/* This file is part of the TDE libraries
Copyright ( C ) 2012 Timothy Pearson < kb9vqf @ pearsoncomputing . net >
This library is free software ; you can redistribute it and / or
modify it under the terms of the GNU Library General Public
License version 2 as published by the Free Software Foundation .
This library is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
Library General Public License for more details .
You should have received a copy of the GNU Library General Public License
along with this library ; see the file COPYING . LIB . If not , write to
the Free Software Foundation , Inc . , 51 Franklin Street , Fifth Floor ,
Boston , MA 02110 - 1301 , USA .
*/
# include <tdehardwaredevices.h>
# include <tqfile.h>
# include <tqdir.h>
# include <tqstringlist.h>
# include <tqsocketnotifier.h>
# include <kglobal.h>
# include <klocale.h>
# include <kconfig.h>
# include <ktempfile.h>
# include <ksimpledirwatch.h>
# include <kstandarddirs.h>
# include <kapplication.h>
# include <dcopclient.h>
# include <libudev.h>
# include <fcntl.h>
# include <poll.h>
# include <sys/stat.h>
# include <sys/ioctl.h>
# include <linux/fs.h>
// Backlight devices
# include <linux/fb.h>
// Input devices
# include <linux/input.h>
// Network devices
# include <sys/types.h>
# include <ifaddrs.h>
# include <netinet/in.h>
# include <arpa/inet.h>
# include <arpa/inet.h>
# include <sys/socket.h>
# include <netdb.h>
// BEGIN BLOCK
// Copied from include/linux/genhd.h
# define GENHD_FL_REMOVABLE 1
# define GENHD_FL_MEDIA_CHANGE_NOTIFY 4
# define GENHD_FL_CD 8
# define GENHD_FL_UP 16
# define GENHD_FL_SUPPRESS_PARTITION_INFO 32
# define GENHD_FL_EXT_DEVT 64
# define GENHD_FL_NATIVE_CAPACITY 128
# define GENHD_FL_BLOCK_EVENTS_ON_EXCL_WRITE 256
// END BLOCK
// NOTE TO DEVELOPERS
// This command will greatly help when attempting to find properties to distinguish one device from another
// udevadm info --query=all --path=/sys/....
// This routine is courtsey of an answer on "Stack Overflow"
// It takes an LSB-first int and makes it an MSB-first int (or vice versa)
unsigned int reverse_bits ( register unsigned int x )
{
x = ( ( ( x & 0xaaaaaaaa ) > > 1 ) | ( ( x & 0x55555555 ) < < 1 ) ) ;
x = ( ( ( x & 0xcccccccc ) > > 2 ) | ( ( x & 0x33333333 ) < < 2 ) ) ;
x = ( ( ( x & 0xf0f0f0f0 ) > > 4 ) | ( ( x & 0x0f0f0f0f ) < < 4 ) ) ;
x = ( ( ( x & 0xff00ff00 ) > > 8 ) | ( ( x & 0x00ff00ff ) < < 8 ) ) ;
return ( ( x > > 16 ) | ( x < < 16 ) ) ;
}
# define BIT_IS_SET(bits, n) (bits[n >> 3] & (1 << (n & 0x7)))
TDESensorCluster : : TDESensorCluster ( ) {
label = TQString : : null ;
current = - 1 ;
minimum = - 1 ;
maximum = - 1 ;
warning = - 1 ;
critical = - 1 ;
}
TDEGenericDevice : : TDEGenericDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TQObject ( ) {
m_deviceType = dt ;
m_deviceName = dn ;
m_parentDevice = 0 ;
m_friendlyName = TQString : : null ;
m_blacklistedForUpdate = false ;
}
TDEGenericDevice : : ~ TDEGenericDevice ( ) {
}
TDEGenericDeviceType : : TDEGenericDeviceType TDEGenericDevice : : type ( ) {
return m_deviceType ;
}
TQString TDEGenericDevice : : name ( ) {
return m_deviceName ;
}
void TDEGenericDevice : : internalSetName ( TQString dn ) {
m_deviceName = dn ;
}
TQString TDEGenericDevice : : vendorName ( ) {
return m_vendorName ;
}
void TDEGenericDevice : : internalSetVendorName ( TQString vn ) {
m_vendorName = vn ;
}
TQString TDEGenericDevice : : vendorModel ( ) {
return m_vendorModel ;
}
void TDEGenericDevice : : internalSetVendorModel ( TQString vm ) {
m_vendorModel = vm ;
}
TQString TDEGenericDevice : : serialNumber ( ) {
return m_serialNumber ;
}
void TDEGenericDevice : : internalSetSerialNumber ( TQString sn ) {
m_serialNumber = sn ;
}
TQString TDEGenericDevice : : systemPath ( ) {
if ( ! m_systemPath . endsWith ( " / " ) ) {
m_systemPath + = " / " ;
}
return m_systemPath ;
}
void TDEGenericDevice : : internalSetSystemPath ( TQString sp ) {
m_systemPath = sp ;
}
TQString TDEGenericDevice : : deviceNode ( ) {
return m_deviceNode ;
}
void TDEGenericDevice : : internalSetDeviceNode ( TQString sn ) {
m_deviceNode = sn ;
}
TQString TDEGenericDevice : : deviceBus ( ) {
return m_deviceBus ;
}
void TDEGenericDevice : : internalSetDeviceBus ( TQString db ) {
m_deviceBus = db ;
}
TQString TDEGenericDevice : : uniqueID ( ) {
m_uniqueID = m_systemPath + m_deviceNode ;
return m_uniqueID ;
}
TQString TDEGenericDevice : : vendorID ( ) {
return m_vendorID ;
}
void TDEGenericDevice : : internalSetVendorID ( TQString id ) {
m_vendorID = id ;
m_vendorID . replace ( " 0x " , " " ) ;
}
TQString TDEGenericDevice : : modelID ( ) {
return m_modelID ;
}
void TDEGenericDevice : : internalSetModelID ( TQString id ) {
m_modelID = id ;
m_modelID . replace ( " 0x " , " " ) ;
}
TQString TDEGenericDevice : : vendorEncoded ( ) {
return m_vendorenc ;
}
void TDEGenericDevice : : internalSetVendorEncoded ( TQString id ) {
m_vendorenc = id ;
}
TQString TDEGenericDevice : : modelEncoded ( ) {
return m_modelenc ;
}
void TDEGenericDevice : : internalSetModelEncoded ( TQString id ) {
m_modelenc = id ;
}
TQString TDEGenericDevice : : subVendorID ( ) {
return m_subvendorID ;
}
void TDEGenericDevice : : internalSetSubVendorID ( TQString id ) {
m_subvendorID = id ;
m_subvendorID . replace ( " 0x " , " " ) ;
}
TQString TDEGenericDevice : : PCIClass ( ) {
return m_pciClass ;
}
void TDEGenericDevice : : internalSetPCIClass ( TQString cl ) {
m_pciClass = cl ;
m_pciClass . replace ( " 0x " , " " ) ;
}
TQString TDEGenericDevice : : moduleAlias ( ) {
return m_modAlias ;
}
void TDEGenericDevice : : internalSetModuleAlias ( TQString ma ) {
m_modAlias = ma ;
}
TQString TDEGenericDevice : : deviceDriver ( ) {
return m_deviceDriver ;
}
void TDEGenericDevice : : internalSetDeviceDriver ( TQString dr ) {
m_deviceDriver = dr ;
}
TQString TDEGenericDevice : : subsystem ( ) {
return m_subsystem ;
}
void TDEGenericDevice : : internalSetSubsystem ( TQString ss ) {
m_subsystem = ss ;
}
TQString TDEGenericDevice : : subModelID ( ) {
return m_submodelID ;
}
void TDEGenericDevice : : internalSetSubModelID ( TQString id ) {
m_submodelID = id ;
m_submodelID . replace ( " 0x " , " " ) ;
}
void TDEGenericDevice : : internalSetParentDevice ( TDEGenericDevice * pd ) {
m_parentDevice = pd ;
}
TDEGenericDevice * TDEGenericDevice : : parentDevice ( ) {
return m_parentDevice ;
}
TQPixmap TDEGenericDevice : : icon ( KIcon : : StdSizes size ) {
return KGlobal : : hardwareDevices ( ) - > getDeviceTypeIconFromType ( type ( ) , size ) ;
}
bool TDEGenericDevice : : blacklistedForUpdate ( ) {
return m_blacklistedForUpdate ;
}
void TDEGenericDevice : : internalSetBlacklistedForUpdate ( bool bl ) {
m_blacklistedForUpdate = bl ;
}
TQString TDEGenericDevice : : friendlyDeviceType ( ) {
return KGlobal : : hardwareDevices ( ) - > getFriendlyDeviceTypeStringFromType ( type ( ) ) ;
}
TQString TDEGenericDevice : : busID ( ) {
TQString busid = m_systemPath ;
busid = busid . remove ( 0 , busid . findRev ( " / " ) + 1 ) ;
busid = busid . remove ( 0 , busid . find ( " : " ) + 1 ) ;
return busid ;
}
TQString TDEGenericDevice : : friendlyName ( ) {
if ( m_friendlyName . isNull ( ) ) {
if ( type ( ) = = TDEGenericDeviceType : : RootSystem ) {
m_friendlyName = " Linux System " ;
}
else if ( type ( ) = = TDEGenericDeviceType : : Root ) {
TQString friendlyDriverName = systemPath ( ) ;
friendlyDriverName . truncate ( friendlyDriverName . length ( ) - 1 ) ;
friendlyDriverName . remove ( 0 , friendlyDriverName . findRev ( " / " ) + 1 ) ;
m_friendlyName = friendlyDriverName ;
}
else if ( m_modAlias . lower ( ) . startsWith ( " pci " ) ) {
m_friendlyName = KGlobal : : hardwareDevices ( ) - > findPCIDeviceName ( m_vendorID , m_modelID , m_subvendorID , m_submodelID ) ;
}
else if ( m_modAlias . lower ( ) . startsWith ( " usb " ) ) {
m_friendlyName = KGlobal : : hardwareDevices ( ) - > findUSBDeviceName ( m_vendorID , m_modelID , m_subvendorID , m_submodelID ) ;
}
else {
TQString acpigentype = systemPath ( ) ;
acpigentype . truncate ( acpigentype . length ( ) - 1 ) ;
acpigentype . remove ( 0 , acpigentype . findRev ( " / " ) + 1 ) ;
TQString pnpgentype = acpigentype ;
pnpgentype . truncate ( pnpgentype . find ( " : " ) ) ;
if ( pnpgentype . startsWith ( " PNP " ) ) {
m_friendlyName = KGlobal : : hardwareDevices ( ) - > findPNPDeviceName ( pnpgentype ) ;
}
else if ( acpigentype . startsWith ( " device: " ) ) {
acpigentype . remove ( 0 , acpigentype . findRev ( " : " ) + 1 ) ;
acpigentype . prepend ( " 0x " ) ;
m_friendlyName = i18n ( " ACPI Node %1 " ) . arg ( acpigentype . toUInt ( 0 , 0 ) ) ;
}
}
}
if ( m_friendlyName . isNull ( ) ) {
// Could not identify based on model/vendor codes
// Try to construct something from the model/vendor strings if they are available
if ( ! m_vendorName . isNull ( ) & & ! m_vendorModel . isNull ( ) ) {
m_friendlyName = m_vendorName + " " + m_vendorModel ;
}
}
if ( m_friendlyName . isNull ( ) ) {
// Could not identify based on model/vendor
// Guess by type
if ( type ( ) = = TDEGenericDeviceType : : CPU ) {
m_friendlyName = name ( ) ;
}
else if ( type ( ) = = TDEGenericDeviceType : : Event ) {
// Use parent node name
if ( m_parentDevice ) {
return m_parentDevice - > friendlyName ( ) ;
}
else {
m_friendlyName = i18n ( " Generic Event Device " ) ;
}
}
else if ( type ( ) = = TDEGenericDeviceType : : Input ) {
// Use parent node name
if ( m_parentDevice ) {
return m_parentDevice - > friendlyName ( ) ;
}
else {
m_friendlyName = i18n ( " Generic Input Device " ) ;
}
}
// Guess by driver
else if ( ! m_deviceDriver . isNull ( ) ) {
TQString friendlyDriverName = m_deviceDriver . lower ( ) ;
friendlyDriverName [ 0 ] = friendlyDriverName [ 0 ] . upper ( ) ;
m_friendlyName = i18n ( " Generic %1 Device " ) . arg ( friendlyDriverName ) ;
}
else if ( m_systemPath . lower ( ) . startsWith ( " /sys/devices/virtual " ) ) {
TQString friendlyDriverName = systemPath ( ) ;
friendlyDriverName . truncate ( friendlyDriverName . length ( ) - 1 ) ;
friendlyDriverName . remove ( 0 , friendlyDriverName . findRev ( " / " ) + 1 ) ;
if ( ! friendlyDriverName . isNull ( ) ) {
m_friendlyName = i18n ( " Virtual Device %1 " ) . arg ( friendlyDriverName ) ;
}
else {
m_friendlyName = i18n ( " Unknown Virtual Device " ) ;
}
}
else {
// I really have no idea what this peripheral is; say so!
m_friendlyName = i18n ( " Unknown Device " ) + " " + name ( ) ;
}
}
return m_friendlyName ;
}
TDEStorageDevice : : TDEStorageDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) , m_mediaInserted ( true ) {
m_diskType = TDEDiskDeviceType : : Null ;
m_diskStatus = TDEDiskDeviceStatus : : Null ;
}
TDEStorageDevice : : ~ TDEStorageDevice ( ) {
}
TDEDiskDeviceType : : TDEDiskDeviceType TDEStorageDevice : : diskType ( ) {
return m_diskType ;
}
void TDEStorageDevice : : internalSetDiskType ( TDEDiskDeviceType : : TDEDiskDeviceType dt ) {
m_diskType = dt ;
}
bool TDEStorageDevice : : isDiskOfType ( TDEDiskDeviceType : : TDEDiskDeviceType tf ) {
return ( ( m_diskType & tf ) ! = TDEDiskDeviceType : : Null ) ;
}
TDEDiskDeviceStatus : : TDEDiskDeviceStatus TDEStorageDevice : : diskStatus ( ) {
return m_diskStatus ;
}
void TDEStorageDevice : : internalSetDiskStatus ( TDEDiskDeviceStatus : : TDEDiskDeviceStatus st ) {
m_diskStatus = st ;
}
bool TDEStorageDevice : : checkDiskStatus ( TDEDiskDeviceStatus : : TDEDiskDeviceStatus sf ) {
return ( ( m_diskStatus & sf ) ! = ( TDEDiskDeviceStatus : : TDEDiskDeviceStatus ) 0 ) ;
}
TQString TDEStorageDevice : : diskLabel ( ) {
return m_diskName ;
}
void TDEStorageDevice : : internalSetDiskLabel ( TQString dn ) {
m_diskName = dn ;
}
bool TDEStorageDevice : : mediaInserted ( ) {
return m_mediaInserted ;
}
void TDEStorageDevice : : internalSetMediaInserted ( bool inserted ) {
m_mediaInserted = inserted ;
}
TQString TDEStorageDevice : : fileSystemName ( ) {
return m_fileSystemName ;
}
void TDEStorageDevice : : internalSetFileSystemName ( TQString fn ) {
m_fileSystemName = fn ;
}
TQString TDEStorageDevice : : fileSystemUsage ( ) {
return m_fileSystemUsage ;
}
void TDEStorageDevice : : internalSetFileSystemUsage ( TQString fu ) {
m_fileSystemUsage = fu ;
}
TQString TDEStorageDevice : : diskUUID ( ) {
return m_diskUUID ;
}
void TDEStorageDevice : : internalSetDiskUUID ( TQString id ) {
m_diskUUID = id ;
}
TQStringList TDEStorageDevice : : holdingDevices ( ) {
return m_holdingDevices ;
}
void TDEStorageDevice : : internalSetHoldingDevices ( TQStringList hd ) {
m_holdingDevices = hd ;
}
TQStringList TDEStorageDevice : : slaveDevices ( ) {
return m_slaveDevices ;
}
void TDEStorageDevice : : internalSetSlaveDevices ( TQStringList sd ) {
m_slaveDevices = sd ;
}
TQString TDEStorageDevice : : friendlyName ( ) {
// Return the actual storage device name
TQString devicevendorid = vendorEncoded ( ) ;
TQString devicemodelid = modelEncoded ( ) ;
devicevendorid . replace ( " \\ x20 " , " " ) ;
devicemodelid . replace ( " \\ x20 " , " " ) ;
devicevendorid = devicevendorid . stripWhiteSpace ( ) ;
devicemodelid = devicemodelid . stripWhiteSpace ( ) ;
devicevendorid = devicevendorid . simplifyWhiteSpace ( ) ;
devicemodelid = devicemodelid . simplifyWhiteSpace ( ) ;
TQString devicename = devicevendorid + " " + devicemodelid ;
devicename = devicename . stripWhiteSpace ( ) ;
devicename = devicename . simplifyWhiteSpace ( ) ;
if ( devicename ! = " " ) {
return devicename ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Floppy ) ) {
return friendlyDeviceType ( ) ;
}
TQString label = diskLabel ( ) ;
if ( label . isNull ( ) ) {
if ( deviceSize ( ) > 0 ) {
if ( checkDiskStatus ( TDEDiskDeviceStatus : : Hotpluggable ) ) {
label = i18n ( " %1 Removable Device " ) . arg ( deviceFriendlySize ( ) ) ;
}
else {
label = i18n ( " %1 Fixed Storage Device " ) . arg ( deviceFriendlySize ( ) ) ;
}
}
}
if ( ! label . isNull ( ) ) {
return label ;
}
return friendlyDeviceType ( ) ;
}
TQString TDEStorageDevice : : friendlyDeviceType ( ) {
TQString ret = i18n ( " Hard Disk Drive " ) ;
// Keep this in sync with TDEStorageDevice::icon(KIcon::StdSizes size) below
if ( isDiskOfType ( TDEDiskDeviceType : : Floppy ) ) {
ret = i18n ( " Floppy Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : CDROM ) ) {
ret = i18n ( " CDROM Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : CDRW ) ) {
ret = i18n ( " CDRW Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDROM ) ) {
ret = i18n ( " DVD Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDRW ) | | isDiskOfType ( TDEDiskDeviceType : : DVDRAM ) ) {
ret = i18n ( " DVDRW Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDRW ) ) {
ret = i18n ( " DVDRW Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDRAM ) ) {
ret = i18n ( " DVDRAM Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Optical ) ) {
ret = i18n ( " Optical Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Zip ) ) {
ret = i18n ( " Zip Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Tape ) ) {
ret = i18n ( " Tape Drive " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : HDD ) ) {
ret = i18n ( " Hard Disk Drive " ) ;
if ( checkDiskStatus ( TDEDiskDeviceStatus : : Hotpluggable ) ) {
ret = i18n ( " Removable Storage " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : CompactFlash ) ) {
ret = i18n ( " Compact Flash " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : MemoryStick ) ) {
ret = i18n ( " Memory Stick " ) ;
}
}
if ( isDiskOfType ( TDEDiskDeviceType : : RAM ) ) {
ret = i18n ( " Random Access Memory " ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Loop ) ) {
ret = i18n ( " Loop Device " ) ;
}
return ret ;
}
TQPixmap TDEStorageDevice : : icon ( KIcon : : StdSizes size ) {
TQPixmap ret = DesktopIcon ( " hdd_unmount " , size ) ;
if ( isDiskOfType ( TDEDiskDeviceType : : Floppy ) ) {
ret = DesktopIcon ( " 3floppy_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : CDROM ) ) {
ret = DesktopIcon ( " cdrom_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : CDRW ) ) {
ret = DesktopIcon ( " cdwriter_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDROM ) ) {
ret = DesktopIcon ( " dvd_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDRW ) ) {
ret = DesktopIcon ( " dvd_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : DVDRAM ) ) {
ret = DesktopIcon ( " dvd_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Optical ) ) {
ret = DesktopIcon ( " cdrom_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Zip ) ) {
ret = DesktopIcon ( " zip_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Tape ) ) {
ret = DesktopIcon ( " tape_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : HDD ) ) {
ret = DesktopIcon ( " hdd_unmount " , size ) ;
if ( checkDiskStatus ( TDEDiskDeviceStatus : : Hotpluggable ) ) {
ret = DesktopIcon ( " usbpendrive_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : CompactFlash ) ) {
ret = DesktopIcon ( " compact_flash_unmount " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : MemoryStick ) ) {
ret = DesktopIcon ( " memory_stick_unmount " , size ) ;
}
}
if ( isDiskOfType ( TDEDiskDeviceType : : RAM ) ) {
ret = DesktopIcon ( " memory " , size ) ;
}
if ( isDiskOfType ( TDEDiskDeviceType : : Loop ) ) {
ret = DesktopIcon ( " blockdevice " , size ) ;
}
return ret ;
}
unsigned long TDEStorageDevice : : deviceSize ( ) {
TQString bsnodename = systemPath ( ) ;
bsnodename . append ( " /queue/physical_block_size " ) ;
TQFile bsfile ( bsnodename ) ;
TQString blocksize ;
if ( bsfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & bsfile ) ;
blocksize = stream . readLine ( ) ;
bsfile . close ( ) ;
}
else {
// Drat, I can't get a gauranteed block size. Assume a block size of 512, as everything I have read indicates that /sys/block/<dev>/size is given in terms of a 512 byte block...
blocksize = " 512 " ;
}
TQString dsnodename = systemPath ( ) ;
dsnodename . append ( " /size " ) ;
TQFile dsfile ( dsnodename ) ;
TQString devicesize ;
if ( dsfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & dsfile ) ;
devicesize = stream . readLine ( ) ;
dsfile . close ( ) ;
}
return ( blocksize . toULong ( ) * devicesize . toULong ( ) ) ;
}
TQString TDEStorageDevice : : deviceFriendlySize ( ) {
return TDEHardwareDevices : : bytesToFriendlySizeString ( deviceSize ( ) ) ;
}
TQString TDEStorageDevice : : mountPath ( ) {
// See if this device node is mounted
// This requires parsing /proc/mounts, looking for deviceNode()
// The Device Mapper throws a monkey wrench into this
// It likes to advertise mounts as /dev/mapper/<something>,
// where <something> is listed in <system path>/dm/name
// First, ensure that all device information (mainly holders/slaves) is accurate
KGlobal : : hardwareDevices ( ) - > rescanDeviceInformation ( this ) ;
TQString dmnodename = systemPath ( ) ;
dmnodename . append ( " /dm/name " ) ;
TQFile namefile ( dmnodename ) ;
TQString dmaltname ;
if ( namefile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & namefile ) ;
dmaltname = stream . readLine ( ) ;
namefile . close ( ) ;
}
if ( ! dmaltname . isNull ( ) ) {
dmaltname . prepend ( " /dev/mapper/ " ) ;
}
TQStringList lines ;
TQFile file ( " /proc/mounts " ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
while ( ! stream . atEnd ( ) ) {
line = stream . readLine ( ) ;
TQStringList mountInfo = TQStringList : : split ( " " , line , true ) ;
TQString testNode = * mountInfo . at ( 0 ) ;
// Check for match
if ( ( testNode = = deviceNode ( ) ) | | ( testNode = = dmaltname ) ) {
return * mountInfo . at ( 1 ) ;
}
lines + = line ;
}
file . close ( ) ;
}
// While this device is not directly mounted, it could concievably be mounted via the Device Mapper
// If so, try to retrieve the mount path...
TQStringList slaveDeviceList = holdingDevices ( ) ;
for ( TQStringList : : Iterator slavedevit = slaveDeviceList . begin ( ) ; slavedevit ! = slaveDeviceList . end ( ) ; + + slavedevit ) {
// Try to locate this device path in the TDE device tree
TDEHardwareDevices * hwdevices = KGlobal : : hardwareDevices ( ) ;
TDEGenericDevice * hwdevice = hwdevices - > findBySystemPath ( * slavedevit ) ;
if ( ( hwdevice ) & & ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Disk ) ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( hwdevice ) ;
return sdevice - > mountPath ( ) ;
}
}
return TQString : : null ;
}
TQString TDEStorageDevice : : mountDevice ( TQString mediaName , TQString mountOptions , TQString * errRet , int * retcode ) {
int internal_retcode ;
if ( ! retcode ) {
retcode = & internal_retcode ;
}
TQString ret = mountPath ( ) ;
if ( ! ret . isNull ( ) ) {
return ret ;
}
// Create dummy password file
KTempFile passwordFile ( TQString : : null , " tmp " , 0600 ) ;
passwordFile . setAutoDelete ( true ) ;
TQString command = TQString ( " pmount -p %1 %2 %3 2>&1 " ) . arg ( passwordFile . name ( ) ) . arg ( mountOptions ) . arg ( deviceNode ( ) ) ;
if ( ! mediaName . isNull ( ) ) {
command . append ( mediaName ) ;
}
FILE * exepipe = popen ( command . ascii ( ) , " r " ) ;
if ( exepipe ) {
TQString pmount_output ;
char buffer [ 8092 ] ;
pmount_output = fgets ( buffer , sizeof ( buffer ) , exepipe ) ;
* retcode = pclose ( exepipe ) ;
if ( errRet ) {
* errRet = pmount_output ;
}
}
// Update internal mount data
KGlobal : : hardwareDevices ( ) - > processModifiedMounts ( ) ;
ret = mountPath ( ) ;
return ret ;
}
TQString TDEStorageDevice : : mountEncryptedDevice ( TQString passphrase , TQString mediaName , TQString mountOptions , TQString * errRet , int * retcode ) {
int internal_retcode ;
if ( ! retcode ) {
retcode = & internal_retcode ;
}
TQString ret = mountPath ( ) ;
if ( ! ret . isNull ( ) ) {
return ret ;
}
// Create dummy password file
KTempFile passwordFile ( TQString : : null , " tmp " , 0600 ) ;
passwordFile . setAutoDelete ( true ) ;
TQFile * pwFile = passwordFile . file ( ) ;
if ( ! pwFile ) {
return TQString : : null ;
}
pwFile - > writeBlock ( passphrase . ascii ( ) , passphrase . length ( ) ) ;
pwFile - > flush ( ) ;
TQString command = TQString ( " pmount -p %1 %2 %3 2>&1 " ) . arg ( passwordFile . name ( ) ) . arg ( mountOptions ) . arg ( deviceNode ( ) ) ;
if ( ! mediaName . isNull ( ) ) {
command . append ( mediaName ) ;
}
FILE * exepipe = popen ( command . ascii ( ) , " r " ) ;
if ( exepipe ) {
TQString pmount_output ;
char buffer [ 8092 ] ;
pmount_output = fgets ( buffer , sizeof ( buffer ) , exepipe ) ;
* retcode = pclose ( exepipe ) ;
if ( errRet ) {
* errRet = pmount_output ;
}
}
// Update internal mount data
KGlobal : : hardwareDevices ( ) - > processModifiedMounts ( ) ;
ret = mountPath ( ) ;
return ret ;
}
bool TDEStorageDevice : : unmountDevice ( TQString * errRet , int * retcode ) {
int internal_retcode ;
if ( ! retcode ) {
retcode = & internal_retcode ;
}
TQString mountpoint = mountPath ( ) ;
if ( mountpoint . isNull ( ) ) {
return true ;
}
TQString command = TQString ( " pumount %1 2>&1 " ) . arg ( mountpoint ) ;
FILE * exepipe = popen ( command . ascii ( ) , " r " ) ;
if ( exepipe ) {
TQString pmount_output ;
char buffer [ 8092 ] ;
pmount_output = fgets ( buffer , sizeof ( buffer ) , exepipe ) ;
* retcode = pclose ( exepipe ) ;
if ( * retcode = = 0 ) {
return true ;
}
else {
if ( errRet ) {
* errRet = pmount_output ;
}
}
}
// Update internal mount data
KGlobal : : hardwareDevices ( ) - > processModifiedMounts ( ) ;
return false ;
}
TDECPUDevice : : TDECPUDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDECPUDevice : : ~ TDECPUDevice ( ) {
}
double TDECPUDevice : : frequency ( ) {
return m_frequency ;
}
void TDECPUDevice : : internalSetFrequency ( double fr ) {
m_frequency = fr ;
}
double TDECPUDevice : : minFrequency ( ) {
return m_minfrequency ;
}
void TDECPUDevice : : internalSetMinFrequency ( double fr ) {
m_minfrequency = fr ;
}
double TDECPUDevice : : maxFrequency ( ) {
return m_maxfrequency ;
}
void TDECPUDevice : : internalSetMaxFrequency ( double fr ) {
m_maxfrequency = fr ;
}
double TDECPUDevice : : transitionLatency ( ) {
return m_transitionlatency ;
}
void TDECPUDevice : : internalSetTransitionLatency ( double tl ) {
m_transitionlatency = tl ;
}
TQString TDECPUDevice : : governor ( ) {
return m_governor ;
}
void TDECPUDevice : : internalSetGovernor ( TQString gr ) {
m_governor = gr ;
}
TQString TDECPUDevice : : scalingDriver ( ) {
return m_scalingdriver ;
}
void TDECPUDevice : : internalSetScalingDriver ( TQString dr ) {
m_scalingdriver = dr ;
}
TQStringList TDECPUDevice : : dependentProcessors ( ) {
return m_tiedprocs ;
}
void TDECPUDevice : : internalSetDependentProcessors ( TQStringList dp ) {
m_tiedprocs = dp ;
}
TQStringList TDECPUDevice : : availableFrequencies ( ) {
return m_frequencies ;
}
void TDECPUDevice : : internalSetAvailableFrequencies ( TQStringList af ) {
m_frequencies = af ;
}
TQStringList TDECPUDevice : : availableGovernors ( ) {
return m_governers ;
}
void TDECPUDevice : : internalSetAvailableGovernors ( TQStringList gp ) {
m_governers = gp ;
}
bool TDECPUDevice : : canSetGovernor ( ) {
TQString governornode = systemPath ( ) + " /cpufreq/scaling_governor " ;
int rval = access ( governornode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
return TRUE ;
}
else {
return FALSE ;
}
}
void TDECPUDevice : : setGovernor ( TQString gv ) {
TQString governornode = systemPath ( ) + " /cpufreq/scaling_governor " ;
TQFile file ( governornode ) ;
if ( file . open ( IO_WriteOnly ) ) {
TQTextStream stream ( & file ) ;
stream < < gv . lower ( ) ;
file . close ( ) ;
}
// Force update of the device information object
KGlobal : : hardwareDevices ( ) - > processModifiedCPUs ( ) ;
}
bool TDECPUDevice : : canSetMaximumScalingFrequency ( ) {
TQString freqnode = systemPath ( ) + " /cpufreq/scaling_max_freq " ;
int rval = access ( freqnode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
return TRUE ;
}
else {
return FALSE ;
}
}
void TDECPUDevice : : setMaximumScalingFrequency ( double fr ) {
TQString freqnode = systemPath ( ) + " /cpufreq/scaling_max_freq " ;
TQFile file ( freqnode ) ;
if ( file . open ( IO_WriteOnly ) ) {
TQTextStream stream ( & file ) ;
stream < < TQString ( " %1 " ) . arg ( fr * 1000000.0 , 0 , ' f ' , 0 ) ;
file . close ( ) ;
}
// Force update of the device information object
KGlobal : : hardwareDevices ( ) - > processModifiedCPUs ( ) ;
}
TDESensorDevice : : TDESensorDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDESensorDevice : : ~ TDESensorDevice ( ) {
}
TDESensorClusterMap TDESensorDevice : : values ( ) {
return m_sensorValues ;
}
void TDESensorDevice : : internalSetValues ( TDESensorClusterMap cl ) {
m_sensorValues = cl ;
}
TDERootSystemDevice : : TDERootSystemDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
m_hibernationSpace = - 1 ;
}
TDERootSystemDevice : : ~ TDERootSystemDevice ( ) {
}
TDESystemFormFactor : : TDESystemFormFactor TDERootSystemDevice : : formFactor ( ) {
return m_formFactor ;
}
void TDERootSystemDevice : : internalSetFormFactor ( TDESystemFormFactor : : TDESystemFormFactor ff ) {
m_formFactor = ff ;
}
TDESystemPowerStateList TDERootSystemDevice : : powerStates ( ) {
return m_powerStates ;
}
void TDERootSystemDevice : : internalSetPowerStates ( TDESystemPowerStateList ps ) {
m_powerStates = ps ;
}
TDESystemHibernationMethodList TDERootSystemDevice : : hibernationMethods ( ) {
return m_hibernationMethods ;
}
void TDERootSystemDevice : : internalSetHibernationMethods ( TDESystemHibernationMethodList hm ) {
m_hibernationMethods = hm ;
}
TDESystemHibernationMethod : : TDESystemHibernationMethod TDERootSystemDevice : : hibernationMethod ( ) {
return m_hibernationMethod ;
}
void TDERootSystemDevice : : internalSetHibernationMethod ( TDESystemHibernationMethod : : TDESystemHibernationMethod hm ) {
m_hibernationMethod = hm ;
}
unsigned long TDERootSystemDevice : : diskSpaceNeededForHibernation ( ) {
return m_hibernationSpace ;
}
void TDERootSystemDevice : : internalSetDiskSpaceNeededForHibernation ( unsigned long sz ) {
m_hibernationSpace = sz ;
}
bool TDERootSystemDevice : : canSetHibernationMethod ( ) {
TQString hibernationnode = " /sys/power/disk " ;
int rval = access ( hibernationnode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
return TRUE ;
}
else {
return FALSE ;
}
}
bool TDERootSystemDevice : : canStandby ( ) {
TQString statenode = " /sys/power/state " ;
int rval = access ( statenode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
if ( powerStates ( ) . contains ( TDESystemPowerState : : Standby ) ) {
return TRUE ;
}
else {
return FALSE ;
}
}
else {
return FALSE ;
}
}
bool TDERootSystemDevice : : canSuspend ( ) {
TQString statenode = " /sys/power/state " ;
int rval = access ( statenode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
if ( powerStates ( ) . contains ( TDESystemPowerState : : Suspend ) ) {
return TRUE ;
}
else {
return FALSE ;
}
}
else {
return FALSE ;
}
}
bool TDERootSystemDevice : : canHibernate ( ) {
TQString statenode = " /sys/power/state " ;
int rval = access ( statenode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
if ( powerStates ( ) . contains ( TDESystemPowerState : : Hibernate ) ) {
return TRUE ;
}
else {
return FALSE ;
}
}
else {
return FALSE ;
}
}
bool TDERootSystemDevice : : canPowerOff ( ) {
// FIXME
// Can we power down this system?
// This should probably be checked via DCOP and therefore interface with KDM
KConfig * config = KGlobal : : config ( ) ;
config - > reparseConfiguration ( ) ; // config may have changed in the KControl module
config - > setGroup ( " General " ) ;
bool maysd = false ;
if ( config - > readBoolEntry ( " offerShutdown " , true ) /* && DM().canShutdown()*/ ) { // FIXME
maysd = true ;
}
return maysd ;
}
void TDERootSystemDevice : : setHibernationMethod ( TDESystemHibernationMethod : : TDESystemHibernationMethod hm ) {
TQString hibernationnode = " /sys/power/disk " ;
TQFile file ( hibernationnode ) ;
if ( file . open ( IO_WriteOnly ) ) {
TQString hibernationCommand ;
if ( hm = = TDESystemHibernationMethod : : Platform ) {
hibernationCommand = " platform " ;
}
if ( hm = = TDESystemHibernationMethod : : Shutdown ) {
hibernationCommand = " shutdown " ;
}
if ( hm = = TDESystemHibernationMethod : : Reboot ) {
hibernationCommand = " reboot " ;
}
if ( hm = = TDESystemHibernationMethod : : TestProc ) {
hibernationCommand = " testproc " ;
}
if ( hm = = TDESystemHibernationMethod : : Test ) {
hibernationCommand = " test " ;
}
TQTextStream stream ( & file ) ;
stream < < hibernationCommand ;
file . close ( ) ;
}
}
bool TDERootSystemDevice : : setPowerState ( TDESystemPowerState : : TDESystemPowerState ps ) {
if ( ( ps = = TDESystemPowerState : : Standby ) | | ( ps = = TDESystemPowerState : : Suspend ) | | ( ps = = TDESystemPowerState : : Hibernate ) ) {
TQString statenode = " /sys/power/state " ;
TQFile file ( statenode ) ;
if ( file . open ( IO_WriteOnly ) ) {
TQString powerCommand ;
if ( ps = = TDESystemPowerState : : Standby ) {
powerCommand = " standby " ;
}
if ( ps = = TDESystemPowerState : : Suspend ) {
powerCommand = " mem " ;
}
if ( ps = = TDESystemPowerState : : Hibernate ) {
powerCommand = " disk " ;
}
TQTextStream stream ( & file ) ;
stream < < powerCommand ;
file . close ( ) ;
return true ;
}
}
else if ( ps = = TDESystemPowerState : : PowerOff ) {
// Power down the system using a DCOP command
// Values are explained at http://lists.kde.org/?l=kde-linux&m=115770988603387
TQByteArray data ;
TQDataStream arg ( data , IO_WriteOnly ) ;
arg < < ( int ) 0 < < ( int ) 2 < < ( int ) 2 ;
if ( kapp - > dcopClient ( ) - > send ( " ksmserver " , " default " , " logout(int,int,int) " , data ) ) {
return true ;
}
return false ;
}
else if ( ps = = TDESystemPowerState : : Active ) {
// Ummm...we're already active...
return true ;
}
return false ;
}
TDEBatteryDevice : : TDEBatteryDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDEBatteryDevice : : ~ TDEBatteryDevice ( ) {
}
double TDEBatteryDevice : : voltage ( ) {
return m_currentVoltage ;
}
void TDEBatteryDevice : : internalSetVoltage ( double vt ) {
m_currentVoltage = vt ;
}
double TDEBatteryDevice : : maximumVoltage ( ) {
return m_maximumVoltage ;
}
void TDEBatteryDevice : : internalSetMaximumVoltage ( double vt ) {
m_maximumVoltage = vt ;
}
double TDEBatteryDevice : : minimumVoltage ( ) {
return m_minimumVoltage ;
}
void TDEBatteryDevice : : internalSetMinimumVoltage ( double vt ) {
m_minimumVoltage = vt ;
}
double TDEBatteryDevice : : maximumDesignVoltage ( ) {
return m_maximumDesignVoltage ;
}
void TDEBatteryDevice : : internalSetMaximumDesignVoltage ( double vt ) {
m_maximumDesignVoltage = vt ;
}
double TDEBatteryDevice : : energy ( ) {
return m_currentEnergy ;
}
void TDEBatteryDevice : : internalSetEnergy ( double vt ) {
m_currentEnergy = vt ;
}
double TDEBatteryDevice : : alarmEnergy ( ) {
return m_alarmEnergy ;
}
void TDEBatteryDevice : : internalSetAlarmEnergy ( double vt ) {
m_alarmEnergy = vt ;
}
double TDEBatteryDevice : : maximumEnergy ( ) {
return m_maximumEnergy ;
}
void TDEBatteryDevice : : internalSetMaximumEnergy ( double vt ) {
m_maximumEnergy = vt ;
}
double TDEBatteryDevice : : maximumDesignEnergy ( ) {
return m_maximumDesignEnergy ;
}
void TDEBatteryDevice : : internalSetMaximumDesignEnergy ( double vt ) {
m_maximumDesignEnergy = vt ;
}
double TDEBatteryDevice : : dischargeRate ( ) {
return m_dischargeRate ;
}
void TDEBatteryDevice : : internalSetDischargeRate ( double vt ) {
m_dischargeRate = vt ;
}
double TDEBatteryDevice : : timeRemaining ( ) {
return m_timeRemaining ;
}
void TDEBatteryDevice : : internalSetTimeRemaining ( double tr ) {
m_timeRemaining = tr ;
}
TQString TDEBatteryDevice : : technology ( ) {
return m_technology ;
}
void TDEBatteryDevice : : internalSetTechnology ( TQString tc ) {
m_technology = tc ;
}
TDEBatteryStatus : : TDEBatteryStatus TDEBatteryDevice : : status ( ) {
return m_status ;
}
void TDEBatteryDevice : : internalSetStatus ( TQString tc ) {
tc = tc . lower ( ) ;
if ( tc = = " charging " ) {
m_status = TDEBatteryStatus : : Charging ;
}
else if ( tc = = " discharging " ) {
m_status = TDEBatteryStatus : : Discharging ;
}
else if ( tc = = " full " ) {
m_status = TDEBatteryStatus : : Full ;
}
else {
m_status = TDEBatteryStatus : : Unknown ;
}
}
bool TDEBatteryDevice : : installed ( ) {
return m_installed ;
}
void TDEBatteryDevice : : internalSetInstalled ( bool tc ) {
m_installed = tc ;
}
double TDEBatteryDevice : : chargePercent ( ) {
return ( m_currentEnergy / m_maximumEnergy ) * 100.0 ;
}
TDEMainsPowerDevice : : TDEMainsPowerDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDEMainsPowerDevice : : ~ TDEMainsPowerDevice ( ) {
}
bool TDEMainsPowerDevice : : online ( ) {
return m_online ;
}
void TDEMainsPowerDevice : : internalSetOnline ( bool tc ) {
m_online = tc ;
}
TDENetworkDevice : : TDENetworkDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
m_rxbytes = - 1 ;
m_txbytes = - 1 ;
m_rxpackets = - 1 ;
m_txpackets = - 1 ;
}
TDENetworkDevice : : ~ TDENetworkDevice ( ) {
}
TQString TDENetworkDevice : : macAddress ( ) {
return m_macAddress ;
}
void TDENetworkDevice : : internalSetMacAddress ( TQString ma ) {
m_macAddress = ma ;
}
TQString TDENetworkDevice : : state ( ) {
return m_state ;
}
void TDENetworkDevice : : internalSetState ( TQString st ) {
m_state = st ;
}
bool TDENetworkDevice : : carrierPresent ( ) {
return m_carrier ;
}
void TDENetworkDevice : : internalSetCarrierPresent ( bool cp ) {
m_carrier = cp ;
}
bool TDENetworkDevice : : dormant ( ) {
return m_dormant ;
}
void TDENetworkDevice : : internalSetDormant ( bool dm ) {
m_dormant = dm ;
}
TQString TDENetworkDevice : : ipV4Address ( ) {
return m_ipV4Address ;
}
void TDENetworkDevice : : internalSetIpV4Address ( TQString ad ) {
m_ipV4Address = ad ;
}
TQString TDENetworkDevice : : ipV6Address ( ) {
return m_ipV6Address ;
}
void TDENetworkDevice : : internalSetIpV6Address ( TQString ad ) {
m_ipV6Address = ad ;
}
TQString TDENetworkDevice : : ipV4Netmask ( ) {
return m_ipV4Netmask ;
}
void TDENetworkDevice : : internalSetIpV4Netmask ( TQString nm ) {
m_ipV4Netmask = nm ;
}
TQString TDENetworkDevice : : ipV6Netmask ( ) {
return m_ipV6Netmask ;
}
void TDENetworkDevice : : internalSetIpV6Netmask ( TQString nm ) {
m_ipV6Netmask = nm ;
}
TQString TDENetworkDevice : : ipV4Broadcast ( ) {
return m_ipV4Broadcast ;
}
void TDENetworkDevice : : internalSetIpV4Broadcast ( TQString br ) {
m_ipV4Broadcast = br ;
}
TQString TDENetworkDevice : : ipV6Broadcast ( ) {
return m_ipV6Broadcast ;
}
void TDENetworkDevice : : internalSetIpV6Broadcast ( TQString br ) {
m_ipV6Broadcast = br ;
}
TQString TDENetworkDevice : : ipV4Destination ( ) {
return m_ipV4Destination ;
}
void TDENetworkDevice : : internalSetIpV4Destination ( TQString ds ) {
m_ipV4Destination = ds ;
}
TQString TDENetworkDevice : : ipV6Destination ( ) {
return m_ipV6Destination ;
}
void TDENetworkDevice : : internalSetIpV6Destination ( TQString ds ) {
m_ipV6Destination = ds ;
}
double TDENetworkDevice : : rxBytes ( ) {
return m_rxbytes ;
}
void TDENetworkDevice : : internalSetRxBytes ( double rx ) {
m_rxbytes = rx ;
}
double TDENetworkDevice : : txBytes ( ) {
return m_txbytes ;
}
void TDENetworkDevice : : internalSetTxBytes ( double tx ) {
m_txbytes = tx ;
}
double TDENetworkDevice : : rxPackets ( ) {
return m_rxpackets ;
}
void TDENetworkDevice : : internalSetRxPackets ( double rx ) {
m_rxpackets = rx ;
}
double TDENetworkDevice : : txPackets ( ) {
return m_txpackets ;
}
void TDENetworkDevice : : internalSetTxPackets ( double tx ) {
m_txpackets = tx ;
}
TDEBacklightDevice : : TDEBacklightDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDEBacklightDevice : : ~ TDEBacklightDevice ( ) {
}
TDEDisplayPowerLevel : : TDEDisplayPowerLevel TDEBacklightDevice : : powerLevel ( ) {
return m_powerLevel ;
}
void TDEBacklightDevice : : internalSetPowerLevel ( TDEDisplayPowerLevel : : TDEDisplayPowerLevel pl ) {
m_powerLevel = pl ;
}
void TDEBacklightDevice : : internalSetMaximumRawBrightness ( int br ) {
m_maximumBrightness = br ;
}
void TDEBacklightDevice : : internalSetCurrentRawBrightness ( int br ) {
m_currentBrightness = br ;
}
int TDEBacklightDevice : : brightnessSteps ( ) {
return m_maximumBrightness + 1 ;
}
double TDEBacklightDevice : : brightnessPercent ( ) {
return ( ( ( m_currentBrightness * 1.0 ) / m_maximumBrightness ) * 100.0 ) ;
}
bool TDEBacklightDevice : : canSetBrightness ( ) {
TQString brightnessnode = systemPath ( ) + " /brightness " ;
int rval = access ( brightnessnode . ascii ( ) , W_OK ) ;
if ( rval = = 0 ) {
return TRUE ;
}
else {
return FALSE ;
}
}
int TDEBacklightDevice : : rawBrightness ( ) {
return m_currentBrightness ;
}
void TDEBacklightDevice : : setRawBrightness ( int br ) {
TQString brightnessnode = systemPath ( ) + " /brightness " ;
TQFile file ( brightnessnode ) ;
if ( file . open ( IO_WriteOnly ) ) {
TQString brightnessCommand ;
brightnessCommand = TQString ( " %1 " ) . arg ( br ) ;
TQTextStream stream ( & file ) ;
stream < < brightnessCommand ;
file . close ( ) ;
}
}
TDEMonitorDevice : : TDEMonitorDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDEMonitorDevice : : ~ TDEMonitorDevice ( ) {
}
bool TDEMonitorDevice : : connected ( ) {
return m_connected ;
}
void TDEMonitorDevice : : internalSetConnected ( bool cn ) {
m_connected = cn ;
}
bool TDEMonitorDevice : : enabled ( ) {
return m_enabled ;
}
void TDEMonitorDevice : : internalSetEnabled ( bool en ) {
m_enabled = en ;
}
TQByteArray TDEMonitorDevice : : edid ( ) {
return m_edid ;
}
void TDEMonitorDevice : : internalSetEdid ( TQByteArray ed ) {
m_edid = ed ;
}
TDEResolutionList TDEMonitorDevice : : resolutions ( ) {
return m_resolutions ;
}
void TDEMonitorDevice : : internalSetResolutions ( TDEResolutionList rs ) {
m_resolutions = rs ;
}
TQString TDEMonitorDevice : : portType ( ) {
return m_portType ;
}
void TDEMonitorDevice : : internalSetPortType ( TQString pt ) {
m_portType = pt ;
}
TDEDisplayPowerLevel : : TDEDisplayPowerLevel TDEMonitorDevice : : powerLevel ( ) {
return m_powerLevel ;
}
void TDEMonitorDevice : : internalSetPowerLevel ( TDEDisplayPowerLevel : : TDEDisplayPowerLevel pl ) {
m_powerLevel = pl ;
}
TDEEventDevice : : TDEEventDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
m_fd = - 1 ;
m_fdMonitorActive = false ;
}
TDEEventDevice : : ~ TDEEventDevice ( ) {
if ( m_fd > = 0 ) {
close ( m_fd ) ;
}
}
TDEEventDeviceType : : TDEEventDeviceType TDEEventDevice : : eventType ( ) {
return m_eventType ;
}
void TDEEventDevice : : internalSetEventType ( TDEEventDeviceType : : TDEEventDeviceType et ) {
m_eventType = et ;
}
TDESwitchType : : TDESwitchType TDEEventDevice : : providedSwitches ( ) {
return m_providedSwitches ;
}
void TDEEventDevice : : internalSetProvidedSwitches ( TDESwitchType : : TDESwitchType sl ) {
m_providedSwitches = sl ;
}
TDESwitchType : : TDESwitchType TDEEventDevice : : activeSwitches ( ) {
return m_switchActive ;
}
void TDEEventDevice : : internalSetActiveSwitches ( TDESwitchType : : TDESwitchType sl ) {
m_switchActive = sl ;
}
// Keep this in sync with the TDESwitchType definition in the header
TQStringList TDEEventDevice : : friendlySwitchList ( TDESwitchType : : TDESwitchType switches ) {
TQStringList ret ;
if ( switches & TDESwitchType : : Lid ) {
ret . append ( i18n ( " Lid Switch " ) ) ;
}
if ( switches & TDESwitchType : : TabletMode ) {
ret . append ( i18n ( " Tablet Mode " ) ) ;
}
if ( switches & TDESwitchType : : HeadphoneInsert ) {
ret . append ( i18n ( " Headphone Inserted " ) ) ;
}
if ( switches & TDESwitchType : : RFKill ) {
ret . append ( i18n ( " Radio Frequency Device Kill Switch " ) ) ;
}
if ( switches & TDESwitchType : : Radio ) {
ret . append ( i18n ( " Enable Radio " ) ) ;
}
if ( switches & TDESwitchType : : MicrophoneInsert ) {
ret . append ( i18n ( " Microphone Inserted " ) ) ;
}
if ( switches & TDESwitchType : : Dock ) {
ret . append ( i18n ( " Docked " ) ) ;
}
if ( switches & TDESwitchType : : LineOutInsert ) {
ret . append ( i18n ( " Line Out Inserted " ) ) ;
}
if ( switches & TDESwitchType : : JackPhysicalInsert ) {
ret . append ( i18n ( " Physical Jack Inserted " ) ) ;
}
if ( switches & TDESwitchType : : VideoOutInsert ) {
ret . append ( i18n ( " Video Out Inserted " ) ) ;
}
if ( switches & TDESwitchType : : CameraLensCover ) {
ret . append ( i18n ( " Camera Lens Cover " ) ) ;
}
if ( switches & TDESwitchType : : KeypadSlide ) {
ret . append ( i18n ( " Keypad Slide " ) ) ;
}
if ( switches & TDESwitchType : : FrontProximity ) {
ret . append ( i18n ( " Front Proximity " ) ) ;
}
if ( switches & TDESwitchType : : RotateLock ) {
ret . append ( i18n ( " Rotate Lock " ) ) ;
}
if ( switches & TDESwitchType : : LineInInsert ) {
ret . append ( i18n ( " Line In Inserted " ) ) ;
}
return ret ;
}
void TDEEventDevice : : internalStartFdMonitoring ( TDEHardwareDevices * hwmanager ) {
if ( ! m_fdMonitorActive ) {
// For security and performance reasons, only monitor known ACPI buttons
if ( eventType ( ) ! = TDEEventDeviceType : : Unknown ) {
m_eventNotifier = new TQSocketNotifier ( m_fd , TQSocketNotifier : : Read , this ) ;
connect ( m_eventNotifier , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( eventReceived ( ) ) ) ;
connect ( this , TQT_SIGNAL ( keyPressed ( unsigned int , TDEEventDevice * ) ) , hwmanager , TQT_SLOT ( processEventDeviceKeyPressed ( unsigned int , TDEEventDevice * ) ) ) ;
}
m_fdMonitorActive = true ;
}
}
void TDEEventDevice : : eventReceived ( ) {
struct input_event ev ;
int r ;
r = read ( m_fd , & ev , sizeof ( struct input_event ) ) ;
if ( r > 0 ) {
if ( ev . type = = EV_KEY ) {
emit keyPressed ( ev . code , this ) ;
}
}
}
TDEInputDevice : : TDEInputDevice ( TDEGenericDeviceType : : TDEGenericDeviceType dt , TQString dn ) : TDEGenericDevice ( dt , dn ) {
}
TDEInputDevice : : ~ TDEInputDevice ( ) {
}
TDEInputDeviceType : : TDEInputDeviceType TDEInputDevice : : inputType ( ) {
return m_inputType ;
}
void TDEInputDevice : : internalSetInputType ( TDEInputDeviceType : : TDEInputDeviceType it ) {
m_inputType = it ;
}
TDEHardwareDevices : : TDEHardwareDevices ( ) {
// Initialize members
pci_id_map = 0 ;
usb_id_map = 0 ;
pnp_id_map = 0 ;
dpy_id_map = 0 ;
// Set up device list
m_deviceList . setAutoDelete ( TRUE ) ; // the list owns the objects
// Initialize udev interface
m_udevStruct = udev_new ( ) ;
if ( ! m_udevStruct ) {
printf ( " Unable to create udev interface \n \r " ) ;
}
if ( m_udevStruct ) {
// Set up device add/remove monitoring
m_udevMonitorStruct = udev_monitor_new_from_netlink ( m_udevStruct , " udev " ) ;
udev_monitor_filter_add_match_subsystem_devtype ( m_udevMonitorStruct , NULL , NULL ) ;
udev_monitor_enable_receiving ( m_udevMonitorStruct ) ;
m_devScanNotifier = new TQSocketNotifier ( udev_monitor_get_fd ( m_udevMonitorStruct ) , TQSocketNotifier : : Read , this ) ;
connect ( m_devScanNotifier , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( processHotPluggedHardware ( ) ) ) ;
// Read in the current mount table
// Yes, a race condition exists between this and the mount monitor start below, but it shouldn't be a problem 99.99% of the time
m_mountTable . clear ( ) ;
TQFile file ( " /proc/mounts " ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
while ( ! stream . atEnd ( ) ) {
m_mountTable . append ( stream . readLine ( ) ) ;
}
file . close ( ) ;
}
// Monitor for changed mounts
m_procMountsFd = open ( " /proc/mounts " , O_RDONLY , 0 ) ;
m_mountScanNotifier = new TQSocketNotifier ( m_procMountsFd , TQSocketNotifier : : Exception , this ) ;
connect ( m_mountScanNotifier , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( processModifiedMounts ( ) ) ) ;
// Read in the current cpu information
// Yes, a race condition exists between this and the cpu monitor start below, but it shouldn't be a problem 99.99% of the time
m_cpuInfo . clear ( ) ;
TQFile cpufile ( " /proc/cpuinfo " ) ;
if ( cpufile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & cpufile ) ;
while ( ! stream . atEnd ( ) ) {
m_cpuInfo . append ( stream . readLine ( ) ) ;
}
cpufile . close ( ) ;
}
// [FIXME 0.01]
// Apparently the Linux kernel just does not notify userspace applications of CPU frequency changes
// This is STUPID, as it means I have to poll the CPU information structures with a 0.5 second or so timer just to keep the information up to date
#if 0
// Monitor for changed cpu information
// Watched directories are set up during the initial CPU scan
m_cpuWatch = new KSimpleDirWatch ( this ) ;
connect ( m_cpuWatch , TQT_SIGNAL ( dirty ( const TQString & ) ) , this , TQT_SLOT ( processModifiedCPUs ( ) ) ) ;
# else
m_cpuWatchTimer = new TQTimer ( this ) ;
connect ( m_cpuWatchTimer , SIGNAL ( timeout ( ) ) , this , SLOT ( processModifiedCPUs ( ) ) ) ;
TQDir nodezerocpufreq ( " /sys/devices/system/cpu/cpu0/cpufreq " ) ;
if ( nodezerocpufreq . exists ( ) ) {
m_cpuWatchTimer - > start ( 500 , FALSE ) ; // 0.5 second repeating timer
}
# endif
// Some devices do not receive update signals from udev
// These devices must be polled, and a good polling interval is 1 second
m_deviceWatchTimer = new TQTimer ( this ) ;
connect ( m_deviceWatchTimer , SIGNAL ( timeout ( ) ) , this , SLOT ( processStatelessDevices ( ) ) ) ;
m_deviceWatchTimer - > start ( 1000 , FALSE ) ; // 1 second repeating timer
// Update internal device information
queryHardwareInformation ( ) ;
}
}
TDEHardwareDevices : : ~ TDEHardwareDevices ( ) {
// Stop device scanning
m_deviceWatchTimer - > stop ( ) ;
// [FIXME 0.01]
#if 0
// Stop CPU scanning
m_cpuWatch - > stopScan ( ) ;
# else
m_cpuWatchTimer - > stop ( ) ;
# endif
// Stop mount scanning
close ( m_procMountsFd ) ;
// Tear down udev interface
udev_unref ( m_udevStruct ) ;
// Delete members
if ( pci_id_map ) {
delete pci_id_map ;
}
if ( usb_id_map ) {
delete usb_id_map ;
}
if ( pnp_id_map ) {
delete pnp_id_map ;
}
if ( dpy_id_map ) {
delete dpy_id_map ;
}
}
void TDEHardwareDevices : : rescanDeviceInformation ( TDEGenericDevice * hwdevice ) {
struct udev_device * dev ;
dev = udev_device_new_from_syspath ( m_udevStruct , hwdevice - > systemPath ( ) . ascii ( ) ) ;
classifyUnknownDevice ( dev , hwdevice , false ) ;
updateParentDeviceInformation ( hwdevice ) ; // Update parent/child tables for this device
udev_device_unref ( dev ) ;
}
TDEGenericDevice * TDEHardwareDevices : : findBySystemPath ( TQString syspath ) {
if ( ! syspath . endsWith ( " / " ) ) {
syspath + = " / " ;
}
TDEGenericDevice * hwdevice ;
// We can't use m_deviceList directly as m_deviceList can only have one iterator active against it at any given time
TDEGenericHardwareList devList = listAllPhysicalDevices ( ) ;
for ( hwdevice = devList . first ( ) ; hwdevice ; hwdevice = devList . next ( ) ) {
if ( hwdevice - > systemPath ( ) = = syspath ) {
return hwdevice ;
}
}
return 0 ;
}
TDEGenericDevice * TDEHardwareDevices : : findByUniqueID ( TQString uid ) {
TDEGenericDevice * hwdevice ;
// We can't use m_deviceList directly as m_deviceList can only have one iterator active against it at any given time
TDEGenericHardwareList devList = listAllPhysicalDevices ( ) ;
for ( hwdevice = devList . first ( ) ; hwdevice ; hwdevice = devList . next ( ) ) {
if ( hwdevice - > uniqueID ( ) = = uid ) {
return hwdevice ;
}
}
return 0 ;
}
TDEGenericDevice * TDEHardwareDevices : : findByDeviceNode ( TQString devnode ) {
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > deviceNode ( ) = = devnode ) {
return hwdevice ;
}
}
return 0 ;
}
TDEStorageDevice * TDEHardwareDevices : : findDiskByUID ( TQString uid ) {
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( hwdevice ) ;
if ( sdevice - > uniqueID ( ) = = uid ) {
return sdevice ;
}
}
}
return 0 ;
}
void TDEHardwareDevices : : processHotPluggedHardware ( ) {
udev_device * dev = udev_monitor_receive_device ( m_udevMonitorStruct ) ;
if ( dev ) {
TQString actionevent ( udev_device_get_action ( dev ) ) ;
if ( actionevent = = " add " ) {
TDEGenericDevice * device = classifyUnknownDevice ( dev ) ;
// Make sure this device is not a duplicate
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > systemPath ( ) = = device - > systemPath ( ) ) {
delete device ;
device = 0 ;
break ;
}
}
if ( device ) {
m_deviceList . append ( device ) ;
updateParentDeviceInformation ( device ) ; // Update parent/child tables for this device
emit hardwareAdded ( device ) ;
}
}
else if ( actionevent = = " remove " ) {
// Delete device from hardware listing
TQString systempath ( udev_device_get_syspath ( dev ) ) ;
systempath + = " / " ;
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > systemPath ( ) = = systempath ) {
emit hardwareRemoved ( hwdevice ) ;
// If the device is a storage device and has a slave, update it as well
if ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( hwdevice ) ;
TQStringList slavedevices = sdevice - > slaveDevices ( ) ;
m_deviceList . remove ( hwdevice ) ;
for ( TQStringList : : Iterator slaveit = slavedevices . begin ( ) ; slaveit ! = slavedevices . end ( ) ; + + slaveit ) {
TDEGenericDevice * slavedevice = findBySystemPath ( * slaveit ) ;
if ( slavedevice ) {
rescanDeviceInformation ( slavedevice ) ;
emit hardwareUpdated ( slavedevice ) ;
}
}
}
else {
m_deviceList . remove ( hwdevice ) ;
}
break ;
}
}
}
else if ( actionevent = = " change " ) {
// Update device and emit change event
TQString systempath ( udev_device_get_syspath ( dev ) ) ;
systempath + = " / " ;
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > systemPath ( ) = = systempath ) {
if ( ! hwdevice - > blacklistedForUpdate ( ) ) {
classifyUnknownDevice ( dev , hwdevice , false ) ;
updateParentDeviceInformation ( hwdevice ) ; // Update parent/child tables for this device
emit hardwareUpdated ( hwdevice ) ;
}
break ;
}
}
}
}
}
void TDEHardwareDevices : : processModifiedCPUs ( ) {
// Detect what changed between the old cpu information and the new information,
// and emit appropriate events
// Read new CPU information table
m_cpuInfo . clear ( ) ;
TQFile cpufile ( " /proc/cpuinfo " ) ;
if ( cpufile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & cpufile ) ;
while ( ! stream . atEnd ( ) ) {
m_cpuInfo . append ( stream . readLine ( ) ) ;
}
cpufile . close ( ) ;
}
// Parse CPU information table
TDECPUDevice * cdevice ;
cdevice = 0 ;
bool modified = false ;
TQString curline ;
int processorNumber = 0 ;
int processorCount = 0 ;
for ( TQStringList : : Iterator cpuit = m_cpuInfo . begin ( ) ; cpuit ! = m_cpuInfo . end ( ) ; + + cpuit ) {
// WARNING This routine assumes that "processor" is always the first entry in /proc/cpuinfo!
curline = * cpuit ;
if ( curline . startsWith ( " processor " ) ) {
curline . remove ( 0 , curline . find ( " : " ) + 1 ) ;
curline = curline . stripWhiteSpace ( ) ;
processorNumber = curline . toInt ( ) ;
cdevice = dynamic_cast < TDECPUDevice * > ( findBySystemPath ( TQString ( " /sys/devices/system/cpu/cpu%1 " ) . arg ( processorNumber ) ) ) ;
}
if ( curline . startsWith ( " model name " ) ) {
curline . remove ( 0 , curline . find ( " : " ) + 1 ) ;
curline = curline . stripWhiteSpace ( ) ;
if ( cdevice - > name ( ) ! = curline ) modified = true ;
cdevice - > internalSetName ( curline ) ;
}
if ( curline . startsWith ( " cpu MHz " ) ) {
curline . remove ( 0 , curline . find ( " : " ) + 1 ) ;
curline = curline . stripWhiteSpace ( ) ;
if ( cdevice - > frequency ( ) ! = curline . toDouble ( ) ) modified = true ;
cdevice - > internalSetFrequency ( curline . toDouble ( ) ) ;
}
if ( curline . startsWith ( " vendor_id " ) ) {
curline . remove ( 0 , curline . find ( " : " ) + 1 ) ;
curline = curline . stripWhiteSpace ( ) ;
if ( cdevice - > vendorName ( ) ! = curline ) modified = true ;
cdevice - > internalSetVendorName ( curline ) ;
if ( cdevice - > vendorEncoded ( ) ! = curline ) modified = true ;
cdevice - > internalSetVendorEncoded ( curline ) ;
}
}
processorCount = processorNumber + 1 ;
// Read in other information from cpufreq, if available
for ( processorNumber = 0 ; processorNumber < processorCount ; processorNumber + + ) {
cdevice = dynamic_cast < TDECPUDevice * > ( findBySystemPath ( TQString ( " /sys/devices/system/cpu/cpu%1 " ) . arg ( processorNumber ) ) ) ;
TQDir cpufreq_dir ( TQString ( " /sys/devices/system/cpu/cpu%1/cpufreq " ) . arg ( processorNumber ) ) ;
TQString scalinggovernor ;
TQString scalingdriver ;
double minfrequency = - 1 ;
double maxfrequency = - 1 ;
double trlatency = - 1 ;
TQStringList affectedcpulist ;
TQStringList frequencylist ;
TQStringList governorlist ;
if ( cpufreq_dir . exists ( ) ) {
TQString nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /scaling_governor " ) ;
TQFile scalinggovernorfile ( nodename ) ;
if ( scalinggovernorfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & scalinggovernorfile ) ;
scalinggovernor = stream . readLine ( ) ;
scalinggovernorfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /scaling_driver " ) ;
TQFile scalingdriverfile ( nodename ) ;
if ( scalingdriverfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & scalingdriverfile ) ;
scalingdriver = stream . readLine ( ) ;
scalingdriverfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /cpuinfo_min_freq " ) ;
TQFile minfrequencyfile ( nodename ) ;
if ( minfrequencyfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & minfrequencyfile ) ;
minfrequency = stream . readLine ( ) . toDouble ( ) / 1000.0 ;
minfrequencyfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /cpuinfo_max_freq " ) ;
TQFile maxfrequencyfile ( nodename ) ;
if ( maxfrequencyfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & maxfrequencyfile ) ;
maxfrequency = stream . readLine ( ) . toDouble ( ) / 1000.0 ;
maxfrequencyfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /cpuinfo_transition_latency " ) ;
TQFile trlatencyfile ( nodename ) ;
if ( trlatencyfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & trlatencyfile ) ;
trlatency = stream . readLine ( ) . toDouble ( ) / 1000.0 ;
trlatencyfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /affected_cpus " ) ;
TQFile tiedcpusfile ( nodename ) ;
if ( tiedcpusfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & tiedcpusfile ) ;
affectedcpulist = TQStringList : : split ( " " , stream . readLine ( ) ) ;
tiedcpusfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /scaling_available_frequencies " ) ;
TQFile availfreqsfile ( nodename ) ;
if ( availfreqsfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & availfreqsfile ) ;
frequencylist = TQStringList : : split ( " " , stream . readLine ( ) ) ;
availfreqsfile . close ( ) ;
}
nodename = cpufreq_dir . path ( ) ;
nodename . append ( " /scaling_available_governors " ) ;
TQFile availgvrnsfile ( nodename ) ;
if ( availgvrnsfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & availgvrnsfile ) ;
governorlist = TQStringList : : split ( " " , stream . readLine ( ) ) ;
availgvrnsfile . close ( ) ;
}
}
// Update CPU information structure
if ( cdevice - > governor ( ) ! = scalinggovernor ) modified = true ;
cdevice - > internalSetGovernor ( scalinggovernor ) ;
if ( cdevice - > scalingDriver ( ) ! = scalingdriver ) modified = true ;
cdevice - > internalSetScalingDriver ( scalingdriver ) ;
if ( cdevice - > minFrequency ( ) ! = minfrequency ) modified = true ;
cdevice - > internalSetMinFrequency ( minfrequency ) ;
if ( cdevice - > maxFrequency ( ) ! = maxfrequency ) modified = true ;
cdevice - > internalSetMaxFrequency ( maxfrequency ) ;
if ( cdevice - > transitionLatency ( ) ! = trlatency ) modified = true ;
cdevice - > internalSetTransitionLatency ( trlatency ) ;
if ( cdevice - > dependentProcessors ( ) . join ( " " ) ! = affectedcpulist . join ( " " ) ) modified = true ;
cdevice - > internalSetDependentProcessors ( affectedcpulist ) ;
if ( cdevice - > availableFrequencies ( ) . join ( " " ) ! = frequencylist . join ( " " ) ) modified = true ;
cdevice - > internalSetAvailableFrequencies ( frequencylist ) ;
if ( cdevice - > availableGovernors ( ) . join ( " " ) ! = governorlist . join ( " " ) ) modified = true ;
cdevice - > internalSetAvailableGovernors ( governorlist ) ;
}
if ( modified ) {
for ( processorNumber = 0 ; processorNumber < processorCount ; processorNumber + + ) {
TDEGenericDevice * hwdevice = findBySystemPath ( TQString ( " /sys/devices/system/cpu/cpu%1 " ) . arg ( processorNumber ) ) ;
// Signal new information available
emit hardwareUpdated ( hwdevice ) ;
}
}
}
void TDEHardwareDevices : : processStatelessDevices ( ) {
// Some devices do not emit changed signals
// So far, network cards and sensors need to be polled
TDEGenericDevice * hwdevice ;
// We can't use m_deviceList directly as m_deviceList can only have one iterator active against it at any given time
TDEGenericHardwareList devList = listAllPhysicalDevices ( ) ;
for ( hwdevice = devList . first ( ) ; hwdevice ; hwdevice = devList . next ( ) ) {
if ( ( hwdevice - > type ( ) = = TDEGenericDeviceType : : RootSystem ) | | ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Network ) | | ( hwdevice - > type ( ) = = TDEGenericDeviceType : : OtherSensor ) | | ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Event ) | | ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Battery ) | | ( hwdevice - > type ( ) = = TDEGenericDeviceType : : PowerSupply ) ) {
rescanDeviceInformation ( hwdevice ) ;
emit hardwareUpdated ( hwdevice ) ;
}
}
}
void TDEHardwareDevices : : processEventDeviceKeyPressed ( unsigned int keycode , TDEEventDevice * edevice ) {
emit eventDeviceKeyPressed ( keycode , edevice ) ;
}
void TDEHardwareDevices : : processModifiedMounts ( ) {
// Detect what changed between the old mount table and the new one,
// and emit appropriate events
TQStringList deletedEntries = m_mountTable ;
// Read in the new mount table
m_mountTable . clear ( ) ;
TQFile file ( " /proc/mounts " ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
while ( ! stream . atEnd ( ) ) {
m_mountTable . append ( stream . readLine ( ) ) ;
}
file . close ( ) ;
}
TQStringList addedEntries = m_mountTable ;
// Remove all entries that are identical in both tables
processModifiedMounts_removeagain :
for ( TQStringList : : Iterator delit = deletedEntries . begin ( ) ; delit ! = deletedEntries . end ( ) ; + + delit ) {
for ( TQStringList : : Iterator addit = addedEntries . begin ( ) ; addit ! = addedEntries . end ( ) ; + + addit ) {
if ( ( * delit ) = = ( * addit ) ) {
deletedEntries . remove ( delit ) ;
addedEntries . remove ( addit ) ;
// Reset iterators to prevent bugs/crashes
// FIXME
// Is there any way to completely reset both loops without using goto?
goto processModifiedMounts_removeagain ;
}
}
}
TQStringList : : Iterator it ;
for ( it = addedEntries . begin ( ) ; it ! = addedEntries . end ( ) ; + + it ) {
TQStringList mountInfo = TQStringList : : split ( " " , ( * it ) , true ) ;
// Try to find a device that matches the altered node
TDEGenericDevice * hwdevice = findByDeviceNode ( * mountInfo . at ( 0 ) ) ;
if ( hwdevice ) {
emit hardwareUpdated ( hwdevice ) ;
// If the device is a storage device and has a slave, update it as well
if ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( hwdevice ) ;
TQStringList slavedevices = sdevice - > slaveDevices ( ) ;
for ( TQStringList : : Iterator slaveit = slavedevices . begin ( ) ; slaveit ! = slavedevices . end ( ) ; + + slaveit ) {
TDEGenericDevice * slavedevice = findBySystemPath ( * slaveit ) ;
if ( slavedevice ) {
emit hardwareUpdated ( slavedevice ) ;
}
}
}
}
}
for ( it = deletedEntries . begin ( ) ; it ! = deletedEntries . end ( ) ; + + it ) {
TQStringList mountInfo = TQStringList : : split ( " " , ( * it ) , true ) ;
// Try to find a device that matches the altered node
TDEGenericDevice * hwdevice = findByDeviceNode ( * mountInfo . at ( 0 ) ) ;
if ( hwdevice ) {
emit hardwareUpdated ( hwdevice ) ;
// If the device is a storage device and has a slave, update it as well
if ( hwdevice - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( hwdevice ) ;
TQStringList slavedevices = sdevice - > slaveDevices ( ) ;
for ( TQStringList : : Iterator slaveit = slavedevices . begin ( ) ; slaveit ! = slavedevices . end ( ) ; + + slaveit ) {
TDEGenericDevice * slavedevice = findBySystemPath ( * slaveit ) ;
if ( slavedevice ) {
emit hardwareUpdated ( slavedevice ) ;
}
}
}
}
}
emit mountTableModified ( ) ;
}
TDEDiskDeviceType : : TDEDiskDeviceType classifyDiskType ( udev_device * dev , const TQString devicebus , const TQString disktypestring , const TQString systempath , const TQString devicevendor , const TQString devicemodel , const TQString filesystemtype , const TQString devicedriver ) {
// Classify a disk device type to the best of our ability
TDEDiskDeviceType : : TDEDiskDeviceType disktype = TDEDiskDeviceType : : Null ;
if ( devicebus . upper ( ) = = " USB " ) {
disktype = disktype | TDEDiskDeviceType : : USB ;
}
if ( disktypestring . upper ( ) = = " ZIP " ) {
disktype = disktype | TDEDiskDeviceType : : Zip ;
}
if ( ( devicevendor . upper ( ) = = " IOMEGA " ) & & ( devicemodel . upper ( ) . contains ( " ZIP " ) ) ) {
disktype = disktype | TDEDiskDeviceType : : Zip ;
}
if ( ( devicevendor . upper ( ) = = " APPLE " ) & & ( devicemodel . upper ( ) . contains ( " IPOD " ) ) ) {
disktype = disktype | TDEDiskDeviceType : : MediaDevice ;
}
if ( ( devicevendor . upper ( ) = = " SANDISK " ) & & ( devicemodel . upper ( ) . contains ( " SANSA " ) ) ) {
disktype = disktype | TDEDiskDeviceType : : MediaDevice ;
}
if ( disktypestring . upper ( ) = = " TAPE " ) {
disktype = disktype | TDEDiskDeviceType : : Tape ;
}
if ( disktypestring . upper ( ) = = " COMPACT_FLASH " ) {
disktype = disktype | TDEDiskDeviceType : : CompactFlash ;
}
if ( disktypestring . upper ( ) = = " MEMORY_STICK " ) {
disktype = disktype | TDEDiskDeviceType : : MemoryStick ;
}
if ( disktypestring . upper ( ) = = " SMART_MEDIA " ) {
disktype = disktype | TDEDiskDeviceType : : SmartMedia ;
}
if ( disktypestring . upper ( ) = = " SD_MMC " ) {
disktype = disktype | TDEDiskDeviceType : : SDMMC ;
}
if ( disktypestring . upper ( ) = = " FLASHKEY " ) {
disktype = disktype | TDEDiskDeviceType : : Flash ;
}
if ( disktypestring . upper ( ) = = " OPTICAL " ) {
disktype = disktype | TDEDiskDeviceType : : Optical ;
}
if ( disktypestring . upper ( ) = = " JAZ " ) {
disktype = disktype | TDEDiskDeviceType : : Jaz ;
}
if ( disktypestring . upper ( ) = = " DISK " ) {
disktype = disktype | TDEDiskDeviceType : : HDD ;
}
if ( disktypestring . isNull ( ) ) {
// Fallback
// If we can't recognize the disk type then set it as a simple HDD volume
disktype = disktype | TDEDiskDeviceType : : HDD ;
}
// Certain combinations of media flags should never be set at the same time as they don't make sense
// This block is needed as udev is more than happy to provide inconsistent data to us
if ( ( disktype & TDEDiskDeviceType : : Zip ) | | ( disktype & TDEDiskDeviceType : : Floppy ) | | ( disktype & TDEDiskDeviceType : : Jaz ) | | ( disktype & TDEDiskDeviceType : : Tape ) ) {
disktype = disktype & ~ TDEDiskDeviceType : : HDD ;
}
if ( disktypestring . upper ( ) = = " CD " ) {
disktype = disktype & ~ TDEDiskDeviceType : : HDD ;
disktype = disktype | TDEDiskDeviceType : : Optical ;
if ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA " ) ) = = " 1 " ) {
disktype = disktype | TDEDiskDeviceType : : CDROM ;
}
if ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_CD_RW " ) ) = = " 1 " ) {
disktype = disktype | TDEDiskDeviceType : : CDRW ;
disktype = disktype & ~ TDEDiskDeviceType : : CDROM ;
}
if ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD " ) ) = = " 1 " ) {
disktype = disktype | TDEDiskDeviceType : : DVDROM ;
disktype = disktype & ~ TDEDiskDeviceType : : CDROM ;
}
if ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_RAM " ) ) = = " 1 " ) {
disktype = disktype | TDEDiskDeviceType : : DVDRAM ;
disktype = disktype & ~ TDEDiskDeviceType : : DVDROM ;
}
if ( ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_R " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_R_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_PLUS_R " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_MINUS_R " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_PLUS_R_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_MINUS_R_DL " ) ) = = " 1 " )
) {
disktype = disktype | TDEDiskDeviceType : : DVDRW ;
disktype = disktype & ~ TDEDiskDeviceType : : DVDROM ;
}
if ( ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_RW " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_RW_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_PLUS_RW " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_MINUS_RW " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_PLUS_RW_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_MINUS_RW_DL " ) ) = = " 1 " )
) {
disktype = disktype | TDEDiskDeviceType : : DVDRW ; // FIXME
disktype = disktype & ~ TDEDiskDeviceType : : DVDROM ;
}
if ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD " ) ) = = " 1 " ) {
disktype = disktype | TDEDiskDeviceType : : BDROM ;
disktype = disktype & ~ TDEDiskDeviceType : : CDROM ;
}
if ( ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_R " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_R_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_PLUS_R " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_MINUS_R " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_PLUS_R_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_MINUS_R_DL " ) ) = = " 1 " )
) {
disktype = disktype | TDEDiskDeviceType : : BDRW ; // FIXME
disktype = disktype & ~ TDEDiskDeviceType : : BDROM ;
}
if ( ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_RW " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_RW_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_PLUS_RW " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_BD_MINUS_RW " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_PLUS_RW_DL " ) ) = = " 1 " )
| | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_DVD_MINUS_RW_DL " ) ) = = " 1 " )
) {
disktype = disktype | TDEDiskDeviceType : : BDRW ;
disktype = disktype & ~ TDEDiskDeviceType : : BDROM ;
}
if ( ! TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_TRACK_COUNT_AUDIO " ) ) . isNull ( ) ) {
disktype = disktype | TDEDiskDeviceType : : CDAudio ;
}
if ( ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_VCD " ) ) = = " 1 " ) | | ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_SDVD " ) ) = = " 1 " ) ) {
disktype = disktype | TDEDiskDeviceType : : CDVideo ;
}
}
// Detect RAM and Loop devices, since udev can't seem to...
if ( systempath . startsWith ( " /sys/devices/virtual/block/ram " ) ) {
disktype = disktype | TDEDiskDeviceType : : RAM ;
}
if ( systempath . startsWith ( " /sys/devices/virtual/block/loop " ) ) {
disktype = disktype | TDEDiskDeviceType : : Loop ;
}
if ( filesystemtype . upper ( ) = = " CRYPTO_LUKS " ) {
disktype = disktype | TDEDiskDeviceType : : LUKS ;
}
else if ( filesystemtype . upper ( ) = = " CRYPTO " ) {
disktype = disktype | TDEDiskDeviceType : : OtherCrypted ;
}
return disktype ;
}
// KStandardDirs::kde_default
typedef TQMap < TQString , TQString > KConfigMap ;
TQString readUdevAttribute ( udev_device * dev , TQString attr ) {
return TQString ( udev_device_get_property_value ( dev , attr . ascii ( ) ) ) ;
}
TDEGenericDeviceType : : TDEGenericDeviceType readGenericDeviceTypeFromString ( TQString query ) {
TDEGenericDeviceType : : TDEGenericDeviceType ret = TDEGenericDeviceType : : Other ;
// Keep this in sync with the TDEGenericDeviceType definition in the header
if ( query = = " Root " ) {
ret = TDEGenericDeviceType : : Root ;
}
else if ( query = = " RootSystem " ) {
ret = TDEGenericDeviceType : : RootSystem ;
}
else if ( query = = " CPU " ) {
ret = TDEGenericDeviceType : : CPU ;
}
else if ( query = = " GPU " ) {
ret = TDEGenericDeviceType : : GPU ;
}
else if ( query = = " RAM " ) {
ret = TDEGenericDeviceType : : RAM ;
}
else if ( query = = " Bus " ) {
ret = TDEGenericDeviceType : : Bus ;
}
else if ( query = = " I2C " ) {
ret = TDEGenericDeviceType : : I2C ;
}
else if ( query = = " MDIO " ) {
ret = TDEGenericDeviceType : : MDIO ;
}
else if ( query = = " Mainboard " ) {
ret = TDEGenericDeviceType : : Mainboard ;
}
else if ( query = = " Disk " ) {
ret = TDEGenericDeviceType : : Disk ;
}
else if ( query = = " SCSI " ) {
ret = TDEGenericDeviceType : : SCSI ;
}
else if ( query = = " StorageController " ) {
ret = TDEGenericDeviceType : : StorageController ;
}
else if ( query = = " Mouse " ) {
ret = TDEGenericDeviceType : : Mouse ;
}
else if ( query = = " Keyboard " ) {
ret = TDEGenericDeviceType : : Keyboard ;
}
else if ( query = = " HID " ) {
ret = TDEGenericDeviceType : : HID ;
}
else if ( query = = " Monitor " ) {
ret = TDEGenericDeviceType : : Monitor ;
}
else if ( query = = " Network " ) {
ret = TDEGenericDeviceType : : Network ;
}
else if ( query = = " Printer " ) {
ret = TDEGenericDeviceType : : Printer ;
}
else if ( query = = " Scanner " ) {
ret = TDEGenericDeviceType : : Scanner ;
}
else if ( query = = " Sound " ) {
ret = TDEGenericDeviceType : : Sound ;
}
else if ( query = = " VideoCapture " ) {
ret = TDEGenericDeviceType : : VideoCapture ;
}
else if ( query = = " IEEE1394 " ) {
ret = TDEGenericDeviceType : : IEEE1394 ;
}
else if ( query = = " PCMCIA " ) {
ret = TDEGenericDeviceType : : PCMCIA ;
}
else if ( query = = " Camera " ) {
ret = TDEGenericDeviceType : : Camera ;
}
else if ( query = = " Serial " ) {
ret = TDEGenericDeviceType : : Serial ;
}
else if ( query = = " Parallel " ) {
ret = TDEGenericDeviceType : : Parallel ;
}
else if ( query = = " TextIO " ) {
ret = TDEGenericDeviceType : : TextIO ;
}
else if ( query = = " Peripheral " ) {
ret = TDEGenericDeviceType : : Peripheral ;
}
else if ( query = = " Backlight " ) {
ret = TDEGenericDeviceType : : Backlight ;
}
else if ( query = = " Battery " ) {
ret = TDEGenericDeviceType : : Battery ;
}
else if ( query = = " Power " ) {
ret = TDEGenericDeviceType : : PowerSupply ;
}
else if ( query = = " Dock " ) {
ret = TDEGenericDeviceType : : Dock ;
}
else if ( query = = " ThermalSensor " ) {
ret = TDEGenericDeviceType : : ThermalSensor ;
}
else if ( query = = " ThermalControl " ) {
ret = TDEGenericDeviceType : : ThermalControl ;
}
else if ( query = = " Bridge " ) {
ret = TDEGenericDeviceType : : Bridge ;
}
else if ( query = = " Platform " ) {
ret = TDEGenericDeviceType : : Platform ;
}
else if ( query = = " Cryptography " ) {
ret = TDEGenericDeviceType : : Cryptography ;
}
else if ( query = = " Event " ) {
ret = TDEGenericDeviceType : : Event ;
}
else if ( query = = " Input " ) {
ret = TDEGenericDeviceType : : Input ;
}
else if ( query = = " PNP " ) {
ret = TDEGenericDeviceType : : PNP ;
}
else if ( query = = " OtherACPI " ) {
ret = TDEGenericDeviceType : : OtherACPI ;
}
else if ( query = = " OtherUSB " ) {
ret = TDEGenericDeviceType : : OtherUSB ;
}
else if ( query = = " OtherMultimedia " ) {
ret = TDEGenericDeviceType : : OtherMultimedia ;
}
else if ( query = = " OtherPeripheral " ) {
ret = TDEGenericDeviceType : : OtherPeripheral ;
}
else if ( query = = " OtherSensor " ) {
ret = TDEGenericDeviceType : : OtherSensor ;
}
else if ( query = = " OtherVirtual " ) {
ret = TDEGenericDeviceType : : OtherVirtual ;
}
else {
ret = TDEGenericDeviceType : : Other ;
}
return ret ;
}
TDEDiskDeviceType : : TDEDiskDeviceType readDiskDeviceSubtypeFromString ( TQString query , TDEDiskDeviceType : : TDEDiskDeviceType flagsIn = TDEDiskDeviceType : : Null ) {
TDEDiskDeviceType : : TDEDiskDeviceType ret = flagsIn ;
// Keep this in sync with the TDEDiskDeviceType definition in the header
if ( query = = " MediaDevice " ) {
ret = ret | TDEDiskDeviceType : : MediaDevice ;
}
if ( query = = " Floppy " ) {
ret = ret | TDEDiskDeviceType : : Floppy ;
}
if ( query = = " CDROM " ) {
ret = ret | TDEDiskDeviceType : : CDROM ;
}
if ( query = = " CDRW " ) {
ret = ret | TDEDiskDeviceType : : CDRW ;
}
if ( query = = " DVDROM " ) {
ret = ret | TDEDiskDeviceType : : DVDROM ;
}
if ( query = = " DVDRAM " ) {
ret = ret | TDEDiskDeviceType : : DVDRAM ;
}
if ( query = = " DVDRW " ) {
ret = ret | TDEDiskDeviceType : : DVDRW ;
}
if ( query = = " BDROM " ) {
ret = ret | TDEDiskDeviceType : : BDROM ;
}
if ( query = = " BDRW " ) {
ret = ret | TDEDiskDeviceType : : BDRW ;
}
if ( query = = " Zip " ) {
ret = ret | TDEDiskDeviceType : : Zip ;
}
if ( query = = " Jaz " ) {
ret = ret | TDEDiskDeviceType : : Jaz ;
}
if ( query = = " Camera " ) {
ret = ret | TDEDiskDeviceType : : Camera ;
}
if ( query = = " LUKS " ) {
ret = ret | TDEDiskDeviceType : : LUKS ;
}
if ( query = = " OtherCrypted " ) {
ret = ret | TDEDiskDeviceType : : OtherCrypted ;
}
if ( query = = " CDAudio " ) {
ret = ret | TDEDiskDeviceType : : CDAudio ;
}
if ( query = = " CDVideo " ) {
ret = ret | TDEDiskDeviceType : : CDVideo ;
}
if ( query = = " DVDVideo " ) {
ret = ret | TDEDiskDeviceType : : DVDVideo ;
}
if ( query = = " BDVideo " ) {
ret = ret | TDEDiskDeviceType : : BDVideo ;
}
if ( query = = " Flash " ) {
ret = ret | TDEDiskDeviceType : : Flash ;
}
if ( query = = " USB " ) {
ret = ret | TDEDiskDeviceType : : USB ;
}
if ( query = = " Tape " ) {
ret = ret | TDEDiskDeviceType : : Tape ;
}
if ( query = = " HDD " ) {
ret = ret | TDEDiskDeviceType : : HDD ;
}
if ( query = = " Optical " ) {
ret = ret | TDEDiskDeviceType : : Optical ;
}
if ( query = = " RAM " ) {
ret = ret | TDEDiskDeviceType : : RAM ;
}
if ( query = = " Loop " ) {
ret = ret | TDEDiskDeviceType : : Loop ;
}
if ( query = = " CompactFlash " ) {
ret = ret | TDEDiskDeviceType : : CompactFlash ;
}
if ( query = = " MemoryStick " ) {
ret = ret | TDEDiskDeviceType : : MemoryStick ;
}
if ( query = = " SmartMedia " ) {
ret = ret | TDEDiskDeviceType : : SmartMedia ;
}
if ( query = = " SDMMC " ) {
ret = ret | TDEDiskDeviceType : : SDMMC ;
}
if ( query = = " UnlockedCrypt " ) {
ret = ret | TDEDiskDeviceType : : UnlockedCrypt ;
}
return ret ;
}
TDEGenericDevice * createDeviceObjectForType ( TDEGenericDeviceType : : TDEGenericDeviceType type ) {
TDEGenericDevice * ret = 0 ;
if ( type = = TDEGenericDeviceType : : Disk ) {
ret = new TDEStorageDevice ( type ) ;
}
else {
ret = new TDEGenericDevice ( type ) ;
}
return ret ;
}
TDEGenericDevice * TDEHardwareDevices : : classifyUnknownDeviceByExternalRules ( udev_device * dev , TDEGenericDevice * existingdevice , bool classifySubDevices ) {
// This routine expects to see the hardware config files into <prefix>/share/apps/tdehwlib/deviceclasses/, suffixed with "hwclass"
TDEGenericDevice * device = existingdevice ;
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Other ) ;
// Handle subtype if needed/desired
// To speed things up we rely on the prior scan results stored in m_externalSubtype
if ( classifySubDevices ) {
if ( ! device - > m_externalRulesFile . isNull ( ) ) {
if ( device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
// Disk class
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( device ) ;
TQStringList subtype = device - > m_externalSubtype ;
TDEDiskDeviceType : : TDEDiskDeviceType desiredSubdeviceType = TDEDiskDeviceType : : Null ;
if ( subtype . count ( ) > 0 ) {
for ( TQStringList : : Iterator paramit = subtype . begin ( ) ; paramit ! = subtype . end ( ) ; + + paramit ) {
desiredSubdeviceType = readDiskDeviceSubtypeFromString ( * paramit , desiredSubdeviceType ) ;
}
if ( desiredSubdeviceType ! = sdevice - > diskType ( ) ) {
printf ( " [tdehardwaredevices] Rules file %s used to set device subtype for device at path %s \n \r " , device - > m_externalRulesFile . ascii ( ) , device - > systemPath ( ) . ascii ( ) ) ; fflush ( stdout ) ;
sdevice - > internalSetDiskType ( desiredSubdeviceType ) ;
}
}
}
}
}
else {
TQStringList hardware_info_directories ( KGlobal : : dirs ( ) - > resourceDirs ( " data " ) ) ;
TQString hardware_info_directory_suffix ( " tdehwlib/deviceclasses/ " ) ;
TQString hardware_info_directory ;
// Scan the hardware_info_directory for configuration files
// For each one, open it with KConfig() and apply its rules to classify the device
// FIXME
// Should this also scan up to <n> subdirectories for the files? That feature might end up being too expensive...
device - > m_externalRulesFile = TQString : : null ;
for ( TQStringList : : Iterator it = hardware_info_directories . begin ( ) ; it ! = hardware_info_directories . end ( ) ; + + it ) {
hardware_info_directory = ( * it ) ;
hardware_info_directory + = hardware_info_directory_suffix ;
if ( KGlobal : : dirs ( ) - > exists ( hardware_info_directory ) ) {
TQDir d ( hardware_info_directory ) ;
d . setFilter ( TQDir : : Files | TQDir : : Hidden ) ;
const TQFileInfoList * list = d . entryInfoList ( ) ;
TQFileInfoListIterator it ( * list ) ;
TQFileInfo * fi ;
while ( ( fi = it . current ( ) ) ! = 0 ) {
if ( fi - > extension ( false ) = = " hwclass " ) {
bool match = true ;
// Open the rules file
KConfig rulesFile ( fi - > absFilePath ( ) , true , false ) ;
rulesFile . setGroup ( " Conditions " ) ;
KConfigMap conditionmap = rulesFile . entryMap ( " Conditions " ) ;
KConfigMap : : Iterator cndit ;
for ( cndit = conditionmap . begin ( ) ; cndit ! = conditionmap . end ( ) ; + + cndit ) {
TQStringList conditionList = TQStringList : : split ( ' , ' , cndit . data ( ) , false ) ;
bool atleastonematch = false ;
for ( TQStringList : : Iterator paramit = conditionList . begin ( ) ; paramit ! = conditionList . end ( ) ; + + paramit ) {
if ( cndit . key ( ) = = " VENDOR_ID " ) {
if ( device - > vendorID ( ) = = ( * paramit ) ) {
atleastonematch = true ;
}
}
else if ( cndit . key ( ) = = " MODEL_ID " ) {
if ( device - > modelID ( ) = = ( * paramit ) ) {
atleastonematch = true ;
}
}
else if ( cndit . key ( ) = = " DRIVER " ) {
if ( device - > deviceDriver ( ) = = ( * paramit ) ) {
atleastonematch = true ;
}
}
else if ( readUdevAttribute ( dev , cndit . key ( ) ) = = ( * paramit ) ) {
atleastonematch = true ;
}
}
if ( ! atleastonematch ) {
match = false ;
}
}
if ( match ) {
rulesFile . setGroup ( " DeviceType " ) ;
TQString gentype = rulesFile . readEntry ( " GENTYPE " ) ;
TDEGenericDeviceType : : TDEGenericDeviceType desiredDeviceType = device - > type ( ) ;
if ( ! gentype . isNull ( ) ) {
desiredDeviceType = readGenericDeviceTypeFromString ( gentype ) ;
}
// Handle main type
if ( desiredDeviceType ! = device - > type ( ) ) {
printf ( " [tdehardwaredevices] Rules file %s used to set device type for device at path %s \n \r " , fi - > absFilePath ( ) . ascii ( ) , device - > systemPath ( ) . ascii ( ) ) ; fflush ( stdout ) ;
if ( m_deviceList . contains ( device ) ) {
m_deviceList . remove ( device ) ;
}
else {
delete device ;
}
device = createDeviceObjectForType ( desiredDeviceType ) ;
}
// Parse subtype and store in m_externalSubtype for later
// This speeds things up considerably due to the expense of the file scanning/parsing/matching operation
device - > m_externalSubtype = rulesFile . readListEntry ( " SUBTYPE " , ' , ' ) ;
device - > m_externalRulesFile = fi - > absFilePath ( ) ;
// Process blacklist entries
rulesFile . setGroup ( " DeviceSettings " ) ;
device - > internalSetBlacklistedForUpdate ( rulesFile . readBoolEntry ( " UPDATE_BLACKLISTED " , device - > blacklistedForUpdate ( ) ) ) ;
}
}
+ + it ;
}
}
}
}
return device ;
}
TDEGenericDevice * TDEHardwareDevices : : classifyUnknownDevice ( udev_device * dev , TDEGenericDevice * existingdevice , bool force_full_classification ) {
// Classify device and create TDEHW device object
TQString devicename ;
TQString devicetype ;
TQString devicedriver ;
TQString devicesubsystem ;
TQString devicenode ;
TQString systempath ;
TQString devicevendorid ;
TQString devicemodelid ;
TQString devicevendoridenc ;
TQString devicemodelidenc ;
TQString devicesubvendorid ;
TQString devicesubmodelid ;
TQString devicetypestring ;
TQString devicetypestring_alt ;
TQString devicepciclass ;
TDEGenericDevice * device = existingdevice ;
bool temp_udev_device = ! dev ;
if ( dev ) {
devicename = ( udev_device_get_sysname ( dev ) ) ;
devicetype = ( udev_device_get_devtype ( dev ) ) ;
devicedriver = ( udev_device_get_driver ( dev ) ) ;
devicesubsystem = ( udev_device_get_subsystem ( dev ) ) ;
devicenode = ( udev_device_get_devnode ( dev ) ) ;
systempath = ( udev_device_get_syspath ( dev ) ) ;
systempath + = " / " ;
devicevendorid = ( udev_device_get_property_value ( dev , " ID_VENDOR_ID " ) ) ;
devicemodelid = ( udev_device_get_property_value ( dev , " ID_MODEL_ID " ) ) ;
devicevendoridenc = ( udev_device_get_property_value ( dev , " ID_VENDOR_ENC " ) ) ;
devicemodelidenc = ( udev_device_get_property_value ( dev , " ID_MODEL_ENC " ) ) ;
devicesubvendorid = ( udev_device_get_property_value ( dev , " ID_SUBVENDOR_ID " ) ) ;
devicesubmodelid = ( udev_device_get_property_value ( dev , " ID_SUBMODEL_ID " ) ) ;
devicetypestring = ( udev_device_get_property_value ( dev , " ID_TYPE " ) ) ;
devicetypestring_alt = ( udev_device_get_property_value ( dev , " DEVTYPE " ) ) ;
devicepciclass = ( udev_device_get_property_value ( dev , " PCI_CLASS " ) ) ;
}
else {
if ( device ) {
devicename = device - > name ( ) ;
devicetype = device - > m_udevtype ;
devicedriver = device - > deviceDriver ( ) ;
devicesubsystem = device - > subsystem ( ) ;
devicenode = device - > deviceNode ( ) ;
systempath = device - > systemPath ( ) ;
devicevendorid = device - > vendorID ( ) ;
devicemodelid = device - > modelID ( ) ;
devicevendoridenc = device - > vendorEncoded ( ) ;
devicemodelidenc = device - > modelEncoded ( ) ;
devicesubvendorid = device - > subVendorID ( ) ;
devicesubmodelid = device - > subModelID ( ) ;
devicetypestring = device - > m_udevdevicetypestring ;
devicetypestring_alt = device - > udevdevicetypestring_alt ;
devicepciclass = device - > PCIClass ( ) ;
}
TQString syspathudev = systempath ;
syspathudev . truncate ( syspathudev . length ( ) - 1 ) ; // Remove trailing slash
dev = udev_device_new_from_syspath ( m_udevStruct , syspathudev . ascii ( ) ) ;
}
// FIXME
// Only a small subset of devices are classified right now
// Figure out the remaining udev logic to classify the rest!
// Helpful file: http://www.enlightenment.org/svn/e/trunk/PROTO/enna-explorer/src/bin/udev.c
bool done = false ;
TQString current_path = systempath ;
TQString devicemodalias = TQString : : null ;
while ( done = = false ) {
TQString malnodename = current_path ;
malnodename . append ( " /modalias " ) ;
TQFile malfile ( malnodename ) ;
if ( malfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & malfile ) ;
devicemodalias = stream . readLine ( ) ;
malfile . close ( ) ;
}
if ( devicemodalias . startsWith ( " pci " ) | | devicemodalias . startsWith ( " usb " ) ) {
done = true ;
}
else {
devicemodalias = TQString : : null ;
current_path . truncate ( current_path . findRev ( " / " ) ) ;
if ( ! current_path . startsWith ( " /sys/devices " ) ) {
// Abort!
done = true ;
}
}
}
// Many devices do not provide their vendor/model ID via udev
// Go after it manually...
if ( devicevendorid . isNull ( ) | | devicemodelid . isNull ( ) ) {
if ( devicemodalias ! = TQString : : null ) {
// For added fun the device string lengths differ between pci and usb
if ( devicemodalias . startsWith ( " pci " ) ) {
int vloc = devicemodalias . find ( " v " ) ;
int dloc = devicemodalias . find ( " d " , vloc ) ;
int svloc = devicemodalias . find ( " sv " ) ;
int sdloc = devicemodalias . find ( " sd " , vloc ) ;
devicevendorid = devicemodalias . mid ( vloc + 1 , 8 ) . lower ( ) ;
devicemodelid = devicemodalias . mid ( dloc + 1 , 8 ) . lower ( ) ;
if ( svloc ! = - 1 ) {
devicesubvendorid = devicemodalias . mid ( svloc + 1 , 8 ) . lower ( ) ;
devicesubmodelid = devicemodalias . mid ( sdloc + 1 , 8 ) . lower ( ) ;
}
devicevendorid . remove ( 0 , 4 ) ;
devicemodelid . remove ( 0 , 4 ) ;
devicesubvendorid . remove ( 0 , 4 ) ;
devicesubmodelid . remove ( 0 , 4 ) ;
}
if ( devicemodalias . startsWith ( " usb " ) ) {
int vloc = devicemodalias . find ( " v " ) ;
int dloc = devicemodalias . find ( " p " , vloc ) ;
int svloc = devicemodalias . find ( " sv " ) ;
int sdloc = devicemodalias . find ( " sp " , vloc ) ;
devicevendorid = devicemodalias . mid ( vloc + 1 , 4 ) . lower ( ) ;
devicemodelid = devicemodalias . mid ( dloc + 1 , 4 ) . lower ( ) ;
if ( svloc ! = - 1 ) {
devicesubvendorid = devicemodalias . mid ( svloc + 1 , 4 ) . lower ( ) ;
devicesubmodelid = devicemodalias . mid ( sdloc + 1 , 4 ) . lower ( ) ;
}
}
}
}
// Most of the time udev doesn't barf up a device driver either, so go after it manually...
if ( devicedriver . isNull ( ) ) {
TQString driverSymlink = udev_device_get_syspath ( dev ) ;
TQString driverSymlinkDir = driverSymlink ;
driverSymlink . append ( " /device/driver " ) ;
driverSymlinkDir . append ( " /device/ " ) ;
TQFileInfo dirfi ( driverSymlink ) ;
if ( dirfi . isSymLink ( ) ) {
char * collapsedPath = realpath ( ( driverSymlinkDir + dirfi . readLink ( ) ) . ascii ( ) , NULL ) ;
devicedriver = TQString ( collapsedPath ) ;
free ( collapsedPath ) ;
devicedriver . remove ( 0 , devicedriver . findRev ( " / " ) + 1 ) ;
}
}
// udev removes critical leading zeroes in the PCI device class, so go after it manually...
TQString classnodename = systempath ;
classnodename . append ( " /class " ) ;
TQFile classfile ( classnodename ) ;
if ( classfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & classfile ) ;
devicepciclass = stream . readLine ( ) ;
devicepciclass . replace ( " 0x " , " " ) ;
devicepciclass = devicepciclass . lower ( ) ;
classfile . close ( ) ;
}
// Classify generic device type and create appropriate object
// Pull out all event special devices and stuff them under Event
TQString syspath_tail = systempath . lower ( ) ;
syspath_tail . truncate ( syspath_tail . length ( ) - 1 ) ;
syspath_tail . remove ( 0 , syspath_tail . findRev ( " / " ) + 1 ) ;
if ( syspath_tail . startsWith ( " event " ) ) {
if ( ! device ) device = new TDEEventDevice ( TDEGenericDeviceType : : Event ) ;
}
// Pull out all input special devices and stuff them under Input
if ( syspath_tail . startsWith ( " input " ) ) {
if ( ! device ) device = new TDEInputDevice ( TDEGenericDeviceType : : Input ) ;
}
// Check for keyboard
// Linux doesn't actually ID the keyboard device itself as such, it instead IDs the input device that is underneath the actual keyboard itseld
// Therefore we need to scan <syspath>/input/input* for the ID_INPUT_KEYBOARD attribute
bool is_keyboard = false ;
TQString inputtopdirname = udev_device_get_syspath ( dev ) ;
inputtopdirname . append ( " /input/ " ) ;
TQDir inputdir ( inputtopdirname ) ;
inputdir . setFilter ( TQDir : : All ) ;
const TQFileInfoList * dirlist = inputdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator inputdirsit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = inputdirsit . current ( ) ) ! = 0 ) {
if ( ( dirfi - > fileName ( ) ! = " . " ) & & ( dirfi - > fileName ( ) ! = " .. " ) ) {
struct udev_device * slavedev ;
slavedev = udev_device_new_from_syspath ( m_udevStruct , ( inputtopdirname + dirfi - > fileName ( ) ) . ascii ( ) ) ;
if ( udev_device_get_property_value ( slavedev , " ID_INPUT_KEYBOARD " ) ! = 0 ) {
is_keyboard = true ;
}
udev_device_unref ( slavedev ) ;
}
+ + inputdirsit ;
}
}
if ( is_keyboard ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Keyboard ) ;
}
// Classify specific known devices
if ( ( ( devicetype = = " disk " )
| | ( devicetype = = " partition " )
| | ( devicedriver = = " floppy " )
| | ( devicesubsystem = = " scsi_disk " )
| | ( devicesubsystem = = " scsi_tape " ) )
& & ( ( devicenode ! = " " )
) ) {
if ( ! device ) device = new TDEStorageDevice ( TDEGenericDeviceType : : Disk ) ;
}
else if ( devicetype . isNull ( ) ) {
if ( devicesubsystem = = " acpi " ) {
// If the ACPI device exposes a system path ending in /PNPxxxx:yy, the device type can be precisely determined
// See ftp://ftp.microsoft.com/developr/drg/plug-and-play/devids.txt for more information
TQString pnpgentype = systempath ;
pnpgentype . remove ( 0 , pnpgentype . findRev ( " / " ) + 1 ) ;
pnpgentype . truncate ( pnpgentype . find ( " : " ) ) ;
if ( pnpgentype . startsWith ( " PNP " ) ) {
// If a device has been classified as belonging to the ACPI subsystem usually there is a "real" device related to it elsewhere in the system
// Furthermore, the "real" device elsewhere almost always has more functionality exposed via sysfs
// Therefore all ACPI subsystem devices should be stuffed in the OtherACPI category and largely ignored
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherACPI ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherACPI ) ;
}
}
else if ( devicesubsystem = = " input " ) {
// Figure out if this device is a mouse, keyboard, or something else
// Check for mouse
// udev doesn't reliably help here, so guess from the device name
if ( systempath . contains ( " /mouse " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Mouse ) ;
}
if ( ! device ) {
// Second mouse check
// Look for ID_INPUT_MOUSE property presence
if ( udev_device_get_property_value ( dev , " ID_INPUT_MOUSE " ) ! = 0 ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Mouse ) ;
}
}
if ( ! device ) {
// Check for keyboard
// Look for ID_INPUT_KEYBOARD property presence
if ( udev_device_get_property_value ( dev , " ID_INPUT_KEYBOARD " ) ! = 0 ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Keyboard ) ;
}
}
if ( ! device ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : HID ) ;
}
}
else if ( devicesubsystem = = " tty " ) {
if ( devicenode . contains ( " /ttyS " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Serial ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : TextIO ) ;
}
}
else if ( devicesubsystem = = " thermal " ) {
// FIXME
// Figure out a way to differentiate between ThermalControl (fans and coolers) and ThermalSensor types
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : ThermalControl ) ;
}
else if ( devicesubsystem = = " hwmon " ) {
// FIXME
// This might pick up thermal sensors
if ( ! device ) device = new TDESensorDevice ( TDEGenericDeviceType : : OtherSensor ) ;
}
}
// Try to at least generally classify unclassified devices
if ( device = = 0 ) {
if ( devicesubsystem = = " backlight " ) {
if ( ! device ) device = new TDEBacklightDevice ( TDEGenericDeviceType : : Backlight ) ;
}
if ( systempath . lower ( ) . startsWith ( " /sys/devices/virtual " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherVirtual ) ;
}
if ( ( devicetypestring = = " audio " )
| | ( devicesubsystem = = " sound " )
| | ( devicesubsystem = = " ac97 " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Sound ) ;
}
if ( ( devicesubsystem = = " video4linux " )
| | ( devicesubsystem = = " dvb " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : VideoCapture ) ;
}
if ( ( devicetypestring_alt = = " scsi_target " )
| | ( devicesubsystem = = " scsi_host " )
| | ( devicesubsystem = = " scsi_disk " )
| | ( devicesubsystem = = " scsi_device " )
| | ( devicesubsystem = = " scsi_generic " )
| | ( devicesubsystem = = " scsi " )
| | ( devicesubsystem = = " spi_transport " )
| | ( devicesubsystem = = " spi_host " )
| | ( devicesubsystem = = " ata_port " )
| | ( devicesubsystem = = " ata_link " )
| | ( devicesubsystem = = " ata_disk " )
| | ( devicesubsystem = = " ata_device " )
| | ( devicesubsystem = = " ata " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
if ( devicesubsystem = = " misc " ) {
if ( devicedriver . startsWith ( " tpm_ " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Cryptography ) ;
}
}
if ( devicesubsystem = = " leds " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherACPI ) ;
}
if ( devicesubsystem = = " net " ) {
if ( ! device ) device = new TDENetworkDevice ( TDEGenericDeviceType : : Network ) ;
}
if ( devicesubsystem = = " i2c " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : I2C ) ;
}
if ( devicesubsystem = = " mdio_bus " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : MDIO ) ;
}
if ( devicesubsystem = = " graphics " ) {
if ( devicenode . isNull ( ) ) { // GPUs do not have associated device nodes
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : GPU ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
}
if ( ( devicesubsystem = = " event_source " )
| | ( devicesubsystem = = " rtc " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Mainboard ) ;
}
if ( devicesubsystem = = " bsg " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : SCSI ) ;
}
if ( devicesubsystem = = " firewire " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : IEEE1394 ) ;
}
if ( devicesubsystem = = " drm " ) {
if ( devicenode . isNull ( ) ) { // Monitors do not have associated device nodes
if ( ! device ) device = new TDEMonitorDevice ( TDEGenericDeviceType : : Monitor ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
}
if ( devicesubsystem = = " serio " ) {
if ( devicedriver . contains ( " atkbd " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Keyboard ) ;
}
else if ( devicedriver . contains ( " mouse " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Mouse ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Serial ) ;
}
}
if ( devicesubsystem = = " ppdev " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Parallel ) ;
}
if ( devicesubsystem = = " printer " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Printer ) ;
}
if ( devicesubsystem = = " bridge " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Bridge ) ;
}
if ( ( devicesubsystem = = " pci_bus " )
| | ( devicesubsystem = = " pci_express " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Bus ) ;
}
if ( devicesubsystem = = " pcmcia_socket " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : PCMCIA ) ;
}
if ( devicesubsystem = = " platform " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
if ( devicesubsystem = = " ieee80211 " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
if ( devicesubsystem = = " rfkill " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
if ( devicesubsystem = = " pnp " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : PNP ) ;
}
if ( ( devicesubsystem = = " hid " )
| | ( devicesubsystem = = " hidraw " )
| | ( devicesubsystem = = " usbhid " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : HID ) ;
}
if ( devicesubsystem = = " power_supply " ) {
TQString powersupplyname ( udev_device_get_property_value ( dev , " POWER_SUPPLY_NAME " ) ) ;
if ( powersupplyname . upper ( ) . startsWith ( " AC " ) ) {
if ( ! device ) device = new TDEMainsPowerDevice ( TDEGenericDeviceType : : PowerSupply ) ;
}
else {
if ( ! device ) device = new TDEBatteryDevice ( TDEGenericDeviceType : : Battery ) ;
}
}
// Moderate accuracy classification, if PCI device class is available
// See http://www.acm.uiuc.edu/sigops/roll_your_own/7.c.1.html for codes and meanings
if ( ! devicepciclass . isNull ( ) ) {
// Pre PCI 2.0
if ( devicepciclass . startsWith ( " 0001 " ) ) {
if ( devicenode . isNull ( ) ) { // GPUs do not have associated device nodes
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : GPU ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
}
// Post PCI 2.0
if ( devicepciclass . startsWith ( " 01 " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : StorageController ) ;
}
if ( devicepciclass . startsWith ( " 02 " ) ) {
if ( ! device ) device = new TDENetworkDevice ( TDEGenericDeviceType : : Network ) ;
}
if ( devicepciclass . startsWith ( " 03 " ) ) {
if ( devicenode . isNull ( ) ) { // GPUs do not have associated device nodes
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : GPU ) ;
}
else {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Platform ) ;
}
}
if ( devicepciclass . startsWith ( " 04 " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherMultimedia ) ;
}
if ( devicepciclass . startsWith ( " 05 " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : RAM ) ;
}
if ( devicepciclass . startsWith ( " 06 " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Bridge ) ;
}
if ( devicepciclass . startsWith ( " 0a " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Dock ) ;
}
if ( devicepciclass . startsWith ( " 0b " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : CPU ) ;
}
if ( devicepciclass . startsWith ( " 0c " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Serial ) ;
}
}
// Last ditch attempt at classification
// Likely inaccurate and sweeping
if ( ( devicesubsystem = = " usb " )
| | ( devicesubsystem = = " usbmon " ) ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherUSB ) ;
}
if ( devicesubsystem = = " pci " ) {
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : OtherPeripheral ) ;
}
}
if ( device = = 0 ) {
// Unhandled
if ( ! device ) device = new TDEGenericDevice ( TDEGenericDeviceType : : Other ) ;
printf ( " [FIXME] UNCLASSIFIED DEVICE name: %s type: %s subsystem: %s driver: %s [Node Path: %s] [Syspath: %s] [%s:%s] \n \r " , devicename . ascii ( ) , devicetype . ascii ( ) , devicesubsystem . ascii ( ) , devicedriver . ascii ( ) , devicenode . ascii ( ) , udev_device_get_syspath ( dev ) , devicevendorid . ascii ( ) , devicemodelid . ascii ( ) ) ; fflush ( stdout ) ;
}
// Root devices are special
if ( ( device - > type ( ) = = TDEGenericDeviceType : : Root ) | | ( device - > type ( ) = = TDEGenericDeviceType : : RootSystem ) ) {
systempath = device - > systemPath ( ) ;
}
// Set preliminary basic device information
device - > internalSetName ( devicename ) ;
device - > internalSetDeviceNode ( devicenode ) ;
device - > internalSetSystemPath ( systempath ) ;
device - > internalSetVendorID ( devicevendorid ) ;
device - > internalSetModelID ( devicemodelid ) ;
device - > internalSetVendorEncoded ( devicevendoridenc ) ;
device - > internalSetModelEncoded ( devicemodelidenc ) ;
device - > internalSetSubVendorID ( devicesubvendorid ) ;
device - > internalSetSubModelID ( devicesubmodelid ) ;
device - > internalSetModuleAlias ( devicemodalias ) ;
device - > internalSetDeviceDriver ( devicedriver ) ;
device - > internalSetSubsystem ( devicesubsystem ) ;
device - > internalSetPCIClass ( devicepciclass ) ;
updateBlacklists ( device , dev ) ;
if ( force_full_classification ) {
// Check external rules for possible device type overrides
device = classifyUnknownDeviceByExternalRules ( dev , device , false ) ;
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
bool removable = false ;
bool hotpluggable = false ;
// We can get the removable flag, but we have no idea if the device has the ability to notify on media insertion/removal
// If there is no such notification possible, then we should not set the removable flag
// udev can be such an amazing pain at times
// It exports a /capabilities node with no info on what the bits actually mean
// This information is very poorly documented as a set of #defines in include/linux/genhd.h
// We are specifically interested in GENHD_FL_REMOVABLE and GENHD_FL_MEDIA_CHANGE_NOTIFY
// The "removable" flag should also really be renamed to "hotpluggable", as that is far more precise...
TQString capabilitynodename = systempath ;
capabilitynodename . append ( " /capability " ) ;
TQFile capabilityfile ( capabilitynodename ) ;
unsigned int capabilities = 0 ;
if ( capabilityfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & capabilityfile ) ;
TQString capabilitystring ;
capabilitystring = stream . readLine ( ) ;
capabilities = capabilitystring . toUInt ( ) ;
capabilityfile . close ( ) ;
}
if ( capabilities & GENHD_FL_REMOVABLE ) {
// FIXME
// For added fun this is not always true; i.e. GENHD_FL_REMOVABLE can be set when the device cannot be hotplugged (floppy drives).
hotpluggable = true ;
}
if ( capabilities & GENHD_FL_MEDIA_CHANGE_NOTIFY ) {
removable = true ;
}
// See if any other devices are exclusively using this device, such as the Device Mapper
TQStringList holdingDeviceNodes ;
TQString holdersnodename = udev_device_get_syspath ( dev ) ;
holdersnodename . append ( " /holders/ " ) ;
TQDir holdersdir ( holdersnodename ) ;
holdersdir . setFilter ( TQDir : : All ) ;
const TQFileInfoList * dirlist = holdersdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator holdersdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = holdersdirit . current ( ) ) ! = 0 ) {
if ( dirfi - > isSymLink ( ) ) {
char * collapsedPath = realpath ( ( holdersnodename + dirfi - > readLink ( ) ) . ascii ( ) , NULL ) ;
holdingDeviceNodes . append ( TQString ( collapsedPath ) ) ;
free ( collapsedPath ) ;
}
+ + holdersdirit ;
}
}
// See if any other physical devices underlie this device, for example when the Device Mapper is in use
TQStringList slaveDeviceNodes ;
TQString slavesnodename = udev_device_get_syspath ( dev ) ;
slavesnodename . append ( " /slaves/ " ) ;
TQDir slavedir ( slavesnodename ) ;
slavedir . setFilter ( TQDir : : All ) ;
dirlist = slavedir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator slavedirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = slavedirit . current ( ) ) ! = 0 ) {
if ( dirfi - > isSymLink ( ) ) {
char * collapsedPath = realpath ( ( slavesnodename + dirfi - > readLink ( ) ) . ascii ( ) , NULL ) ;
slaveDeviceNodes . append ( TQString ( collapsedPath ) ) ;
free ( collapsedPath ) ;
}
+ + slavedirit ;
}
}
// Determine generic disk information
TQString devicevendor ( udev_device_get_property_value ( dev , " ID_VENDOR " ) ) ;
TQString devicemodel ( udev_device_get_property_value ( dev , " ID_MODEL " ) ) ;
TQString devicebus ( udev_device_get_property_value ( dev , " ID_BUS " ) ) ;
// Get disk specific info
TQString disklabel ( udev_device_get_property_value ( dev , " ID_FS_LABEL " ) ) ;
TQString diskuuid ( udev_device_get_property_value ( dev , " ID_FS_UUID " ) ) ;
TQString filesystemtype ( udev_device_get_property_value ( dev , " ID_FS_TYPE " ) ) ;
TQString filesystemusage ( udev_device_get_property_value ( dev , " ID_FS_USAGE " ) ) ;
device - > internalSetVendorName ( devicevendor ) ;
device - > internalSetVendorModel ( devicemodel ) ;
device - > internalSetDeviceBus ( devicebus ) ;
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( device ) ;
TDEDiskDeviceType : : TDEDiskDeviceType disktype = sdevice - > diskType ( ) ;
TDEDiskDeviceStatus : : TDEDiskDeviceStatus diskstatus = TDEDiskDeviceStatus : : Null ;
if ( force_full_classification ) {
disktype = classifyDiskType ( dev , devicebus , devicetypestring , systempath , devicevendor , devicemodel , filesystemtype , devicedriver ) ;
sdevice - > internalSetDiskType ( disktype ) ;
device = classifyUnknownDeviceByExternalRules ( dev , device , true ) ; // Check external rules for possible subtype overrides
disktype = sdevice - > diskType ( ) ; // The type can be overridden by an external rule
}
if ( ( disktype & TDEDiskDeviceType : : CDROM )
| | ( disktype & TDEDiskDeviceType : : CDRW )
| | ( disktype & TDEDiskDeviceType : : DVDROM )
| | ( disktype & TDEDiskDeviceType : : DVDRAM )
| | ( disktype & TDEDiskDeviceType : : DVDRW )
| | ( disktype & TDEDiskDeviceType : : BDROM )
| | ( disktype & TDEDiskDeviceType : : BDRW )
| | ( disktype & TDEDiskDeviceType : : CDAudio )
| | ( disktype & TDEDiskDeviceType : : CDVideo )
| | ( disktype & TDEDiskDeviceType : : DVDVideo )
| | ( disktype & TDEDiskDeviceType : : BDVideo )
) {
// These drives are guaranteed to be optical
disktype = disktype | TDEDiskDeviceType : : Optical ;
}
if ( disktype & TDEDiskDeviceType : : Floppy ) {
// Floppy drives don't work well under udev
// I have to look for the block device name manually
TQString floppyblknodename = systempath ;
floppyblknodename . append ( " /block " ) ;
TQDir floppyblkdir ( floppyblknodename ) ;
floppyblkdir . setFilter ( TQDir : : All ) ;
const TQFileInfoList * floppyblkdirlist = floppyblkdir . entryInfoList ( ) ;
if ( floppyblkdirlist ) {
TQFileInfoListIterator floppyblkdirit ( * floppyblkdirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = floppyblkdirit . current ( ) ) ! = 0 ) {
if ( ( dirfi - > fileName ( ) ! = " . " ) & & ( dirfi - > fileName ( ) ! = " .. " ) ) {
// Does this routine work with more than one floppy drive in the system?
devicenode = TQString ( " /dev/ " ) . append ( dirfi - > fileName ( ) ) ;
}
+ + floppyblkdirit ;
}
}
// Some interesting information can be gleaned from the CMOS type file
// 0 : Defaults
// 1 : 5 1/4 DD
// 2 : 5 1/4 HD
// 3 : 3 1/2 DD
// 4 : 3 1/2 HD
// 5 : 3 1/2 ED
// 6 : 3 1/2 ED
// 16 : unknown or not installed
TQString floppycmsnodename = systempath ;
floppycmsnodename . append ( " /cmos " ) ;
TQFile floppycmsfile ( floppycmsnodename ) ;
TQString cmosstring ;
if ( floppycmsfile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & floppycmsfile ) ;
cmosstring = stream . readLine ( ) ;
floppycmsfile . close ( ) ;
}
// FIXME
// Do something with the information in cmosstring
if ( devicenode . isNull ( ) ) {
// This floppy drive cannot be mounted, so ignore it
disktype = disktype & ~ TDEDiskDeviceType : : Floppy ;
}
}
if ( devicetypestring . upper ( ) = = " CD " ) {
if ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA_STATE " ) ) . upper ( ) = = " BLANK " ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : Blank ;
}
sdevice - > internalSetMediaInserted ( ( TQString ( udev_device_get_property_value ( dev , " ID_CDROM_MEDIA " ) ) ! = " " ) ) ;
}
if ( disktype & TDEDiskDeviceType : : Zip ) {
// A Zip drive does not advertise its status via udev, but it can be guessed from the size parameter
TQString zipnodename = systempath ;
zipnodename . append ( " /size " ) ;
TQFile namefile ( zipnodename ) ;
TQString zipsize ;
if ( namefile . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & namefile ) ;
zipsize = stream . readLine ( ) ;
namefile . close ( ) ;
}
if ( ! zipsize . isNull ( ) ) {
sdevice - > internalSetMediaInserted ( ( zipsize . toInt ( ) ! = 0 ) ) ;
}
}
if ( removable ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : Removable ;
}
if ( hotpluggable ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : Hotpluggable ;
}
if ( ( filesystemtype . upper ( ) ! = " CRYPTO_LUKS " ) & & ( filesystemtype . upper ( ) ! = " CRYPTO " ) & & ( ! filesystemtype . isNull ( ) ) ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : ContainsFilesystem ;
}
// Set mountable flag if device is likely to be mountable
diskstatus = diskstatus | TDEDiskDeviceStatus : : Mountable ;
if ( ( devicetypestring . upper ( ) . isNull ( ) ) & & ( disktype & TDEDiskDeviceType : : HDD ) ) {
diskstatus = diskstatus & ~ TDEDiskDeviceStatus : : Mountable ;
}
if ( removable ) {
if ( sdevice - > mediaInserted ( ) ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : Inserted ;
}
else {
diskstatus = diskstatus & ~ TDEDiskDeviceStatus : : Mountable ;
}
}
// If certain disk types do not report the presence of a filesystem, they are likely not mountable
if ( ( disktype & TDEDiskDeviceType : : HDD ) | | ( disktype & TDEDiskDeviceType : : Optical ) ) {
if ( ! ( diskstatus & TDEDiskDeviceStatus : : ContainsFilesystem ) ) {
diskstatus = diskstatus & ~ TDEDiskDeviceStatus : : Mountable ;
}
}
if ( holdingDeviceNodes . count ( ) > 0 ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : UsedByDevice ;
}
if ( slaveDeviceNodes . count ( ) > 0 ) {
diskstatus = diskstatus | TDEDiskDeviceStatus : : UsesDevice ;
}
// See if any slaves were crypted
for ( TQStringList : : Iterator slaveit = slaveDeviceNodes . begin ( ) ; slaveit ! = slaveDeviceNodes . end ( ) ; + + slaveit ) {
struct udev_device * slavedev ;
slavedev = udev_device_new_from_syspath ( m_udevStruct , ( * slaveit ) . ascii ( ) ) ;
TQString slavediskfstype ( udev_device_get_property_value ( slavedev , " ID_FS_TYPE " ) ) ;
if ( ( slavediskfstype . upper ( ) = = " CRYPTO_LUKS " ) | | ( slavediskfstype . upper ( ) = = " CRYPTO " ) ) {
disktype = disktype | TDEDiskDeviceType : : UnlockedCrypt ;
// Set disk type based on parent device
disktype = disktype | classifyDiskType ( slavedev , TQString ( udev_device_get_property_value ( dev , " ID_BUS " ) ) , TQString ( udev_device_get_property_value ( dev , " ID_TYPE " ) ) , ( * slaveit ) , TQString ( udev_device_get_property_value ( dev , " ID_VENDOR " ) ) , TQString ( udev_device_get_property_value ( dev , " ID_MODEL " ) ) , TQString ( udev_device_get_property_value ( dev , " ID_FS_TYPE " ) ) , TQString ( udev_device_get_driver ( dev ) ) ) ;
}
udev_device_unref ( slavedev ) ;
}
sdevice - > internalSetDiskType ( disktype ) ;
sdevice - > internalSetDiskUUID ( diskuuid ) ;
sdevice - > internalSetDiskStatus ( diskstatus ) ;
sdevice - > internalSetFileSystemName ( filesystemtype ) ;
sdevice - > internalSetFileSystemUsage ( filesystemusage ) ;
sdevice - > internalSetSlaveDevices ( slaveDeviceNodes ) ;
sdevice - > internalSetHoldingDevices ( holdingDeviceNodes ) ;
// Clean up disk label
if ( ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : CDROM ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : CDRW ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : DVDROM ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : DVDRW ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : BDROM ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : BDRW ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : CDAudio ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : CDVideo ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : DVDVideo ) )
| | ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : BDVideo ) )
) {
if ( disklabel = = " " & & sdevice - > diskLabel ( ) . isNull ( ) ) {
// Read the volume label in via volname, since udev couldn't be bothered to do this on its own
FILE * exepipe = popen ( ( ( TQString ( " volname %1 " ) . arg ( devicenode ) . ascii ( ) ) ) , " r " ) ;
if ( exepipe ) {
char buffer [ 8092 ] ;
disklabel = fgets ( buffer , sizeof ( buffer ) , exepipe ) ;
pclose ( exepipe ) ;
}
}
}
sdevice - > internalSetDiskLabel ( disklabel ) ;
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Network ) {
// Network devices don't have devices nodes per se, but we can at least return the Linux network name...
TQString potentialdevicenode = systempath ;
potentialdevicenode . remove ( 0 , potentialdevicenode . findRev ( " / " ) + 1 ) ;
TQString potentialparentnode = systempath ;
potentialparentnode . remove ( 0 , potentialparentnode . findRev ( " / " , potentialparentnode . findRev ( " / " ) - 1 ) + 1 ) ;
if ( potentialparentnode . startsWith ( " net/ " ) ) {
devicenode = potentialdevicenode ;
}
if ( devicenode . isNull ( ) ) {
// Platform device, not a physical device
// HACK
// This only works because devices of type Platform only access the TDEGenericDevice class!
device - > m_deviceType = TDEGenericDeviceType : : Platform ;
}
else {
// Gather network device information
TDENetworkDevice * ndevice = dynamic_cast < TDENetworkDevice * > ( device ) ;
TQString valuesnodename = systempath + " / " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " address " ) {
ndevice - > internalSetMacAddress ( line ) ;
}
if ( nodename = = " carrier " ) {
ndevice - > internalSetCarrierPresent ( line . toInt ( ) ) ;
}
if ( nodename = = " dormant " ) {
ndevice - > internalSetDormant ( line . toInt ( ) ) ;
}
if ( nodename = = " operstate " ) {
TQString friendlyState = line . lower ( ) ;
friendlyState [ 0 ] = friendlyState [ 0 ] . upper ( ) ;
ndevice - > internalSetState ( friendlyState ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
// Gather connection information such as IP addresses
if ( ndevice - > state ( ) . upper ( ) = = " UP " ) {
struct ifaddrs * ifaddr , * ifa ;
int family , s ;
char host [ NI_MAXHOST ] ;
if ( getifaddrs ( & ifaddr ) ! = - 1 ) {
for ( ifa = ifaddr ; ifa ! = NULL ; ifa = ifa - > ifa_next ) {
if ( ifa - > ifa_addr = = NULL ) {
continue ;
}
family = ifa - > ifa_addr - > sa_family ;
if ( TQString ( ifa - > ifa_name ) = = devicenode ) {
if ( ( family = = AF_INET ) | | ( family = = AF_INET6 ) ) {
s = getnameinfo ( ifa - > ifa_addr , ( family = = AF_INET ) ? sizeof ( struct sockaddr_in ) : sizeof ( struct sockaddr_in6 ) , host , NI_MAXHOST , NULL , 0 , NI_NUMERICHOST ) ;
if ( s = = 0 ) {
TQString address ( host ) ;
if ( family = = AF_INET ) {
ndevice - > internalSetIpV4Address ( address ) ;
}
if ( family = = AF_INET6 ) {
address . truncate ( address . findRev ( " % " ) ) ;
ndevice - > internalSetIpV6Address ( address ) ;
}
}
s = getnameinfo ( ifa - > ifa_netmask , ( family = = AF_INET ) ? sizeof ( struct sockaddr_in ) : sizeof ( struct sockaddr_in6 ) , host , NI_MAXHOST , NULL , 0 , NI_NUMERICHOST ) ;
if ( s = = 0 ) {
TQString address ( host ) ;
if ( family = = AF_INET ) {
ndevice - > internalSetIpV4Netmask ( address ) ;
}
if ( family = = AF_INET6 ) {
address . truncate ( address . findRev ( " % " ) ) ;
ndevice - > internalSetIpV6Netmask ( address ) ;
}
}
s = getnameinfo ( ifa - > ifa_ifu . ifu_broadaddr , ( family = = AF_INET ) ? sizeof ( struct sockaddr_in ) : sizeof ( struct sockaddr_in6 ) , host , NI_MAXHOST , NULL , 0 , NI_NUMERICHOST ) ;
if ( s = = 0 ) {
TQString address ( host ) ;
if ( family = = AF_INET ) {
ndevice - > internalSetIpV4Broadcast ( address ) ;
}
if ( family = = AF_INET6 ) {
address . truncate ( address . findRev ( " % " ) ) ;
ndevice - > internalSetIpV6Broadcast ( address ) ;
}
}
s = getnameinfo ( ifa - > ifa_ifu . ifu_dstaddr , ( family = = AF_INET ) ? sizeof ( struct sockaddr_in ) : sizeof ( struct sockaddr_in6 ) , host , NI_MAXHOST , NULL , 0 , NI_NUMERICHOST ) ;
if ( s = = 0 ) {
TQString address ( host ) ;
if ( family = = AF_INET ) {
ndevice - > internalSetIpV4Destination ( address ) ;
}
if ( family = = AF_INET6 ) {
address . truncate ( address . findRev ( " % " ) ) ;
ndevice - > internalSetIpV6Destination ( address ) ;
}
}
}
}
}
}
freeifaddrs ( ifaddr ) ;
// Gather statistics
TQString valuesnodename = systempath + " /statistics/ " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " rx_bytes " ) {
ndevice - > internalSetRxBytes ( line . toDouble ( ) ) ;
}
if ( nodename = = " tx_bytes " ) {
ndevice - > internalSetTxBytes ( line . toDouble ( ) ) ;
}
if ( nodename = = " rx_packets " ) {
ndevice - > internalSetRxPackets ( line . toDouble ( ) ) ;
}
if ( nodename = = " tx_packets " ) {
ndevice - > internalSetTxPackets ( line . toDouble ( ) ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
}
}
}
if ( ( device - > type ( ) = = TDEGenericDeviceType : : OtherSensor ) | | ( device - > type ( ) = = TDEGenericDeviceType : : ThermalSensor ) ) {
// Populate all sensor values
TDESensorClusterMap sensors ;
TQString valuesnodename = systempath + " / " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
if ( nodename . contains ( " _ " ) ) {
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
TQStringList sensornodelist = TQStringList : : split ( " _ " , nodename ) ;
TQString sensornodename = * ( sensornodelist . at ( 0 ) ) ;
TQString sensornodetype = * ( sensornodelist . at ( 1 ) ) ;
double lineValue = line . toDouble ( ) ;
if ( ! sensornodename . contains ( " fan " ) ) {
lineValue = lineValue / 1000.0 ;
}
if ( sensornodetype = = " label " ) {
sensors [ sensornodename ] . label = line ;
}
if ( sensornodetype = = " input " ) {
sensors [ sensornodename ] . current = lineValue ;
}
if ( sensornodetype = = " min " ) {
sensors [ sensornodename ] . minimum = lineValue ;
}
if ( sensornodetype = = " max " ) {
sensors [ sensornodename ] . maximum = lineValue ;
}
if ( sensornodetype = = " warn " ) {
sensors [ sensornodename ] . warning = lineValue ;
}
if ( sensornodetype = = " crit " ) {
sensors [ sensornodename ] . critical = lineValue ;
}
file . close ( ) ;
}
}
+ + valuesdirit ;
}
}
TDESensorDevice * sdevice = dynamic_cast < TDESensorDevice * > ( device ) ;
sdevice - > internalSetValues ( sensors ) ;
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Battery ) {
// Populate all battery values
TDEBatteryDevice * bdevice = dynamic_cast < TDEBatteryDevice * > ( device ) ;
TQString valuesnodename = systempath + " / " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " alarm " ) {
bdevice - > internalSetAlarmEnergy ( line . toDouble ( ) / 1000000.0 ) ;
}
if ( nodename = = " energy_full " ) {
bdevice - > internalSetMaximumEnergy ( line . toDouble ( ) / 1000000.0 ) ;
}
if ( nodename = = " energy_full_design " ) {
bdevice - > internalSetMaximumDesignEnergy ( line . toDouble ( ) / 1000000.0 ) ;
}
if ( nodename = = " energy_now " ) {
bdevice - > internalSetEnergy ( line . toDouble ( ) / 1000000.0 ) ;
}
if ( nodename = = " manufacturer " ) {
bdevice - > internalSetVendorName ( line . stripWhiteSpace ( ) ) ;
}
if ( nodename = = " model_name " ) {
bdevice - > internalSetVendorModel ( line . stripWhiteSpace ( ) ) ;
}
if ( nodename = = " power_now " ) {
bdevice - > internalSetDischargeRate ( line . toDouble ( ) / 1000000.0 ) ;
}
if ( nodename = = " present " ) {
bdevice - > internalSetInstalled ( line . toInt ( ) ) ;
}
if ( nodename = = " serial_number " ) {
bdevice - > internalSetSerialNumber ( line . stripWhiteSpace ( ) ) ;
}
if ( nodename = = " status " ) {
bdevice - > internalSetStatus ( line ) ;
}
if ( nodename = = " technology " ) {
bdevice - > internalSetTechnology ( line ) ;
}
if ( nodename = = " voltage_min_design " ) {
bdevice - > internalSetMinimumVoltage ( line . toDouble ( ) / 1000000.0 ) ;
}
if ( nodename = = " voltage_now " ) {
bdevice - > internalSetVoltage ( line . toDouble ( ) / 1000000.0 ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
// Calculate time remaining
// Discharge rate is in watt-hours
// Energy is in watt-hours
// Therefore, energy/rate = time in hours
// Convert to seconds...
bdevice - > internalSetTimeRemaining ( ( bdevice - > energy ( ) / bdevice - > dischargeRate ( ) ) * 60 * 60 ) ;
}
if ( device - > type ( ) = = TDEGenericDeviceType : : PowerSupply ) {
// Populate all power supply values
TDEMainsPowerDevice * pdevice = dynamic_cast < TDEMainsPowerDevice * > ( device ) ;
TQString valuesnodename = systempath + " / " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " manufacturer " ) {
pdevice - > internalSetVendorName ( line . stripWhiteSpace ( ) ) ;
}
if ( nodename = = " model_name " ) {
pdevice - > internalSetVendorModel ( line . stripWhiteSpace ( ) ) ;
}
if ( nodename = = " online " ) {
pdevice - > internalSetOnline ( line . toInt ( ) ) ;
}
if ( nodename = = " serial_number " ) {
pdevice - > internalSetSerialNumber ( line . stripWhiteSpace ( ) ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Backlight ) {
// Populate all backlight values
TDEBacklightDevice * bdevice = dynamic_cast < TDEBacklightDevice * > ( device ) ;
TQString valuesnodename = systempath + " / " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " bl_power " ) {
TDEDisplayPowerLevel : : TDEDisplayPowerLevel pl = TDEDisplayPowerLevel : : On ;
int rpl = line . toInt ( ) ;
if ( rpl = = FB_BLANK_UNBLANK ) {
pl = TDEDisplayPowerLevel : : On ;
}
else if ( rpl = = FB_BLANK_POWERDOWN ) {
pl = TDEDisplayPowerLevel : : Off ;
}
bdevice - > internalSetPowerLevel ( pl ) ;
}
if ( nodename = = " max_brightness " ) {
bdevice - > internalSetMaximumRawBrightness ( line . toInt ( ) ) ;
}
if ( nodename = = " actual_brightness " ) {
bdevice - > internalSetCurrentRawBrightness ( line . toInt ( ) ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Monitor ) {
TDEMonitorDevice * mdevice = dynamic_cast < TDEMonitorDevice * > ( device ) ;
TQString valuesnodename = systempath + " / " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " status " ) {
mdevice - > internalSetConnected ( line . lower ( ) = = " connected " ) ;
}
if ( nodename = = " enabled " ) {
mdevice - > internalSetEnabled ( line . lower ( ) = = " enabled " ) ;
}
if ( nodename = = " modes " ) {
TQStringList resinfo ;
TQStringList resolutionsStringList = line . upper ( ) ;
while ( ( ! stream . atEnd ( ) ) & & ( ! line . isNull ( ) ) ) {
line = stream . readLine ( ) ;
if ( ! line . isNull ( ) ) {
resolutionsStringList . append ( line . upper ( ) ) ;
}
}
TDEResolutionList resolutions ;
resolutions . clear ( ) ;
for ( TQStringList : : Iterator it = resolutionsStringList . begin ( ) ; it ! = resolutionsStringList . end ( ) ; + + it ) {
resinfo = TQStringList : : split ( ' X ' , * it , true ) ;
resolutions . append ( TDEResolutionPair ( ( * ( resinfo . at ( 0 ) ) ) . toUInt ( ) , ( * ( resinfo . at ( 1 ) ) ) . toUInt ( ) ) ) ;
}
mdevice - > internalSetResolutions ( resolutions ) ;
}
if ( nodename = = " dpms " ) {
TDEDisplayPowerLevel : : TDEDisplayPowerLevel pl = TDEDisplayPowerLevel : : On ;
if ( line = = " On " ) {
pl = TDEDisplayPowerLevel : : On ;
}
else if ( line = = " Standby " ) {
pl = TDEDisplayPowerLevel : : Standby ;
}
else if ( line = = " Suspend " ) {
pl = TDEDisplayPowerLevel : : Suspend ;
}
else if ( line = = " Off " ) {
pl = TDEDisplayPowerLevel : : Off ;
}
mdevice - > internalSetPowerLevel ( pl ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
TQString genericPortName = mdevice - > systemPath ( ) ;
genericPortName . remove ( 0 , genericPortName . find ( " - " ) + 1 ) ;
genericPortName . truncate ( genericPortName . findRev ( " - " ) ) ;
mdevice - > internalSetPortType ( genericPortName ) ;
if ( mdevice - > connected ( ) ) {
TQPair < TQString , TQString > monitor_info = getEDIDMonitorName ( device - > systemPath ( ) ) ;
if ( ! monitor_info . first . isNull ( ) ) {
mdevice - > internalSetVendorName ( monitor_info . first ) ;
mdevice - > internalSetVendorModel ( monitor_info . second ) ;
mdevice - > m_friendlyName = monitor_info . first + " " + monitor_info . second ;
}
mdevice - > internalSetEdid ( getEDID ( mdevice - > systemPath ( ) ) ) ;
}
else {
mdevice - > m_friendlyName = i18n ( " Disconnected %1 Port " ) . arg ( genericPortName ) ;
mdevice - > internalSetEdid ( TQByteArray ( ) ) ;
mdevice - > internalSetResolutions ( TDEResolutionList ( ) ) ;
}
// FIXME
// Much of the code in libkrandr should be integrated into/interfaced with this library
}
if ( device - > type ( ) = = TDEGenericDeviceType : : RootSystem ) {
// Try to obtain as much generic information about this system as possible
TDERootSystemDevice * rdevice = dynamic_cast < TDERootSystemDevice * > ( device ) ;
// Guess at my form factor
// dmidecode would tell me this, but is somewhat unreliable
TDESystemFormFactor : : TDESystemFormFactor formfactor = TDESystemFormFactor : : Desktop ;
if ( listByDeviceClass ( TDEGenericDeviceType : : Backlight ) . count ( ) > 0 ) { // Is this really a good way to determine if a machine is a laptop?
formfactor = TDESystemFormFactor : : Laptop ;
}
rdevice - > internalSetFormFactor ( formfactor ) ;
TQString valuesnodename = " /sys/power/ " ;
TQDir valuesdir ( valuesnodename ) ;
valuesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = valuesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator valuesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = valuesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
TQFile file ( valuesnodename + nodename ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
line = stream . readLine ( ) ;
if ( nodename = = " state " ) {
TDESystemPowerStateList powerstates ;
// Always assume that these two fully on/fully off states are available
powerstates . append ( TDESystemPowerState : : Active ) ;
powerstates . append ( TDESystemPowerState : : PowerOff ) ;
if ( line . contains ( " standby " ) ) {
powerstates . append ( TDESystemPowerState : : Standby ) ;
}
if ( line . contains ( " mem " ) ) {
powerstates . append ( TDESystemPowerState : : Suspend ) ;
}
if ( line . contains ( " disk " ) ) {
powerstates . append ( TDESystemPowerState : : Hibernate ) ;
}
rdevice - > internalSetPowerStates ( powerstates ) ;
}
if ( nodename = = " disk " ) {
// Get list of available hibernation methods
TDESystemHibernationMethodList hibernationmethods ;
if ( line . contains ( " platform " ) ) {
hibernationmethods . append ( TDESystemHibernationMethod : : Platform ) ;
}
if ( line . contains ( " shutdown " ) ) {
hibernationmethods . append ( TDESystemHibernationMethod : : Shutdown ) ;
}
if ( line . contains ( " reboot " ) ) {
hibernationmethods . append ( TDESystemHibernationMethod : : Reboot ) ;
}
if ( line . contains ( " testproc " ) ) {
hibernationmethods . append ( TDESystemHibernationMethod : : TestProc ) ;
}
if ( line . contains ( " test " ) ) {
hibernationmethods . append ( TDESystemHibernationMethod : : Test ) ;
}
rdevice - > internalSetHibernationMethods ( hibernationmethods ) ;
// Get current hibernation method
line . truncate ( line . findRev ( " ] " ) ) ;
line . remove ( 0 , line . findRev ( " [ " ) + 1 ) ;
TDESystemHibernationMethod : : TDESystemHibernationMethod hibernationmethod = TDESystemHibernationMethod : : Unsupported ;
if ( line . contains ( " platform " ) ) {
hibernationmethod = TDESystemHibernationMethod : : Platform ;
}
if ( line . contains ( " shutdown " ) ) {
hibernationmethod = TDESystemHibernationMethod : : Shutdown ;
}
if ( line . contains ( " reboot " ) ) {
hibernationmethod = TDESystemHibernationMethod : : Reboot ;
}
if ( line . contains ( " testproc " ) ) {
hibernationmethod = TDESystemHibernationMethod : : TestProc ;
}
if ( line . contains ( " test " ) ) {
hibernationmethod = TDESystemHibernationMethod : : Test ;
}
rdevice - > internalSetHibernationMethod ( hibernationmethod ) ;
}
if ( nodename = = " image_size " ) {
rdevice - > internalSetDiskSpaceNeededForHibernation ( line . toULong ( ) ) ;
}
file . close ( ) ;
}
+ + valuesdirit ;
}
}
}
// NOTE
// Keep these two handlers (Event and Input) in sync!
if ( device - > type ( ) = = TDEGenericDeviceType : : Event ) {
// Try to obtain as much type information about this event device as possible
TDEEventDevice * edevice = dynamic_cast < TDEEventDevice * > ( device ) ;
if ( edevice - > systemPath ( ) . contains ( " PNP0C0D " ) ) {
edevice - > internalSetEventType ( TDEEventDeviceType : : ACPILidSwitch ) ;
}
else if ( edevice - > systemPath ( ) . contains ( " PNP0C0E " ) | | edevice - > systemPath ( ) . contains ( " /LNXSLPBN " ) ) {
edevice - > internalSetEventType ( TDEEventDeviceType : : ACPISleepButton ) ;
}
else if ( edevice - > systemPath ( ) . contains ( " PNP0C0C " ) | | edevice - > systemPath ( ) . contains ( " /LNXPWRBN " ) ) {
edevice - > internalSetEventType ( TDEEventDeviceType : : ACPIPowerButton ) ;
}
else {
edevice - > internalSetEventType ( TDEEventDeviceType : : Unknown ) ;
}
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Input ) {
// Try to obtain as much type information about this input device as possible
TDEInputDevice * idevice = dynamic_cast < TDEInputDevice * > ( device ) ;
if ( idevice - > systemPath ( ) . contains ( " PNP0C0D " ) ) {
idevice - > internalSetInputType ( TDEInputDeviceType : : ACPILidSwitch ) ;
}
else if ( idevice - > systemPath ( ) . contains ( " PNP0C0E " ) | | idevice - > systemPath ( ) . contains ( " /LNXSLPBN " ) ) {
idevice - > internalSetInputType ( TDEInputDeviceType : : ACPISleepButton ) ;
}
else if ( idevice - > systemPath ( ) . contains ( " PNP0C0C " ) | | idevice - > systemPath ( ) . contains ( " /LNXPWRBN " ) ) {
idevice - > internalSetInputType ( TDEInputDeviceType : : ACPIPowerButton ) ;
}
else {
idevice - > internalSetInputType ( TDEInputDeviceType : : Unknown ) ;
}
}
if ( device - > type ( ) = = TDEGenericDeviceType : : Event ) {
// Try to obtain as much specific information about this event device as possible
TDEEventDevice * edevice = dynamic_cast < TDEEventDevice * > ( device ) ;
int r ;
char switches [ SW_CNT ] ;
// Figure out which switch types are supported, if any
TDESwitchType : : TDESwitchType supportedSwitches = TDESwitchType : : Null ;
if ( edevice - > m_fd < 0 ) {
edevice - > m_fd = open ( edevice - > deviceNode ( ) . ascii ( ) , O_RDONLY ) ;
}
r = ioctl ( edevice - > m_fd , EVIOCGBIT ( EV_SW , sizeof ( switches ) ) , switches ) ;
if ( r > 0 ) {
if ( BIT_IS_SET ( switches , SW_LID ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : Lid ;
}
if ( BIT_IS_SET ( switches , SW_TABLET_MODE ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : TabletMode ;
}
if ( BIT_IS_SET ( switches , SW_RFKILL_ALL ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : RFKill ;
}
if ( BIT_IS_SET ( switches , SW_RADIO ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : Radio ;
}
if ( BIT_IS_SET ( switches , SW_MICROPHONE_INSERT ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : MicrophoneInsert ;
}
if ( BIT_IS_SET ( switches , SW_DOCK ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : Dock ;
}
if ( BIT_IS_SET ( switches , SW_LINEOUT_INSERT ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : LineOutInsert ;
}
if ( BIT_IS_SET ( switches , SW_JACK_PHYSICAL_INSERT ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : JackPhysicalInsert ;
}
if ( BIT_IS_SET ( switches , SW_VIDEOOUT_INSERT ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : VideoOutInsert ;
}
#if 0 // Some old kernels don't provide these defines... [FIXME]
if ( BIT_IS_SET ( switches , SW_CAMERA_LENS_COVER ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : CameraLensCover ;
}
if ( BIT_IS_SET ( switches , SW_KEYPAD_SLIDE ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : KeypadSlide ;
}
if ( BIT_IS_SET ( switches , SW_FRONT_PROXIMITY ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : FrontProximity ;
}
if ( BIT_IS_SET ( switches , SW_ROTATE_LOCK ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : RotateLock ;
}
if ( BIT_IS_SET ( switches , SW_LINEIN_INSERT ) ) {
supportedSwitches = supportedSwitches | TDESwitchType : : LineInInsert ;
}
# endif
}
edevice - > internalSetProvidedSwitches ( supportedSwitches ) ;
// Figure out which switch types are active, if any
TDESwitchType : : TDESwitchType activeSwitches = TDESwitchType : : Null ;
r = ioctl ( edevice - > m_fd , EVIOCGSW ( sizeof ( switches ) ) , switches ) ;
if ( r > 0 ) {
if ( BIT_IS_SET ( switches , SW_LID ) ) {
activeSwitches = activeSwitches | TDESwitchType : : Lid ;
}
if ( BIT_IS_SET ( switches , SW_TABLET_MODE ) ) {
activeSwitches = activeSwitches | TDESwitchType : : TabletMode ;
}
if ( BIT_IS_SET ( switches , SW_RFKILL_ALL ) ) {
activeSwitches = activeSwitches | TDESwitchType : : RFKill ;
}
if ( BIT_IS_SET ( switches , SW_RADIO ) ) {
activeSwitches = activeSwitches | TDESwitchType : : Radio ;
}
if ( BIT_IS_SET ( switches , SW_MICROPHONE_INSERT ) ) {
activeSwitches = activeSwitches | TDESwitchType : : MicrophoneInsert ;
}
if ( BIT_IS_SET ( switches , SW_DOCK ) ) {
activeSwitches = activeSwitches | TDESwitchType : : Dock ;
}
if ( BIT_IS_SET ( switches , SW_LINEOUT_INSERT ) ) {
activeSwitches = activeSwitches | TDESwitchType : : LineOutInsert ;
}
if ( BIT_IS_SET ( switches , SW_JACK_PHYSICAL_INSERT ) ) {
activeSwitches = activeSwitches | TDESwitchType : : JackPhysicalInsert ;
}
if ( BIT_IS_SET ( switches , SW_VIDEOOUT_INSERT ) ) {
activeSwitches = activeSwitches | TDESwitchType : : VideoOutInsert ;
}
#if 0 // Some old kernels don't provide these defines... [FIXME]
if ( BIT_IS_SET ( switches , SW_CAMERA_LENS_COVER ) ) {
activeSwitches = activeSwitches | TDESwitchType : : CameraLensCover ;
}
if ( BIT_IS_SET ( switches , SW_KEYPAD_SLIDE ) ) {
activeSwitches = activeSwitches | TDESwitchType : : KeypadSlide ;
}
if ( BIT_IS_SET ( switches , SW_FRONT_PROXIMITY ) ) {
activeSwitches = activeSwitches | TDESwitchType : : FrontProximity ;
}
if ( BIT_IS_SET ( switches , SW_ROTATE_LOCK ) ) {
activeSwitches = activeSwitches | TDESwitchType : : RotateLock ;
}
if ( BIT_IS_SET ( switches , SW_LINEIN_INSERT ) ) {
activeSwitches = activeSwitches | TDESwitchType : : LineInInsert ;
}
# endif
}
edevice - > internalSetActiveSwitches ( activeSwitches ) ;
edevice - > internalStartFdMonitoring ( this ) ;
}
// Root devices are still special
if ( ( device - > type ( ) = = TDEGenericDeviceType : : Root ) | | ( device - > type ( ) = = TDEGenericDeviceType : : RootSystem ) ) {
systempath = device - > systemPath ( ) ;
}
// Set basic device information again, as some information may have changed
device - > internalSetName ( devicename ) ;
device - > internalSetDeviceNode ( devicenode ) ;
device - > internalSetSystemPath ( systempath ) ;
device - > internalSetVendorID ( devicevendorid ) ;
device - > internalSetModelID ( devicemodelid ) ;
device - > internalSetVendorEncoded ( devicevendoridenc ) ;
device - > internalSetModelEncoded ( devicemodelidenc ) ;
device - > internalSetSubVendorID ( devicesubvendorid ) ;
device - > internalSetSubModelID ( devicesubmodelid ) ;
device - > internalSetDeviceDriver ( devicedriver ) ;
device - > internalSetSubsystem ( devicesubsystem ) ;
device - > internalSetPCIClass ( devicepciclass ) ;
// Internal use only!
device - > m_udevtype = devicetype ;
device - > m_udevdevicetypestring = devicetypestring ;
device - > udevdevicetypestring_alt = devicetypestring_alt ;
if ( temp_udev_device ) {
udev_device_unref ( dev ) ;
}
return device ;
}
void TDEHardwareDevices : : updateBlacklists ( TDEGenericDevice * hwdevice , udev_device * dev ) {
// HACK
// I am lucky enough to have a Flash drive that spams udev continually with device change events
// I imagine I am not the only one, so here is a section in which specific devices can be blacklisted!
// For "U3 System" fake CD
if ( ( hwdevice - > vendorID ( ) = = " 08ec " ) & & ( hwdevice - > modelID ( ) = = " 0020 " ) & & ( TQString ( udev_device_get_property_value ( dev , " ID_TYPE " ) ) = = " cd " ) ) {
hwdevice - > internalSetBlacklistedForUpdate ( true ) ;
}
}
bool TDEHardwareDevices : : queryHardwareInformation ( ) {
if ( ! m_udevStruct ) {
return false ;
}
// Prepare the device list for repopulation
m_deviceList . clear ( ) ;
addCoreSystemDevices ( ) ;
struct udev_enumerate * enumerate ;
struct udev_list_entry * devices , * dev_list_entry ;
struct udev_device * dev ;
// Create a list of all devices
enumerate = udev_enumerate_new ( m_udevStruct ) ;
udev_enumerate_add_match_subsystem ( enumerate , NULL ) ;
udev_enumerate_scan_devices ( enumerate ) ;
devices = udev_enumerate_get_list_entry ( enumerate ) ;
// Get detailed information on each detected device
udev_list_entry_foreach ( dev_list_entry , devices ) {
const char * path ;
// Get the filename of the /sys entry for the device and create a udev_device object (dev) representing it
path = udev_list_entry_get_name ( dev_list_entry ) ;
dev = udev_device_new_from_syspath ( m_udevStruct , path ) ;
TDEGenericDevice * device = classifyUnknownDevice ( dev ) ;
// Make sure this device is not a duplicate
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > systemPath ( ) = = device - > systemPath ( ) ) {
delete device ;
device = 0 ;
break ;
}
}
if ( device ) {
m_deviceList . append ( device ) ;
}
udev_device_unref ( dev ) ;
}
// Free the enumerator object
udev_enumerate_unref ( enumerate ) ;
// Update parent/child tables for all devices
updateParentDeviceInformation ( ) ;
return true ;
}
void TDEHardwareDevices : : updateParentDeviceInformation ( TDEGenericDevice * hwdevice ) {
// Scan for the first path up the sysfs tree that is available in the main hardware table
bool done = false ;
TQString current_path = hwdevice - > systemPath ( ) ;
TDEGenericDevice * parentdevice = 0 ;
if ( current_path . endsWith ( " / " ) ) {
current_path . truncate ( current_path . findRev ( " / " ) ) ;
}
while ( done = = false ) {
current_path . truncate ( current_path . findRev ( " / " ) ) ;
if ( current_path . startsWith ( " /sys/devices " ) ) {
if ( current_path . endsWith ( " / " ) ) {
current_path . truncate ( current_path . findRev ( " / " ) ) ;
}
parentdevice = findBySystemPath ( current_path ) ;
if ( parentdevice ) {
done = true ;
}
}
else {
// Abort!
done = true ;
}
}
hwdevice - > internalSetParentDevice ( parentdevice ) ;
}
void TDEHardwareDevices : : updateParentDeviceInformation ( ) {
TDEGenericDevice * hwdevice ;
// We can't use m_deviceList directly as m_deviceList can only have one iterator active against it at any given time
TDEGenericHardwareList devList = listAllPhysicalDevices ( ) ;
for ( hwdevice = devList . first ( ) ; hwdevice ; hwdevice = devList . next ( ) ) {
updateParentDeviceInformation ( hwdevice ) ;
}
}
void TDEHardwareDevices : : addCoreSystemDevices ( ) {
TDEGenericDevice * hwdevice ;
// Add the Main Root System Device, which provides all other devices
hwdevice = new TDERootSystemDevice ( TDEGenericDeviceType : : RootSystem ) ;
hwdevice - > internalSetSystemPath ( " /sys/devices " ) ;
m_deviceList . append ( hwdevice ) ;
rescanDeviceInformation ( hwdevice ) ;
// Add core top-level devices in /sys/devices to the hardware listing
TQStringList holdingDeviceNodes ;
TQString devicesnodename = " /sys/devices " ;
TQDir devicesdir ( devicesnodename ) ;
devicesdir . setFilter ( TQDir : : All ) ;
TQString nodename ;
const TQFileInfoList * dirlist = devicesdir . entryInfoList ( ) ;
if ( dirlist ) {
TQFileInfoListIterator devicesdirit ( * dirlist ) ;
TQFileInfo * dirfi ;
while ( ( dirfi = devicesdirit . current ( ) ) ! = 0 ) {
nodename = dirfi - > fileName ( ) ;
if ( nodename ! = " . " & & nodename ! = " .. " ) {
hwdevice = new TDEGenericDevice ( TDEGenericDeviceType : : Root ) ;
hwdevice - > internalSetSystemPath ( dirfi - > absFilePath ( ) ) ;
m_deviceList . append ( hwdevice ) ;
}
+ + devicesdirit ;
}
}
// Handle CPUs, which are currently handled terribly by udev
// Parse /proc/cpuinfo to extract some information about the CPUs
hwdevice = 0 ;
TQStringList lines ;
TQFile file ( " /proc/cpuinfo " ) ;
if ( file . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & file ) ;
TQString line ;
int processorNumber = - 1 ;
while ( ! stream . atEnd ( ) ) {
line = stream . readLine ( ) ;
// WARNING This routine assumes that "processor" is always the first entry in /proc/cpuinfo!
// FIXME Parse all available information, such as frequency, etc.
if ( line . startsWith ( " processor " ) ) {
line . remove ( 0 , line . find ( " : " ) + 1 ) ;
line = line . stripWhiteSpace ( ) ;
processorNumber = line . toInt ( ) ;
hwdevice = new TDECPUDevice ( TDEGenericDeviceType : : CPU ) ;
hwdevice - > internalSetSystemPath ( TQString ( " /sys/devices/system/cpu/cpu%1 " ) . arg ( processorNumber ) ) ;
m_deviceList . append ( hwdevice ) ;
#if 0
// Set up CPU information monitor
// The only way CPU information can be changed is if something changes in the cpufreq node
// This may change in the future, but for now it is a fairly good assumption
m_cpuWatch - > addDir ( TQString ( " /sys/devices/system/cpu/cpu%1/cpufreq " ) . arg ( processorNumber ) ) ;
# endif
}
lines + = line ;
}
file . close ( ) ;
}
// Populate CPU information
processModifiedCPUs ( ) ;
}
TQString TDEHardwareDevices : : findPCIDeviceName ( TQString vendorid , TQString modelid , TQString subvendorid , TQString submodelid ) {
TQString vendorName = TQString : : null ;
TQString modelName = TQString : : null ;
TQString friendlyName = TQString : : null ;
if ( ! pci_id_map ) {
pci_id_map = new TDEDeviceIDMap ;
TQString database_filename = " /usr/share/pci.ids " ;
if ( ! TQFile : : exists ( database_filename ) ) {
database_filename = " /usr/share/misc/pci.ids " ;
}
if ( ! TQFile : : exists ( database_filename ) ) {
printf ( " [tdehardwaredevices] Unable to locate PCI information database pci.ids \n \r " ) ; fflush ( stdout ) ;
return i18n ( " Unknown PCI Device " ) ;
}
TQFile database ( database_filename ) ;
if ( database . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & database ) ;
TQString line ;
TQString vendorID ;
TQString modelID ;
TQString subvendorID ;
TQString submodelID ;
TQString deviceMapKey ;
TQStringList devinfo ;
while ( ! stream . atEnd ( ) ) {
line = stream . readLine ( ) ;
if ( ( ! line . upper ( ) . startsWith ( " \t " ) ) & & ( ! line . upper ( ) . startsWith ( " # " ) ) ) {
line . replace ( " \t " , " " ) ;
devinfo = TQStringList : : split ( ' ' , line , false ) ;
vendorID = * ( devinfo . at ( 0 ) ) ;
vendorName = line ;
vendorName . remove ( 0 , vendorName . find ( " " ) ) ;
vendorName = vendorName . stripWhiteSpace ( ) ;
modelName = TQString : : null ;
deviceMapKey = vendorID . lower ( ) + " ::: " ;
}
else {
if ( ( line . upper ( ) . startsWith ( " \t " ) ) & & ( ! line . upper ( ) . startsWith ( " \t \t " ) ) ) {
line . replace ( " \t " , " " ) ;
devinfo = TQStringList : : split ( ' ' , line , false ) ;
modelID = * ( devinfo . at ( 0 ) ) ;
modelName = line ;
modelName . remove ( 0 , modelName . find ( " " ) ) ;
modelName = modelName . stripWhiteSpace ( ) ;
deviceMapKey = vendorID . lower ( ) + " : " + modelID . lower ( ) + " :: " ;
}
else {
if ( line . upper ( ) . startsWith ( " \t \t " ) ) {
line . replace ( " \t " , " " ) ;
devinfo = TQStringList : : split ( ' ' , line , false ) ;
subvendorID = * ( devinfo . at ( 0 ) ) ;
submodelID = * ( devinfo . at ( 1 ) ) ;
modelName = line ;
modelName . remove ( 0 , modelName . find ( " " ) ) ;
modelName = modelName . stripWhiteSpace ( ) ;
modelName . remove ( 0 , modelName . find ( " " ) ) ;
modelName = modelName . stripWhiteSpace ( ) ;
deviceMapKey = vendorID . lower ( ) + " : " + modelID . lower ( ) + " : " + subvendorID . lower ( ) + " : " + submodelID . lower ( ) ;
}
}
}
if ( modelName . isNull ( ) ) {
pci_id_map - > insert ( deviceMapKey , " ***UNKNOWN DEVICE*** " + vendorName , true ) ;
}
else {
pci_id_map - > insert ( deviceMapKey , vendorName + " " + modelName , true ) ;
}
}
database . close ( ) ;
}
else {
printf ( " [tdehardwaredevices] Unable to open PCI information database %s \n \r " , database_filename . ascii ( ) ) ; fflush ( stdout ) ;
}
}
if ( pci_id_map ) {
TQString deviceName ;
TQString deviceMapKey = vendorid . lower ( ) + " : " + modelid . lower ( ) + " : " + subvendorid . lower ( ) + " : " + submodelid . lower ( ) ;
deviceName = ( * pci_id_map ) [ deviceMapKey ] ;
if ( deviceName . isNull ( ) | | deviceName . startsWith ( " ***UNKNOWN DEVICE*** " ) ) {
deviceMapKey = vendorid . lower ( ) + " : " + modelid . lower ( ) + " : " + subvendorid . lower ( ) + " : " ;
deviceName = ( * pci_id_map ) [ deviceMapKey ] ;
if ( deviceName . isNull ( ) | | deviceName . startsWith ( " ***UNKNOWN DEVICE*** " ) ) {
deviceMapKey = vendorid . lower ( ) + " : " + modelid . lower ( ) + " :: " ;
deviceName = ( * pci_id_map ) [ deviceMapKey ] ;
}
}
if ( deviceName . startsWith ( " ***UNKNOWN DEVICE*** " ) ) {
deviceName . replace ( " ***UNKNOWN DEVICE*** " , " " ) ;
deviceName . prepend ( i18n ( " Unknown PCI Device " ) + " " ) ;
if ( subvendorid . isNull ( ) ) {
deviceName . append ( TQString ( " [%1:%2] " ) . arg ( vendorid . lower ( ) ) . arg ( modelid . lower ( ) ) ) ;
}
else {
deviceName . append ( TQString ( " [%1:%2] [%3:%4] " ) . arg ( vendorid . lower ( ) ) . arg ( modelid . lower ( ) ) . arg ( subvendorid . lower ( ) ) . arg ( submodelid . lower ( ) ) ) ;
}
}
return deviceName ;
}
else {
return i18n ( " Unknown PCI Device " ) ;
}
}
TQString TDEHardwareDevices : : findUSBDeviceName ( TQString vendorid , TQString modelid , TQString subvendorid , TQString submodelid ) {
TQString vendorName = TQString : : null ;
TQString modelName = TQString : : null ;
TQString friendlyName = TQString : : null ;
if ( ! usb_id_map ) {
usb_id_map = new TDEDeviceIDMap ;
TQString database_filename = " /usr/share/usb.ids " ;
if ( ! TQFile : : exists ( database_filename ) ) {
database_filename = " /usr/share/misc/usb.ids " ;
}
if ( ! TQFile : : exists ( database_filename ) ) {
printf ( " [tdehardwaredevices] Unable to locate USB information database usb.ids \n \r " ) ; fflush ( stdout ) ;
return i18n ( " Unknown USB Device " ) ;
}
TQFile database ( database_filename ) ;
if ( database . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & database ) ;
TQString line ;
TQString vendorID ;
TQString modelID ;
TQString subvendorID ;
TQString submodelID ;
TQString deviceMapKey ;
TQStringList devinfo ;
while ( ! stream . atEnd ( ) ) {
line = stream . readLine ( ) ;
if ( ( ! line . upper ( ) . startsWith ( " \t " ) ) & & ( ! line . upper ( ) . startsWith ( " # " ) ) ) {
line . replace ( " \t " , " " ) ;
devinfo = TQStringList : : split ( ' ' , line , false ) ;
vendorID = * ( devinfo . at ( 0 ) ) ;
vendorName = line ;
vendorName . remove ( 0 , vendorName . find ( " " ) ) ;
vendorName = vendorName . stripWhiteSpace ( ) ;
modelName = TQString : : null ;
deviceMapKey = vendorID . lower ( ) + " ::: " ;
}
else {
if ( ( line . upper ( ) . startsWith ( " \t " ) ) & & ( ! line . upper ( ) . startsWith ( " \t \t " ) ) ) {
line . replace ( " \t " , " " ) ;
devinfo = TQStringList : : split ( ' ' , line , false ) ;
modelID = * ( devinfo . at ( 0 ) ) ;
modelName = line ;
modelName . remove ( 0 , modelName . find ( " " ) ) ;
modelName = modelName . stripWhiteSpace ( ) ;
deviceMapKey = vendorID . lower ( ) + " : " + modelID . lower ( ) + " :: " ;
}
else {
if ( line . upper ( ) . startsWith ( " \t \t " ) ) {
line . replace ( " \t " , " " ) ;
devinfo = TQStringList : : split ( ' ' , line , false ) ;
subvendorID = * ( devinfo . at ( 0 ) ) ;
submodelID = * ( devinfo . at ( 1 ) ) ;
modelName = line ;
modelName . remove ( 0 , modelName . find ( " " ) ) ;
modelName = modelName . stripWhiteSpace ( ) ;
modelName . remove ( 0 , modelName . find ( " " ) ) ;
modelName = modelName . stripWhiteSpace ( ) ;
deviceMapKey = vendorID . lower ( ) + " : " + modelID . lower ( ) + " : " + subvendorID . lower ( ) + " : " + submodelID . lower ( ) ;
}
}
}
if ( modelName . isNull ( ) ) {
usb_id_map - > insert ( deviceMapKey , " ***UNKNOWN DEVICE*** " + vendorName , true ) ;
}
else {
usb_id_map - > insert ( deviceMapKey , vendorName + " " + modelName , true ) ;
}
}
database . close ( ) ;
}
else {
printf ( " [tdehardwaredevices] Unable to open USB information database %s \n \r " , database_filename . ascii ( ) ) ; fflush ( stdout ) ;
}
}
if ( usb_id_map ) {
TQString deviceName ;
TQString deviceMapKey = vendorid . lower ( ) + " : " + modelid . lower ( ) + " : " + subvendorid . lower ( ) + " : " + submodelid . lower ( ) ;
deviceName = ( * usb_id_map ) [ deviceMapKey ] ;
if ( deviceName . isNull ( ) | | deviceName . startsWith ( " ***UNKNOWN DEVICE*** " ) ) {
deviceMapKey = vendorid . lower ( ) + " : " + modelid . lower ( ) + " : " + subvendorid . lower ( ) + " : " ;
deviceName = ( * usb_id_map ) [ deviceMapKey ] ;
if ( deviceName . isNull ( ) | | deviceName . startsWith ( " ***UNKNOWN DEVICE*** " ) ) {
deviceMapKey = vendorid . lower ( ) + " : " + modelid . lower ( ) + " :: " ;
deviceName = ( * usb_id_map ) [ deviceMapKey ] ;
}
}
if ( deviceName . startsWith ( " ***UNKNOWN DEVICE*** " ) ) {
deviceName . replace ( " ***UNKNOWN DEVICE*** " , " " ) ;
deviceName . prepend ( i18n ( " Unknown USB Device " ) + " " ) ;
if ( subvendorid . isNull ( ) ) {
deviceName . append ( TQString ( " [%1:%2] " ) . arg ( vendorid . lower ( ) ) . arg ( modelid . lower ( ) ) ) ;
}
else {
deviceName . append ( TQString ( " [%1:%2] [%3:%4] " ) . arg ( vendorid . lower ( ) ) . arg ( modelid . lower ( ) ) . arg ( subvendorid . lower ( ) ) . arg ( submodelid . lower ( ) ) ) ;
}
}
return deviceName ;
}
else {
return i18n ( " Unknown USB Device " ) ;
}
}
TQString TDEHardwareDevices : : findPNPDeviceName ( TQString pnpid ) {
TQString friendlyName = TQString : : null ;
if ( ! pnp_id_map ) {
pnp_id_map = new TDEDeviceIDMap ;
TQStringList hardware_info_directories ( KGlobal : : dirs ( ) - > resourceDirs ( " data " ) ) ;
TQString hardware_info_directory_suffix ( " tdehwlib/pnpdev/ " ) ;
TQString hardware_info_directory ;
TQString database_filename ;
for ( TQStringList : : Iterator it = hardware_info_directories . begin ( ) ; it ! = hardware_info_directories . end ( ) ; + + it ) {
hardware_info_directory = ( * it ) ;
hardware_info_directory + = hardware_info_directory_suffix ;
if ( KGlobal : : dirs ( ) - > exists ( hardware_info_directory ) ) {
database_filename = hardware_info_directory + " pnp.ids " ;
if ( TQFile : : exists ( database_filename ) ) {
break ;
}
}
}
if ( ! TQFile : : exists ( database_filename ) ) {
printf ( " [tdehardwaredevices] Unable to locate PNP information database pnp.ids \n \r " ) ; fflush ( stdout ) ;
return i18n ( " Unknown PNP Device " ) ;
}
TQFile database ( database_filename ) ;
if ( database . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & database ) ;
TQString line ;
TQString pnpID ;
TQString vendorName ;
TQString deviceMapKey ;
TQStringList devinfo ;
while ( ! stream . atEnd ( ) ) {
line = stream . readLine ( ) ;
if ( ( ! line . upper ( ) . startsWith ( " \t " ) ) & & ( ! line . upper ( ) . startsWith ( " # " ) ) ) {
devinfo = TQStringList : : split ( ' \t ' , line , false ) ;
if ( devinfo . count ( ) > 1 ) {
pnpID = * ( devinfo . at ( 0 ) ) ;
vendorName = * ( devinfo . at ( 1 ) ) ; ;
vendorName = vendorName . stripWhiteSpace ( ) ;
deviceMapKey = pnpID . upper ( ) . stripWhiteSpace ( ) ;
if ( ! deviceMapKey . isNull ( ) ) {
pnp_id_map - > insert ( deviceMapKey , vendorName , true ) ;
}
}
}
}
database . close ( ) ;
}
else {
printf ( " [tdehardwaredevices] Unable to open PNP information database %s \n \r " , database_filename . ascii ( ) ) ; fflush ( stdout ) ;
}
}
if ( pnp_id_map ) {
TQString deviceName ;
deviceName = ( * pnp_id_map ) [ pnpid ] ;
return deviceName ;
}
else {
return i18n ( " Unknown PNP Device " ) ;
}
}
TQString TDEHardwareDevices : : findMonitorManufacturerName ( TQString dpyid ) {
TQString friendlyName = TQString : : null ;
if ( ! dpy_id_map ) {
dpy_id_map = new TDEDeviceIDMap ;
TQStringList hardware_info_directories ( KGlobal : : dirs ( ) - > resourceDirs ( " data " ) ) ;
TQString hardware_info_directory_suffix ( " tdehwlib/pnpdev/ " ) ;
TQString hardware_info_directory ;
TQString database_filename ;
for ( TQStringList : : Iterator it = hardware_info_directories . begin ( ) ; it ! = hardware_info_directories . end ( ) ; + + it ) {
hardware_info_directory = ( * it ) ;
hardware_info_directory + = hardware_info_directory_suffix ;
if ( KGlobal : : dirs ( ) - > exists ( hardware_info_directory ) ) {
database_filename = hardware_info_directory + " dpy.ids " ;
if ( TQFile : : exists ( database_filename ) ) {
break ;
}
}
}
if ( ! TQFile : : exists ( database_filename ) ) {
printf ( " [tdehardwaredevices] Unable to locate monitor information database dpy.ids \n \r " ) ; fflush ( stdout ) ;
return i18n ( " Unknown Monitor Device " ) ;
}
TQFile database ( database_filename ) ;
if ( database . open ( IO_ReadOnly ) ) {
TQTextStream stream ( & database ) ;
TQString line ;
TQString dpyID ;
TQString vendorName ;
TQString deviceMapKey ;
TQStringList devinfo ;
while ( ! stream . atEnd ( ) ) {
line = stream . readLine ( ) ;
if ( ( ! line . upper ( ) . startsWith ( " \t " ) ) & & ( ! line . upper ( ) . startsWith ( " # " ) ) ) {
devinfo = TQStringList : : split ( ' \t ' , line , false ) ;
if ( devinfo . count ( ) > 1 ) {
dpyID = * ( devinfo . at ( 0 ) ) ;
vendorName = * ( devinfo . at ( 1 ) ) ; ;
vendorName = vendorName . stripWhiteSpace ( ) ;
deviceMapKey = dpyID . upper ( ) . stripWhiteSpace ( ) ;
if ( ! deviceMapKey . isNull ( ) ) {
dpy_id_map - > insert ( deviceMapKey , vendorName , true ) ;
}
}
}
}
database . close ( ) ;
}
else {
printf ( " [tdehardwaredevices] Unable to open monitor information database %s \n \r " , database_filename . ascii ( ) ) ; fflush ( stdout ) ;
}
}
if ( dpy_id_map ) {
TQString deviceName ;
deviceName = ( * dpy_id_map ) [ dpyid ] ;
return deviceName ;
}
else {
return i18n ( " Unknown Monitor Device " ) ;
}
}
TQPair < TQString , TQString > TDEHardwareDevices : : getEDIDMonitorName ( TQString path ) {
TQPair < TQString , TQString > edid ;
TQByteArray binaryedid = getEDID ( path ) ;
if ( binaryedid . isNull ( ) ) {
return TQPair < TQString , TQString > ( TQString : : null , TQString : : null ) ;
}
// Get the manufacturer ID
unsigned char letter_1 = ( ( binaryedid [ 8 ] > > 2 ) & 0x1F ) + 0x40 ;
unsigned char letter_2 = ( ( ( binaryedid [ 8 ] & 0x03 ) < < 3 ) | ( ( binaryedid [ 9 ] > > 5 ) & 0x07 ) ) + 0x40 ;
unsigned char letter_3 = ( binaryedid [ 9 ] & 0x1F ) + 0x40 ;
TQChar qletter_1 = TQChar ( letter_1 ) ;
TQChar qletter_2 = TQChar ( letter_2 ) ;
TQChar qletter_3 = TQChar ( letter_3 ) ;
TQString manufacturer_id = TQString ( " %1%2%3 " ) . arg ( qletter_1 ) . arg ( qletter_2 ) . arg ( qletter_3 ) ;
// Get the model ID
unsigned int raw_model_id = ( ( ( binaryedid [ 10 ] < < 8 ) | binaryedid [ 11 ] ) < < 16 ) & 0xFFFF0000 ;
// Reverse the bit order
unsigned int model_id = reverse_bits ( raw_model_id ) ;
// Try to get the model name
bool has_friendly_name = false ;
unsigned char descriptor_block [ 18 ] ;
int i ;
for ( i = 72 ; i < 90 ; i + + ) {
descriptor_block [ i - 72 ] = binaryedid [ i ] & 0xFF ;
}
if ( ( descriptor_block [ 0 ] ! = 0 ) | | ( descriptor_block [ 1 ] ! = 0 ) | | ( descriptor_block [ 3 ] ! = 0xFC ) ) {
for ( i = 90 ; i < 108 ; i + + ) {
descriptor_block [ i - 90 ] = binaryedid [ i ] & 0xFF ;
}
if ( ( descriptor_block [ 0 ] ! = 0 ) | | ( descriptor_block [ 1 ] ! = 0 ) | | ( descriptor_block [ 3 ] ! = 0xFC ) ) {
for ( i = 108 ; i < 126 ; i + + ) {
descriptor_block [ i - 108 ] = binaryedid [ i ] & 0xFF ;
}
}
}
TQString monitor_name ;
if ( ( descriptor_block [ 0 ] = = 0 ) & & ( descriptor_block [ 1 ] = = 0 ) & & ( descriptor_block [ 3 ] = = 0xFC ) ) {
char * pos = strchr ( ( char * ) ( descriptor_block + 5 ) , ' \n ' ) ;
if ( pos ) {
* pos = 0 ;
has_friendly_name = true ;
monitor_name = TQString ( ( char * ) ( descriptor_block + 5 ) ) ;
}
else {
has_friendly_name = false ;
}
}
// Look up manufacturer name
TQString manufacturer_name = findMonitorManufacturerName ( manufacturer_id ) ;
if ( manufacturer_name . isNull ( ) ) {
manufacturer_name = manufacturer_id ;
}
if ( has_friendly_name ) {
edid . first = TQString ( " %1 " ) . arg ( manufacturer_name ) ;
edid . second = TQString ( " %2 " ) . arg ( monitor_name ) ;
}
else {
edid . first = TQString ( " %1 " ) . arg ( manufacturer_name ) ;
edid . second = TQString ( " 0x%2 " ) . arg ( model_id , 0 , 16 ) ;
}
return edid ;
}
TQByteArray TDEHardwareDevices : : getEDID ( TQString path ) {
TQFile file ( TQString ( " %1/edid " ) . arg ( path ) ) ;
if ( ! file . open ( IO_ReadOnly ) ) {
return TQByteArray ( ) ;
}
TQByteArray binaryedid = file . readAll ( ) ;
file . close ( ) ;
return binaryedid ;
}
TQString TDEHardwareDevices : : getFriendlyDeviceTypeStringFromType ( TDEGenericDeviceType : : TDEGenericDeviceType query ) {
TQString ret = " Unknown Device " ;
// Keep this in sync with the TDEGenericDeviceType definition in the header
if ( query = = TDEGenericDeviceType : : Root ) {
ret = i18n ( " Root " ) ;
}
else if ( query = = TDEGenericDeviceType : : RootSystem ) {
ret = i18n ( " System Root " ) ;
}
else if ( query = = TDEGenericDeviceType : : CPU ) {
ret = i18n ( " CPU " ) ;
}
else if ( query = = TDEGenericDeviceType : : GPU ) {
ret = i18n ( " Graphics Processor " ) ;
}
else if ( query = = TDEGenericDeviceType : : RAM ) {
ret = i18n ( " RAM " ) ;
}
else if ( query = = TDEGenericDeviceType : : Bus ) {
ret = i18n ( " Bus " ) ;
}
else if ( query = = TDEGenericDeviceType : : I2C ) {
ret = i18n ( " I2C Bus " ) ;
}
else if ( query = = TDEGenericDeviceType : : MDIO ) {
ret = i18n ( " MDIO Bus " ) ;
}
else if ( query = = TDEGenericDeviceType : : Mainboard ) {
ret = i18n ( " Mainboard " ) ;
}
else if ( query = = TDEGenericDeviceType : : Disk ) {
ret = i18n ( " Disk " ) ;
}
else if ( query = = TDEGenericDeviceType : : SCSI ) {
ret = i18n ( " SCSI " ) ;
}
else if ( query = = TDEGenericDeviceType : : StorageController ) {
ret = i18n ( " Storage Controller " ) ;
}
else if ( query = = TDEGenericDeviceType : : Mouse ) {
ret = i18n ( " Mouse " ) ;
}
else if ( query = = TDEGenericDeviceType : : Keyboard ) {
ret = i18n ( " Keyboard " ) ;
}
else if ( query = = TDEGenericDeviceType : : HID ) {
ret = i18n ( " HID " ) ;
}
else if ( query = = TDEGenericDeviceType : : Monitor ) {
ret = i18n ( " Monitor and Display " ) ;
}
else if ( query = = TDEGenericDeviceType : : Network ) {
ret = i18n ( " Network " ) ;
}
else if ( query = = TDEGenericDeviceType : : Printer ) {
ret = i18n ( " Printer " ) ;
}
else if ( query = = TDEGenericDeviceType : : Scanner ) {
ret = i18n ( " Scanner " ) ;
}
else if ( query = = TDEGenericDeviceType : : Sound ) {
ret = i18n ( " Sound " ) ;
}
else if ( query = = TDEGenericDeviceType : : VideoCapture ) {
ret = i18n ( " Video Capture " ) ;
}
else if ( query = = TDEGenericDeviceType : : IEEE1394 ) {
ret = i18n ( " IEEE1394 " ) ;
}
else if ( query = = TDEGenericDeviceType : : PCMCIA ) {
ret = i18n ( " PCMCIA " ) ;
}
else if ( query = = TDEGenericDeviceType : : Camera ) {
ret = i18n ( " Camera " ) ;
}
else if ( query = = TDEGenericDeviceType : : TextIO ) {
ret = i18n ( " Text I/O " ) ;
}
else if ( query = = TDEGenericDeviceType : : Serial ) {
ret = i18n ( " Serial Communications Controller " ) ;
}
else if ( query = = TDEGenericDeviceType : : Parallel ) {
ret = i18n ( " Parallel Port " ) ;
}
else if ( query = = TDEGenericDeviceType : : Peripheral ) {
ret = i18n ( " Peripheral " ) ;
}
else if ( query = = TDEGenericDeviceType : : Backlight ) {
ret = i18n ( " Backlight " ) ;
}
else if ( query = = TDEGenericDeviceType : : Battery ) {
ret = i18n ( " Battery " ) ;
}
else if ( query = = TDEGenericDeviceType : : PowerSupply ) {
ret = i18n ( " Power Supply " ) ;
}
else if ( query = = TDEGenericDeviceType : : Dock ) {
ret = i18n ( " Docking Station " ) ;
}
else if ( query = = TDEGenericDeviceType : : ThermalSensor ) {
ret = i18n ( " Thermal Sensor " ) ;
}
else if ( query = = TDEGenericDeviceType : : ThermalControl ) {
ret = i18n ( " Thermal Control " ) ;
}
else if ( query = = TDEGenericDeviceType : : Bridge ) {
ret = i18n ( " Bridge " ) ;
}
else if ( query = = TDEGenericDeviceType : : Platform ) {
ret = i18n ( " Platform " ) ;
}
else if ( query = = TDEGenericDeviceType : : Cryptography ) {
ret = i18n ( " Cryptography " ) ;
}
else if ( query = = TDEGenericDeviceType : : Event ) {
ret = i18n ( " Platform Event " ) ;
}
else if ( query = = TDEGenericDeviceType : : Input ) {
ret = i18n ( " Platform Input " ) ;
}
else if ( query = = TDEGenericDeviceType : : PNP ) {
ret = i18n ( " Plug and Play " ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherACPI ) {
ret = i18n ( " Other ACPI " ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherUSB ) {
ret = i18n ( " Other USB " ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherMultimedia ) {
ret = i18n ( " Other Multimedia " ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherPeripheral ) {
ret = i18n ( " Other Peripheral " ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherSensor ) {
ret = i18n ( " Other Sensor " ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherVirtual ) {
ret = i18n ( " Other Virtual " ) ;
}
else {
ret = i18n ( " Unknown Device " ) ;
}
return ret ;
}
TQPixmap TDEHardwareDevices : : getDeviceTypeIconFromType ( TDEGenericDeviceType : : TDEGenericDeviceType query , KIcon : : StdSizes size ) {
TQPixmap ret = DesktopIcon ( " misc " , size ) ;
// // Keep this in sync with the TDEGenericDeviceType definition in the header
if ( query = = TDEGenericDeviceType : : Root ) {
ret = DesktopIcon ( " kcmdevices " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : RootSystem ) {
ret = DesktopIcon ( " kcmdevices " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : CPU ) {
ret = DesktopIcon ( " kcmprocessor " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : GPU ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : RAM ) {
ret = DesktopIcon ( " memory " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Bus ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : I2C ) {
ret = DesktopIcon ( " input_devices_settings " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : MDIO ) {
ret = DesktopIcon ( " input_devices_settings " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Mainboard ) {
ret = DesktopIcon ( " kcmpci " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : Disk ) {
ret = DesktopIcon ( " hdd_unmount " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : SCSI ) {
ret = DesktopIcon ( " kcmscsi " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : StorageController ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Mouse ) {
ret = DesktopIcon ( " mouse " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Keyboard ) {
ret = DesktopIcon ( " keyboard " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : HID ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : Monitor ) {
ret = DesktopIcon ( " background " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Network ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Printer ) {
ret = DesktopIcon ( " printer1 " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Scanner ) {
ret = DesktopIcon ( " scanner " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Sound ) {
ret = DesktopIcon ( " kcmsound " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : VideoCapture ) {
ret = DesktopIcon ( " tv " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : IEEE1394 ) {
ret = DesktopIcon ( " ieee1394 " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : PCMCIA ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : Camera ) {
ret = DesktopIcon ( " camera " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Serial ) {
ret = DesktopIcon ( " input_devices_settings " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Parallel ) {
ret = DesktopIcon ( " input_devices_settings " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : TextIO ) {
ret = DesktopIcon ( " chardevice " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Peripheral ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Backlight ) {
ret = DesktopIcon ( " kscreensaver " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : Battery ) {
ret = DesktopIcon ( " energy " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : PowerSupply ) {
ret = DesktopIcon ( " energy " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Dock ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : ThermalSensor ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : ThermalControl ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : Bridge ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Platform ) {
ret = DesktopIcon ( " kcmsystem " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Cryptography ) {
ret = DesktopIcon ( " password " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Event ) {
ret = DesktopIcon ( " kcmsystem " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : Input ) {
ret = DesktopIcon ( " kcmsystem " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : PNP ) {
ret = DesktopIcon ( " kcmsystem " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherACPI ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : OtherUSB ) {
ret = DesktopIcon ( " usb " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherMultimedia ) {
ret = DesktopIcon ( " kcmsound " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherPeripheral ) {
ret = DesktopIcon ( " kcmpci " , size ) ;
}
else if ( query = = TDEGenericDeviceType : : OtherSensor ) {
ret = DesktopIcon ( " kcmdevices " , size ) ; // FIXME
}
else if ( query = = TDEGenericDeviceType : : OtherVirtual ) {
ret = DesktopIcon ( " kcmsystem " , size ) ;
}
else {
ret = DesktopIcon ( " hwinfo " , size ) ;
}
return ret ;
}
TDERootSystemDevice * TDEHardwareDevices : : rootSystemDevice ( ) {
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > type ( ) = = TDEGenericDeviceType : : RootSystem ) {
return dynamic_cast < TDERootSystemDevice * > ( hwdevice ) ;
}
}
return 0 ;
}
TQString TDEHardwareDevices : : bytesToFriendlySizeString ( double bytes ) {
TQString prettystring ;
prettystring = TQString ( " %1B " ) . arg ( bytes ) ;
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1KB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1MB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1GB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1TB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1PB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1EB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1ZB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
if ( bytes > 1024 ) {
bytes = bytes / 1024 ;
prettystring = TQString ( " %1YB " ) . arg ( bytes , 0 , ' f ' , 1 ) ;
}
return prettystring ;
}
TDEGenericHardwareList TDEHardwareDevices : : listByDeviceClass ( TDEGenericDeviceType : : TDEGenericDeviceType cl ) {
TDEGenericHardwareList ret ;
ret . setAutoDelete ( false ) ;
TDEGenericDevice * hwdevice ;
for ( hwdevice = m_deviceList . first ( ) ; hwdevice ; hwdevice = m_deviceList . next ( ) ) {
if ( hwdevice - > type ( ) = = cl ) {
ret . append ( hwdevice ) ;
}
}
return ret ;
}
TDEGenericHardwareList TDEHardwareDevices : : listAllPhysicalDevices ( ) {
TDEGenericHardwareList ret = m_deviceList ;
ret . setAutoDelete ( false ) ;
return ret ;
}
# include "tdehardwaredevices.moc"