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-rw-r--r--libopie/odevice.cpp17
1 files changed, 17 insertions, 0 deletions
diff --git a/libopie/odevice.cpp b/libopie/odevice.cpp
index 71ed9e4..9373ef9 100644
--- a/libopie/odevice.cpp
+++ b/libopie/odevice.cpp
@@ -1240,955 +1240,972 @@ QValueList <OLed> iPAQ::ledList ( ) const
1240QValueList <OLedState> iPAQ::ledStateList ( OLed l ) const 1240QValueList <OLedState> iPAQ::ledStateList ( OLed l ) const
1241{ 1241{
1242 QValueList <OLedState> vl; 1242 QValueList <OLedState> vl;
1243 1243
1244 if ( l == Led_Power ) 1244 if ( l == Led_Power )
1245 vl << Led_Off << Led_On << Led_BlinkSlow << Led_BlinkFast; 1245 vl << Led_Off << Led_On << Led_BlinkSlow << Led_BlinkFast;
1246 else if ( l == Led_BlueTooth && d-> m_model == Model_iPAQ_H38xx ) 1246 else if ( l == Led_BlueTooth && d-> m_model == Model_iPAQ_H38xx )
1247 vl << Led_Off; // << Led_On << ??? 1247 vl << Led_Off; // << Led_On << ???
1248 1248
1249 return vl; 1249 return vl;
1250} 1250}
1251 1251
1252OLedState iPAQ::ledState ( OLed l ) const 1252OLedState iPAQ::ledState ( OLed l ) const
1253{ 1253{
1254 switch ( l ) { 1254 switch ( l ) {
1255 case Led_Power: 1255 case Led_Power:
1256 return m_leds [0]; 1256 return m_leds [0];
1257 case Led_BlueTooth: 1257 case Led_BlueTooth:
1258 return m_leds [1]; 1258 return m_leds [1];
1259 default: 1259 default:
1260 return Led_Off; 1260 return Led_Off;
1261 } 1261 }
1262} 1262}
1263 1263
1264bool iPAQ::setLedState ( OLed l, OLedState st ) 1264bool iPAQ::setLedState ( OLed l, OLedState st )
1265{ 1265{
1266 static int fd = ::open ( "/dev/touchscreen/0", O_RDWR | O_NONBLOCK ); 1266 static int fd = ::open ( "/dev/touchscreen/0", O_RDWR | O_NONBLOCK );
1267 1267
1268 if ( l == Led_Power ) { 1268 if ( l == Led_Power ) {
1269 if ( fd >= 0 ) { 1269 if ( fd >= 0 ) {
1270 LED_IN leds; 1270 LED_IN leds;
1271 ::memset ( &leds, 0, sizeof( leds )); 1271 ::memset ( &leds, 0, sizeof( leds ));
1272 leds. TotalTime = 0; 1272 leds. TotalTime = 0;
1273 leds. OnTime = 0; 1273 leds. OnTime = 0;
1274 leds. OffTime = 1; 1274 leds. OffTime = 1;
1275 leds. OffOnBlink = 2; 1275 leds. OffOnBlink = 2;
1276 1276
1277 switch ( st ) { 1277 switch ( st ) {
1278 case Led_Off : leds. OffOnBlink = 0; break; 1278 case Led_Off : leds. OffOnBlink = 0; break;
1279 case Led_On : leds. OffOnBlink = 1; break; 1279 case Led_On : leds. OffOnBlink = 1; break;
1280 case Led_BlinkSlow: leds. OnTime = 10; leds. OffTime = 10; break; 1280 case Led_BlinkSlow: leds. OnTime = 10; leds. OffTime = 10; break;
1281 case Led_BlinkFast: leds. OnTime = 5; leds. OffTime = 5; break; 1281 case Led_BlinkFast: leds. OnTime = 5; leds. OffTime = 5; break;
1282 } 1282 }
1283 1283
1284 if ( ::ioctl ( fd, LED_ON, &leds ) >= 0 ) { 1284 if ( ::ioctl ( fd, LED_ON, &leds ) >= 0 ) {
1285 m_leds [0] = st; 1285 m_leds [0] = st;
1286 return true; 1286 return true;
1287 } 1287 }
1288 } 1288 }
1289 } 1289 }
1290 return false; 1290 return false;
1291} 1291}
1292 1292
1293 1293
1294bool iPAQ::filter ( int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat ) 1294bool iPAQ::filter ( int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat )
1295{ 1295{
1296 int newkeycode = keycode; 1296 int newkeycode = keycode;
1297 1297
1298 switch ( keycode ) { 1298 switch ( keycode ) {
1299 // H38xx/H39xx have no "Q" key anymore - this is now the Mail key 1299 // H38xx/H39xx have no "Q" key anymore - this is now the Mail key
1300 case HardKey_Menu: { 1300 case HardKey_Menu: {
1301 if (( d-> m_model == Model_iPAQ_H38xx ) || 1301 if (( d-> m_model == Model_iPAQ_H38xx ) ||
1302 ( d-> m_model == Model_iPAQ_H39xx ) || 1302 ( d-> m_model == Model_iPAQ_H39xx ) ||
1303 ( d-> m_model == Model_iPAQ_H5xxx)) { 1303 ( d-> m_model == Model_iPAQ_H5xxx)) {
1304 newkeycode = HardKey_Mail; 1304 newkeycode = HardKey_Mail;
1305 } 1305 }
1306 break; 1306 break;
1307 } 1307 }
1308 1308
1309 // Rotate cursor keys 180° 1309 // Rotate cursor keys 180°
1310 case Key_Left : 1310 case Key_Left :
1311 case Key_Right: 1311 case Key_Right:
1312 case Key_Up : 1312 case Key_Up :
1313 case Key_Down : { 1313 case Key_Down : {
1314 if (( d-> m_model == Model_iPAQ_H31xx ) || 1314 if (( d-> m_model == Model_iPAQ_H31xx ) ||
1315 ( d-> m_model == Model_iPAQ_H38xx )) { 1315 ( d-> m_model == Model_iPAQ_H38xx )) {
1316 newkeycode = Key_Left + ( keycode - Key_Left + 2 ) % 4; 1316 newkeycode = Key_Left + ( keycode - Key_Left + 2 ) % 4;
1317 } 1317 }
1318 break; 1318 break;
1319 } 1319 }
1320 1320
1321 // map Power Button short/long press to F34/F35 1321 // map Power Button short/long press to F34/F35
1322 case Key_SysReq: { 1322 case Key_SysReq: {
1323 if ( isPress ) { 1323 if ( isPress ) {
1324 if ( m_power_timer ) 1324 if ( m_power_timer )
1325 killTimer ( m_power_timer ); 1325 killTimer ( m_power_timer );
1326 m_power_timer = startTimer ( 500 ); 1326 m_power_timer = startTimer ( 500 );
1327 } 1327 }
1328 else if ( m_power_timer ) { 1328 else if ( m_power_timer ) {
1329 killTimer ( m_power_timer ); 1329 killTimer ( m_power_timer );
1330 m_power_timer = 0; 1330 m_power_timer = 0;
1331 QWSServer::sendKeyEvent ( -1, HardKey_Suspend, 0, true, false ); 1331 QWSServer::sendKeyEvent ( -1, HardKey_Suspend, 0, true, false );
1332 QWSServer::sendKeyEvent ( -1, HardKey_Suspend, 0, false, false ); 1332 QWSServer::sendKeyEvent ( -1, HardKey_Suspend, 0, false, false );
1333 } 1333 }
1334 newkeycode = Key_unknown; 1334 newkeycode = Key_unknown;
1335 break; 1335 break;
1336 } 1336 }
1337 } 1337 }
1338 1338
1339 if ( newkeycode != keycode ) { 1339 if ( newkeycode != keycode ) {
1340 if ( newkeycode != Key_unknown ) 1340 if ( newkeycode != Key_unknown )
1341 QWSServer::sendKeyEvent ( -1, newkeycode, modifiers, isPress, autoRepeat ); 1341 QWSServer::sendKeyEvent ( -1, newkeycode, modifiers, isPress, autoRepeat );
1342 return true; 1342 return true;
1343 } 1343 }
1344 else 1344 else
1345 return false; 1345 return false;
1346} 1346}
1347 1347
1348void iPAQ::timerEvent ( QTimerEvent * ) 1348void iPAQ::timerEvent ( QTimerEvent * )
1349{ 1349{
1350 killTimer ( m_power_timer ); 1350 killTimer ( m_power_timer );
1351 m_power_timer = 0; 1351 m_power_timer = 0;
1352 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false ); 1352 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false );
1353 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false ); 1353 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false );
1354} 1354}
1355 1355
1356 1356
1357void iPAQ::alarmSound ( ) 1357void iPAQ::alarmSound ( )
1358{ 1358{
1359#ifndef QT_NO_SOUND 1359#ifndef QT_NO_SOUND
1360 static Sound snd ( "alarm" ); 1360 static Sound snd ( "alarm" );
1361 int fd; 1361 int fd;
1362 int vol; 1362 int vol;
1363 bool vol_reset = false; 1363 bool vol_reset = false;
1364 1364
1365 if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) { 1365 if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) {
1366 if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) { 1366 if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) {
1367 Config cfg ( "qpe" ); 1367 Config cfg ( "qpe" );
1368 cfg. setGroup ( "Volume" ); 1368 cfg. setGroup ( "Volume" );
1369 1369
1370 int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 ); 1370 int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 );
1371 if ( volalarm < 0 ) 1371 if ( volalarm < 0 )
1372 volalarm = 0; 1372 volalarm = 0;
1373 else if ( volalarm > 100 ) 1373 else if ( volalarm > 100 )
1374 volalarm = 100; 1374 volalarm = 100;
1375 volalarm |= ( volalarm << 8 ); 1375 volalarm |= ( volalarm << 8 );
1376 1376
1377 if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 ) 1377 if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 )
1378 vol_reset = true; 1378 vol_reset = true;
1379 } 1379 }
1380 } 1380 }
1381 1381
1382 snd. play ( ); 1382 snd. play ( );
1383 while ( !snd. isFinished ( )) 1383 while ( !snd. isFinished ( ))
1384 qApp-> processEvents ( ); 1384 qApp-> processEvents ( );
1385 1385
1386 if ( fd >= 0 ) { 1386 if ( fd >= 0 ) {
1387 if ( vol_reset ) 1387 if ( vol_reset )
1388 ::ioctl ( fd, MIXER_WRITE( 0 ), &vol ); 1388 ::ioctl ( fd, MIXER_WRITE( 0 ), &vol );
1389 ::close ( fd ); 1389 ::close ( fd );
1390 } 1390 }
1391#endif 1391#endif
1392} 1392}
1393 1393
1394 1394
1395bool iPAQ::setSoftSuspend ( bool soft ) 1395bool iPAQ::setSoftSuspend ( bool soft )
1396{ 1396{
1397 bool res = false; 1397 bool res = false;
1398 int fd; 1398 int fd;
1399 1399
1400 if (( fd = ::open ( "/proc/sys/ts/suspend_button_mode", O_WRONLY )) >= 0 ) { 1400 if (( fd = ::open ( "/proc/sys/ts/suspend_button_mode", O_WRONLY )) >= 0 ) {
1401 if ( ::write ( fd, soft ? "1" : "0", 1 ) == 1 ) 1401 if ( ::write ( fd, soft ? "1" : "0", 1 ) == 1 )
1402 res = true; 1402 res = true;
1403 else 1403 else
1404 ::perror ( "write to /proc/sys/ts/suspend_button_mode" ); 1404 ::perror ( "write to /proc/sys/ts/suspend_button_mode" );
1405 1405
1406 ::close ( fd ); 1406 ::close ( fd );
1407 } 1407 }
1408 else 1408 else
1409 ::perror ( "/proc/sys/ts/suspend_button_mode" ); 1409 ::perror ( "/proc/sys/ts/suspend_button_mode" );
1410 1410
1411 return res; 1411 return res;
1412} 1412}
1413 1413
1414 1414
1415bool iPAQ::setDisplayBrightness ( int bright ) 1415bool iPAQ::setDisplayBrightness ( int bright )
1416{ 1416{
1417 bool res = false; 1417 bool res = false;
1418 int fd; 1418 int fd;
1419 1419
1420 if ( bright > 255 ) 1420 if ( bright > 255 )
1421 bright = 255; 1421 bright = 255;
1422 if ( bright < 0 ) 1422 if ( bright < 0 )
1423 bright = 0; 1423 bright = 0;
1424 1424
1425 if (( fd = ::open ( "/dev/touchscreen/0", O_WRONLY )) >= 0 ) { 1425 if (( fd = ::open ( "/dev/touchscreen/0", O_WRONLY )) >= 0 ) {
1426 FLITE_IN bl; 1426 FLITE_IN bl;
1427 bl. mode = 1; 1427 bl. mode = 1;
1428 bl. pwr = bright ? 1 : 0; 1428 bl. pwr = bright ? 1 : 0;
1429 bl. brightness = ( bright * ( displayBrightnessResolution ( ) - 1 ) + 127 ) / 255; 1429 bl. brightness = ( bright * ( displayBrightnessResolution ( ) - 1 ) + 127 ) / 255;
1430 res = ( ::ioctl ( fd, FLITE_ON, &bl ) == 0 ); 1430 res = ( ::ioctl ( fd, FLITE_ON, &bl ) == 0 );
1431 ::close ( fd ); 1431 ::close ( fd );
1432 } 1432 }
1433 return res; 1433 return res;
1434} 1434}
1435 1435
1436int iPAQ::displayBrightnessResolution ( ) const 1436int iPAQ::displayBrightnessResolution ( ) const
1437{ 1437{
1438 switch ( model ( )) { 1438 switch ( model ( )) {
1439 case Model_iPAQ_H31xx: 1439 case Model_iPAQ_H31xx:
1440 case Model_iPAQ_H36xx: 1440 case Model_iPAQ_H36xx:
1441 case Model_iPAQ_H37xx: 1441 case Model_iPAQ_H37xx:
1442 return 128; // really 256, but >128 could damage the LCD 1442 return 128; // really 256, but >128 could damage the LCD
1443 1443
1444 case Model_iPAQ_H38xx: 1444 case Model_iPAQ_H38xx:
1445 case Model_iPAQ_H39xx: 1445 case Model_iPAQ_H39xx:
1446 return 64; 1446 return 64;
1447 case Model_iPAQ_H5xxx: 1447 case Model_iPAQ_H5xxx:
1448 return 255; 1448 return 255;
1449 1449
1450 default: 1450 default:
1451 return 2; 1451 return 2;
1452 } 1452 }
1453} 1453}
1454 1454
1455 1455
1456bool iPAQ::hasLightSensor ( ) const 1456bool iPAQ::hasLightSensor ( ) const
1457{ 1457{
1458 return true; 1458 return true;
1459} 1459}
1460 1460
1461int iPAQ::readLightSensor ( ) 1461int iPAQ::readLightSensor ( )
1462{ 1462{
1463 int fd; 1463 int fd;
1464 int val = -1; 1464 int val = -1;
1465 1465
1466 if (( fd = ::open ( "/proc/hal/light_sensor", O_RDONLY )) >= 0 ) { 1466 if (( fd = ::open ( "/proc/hal/light_sensor", O_RDONLY )) >= 0 ) {
1467 char buffer [8]; 1467 char buffer [8];
1468 1468
1469 if ( ::read ( fd, buffer, 5 ) == 5 ) { 1469 if ( ::read ( fd, buffer, 5 ) == 5 ) {
1470 char *endptr; 1470 char *endptr;
1471 1471
1472 buffer [4] = 0; 1472 buffer [4] = 0;
1473 val = ::strtol ( buffer + 2, &endptr, 16 ); 1473 val = ::strtol ( buffer + 2, &endptr, 16 );
1474 1474
1475 if ( *endptr != 0 ) 1475 if ( *endptr != 0 )
1476 val = -1; 1476 val = -1;
1477 } 1477 }
1478 ::close ( fd ); 1478 ::close ( fd );
1479 } 1479 }
1480 1480
1481 return val; 1481 return val;
1482} 1482}
1483 1483
1484int iPAQ::lightSensorResolution ( ) const 1484int iPAQ::lightSensorResolution ( ) const
1485{ 1485{
1486 return 256; 1486 return 256;
1487} 1487}
1488 1488
1489/************************************************** 1489/**************************************************
1490 * 1490 *
1491 * Zaurus 1491 * Zaurus
1492 * 1492 *
1493 **************************************************/ 1493 **************************************************/
1494 1494
1495// Check whether this device is the sharp zaurus.. 1495// Check whether this device is the sharp zaurus..
1496// FIXME This gets unnecessary complicated. We should think about splitting the Zaurus
1497// class up into individual classes. We need three classes
1498//
1499// Zaurus-Collie (SA-model w/ 320x240 lcd, for SL5500 and SL5000)
1500// Zaurus-Poodle (PXA-model w/ 320x240 lcd, for SL5600)
1501// Zaurus-Corgi (PXA-model w/ 640x480 lcd, for C700, C750, C760, and C860)
1502//
1503// Only question right now is: Do we really need to do it? Because as soon
1504// as the OpenZaurus kernel is ready, there will be a unified interface for all
1505// Zaurus models (concerning apm, backlight, buttons, etc.)
1506//
1507// Comments? - mickeyl.
1508
1496bool Zaurus::isZaurus() 1509bool Zaurus::isZaurus()
1497{ 1510{
1498 1511
1499 // If the special devices by embedix exist, it is quite simple: it is a Zaurus ! 1512 // If the special devices by embedix exist, it is quite simple: it is a Zaurus !
1500 if ( QFile::exists ( "/dev/sharp_buz" ) || QFile::exists ( "/dev/sharp_led" ) ){ 1513 if ( QFile::exists ( "/dev/sharp_buz" ) || QFile::exists ( "/dev/sharp_led" ) ){
1501 return true; 1514 return true;
1502 } 1515 }
1503 1516
1504 // On non-embedix kernels, we have to look closer. 1517 // On non-embedix kernels, we have to look closer.
1505 bool is_zaurus = false; 1518 bool is_zaurus = false;
1506 QFile f ( "/proc/cpuinfo" ); 1519 QFile f ( "/proc/cpuinfo" );
1507 if ( f. open ( IO_ReadOnly ) ) { 1520 if ( f. open ( IO_ReadOnly ) ) {
1508 QString model; 1521 QString model;
1509 QFile f ( "/proc/cpuinfo" ); 1522 QFile f ( "/proc/cpuinfo" );
1510 1523
1511 QTextStream ts ( &f ); 1524 QTextStream ts ( &f );
1512 QString line; 1525 QString line;
1513 while( line = ts. readLine ( ) ) { 1526 while( line = ts. readLine ( ) ) {
1514 if ( line. left ( 8 ) == "Hardware" ) 1527 if ( line. left ( 8 ) == "Hardware" )
1515 break; 1528 break;
1516 } 1529 }
1517 int loc = line. find ( ":" ); 1530 int loc = line. find ( ":" );
1518 if ( loc != -1 ) 1531 if ( loc != -1 )
1519 model = line. mid ( loc + 2 ). simplifyWhiteSpace( ); 1532 model = line. mid ( loc + 2 ). simplifyWhiteSpace( );
1520 1533
1521 if ( model == "Sharp-Collie" 1534 if ( model == "Sharp-Collie"
1522 || model == "Collie" 1535 || model == "Collie"
1523 || model == "SHARP Corgi" 1536 || model == "SHARP Corgi"
1524 || model == "SHARP Shepherd" 1537 || model == "SHARP Shepherd"
1525 || model == "SHARP Poodle" 1538 || model == "SHARP Poodle"
1526 || model == "SHARP Husky" 1539 || model == "SHARP Husky"
1527 ) 1540 )
1528 is_zaurus = true; 1541 is_zaurus = true;
1529 1542
1530 } 1543 }
1531 return is_zaurus; 1544 return is_zaurus;
1532} 1545}
1533 1546
1534 1547
1535void Zaurus::init ( ) 1548void Zaurus::init ( )
1536{ 1549{
1537 d-> m_vendorstr = "Sharp"; 1550 d-> m_vendorstr = "Sharp";
1538 d-> m_vendor = Vendor_Sharp; 1551 d-> m_vendor = Vendor_Sharp;
1539 m_embedix = true; // Not openzaurus means: It has an embedix kernel ! 1552 m_embedix = true; // Not openzaurus means: It has an embedix kernel !
1540 1553
1541 // QFile f ( "/proc/filesystems" ); 1554 // QFile f ( "/proc/filesystems" );
1542 QString model; 1555 QString model;
1543 1556
1544 // It isn't a good idea to check the system configuration to 1557 // It isn't a good idea to check the system configuration to
1545 // detect the distribution ! 1558 // detect the distribution !
1546 // Otherwise it may happen that any other distribution is detected as openzaurus, just 1559 // Otherwise it may happen that any other distribution is detected as openzaurus, just
1547 // because it uses a jffs2 filesystem.. 1560 // because it uses a jffs2 filesystem..
1548 // (eilers) 1561 // (eilers)
1549 // if ( f. open ( IO_ReadOnly ) && ( QTextStream ( &f ). read ( ). find ( "\tjffs2\n" ) >= 0 )) { 1562 // if ( f. open ( IO_ReadOnly ) && ( QTextStream ( &f ). read ( ). find ( "\tjffs2\n" ) >= 0 )) {
1550 QFile f ("/etc/oz_version"); 1563 QFile f ("/etc/oz_version");
1551 if ( f.exists() ){ 1564 if ( f.exists() ){
1552 d-> m_vendorstr = "OpenZaurus Team"; 1565 d-> m_vendorstr = "OpenZaurus Team";
1553 d-> m_systemstr = "OpenZaurus"; 1566 d-> m_systemstr = "OpenZaurus";
1554 d-> m_system = System_OpenZaurus; 1567 d-> m_system = System_OpenZaurus;
1555 1568
1556 if ( f. open ( IO_ReadOnly )) { 1569 if ( f. open ( IO_ReadOnly )) {
1557 QTextStream ts ( &f ); 1570 QTextStream ts ( &f );
1558 d-> m_sysverstr = ts. readLine ( );//. mid ( 10 ); 1571 d-> m_sysverstr = ts. readLine ( );//. mid ( 10 );
1559 f. close ( ); 1572 f. close ( );
1560 } 1573 }
1561 1574
1562 // Openzaurus sometimes uses the embedix kernel! 1575 // Openzaurus sometimes uses the embedix kernel!
1563 // => Check whether this is an embedix kernel 1576 // => Check whether this is an embedix kernel
1564 FILE *uname = popen("uname -r", "r"); 1577 FILE *uname = popen("uname -r", "r");
1565 QString line; 1578 QString line;
1566 if ( f.open(IO_ReadOnly, uname) ) { 1579 if ( f.open(IO_ReadOnly, uname) ) {
1567 QTextStream ts ( &f ); 1580 QTextStream ts ( &f );
1568 line = ts. readLine ( ); 1581 line = ts. readLine ( );
1569 int loc = line. find ( "embedix" ); 1582 int loc = line. find ( "embedix" );
1570 if ( loc != -1 ) 1583 if ( loc != -1 )
1571 m_embedix = true; 1584 m_embedix = true;
1572 else 1585 else
1573 m_embedix = false; 1586 m_embedix = false;
1574 f. close ( ); 1587 f. close ( );
1575 } 1588 }
1576 pclose(uname); 1589 pclose(uname);
1577 } 1590 }
1578 else { 1591 else {
1579 d-> m_systemstr = "Zaurus"; 1592 d-> m_systemstr = "Zaurus";
1580 d-> m_system = System_Zaurus; 1593 d-> m_system = System_Zaurus;
1581 } 1594 }
1582 1595
1583 f. setName ( "/proc/cpuinfo" ); 1596 f. setName ( "/proc/cpuinfo" );
1584 if ( f. open ( IO_ReadOnly ) ) { 1597 if ( f. open ( IO_ReadOnly ) ) {
1585 QTextStream ts ( &f ); 1598 QTextStream ts ( &f );
1586 QString line; 1599 QString line;
1587 while( line = ts. readLine ( ) ) { 1600 while( line = ts. readLine ( ) ) {
1588 if ( line. left ( 8 ) == "Hardware" ) 1601 if ( line. left ( 8 ) == "Hardware" )
1589 break; 1602 break;
1590 } 1603 }
1591 int loc = line. find ( ":" ); 1604 int loc = line. find ( ":" );
1592 if ( loc != -1 ) 1605 if ( loc != -1 )
1593 model = line. mid ( loc + 2 ). simplifyWhiteSpace( ); 1606 model = line. mid ( loc + 2 ). simplifyWhiteSpace( );
1594 } 1607 }
1595 1608
1596 if ( model == "SHARP Corgi" ) { 1609 if ( model == "SHARP Corgi" ) {
1597 d-> m_model = Model_Zaurus_SLC7x0; 1610 d-> m_model = Model_Zaurus_SLC7x0;
1598 d-> m_modelstr = "Zaurus SL-C700"; 1611 d-> m_modelstr = "Zaurus SL-C700";
1599 } else if ( model == "SHARP Shepherd" ) { 1612 } else if ( model == "SHARP Shepherd" ) {
1600 d-> m_model = Model_Zaurus_SLC7x0; 1613 d-> m_model = Model_Zaurus_SLC7x0;
1601 d-> m_modelstr = "Zaurus SL-C750"; 1614 d-> m_modelstr = "Zaurus SL-C750";
1602 } else if ( model == "SHARP Husky" ) { 1615 } else if ( model == "SHARP Husky" ) {
1603 d-> m_model = Model_Zaurus_SLC7x0; 1616 d-> m_model = Model_Zaurus_SLC7x0;
1604 d-> m_modelstr = "Zaurus SL-C760"; 1617 d-> m_modelstr = "Zaurus SL-C760";
1605 } else if ( model == "SHARP Poodle" ) { 1618 } else if ( model == "SHARP Poodle" ) {
1606 d-> m_model = Model_Zaurus_SLB600; 1619 d-> m_model = Model_Zaurus_SLB600;
1607 d-> m_modelstr = "Zaurus SL-B500 or SL-5600"; 1620 d-> m_modelstr = "Zaurus SL-B500 or SL-5600";
1608 } else if ( model == "Sharp-Collie" || model == "Collie" ) { 1621 } else if ( model == "Sharp-Collie" || model == "Collie" ) {
1609 d-> m_model = Model_Zaurus_SL5500; 1622 d-> m_model = Model_Zaurus_SL5500;
1610 d-> m_modelstr = "Zaurus SL-5500 or SL-5000d"; 1623 d-> m_modelstr = "Zaurus SL-5500 or SL-5000d";
1611 } else { 1624 } else {
1612 d-> m_model = Model_Zaurus_SL5500; 1625 d-> m_model = Model_Zaurus_SL5500;
1613 d-> m_modelstr = "Zaurus (Model unknown)"; 1626 d-> m_modelstr = "Zaurus (Model unknown)";
1614 } 1627 }
1615 1628
1616 bool flipstate = false; 1629 bool flipstate = false;
1617 switch ( d-> m_model ) { 1630 switch ( d-> m_model ) {
1618 case Model_Zaurus_SLA300: 1631 case Model_Zaurus_SLA300:
1619 d-> m_rotation = Rot0; 1632 d-> m_rotation = Rot0;
1620 break; 1633 break;
1621 case Model_Zaurus_SLC7x0: 1634 case Model_Zaurus_SLC7x0:
1622 // Note: need to 1) set flipstate based on physical screen orientation 1635 // Note: need to 1) set flipstate based on physical screen orientation
1623 // and 2) check to see if the user overrode the rotation direction 1636 // and 2) check to see if the user overrode the rotation direction
1624 // using appearance, and if so, remove that item from the Config to 1637 // using appearance, and if so, remove that item from the Config to
1625 // ensure the rotate applet flips us back to the previous state. 1638 // ensure the rotate applet flips us back to the previous state.
1639 // treke said he has patches for detecting the phys. so where are they, treke? -mickeyl.
1626 if ( flipstate ) { 1640 if ( flipstate ) {
1627 // 480x640 1641 // 480x640
1628 d-> m_rotation = Rot0; 1642 d-> m_rotation = Rot0;
1629 d-> m_direction = CW; 1643 d-> m_direction = CW;
1630 } else { 1644 } else {
1631 // 640x480 1645 // 640x480
1632 d-> m_rotation = Rot270; 1646 d-> m_rotation = Rot270;
1633 d-> m_direction = CCW; 1647 d-> m_direction = CCW;
1634 } 1648 }
1635 break; 1649 break;
1636 case Model_Zaurus_SLB600: 1650 case Model_Zaurus_SLB600:
1637 case Model_Zaurus_SL5500: 1651 case Model_Zaurus_SL5500:
1638 case Model_Zaurus_SL5000: 1652 case Model_Zaurus_SL5000:
1639 default: 1653 default:
1640 d-> m_rotation = Rot270; 1654 d-> m_rotation = Rot270;
1641 break; 1655 break;
1642 } 1656 }
1643 m_leds [0] = Led_Off; 1657 m_leds [0] = Led_Off;
1644} 1658}
1645 1659
1646void Zaurus::initButtons ( ) 1660void Zaurus::initButtons ( )
1647{ 1661{
1648 if ( d-> m_buttons ) 1662 if ( d-> m_buttons )
1649 return; 1663 return;
1650 1664
1651 d-> m_buttons = new QValueList <ODeviceButton>; 1665 d-> m_buttons = new QValueList <ODeviceButton>;
1652 1666
1653 struct z_button * pz_buttons; 1667 struct z_button * pz_buttons;
1654 int buttoncount; 1668 int buttoncount;
1655 switch ( d-> m_model ) { 1669 switch ( d-> m_model ) {
1656 case Model_Zaurus_SLC7x0: 1670 case Model_Zaurus_SLC7x0:
1657 pz_buttons = z_buttons_c700; 1671 pz_buttons = z_buttons_c700;
1658 buttoncount = ARRAY_SIZE(z_buttons_c700); 1672 buttoncount = ARRAY_SIZE(z_buttons_c700);
1659 break; 1673 break;
1660 default: 1674 default:
1661 pz_buttons = z_buttons; 1675 pz_buttons = z_buttons;
1662 buttoncount = ARRAY_SIZE(z_buttons); 1676 buttoncount = ARRAY_SIZE(z_buttons);
1663 break; 1677 break;
1664 } 1678 }
1665 1679
1666 for ( int i = 0; i < buttoncount; i++ ) { 1680 for ( int i = 0; i < buttoncount; i++ ) {
1667 struct z_button *zb = pz_buttons + i; 1681 struct z_button *zb = pz_buttons + i;
1668 ODeviceButton b; 1682 ODeviceButton b;
1669 1683
1670 b. setKeycode ( zb-> code ); 1684 b. setKeycode ( zb-> code );
1671 b. setUserText ( QObject::tr ( "Button", zb-> utext )); 1685 b. setUserText ( QObject::tr ( "Button", zb-> utext ));
1672 b. setPixmap ( Resource::loadPixmap ( zb-> pix )); 1686 b. setPixmap ( Resource::loadPixmap ( zb-> pix ));
1673 b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( zb-> fpressedservice ), 1687 b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( zb-> fpressedservice ),
1674 zb-> fpressedaction )); 1688 zb-> fpressedaction ));
1675 b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( zb-> fheldservice ), 1689 b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( zb-> fheldservice ),
1676 zb-> fheldaction )); 1690 zb-> fheldaction ));
1677 1691
1678 d-> m_buttons-> append ( b ); 1692 d-> m_buttons-> append ( b );
1679 } 1693 }
1680 1694
1681 reloadButtonMapping ( ); 1695 reloadButtonMapping ( );
1682 1696
1683 QCopChannel *sysch = new QCopChannel ( "QPE/System", this ); 1697 QCopChannel *sysch = new QCopChannel ( "QPE/System", this );
1684 connect ( sysch, SIGNAL( received( const QCString &, const QByteArray & )), 1698 connect ( sysch, SIGNAL( received( const QCString &, const QByteArray & )),
1685 this, SLOT( systemMessage ( const QCString &, const QByteArray & ))); 1699 this, SLOT( systemMessage ( const QCString &, const QByteArray & )));
1686} 1700}
1687 1701
1688#include <unistd.h> 1702#include <unistd.h>
1689#include <fcntl.h> 1703#include <fcntl.h>
1690#include <sys/ioctl.h> 1704#include <sys/ioctl.h>
1691 1705
1692//#include <asm/sharp_char.h> // including kernel headers is evil ... 1706//#include <asm/sharp_char.h> // including kernel headers is evil ...
1693 1707
1694#define SHARP_DEV_IOCTL_COMMAND_START 0x5680 1708#define SHARP_DEV_IOCTL_COMMAND_START 0x5680
1695 1709
1696 #defineSHARP_BUZZER_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START) 1710 #defineSHARP_BUZZER_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START)
1697#define SHARP_BUZZER_MAKESOUND (SHARP_BUZZER_IOCTL_START) 1711#define SHARP_BUZZER_MAKESOUND (SHARP_BUZZER_IOCTL_START)
1698 1712
1699#define SHARP_BUZ_TOUCHSOUND 1 /* touch panel sound */ 1713#define SHARP_BUZ_TOUCHSOUND 1 /* touch panel sound */
1700#define SHARP_BUZ_KEYSOUND 2 /* key sound */ 1714#define SHARP_BUZ_KEYSOUND 2 /* key sound */
1701#define SHARP_BUZ_SCHEDULE_ALARM 11 /* schedule alarm */ 1715#define SHARP_BUZ_SCHEDULE_ALARM 11 /* schedule alarm */
1702 1716
1703/* --- for SHARP_BUZZER device --- */ 1717/* --- for SHARP_BUZZER device --- */
1704 1718
1705 //#defineSHARP_BUZZER_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START) 1719 //#defineSHARP_BUZZER_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START)
1706//#define SHARP_BUZZER_MAKESOUND (SHARP_BUZZER_IOCTL_START) 1720//#define SHARP_BUZZER_MAKESOUND (SHARP_BUZZER_IOCTL_START)
1707 1721
1708#define SHARP_BUZZER_SETVOLUME (SHARP_BUZZER_IOCTL_START+1) 1722#define SHARP_BUZZER_SETVOLUME (SHARP_BUZZER_IOCTL_START+1)
1709#define SHARP_BUZZER_GETVOLUME (SHARP_BUZZER_IOCTL_START+2) 1723#define SHARP_BUZZER_GETVOLUME (SHARP_BUZZER_IOCTL_START+2)
1710#define SHARP_BUZZER_ISSUPPORTED (SHARP_BUZZER_IOCTL_START+3) 1724#define SHARP_BUZZER_ISSUPPORTED (SHARP_BUZZER_IOCTL_START+3)
1711#define SHARP_BUZZER_SETMUTE (SHARP_BUZZER_IOCTL_START+4) 1725#define SHARP_BUZZER_SETMUTE (SHARP_BUZZER_IOCTL_START+4)
1712#define SHARP_BUZZER_STOPSOUND (SHARP_BUZZER_IOCTL_START+5) 1726#define SHARP_BUZZER_STOPSOUND (SHARP_BUZZER_IOCTL_START+5)
1713 1727
1714//#define SHARP_BUZ_TOUCHSOUND 1 /* touch panel sound */ 1728//#define SHARP_BUZ_TOUCHSOUND 1 /* touch panel sound */
1715//#define SHARP_BUZ_KEYSOUND 2 /* key sound */ 1729//#define SHARP_BUZ_KEYSOUND 2 /* key sound */
1716 1730
1717//#define SHARP_PDA_ILLCLICKSOUND 3 /* illegal click */ 1731//#define SHARP_PDA_ILLCLICKSOUND 3 /* illegal click */
1718//#define SHARP_PDA_WARNSOUND 4 /* warning occurred */ 1732//#define SHARP_PDA_WARNSOUND 4 /* warning occurred */
1719//#define SHARP_PDA_ERRORSOUND 5 /* error occurred */ 1733//#define SHARP_PDA_ERRORSOUND 5 /* error occurred */
1720//#define SHARP_PDA_CRITICALSOUND 6 /* critical error occurred */ 1734//#define SHARP_PDA_CRITICALSOUND 6 /* critical error occurred */
1721//#define SHARP_PDA_SYSSTARTSOUND 7 /* system start */ 1735//#define SHARP_PDA_SYSSTARTSOUND 7 /* system start */
1722//#define SHARP_PDA_SYSTEMENDSOUND 8 /* system shutdown */ 1736//#define SHARP_PDA_SYSTEMENDSOUND 8 /* system shutdown */
1723//#define SHARP_PDA_APPSTART 9 /* application start */ 1737//#define SHARP_PDA_APPSTART 9 /* application start */
1724//#define SHARP_PDA_APPQUIT 10 /* application ends */ 1738//#define SHARP_PDA_APPQUIT 10 /* application ends */
1725 1739
1726//#define SHARP_BUZ_SCHEDULE_ALARM 11 /* schedule alarm */ 1740//#define SHARP_BUZ_SCHEDULE_ALARM 11 /* schedule alarm */
1727//#define SHARP_BUZ_DAILY_ALARM 12 /* daily alarm */ 1741//#define SHARP_BUZ_DAILY_ALARM 12 /* daily alarm */
1728//#define SHARP_BUZ_GOT_PHONE_CALL 13 /* phone call sound */ 1742//#define SHARP_BUZ_GOT_PHONE_CALL 13 /* phone call sound */
1729//#define SHARP_BUZ_GOT_MAIL 14 /* mail sound */ 1743//#define SHARP_BUZ_GOT_MAIL 14 /* mail sound */
1730// 1744//
1731 1745
1732 #defineSHARP_LED_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START) 1746 #defineSHARP_LED_IOCTL_START (SHARP_DEV_IOCTL_COMMAND_START)
1733#define SHARP_LED_SETSTATUS (SHARP_LED_IOCTL_START+1) 1747#define SHARP_LED_SETSTATUS (SHARP_LED_IOCTL_START+1)
1734 1748
1735typedef struct sharp_led_status { 1749typedef struct sharp_led_status {
1736 int which; /* select which LED status is wanted. */ 1750 int which; /* select which LED status is wanted. */
1737 int status; /* set new led status if you call SHARP_LED_SETSTATUS */ 1751 int status; /* set new led status if you call SHARP_LED_SETSTATUS */
1738} sharp_led_status; 1752} sharp_led_status;
1739 1753
1740#define SHARP_LED_MAIL_EXISTS 9 /* mail status (exists or not) */ 1754#define SHARP_LED_MAIL_EXISTS 9 /* mail status (exists or not) */
1741 1755
1742#define LED_MAIL_NO_UNREAD_MAIL 0 /* for SHARP_LED_MAIL_EXISTS */ 1756#define LED_MAIL_NO_UNREAD_MAIL 0 /* for SHARP_LED_MAIL_EXISTS */
1743#define LED_MAIL_NEWMAIL_EXISTS 1 /* for SHARP_LED_MAIL_EXISTS */ 1757#define LED_MAIL_NEWMAIL_EXISTS 1 /* for SHARP_LED_MAIL_EXISTS */
1744#define LED_MAIL_UNREAD_MAIL_EX 2 /* for SHARP_LED_MAIL_EXISTS */ 1758#define LED_MAIL_UNREAD_MAIL_EX 2 /* for SHARP_LED_MAIL_EXISTS */
1745 1759
1746// #include <asm/sharp_apm.h> // including kernel headers is evil ... 1760// #include <asm/sharp_apm.h> // including kernel headers is evil ...
1747 1761
1748#define APM_IOCGEVTSRC OD_IOR( 'A', 203, int ) 1762#define APM_IOCGEVTSRC OD_IOR( 'A', 203, int )
1749#define APM_IOCSEVTSRC OD_IORW( 'A', 204, int ) 1763#define APM_IOCSEVTSRC OD_IORW( 'A', 204, int )
1750#define APM_EVT_POWER_BUTTON (1 << 0) 1764#define APM_EVT_POWER_BUTTON (1 << 0)
1751 1765
1752#define FL_IOCTL_STEP_CONTRAST 100 1766#define FL_IOCTL_STEP_CONTRAST 100
1753 1767
1754 1768
1755void Zaurus::buzzer ( int sound ) 1769void Zaurus::buzzer ( int sound )
1756{ 1770{
1757#ifndef QT_NO_SOUND 1771#ifndef QT_NO_SOUND
1758 QString soundname; 1772 QString soundname;
1759 1773
1760 // Not all devices have real sound 1774 // Not all devices have real sound
1761 if ( d->m_model == Model_Zaurus_SLC7x0 1775 if ( d->m_model == Model_Zaurus_SLC7x0
1762 || d->m_model == Model_Zaurus_SLB600 ){ 1776 || d->m_model == Model_Zaurus_SLB600 ){
1763 1777
1764 switch ( sound ){ 1778 switch ( sound ){
1765 case SHARP_BUZ_SCHEDULE_ALARM: 1779 case SHARP_BUZ_SCHEDULE_ALARM:
1766 soundname = "alarm"; 1780 soundname = "alarm";
1767 break; 1781 break;
1768 case SHARP_BUZ_TOUCHSOUND: 1782 case SHARP_BUZ_TOUCHSOUND:
1769 soundname = "touchsound"; 1783 soundname = "touchsound";
1770 break; 1784 break;
1771 case SHARP_BUZ_KEYSOUND: 1785 case SHARP_BUZ_KEYSOUND:
1772 soundname = "keysound"; 1786 soundname = "keysound";
1773 break; 1787 break;
1774 default: 1788 default:
1775 soundname = "alarm"; 1789 soundname = "alarm";
1776 1790
1777 } 1791 }
1778 } 1792 }
1779 1793
1780 // If a soundname is defined, we expect that this device has 1794 // If a soundname is defined, we expect that this device has
1781 // sound capabilities.. Otherwise we expect to have the buzzer 1795 // sound capabilities.. Otherwise we expect to have the buzzer
1782 // device.. 1796 // device..
1783 if ( !soundname.isEmpty() ){ 1797 if ( !soundname.isEmpty() ){
1784 int fd; 1798 int fd;
1785 int vol; 1799 int vol;
1786 bool vol_reset = false; 1800 bool vol_reset = false;
1787 1801
1788 Sound snd ( soundname ); 1802 Sound snd ( soundname );
1789 1803
1790 if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) { 1804 if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) {
1791 if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) { 1805 if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) {
1792 Config cfg ( "qpe" ); 1806 Config cfg ( "qpe" );
1793 cfg. setGroup ( "Volume" ); 1807 cfg. setGroup ( "Volume" );
1794 1808
1795 int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 ); 1809 int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 );
1796 if ( volalarm < 0 ) 1810 if ( volalarm < 0 )
1797 volalarm = 0; 1811 volalarm = 0;
1798 else if ( volalarm > 100 ) 1812 else if ( volalarm > 100 )
1799 volalarm = 100; 1813 volalarm = 100;
1800 volalarm |= ( volalarm << 8 ); 1814 volalarm |= ( volalarm << 8 );
1801 1815
1802 if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 ) 1816 if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 )
1803 vol_reset = true; 1817 vol_reset = true;
1804 } 1818 }
1805 } 1819 }
1806 1820
1807 snd. play ( ); 1821 snd. play ( );
1808 while ( !snd. isFinished ( )) 1822 while ( !snd. isFinished ( ))
1809 qApp-> processEvents ( ); 1823 qApp-> processEvents ( );
1810 1824
1811 if ( fd >= 0 ) { 1825 if ( fd >= 0 ) {
1812 if ( vol_reset ) 1826 if ( vol_reset )
1813 ::ioctl ( fd, MIXER_WRITE( 0 ), &vol ); 1827 ::ioctl ( fd, MIXER_WRITE( 0 ), &vol );
1814 ::close ( fd ); 1828 ::close ( fd );
1815 } 1829 }
1816 } else { 1830 } else {
1817 int fd = ::open ( "/dev/sharp_buz", O_WRONLY|O_NONBLOCK ); 1831 int fd = ::open ( "/dev/sharp_buz", O_WRONLY|O_NONBLOCK );
1818 1832
1819 if ( fd >= 0 ) { 1833 if ( fd >= 0 ) {
1820 ::ioctl ( fd, SHARP_BUZZER_MAKESOUND, sound ); 1834 ::ioctl ( fd, SHARP_BUZZER_MAKESOUND, sound );
1821 ::close ( fd ); 1835 ::close ( fd );
1822 } 1836 }
1823 1837
1824 } 1838 }
1825#endif 1839#endif
1826} 1840}
1827 1841
1828 1842
1829void Zaurus::alarmSound ( ) 1843void Zaurus::alarmSound ( )
1830{ 1844{
1831 buzzer ( SHARP_BUZ_SCHEDULE_ALARM ); 1845 buzzer ( SHARP_BUZ_SCHEDULE_ALARM );
1832} 1846}
1833 1847
1834void Zaurus::touchSound ( ) 1848void Zaurus::touchSound ( )
1835{ 1849{
1836 buzzer ( SHARP_BUZ_TOUCHSOUND ); 1850 buzzer ( SHARP_BUZ_TOUCHSOUND );
1837} 1851}
1838 1852
1839void Zaurus::keySound ( ) 1853void Zaurus::keySound ( )
1840{ 1854{
1841 buzzer ( SHARP_BUZ_KEYSOUND ); 1855 buzzer ( SHARP_BUZ_KEYSOUND );
1842} 1856}
1843 1857
1844 1858
1845QValueList <OLed> Zaurus::ledList ( ) const 1859QValueList <OLed> Zaurus::ledList ( ) const
1846{ 1860{
1847 QValueList <OLed> vl; 1861 QValueList <OLed> vl;
1848 vl << Led_Mail; 1862 vl << Led_Mail;
1849 return vl; 1863 return vl;
1850} 1864}
1851 1865
1852QValueList <OLedState> Zaurus::ledStateList ( OLed l ) const 1866QValueList <OLedState> Zaurus::ledStateList ( OLed l ) const
1853{ 1867{
1854 QValueList <OLedState> vl; 1868 QValueList <OLedState> vl;
1855 1869
1856 if ( l == Led_Mail ) 1870 if ( l == Led_Mail )
1857 vl << Led_Off << Led_On << Led_BlinkSlow; 1871 vl << Led_Off << Led_On << Led_BlinkSlow;
1858 return vl; 1872 return vl;
1859} 1873}
1860 1874
1861OLedState Zaurus::ledState ( OLed which ) const 1875OLedState Zaurus::ledState ( OLed which ) const
1862{ 1876{
1863 if ( which == Led_Mail ) 1877 if ( which == Led_Mail )
1864 return m_leds [0]; 1878 return m_leds [0];
1865 else 1879 else
1866 return Led_Off; 1880 return Led_Off;
1867} 1881}
1868 1882
1869bool Zaurus::setLedState ( OLed which, OLedState st ) 1883bool Zaurus::setLedState ( OLed which, OLedState st )
1870{ 1884{
1871 if (!m_embedix) // Currently not supported on non_embedix kernels 1885 if (!m_embedix) // Currently not supported on non_embedix kernels
1872 return false; 1886 return false;
1873 1887
1874 static int fd = ::open ( "/dev/sharp_led", O_RDWR|O_NONBLOCK ); 1888 static int fd = ::open ( "/dev/sharp_led", O_RDWR|O_NONBLOCK );
1875 1889
1876 if ( which == Led_Mail ) { 1890 if ( which == Led_Mail ) {
1877 if ( fd >= 0 ) { 1891 if ( fd >= 0 ) {
1878 struct sharp_led_status leds; 1892 struct sharp_led_status leds;
1879 ::memset ( &leds, 0, sizeof( leds )); 1893 ::memset ( &leds, 0, sizeof( leds ));
1880 leds. which = SHARP_LED_MAIL_EXISTS; 1894 leds. which = SHARP_LED_MAIL_EXISTS;
1881 bool ok = true; 1895 bool ok = true;
1882 1896
1883 switch ( st ) { 1897 switch ( st ) {
1884 case Led_Off : leds. status = LED_MAIL_NO_UNREAD_MAIL; break; 1898 case Led_Off : leds. status = LED_MAIL_NO_UNREAD_MAIL; break;
1885 case Led_On : leds. status = LED_MAIL_NEWMAIL_EXISTS; break; 1899 case Led_On : leds. status = LED_MAIL_NEWMAIL_EXISTS; break;
1886 case Led_BlinkSlow: leds. status = LED_MAIL_UNREAD_MAIL_EX; break; 1900 case Led_BlinkSlow: leds. status = LED_MAIL_UNREAD_MAIL_EX; break;
1887 default : ok = false; 1901 default : ok = false;
1888 } 1902 }
1889 1903
1890 if ( ok && ( ::ioctl ( fd, SHARP_LED_SETSTATUS, &leds ) >= 0 )) { 1904 if ( ok && ( ::ioctl ( fd, SHARP_LED_SETSTATUS, &leds ) >= 0 )) {
1891 m_leds [0] = st; 1905 m_leds [0] = st;
1892 return true; 1906 return true;
1893 } 1907 }
1894 } 1908 }
1895 } 1909 }
1896 return false; 1910 return false;
1897} 1911}
1898 1912
1899bool Zaurus::setSoftSuspend ( bool soft ) 1913bool Zaurus::setSoftSuspend ( bool soft )
1900{ 1914{
1901 if (!m_embedix) { 1915 if (!m_embedix) {
1902 /* non-Embedix kernels dont have kernel autosuspend */ 1916 /* non-Embedix kernels dont have kernel autosuspend */
1903 return ODevice::setSoftSuspend( soft ); 1917 return ODevice::setSoftSuspend( soft );
1904 } 1918 }
1905 1919
1906 bool res = false; 1920 bool res = false;
1907 int fd; 1921 int fd;
1908 1922
1909 if ((( fd = ::open ( "/dev/apm_bios", O_RDWR )) >= 0 ) || 1923 if ((( fd = ::open ( "/dev/apm_bios", O_RDWR )) >= 0 ) ||
1910 (( fd = ::open ( "/dev/misc/apm_bios",O_RDWR )) >= 0 )) { 1924 (( fd = ::open ( "/dev/misc/apm_bios",O_RDWR )) >= 0 )) {
1911 1925
1912 int sources = ::ioctl ( fd, APM_IOCGEVTSRC, 0 ); // get current event sources 1926 int sources = ::ioctl ( fd, APM_IOCGEVTSRC, 0 ); // get current event sources
1913 1927
1914 if ( sources >= 0 ) { 1928 if ( sources >= 0 ) {
1915 if ( soft ) 1929 if ( soft )
1916 sources &= ~APM_EVT_POWER_BUTTON; 1930 sources &= ~APM_EVT_POWER_BUTTON;
1917 else 1931 else
1918 sources |= APM_EVT_POWER_BUTTON; 1932 sources |= APM_EVT_POWER_BUTTON;
1919 1933
1920 if ( ::ioctl ( fd, APM_IOCSEVTSRC, sources ) >= 0 ) // set new event sources 1934 if ( ::ioctl ( fd, APM_IOCSEVTSRC, sources ) >= 0 ) // set new event sources
1921 res = true; 1935 res = true;
1922 else 1936 else
1923 perror ( "APM_IOCGEVTSRC" ); 1937 perror ( "APM_IOCGEVTSRC" );
1924 } 1938 }
1925 else 1939 else
1926 perror ( "APM_IOCGEVTSRC" ); 1940 perror ( "APM_IOCGEVTSRC" );
1927 1941
1928 ::close ( fd ); 1942 ::close ( fd );
1929 } 1943 }
1930 else 1944 else
1931 perror ( "/dev/apm_bios or /dev/misc/apm_bios" ); 1945 perror ( "/dev/apm_bios or /dev/misc/apm_bios" );
1932 1946
1933 return res; 1947 return res;
1934} 1948}
1935 1949
1936 1950
1937bool Zaurus::setDisplayBrightness ( int bright ) 1951bool Zaurus::setDisplayBrightness ( int bright )
1938{ 1952{
1953// FIXME The C7x0 have a proc-interface (/proc/drivers/corgi-bl) which
1954// is nice to use. Currently it exposes 16+1 levels. Implement this!
1955// (or wait for kergoth unifying the interfaces in the OpenZaurus kernel.)
1939 bool res = false; 1956 bool res = false;
1940 int fd; 1957 int fd;
1941 1958
1942 if ( bright > 255 ) 1959 if ( bright > 255 )
1943 bright = 255; 1960 bright = 255;
1944 if ( bright < 0 ) 1961 if ( bright < 0 )
1945 bright = 0; 1962 bright = 0;
1946 1963
1947 if (m_embedix) { 1964 if (m_embedix) {
1948 if (( fd = ::open ( "/dev/fl", O_WRONLY )) >= 0 ) { 1965 if (( fd = ::open ( "/dev/fl", O_WRONLY )) >= 0 ) {
1949 int bl = ( bright * 4 + 127 ) / 255; // only 4 steps on zaurus 1966 int bl = ( bright * 4 + 127 ) / 255; // only 4 steps on zaurus
1950 if ( bright && !bl ) 1967 if ( bright && !bl )
1951 bl = 1; 1968 bl = 1;
1952 res = ( ::ioctl ( fd, FL_IOCTL_STEP_CONTRAST, bl ) == 0 ); 1969 res = ( ::ioctl ( fd, FL_IOCTL_STEP_CONTRAST, bl ) == 0 );
1953 ::close ( fd ); 1970 ::close ( fd );
1954 } 1971 }
1955 } else { 1972 } else {
1956#define FB_BACKLIGHT_SET_BRIGHTNESS _IOW('F', 1, u_int) /* set brightness */ 1973#define FB_BACKLIGHT_SET_BRIGHTNESS _IOW('F', 1, u_int) /* set brightness */
1957 if (( fd = ::open ( "/dev/fb0", O_WRONLY )) >= 0 ) { 1974 if (( fd = ::open ( "/dev/fb0", O_WRONLY )) >= 0 ) {
1958 res = ( ::ioctl ( fd , FB_BACKLIGHT_SET_BRIGHTNESS, bright ) == 0 ); 1975 res = ( ::ioctl ( fd , FB_BACKLIGHT_SET_BRIGHTNESS, bright ) == 0 );
1959 ::close ( fd ); 1976 ::close ( fd );
1960 } 1977 }
1961 } 1978 }
1962 return res; 1979 return res;
1963} 1980}
1964 1981
1965 1982
1966int Zaurus::displayBrightnessResolution ( ) const 1983int Zaurus::displayBrightnessResolution ( ) const
1967{ 1984{
1968 if (m_embedix) 1985 if (m_embedix)
1969 return 5; 1986 return 5;
1970 else 1987 else
1971 return 256; 1988 return 256;
1972} 1989}
1973 1990
1974/************************************************** 1991/**************************************************
1975 * 1992 *
1976 * SIMpad 1993 * SIMpad
1977 * 1994 *
1978 **************************************************/ 1995 **************************************************/
1979 1996
1980void SIMpad::init ( ) 1997void SIMpad::init ( )
1981{ 1998{
1982 d-> m_vendorstr = "SIEMENS"; 1999 d-> m_vendorstr = "SIEMENS";
1983 d-> m_vendor = Vendor_SIEMENS; 2000 d-> m_vendor = Vendor_SIEMENS;
1984 2001
1985 QFile f ( "/proc/hal/model" ); 2002 QFile f ( "/proc/hal/model" );
1986 2003
1987 //TODO Implement model checking 2004 //TODO Implement model checking
1988 //FIXME For now we assume an SL4 2005 //FIXME For now we assume an SL4
1989 2006
1990 d-> m_modelstr = "SL4"; 2007 d-> m_modelstr = "SL4";
1991 d-> m_model = Model_SIMpad_SL4; 2008 d-> m_model = Model_SIMpad_SL4;
1992 2009
1993 switch ( d-> m_model ) { 2010 switch ( d-> m_model ) {
1994 default: 2011 default:
1995 d-> m_rotation = Rot0; 2012 d-> m_rotation = Rot0;
1996 d-> m_direction = CCW; 2013 d-> m_direction = CCW;
1997 d-> m_holdtime = 1000; // 1000ms 2014 d-> m_holdtime = 1000; // 1000ms
1998 2015
1999 break; 2016 break;
2000 } 2017 }
2001 2018
2002 f. setName ( "/etc/familiar-version" ); 2019 f. setName ( "/etc/familiar-version" );
2003 if ( f. open ( IO_ReadOnly )) { 2020 if ( f. open ( IO_ReadOnly )) {
2004 d-> m_systemstr = "Familiar"; 2021 d-> m_systemstr = "Familiar";
2005 d-> m_system = System_Familiar; 2022 d-> m_system = System_Familiar;
2006 2023
2007 QTextStream ts ( &f ); 2024 QTextStream ts ( &f );
2008 d-> m_sysverstr = ts. readLine ( ). mid ( 10 ); 2025 d-> m_sysverstr = ts. readLine ( ). mid ( 10 );
2009 2026
2010 f. close ( ); 2027 f. close ( );
2011 } else { 2028 } else {
2012 f. setName ( "/etc/oz_version" ); 2029 f. setName ( "/etc/oz_version" );
2013 2030
2014 if ( f. open ( IO_ReadOnly )) { 2031 if ( f. open ( IO_ReadOnly )) {
2015 d-> m_systemstr = "OpenEmbedded/SIMpad"; 2032 d-> m_systemstr = "OpenEmbedded/SIMpad";
2016 d-> m_system = System_OpenZaurus; 2033 d-> m_system = System_OpenZaurus;
2017 2034
2018 QTextStream ts ( &f ); 2035 QTextStream ts ( &f );
2019 ts.setDevice ( &f ); 2036 ts.setDevice ( &f );
2020 d-> m_sysverstr = ts. readLine ( ); 2037 d-> m_sysverstr = ts. readLine ( );
2021 f. close ( ); 2038 f. close ( );
2022 } 2039 }
2023 } 2040 }
2024 2041
2025 m_leds [0] = m_leds [1] = Led_Off; 2042 m_leds [0] = m_leds [1] = Led_Off;
2026 2043
2027 m_power_timer = 0; 2044 m_power_timer = 0;
2028 2045
2029} 2046}
2030 2047
2031void SIMpad::initButtons ( ) 2048void SIMpad::initButtons ( )
2032{ 2049{
2033 if ( d-> m_buttons ) 2050 if ( d-> m_buttons )
2034 return; 2051 return;
2035 2052
2036 if ( isQWS( ) ) 2053 if ( isQWS( ) )
2037 QWSServer::setKeyboardFilter ( this ); 2054 QWSServer::setKeyboardFilter ( this );
2038 2055
2039 d-> m_buttons = new QValueList <ODeviceButton>; 2056 d-> m_buttons = new QValueList <ODeviceButton>;
2040 2057
2041 for ( uint i = 0; i < ( sizeof( simpad_buttons ) / sizeof( s_button )); i++ ) { 2058 for ( uint i = 0; i < ( sizeof( simpad_buttons ) / sizeof( s_button )); i++ ) {
2042 s_button *sb = simpad_buttons + i; 2059 s_button *sb = simpad_buttons + i;
2043 ODeviceButton b; 2060 ODeviceButton b;
2044 2061
2045 if (( sb-> model & d-> m_model ) == d-> m_model ) { 2062 if (( sb-> model & d-> m_model ) == d-> m_model ) {
2046 b. setKeycode ( sb-> code ); 2063 b. setKeycode ( sb-> code );
2047 b. setUserText ( QObject::tr ( "Button", sb-> utext )); 2064 b. setUserText ( QObject::tr ( "Button", sb-> utext ));
2048 b. setPixmap ( Resource::loadPixmap ( sb-> pix )); 2065 b. setPixmap ( Resource::loadPixmap ( sb-> pix ));
2049 b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( sb-> fpressedservice ), sb-> fpressedaction )); 2066 b. setFactoryPresetPressedAction ( OQCopMessage ( makeChannel ( sb-> fpressedservice ), sb-> fpressedaction ));
2050 b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( sb-> fheldservice ), sb-> fheldaction )); 2067 b. setFactoryPresetHeldAction ( OQCopMessage ( makeChannel ( sb-> fheldservice ), sb-> fheldaction ));
2051 2068
2052 d-> m_buttons-> append ( b ); 2069 d-> m_buttons-> append ( b );
2053 } 2070 }
2054 } 2071 }
2055 reloadButtonMapping ( ); 2072 reloadButtonMapping ( );
2056 2073
2057 QCopChannel *sysch = new QCopChannel ( "QPE/System", this ); 2074 QCopChannel *sysch = new QCopChannel ( "QPE/System", this );
2058 connect ( sysch, SIGNAL( received( const QCString &, const QByteArray & )), this, SLOT( systemMessage ( const QCString &, const QByteArray & ))); 2075 connect ( sysch, SIGNAL( received( const QCString &, const QByteArray & )), this, SLOT( systemMessage ( const QCString &, const QByteArray & )));
2059} 2076}
2060 2077
2061// SIMpad boardcontrol register CS3 2078// SIMpad boardcontrol register CS3
2062#define SIMPAD_BOARDCONTROL "/proc/cs3" 2079#define SIMPAD_BOARDCONTROL "/proc/cs3"
2063#define SIMPAD_VCC_5V_EN 0x0001 // For 5V PCMCIA 2080#define SIMPAD_VCC_5V_EN 0x0001 // For 5V PCMCIA
2064#define SIMPAD_VCC_3V_EN 0x0002 // FOR 3.3V PCMCIA 2081#define SIMPAD_VCC_3V_EN 0x0002 // FOR 3.3V PCMCIA
2065#define SIMPAD_EN1 0x0004 // This is only for EPROM's 2082#define SIMPAD_EN1 0x0004 // This is only for EPROM's
2066#define SIMPAD_EN0 0x0008 // Both should be enable for 3.3V or 5V 2083#define SIMPAD_EN0 0x0008 // Both should be enable for 3.3V or 5V
2067#define SIMPAD_DISPLAY_ON 0x0010 2084#define SIMPAD_DISPLAY_ON 0x0010
2068#define SIMPAD_PCMCIA_BUFF_DIS 0x0020 2085#define SIMPAD_PCMCIA_BUFF_DIS 0x0020
2069#define SIMPAD_MQ_RESET 0x0040 2086#define SIMPAD_MQ_RESET 0x0040
2070#define SIMPAD_PCMCIA_RESET 0x0080 2087#define SIMPAD_PCMCIA_RESET 0x0080
2071#define SIMPAD_DECT_POWER_ON 0x0100 2088#define SIMPAD_DECT_POWER_ON 0x0100
2072#define SIMPAD_IRDA_SD 0x0200 // Shutdown for powersave 2089#define SIMPAD_IRDA_SD 0x0200 // Shutdown for powersave
2073#define SIMPAD_RS232_ON 0x0400 2090#define SIMPAD_RS232_ON 0x0400
2074#define SIMPAD_SD_MEDIAQ 0x0800 // Shutdown for powersave 2091#define SIMPAD_SD_MEDIAQ 0x0800 // Shutdown for powersave
2075#define SIMPAD_LED2_ON 0x1000 2092#define SIMPAD_LED2_ON 0x1000
2076#define SIMPAD_IRDA_MODE 0x2000 // Fast/Slow IrDA mode 2093#define SIMPAD_IRDA_MODE 0x2000 // Fast/Slow IrDA mode
2077#define SIMPAD_ENABLE_5V 0x4000 // Enable 5V circuit 2094#define SIMPAD_ENABLE_5V 0x4000 // Enable 5V circuit
2078#define SIMPAD_RESET_SIMCARD 0x8000 2095#define SIMPAD_RESET_SIMCARD 0x8000
2079 2096
2080//SIMpad touchscreen backlight strength control 2097//SIMpad touchscreen backlight strength control
2081#define SIMPAD_BACKLIGHT_CONTROL "/proc/driver/mq200/registers/PWM_CONTROL" 2098#define SIMPAD_BACKLIGHT_CONTROL "/proc/driver/mq200/registers/PWM_CONTROL"
2082#define SIMPAD_BACKLIGHT_MASK 0x00a10044 2099#define SIMPAD_BACKLIGHT_MASK 0x00a10044
2083 2100
2084QValueList <OLed> SIMpad::ledList ( ) const 2101QValueList <OLed> SIMpad::ledList ( ) const
2085{ 2102{
2086 QValueList <OLed> vl; 2103 QValueList <OLed> vl;
2087 vl << Led_Power; //FIXME which LED is LED2 ? The green one or the amber one? 2104 vl << Led_Power; //FIXME which LED is LED2 ? The green one or the amber one?
2088 //vl << Led_Mail; //TODO find out if LED1 is accessible anyway 2105 //vl << Led_Mail; //TODO find out if LED1 is accessible anyway
2089 return vl; 2106 return vl;
2090} 2107}
2091 2108
2092QValueList <OLedState> SIMpad::ledStateList ( OLed l ) const 2109QValueList <OLedState> SIMpad::ledStateList ( OLed l ) const
2093{ 2110{
2094 QValueList <OLedState> vl; 2111 QValueList <OLedState> vl;
2095 2112
2096 if ( l == Led_Power ) //FIXME which LED is LED2 ? The green one or the amber one? 2113 if ( l == Led_Power ) //FIXME which LED is LED2 ? The green one or the amber one?
2097 vl << Led_Off << Led_On; 2114 vl << Led_Off << Led_On;
2098 //else if ( l == Led_Mail ) //TODO find out if LED1 is accessible anyway 2115 //else if ( l == Led_Mail ) //TODO find out if LED1 is accessible anyway
2099 //vl << Led_Off; 2116 //vl << Led_Off;
2100 return vl; 2117 return vl;
2101} 2118}
2102 2119
2103OLedState SIMpad::ledState ( OLed l ) const 2120OLedState SIMpad::ledState ( OLed l ) const
2104{ 2121{
2105 switch ( l ) { 2122 switch ( l ) {
2106 case Led_Power: 2123 case Led_Power:
2107 return m_leds [0]; 2124 return m_leds [0];
2108 //case Led_Mail: 2125 //case Led_Mail:
2109 //return m_leds [1]; 2126 //return m_leds [1];
2110 default: 2127 default:
2111 return Led_Off; 2128 return Led_Off;
2112 } 2129 }
2113} 2130}
2114 2131
2115bool SIMpad::setLedState ( OLed l, OLedState st ) 2132bool SIMpad::setLedState ( OLed l, OLedState st )
2116{ 2133{
2117 static int fd = ::open ( SIMPAD_BOARDCONTROL, O_RDWR | O_NONBLOCK ); 2134 static int fd = ::open ( SIMPAD_BOARDCONTROL, O_RDWR | O_NONBLOCK );
2118 2135
2119 if ( l == Led_Power ) { 2136 if ( l == Led_Power ) {
2120 if ( fd >= 0 ) { 2137 if ( fd >= 0 ) {
2121 LED_IN leds; 2138 LED_IN leds;
2122 ::memset ( &leds, 0, sizeof( leds )); 2139 ::memset ( &leds, 0, sizeof( leds ));
2123 leds. TotalTime = 0; 2140 leds. TotalTime = 0;
2124 leds. OnTime = 0; 2141 leds. OnTime = 0;
2125 leds. OffTime = 1; 2142 leds. OffTime = 1;
2126 leds. OffOnBlink = 2; 2143 leds. OffOnBlink = 2;
2127 2144
2128 switch ( st ) { 2145 switch ( st ) {
2129 case Led_Off : leds. OffOnBlink = 0; break; 2146 case Led_Off : leds. OffOnBlink = 0; break;
2130 case Led_On : leds. OffOnBlink = 1; break; 2147 case Led_On : leds. OffOnBlink = 1; break;
2131 case Led_BlinkSlow: leds. OnTime = 10; leds. OffTime = 10; break; 2148 case Led_BlinkSlow: leds. OnTime = 10; leds. OffTime = 10; break;
2132 case Led_BlinkFast: leds. OnTime = 5; leds. OffTime = 5; break; 2149 case Led_BlinkFast: leds. OnTime = 5; leds. OffTime = 5; break;
2133 } 2150 }
2134 2151
2135 { 2152 {
2136 /*TODO Implement this like that: 2153 /*TODO Implement this like that:
2137 read from cs3 2154 read from cs3
2138 && with SIMPAD_LED2_ON 2155 && with SIMPAD_LED2_ON
2139 write to cs3 */ 2156 write to cs3 */
2140 m_leds [0] = st; 2157 m_leds [0] = st;
2141 return true; 2158 return true;
2142 } 2159 }
2143 } 2160 }
2144 } 2161 }
2145 return false; 2162 return false;
2146} 2163}
2147 2164
2148 2165
2149bool SIMpad::filter ( int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat ) 2166bool SIMpad::filter ( int /*unicode*/, int keycode, int modifiers, bool isPress, bool autoRepeat )
2150{ 2167{
2151 //TODO 2168 //TODO
2152 return false; 2169 return false;
2153} 2170}
2154 2171
2155void SIMpad::timerEvent ( QTimerEvent * ) 2172void SIMpad::timerEvent ( QTimerEvent * )
2156{ 2173{
2157 killTimer ( m_power_timer ); 2174 killTimer ( m_power_timer );
2158 m_power_timer = 0; 2175 m_power_timer = 0;
2159 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false ); 2176 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, true, false );
2160 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false ); 2177 QWSServer::sendKeyEvent ( -1, HardKey_Backlight, 0, false, false );
2161} 2178}
2162 2179
2163 2180
2164void SIMpad::alarmSound ( ) 2181void SIMpad::alarmSound ( )
2165{ 2182{
2166#ifndef QT_NO_SOUND 2183#ifndef QT_NO_SOUND
2167 static Sound snd ( "alarm" ); 2184 static Sound snd ( "alarm" );
2168 int fd; 2185 int fd;
2169 int vol; 2186 int vol;
2170 bool vol_reset = false; 2187 bool vol_reset = false;
2171 2188
2172 if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) { 2189 if (( fd = ::open ( "/dev/sound/mixer", O_RDWR )) >= 0 ) {
2173 if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) { 2190 if ( ::ioctl ( fd, MIXER_READ( 0 ), &vol ) >= 0 ) {
2174 Config cfg ( "qpe" ); 2191 Config cfg ( "qpe" );
2175 cfg. setGroup ( "Volume" ); 2192 cfg. setGroup ( "Volume" );
2176 2193
2177 int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 ); 2194 int volalarm = cfg. readNumEntry ( "AlarmPercent", 50 );
2178 if ( volalarm < 0 ) 2195 if ( volalarm < 0 )
2179 volalarm = 0; 2196 volalarm = 0;
2180 else if ( volalarm > 100 ) 2197 else if ( volalarm > 100 )
2181 volalarm = 100; 2198 volalarm = 100;
2182 volalarm |= ( volalarm << 8 ); 2199 volalarm |= ( volalarm << 8 );
2183 2200
2184 if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 ) 2201 if ( ::ioctl ( fd, MIXER_WRITE( 0 ), &volalarm ) >= 0 )
2185 vol_reset = true; 2202 vol_reset = true;
2186 } 2203 }
2187 } 2204 }
2188 2205
2189 snd. play ( ); 2206 snd. play ( );
2190 while ( !snd. isFinished ( )) 2207 while ( !snd. isFinished ( ))
2191 qApp-> processEvents ( ); 2208 qApp-> processEvents ( );
2192 2209
2193 if ( fd >= 0 ) { 2210 if ( fd >= 0 ) {
2194 if ( vol_reset ) 2211 if ( vol_reset )