1 files changed, 1 insertions, 1 deletions
diff --git a/libopie2/opiecore/device/odevice_simpad.cpp b/libopie2/opiecore/device/odevice_simpad.cpp
index 2e54216..d6c2c80 100644
--- a/libopie2/opiecore/device/odevice_simpad.cpp
+++ b/libopie2/opiecore/device/odevice_simpad.cpp
@@ -137,193 +137,193 @@ void SIMpad::init(const QString&)
    //TODO Implement model checking
    //FIXME For now we assume an SL4
    d->m_modelstr = "SL4";
    d->m_model = Model_SIMpad_SL4;
    switch ( d->m_model ) {
        default:
            d->m_rotation = Rot0;
            d->m_direction = CCW;
            d->m_holdtime = 1000; // 1000ms
            break;
    }
    //Distribution detecting code is now in base class
    m_leds [0] = m_leds [1] = Led_Off;
    m_power_timer = 0;
 }
 void SIMpad::initButtons()
 {
    if ( d->m_buttons )
        return;
    d->m_buttons = new QValueList <ODeviceButton>;
    uint size = sizeof(simpad_buttons)/sizeof(s_button);
    for ( uint i = 0; i < size; i++ ) {
        s_button *sb = simpad_buttons + i;
        ODeviceButton b;
        if (( sb->model & d->m_model ) == d->m_model ) {
            b. setKeycode ( sb->code );
            b. setUserText ( QObject::tr ( "Button", sb->utext ));
            b. setPixmap ( Resource::loadPixmap ( sb->pix ));
            b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( sb->fpressedservice ), sb->fpressedaction ));
            b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( sb->fheldservice ), sb->fheldaction ));
            d->m_buttons->append ( b );
        }
    }
    reloadButtonMapping();
 }
 // SIMpad boardcontrol register CS3
 #define SIMPAD_BOARDCONTROL "/proc/cs3"
 #define SIMPAD_VCC_5V_EN                   0x0001 // For 5V PCMCIA
 #define SIMPAD_VCC_3V_EN                   0x0002 // FOR 3.3V PCMCIA
 #define SIMPAD_EN1                         0x0004 // This is only for EPROM's
 #define SIMPAD_EN0                         0x0008 // Both should be enable for 3.3V or 5V
 #define SIMPAD_DISPLAY_ON                  0x0010
 #define SIMPAD_PCMCIA_BUFF_DIS             0x0020
 #define SIMPAD_MQ_RESET                    0x0040
 #define SIMPAD_PCMCIA_RESET                0x0080
 #define SIMPAD_DECT_POWER_ON               0x0100
 #define SIMPAD_IRDA_SD                     0x0200 // Shutdown for powersave
 #define SIMPAD_RS232_ON                    0x0400
 #define SIMPAD_SD_MEDIAQ                   0x0800 // Shutdown for powersave
 #define SIMPAD_LED2_ON                     0x1000
 #define SIMPAD_IRDA_MODE                   0x2000 // Fast/Slow IrDA mode
 #define SIMPAD_ENABLE_5V                   0x4000 // Enable 5V circuit
 #define SIMPAD_RESET_SIMCARD               0x8000
 //SIMpad touchscreen backlight strength control
 #define SIMPAD_BACKLIGHT_CONTROL "/proc/driver/mq200/backlight"
 /*
 * The SIMpad exposes ChipSelect3 to userspace
 * via a proc filesystem file. Using this register
 * one can toggle power of serial, irda, dect circuits
 * change the video driver and display status and
 * many more things.
 * To not lose the current setting we read the current
 * cs3 setting and toggle the necessary bits and then
 * write it.
 */
 static bool setCS3Bit(  bool bitset, int bit ) {
    QFile file( SIMPAD_BOARDCONTROL );
    if ( !file.open( IO_ReadOnly ) )
        return false;
    unsigned int val = 0;
    bool ok = false;
    QTextStream stream( &file );
    /*
     * Use QFile and QTextStream for parsing to be more
     * robust
     */
    while ( !stream.atEnd() ) {
        QString line = stream.readLine();
        if ( line.startsWith( "Chipselect3 : " ) ) {
-            val = line.mid( 15 ).toUInt( 0, 16 );
+            val = line.mid( 14 ).toUInt( 0, 16 );
            ok = true;
            break;
        }
    }
    if ( !ok )
        return false;
    file.close();
    /*
     * change the value
     */
    val = bitset ? (val | bit) : (val & ~bit);
    /*
     * write it back
     */
    int cs3_fd = ::open( SIMPAD_BOARDCONTROL, O_WRONLY );
    if ( cs3_fd < 0 )
        return false;
    char line[32];
    ::snprintf(line, sizeof(line), "0x%04x\n", val);
    ::write(cs3_fd, line, strlen(line));
    ::close(cs3_fd);
    return true;
 }
 QValueList <OLed> SIMpad::ledList() const
 {
    QValueList <OLed> vl;
    vl << Led_Power; //FIXME which LED is LED2 ? The green one or the amber one?
    //vl << Led_Mail; //TODO find out if LED1 is accessible anyway
    return vl;
 }
 QValueList <OLedState> SIMpad::ledStateList ( OLed l ) const
 {
    QValueList <OLedState> vl;
    if ( l == Led_Power )  //FIXME which LED is LED2 ? The green one or the amber one?
        vl << Led_Off << Led_On;
    //else if ( l == Led_Mail ) //TODO find out if LED1 is accessible anyway
        //vl << Led_Off;
    return vl;
 }
 OLedState SIMpad::ledState ( OLed l ) const
 {
    switch ( l ) {
        case Led_Power:
            return m_leds [0];
        //case Led_Mail:
        //  return m_leds [1];
        default:
            return Led_Off;
    }
 }
 bool SIMpad::setLedState ( OLed l, OLedState st )
 {
    if ( l == Led_Power ) {
        m_leds [0] = st;
        setCS3Bit(st == Led_On, SIMPAD_LED2_ON);
        return true;
    }
    return false;
 }
 void SIMpad::timerEvent ( QTimerEvent * )
 {
    killTimer ( m_power_timer );
    m_power_timer = 0;
    QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false );
    QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false );
 }
 void SIMpad::playAlarmSound()
 {
 #ifndef QT_NO_SOUND
    static Sound snd ( "alarm" );
    if(!snd.isFinished())
        return;
    /* save as the Sound is static! */
    changeMixerForAlarm( 0, "/dev/sound/mixer" , &snd);
    snd. play();
 #endif
 }

diff --git a/libopie2/opiecore/device/odevice_simpad.cpp b/libopie2/opiecore/device/odevice_simpad.cpp index 2e54216..d6c2c80 100644 --- a/libopie2/opiecore/device/odevice_simpad.cpp +++ b/libopie2/opiecore/device/odevice_simpad.cpp
@@ -137,193 +137,193 @@ void SIMpad::init(const QString&)
137	//TODO Implement model checking	137	//TODO Implement model checking
138	//FIXME For now we assume an SL4	138	//FIXME For now we assume an SL4
139		139
140	d->m_modelstr = "SL4";	140	d->m_modelstr = "SL4";
141	d->m_model = Model_SIMpad_SL4;	141	d->m_model = Model_SIMpad_SL4;
142		142
143	switch ( d->m_model ) {	143	switch ( d->m_model ) {
144	default:	144	default:
145	d->m_rotation = Rot0;	145	d->m_rotation = Rot0;
146	d->m_direction = CCW;	146	d->m_direction = CCW;
147	d->m_holdtime = 1000; // 1000ms	147	d->m_holdtime = 1000; // 1000ms
148		148
149	break;	149	break;
150	}	150	}
151		151
152	//Distribution detecting code is now in base class	152	//Distribution detecting code is now in base class
153	m_leds [0] = m_leds [1] = Led_Off;	153	m_leds [0] = m_leds [1] = Led_Off;
154		154
155	m_power_timer = 0;	155	m_power_timer = 0;
156		156
157	}	157	}
158		158
159	void SIMpad::initButtons()	159	void SIMpad::initButtons()
160	{	160	{
161	if ( d->m_buttons )	161	if ( d->m_buttons )
162	return;	162	return;
163		163
164	d->m_buttons = new QValueList <ODeviceButton>;	164	d->m_buttons = new QValueList <ODeviceButton>;
165		165
166	uint size = sizeof(simpad_buttons)/sizeof(s_button);	166	uint size = sizeof(simpad_buttons)/sizeof(s_button);
167	for ( uint i = 0; i < size; i++ ) {	167	for ( uint i = 0; i < size; i++ ) {
168	s_button *sb = simpad_buttons + i;	168	s_button *sb = simpad_buttons + i;
169	ODeviceButton b;	169	ODeviceButton b;
170		170
171	if (( sb->model & d->m_model ) == d->m_model ) {	171	if (( sb->model & d->m_model ) == d->m_model ) {
172	b. setKeycode ( sb->code );	172	b. setKeycode ( sb->code );
173	b. setUserText ( QObject::tr ( "Button", sb->utext ));	173	b. setUserText ( QObject::tr ( "Button", sb->utext ));
174	b. setPixmap ( Resource::loadPixmap ( sb->pix ));	174	b. setPixmap ( Resource::loadPixmap ( sb->pix ));
175	b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( sb->fpressedservice ), sb->fpressedaction ));	175	b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( sb->fpressedservice ), sb->fpressedaction ));
176	b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( sb->fheldservice ), sb->fheldaction ));	176	b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( sb->fheldservice ), sb->fheldaction ));
177		177
178	d->m_buttons->append ( b );	178	d->m_buttons->append ( b );
179	}	179	}
180	}	180	}
181	reloadButtonMapping();	181	reloadButtonMapping();
182	}	182	}
183		183
184	// SIMpad boardcontrol register CS3	184	// SIMpad boardcontrol register CS3
185	#define SIMPAD_BOARDCONTROL "/proc/cs3"	185	#define SIMPAD_BOARDCONTROL "/proc/cs3"
186	#define SIMPAD_VCC_5V_EN 0x0001 // For 5V PCMCIA	186	#define SIMPAD_VCC_5V_EN 0x0001 // For 5V PCMCIA
187	#define SIMPAD_VCC_3V_EN 0x0002 // FOR 3.3V PCMCIA	187	#define SIMPAD_VCC_3V_EN 0x0002 // FOR 3.3V PCMCIA
188	#define SIMPAD_EN1 0x0004 // This is only for EPROM's	188	#define SIMPAD_EN1 0x0004 // This is only for EPROM's
189	#define SIMPAD_EN0 0x0008 // Both should be enable for 3.3V or 5V	189	#define SIMPAD_EN0 0x0008 // Both should be enable for 3.3V or 5V
190	#define SIMPAD_DISPLAY_ON 0x0010	190	#define SIMPAD_DISPLAY_ON 0x0010
191	#define SIMPAD_PCMCIA_BUFF_DIS 0x0020	191	#define SIMPAD_PCMCIA_BUFF_DIS 0x0020
192	#define SIMPAD_MQ_RESET 0x0040	192	#define SIMPAD_MQ_RESET 0x0040
193	#define SIMPAD_PCMCIA_RESET 0x0080	193	#define SIMPAD_PCMCIA_RESET 0x0080
194	#define SIMPAD_DECT_POWER_ON 0x0100	194	#define SIMPAD_DECT_POWER_ON 0x0100
195	#define SIMPAD_IRDA_SD 0x0200 // Shutdown for powersave	195	#define SIMPAD_IRDA_SD 0x0200 // Shutdown for powersave
196	#define SIMPAD_RS232_ON 0x0400	196	#define SIMPAD_RS232_ON 0x0400
197	#define SIMPAD_SD_MEDIAQ 0x0800 // Shutdown for powersave	197	#define SIMPAD_SD_MEDIAQ 0x0800 // Shutdown for powersave
198	#define SIMPAD_LED2_ON 0x1000	198	#define SIMPAD_LED2_ON 0x1000
199	#define SIMPAD_IRDA_MODE 0x2000 // Fast/Slow IrDA mode	199	#define SIMPAD_IRDA_MODE 0x2000 // Fast/Slow IrDA mode
200	#define SIMPAD_ENABLE_5V 0x4000 // Enable 5V circuit	200	#define SIMPAD_ENABLE_5V 0x4000 // Enable 5V circuit
201	#define SIMPAD_RESET_SIMCARD 0x8000	201	#define SIMPAD_RESET_SIMCARD 0x8000
202		202
203	//SIMpad touchscreen backlight strength control	203	//SIMpad touchscreen backlight strength control
204	#define SIMPAD_BACKLIGHT_CONTROL "/proc/driver/mq200/backlight"	204	#define SIMPAD_BACKLIGHT_CONTROL "/proc/driver/mq200/backlight"
205		205
206		206
207	/*	207	/*
208	* The SIMpad exposes ChipSelect3 to userspace	208	* The SIMpad exposes ChipSelect3 to userspace
209	* via a proc filesystem file. Using this register	209	* via a proc filesystem file. Using this register
210	* one can toggle power of serial, irda, dect circuits	210	* one can toggle power of serial, irda, dect circuits
211	* change the video driver and display status and	211	* change the video driver and display status and
212	* many more things.	212	* many more things.
213	* To not lose the current setting we read the current	213	* To not lose the current setting we read the current
214	* cs3 setting and toggle the necessary bits and then	214	* cs3 setting and toggle the necessary bits and then
215	* write it.	215	* write it.
216	*/	216	*/
217	static bool setCS3Bit( bool bitset, int bit ) {	217	static bool setCS3Bit( bool bitset, int bit ) {
218	QFile file( SIMPAD_BOARDCONTROL );	218	QFile file( SIMPAD_BOARDCONTROL );
219	if ( !file.open( IO_ReadOnly ) )	219	if ( !file.open( IO_ReadOnly ) )
220	return false;	220	return false;
221		221
222	unsigned int val = 0;	222	unsigned int val = 0;
223	bool ok = false;	223	bool ok = false;
224	QTextStream stream( &file );	224	QTextStream stream( &file );
225		225
226	/*	226	/*
227	* Use QFile and QTextStream for parsing to be more	227	* Use QFile and QTextStream for parsing to be more
228	* robust	228	* robust
229	*/	229	*/
230	while ( !stream.atEnd() ) {	230	while ( !stream.atEnd() ) {
231	QString line = stream.readLine();	231	QString line = stream.readLine();
232	if ( line.startsWith( "Chipselect3 : " ) ) {	232	if ( line.startsWith( "Chipselect3 : " ) ) {
233	val = line.mid( 15 ).toUInt( 0, 16 );	233	val = line.mid( 14 ).toUInt( 0, 16 );
234	ok = true;	234	ok = true;
235	break;	235	break;
236	}	236	}
237	}	237	}
238		238
239	if ( !ok )	239	if ( !ok )
240	return false;	240	return false;
241		241
242	file.close();	242	file.close();
243		243
244	/*	244	/*
245	* change the value	245	* change the value
246	*/	246	*/
247	val = bitset ? (val \| bit) : (val & ~bit);	247	val = bitset ? (val \| bit) : (val & ~bit);
248		248
249	/*	249	/*
250	* write it back	250	* write it back
251	*/	251	*/
252	int cs3_fd = ::open( SIMPAD_BOARDCONTROL, O_WRONLY );	252	int cs3_fd = ::open( SIMPAD_BOARDCONTROL, O_WRONLY );
253	if ( cs3_fd < 0 )	253	if ( cs3_fd < 0 )
254	return false;	254	return false;
255		255
256	char line[32];	256	char line[32];
257	::snprintf(line, sizeof(line), "0x%04x\n", val);	257	::snprintf(line, sizeof(line), "0x%04x\n", val);
258	::write(cs3_fd, line, strlen(line));	258	::write(cs3_fd, line, strlen(line));
259	::close(cs3_fd);	259	::close(cs3_fd);
260		260
261	return true;	261	return true;
262	}	262	}
263		263
264		264
265	QValueList <OLed> SIMpad::ledList() const	265	QValueList <OLed> SIMpad::ledList() const
266	{	266	{
267	QValueList <OLed> vl;	267	QValueList <OLed> vl;
268	vl << Led_Power; //FIXME which LED is LED2 ? The green one or the amber one?	268	vl << Led_Power; //FIXME which LED is LED2 ? The green one or the amber one?
269	//vl << Led_Mail; //TODO find out if LED1 is accessible anyway	269	//vl << Led_Mail; //TODO find out if LED1 is accessible anyway
270	return vl;	270	return vl;
271	}	271	}
272		272
273	QValueList <OLedState> SIMpad::ledStateList ( OLed l ) const	273	QValueList <OLedState> SIMpad::ledStateList ( OLed l ) const
274	{	274	{
275	QValueList <OLedState> vl;	275	QValueList <OLedState> vl;
276		276
277	if ( l == Led_Power ) //FIXME which LED is LED2 ? The green one or the amber one?	277	if ( l == Led_Power ) //FIXME which LED is LED2 ? The green one or the amber one?
278	vl << Led_Off << Led_On;	278	vl << Led_Off << Led_On;
279	//else if ( l == Led_Mail ) //TODO find out if LED1 is accessible anyway	279	//else if ( l == Led_Mail ) //TODO find out if LED1 is accessible anyway
280	//vl << Led_Off;	280	//vl << Led_Off;
281	return vl;	281	return vl;
282	}	282	}
283		283
284	OLedState SIMpad::ledState ( OLed l ) const	284	OLedState SIMpad::ledState ( OLed l ) const
285	{	285	{
286	switch ( l ) {	286	switch ( l ) {
287	case Led_Power:	287	case Led_Power:
288	return m_leds [0];	288	return m_leds [0];
289	//case Led_Mail:	289	//case Led_Mail:
290	// return m_leds [1];	290	// return m_leds [1];
291	default:	291	default:
292	return Led_Off;	292	return Led_Off;
293	}	293	}
294	}	294	}
295		295
296	bool SIMpad::setLedState ( OLed l, OLedState st )	296	bool SIMpad::setLedState ( OLed l, OLedState st )
297	{	297	{
298	if ( l == Led_Power ) {	298	if ( l == Led_Power ) {
299	m_leds [0] = st;	299	m_leds [0] = st;
300	setCS3Bit(st == Led_On, SIMPAD_LED2_ON);	300	setCS3Bit(st == Led_On, SIMPAD_LED2_ON);
301	return true;	301	return true;
302	}	302	}
303		303
304	return false;	304	return false;
305	}	305	}
306		306
307	void SIMpad::timerEvent ( QTimerEvent * )	307	void SIMpad::timerEvent ( QTimerEvent * )
308	{	308	{
309	killTimer ( m_power_timer );	309	killTimer ( m_power_timer );
310	m_power_timer = 0;	310	m_power_timer = 0;
311	QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false );	311	QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false );
312	QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false );	312	QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false );
313	}	313	}
314		314
315		315
316	void SIMpad::playAlarmSound()	316	void SIMpad::playAlarmSound()
317	{	317	{
318	#ifndef QT_NO_SOUND	318	#ifndef QT_NO_SOUND
319	static Sound snd ( "alarm" );	319	static Sound snd ( "alarm" );
320	if(!snd.isFinished())	320	if(!snd.isFinished())
321	return;	321	return;
322		322
323	/* save as the Sound is static! */	323	/* save as the Sound is static! */
324	changeMixerForAlarm( 0, "/dev/sound/mixer" , &snd);	324	changeMixerForAlarm( 0, "/dev/sound/mixer" , &snd);
325	snd. play();	325	snd. play();
326	#endif	326	#endif
327	}	327	}
328		328
329		329