Rot270 is not a Direction, but a Rotation. treke, is this fix correct?

1 files changed, 1 insertions, 1 deletions

diff --git a/libopie/odevice.cpp b/libopie/odevice.cpp
index 5038cc9..e24e043 100644
--- a/libopie/odevice.cpp
+++ b/libopie/odevice.cpp
@@ -1667,769 +1667,769 @@ void Zaurus::initButtons ( )
 		default:
 			pz_buttons = z_buttons;
 			buttoncount = ARRAY_SIZE(z_buttons);
 			break;
 	}
 
 	for ( int i = 0; i < buttoncount; i++ ) {
 		struct z_button *zb = pz_buttons + i;
 		ODeviceButton b;
 
 		b. setKeycode ( zb-> code );
 		b. setUserText ( QObject::tr ( "Button", zb-> utext ));
 		b. setPixmap ( Resource::loadPixmap ( zb-> pix ));
 		b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( zb-> fpressedservice ), 
 								  zb-> fpressedaction ));
 		b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( zb-> fheldservice ), 
 							       zb-> fheldaction ));
 
 		d-> m_buttons-> append ( b );
 	}
 
 	reloadButtonMapping ( );
 
 	QCopChannel *sysch = new QCopChannel ( "QPE/System", this );
 	connect ( sysch, SIGNAL( received( const QCString &, const QByteArray & )), 
 		  this, SLOT( systemMessage ( const QCString &, const QByteArray & )));
 }
 
 #include <unistd.h>
 #include <fcntl.h>
 #include <sys/ioctl.h>
 
 //#include <asm/sharp_char.h> // including kernel headers is evil ...
 
 #define SHARP_DEV_IOCTL_COMMAND_START 0x5680
 
 #define	SHARP_BUZZER_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START)
 #define SHARP_BUZZER_MAKESOUND   (SHARP_BUZZER_IOCTL_START)
 
 #define SHARP_BUZ_TOUCHSOUND       1  /* touch panel sound */
 #define SHARP_BUZ_KEYSOUND         2  /* key sound */
 #define SHARP_BUZ_SCHEDULE_ALARM  11  /* schedule alarm */
 
 /* --- for SHARP_BUZZER device --- */
 
 //#define	SHARP_BUZZER_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START)
 //#define SHARP_BUZZER_MAKESOUND   (SHARP_BUZZER_IOCTL_START)
 
 #define SHARP_BUZZER_SETVOLUME   (SHARP_BUZZER_IOCTL_START+1)
 #define SHARP_BUZZER_GETVOLUME   (SHARP_BUZZER_IOCTL_START+2)
 #define SHARP_BUZZER_ISSUPPORTED (SHARP_BUZZER_IOCTL_START+3)
 #define SHARP_BUZZER_SETMUTE     (SHARP_BUZZER_IOCTL_START+4)
 #define SHARP_BUZZER_STOPSOUND   (SHARP_BUZZER_IOCTL_START+5)
 
 //#define SHARP_BUZ_TOUCHSOUND       1  /* touch panel sound */
 //#define SHARP_BUZ_KEYSOUND         2  /* key sound */
 
 //#define SHARP_PDA_ILLCLICKSOUND    3  /* illegal click */
 //#define SHARP_PDA_WARNSOUND        4  /* warning occurred */
 //#define SHARP_PDA_ERRORSOUND       5  /* error occurred */
 //#define SHARP_PDA_CRITICALSOUND    6  /* critical error occurred */
 //#define SHARP_PDA_SYSSTARTSOUND    7  /* system start */
 //#define SHARP_PDA_SYSTEMENDSOUND   8  /* system shutdown */
 //#define SHARP_PDA_APPSTART         9  /* application start */
 //#define SHARP_PDA_APPQUIT         10  /* application ends */
 
 //#define SHARP_BUZ_SCHEDULE_ALARM  11  /* schedule alarm */
 //#define SHARP_BUZ_DAILY_ALARM     12  /* daily alarm */
 //#define SHARP_BUZ_GOT_PHONE_CALL  13  /* phone call sound */
 //#define SHARP_BUZ_GOT_MAIL        14  /* mail sound */
 //
 
 #define	SHARP_LED_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START)
 #define SHARP_LED_SETSTATUS   (SHARP_LED_IOCTL_START+1)
 
 #define  SHARP_IOCTL_GET_ROTATION 0x413c
 
 typedef struct sharp_led_status {
   int which;   /* select which LED status is wanted. */
   int status;  /* set new led status if you call SHARP_LED_SETSTATUS */
 } sharp_led_status;
 
 #define SHARP_LED_MAIL_EXISTS  9       /* mail status (exists or not) */
 
 #define LED_MAIL_NO_UNREAD_MAIL  0   /* for SHARP_LED_MAIL_EXISTS */
 #define LED_MAIL_NEWMAIL_EXISTS  1   /* for SHARP_LED_MAIL_EXISTS */
 #define LED_MAIL_UNREAD_MAIL_EX  2   /* for SHARP_LED_MAIL_EXISTS */
 
 // #include <asm/sharp_apm.h> // including kernel headers is evil ...
 
 #define APM_IOCGEVTSRC          OD_IOR( 'A', 203, int )
 #define APM_IOCSEVTSRC          OD_IORW( 'A', 204, int )
 #define APM_EVT_POWER_BUTTON    (1 << 0)
 
 #define FL_IOCTL_STEP_CONTRAST    100
 
 
 void Zaurus::buzzer ( int sound )
 {
 #ifndef QT_NO_SOUND
 	QString soundname;
 
 	// Not all devices have real sound
 	if ( d->m_model == Model_Zaurus_SLC7x0
 	     || d->m_model == Model_Zaurus_SLB600 ){
 
 		switch ( sound ){
 		case SHARP_BUZ_SCHEDULE_ALARM:
 			soundname = "alarm";
 			break;
 		case SHARP_BUZ_TOUCHSOUND:
 			soundname = "touchsound";
 			break;
 		case SHARP_BUZ_KEYSOUND:
 			soundname = "keysound";
 			break;
 		default:
 			soundname = "alarm";
 			
 		}
 	}
 
 	// If a soundname is defined, we expect that this device has
 	// sound capabilities.. Otherwise we expect to have the buzzer
 	// device..
 	if ( !soundname.isEmpty() ){
 		int fd;
 		int vol;
 		bool vol_reset = false;
 
 		Sound snd ( soundname );
 		
 		if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) {
 			if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) {
 				Config cfg ( "qpe" );
 				cfg. setGroup ( "Volume" );
 
 				int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 );
 				if ( volalarm < 0 )
 					volalarm = 0;
 				else if ( volalarm > 100 )
 					volalarm = 100;
 				volalarm |= ( volalarm << 8 );
 
 				if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 )
 					vol_reset = true;
 			}
 		}
 
 		snd. play ( );
 		while ( !snd. isFinished ( ))
 			qApp-> processEvents ( );
 
 		if ( fd >= 0 ) {
 			if ( vol_reset )
 				::ioctl ( fd, MIXER_WRITE( 0 ), &vol );
 			::close ( fd );
 		}
 	} else {		
 		int fd = ::open ( "/dev/sharp_buz", O_WRONLY|O_NONBLOCK );
 		
 		if ( fd >= 0 ) {
 			::ioctl ( fd, SHARP_BUZZER_MAKESOUND, sound );
 			::close ( fd );
 		}
 
 	} 
 #endif
 }
 
 
 void Zaurus::alarmSound ( )
 {
 	buzzer ( SHARP_BUZ_SCHEDULE_ALARM );
 }
 
 void Zaurus::touchSound ( )
 {
 	buzzer ( SHARP_BUZ_TOUCHSOUND );
 }
 
 void Zaurus::keySound ( )
 {
 	buzzer ( SHARP_BUZ_KEYSOUND );
 }
 
 
 QValueList <OLed> Zaurus::ledList ( ) const
 {
 	QValueList <OLed> vl;
 	vl << Led_Mail;
 	return vl;
 }
 
 QValueList <OLedState> Zaurus::ledStateList ( OLed l ) const
 {
 	QValueList <OLedState> vl;
 
 	if ( l == Led_Mail )
 		vl << Led_Off << Led_On << Led_BlinkSlow;
 	return vl;
 }
 
 OLedState Zaurus::ledState ( OLed which ) const
 {
 	if ( which == Led_Mail )
 		return m_leds [0];
 	else
 		return Led_Off;
 }
 
 bool Zaurus::setLedState ( OLed which, OLedState st )
 {
 	if (!m_embedix) // Currently not supported on non_embedix kernels
 		return false;
 
 	static int fd = ::open ( "/dev/sharp_led", O_RDWR|O_NONBLOCK );
 
 	if ( which == Led_Mail ) {
 		if ( fd >= 0 ) {
 			struct sharp_led_status leds;
 			::memset ( &leds, 0, sizeof( leds ));
 			leds. which = SHARP_LED_MAIL_EXISTS;
 			bool ok = true;
 
 			switch ( st ) {
 				case Led_Off      : leds. status = LED_MAIL_NO_UNREAD_MAIL; break;
 				case Led_On       : leds. status = LED_MAIL_NEWMAIL_EXISTS; break;
 				case Led_BlinkSlow: leds. status = LED_MAIL_UNREAD_MAIL_EX; break;
 				default            : ok = false;
 			}
 
 			if ( ok && ( ::ioctl ( fd, SHARP_LED_SETSTATUS, &leds ) >= 0 )) {
 				m_leds [0] = st;
 				return true;
 			}
 		}
 	}
 	return false;
 }
 
 bool Zaurus::setSoftSuspend ( bool soft )
 {
 	if (!m_embedix) {
 		/* non-Embedix kernels dont have kernel autosuspend */
 		return ODevice::setSoftSuspend( soft );
 	}
 
 	bool res = false;
 	int fd;
 
 	if ((( fd = ::open ( "/dev/apm_bios", O_RDWR )) >= 0 ) ||
         (( fd = ::open ( "/dev/misc/apm_bios",O_RDWR )) >= 0 )) {
 
 		int sources = ::ioctl ( fd, APM_IOCGEVTSRC, 0 ); // get current event sources
 
 		if ( sources >= 0 ) {
 			if ( soft )
 				sources &= ~APM_EVT_POWER_BUTTON;
 			else
 				sources |= APM_EVT_POWER_BUTTON;
 
 			if ( ::ioctl ( fd, APM_IOCSEVTSRC, sources ) >= 0 ) // set new event sources
 				res = true;
 			else
 				perror ( "APM_IOCGEVTSRC" );
 		}
 		else
 			perror ( "APM_IOCGEVTSRC" );
 
 		::close ( fd );
 	}
 	else
 		perror ( "/dev/apm_bios or /dev/misc/apm_bios" );
 
     return res;
 }
 
 
 bool Zaurus::setDisplayBrightness ( int bright )
 {
 // FIXME The C7x0 have a proc-interface (/proc/drivers/corgi-bl) which
 //       is nice to use. Currently it exposes 16+1 levels. Implement this!
 //       (or wait for kergoth unifying the interfaces in the OpenZaurus kernel.)
 	bool res = false;
 	int fd;
 
 	if ( bright > 255 )
 		bright = 255;
 	if ( bright < 0 )
 		bright = 0;
 
 	if (m_embedix) {
 		if (( fd = ::open ( "/dev/fl", O_WRONLY )) >= 0 ) {
 			int bl = ( bright * 4 + 127 ) / 255; // only 4 steps on zaurus
 			if ( bright && !bl )
 				bl = 1;
 			res = ( ::ioctl ( fd, FL_IOCTL_STEP_CONTRAST, bl ) == 0 );
 			::close ( fd );
 		}
 	} else {
 #define FB_BACKLIGHT_SET_BRIGHTNESS     _IOW('F', 1, u_int)             /* set brightness */
 		if (( fd = ::open ( "/dev/fb0", O_WRONLY )) >= 0 ) {
 			res = ( ::ioctl ( fd , FB_BACKLIGHT_SET_BRIGHTNESS, bright ) == 0 );
 			::close ( fd );
 		}
 	}
 	return res;
 }
 
 bool Zaurus::suspend ( )
 {
 	qDebug("ODevice::suspend");
 	if ( !isQWS( ) ) // only qwsserver is allowed to suspend
 		return false;
 
 	if ( d-> m_model == Model_Unknown ) // better don't suspend in qvfb / on unkown devices
 		return false;
 
 	bool res = false;
 
 	struct timeval tvs, tvn;
 	::gettimeofday ( &tvs, 0 );
 
 	::sync ( ); // flush fs caches
 	res = ( ::system ( "apm --suspend" ) == 0 );
 
 	// This is needed because the iPAQ apm implementation is asynchronous and we
 	// can not be sure when exactly the device is really suspended
 	// This can be deleted as soon as a stable familiar with a synchronous apm implementation exists.
 
 	if ( res ) {
 		do { // Yes, wait 15 seconds. This APM bug sucks big time.
 			::usleep ( 200 * 1000 );
 			::gettimeofday ( &tvn, 0 );
 		} while ((( tvn. tv_sec - tvs. tv_sec ) * 1000 + ( tvn. tv_usec - tvs. tv_usec ) / 1000 ) < 15000 );
 	}
 
 	QCopEnvelope ( "QPE/Rotation", "rotateDefault()" );
 	return res;
 }
 
 
 Transformation Zaurus::rotation ( ) const
 {
 	Transformation rot;
 	int handle = 0;
 	int retval = 0;
 
 	switch ( d-> m_model ) {
 		case Model_Zaurus_SLC7x0:
 			handle = ::open("/dev/apm_bios", O_RDWR|O_NONBLOCK);
 			if (handle == -1) {
 				return Rot270;
 			} else {
 				retval = ::ioctl(handle, SHARP_IOCTL_GET_ROTATION);
 				::close (handle);
 
 				if (retval == 2 ) 
 					rot = Rot0;
 				else 
 					rot = Rot270;
 			}
 			break;
 		case Model_Zaurus_SLA300:
 		case Model_Zaurus_SLB600:
 		case Model_Zaurus_SL5500:
 		case Model_Zaurus_SL5000:
 		default:
 			rot = d-> m_rotation;
 			break;
 	}
 
 	return rot;
 }
 ODirection Zaurus::direction ( ) const 
 {
 	ODirection dir;
 	int handle = 0;
 	int retval = 0;
 	switch ( d-> m_model ) {
 		case Model_Zaurus_SLC7x0:
 			handle = ::open("/dev/apm_bios", O_RDWR|O_NONBLOCK);
 			if (handle == -1) {
-				dir = Rot270;
+				dir = CW;
 			} else {
 				retval = ::ioctl(handle, SHARP_IOCTL_GET_ROTATION);
 				::close (handle);
 				if (retval == 2 ) 
 					dir = CCW;
 				else 
 					dir = CW;
 			}
 			break;
 		case Model_Zaurus_SLA300:
 		case Model_Zaurus_SLB600:
 		case Model_Zaurus_SL5500:
 		case Model_Zaurus_SL5000:
 		default:
 			dir = d-> m_direction;
 			break;
 	}
 	return dir;
 
 }
 
 int Zaurus::displayBrightnessResolution ( ) const
 {
 	if (m_embedix)
 		return 5;
 	else
 		return 256;
 }
 
 /**************************************************
  *
  * SIMpad
  *
  **************************************************/
 
 void SIMpad::init ( )
 {
 	d-> m_vendorstr = "SIEMENS";
 	d-> m_vendor = Vendor_SIEMENS;
 
 	QFile f ( "/proc/hal/model" );
 
     //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;
 	}
 
 	f. setName ( "/etc/familiar-version" );
 	if ( f. open ( IO_ReadOnly )) {
 		d-> m_systemstr = "Familiar";
 		d-> m_system = System_Familiar;
 
 		QTextStream ts ( &f );
 		d-> m_sysverstr = ts. readLine ( ). mid ( 10 );
 
 		f. close ( );
 	} else {
 	    f. setName ( "/etc/oz_version" );
 
                     if ( f. open ( IO_ReadOnly )) {
 	    	d-> m_systemstr = "OpenEmbedded/SIMpad";
     		d-> m_system = System_OpenZaurus;
 
 	    	QTextStream ts ( &f );
 		    ts.setDevice ( &f );
 	    	d-> m_sysverstr = ts. readLine ( );
 		    f. close ( );
         }
     }
 
 	m_leds [0] = m_leds [1] = Led_Off;
 
 	m_power_timer = 0;
 
 }
 
 void SIMpad::initButtons ( )
 {
 	if ( d-> m_buttons )
 		return;
 
 	if ( isQWS( ) )
 		QWSServer::setKeyboardFilter ( this );
 
 	d-> m_buttons = new QValueList <ODeviceButton>;
 
 	for ( uint i = 0; i < ( sizeof( simpad_buttons ) / sizeof( s_button )); 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 ( );
 
 	QCopChannel *sysch = new QCopChannel ( "QPE/System", this );
 	connect ( sysch, SIGNAL( received( const QCString &, const QByteArray & )), this, SLOT( systemMessage ( const QCString &, const QByteArray & )));
 }
 
 // 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/registers/PWM_CONTROL"
 #define SIMPAD_BACKLIGHT_MASK    0x00a10044
 
 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 )
 {
 	static int fd = ::open ( SIMPAD_BOARDCONTROL, O_RDWR | O_NONBLOCK );
 
 	if ( l == Led_Power ) {
 		if ( fd >= 0 ) {
 			LED_IN leds;
 			::memset ( &leds, 0, sizeof( leds ));
 			leds. TotalTime  = 0;
 			leds. OnTime     = 0;
 			leds. OffTime    = 1;
 			leds. OffOnBlink = 2;
 
 			switch ( st ) {
 				case Led_Off      : leds. OffOnBlink = 0; break;
 				case Led_On       : leds. OffOnBlink = 1; break;
 				case Led_BlinkSlow: leds. OnTime = 10; leds. OffTime = 10; break;
 				case Led_BlinkFast: leds. OnTime =  5; leds. OffTime =  5; break;
 			}
 
 			{
             /*TODO Implement this like that:
                read from cs3
                && with SIMPAD_LED2_ON
                write to cs3 */
 				m_leds [0] = st;
 				return true;
 			}
 		}
 	}
 	return false;
 }
 
 
 bool SIMpad::filter ( int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat )
 {
 	//TODO
 	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::alarmSound ( )
 {
 #ifndef QT_NO_SOUND
 	static Sound snd ( "alarm" );
 	int fd;
 	int vol;
 	bool vol_reset = false;
 
 	if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) {
 		if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) {
 			Config cfg ( "qpe" );
 			cfg. setGroup ( "Volume" );
 
  			int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 );
 			if ( volalarm < 0 )
 				volalarm = 0;
 			else if ( volalarm > 100 )
 				volalarm = 100;
 			volalarm |= ( volalarm << 8 );
 
 			if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 )
 				vol_reset = true;
 		}
 	}
 
 	snd. play ( );
 	while ( !snd. isFinished ( ))
 		qApp-> processEvents ( );
 
 	if ( fd >= 0 ) {
 		if ( vol_reset )
 			::ioctl ( fd, MIXER_WRITE( 0 ), &vol );
 		::close ( fd );
 	}
 #endif
 }
 
 
 bool SIMpad::suspend ( ) // Must override because SIMpad does NOT have apm
 {
 	qDebug( "ODevice for SIMpad: suspend()" );
 	if ( !isQWS( ) ) // only qwsserver is allowed to suspend
 		return false;
 
 	bool res = false;
 
 	struct timeval tvs, tvn;
 	::gettimeofday ( &tvs, 0 );
 
 	::sync ( ); // flush fs caches
 	res = ( ::system ( "cat /dev/fb/0 >/tmp/.buffer; echo > /proc/sys/pm/suspend; cat /tmp/.buffer >/dev/fb/0" ) == 0 ); //TODO make better :)
 
 	return res;
 }
 
 
 bool SIMpad::setSoftSuspend ( bool soft )
 {
 	qDebug( "ODevice for SIMpad: UNHANDLED setSoftSuspend(%s)", soft? "on" : "off" );
 	return false;
 }
 
 
 bool SIMpad::setDisplayStatus ( bool on )
 {
 	qDebug( "ODevice for SIMpad: setDisplayStatus(%s)", on? "on" : "off" );
 
 	bool res = false;
 	int fd;
 
 	QString cmdline = QString().sprintf( "echo %s > /proc/cs3", on ? "0xd41a" : "0xd40a" ); //TODO make better :)
 
 	res = ( ::system( (const char*) cmdline ) == 0 );
 
 	return res;
 }
 
 
 bool SIMpad::setDisplayBrightness ( int bright )
 {
 	qDebug( "ODevice for SIMpad: setDisplayBrightness( %d )", bright );
 	bool res = false;
 	int fd;
 
 	if ( bright > 255 )
 		bright = 255;
 	if ( bright < 1 )
 		bright = 0;
 
 	if (( fd = ::open ( SIMPAD_BACKLIGHT_CONTROL, O_WRONLY )) >= 0 ) {
 		int value = 255 - bright;
 		const int mask = SIMPAD_BACKLIGHT_MASK;
 		value = value << 8;
 		value += mask;
 		char writeCommand[100];
 		const int count = sprintf( writeCommand, "0x%x\n", value );
 		res = ( ::write ( fd, writeCommand, count ) != -1 );
 		::close ( fd );
 	}
 	return res;
 }
 
 
 int SIMpad::displayBrightnessResolution ( ) const
 {
 	return 255; // All SIMpad models share the same display
 }
 
 /**************************************************
  *
  * Ramses
  *
  **************************************************/
 
 void Ramses::init()
 {
 	d->m_vendorstr = "M und N";
 	d->m_vendor = Vendor_MundN;
 
 	QFile f("/proc/sys/board/ramses");
 
 	d->m_modelstr = "Ramses";
 	d->m_model = Model_Ramses_MNCI;
 
 	d->m_rotation = Rot0;
 	d->m_holdtime = 1000;
 
 	f.setName("/etc/oz_version");
 
 	if (f.open(IO_ReadOnly)) {
 	   	d->m_systemstr = "OpenEmbedded/Ramses";
 	    	d->m_system = System_OpenZaurus;
 
 		QTextStream ts(&f);
 		ts.setDevice(&f);
 		d->m_sysverstr = ts.readLine();
 		f.close();
 	}
 
 	m_power_timer = 0;
 
 #ifdef QT_QWS_ALLOW_OVERCLOCK
 #warning *** Overclocking enabled - this may fry your hardware - you have been warned ***
 #define OC(x...)        x
 #else
 #define OC(x...)
 #endif
 
 
 	// This table is true for a Intel XScale PXA 255
 
 	d->m_cpu_frequencies->append("99000");      // mem= 99, run= 99, turbo= 99, PXbus= 50
 OC(	d->m_cpu_frequencies->append("118000"); )   // mem=118, run=118, turbo=118, PXbus= 59 OC'd mem
 	d->m_cpu_frequencies->append("199100");     // mem= 99, run=199, turbo=199, PXbus= 99
 OC(	d->m_cpu_frequencies->append("236000"); )   // mem=118, run=236, turbo=236, PXbus=118 OC'd mem
 	d->m_cpu_frequencies->append("298600");     // mem= 99, run=199, turbo=298, PXbus= 99
 OC(	d->m_cpu_frequencies->append("354000"); )   // mem=118, run=236, turbo=354, PXbus=118 OC'd mem
 	d->m_cpu_frequencies->append("398099");     // mem= 99, run=199, turbo=398, PXbus= 99
 	d->m_cpu_frequencies->append("398100");     // mem= 99, run=398, turbo=398, PXbus=196
 OC(	d->m_cpu_frequencies->append("471000"); )   // mem=118, run=471, turbo=471, PXbus=236 OC'd mem/core/bus
 
 }
 
 bool Ramses::filter(int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat)
 {