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/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the QtGui module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the either Technology Preview License Agreement or the
** Beta Release License Agreement.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain
** additional rights. These rights are described in the Nokia Qt LGPL
** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this
** package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at http://qt.nokia.com/contact.
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qsoundqss_qws.h"
#ifndef QT_NO_SOUND
#include <qbytearray.h>
#include <qlist.h>
#include <qsocketnotifier.h>
#include <qfile.h>
#include <qfileinfo.h>
#include <qstringlist.h>
#include <qevent.h>
#include <qalgorithms.h>
#include <qtimer.h>
#include <qpointer.h>
#include <qendian.h>
#include <private/qcore_unix_p.h> // overrides QT_OPEN
#include <unistd.h>
#include <stdlib.h>
#include <fcntl.h>
#include <errno.h>
#include <time.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <sys/soundcard.h>
#include <qdebug.h>
QT_BEGIN_NAMESPACE
extern int errno;
#define QT_QWS_SOUND_16BIT 1 // or 0, or undefined for always 0
#define QT_QWS_SOUND_STEREO 1 // or 0, or undefined for always 0
// Zaurus SL5000D doesn't seem to return any error if setting to 44000 and it fails,
// however 44100 works, 44100 is more common that 44000.
static int sound_speed = 44100;
#ifndef QT_NO_QWS_SOUNDSERVER
extern int qws_display_id;
#define SOUND_PIPE "/tmp/.qt_soundserver-%1"
#endif
static char *zeroMem = 0;
struct QRiffChunk {
char id[4];
quint32 size;
char data[4/*size*/];
};
#if defined(QT_QWS_IPAQ)
static const int sound_fragment_size = 12;
#else
static const int sound_fragment_size = 12;
#endif
static const int sound_buffer_size = 1 << sound_fragment_size;
// nb. there will be an sound startup delay of
// 2^sound_fragment_size / sound_speed seconds.
// (eg. sound_fragment_size==12, sound_speed==44000 means 0.093s delay)
#ifdef QT_QWS_SOUND_STEREO
static int sound_stereo=QT_QWS_SOUND_STEREO;
#else
static const int sound_stereo=0;
#endif
#ifdef QT_QWS_SOUND_16BIT
static bool sound_16bit=QT_QWS_SOUND_16BIT;
#else
static const bool sound_16bit=false;
#endif
#ifndef QT_NO_QWS_SOUNDSERVER
class QWSSoundServerClient : public QObject {
Q_OBJECT
public:
QWSSoundServerClient(QWS_SOCK_BASE *s, QObject* parent);
~QWSSoundServerClient();
public slots:
void sendSoundCompleted(int, int);
void sendDeviceReady(int, int);
void sendDeviceError(int, int, int);
signals:
void play(int, int, const QString&);
void play(int, int, const QString&, int, int);
void playRaw(int, int, const QString&, int, int, int, int);
void pause(int, int);
void stop(int, int);
void resume(int, int);
void setVolume(int, int, int, int);
void setMute(int, int, bool);
void stopAll(int);
void playPriorityOnly(bool);
void setSilent( bool );
private slots:
void tryReadCommand();
private:
void sendClientMessage(QString msg);
int mCurrentID;
int left, right;
bool priExist;
static int lastId;
static int nextId() { return ++lastId; }
QPointer<QWS_SOCK_BASE> socket;
};
int QWSSoundServerClient::lastId = 0;
QWSSoundServerClient::QWSSoundServerClient(QWS_SOCK_BASE *s, QObject* parent) :
QObject( parent )
{
socket = s;
priExist = false;
mCurrentID = nextId();
connect(socket,SIGNAL(readyRead()),
this,SLOT(tryReadCommand()));
connect(socket, SIGNAL(disconnected()), this, SLOT(deleteLater()));
}
QWSSoundServerClient::~QWSSoundServerClient()
{
if (priExist)
playPriorityOnly(false);
emit stopAll(mCurrentID);
if (socket)
socket->deleteLater();
}
static QString getStringTok(QString &in)
{
int pos = in.indexOf(QLatin1Char(' '));
QString ret;
if (pos > 0) {
ret = in.left(pos);
in = in.mid(pos+1);
} else {
ret = in;
in = QString::null;
}
return ret;
}
static int getNumTok(QString &in)
{
return getStringTok(in).toInt();
}
void QWSSoundServerClient::tryReadCommand()
{
while ( socket->canReadLine() ) {
QString l = QString::fromAscii(socket->readLine());
l.truncate(l.length()-1); // chomp
QString functionName = getStringTok(l);
int soundid = getNumTok(l);
if (functionName == QLatin1String("PLAY")) {
emit play(mCurrentID, soundid, l);
} else if (functionName == QLatin1String("PLAYEXTEND")) {
int volume = getNumTok(l);
int flags = getNumTok(l);
emit play(mCurrentID, soundid, l, volume, flags);
} else if (functionName == QLatin1String("PLAYRAW")) {
int chs = getNumTok(l);
int freq = getNumTok(l);
int bitspersample = getNumTok(l);
int flags = getNumTok(l);
emit playRaw(mCurrentID, soundid, l, freq, chs, bitspersample, flags);
} else if (functionName == QLatin1String("PAUSE")) {
emit pause(mCurrentID, soundid);
} else if (functionName == QLatin1String("STOP")) {
emit stop(mCurrentID, soundid);
} else if (functionName == QLatin1String("RESUME")) {
emit resume(mCurrentID, soundid);
} else if (functionName == QLatin1String("SETVOLUME")) {
int left = getNumTok(l);
int right = getNumTok(l);
emit setVolume(mCurrentID, soundid, left, right);
} else if (functionName == QLatin1String("MUTE")) {
emit setMute(mCurrentID, soundid, true);
} else if (functionName == QLatin1String("UNMUTE")) {
emit setMute(mCurrentID, soundid, false);
} else if (functionName == QLatin1String("PRIORITYONLY")) {
bool sPri = soundid != 0;
if (sPri != priExist) {
priExist = sPri;
emit playPriorityOnly(sPri);
}
} else if(functionName == QLatin1String("SILENT")) {
emit setSilent( soundid != 0 );
}
}
}
void QWSSoundServerClient::sendClientMessage(QString msg)
{
#ifndef QT_NO_TEXTCODEC
QByteArray u = msg.toUtf8();
#else
QByteArray u = msg.toLatin1();
#endif
socket->write(u.data(), u.length());
socket->flush();
}
void QWSSoundServerClient::sendSoundCompleted(int gid, int sid)
{
if (gid == mCurrentID)
sendClientMessage(QLatin1String("SOUNDCOMPLETED ")
+ QString::number(sid) + QLatin1Char('\n'));
}
void QWSSoundServerClient::sendDeviceReady(int gid, int sid)
{
if (gid == mCurrentID)
sendClientMessage(QLatin1String("DEVICEREADY ")
+ QString::number(sid) + QLatin1Char('\n'));
}
void QWSSoundServerClient::sendDeviceError(int gid, int sid, int err)
{
if (gid == mCurrentID)
sendClientMessage(QLatin1String("DEVICEERROR ")
+ QString::number(sid) + QLatin1Char(' ')
+ QString::number(err) + QLatin1Char('\n'));
}
#endif
static const int maxVolume = 100;
static const int runinLength = 2*sound_buffer_size;
class QWSSoundServerProvider {
public:
QWSSoundServerProvider(int w, int s)
: mWid(w), mSid(s), mMuted(false)
{
leftVolume = maxVolume>>1;
rightVolume = maxVolume>>1;
isPriority = false;
samples_due = 0;
max1 = max2 = out = 0;//= sound_buffer_size;
data = data1;
max = &max1;
sampleRunin = 0;
dev = -1;
}
virtual ~QWSSoundServerProvider() {
}
int groupId() const { return mWid; }
int soundId() const { return mSid; }
void startSampleRunin() {
// inteded to provide even audio return from mute/pause/dead samples.
//sampleRunin = runinLength; // or more?
}
void setVolume(int lv, int rv) {
leftVolume = qMin(maxVolume, qMax(0, lv));
rightVolume = qMin(maxVolume, qMax(0, rv));
}
void setMute(bool m) { mMuted = m; }
bool muted() { return mMuted; }
void setPriority(bool p) {
if (p != isPriority) {
isPriority = p; // currently meaningless.
}
}
static void setPlayPriorityOnly(bool p)
{
if (p)
priorityExists++;
else
priorityExists--;
if (priorityExists < 0)
qDebug("QSS: got more priority offs than ons");
}
// return -1 for file broken, give up.
// else return sampels ready for playing.
// argument is max samples server is looking for,
// in terms of current device status.
virtual int readySamples(int) = 0;
int getSample(int off, int bps) {
//
// 16-bit audio data is converted to native endian so that it can be scaled
// Yes, this is ugly on a BigEndian machine
// Perhaps it shouldn't be scaled at all
//
return (bps == 1) ? (data[out+off] - 128) * 128 : qToLittleEndian(((short*)data)[(out/2)+off]);
}
int add(int* mixl, int* mixr, int count)
{
int bytesPerSample = chunkdata.wBitsPerSample >> 3;
if ( mMuted ) {
sampleRunin -= qMin(sampleRunin,count);
while (count && (dev != -1)) {
if (out >= *max) {
// switch buffers
out = 0;
if (data == data1 && max2 != 0) {
data = data2;
max = &max2;
max1 = 0;
} else if (data == data2 && max1 != 0) {
data = data1;
max = &max1;
max2 = 0;
} else {
qDebug("QSS Read Error: both buffers empty");
return 0;
}
}
samples_due += sound_speed;
while (count && samples_due >= chunkdata.samplesPerSec) {
samples_due -= chunkdata.samplesPerSec;
count--;
}
out += bytesPerSample * chunkdata.channels;
}
return count;
}
// This shouldn't be the case
if ( !mixl || !mixr )
return 0;
int lVolNum = leftVolume, lVolDen = maxVolume;
int rVolNum = rightVolume, rVolDen = maxVolume;
if (priorityExists > 0 && !isPriority) {
lVolNum = 0; // later, make this gradually fade in and out.
lVolDen = 5;
rVolNum = 0;
rVolDen = 5;
}
while (count && (dev != -1)) {
if (out >= *max) {
// switch buffers
out = 0;
if (data == data1 && max2 != 0) {
data = data2;
max = &max2;
max1 = 0;
} else if (data == data2 && max1 != 0) {
data = data1;
max = &max1;
max2 = 0;
} else {
qDebug("QSS Read Error: both buffers empty");
return 0;
}
}
samples_due += sound_speed;
if (count && samples_due >= chunkdata.samplesPerSec) {
int l = getSample(0,bytesPerSample)*lVolNum/lVolDen;
int r = (chunkdata.channels == 2) ? getSample(1,bytesPerSample)*rVolNum/rVolDen : l;
if (!sound_stereo && chunkdata.channels == 2)
l += r;
if (sampleRunin) {
while (sampleRunin && count && samples_due >= chunkdata.samplesPerSec) {
mixl++;
if (sound_stereo)
mixr++;
samples_due -= chunkdata.samplesPerSec;
sampleRunin--;
count--;
}
}
while (count && samples_due >= chunkdata.samplesPerSec) {
*mixl++ += l;
if (sound_stereo)
*mixr++ += r;
samples_due -= chunkdata.samplesPerSec;
count--;
}
}
// optimize out manipulation of sample if downsampling and we skip it
out += bytesPerSample * chunkdata.channels;
}
return count;
}
virtual bool finished() const = 0;
bool equal(int wid, int sid)
{
return (wid == mWid && sid == mSid);
}
protected:
char * prepareBuffer( int &size)
{
// keep reading as long as there is 50 % or more room in off buffer.
if (data == data1 && (max2<<1 < sound_buffer_size)) {
size=sound_buffer_size - max2;
return (char *)data2;
} else if (data == data2 && (max1<<1 < sound_buffer_size)) {
size=sound_buffer_size - max1;
return (char *)data1;
} else {
size = 0;
return 0;
}
}
void updateBuffer(int read)
{
// always reads to off buffer.
if (read >= 0) {
if (data == data2) {
max1 = read;
} else {
max2 = read;
}
}
}
int devSamples()
{
int possible = (((max1+max2-out) / ((chunkdata.wBitsPerSample>>3)*chunkdata.channels))
*sound_speed)/chunkdata.samplesPerSec;
return possible;
}
struct {
qint16 formatTag;
qint16 channels;
qint32 samplesPerSec;
qint32 avgBytesPerSec;
qint16 blockAlign;
qint16 wBitsPerSample;
} chunkdata;
int dev;
int samples_due;
private:
int mWid;
int mSid;
int leftVolume;
int rightVolume;
bool isPriority;
static int priorityExists;
int *max;
uchar *data;
uchar data1[sound_buffer_size+4]; // +4 to handle badly aligned input data
uchar data2[sound_buffer_size+4]; // +4 to handle badly aligned input data
int out, max1, max2;
int sampleRunin;
bool mMuted;
};
int QWSSoundServerProvider::priorityExists = 0;
class QWSSoundServerBucket : public QWSSoundServerProvider {
public:
QWSSoundServerBucket(int d, int wid, int sid)
: QWSSoundServerProvider(wid, sid)
{
dev = d;
wavedata_remaining = -1;
mFinishedRead = false;
mInsufficientSamples = false;
}
~QWSSoundServerBucket()
{
//dev->close();
::close(dev);
}
bool finished() const
{
//return !max;
return mInsufficientSamples && mFinishedRead ;
}
int readySamples(int)
{
int size;
char *dest = prepareBuffer(size);
// may want to change this to something like
// if (data == data1 && max2<<1 < sound_buffer_size
// ||
// data == data2 && max1<<1 < sound_buffer_size)
// so will keep filling off buffer while there is +50% space left
if (size > 0 && dest != 0) {
while ( wavedata_remaining < 0 ) {
//max = 0;
wavedata_remaining = -1;
// Keep reading chunks...
const int n = sizeof(chunk)-sizeof(chunk.data);
int nr = ::read(dev, (void*)&chunk,n);
if ( nr != n ) {
// XXX check error? or don't we care?
wavedata_remaining = 0;
mFinishedRead = true;
} else if ( qstrncmp(chunk.id,"data",4) == 0 ) {
wavedata_remaining = qToLittleEndian( chunk.size );
//out = max = sound_buffer_size;
} else if ( qstrncmp(chunk.id,"RIFF",4) == 0 ) {
char d[4];
if ( read(dev, d, 4) != 4 ) {
// XXX check error? or don't we care?
//qDebug("couldn't read riff");
mInsufficientSamples = true;
mFinishedRead = true;
return 0;
} else if ( qstrncmp(d,"WAVE",4) != 0 ) {
// skip
if ( chunk.size > 1000000000 || lseek(dev,chunk.size-4, SEEK_CUR) == -1 ) {
//qDebug("oversized wav chunk");
mFinishedRead = true;
}
}
} else if ( qstrncmp(chunk.id,"fmt ",4) == 0 ) {
if ( ::read(dev,(char*)&chunkdata,sizeof(chunkdata)) != sizeof(chunkdata) ) {
// XXX check error? or don't we care?
//qDebug("couldn't ready chunkdata");
mFinishedRead = true;
}
#define WAVE_FORMAT_PCM 1
else
{
/*
** Endian Fix the chuck data
*/
chunkdata.formatTag = qToLittleEndian( chunkdata.formatTag );
chunkdata.channels = qToLittleEndian( chunkdata.channels );
chunkdata.samplesPerSec = qToLittleEndian( chunkdata.samplesPerSec );
chunkdata.avgBytesPerSec = qToLittleEndian( chunkdata.avgBytesPerSec );
chunkdata.blockAlign = qToLittleEndian( chunkdata.blockAlign );
chunkdata.wBitsPerSample = qToLittleEndian( chunkdata.wBitsPerSample );
if ( chunkdata.formatTag != WAVE_FORMAT_PCM ) {
qWarning("WAV file: UNSUPPORTED FORMAT %d",chunkdata.formatTag);
mFinishedRead = true;
}
}
} else {
// ignored chunk
if ( chunk.size > 1000000000 || lseek(dev, chunk.size, SEEK_CUR) == -1) {
//qDebug("chunk size too big");
mFinishedRead = true;
}
}
}
// this looks wrong.
if (wavedata_remaining <= 0) {
mFinishedRead = true;
}
}
// may want to change this to something like
// if (data == data1 && max2<<1 < sound_buffer_size
// ||
// data == data2 && max1<<1 < sound_buffer_size)
// so will keep filling off buffer while there is +50% space left
if (wavedata_remaining) {
if (size > 0 && dest != 0) {
int read = ::read(dev, dest, qMin(size, wavedata_remaining));
// XXX check error? or don't we care?
wavedata_remaining -= read;
updateBuffer(read);
if (read <= 0) // data unexpectidly ended
mFinishedRead = true;
}
}
int possible = devSamples();
if (possible == 0)
mInsufficientSamples = true;
return possible;
}
protected:
QRiffChunk chunk;
int wavedata_remaining;
bool mFinishedRead;
bool mInsufficientSamples;
};
class QWSSoundServerStream : public QWSSoundServerProvider {
public:
QWSSoundServerStream(int d,int c, int f, int b,
int wid, int sid)
: QWSSoundServerProvider(wid, sid)
{
chunkdata.channels = c;
chunkdata.samplesPerSec = f;
chunkdata.wBitsPerSample = b;
dev = d;
//fcntl( dev, F_SETFL, O_NONBLOCK );
lasttime = 0;
}
~QWSSoundServerStream()
{
if (dev != -1) {
::close(dev);
dev = -1;
}
}
bool finished() const
{
return (dev == -1);
}
int readySamples(int)
{
int size;
char *dest = prepareBuffer(size);
if (size > 0 && dest != 0 && dev != -1) {
int read = ::read(dev, dest, size);
if (read < 0) {
switch(errno) {
case EAGAIN:
case EINTR:
// means read may yet succeed on the next attempt
break;
default:
// unexpected error, fail.
::close(dev);
dev = -1;
}
} else if (read == 0) {
// 0 means writer has closed dev and/or
// file is at end.
::close(dev);
dev = -1;
} else {
updateBuffer(read);
}
}
int possible = devSamples();
if (possible == 0)
startSampleRunin();
return possible;
}
protected:
time_t lasttime;
};
#ifndef QT_NO_QWS_SOUNDSERVER
QWSSoundServerSocket::QWSSoundServerSocket(QObject *parent) :
QWSServerSocket(QString::fromLatin1(SOUND_PIPE).arg(qws_display_id), parent)
{
connect(this, SIGNAL(newConnection()), this, SLOT(newConnection()));
}
#ifdef QT3_SUPPORT
QWSSoundServerSocket::QWSSoundServerSocket(QObject *parent, const char *name) :
QWSServerSocket(QString::fromLatin1(SOUND_PIPE).arg(qws_display_id), parent)
{
if (name)
setObjectName(QString::fromAscii(name));
connect(this, SIGNAL(newConnection()), this, SLOT(newConnection()));
}
#endif
void QWSSoundServerSocket::newConnection()
{
while (QWS_SOCK_BASE *sock = nextPendingConnection()) {
QWSSoundServerClient* client = new QWSSoundServerClient(sock,this);
connect(client, SIGNAL(play(int,int,QString)),
this, SIGNAL(playFile(int,int,QString)));
connect(client, SIGNAL(play(int,int,QString,int,int)),
this, SIGNAL(playFile(int,int,QString,int,int)));
connect(client, SIGNAL(playRaw(int,int,QString,int,int,int,int)),
this, SIGNAL(playRawFile(int,int,QString,int,int,int,int)));
connect(client, SIGNAL(pause(int,int)),
this, SIGNAL(pauseFile(int,int)));
connect(client, SIGNAL(stop(int,int)),
this, SIGNAL(stopFile(int,int)));
connect(client, SIGNAL(playPriorityOnly(bool)),
this, SIGNAL(playPriorityOnly(bool)));
connect(client, SIGNAL(stopAll(int)),
this, SIGNAL(stopAll(int)));
connect(client, SIGNAL(resume(int,int)),
this, SIGNAL(resumeFile(int,int)));
connect(client, SIGNAL(setSilent(bool)),
this, SIGNAL(setSilent(bool)));
connect(client, SIGNAL(setMute(int,int,bool)),
this, SIGNAL(setMute(int,int,bool)));
connect(client, SIGNAL(setVolume(int,int,int,int)),
this, SIGNAL(setVolume(int,int,int,int)));
connect(this, SIGNAL(soundFileCompleted(int,int)),
client, SLOT(sendSoundCompleted(int,int)));
connect(this, SIGNAL(deviceReady(int,int)),
client, SLOT(sendDeviceReady(int,int)));
connect(this, SIGNAL(deviceError(int,int,int)),
client, SLOT(sendDeviceError(int,int,int)));
}
}
#endif
class QWSSoundServerPrivate : public QObject {
Q_OBJECT
public:
QWSSoundServerPrivate(QObject* parent=0, const char* name=0) :
QObject(parent)
{
timerId = 0;
if (name)
setObjectName(QString::fromAscii(name));
#ifndef QT_NO_QWS_SOUNDSERVER
server = new QWSSoundServerSocket(this);
connect(server, SIGNAL(playFile(int,int,QString)),
this, SLOT(playFile(int,int,QString)));
connect(server, SIGNAL(playFile(int,int,QString,int,int)),
this, SLOT(playFile(int,int,QString,int,int)));
connect(server, SIGNAL(playRawFile(int,int,QString,int,int,int,int)),
this, SLOT(playRawFile(int,int,QString,int,int,int,int)));
connect(server, SIGNAL(pauseFile(int,int)),
this, SLOT(pauseFile(int,int)));
connect(server, SIGNAL(stopFile(int,int)),
this, SLOT(stopFile(int,int)));
connect(server, SIGNAL(stopAll(int)),
this, SLOT(stopAll(int)));
connect(server, SIGNAL(playPriorityOnly(bool)),
this, SLOT(playPriorityOnly(bool)));
connect(server, SIGNAL(resumeFile(int,int)),
this, SLOT(resumeFile(int,int)));
connect( server, SIGNAL(setSilent(bool)),
this, SLOT(setSilent(bool)));
connect(server, SIGNAL(setMute(int,int,bool)),
this, SLOT(setMute(int,int,bool)));
connect(server, SIGNAL(setVolume(int,int,int,int)),
this, SLOT(setVolume(int,int,int,int)));
connect(this, SIGNAL(soundFileCompleted(int,int)),
server, SIGNAL(soundFileCompleted(int,int)));
connect(this, SIGNAL(deviceReady(int,int)),
server, SIGNAL(deviceReady(int,int)));
connect(this, SIGNAL(deviceError(int,int,int)),
server, SIGNAL(deviceError(int,int,int)));
#endif
silent = false;
fd = -1;
unwritten = 0;
can_GETOSPACE = true;
}
~QWSSoundServerPrivate()
{
qDeleteAll(active);
qDeleteAll(inactive);
}
signals:
void soundFileCompleted(int, int);
void deviceReady(int, int);
void deviceError(int, int, int);
public slots:
void playRawFile(int wid, int sid, const QString &filename, int freq, int channels, int bitspersample, int flags);
void playFile(int wid, int sid, const QString& filename);
void playFile(int wid, int sid, const QString& filename, int v, int flags);
void checkPresetVolumes(int wid, int sid, QWSSoundServerProvider *p);
void pauseFile(int wid, int sid);
void resumeFile(int wid, int sid);
void stopFile(int wid, int sid);
void stopAll(int wid);
void setVolume(int wid, int sid, int lv, int rv);
void setMute(int wid, int sid, bool m);
void playPriorityOnly(bool p);
void sendCompletedSignals();
void feedDevice(int fd);
void setSilent( bool enabled );
protected:
void timerEvent(QTimerEvent* event);
private:
int openFile(int wid, int sid, const QString& filename);
bool openDevice();
void closeDevice()
{
if (fd >= 0) {
::close(fd);
fd = -1;
}
}
QList<QWSSoundServerProvider*> active;
QList<QWSSoundServerProvider*> inactive;
struct PresetVolume {
int wid;
int sid;
int left;
int right;
bool mute;
};
QList<PresetVolume> volumes;
struct CompletedInfo {
CompletedInfo( ) : groupId( 0 ), soundId( 0 ) { }
CompletedInfo( int _groupId, int _soundId ) : groupId( _groupId ), soundId( _soundId ) { }
int groupId;
int soundId;
};
QList<CompletedInfo> completed;
bool silent;
int fd;
int unwritten;
int timerId;
char* cursor;
short data[sound_buffer_size*2];
bool can_GETOSPACE;
#ifndef QT_NO_QWS_SOUNDSERVER
QWSSoundServerSocket *server;
#endif
};
void QWSSoundServerPrivate::setSilent( bool enabled )
{
// Close output device
closeDevice();
if( !unwritten && !active.count() ) {
sendCompletedSignals();
}
// Stop processing audio
killTimer( timerId );
silent = enabled;
// If audio remaining, open output device and continue processing
if( unwritten || active.count() ) {
openDevice();
}
}
void QWSSoundServerPrivate::timerEvent(QTimerEvent* event)
{
// qDebug("QSS timer event");
if( event->timerId() == timerId ) {
if (fd >= 0)
feedDevice(fd);
if (fd < 0) {
killTimer(timerId);
timerId = 0;
}
}
}
void QWSSoundServerPrivate::playRawFile(int wid, int sid, const QString &filename,
int freq, int channels, int bitspersample, int flags)
{
#ifdef QT_NO_QWS_SOUNDSERVER
Q_UNUSED(flags);
#endif
int f = openFile(wid, sid, filename);
if ( f ) {
QWSSoundServerStream *b = new QWSSoundServerStream(f, channels, freq, bitspersample, wid, sid);
// check preset volumes.
checkPresetVolumes(wid, sid, b);
#ifndef QT_NO_QWS_SOUNDSERVER
b->setPriority((flags & QWSSoundClient::Priority) == QWSSoundClient::Priority);
#endif
active.append(b);
emit deviceReady(wid, sid);
}
}
void QWSSoundServerPrivate::playFile(int wid, int sid, const QString& filename)
{
int f = openFile(wid, sid, filename);
if ( f ) {
QWSSoundServerProvider *b = new QWSSoundServerBucket(f, wid, sid);
checkPresetVolumes(wid, sid, b);
active.append( b );
emit deviceReady(wid, sid);
}
}
void QWSSoundServerPrivate::playFile(int wid, int sid, const QString& filename,
int v, int flags)
{
#ifdef QT_NO_QWS_SOUNDSERVER
Q_UNUSED(flags);
#endif
int f = openFile(wid, sid, filename);
if ( f ) {
QWSSoundServerProvider *b = new QWSSoundServerBucket(f, wid, sid);
checkPresetVolumes(wid, sid, b);
b->setVolume(v, v);
#ifndef QT_NO_QWS_SOUNDSERVER
b->setPriority((flags & QWSSoundClient::Priority) == QWSSoundClient::Priority);
#endif
active.append(b);
emit deviceReady(wid, sid);
}
}
void QWSSoundServerPrivate::checkPresetVolumes(int wid, int sid, QWSSoundServerProvider *p)
{
QList<PresetVolume>::Iterator it = volumes.begin();
while (it != volumes.end()) {
PresetVolume v = *it;
if (v.wid == wid && v.sid == sid) {
p->setVolume(v.left, v.right);
p->setMute(v.mute);
it = volumes.erase(it);
return;
} else {
++it;
}
}
}
void QWSSoundServerPrivate::pauseFile(int wid, int sid)
{
QWSSoundServerProvider *bucket;
for (int i = 0; i < active.size(); ++i ) {
bucket = active.at(i);
if (bucket->equal(wid, sid)) {
// found bucket....
active.removeAt(i);
inactive.append(bucket);
return;
}
}
}
void QWSSoundServerPrivate::resumeFile(int wid, int sid)
{
QWSSoundServerProvider *bucket;
for (int i = 0; i < inactive.size(); ++i ) {
bucket = inactive.at(i);
if (bucket->equal(wid, sid)) {
// found bucket....
inactive.removeAt(i);
active.append(bucket);
return;
}
}
}
void QWSSoundServerPrivate::stopFile(int wid, int sid)
{
QWSSoundServerProvider *bucket;
for (int i = 0; i < active.size(); ++i ) {
bucket = active.at(i);
if (bucket->equal(wid, sid)) {
active.removeAt(i);
delete bucket;
return;
}
}
for (int i = 0; i < inactive.size(); ++i ) {
bucket = inactive.at(i);
if (bucket->equal(wid, sid)) {
inactive.removeAt(i);
delete bucket;
return;
}
}
}
void QWSSoundServerPrivate::stopAll(int wid)
{
QWSSoundServerProvider *bucket;
QList<QWSSoundServerProvider*>::Iterator it = active.begin();
while (it != active.end()) {
bucket = *it;
if (bucket->groupId() == wid) {
it = active.erase(it);
delete bucket;
} else {
++it;
}
}
it = inactive.begin();
while (it != inactive.end()) {
bucket = *it;
if (bucket->groupId() == wid) {
it = inactive.erase(it);
delete bucket;
} else {
++it;
}
}
}
void QWSSoundServerPrivate::setVolume(int wid, int sid, int lv, int rv)
{
QWSSoundServerProvider *bucket;
for( int i = 0; i < active.size(); ++i ) {
bucket = active.at(i);
if (bucket->equal(wid, sid)) {
bucket->setVolume(lv,rv);
return;
}
}
// If gotten here, then it means wid/sid wasn't set up yet.
// first find and remove current preset volumes, then add this one.
QList<PresetVolume>::Iterator it = volumes.begin();
while (it != volumes.end()) {
PresetVolume v = *it;
if (v.wid == wid && v.sid == sid)
it = volumes.erase(it);
else
++it;
}
// and then add this volume
PresetVolume nv;
nv.wid = wid;
nv.sid = sid;
nv.left = lv;
nv.right = rv;
nv.mute = false;
volumes.append(nv);
}
void QWSSoundServerPrivate::setMute(int wid, int sid, bool m)
{
QWSSoundServerProvider *bucket;
for( int i = 0; i < active.size(); ++i ) {
bucket = active.at(i);
if (bucket->equal(wid, sid)) {
bucket->setMute(m);
return;
}
}
// if gotten here then setting is being applied before item
// is created.
QList<PresetVolume>::Iterator it = volumes.begin();
while (it != volumes.end()) {
PresetVolume v = *it;
if (v.wid == wid && v.sid == sid) {
(*it).mute = m;
return;
}
}
if (m) {
PresetVolume nv;
nv.wid = wid;
nv.sid = sid;
nv.left = maxVolume>>1;
nv.right = maxVolume>>1;
nv.mute = true;
volumes.append(nv);
}
}
void QWSSoundServerPrivate::playPriorityOnly(bool p)
{
QWSSoundServerProvider::setPlayPriorityOnly(p);
}
void QWSSoundServerPrivate::sendCompletedSignals()
{
while( !completed.isEmpty() ) {
emit soundFileCompleted( (*completed.begin()).groupId,
(*completed.begin()).soundId );
completed.erase( completed.begin() );
}
}
int QWSSoundServerPrivate::openFile(int wid, int sid, const QString& filename)
{
stopFile(wid, sid); // close and re-open.
int f = QT_OPEN(QFile::encodeName(filename), O_RDONLY|O_NONBLOCK);
if (f == -1) {
// XXX check ferror, check reason.
qDebug("Failed opening \"%s\"",filename.toLatin1().data());
#ifndef QT_NO_QWS_SOUNDSERVER
emit deviceError(wid, sid, (int)QWSSoundClient::ErrOpeningFile );
#endif
} else if ( openDevice() ) {
return f;
}
#ifndef QT_NO_QWS_SOUNDSERVER
emit deviceError(wid, sid, (int)QWSSoundClient::ErrOpeningAudioDevice );
#endif
return 0;
}
bool QWSSoundServerPrivate::openDevice()
{
if (fd < 0) {
if( silent ) {
fd = QT_OPEN( "/dev/null", O_WRONLY );
// Emulate write to audio device
int delay = 1000*(sound_buffer_size>>(sound_stereo+sound_16bit))/sound_speed/2;
timerId = startTimer(delay);
return true;
}
//
// Don't block open right away.
//
bool openOkay = false;
if ((fd = QT_OPEN("/dev/dsp", O_WRONLY|O_NONBLOCK)) != -1) {
int flags = fcntl(fd, F_GETFL);
flags &= ~O_NONBLOCK;
openOkay = (fcntl(fd, F_SETFL, flags) == 0);
}
if (!openOkay) {
qDebug("Failed opening audio device");
return false;
}
// Setup soundcard at 16 bit mono
int v;
//v=0x00010000+sound_fragment_size;
// um the media player did this instead.
v=0x10000 * 4 + sound_fragment_size;
if (ioctl(fd, SNDCTL_DSP_SETFRAGMENT, &v))
qWarning("Could not set fragments to %08x",v);
#ifdef QT_QWS_SOUND_16BIT
//
// Use native endian
// Since we have manipulated the data volume the data
// is now in native format, even though its stored
// as little endian in the WAV file
//
v=AFMT_S16_NE; if (ioctl(fd, SNDCTL_DSP_SETFMT, &v))
qWarning("Could not set format %d",v);
if (AFMT_S16_NE != v)
qDebug("Want format %d got %d", AFMT_S16_LE, v);
#else
v=AFMT_U8; if (ioctl(fd, SNDCTL_DSP_SETFMT, &v))
qWarning("Could not set format %d",v);
if (AFMT_U8 != v)
qDebug("Want format %d got %d", AFMT_U8, v);
#endif
v=sound_stereo; if (ioctl(fd, SNDCTL_DSP_STEREO, &v))
qWarning("Could not set stereo %d",v);
if (sound_stereo != v)
qDebug("Want stereo %d got %d", sound_stereo, v);
#ifdef QT_QWS_SOUND_STEREO
sound_stereo=v;
#endif
v=sound_speed; if (ioctl(fd, SNDCTL_DSP_SPEED, &sound_speed))
qWarning("Could not set speed %d",v);
if (v != sound_speed)
qDebug("Want speed %d got %d", v, sound_speed);
int delay = 1000*(sound_buffer_size>>(sound_stereo+sound_16bit))
/sound_speed/2;
// qDebug("QSS delay: %d", delay);
timerId = startTimer(delay);
//
// Check system volume
//
int mixerHandle = QT_OPEN( "/dev/mixer", O_RDWR|O_NONBLOCK );
if ( mixerHandle >= 0 ) {
int volume;
ioctl( mixerHandle, MIXER_READ(0), &volume );
close( mixerHandle );
if ( volume < 1<<(sound_stereo+sound_16bit) )
qDebug("Want sound at %d got %d",
1<<(sound_stereo+sound_16bit), volume);
} else
qDebug( "get volume of audio device failed" );
}
return true;
}
void QWSSoundServerPrivate::feedDevice(int fd)
{
if ( !unwritten && active.size() == 0 ) {
closeDevice();
sendCompletedSignals();
return;
} else {
sendCompletedSignals();
}
QWSSoundServerProvider* bucket;
// find out how much audio is possible
int available = sound_buffer_size;
QList<QWSSoundServerProvider*> running;
for (int i = 0; i < active.size(); ++i) {
bucket = active.at(i);
int ready = bucket->readySamples(available);
if (ready > 0) {
available = qMin(available, ready);
running.append(bucket);
}
}
audio_buf_info info;
if (can_GETOSPACE && ioctl(fd,SNDCTL_DSP_GETOSPACE,&info)) {
can_GETOSPACE = false;
fcntl(fd, F_SETFL, O_NONBLOCK);
}
if (!can_GETOSPACE)
info.fragments = 4; // #### configurable?
if (info.fragments > 0) {
if (!unwritten) {
int left[sound_buffer_size];
memset(left,0,available*sizeof(int));
int right[sound_buffer_size];
if ( sound_stereo )
memset(right,0,available*sizeof(int));
if (running.size() > 0) {
// should do volume mod here in regards to each bucket to avoid flattened/bad peaks.
for (int i = 0; i < running.size(); ++i ) {
bucket = running.at(i);
int unused = bucket->add(left,right,available);
if (unused > 0) {
// this error is quite serious, as
// it will really screw up mixing.
qDebug("provider lied about samples ready");
}
}
if ( sound_16bit ) {
short *d = (short*)data;
for (int i=0; i<available; i++) {
*d++ = (short)qMax(qMin(left[i],32767),-32768);
if ( sound_stereo )
*d++ = (short)qMax(qMin(right[i],32767),-32768);
}
} else {
signed char *d = (signed char *)data;
for (int i=0; i<available; i++) {
*d++ = (signed char)qMax(qMin(left[i]/256,127),-128)+128;
if ( sound_stereo )
*d++ = (signed char)qMax(qMin(right[i]/256,127),-128)+128;
}
}
unwritten = available*(sound_16bit+1)*(sound_stereo+1);
cursor = (char*)data;
}
}
// sound open, but nothing written. Should clear the buffer.
int w;
if (unwritten) {
w = ::write(fd,cursor,unwritten);
if (w < 0) {
if (can_GETOSPACE)
return;
w = 0;
}
cursor += w;
unwritten -= w;
} else {
// write some zeros to clear the buffer?
if (!zeroMem)
zeroMem = (char *)calloc(sound_buffer_size, sizeof(char));
w = ::write(fd, zeroMem, sound_buffer_size);
if (w < 0)
w = 0;
}
}
QList<QWSSoundServerProvider*>::Iterator it = active.begin();
while (it != active.end()) {
bucket = *it;
if (bucket->finished()) {
completed.append(CompletedInfo(bucket->groupId(), bucket->soundId()));
it = active.erase(it);
delete bucket;
} else {
++it;
}
}
}
QWSSoundServer::QWSSoundServer(QObject* parent) :
QObject(parent)
{
d = new QWSSoundServerPrivate(this);
connect( d, SIGNAL(soundFileCompleted(int,int)),
this, SLOT(translateSoundCompleted(int,int)) );
}
void QWSSoundServer::playFile( int sid, const QString& filename )
{
//wid == 0, as it is the server initiating rather than a client
// if wid was passable, would accidently collide with server
// sockect's wids.
d->playFile(0, sid, filename);
}
void QWSSoundServer::pauseFile( int sid )
{
d->pauseFile(0, sid);
}
void QWSSoundServer::stopFile( int sid )
{
d->stopFile(0, sid);
}
void QWSSoundServer::resumeFile( int sid )
{
d->resumeFile(0, sid);
}
QWSSoundServer::~QWSSoundServer()
{
d->stopAll(0);
}
void QWSSoundServer::translateSoundCompleted( int, int sid )
{
emit soundCompleted( sid );
}
#ifndef QT_NO_QWS_SOUNDSERVER
QWSSoundClient::QWSSoundClient(QObject* parent) :
QWSSocket(parent)
{
connectToLocalFile(QString::fromLatin1(SOUND_PIPE).arg(qws_display_id));
QObject::connect(this,SIGNAL(readyRead()),
this,SLOT(tryReadCommand()));
if( state() == QWS_SOCK_BASE::ConnectedState ) QTimer::singleShot(1, this, SIGNAL(connected()));
else QTimer::singleShot(1, this, SLOT(emitConnectionRefused()));
}
QWSSoundClient::~QWSSoundClient( )
{
flush();
}
void QWSSoundClient::reconnect()
{
connectToLocalFile(QString::fromLatin1(SOUND_PIPE).arg(qws_display_id));
if( state() == QWS_SOCK_BASE::ConnectedState ) emit connected();
else emit error( QTcpSocket::ConnectionRefusedError );
}
void QWSSoundClient::sendServerMessage(QString msg)
{
#ifndef QT_NO_TEXTCODEC
QByteArray u = msg.toUtf8();
#else
QByteArray u = msg.toLatin1();
#endif
write(u.data(), u.length());
flush();
}
void QWSSoundClient::play( int id, const QString& filename )
{
QFileInfo fi(filename);
sendServerMessage(QLatin1String("PLAY ")
+ QString::number(id) + QLatin1Char(' ')
+ fi.absoluteFilePath() + QLatin1Char('\n'));
}
void QWSSoundClient::play( int id, const QString& filename, int volume, int flags)
{
QFileInfo fi(filename);
sendServerMessage(QLatin1String("PLAYEXTEND ")
+ QString::number(id) + QLatin1Char(' ')
+ QString::number(volume) + QLatin1Char(' ')
+ QString::number(flags) + QLatin1Char(' ')
+ fi.absoluteFilePath() + QLatin1Char('\n'));
}
void QWSSoundClient::pause( int id )
{
sendServerMessage(QLatin1String("PAUSE ")
+ QString::number(id) + QLatin1Char('\n'));
}
void QWSSoundClient::stop( int id )
{
sendServerMessage(QLatin1String("STOP ")
+ QString::number(id) + QLatin1Char('\n'));
}
void QWSSoundClient::resume( int id )
{
sendServerMessage(QLatin1String("RESUME ")
+ QString::number(id) + QLatin1Char('\n'));
}
void QWSSoundClient::playRaw( int id, const QString& filename,
int freq, int chs, int bitspersample, int flags)
{
QFileInfo fi(filename);
sendServerMessage(QLatin1String("PLAYRAW ")
+ QString::number(id) + QLatin1Char(' ')
+ QString::number(chs) + QLatin1Char(' ')
+ QString::number(freq) + QLatin1Char(' ')
+ QString::number(bitspersample) + QLatin1Char(' ')
+ QString::number(flags) + QLatin1Char(' ')
+ fi.absoluteFilePath() + QLatin1Char('\n'));
}
void QWSSoundClient::setMute( int id, bool m )
{
sendServerMessage(QLatin1String(m ? "MUTE " : "UNMUTE ")
+ QString::number(id) + QLatin1Char('\n'));
}
void QWSSoundClient::setVolume( int id, int leftVol, int rightVol )
{
sendServerMessage(QLatin1String("SETVOLUME ")
+ QString::number(id) + QLatin1Char(' ')
+ QString::number(leftVol) + QLatin1Char(' ')
+ QString::number(rightVol) + QLatin1Char('\n'));
}
void QWSSoundClient::playPriorityOnly( bool pri )
{
sendServerMessage(QLatin1String("PRIORITYONLY ")
+ QString::number(pri ? 1 : 0) + QLatin1Char('\n'));
}
void QWSSoundClient::setSilent( bool enable )
{
sendServerMessage(QLatin1String("SILENT ")
+ QString::number( enable ? 1 : 0 ) + QLatin1Char('\n'));
}
void QWSSoundClient::tryReadCommand()
{
while ( canReadLine() ) {
QString l = QString::fromAscii(readLine());
l.truncate(l.length()-1); // chomp
QStringList token = l.split(QLatin1Char(' '));
if (token[0] == QLatin1String("SOUNDCOMPLETED")) {
emit soundCompleted(token[1].toInt());
} else if (token[0] == QLatin1String("DEVICEREADY")) {
emit deviceReady(token[1].toInt());
} else if (token[0] == QLatin1String("DEVICEERROR")) {
emit deviceError(token[1].toInt(),(DeviceErrors)token[2].toInt());
}
}
}
void QWSSoundClient::emitConnectionRefused()
{
emit error( QTcpSocket::ConnectionRefusedError );
}
#endif
QT_END_NAMESPACE
#include "qsoundqss_qws.moc"
#endif // QT_NO_SOUND
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