| -rw-r--r-- | libopie/odevice.cpp | 81 |
1 files changed, 28 insertions, 53 deletions
diff --git a/libopie/odevice.cpp b/libopie/odevice.cpp index 993aedf..62dc9d4 100644 --- a/libopie/odevice.cpp +++ b/libopie/odevice.cpp @@ -540,769 +540,770 @@ bool ODevice::suspend ( ) * This sets the display on or off */ bool ODevice::setDisplayStatus ( bool on ) { qDebug("ODevice::setDisplayStatus(%d)", on); if ( d-> m_model == Model_Unknown ) return false; bool res = false; int fd; if (( fd = ::open ( "/dev/fb0", O_RDWR )) >= 0 ) { res = ( ::ioctl ( fd, FBIOBLANK, on ? VESA_NO_BLANKING : VESA_POWERDOWN ) == 0 ); ::close ( fd ); } return res; } /** * This sets the display brightness * * @param p The brightness to be set on a scale from 0 to 255 * @return success or failure */ bool ODevice::setDisplayBrightness ( int p) { Q_UNUSED( p ) return false; } /** * @return returns the number of steppings on the brightness slider * in the Light-'n-Power settings. */ int ODevice::displayBrightnessResolution ( ) const { return 16; } /** * This sets the display contrast * @param p The contrast to be set on a scale from 0 to 255 * @return success or failure */ bool ODevice::setDisplayContrast ( int p) { Q_UNUSED( p ) return false; } /** * @return return the max value for the brightness settings slider * or 0 if the device doesn't support setting of a contrast */ int ODevice::displayContrastResolution ( ) const { return 0; } /** * This returns the vendor as string * @return Vendor as QString */ QString ODevice::vendorString ( ) const { return d-> m_vendorstr; } /** * This returns the vendor as one of the values of OVendor * @return OVendor */ OVendor ODevice::vendor ( ) const { return d-> m_vendor; } /** * This returns the model as a string * @return A string representing the model */ QString ODevice::modelString ( ) const { return d-> m_modelstr; } /** * This does return the OModel used */ OModel ODevice::model ( ) const { return d-> m_model; } /** * This does return the systen name */ QString ODevice::systemString ( ) const { return d-> m_systemstr; } /** * Return System as OSystem value */ OSystem ODevice::system ( ) const { return d-> m_system; } /** * @return the version string of the base system */ QString ODevice::systemVersionString ( ) const { return d-> m_sysverstr; } /** * @return the current Transformation */ Transformation ODevice::rotation ( ) const { return d-> m_rotation; } /** * @return the current rotation direction */ ODirection ODevice::direction ( ) const { return d-> m_direction; } /** * This plays an alarmSound */ void ODevice::alarmSound ( ) { #ifndef QT_NO_SOUND static Sound snd ( "alarm" ); if ( snd. isFinished ( )) snd. play ( ); #endif } /** * This plays a key sound */ void ODevice::keySound ( ) { #ifndef QT_NO_SOUND static Sound snd ( "keysound" ); if ( snd. isFinished ( )) snd. play ( ); #endif } /** * This plays a touch sound */ void ODevice::touchSound ( ) { #ifndef QT_NO_SOUND static Sound snd ( "touchsound" ); if ( snd. isFinished ( )) snd. play ( ); #endif } /** * This method will return a list of leds * available on this device * @return a list of LEDs. */ QValueList <OLed> ODevice::ledList ( ) const { return QValueList <OLed> ( ); } /** * This does return the state of the LEDs */ QValueList <OLedState> ODevice::ledStateList ( OLed /*which*/ ) const { return QValueList <OLedState> ( ); } /** * @return the state for a given OLed */ OLedState ODevice::ledState ( OLed /*which*/ ) const { return Led_Off; } /** * Set the state for a LED * @param which Which OLed to use * @param st The state to set * @return success or failure */ bool ODevice::setLedState ( OLed which, OLedState st ) { Q_UNUSED( which ) Q_UNUSED( st ) return false; } /** * @return if the device has a light sensor */ bool ODevice::hasLightSensor ( ) const { return false; } /** * @return a value from the light senso */ int ODevice::readLightSensor ( ) { return -1; } /** * @return the light sensor resolution whatever that is ;) */ int ODevice::lightSensorResolution ( ) const { return 0; } /** * @return a list with CPU frequencies supported by the hardware */ const QStrList &ODevice::allowedCpuFrequencies ( ) const { return *d->m_cpu_frequencies; } /** * Set desired CPU frequency * * @param index index into d->m_cpu_frequencies of the frequency to be set */ bool ODevice::setCurrentCpuFrequency(uint index) { if (index >= d->m_cpu_frequencies->count()) return false; char *freq = d->m_cpu_frequencies->at(index); qWarning("set freq to %s", freq); int fd; if ((fd = ::open("/proc/sys/cpu/0/speed", O_WRONLY)) >= 0) { char writeCommand[50]; const int count = sprintf(writeCommand, "%s\n", freq); int res = (::write(fd, writeCommand, count) != -1); ::close(fd); return res; } return false; } /** * @return a list of hardware buttons */ const QValueList <ODeviceButton> &ODevice::buttons ( ) { initButtons ( ); return *d-> m_buttons; } /** * @return The amount of time that would count as a hold */ uint ODevice::buttonHoldTime ( ) const { return d-> m_holdtime; } /** * This method return a ODeviceButton for a key code * or 0 if no special hardware button is available for the device * * @return The devicebutton or 0l * @see ODeviceButton */ const ODeviceButton *ODevice::buttonForKeycode ( ushort code ) { initButtons ( ); for ( QValueListConstIterator<ODeviceButton> it = d-> m_buttons-> begin ( ); it != d-> m_buttons-> end ( ); ++it ) { if ( (*it). keycode ( ) == code ) return &(*it); } return 0; } void ODevice::reloadButtonMapping ( ) { initButtons ( ); Config cfg ( "ButtonSettings" ); for ( uint i = 0; i < d-> m_buttons-> count ( ); i++ ) { ODeviceButton &b = ( *d-> m_buttons ) [i]; QString group = "Button" + QString::number ( i ); QCString pch, hch; QCString pm, hm; QByteArray pdata, hdata; if ( cfg. hasGroup ( group )) { cfg. setGroup ( group ); pch = cfg. readEntry ( "PressedActionChannel" ). latin1 ( ); pm = cfg. readEntry ( "PressedActionMessage" ). latin1 ( ); // pdata = decodeBase64 ( buttonFile. readEntry ( "PressedActionArgs" )); hch = cfg. readEntry ( "HeldActionChannel" ). latin1 ( ); hm = cfg. readEntry ( "HeldActionMessage" ). latin1 ( ); // hdata = decodeBase64 ( buttonFile. readEntry ( "HeldActionArgs" )); } b. setPressedAction ( OQCopMessage ( pch, pm, pdata )); b. setHeldAction ( OQCopMessage ( hch, hm, hdata )); } } void ODevice::remapPressedAction ( int button, const OQCopMessage &action ) { initButtons ( ); QString mb_chan; if ( button >= (int) d-> m_buttons-> count ( )) return; ODeviceButton &b = ( *d-> m_buttons ) [button]; b. setPressedAction ( action ); mb_chan=b. pressedAction ( ). channel ( ); Config buttonFile ( "ButtonSettings" ); buttonFile. setGroup ( "Button" + QString::number ( button )); buttonFile. writeEntry ( "PressedActionChannel", (const char*) mb_chan); buttonFile. writeEntry ( "PressedActionMessage", (const char*) b. pressedAction ( ). message ( )); // buttonFile. writeEntry ( "PressedActionArgs", encodeBase64 ( b. pressedAction ( ). data ( ))); QCopEnvelope ( "QPE/System", "deviceButtonMappingChanged()" ); } void ODevice::remapHeldAction ( int button, const OQCopMessage &action ) { initButtons ( ); if ( button >= (int) d-> m_buttons-> count ( )) return; ODeviceButton &b = ( *d-> m_buttons ) [button]; b. setHeldAction ( action ); Config buttonFile ( "ButtonSettings" ); buttonFile. setGroup ( "Button" + QString::number ( button )); buttonFile. writeEntry ( "HeldActionChannel", (const char *) b. heldAction ( ). channel ( )); buttonFile. writeEntry ( "HeldActionMessage", (const char *) b. heldAction ( ). message ( )); // buttonFile. writeEntry ( "HeldActionArgs", decodeBase64 ( b. heldAction ( ). data ( ))); QCopEnvelope ( "QPE/System", "deviceButtonMappingChanged()" ); } void ODevice::virtual_hook( int id, void* data ) { - + Q_UNUSED(id); + Q_UNUSED(data); } /************************************************** * * iPAQ * **************************************************/ void iPAQ::init ( ) { d-> m_vendorstr = "HP"; d-> m_vendor = Vendor_HP; QFile f ( "/proc/hal/model" ); if ( f. open ( IO_ReadOnly )) { QTextStream ts ( &f ); d-> m_modelstr = "H" + ts. readLine ( ); if ( d-> m_modelstr == "H3100" ) d-> m_model = Model_iPAQ_H31xx; else if ( d-> m_modelstr == "H3600" ) d-> m_model = Model_iPAQ_H36xx; else if ( d-> m_modelstr == "H3700" ) d-> m_model = Model_iPAQ_H37xx; else if ( d-> m_modelstr == "H3800" ) d-> m_model = Model_iPAQ_H38xx; else if ( d-> m_modelstr == "H3900" ) d-> m_model = Model_iPAQ_H39xx; else d-> m_model = Model_Unknown; f. close ( ); } switch ( d-> m_model ) { case Model_iPAQ_H31xx: case Model_iPAQ_H38xx: d-> m_rotation = Rot90; break; case Model_iPAQ_H36xx: case Model_iPAQ_H37xx: case Model_iPAQ_H39xx: default: d-> m_rotation = Rot270; 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/iPaq"; d-> m_system = System_Familiar; 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 iPAQ::initButtons ( ) { if ( d-> m_buttons ) return; if ( isQWS( ) ) QWSServer::setKeyboardFilter ( this ); d-> m_buttons = new QValueList <ODeviceButton>; for ( uint i = 0; i < ( sizeof( ipaq_buttons ) / sizeof( i_button )); i++ ) { i_button *ib = ipaq_buttons + i; ODeviceButton b; if (( ib-> model & d-> m_model ) == d-> m_model ) { b. setKeycode ( ib-> code ); b. setUserText ( QObject::tr ( "Button", ib-> utext )); b. setPixmap ( Resource::loadPixmap ( ib-> pix )); b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( ib-> fpressedservice ), ib-> fpressedaction )); b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( ib-> fheldservice ), ib-> 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 <linux/h3600_ts.h> // including kernel headers is evil ... typedef struct { unsigned char OffOnBlink; /* 0=off 1=on 2=Blink */ unsigned char TotalTime; /* Units of 5 seconds */ unsigned char OnTime; /* units of 100m/s */ unsigned char OffTime; /* units of 100m/s */ } LED_IN; typedef struct { unsigned char mode; unsigned char pwr; unsigned char brightness; } FLITE_IN; #define LED_ON OD_IOW( 'f', 5, LED_IN ) #define FLITE_ON OD_IOW( 'f', 7, FLITE_IN ) QValueList <OLed> iPAQ::ledList ( ) const { QValueList <OLed> vl; vl << Led_Power; if ( d-> m_model == Model_iPAQ_H38xx ) vl << Led_BlueTooth; return vl; } QValueList <OLedState> iPAQ::ledStateList ( OLed l ) const { QValueList <OLedState> vl; if ( l == Led_Power ) vl << Led_Off << Led_On << Led_BlinkSlow << Led_BlinkFast; else if ( l == Led_BlueTooth && d-> m_model == Model_iPAQ_H38xx ) vl << Led_Off; // << Led_On << ??? return vl; } OLedState iPAQ::ledState ( OLed l ) const { switch ( l ) { case Led_Power: return m_leds [0]; case Led_BlueTooth: return m_leds [1]; default: return Led_Off; } } bool iPAQ::setLedState ( OLed l, OLedState st ) { static int fd = ::open ( "/dev/touchscreen/0", 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; } if ( ::ioctl ( fd, LED_ON, &leds ) >= 0 ) { m_leds [0] = st; return true; } } } return false; } bool iPAQ::filter ( int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat ) { int newkeycode = keycode; switch ( keycode ) { // H38xx/H39xx have no "Q" key anymore - this is now the Mail key case HardKey_Menu: { if (( d-> m_model == Model_iPAQ_H38xx ) || ( d-> m_model == Model_iPAQ_H39xx )) { newkeycode = HardKey_Mail; } break; } // Rotate cursor keys 180° case Key_Left : case Key_Right: case Key_Up : case Key_Down : { if (( d-> m_model == Model_iPAQ_H31xx ) || ( d-> m_model == Model_iPAQ_H38xx )) { newkeycode = Key_Left + ( keycode - Key_Left + 2 ) % 4; } break; } // map Power Button short/long press to F34/F35 case Key_SysReq: { if ( isPress ) { if ( m_power_timer ) killTimer ( m_power_timer ); m_power_timer = startTimer ( 500 ); } else if ( m_power_timer ) { killTimer ( m_power_timer ); m_power_timer = 0; QWSServer::sendKeyEvent ( -1, HardKey_Suspend, 0, true, false ); QWSServer::sendKeyEvent ( -1, HardKey_Suspend, 0, false, false ); } newkeycode = Key_unknown; break; } } if ( newkeycode != keycode ) { if ( newkeycode != Key_unknown ) QWSServer::sendKeyEvent ( -1, newkeycode, modifiers, isPress, autoRepeat ); return true; } else return false; } void iPAQ::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 iPAQ::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 iPAQ::setSoftSuspend ( bool soft ) { bool res = false; int fd; if (( fd = ::open ( "/proc/sys/ts/suspend_button_mode", O_WRONLY )) >= 0 ) { if ( ::write ( fd, soft ? "1" : "0", 1 ) == 1 ) res = true; else ::perror ( "write to /proc/sys/ts/suspend_button_mode" ); ::close ( fd ); } else ::perror ( "/proc/sys/ts/suspend_button_mode" ); return res; } bool iPAQ::setDisplayBrightness ( int bright ) { bool res = false; int fd; if ( bright > 255 ) bright = 255; if ( bright < 0 ) bright = 0; if (( fd = ::open ( "/dev/touchscreen/0", O_WRONLY )) >= 0 ) { FLITE_IN bl; bl. mode = 1; bl. pwr = bright ? 1 : 0; bl. brightness = ( bright * ( displayBrightnessResolution ( ) - 1 ) + 127 ) / 255; res = ( ::ioctl ( fd, FLITE_ON, &bl ) == 0 ); ::close ( fd ); } return res; } int iPAQ::displayBrightnessResolution ( ) const { switch ( model ( )) { case Model_iPAQ_H31xx: case Model_iPAQ_H36xx: case Model_iPAQ_H37xx: return 128; // really 256, but >128 could damage the LCD case Model_iPAQ_H38xx: case Model_iPAQ_H39xx: return 64; default: return 2; } } bool iPAQ::hasLightSensor ( ) const { return true; } int iPAQ::readLightSensor ( ) { int fd; int val = -1; if (( fd = ::open ( "/proc/hal/light_sensor", O_RDONLY )) >= 0 ) { char buffer [8]; if ( ::read ( fd, buffer, 5 ) == 5 ) { char *endptr; buffer [4] = 0; val = ::strtol ( buffer + 2, &endptr, 16 ); if ( *endptr != 0 ) val = -1; } ::close ( fd ); } return val; } @@ -1592,577 +1593,551 @@ bool Zaurus::setSoftSuspend ( bool 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 ) { bool res = false; int fd; if ( bright > 255 ) bright = 255; if ( bright < 0 ) bright = 0; 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 ); } return res; } int Zaurus::displayBrightnessResolution ( ) const { return 5; } /************************************************** * * 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 ( "echo > /proc/sys/pm/suspend" ) == 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 :) if (( fd = ::open ( "/dev/fb0", O_RDWR )) >= 0 ) { res = ( ::system( (const char*) cmdline ) == 0 ); ::close ( fd ); } 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 < 0 ) 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 { switch ( model ( )) { case Model_SIMpad_CL4: case Model_SIMpad_SL4: case Model_SIMpad_SLC: case Model_SIMpad_TSinus: return 255; //TODO find out if this is save default: return 2; } } /************************************************** * * 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; + d->m_rotation = Rot180; + d->m_direction = CW; + 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) { Q_UNUSED( keycode ); Q_UNUSED( modifiers ); Q_UNUSED( isPress ); Q_UNUSED( autoRepeat ); return false; } void Ramses::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); } bool Ramses::setSoftSuspend(bool soft) { - qDebug("Ramses::setSoftSuspend(%d)", soft); -#if 0 - 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 + Q_UNUSED(soft); + return true; +} - if (sources >= 0) { - if (soft) - sources &= ~APM_EVT_POWER_BUTTON; - else - sources |= APM_EVT_POWER_BUTTON; +bool Ramses::suspend() +{ + //qDebug("Ramses::suspend()"); + if ( !isQWS() ) // only qwsserver is allowed to suspend + return false; - if (::ioctl(fd, APM_IOCSEVTSRC, sources) >= 0) // set new event sources - res = true; - else - perror("APM_IOCGEVTSRC"); - } - else - perror("APM_IOCGEVTSRC"); + bool res = false; + int fd; + if ((fd = ::open("/proc/sys/pm/suspend", O_WRONLY)) >= 0) { + res = ( ::write ( fd, "1", 1 ) != -1 ); ::close(fd); } - else - perror("/dev/apm_bios or /dev/misc/apm_bios"); - - return res; -#else - return true; -#endif -} - -bool Ramses::suspend ( ) -{ - qDebug("Ramses::suspend"); - return false; + return res; } /** * This sets the display on or off */ bool Ramses::setDisplayStatus(bool on) { - qDebug("Ramses::setDisplayStatus(%d)", on); -#if 0 + //qDebug("Ramses::setDisplayStatus(%d)", on); bool res = false; int fd; - if ((fd = ::open ("/dev/fb/0", O_RDWR)) >= 0) { + if ((fd = ::open ("/dev/fb/1", O_RDWR)) >= 0) { res = (::ioctl(fd, FBIOBLANK, on ? VESA_NO_BLANKING : VESA_POWERDOWN) == 0); ::close(fd); } return res; -#else - return true; -#endif } /* * We get something between 0..255 into us */ bool Ramses::setDisplayBrightness(int bright) { - qDebug("Ramses::setDisplayBrightness(%d)", bright); + //qDebug("Ramses::setDisplayBrightness(%d)", bright); bool res = false; int fd; // pwm1 brighness: 20 steps 500..0 (dunkel->hell) if (bright > 255 ) bright = 255; if (bright < 0) bright = 0; // Turn backlight completely off if ((fd = ::open("/proc/sys/board/lcd_backlight", O_WRONLY)) >= 0) { char writeCommand[10]; const int count = sprintf(writeCommand, "%d\n", bright ? 1 : 0); res = (::write(fd, writeCommand, count) != -1); ::close(fd); } // scale backlight brightness to hardware - bright = 500-(bright * 500 / 255); - if ((fd = ::open("/proc/sys/board/pwm1", O_WRONLY)) >= 0) { - qDebug(" %d -> pwm1", bright); + if ((fd = ::open("/proc/sys/board/lcd_brightness", O_WRONLY)) >= 0) { + //qDebug(" %d -> pwm1", bright); char writeCommand[100]; const int count = sprintf(writeCommand, "%d\n", bright); res = (::write(fd, writeCommand, count) != -1); ::close(fd); } return res; } int Ramses::displayBrightnessResolution() const { - return 32; + return 256; } bool Ramses::setDisplayContrast(int contr) { - qDebug("Ramses::setDisplayContrast(%d)", contr); + //qDebug("Ramses::setDisplayContrast(%d)", contr); bool res = false; int fd; // pwm0 contrast: 20 steps 79..90 (dunkel->hell) if (contr > 255 ) contr = 255; if (contr < 0) contr = 0; - contr = 90 - (contr * 20 / 255); - if ((fd = ::open("/proc/sys/board/pwm0", O_WRONLY)) >= 0) { - qDebug(" %d -> pwm0", contr); + if ((fd = ::open("/proc/sys/board/lcd_contrast", O_WRONLY)) >= 0) { + //qDebug(" %d -> pwm0", contr); char writeCommand[100]; const int count = sprintf(writeCommand, "%d\n", contr); res = (::write(fd, writeCommand, count) != -1); res = true; ::close(fd); } return res; } int Ramses::displayContrastResolution() const { - return 20; + return 256; } |