" with lines";
} else {
fStream4 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) << " title \"" << fIntervalTable[i].fName << "\" with lines,";
}
}
fStream4 << "\n unset multiplot\n";
fStream4 << "set output 'Timing4.svg\n";
fStream4 << "set terminal svg\n";
fStream4 << "set multiplot\n";
fStream4 << "set grid\n";
fStream4 << "set title \"Clients scheduling latency\"\n";
fStream4 << "set xlabel \"audio cycles\"\n";
fStream4 << "set ylabel \"usec\"\n";
fStream4 << "plot ";
for (unsigned int i = 0; i < fMeasuredClient; i++) {
if ((i + 1) == fMeasuredClient) { // Last client
fStream4 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) << " title \"" << fIntervalTable[i].fName << "\" with lines";
} else {
fStream4 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) << " title \"" << fIntervalTable[i].fName << "\" with lines,";
}
}
fStream4 << "\nunset multiplot\n";
fStream4 << "unset output\n";
}
}
// Clients duration
if (fMeasuredClient > 0) {
std::ofstream fStream5("Timing5.plot", std::ios_base::ate);
if (!fStream5.is_open()) {
jack_error("JackEngineProfiling::Save cannot open Timing5.plot file");
} else {
fStream5 << "set multiplot\n";
fStream5 << "set grid\n";
fStream5 << "set title \"Clients duration\"\n";
fStream5 << "set xlabel \"audio cycles\"\n";
fStream5 << "set ylabel \"usec\"\n";
fStream5 << "plot ";
for (unsigned int i = 0; i < fMeasuredClient; i++) {
if ((i + 1) == fMeasuredClient) { // Last client
fStream5 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) + 1 << " title \"" << fIntervalTable[i].fName << "\" with lines";
} else {
fStream5 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) + 1 << " title \"" << fIntervalTable[i].fName << "\" with lines,";
}
}
fStream5 << "\n unset multiplot\n";
fStream5 << "set output 'Timing5.svg\n";
fStream5 << "set terminal svg\n";
fStream5 << "set multiplot\n";
fStream5 << "set grid\n";
fStream5 << "set title \"Clients duration\"\n";
fStream5 << "set xlabel \"audio cycles\"\n";
fStream5 << "set ylabel \"usec\"\n";
fStream5 << "plot ";
for (unsigned int i = 0; i < fMeasuredClient; i++) {
if ((i + 1) == fMeasuredClient) {// Last client
fStream5 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) + 1 << " title \"" << fIntervalTable[i].fName << "\" with lines";
} else {
fStream5 << "\"JackEngineProfiling.log\" using " << ((i + 1) * 7) + 1 << " title \"" << fIntervalTable[i].fName << "\" with lines,";
}
}
fStream5 << "\nunset multiplot\n";
fStream5 << "unset output\n";
}
}
std::ofstream fStream6("Timings.html", std::ios_base::ate);
if (!fStream6.is_open()) {
jack_error("JackEngineProfiling::Save cannot open Timings.html file");
} else {
fStream6 << "<?xml version='1.0' encoding='utf-8'?>\n";
fStream6 << "<!DOCTYPE html PUBLIC \"-//W3C//DTD XHTML 1.0 Transitional//EN\"\n";
fStream6 << "\"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd\">\n";
fStream6 << "<html xmlns='http://www.w3.org/1999/xhtml' lang='en'>\n";
fStream6 << " <head>\n";
fStream6 << " <title>JACK engine profiling</title>\n";
fStream6 << " <!-- assuming that images are 600px wide -->\n";
fStream6 << " <style media='all' type='text/css'>\n";
fStream6 << " .center { margin-left:auto ; margin-right: auto; width: 650px; height: 550px }\n";
fStream6 << " </style>\n";
fStream6 << " </head>\n";
fStream6 << " <body>\n";
fStream6 << " <h2 style='text-align:center'>JACK engine profiling</h2>\n";
fStream6 << " <div class='center'><object class='center' type='image/svg+xml' data='Timing1.svg'>Timing1</object></div>";
fStream6 << " <div class='center'><object class='center' type='image/svg+xml' data='Timing2.svg'>Timing2</object></div>";
fStream6 << " <div class='center'><object class='center' type='image/svg+xml' data='Timing3.svg'>Timing3</object></div>";
fStream6 << " <div class='center'><object class='center' type='image/svg+xml' data='Timing4.svg'>Timing4</object></div>";
fStream6 << " <div class='center'><object class='center' type='image/svg+xml' data='Timing5.svg'>Timing5</object></div>";
fStream6 << " </body>\n";
fStream6 << "</html>\n";
}
std::ofstream fStream7("generate_timings", std::ios_base::ate);
if (!fStream7.is_open()) {
jack_error("JackEngineProfiling::Save cannot open generate_timings file");
} else {
fStream7 << "gnuplot -persist Timing1.plot \n";
fStream7 << "gnuplot -persist Timing2.plot\n";
fStream7 << "gnuplot -persist Timing3.plot\n";
fStream7 << "gnuplot -persist Timing4.plot\n";
fStream7 << "gnuplot -persist Timing5.plot\n";
}
}
bool JackEngineProfiling::CheckClient(const char* name, int cur_point)
{
for (int i = 0; i < MEASURED_CLIENTS; i++) {
if (strcmp(fIntervalTable[i].fName, name) == 0) {
fIntervalTable[i].fEndInterval = cur_point;
return true;
}
}
return false;
}
void JackEngineProfiling::Profile(JackClientInterface** table,
JackGraphManager* manager,
jack_time_t period_usecs,
jack_time_t cur_cycle_begin,
jack_time_t prev_cycle_end)
{
fAudioCycle = (fAudioCycle + 1) % TIME_POINTS;
// Keeps cycle data
fProfileTable[fAudioCycle].fPeriodUsecs = period_usecs;
fProfileTable[fAudioCycle].fCurCycleBegin = cur_cycle_begin;
fProfileTable[fAudioCycle].fPrevCycleEnd = prev_cycle_end;
fProfileTable[fAudioCycle].fAudioCycle = fAudioCycle;
for (int i = GetEngineControl()->fDriverNum; i < CLIENT_NUM; i++) {
JackClientInterface* client = table[i];
JackClientTiming* timing = manager->GetClientTiming(i);
if (client && client->GetClientControl()->fActive && client->GetClientControl()->fCallback[kRealTimeCallback]) {
if (!CheckClient(client->GetClientControl()->fName, fAudioCycle)) {
// Keep new measured client
fIntervalTable[fMeasuredClient].fRefNum = i;
strcpy(fIntervalTable[fMeasuredClient].fName, client->GetClientControl()->fName);
fIntervalTable[fMeasuredClient].fBeginInterval = fAudioCycle;
fIntervalTable[fMeasuredClient].fEndInterval = fAudioCycle;
fMeasuredClient++;
}
fProfileTable[fAudioCycle].fClientTable[i].fRefNum = i;
fProfileTable[fAudioCycle].fClientTable[i].fSignaledAt = timing->fSignaledAt;
fProfileTable[fAudioCycle].fClientTable[i].fAwakeAt = timing->fAwakeAt;
fProfileTable[fAudioCycle].fClientTable[i].fFinishedAt = timing->fFinishedAt;
fProfileTable[fAudioCycle].fClientTable[i].fStatus = timing->fStatus;
}
}
}
JackTimingMeasure* JackEngineProfiling::GetCurMeasure()
{
return &fProfileTable[fAudioCycle];
}
} // end of namespace
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