author | wimpie <wimpie> | 2005-01-06 15:15:01 (UTC) |
---|---|---|
committer | wimpie <wimpie> | 2005-01-06 15:15:01 (UTC) |
commit | 0baf6b4c6862738d712f479cb7e99a5f2534d74d (patch) (side-by-side diff) | |
tree | fb02c5279fb7e3949c08e51202ada1caf5e408fa | |
parent | ba9ce5a0fcd66031ade038f7e6a7ac26908225a5 (diff) | |
download | opie-0baf6b4c6862738d712f479cb7e99a5f2534d74d.zip opie-0baf6b4c6862738d712f479cb7e99a5f2534d74d.tar.gz opie-0baf6b4c6862738d712f479cb7e99a5f2534d74d.tar.bz2 |
added support for HCI Sniffing (still not tested)
changed GPRS plugin name (no support for capital letters)
7 files changed, 185 insertions, 42 deletions
diff --git a/noncore/settings/networksettings2/gprs/opie-networksettings2plugin-network.control b/noncore/settings/networksettings2/gprs/opie-networksettings2plugin-network.control index 902ebff..7e904bb 100644 --- a/noncore/settings/networksettings2/gprs/opie-networksettings2plugin-network.control +++ b/noncore/settings/networksettings2/gprs/opie-networksettings2plugin-network.control @@ -1,9 +1,9 @@ -Package: opie-networksettings2plugin-GPRS +Package: opie-networksettings2plugin-gprs Files: plugins/networksettings2/libGPRS.so* Priority: optional Section: opie/settings Maintainer: Wim Delvaux <wimpie@handhelds.org> Architecture: arm Depends: opie-networksettings2, libopiecore2, libopienet2 Description: Setup GPRS network Version: $QPE_VERSION$EXTRAVERSION diff --git a/noncore/settings/networksettings2/networksettings2/system.cpp b/noncore/settings/networksettings2/networksettings2/system.cpp index 141484c..9512579 100644 --- a/noncore/settings/networksettings2/networksettings2/system.cpp +++ b/noncore/settings/networksettings2/networksettings2/system.cpp @@ -1,573 +1,586 @@ #include <sys/types.h> #include <sys/wait.h> #include <net/if.h> #include <net/if_arp.h> #include <netinet/in.h> #include <arpa/inet.h> #include <sys/ioctl.h> #include <sys/socket.h> #include <stdlib.h> #include <stdio.h> #include <fcntl.h> #include <errno.h> #include <unistd.h> #include <opie2/oprocess.h> #include <qdir.h> #include <qregexp.h> #include <qstringlist.h> #include <qfile.h> #include <qtextstream.h> #include <qapplication.h> #include "resources.h" #include "system.h" #define PROCNETDEV "/proc/net/dev" #ifndef ARPHRD_IEEE80211 #define ARPHRD_IEEE80211 801 #endif static char Dig2Hex[] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F' }; // get HIGH nibble of byte #define HN(x) Dig2Hex[(((x)&0xf0)>>4)] // get LOW nibble of byte #define LN(x) Dig2Hex[((x)&0x0f)] System::System( void ) : QObject(), ProbedInterfaces() { - probeInterfaces(); } System::~System( void ) { if( ProcDevNet ) delete ProcDevNet; } -int System::runAsRoot( QStringList & S ) { +QDict<InterfaceInfo> & System::interfaces( void ) { + if( ProbedInterfaces.count() == 0 ) { + probeInterfaces(); + } + return ProbedInterfaces; +} + +int System::runAsRoot( QStringList & S, MyProcess * Prc ) { char * usr = getenv("USER"); if( S.count() == 0 ) { // loophole to start shell return 8888; } if( usr == 0 || strcmp( usr, "root" ) ) { // unknown or non-root user -> use SUDO S.prepend( "sudo" ); } if( getenv( "NS2TESTMODE" ) ) { owarn << "TESTMODE !!! execute " << S.join( " ") << oendl; } else { - MyProcess * P = new MyProcess(); - emit processEvent( tr("Command : ") + S.join( " " ) ); + MyProcess * P; - P->process() << S; - - connect( P, - SIGNAL( stdoutLine( const QString & ) ), - this, - SIGNAL( stdoutLine( const QString & ) ) ); - - connect( P, - SIGNAL( stderrLine( const QString & ) ), - this, - SIGNAL( stderrLine( const QString & ) ) ); + if( Prc ) { + P = Prc; + } else { + P = new MyProcess(); + emit processEvent( tr("Command : ") + S.join( " " ) ); + + connect( P, + SIGNAL( stdoutLine( const QString & ) ), + this, + SIGNAL( stdoutLine( const QString & ) ) ); + + connect( P, + SIGNAL( stderrLine( const QString & ) ), + this, + SIGNAL( stderrLine( const QString & ) ) ); + + connect( P, + SIGNAL(processExited(MyProcess*) ), + this, SLOT + (SLOT_ProcessExited(MyProcess*) ) ); + } - connect( P, - SIGNAL(processExited(MyProcess*) ), - this, SLOT - (SLOT_ProcessExited(MyProcess*) ) ); + P->process() << S; Log(("Executing %s\n", S.join( " " ).latin1() )); if( ! P->process().start( OProcess::DontCare, OProcess::AllOutput ) ) { owarn << "Error starting " << S << oendl; - delete P; + if( ! Prc ) + delete P; // error starting app return 1; } owarn << "Started " << S << oendl; } // all is fine return 0; } int System::execAsUser( QStringList & SL ) { MyProcess * P = new MyProcess(); CurrentQPEUser CU = NSResources->currentUser(); char * usr = getenv("USER"); if( strcmp( usr, "root" ) == 0 ) { // find user running qpe if( CU.UserName.isEmpty() ) { // if we come here, the exec was not successfull Log(("User not known \n" )); return 0; } } // now we are ready to exec the requested command setuid( CU.Uid ); setgid( CU.Gid ); for( unsigned int i = 0 ; i < CU.EnvList.count() ; i ++ ) { QString X; QStringList SL; X = CU.EnvList[i]; SL = QStringList::split( "=", X ); P->process().setEnvironment( SL[0], SL[1] ); } P->process() << SL; emit processEvent( tr("Command : ") + SL.join( " " ) ); Log(("Executing as user %s : %s\n", CU.UserName.latin1(), SL.join( " " ).latin1() )); int rv = ( P->process().start( OProcess::DontCare, OProcess::NoCommunication ) ); delete P; if( rv ) { // if we come here, the exec was not successfull Log(("Could not exec : %d\n", errno )); } return rv; } void System::SLOT_ProcessExited( MyProcess * P ) { QString R; for( QValueListConstIterator<QCString> it = P->process().args().begin(); it != P->process().args().end(); ++it ) { R += (*it); R += " "; } R += "Returned with " + QString().setNum( P->process().exitStatus() ); emit processEvent( R ); delete P; } void System::refreshStatistics( InterfaceInfo & I ) { if( ! ProcDevNet ) { return; } // cannot seek on dev ProcDevNet->close(); ProcDevNet->open( IO_ReadOnly ); QString line; QTextStream procTs(ProcDevNet); QStringList SL; int loc = -1; int version; procTs.readLine(); line = procTs.readLine(); // get version if( line.find("compressed") ) version = 3; else if( line.find( "bytes" ) ) version = 2; else version = 1; while((line = procTs.readLine().simplifyWhiteSpace()) != QString::null) { if( (loc = line.find(":") ) == -1) { continue; } if( I.Name != line.left(loc) ) continue; // tokenize SL = QStringList::split( ' ', line, FALSE ); // update data switch( version ) { case 1 : I.RcvBytes = SL[1]; I.RcvErrors = SL[3]; I.RcvDropped = SL[4]; I.SndBytes = SL[6]; I.SndErrors = SL[8]; I.SndDropped = SL[9]; I.Collisions = SL[11]; break; case 2 : I.RcvBytes = SL[1]; I.RcvErrors = SL[3]; I.RcvDropped = SL[4]; I.SndBytes = SL[7]; I.SndErrors = SL[9]; I.SndDropped = SL[10]; I.Collisions = SL[12]; break; case 3 : I.RcvBytes = SL[1]; I.RcvErrors = SL[3]; I.RcvDropped = SL[4]; I.SndBytes = SL[9]; I.SndErrors = SL[11]; I.SndDropped = SL[12]; I.Collisions = SL[14]; break; } break; } } // // THIS UPDATES THE LIST -> INTERFACES ARE NOT DELETED BUT // FLAGGED AS ! 'IsUp' IF NO LONGER PRESENT // void System::probeInterfaces( void ) { // probe interfaces int sockfd; // get list of all interfaces struct ifreq ifrs; InterfaceInfo * IFI; // flag all as 'down' for( QDictIterator<InterfaceInfo> it( ProbedInterfaces ); it.current(); ++it ) { it.current()->IsUp = 0; } sockfd = socket(PF_INET, SOCK_DGRAM, 0); if(sockfd == -1) { owarn << "Cannot open INET socket " << errno << " " << strerror( errno ) << oendl; return; } // read interfaces from /proc/dev/net // SIOCGIFCONF does not return ALL interfaces ???!? ProcDevNet = new QFile(PROCNETDEV); if( ! ProcDevNet->open(IO_ReadOnly) ) { owarn << "Cannot open " << PROCNETDEV << " " << errno << " " << strerror( errno ) << oendl; delete ProcDevNet; ProcDevNet =0; ::close( sockfd ); return; } QString line; QString NicName; QTextStream procTs(ProcDevNet); int loc = -1; procTs.readLine(); // eat a line procTs.readLine(); // eat a line while((line = procTs.readLine().simplifyWhiteSpace()) != QString::null) { if((loc = line.find(":")) == -1) { continue; } NicName = line.left(loc); // set name for ioctl strcpy( ifrs.ifr_name, NicName.latin1() ); if ( ! ( IFI = ProbedInterfaces.find( NicName ) ) ) { // new nic Log(("New NIC found : %s\n", NicName.latin1())); IFI = new InterfaceInfo; IFI->Name = line.left(loc); IFI->Collection = 0; ProbedInterfaces.insert( IFI->Name, IFI ); // get dynamic info if( ioctl(sockfd, SIOCGIFFLAGS, &ifrs) >= 0 ) { IFI->IsPointToPoint = ((ifrs.ifr_flags & IFF_POINTOPOINT) == IFF_POINTOPOINT); } else { IFI->IsPointToPoint = 0; } // settings that never change IFI->DstAddress = ""; if( IFI->IsPointToPoint ) { if( ioctl(sockfd, SIOCGIFDSTADDR, &ifrs) >= 0 ) { IFI->DstAddress = inet_ntoa(((struct sockaddr_in*)&ifrs.ifr_dstaddr)->sin_addr); } } IFI->CardType = 999999; IFI->MACAddress = ""; if( ioctl(sockfd, SIOCGIFHWADDR, &ifrs) >= 0 ) { Log(("Family for NIC %s : %d\n", IFI->Name.latin1(), ifrs.ifr_hwaddr.sa_family )); IFI->CardType = ifrs.ifr_hwaddr.sa_family; switch( ifrs.ifr_hwaddr.sa_family ) { case ARPHRD_ETHER : // regular MAC address // valid address -> convert to regular ::: format // length = 6 bytes = 12 DIGITS -> 6 : IFI->MACAddress.sprintf( "%c%c:%c%c:%c%c:%c%c:%c%c:%c%c", HN( ifrs.ifr_hwaddr.sa_data[0] ), LN( ifrs.ifr_hwaddr.sa_data[0] ), HN( ifrs.ifr_hwaddr.sa_data[1] ), LN( ifrs.ifr_hwaddr.sa_data[1] ), HN( ifrs.ifr_hwaddr.sa_data[2] ), LN( ifrs.ifr_hwaddr.sa_data[2] ), HN( ifrs.ifr_hwaddr.sa_data[3] ), LN( ifrs.ifr_hwaddr.sa_data[3] ), HN( ifrs.ifr_hwaddr.sa_data[4] ), LN( ifrs.ifr_hwaddr.sa_data[4] ), HN( ifrs.ifr_hwaddr.sa_data[5] ), LN( ifrs.ifr_hwaddr.sa_data[5] ) ); break; #ifdef ARPHRD_IEEE1394 case ARPHRD_IEEE1394 : // Firewire Eth address IFI->MACAddress.sprintf( "%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-%c%c-00-00", HN( ifrs.ifr_hwaddr.sa_data[0] ), LN( ifrs.ifr_hwaddr.sa_data[0] ), HN( ifrs.ifr_hwaddr.sa_data[1] ), LN( ifrs.ifr_hwaddr.sa_data[1] ), HN( ifrs.ifr_hwaddr.sa_data[2] ), LN( ifrs.ifr_hwaddr.sa_data[2] ), HN( ifrs.ifr_hwaddr.sa_data[3] ), LN( ifrs.ifr_hwaddr.sa_data[3] ), HN( ifrs.ifr_hwaddr.sa_data[4] ), LN( ifrs.ifr_hwaddr.sa_data[4] ), HN( ifrs.ifr_hwaddr.sa_data[5] ), LN( ifrs.ifr_hwaddr.sa_data[5] ), HN( ifrs.ifr_hwaddr.sa_data[6] ), LN( ifrs.ifr_hwaddr.sa_data[6] ), HN( ifrs.ifr_hwaddr.sa_data[7] ), LN( ifrs.ifr_hwaddr.sa_data[7] ), HN( ifrs.ifr_hwaddr.sa_data[8] ), LN( ifrs.ifr_hwaddr.sa_data[8] ), HN( ifrs.ifr_hwaddr.sa_data[9] ), LN( ifrs.ifr_hwaddr.sa_data[9] ), HN( ifrs.ifr_hwaddr.sa_data[10] ), LN( ifrs.ifr_hwaddr.sa_data[10] ), HN( ifrs.ifr_hwaddr.sa_data[11] ), LN( ifrs.ifr_hwaddr.sa_data[11] ), HN( ifrs.ifr_hwaddr.sa_data[12] ), LN( ifrs.ifr_hwaddr.sa_data[12] ), HN( ifrs.ifr_hwaddr.sa_data[13] ), LN( ifrs.ifr_hwaddr.sa_data[13] ) ); break; #endif case ARPHRD_PPP : // PPP break; case ARPHRD_IEEE80211 : // WLAN break; case ARPHRD_IRDA : // IRDA break; } } } else // else already probed before -> just update Log(("Redetected NIC %s\n", NicName.latin1())); // get dynamic info if( ioctl(sockfd, SIOCGIFFLAGS, &ifrs) >= 0 ) { IFI->IsUp = ((ifrs.ifr_flags & IFF_UP) == IFF_UP); IFI->HasMulticast = ((ifrs.ifr_flags & IFF_MULTICAST) == IFF_MULTICAST); } else { IFI->IsUp = 0; IFI->HasMulticast = 0; } if( ioctl(sockfd, SIOCGIFADDR, &ifrs) >= 0 ) { IFI->Address = inet_ntoa(((struct sockaddr_in*)&ifrs.ifr_addr)->sin_addr); } else { IFI->Address = ""; IFI->IsUp = 0; } if( ioctl(sockfd, SIOCGIFBRDADDR, &ifrs) >= 0 ) { IFI->BCastAddress = inet_ntoa(((struct sockaddr_in*)&ifrs.ifr_broadaddr)->sin_addr); } else { IFI->BCastAddress = ""; } if( ioctl(sockfd, SIOCGIFNETMASK, &ifrs) >= 0 ) { IFI->Netmask = inet_ntoa(((struct sockaddr_in*)&ifrs.ifr_netmask)->sin_addr); } else { IFI->Netmask = ""; } Log(("NIC %s UP ? %d\n", NicName.latin1(), IFI->IsUp )); } ::close( sockfd ); } InterfaceInfo * System::findInterface( const QString & N ) { InterfaceInfo * Run; // has PAN connection UP interface ? for( QDictIterator<InterfaceInfo> It(ProbedInterfaces); It.current(); ++It ) { Run = It.current(); if( N == Run->Name ) { // this PAN connection is up return Run; } } return 0; } #include <stdarg.h> static FILE * logf = 0; void VLog( char * Format, ... ) { va_list l; va_start(l, Format ); if( logf == (FILE *)0 ) { QString S = getenv("NS2LOG"); if( S == "stderr" ) { logf = stderr; } else if( S.isEmpty() ) { logf = fopen( "/tmp/ns2log", "a" ); } else { logf = fopen( S, "a" ); } if( ! logf ) { fprintf( stderr, "Cannot open logfile %s : %d\n", S.latin1(), errno ); logf = (FILE *)1; } else { fprintf( logf, "____ OPEN LOGFILE ____\n"); } } if( (unsigned long)logf > 1 ) { vfprintf( logf, Format, l ); } va_end( l ); fflush( logf ); } void LogClose( void ) { if( (long)logf > 1 ) { fprintf( logf, "____ CLOSE LOGFILE ____\n"); if( logf != stderr ) { fclose( logf ); } logf = 0; } } QString removeSpaces( const QString & X ) { QString Y; Y = X.simplifyWhiteSpace(); Y.replace( QRegExp(" "), "_" ); owarn << X << " **" << Y << "**" << oendl; return Y; } // // // // // MyProcess::MyProcess() : QObject(), StdoutBuffer(), StderrBuffer() { P = new OProcess(); connect( P, SIGNAL( receivedStdout(Opie::Core::OProcess*, char*, int ) ), this, SLOT( SLOT_Stdout(Opie::Core::OProcess*,char*,int) ) ); connect( P, SIGNAL( receivedStderr(Opie::Core::OProcess*, char*, int ) ), this, SLOT( SLOT_Stderr(Opie::Core::OProcess*,char*,int) ) ); connect( P, SIGNAL( processExited(Opie::Core::OProcess*) ), this, SLOT( SLOT_ProcessExited(Opie::Core::OProcess*) ) ); } MyProcess::~MyProcess() { delete P; } void MyProcess::SLOT_Stdout( Opie::Core::OProcess * , char * Buf, int len ) { char * LB = (char *)alloca( len + 1 ); memcpy( LB, Buf, len ); LB[len] = '\0'; // now input is zero terminated StdoutBuffer += LB; owarn << "Received " << len << " bytes on stdout" << oendl; // see if we have some lines (allow empty lines) QStringList SL = QStringList::split( "\n", StdoutBuffer, TRUE ); for( unsigned int i = 0; i < SL.count()-1; i ++ ) { Log(( "Stdout : \"%s\"\n", SL[i].latin1() ) ); emit stdoutLine( SL[i] ); } // last line is rest StdoutBuffer = SL[ SL.count()-1 ]; } void MyProcess::SLOT_Stderr( Opie::Core::OProcess * , char * Buf, int len ) { char * LB = (char *)alloca( len + 1 ); memcpy( LB, Buf, len ); LB[len] = '\0'; // now input is zero terminated StderrBuffer += LB; owarn << "Received " << len << " bytes on stderr" << oendl; // see if we have some lines (allow empty lines) QStringList SL = QStringList::split( "\n", StderrBuffer, TRUE ); for( unsigned int i = 0; i < SL.count()-1; i ++ ) { Log(( "Stderr : \"%s\"\n", SL[i].latin1() ) ); emit stderrLine( SL[i] ); } // last line is rest StderrBuffer = SL[ SL.count()-1 ]; } void MyProcess::SLOT_ProcessExited( Opie::Core::OProcess * ) { emit processExited( this ); } diff --git a/noncore/settings/networksettings2/networksettings2/system.h b/noncore/settings/networksettings2/networksettings2/system.h index e67d695..f7a7274 100644 --- a/noncore/settings/networksettings2/networksettings2/system.h +++ b/noncore/settings/networksettings2/networksettings2/system.h @@ -1,135 +1,134 @@ #ifndef __SYSTEM__H #define __SYSTEM__H #include <qstring.h> #include <opie2/oprocess.h> using namespace Opie::Core; // for hardware types #include <net/if_arp.h> #include <qdict.h> #include <qobject.h> #include <stdio.h> class NodeCollection; class ANetNodeInstance; class QFile; class MyProcess : public QObject { Q_OBJECT public : MyProcess(); ~MyProcess(); inline OProcess & process() { return *P; } public slots : void SLOT_Stdout( Opie::Core::OProcess * P, char *, int ); void SLOT_Stderr( Opie::Core::OProcess * P, char *, int ); void SLOT_ProcessExited( Opie::Core::OProcess * P); signals : void stdoutLine( const QString & ); void stderrLine( const QString & ); void processExited( MyProcess * ); private : QString StdoutBuffer; QString StderrBuffer; OProcess * P; }; class InterfaceInfo { public : InterfaceInfo() : Name(), MACAddress(), BCastAddress(), Netmask(), DstAddress() { } NodeCollection * assignedConnection() { return Collection; } void assignConnection( NodeCollection * NNI ) { Collection = NNI; } NodeCollection * Collection; // connection taking care of me QString Name; // name of interface int CardType; // type of card QString MACAddress; // MAC address QString Address; // IP Address QString BCastAddress; // Broadcast Address QString Netmask; // Netmask QString DstAddress; // Peer address (if P-t-P) bool IsUp; // interface is UP bool HasMulticast; // Supports Multicast bool IsPointToPoint; // IsPointToPoint card QString RcvBytes; QString SndBytes; QString RcvErrors; QString SndErrors; QString RcvDropped; QString SndDropped; QString Collisions; }; class System : public QObject { Q_OBJECT public : System( void ); ~System( void ); - QDict<InterfaceInfo> & interfaces( void ) - { return ProbedInterfaces; } + QDict<InterfaceInfo> & interfaces( void ); InterfaceInfo * interface( const QString& N ) - { return ProbedInterfaces[N]; } + { return interfaces()[N]; } // exec command as root - int runAsRoot( QStringList & S ); + int runAsRoot( QStringList & S, MyProcess * Prc = 0 ); // exec command as user int execAsUser( QStringList & Cmd ); // refresh stats for this interface void refreshStatistics( InterfaceInfo & ); // reloads interfaces void probeInterfaces( void ); InterfaceInfo * findInterface( const QString & DevName ); private slots : void SLOT_ProcessExited( MyProcess * ); signals : void stdoutLine( const QString & ); void stderrLine( const QString & ); void processEvent( const QString & ); private : QDict<InterfaceInfo> ProbedInterfaces; FILE * OutputOfCmd; QFile * ProcDevNet; }; #endif diff --git a/noncore/settings/networksettings2/opietooth2/Opietooth.cpp b/noncore/settings/networksettings2/opietooth2/Opietooth.cpp index 2d4885c..5a890da 100644 --- a/noncore/settings/networksettings2/opietooth2/Opietooth.cpp +++ b/noncore/settings/networksettings2/opietooth2/Opietooth.cpp @@ -1,1037 +1,1151 @@ #include <opie2/odebug.h> #include <opie2/oledbox.h> +#include <opie2/ofiledialog.h> + using namespace Opie::Core; using namespace Opie::Ui; #include <qpe/resource.h> +#include <qapplication.h> #include <qcheckbox.h> +#include <qcombobox.h> +#include <qdialog.h> +#include <qdir.h> +#include <qfile.h> #include <qgroupbox.h> -#include <qlabel.h> -#include <qprogressbar.h> #include <qheader.h> -#include <qmessagebox.h> -#include <qapplication.h> -#include <qlistbox.h> -#include <qdialog.h> -#include <qlayout.h> -#include <qcombobox.h> #include <qlabel.h> +#include <qlayout.h> +#include <qlistbox.h> #include <qlistview.h> +#include <qmessagebox.h> +#include <qprogressbar.h> #include <qpushbutton.h> +#include <qtextstream.h> #include <Opietooth.h> #include <OTDriver.h> #include <OTPeer.h> #include <OTGateway.h> #include <OTSDPAttribute.h> #include <OTSDPService.h> #include <OTInquiry.h> +#include <system.h> + using namespace Opietooth2; namespace Opietooth2 { class PeerLVI : public QListViewItem { public : PeerLVI( OTPeer * P, QListView * it ) : QListViewItem (it) { Peer = P; } ~PeerLVI( void ) { } inline OTPeer * peer( void ) { return Peer; } private : OTPeer * Peer; }; class ChannelLVI : public QListViewItem { public : ChannelLVI( int Ch, QListViewItem * it ) : QListViewItem (it) { Channel = Ch; } ~ChannelLVI( void ) { } inline int channel( void ) { return Channel; } private : int Channel; }; class DriverLVI : public QListViewItem { public : DriverLVI( OTDriver * P, QListView * it ) : QListViewItem (it) { Driver = P; } ~DriverLVI( void ) { } inline OTDriver * driver( void ) { return Driver; } private : OTDriver * Driver; }; class LinkKeyLVI : public QListViewItem { public : LinkKeyLVI( int Ch, QListView * it ) : QListViewItem (it) { LinkKey = Ch; } ~LinkKeyLVI( void ) { } inline int index( void ) { return LinkKey; } private : int LinkKey; }; }; // // // // // OTSniffing::OTSniffing( QWidget * parent ) : OTSniffGUI( parent ) { OT = OTGateway::getOTGateway(); - + HciDump = 0; + Sys = new System(); } OTSniffing::~OTSniffing() { + printf( "CLOSE \n" ); + if ( HciDump ) { + HciDump->process().kill(); + delete HciDump; + } + delete Sys; } -void OTSniffing::SLOT_Trace( void ) { +void OTSniffing::SLOT_Trace( bool ) { + HciDump = new MyProcess(); + QStringList SL; + + SL << "hcidump"; + switch( DataFormat_CB->currentItem() ) { + case 0 : // Hex + SL << "-x"; + break; + case 1 : // Ascii + SL << "-a"; + break; + case 2 : // both + SL << "-X"; + break; + } + + SL << "-i"; + SL << OT->scanWith()->devname(); + + connect( HciDump, + SIGNAL( stdoutLine( const QString & ) ), + this, + SLOT( SLOT_Show( const QString & ) ) ); + + connect( HciDump, + SIGNAL(processExited(MyProcess*) ), + this, + SLOT( SLOT_ProcessExited(MyProcess*) ) ); + + if( ! Sys->runAsRoot( SL, HciDump ) ) { + QMessageBox::warning(0, + tr("Run hcidump"), + tr("Cannot start %1").arg(SL.join(" ")) + ); + delete HciDump; + HciDump = 0; + } + +} + +void OTSniffing::SLOT_Show( const QString & S ) { + printf( "%s\n", S.latin1() ); + Output_LB->insertItem( S ); + Output_LB->setCurrentItem( Output_LB->count()-1 ); + Output_LB->ensureCurrentVisible(); +} + +void OTSniffing::SLOT_ProcessExited( MyProcess * ) { + printf( "Exited\n" ); + delete HciDump; + HciDump = 0; +} + +void OTSniffing::SLOT_Save( void ) { + QString S = OFileDialog::getSaveFileName( + OFileSelector::Extended, + QDir::home().path(), + QString::null, + MimeTypes(), + this ); + + if( ! S.isEmpty() ) { + QFile F( S ); + if( ! F.open( IO_WriteOnly ) ) { + QMessageBox::warning(0, + tr("Save log"), + tr("Cannot open %1").arg(S) + ); + return; + } + QTextStream TS( &F ); + TS << S << endl; + } +} + +void OTSniffing::SLOT_Load( void ) { + QString S = OFileDialog::getOpenFileName( + OFileSelector::Extended, + QDir::home().path(), + QString::null, + MimeTypes(), + this ); + + if( ! S.isEmpty() ) { + QFile F( S ); + if( ! F.open( IO_ReadOnly ) ) { + QMessageBox::warning(0, + tr("Save log"), + tr("Cannot open %1").arg(S) + ); + return; + } + QTextStream TS ( &F ); + SLOT_ClearLog(); + S = TS.read(); + Output_LB->insertStringList( QStringList::split( "\n", S ) ); + } } void OTSniffing::SLOT_ClearLog( void ) { + Output_LB->clear(); } // // // // // OTPairing::OTPairing( QWidget * parent, OTIcons * _IC ) : OTPairingGUI( parent ) { OT = OTGateway::getOTGateway(); Icons = (_IC ) ? _IC : new OTIcons(); MyIcons = (_IC == 0 ); // unpairing can only be done if bluetooth is disabled Unpair_But->setEnabled( ! OT->isEnabled() ); if( ! OT->isEnabled() ) { Unpair_LBL->hide(); } else { Unpair_LBL->show(); } // open linkkey file and load pairs LinkKeyArray Keys = OT->getLinkKeys(); LinkKeyLVI * it; OTPeer * P; OTDriver * D; for( unsigned int i = 0 ; i < Keys.count(); i ++ ) { it = new LinkKeyLVI( i, Pairs_LV ); P = 0; D = OT->findDriver( Keys[i].from() ); if( D ) { it->setText( 0, D->devname() ); // we are source P = OT->findPeer( Keys[i].to() ); if( P ) { // put name it->setText( 1, P->name() ); } else { // unknown it->setText( 1, Keys[i].to().toString() ); } // and put address as sub QListViewItem * Sub = new QListViewItem( it ); Sub->setText( 0, D->address().toString() ); Sub->setText( 1, Keys[i].to().toString() ); } else { // perhaps we are destination D = OT->findDriver( Keys[i].to() ); if( D ) { it->setText( 1, D->devname() ); // we are source P = OT->findPeer( Keys[i].from() ); if( P ) { // put name it->setText( 0, P->name() ); } else { // unknown it->setText( 0, Keys[i].from().toString() ); } // and put address as sub QListViewItem * Sub = new QListViewItem( it ); Sub->setText( 0, Keys[i].from().toString() ); Sub->setText( 1, D->address().toString() ); } else { // nor source nor destination -> unknown it->setText( 0, Keys[i].from().toString() ); it->setText( 1, Keys[i].to().toString() ); } } } } OTPairing::~OTPairing() { if( MyIcons ) delete Icons; OTGateway::releaseOTGateway(); } void OTPairing::SLOT_Unpair( ) { // find selected pair QListViewItem * it = Pairs_LV->firstChild(); while( it ) { if( it->isSelected() ) { // confirm ? if( QMessageBox::warning(0, tr("Break pairing"), tr("Sure ?"), tr("Yes, break"), tr("No, don't break") ) == 0 ) { LinkKeyLVI * KPIt = (LinkKeyLVI *)it; // break OT->removeLinkKey( KPIt->index() ); delete KPIt; } return; } it= it->nextSibling(); } } // // // // // OTScan::OTScan( QWidget * parent, OTIcons * _IC ) : OTScanGUI( parent ), Filter() { OT = OTGateway::getOTGateway(); Icons = (_IC ) ? _IC : new OTIcons(); MyIcons = (_IC == 0 ); DetectedPeers_LV->header()->hide(); Current = 0; SelectedPeer = 0; SelectedChannel = 0; StrengthTimer = new QTimer( this ); connect( StrengthTimer, SIGNAL( timeout()), this, SLOT( SLOT_UpdateStrength()) ); connect( OT, SIGNAL( detectedPeer( OTPeer *, bool )), this, SLOT( SLOT_NewPeer( OTPeer *, bool )) ); connect( OT, SIGNAL( finishedDetecting()), this, SLOT( SLOT_FinishedDetecting()) ); // populate with peers we already know about const PeerVector & P = OT->peers(); for( unsigned int i = 0; i < P.count(); i ++ ) { SLOT_NewPeer( P[i], TRUE ); } // populate State fram { QHBoxLayout * H =new QHBoxLayout( State_Frm ); Paired_Led = new OLedBox( green, State_Frm ); QLabel * L1 = new QLabel( tr( "Paired" ), State_Frm ); H->addWidget( Paired_Led ); H->addWidget( L1 ); H->addStretch( 1 ); } } OTScan::~OTScan() { if( MyIcons ) delete Icons; OTGateway::releaseOTGateway(); // send all peers that we do not care about states QListViewItem * Lit = DetectedPeers_LV->firstChild(); while( Lit ) { ((PeerLVI *)Lit)->peer()->stopFindingOutState( ); Lit = Lit->nextSibling(); } } // static scan dialog function int OTScan::getDevice( OTPeer *& Peer, int & Channel, OTGateway * OT, const UUIDVector & Filter, QWidget* Parent ) { bool IsUp = 0; unsigned int i; // check if bluetooth is up OTDriverList & DL = OT->getDriverList(); for( i = 0; i < DL.count(); i ++ ) { if( DL[i]->isUp() ) { // one device that is up found IsUp = 1; break; } } // use this driver OT->setScanWith( OT->driver(i) ); // create dialog QDialog * Dlg = new QDialog( Parent, 0, TRUE ); QVBoxLayout * V = new QVBoxLayout( Dlg ); OTScan * Scn = new OTScan( Dlg ); connect( Scn, SIGNAL( selected() ), Dlg, SLOT( accept() ) ); if( Filter ) { Scn->setScanFilter( Filter ); } V->addWidget( Scn ); Dlg->setCaption( tr("Scan Neighbourhood" ) ); Dlg->showMaximized(); int rv = Dlg->exec(); if( rv == QDialog::Accepted ) { // get peer Peer = Scn->selectedPeer(); if( Peer == 0 ) { // no peer selected rv = QDialog::Rejected; } else { Channel = Scn->selectedChannel(); } } delete Dlg; return rv; } void OTScan::setScanFilter( const UUIDVector & V ) { Filter = V; } void OTScan::resetScanFilter( void ) { Filter.truncate(0); } void OTScan::SLOT_DoScan( bool DoIt ) { if( DoIt ) { OT->scanNeighbourhood(); } else { OT->stopScanOfNeighbourhood(); } scanMode( DoIt ); } // double clicked on a device void OTScan::SLOT_Selected( QListViewItem * it ) { if( ! it ) return; if( Filter.count() > 0 ) { // filter on service if( it->depth() == 0 ) { // select a service and not a device return; } // store result SelectedPeer = ((PeerLVI *)it->parent())->peer(); SelectedChannel = ((ChannelLVI *)it)->channel(); } else { // click on device if( it->depth() != 0 ) { return; } SelectedPeer = ((PeerLVI *)it)->peer(); SelectedChannel = 0; } owarn << "Selected " << SelectedPeer->address().toString() << " Channel " << SelectedChannel << oendl; emit selected(); } void OTScan::SLOT_FinishedDetecting( ) { scanMode( false ); } void OTScan::SLOT_CleanupOld( ) { // iterate over all peers and find those that // are down and have no pairing info OTPeer * TheP; const LinkKeyArray & Keys = OT->getLinkKeys(); QListViewItem * Lit = DetectedPeers_LV->firstChild(); while( Lit ) { TheP = ((PeerLVI *)Lit)->peer(); if( TheP->state() == OTPeer::Peer_Down ) { unsigned int k; // what about linkkeys ? for( k = 0; k < Keys.count(); k ++ ) { if( TheP->address() == Keys[k].to() || TheP->address() == Keys[k].from() ) { // part of linkkey owarn << "LINKKEY " << TheP->address().toString() << oendl; break; } } if( k == Keys.count() ) { owarn << "RM LINKKEY " << TheP->address().toString() << oendl; // not found -> remember to remove this peer QListViewItem * Nit; OT->removePeer( TheP ); Nit = Lit->nextSibling(); delete Lit; Lit = Nit; continue; } } else { owarn << "NODOWN " << TheP->address().toString() << oendl; } Lit = Lit->nextSibling(); } } void OTScan::SLOT_NewPeer( OTPeer * P, bool IsNew ){ PeerLVI * it = 0; if( IsNew ) { it = new PeerLVI( P, DetectedPeers_LV ); } else { // find peer in table QListViewItem * Lit = DetectedPeers_LV->firstChild(); while( Lit ) { if( ((PeerLVI *)Lit)->peer() == P ) { // this item it = (PeerLVI *)Lit; break; } Lit = Lit->nextSibling(); } if( ! it ) { owarn << "Should not occur" << oendl; return; } } // update/show info it->setText( 0, P->name() ); it->setPixmap(0, Icons->deviceIcon( OT->deviceTypeToName( P->deviceClass() ) ) ); // tell peer to report its state async connect( P, SIGNAL( peerStateReport( OTPeer *)), this, SLOT( SLOT_PeerState( OTPeer *)) ); if( IsNew ) { // find state refreshState( (PeerLVI *)it, 1 ); } else { // update staet SLOT_PeerState( P ); } } void OTScan::SLOT_PeerState( OTPeer * P ) { PeerLVI * it = (PeerLVI *)DetectedPeers_LV->firstChild(); while( it ) { if( it->peer() == P ) { break; } it = (PeerLVI * )it->nextSibling(); } if( ! it ) return; switch( P->state() ) { case OTPeer::Peer_Unknown : case OTPeer::Peer_Down : it->setPixmap( 1, 0 ); break; case OTPeer::Peer_Up : it->setPixmap( 1, Icons->loadPixmap( ( P->connectedTo() ) ? "connected" : "notconnected" ) ); if( it == Current && ! StrengthTimer->isActive() ) { // start showing strength StrengthTimer->start( 1000, FALSE ); SLOT_UpdateStrength(); } break; } } void OTScan::SLOT_RefreshState( void ) { QListViewItem * it = DetectedPeers_LV->firstChild(); while( it ) { if( it->isSelected() ) { break; } it = it->nextSibling(); } if( ! it ) return; refreshState( (PeerLVI *)it, 1 ); } void OTScan::refreshState( PeerLVI * it, bool Force ) { it->setPixmap( 1, Icons->loadPixmap( "find" ) ); it->peer()->findOutState( 30, Force ); } void OTScan::SLOT_Show( QListViewItem * it ) { if( ! it || it->depth() > 0 ) return; QString S; Current = (PeerLVI *)it; Strength_PB->setProgress( 0 ); // reset Address_LBL->setText( Current->peer()->address().toString() ); Peer_GB->setTitle( Current->peer()->name() ); const LinkKeyArray & Keys = OT->getLinkKeys(); Paired_Led->setOn( FALSE ); for( unsigned int i = 0; i < Keys.count(); i ++ ) { if( Current->peer()->address() == Keys[i].to() ) { Paired_Led->setOn( TRUE ); break; } } if( Current->peer()->state() == OTPeer::Peer_Up ) { RefreshServices_But->setEnabled( TRUE ); StrengthTimer->start( 1000, FALSE ); SLOT_UpdateStrength(); } else { RefreshServices_But->setEnabled( FALSE ); } } void OTScan::SLOT_UpdateStrength( void ) { OTDriver * D = Current->peer()->connectedTo(); if( D ) { long Q = D->getLinkQuality( Current->peer()->address() ); Strength_PB->setProgress( Q ); if( ! Q ) { // no quality Strength_PB->setEnabled( TRUE ); StrengthTimer->stop(); } } else { Strength_PB->setEnabled( FALSE ); Strength_PB->setProgress( 0 ); // no point in continuing StrengthTimer->stop(); } } void OTScan::SLOT_RefreshServices( void ) { QListViewItem * it = DetectedPeers_LV->firstChild(); while( it ) { if( it->isSelected() ) { break; } it = it->nextSibling(); } if( ! it ) return; QString S; PeerLVI * PI = (PeerLVI *)it; scanMode( true ); qApp->processEvents(0); ServiceVector & V = PI->peer()->services(); while( PI->firstChild() ) { // remove children delete PI->firstChild(); } for( unsigned int i = 0 ; i < V.count(); i ++ ) { QString S; S = V[i]->name(); if( S.isEmpty() ) { continue; } { QListViewItem * SIt; UUIDVector UIDV; QPixmap Pm; bool Done = 0; bool R; short ID; SIt = 0; UIDV = V[i]->classIDList(); // first all UUID ! 1200 12ff (Genericprofiles) for( unsigned int j = 0; j < UIDV.count(); j ++ ) { if( Filter.count() ) { bool FilterOut = 1; // filter out if not in list for( unsigned int ff = 0; ff < Filter.count(); ff ++ ) { if( UIDV[j] == Filter[ff] ) { FilterOut = 0; break; } } if( FilterOut ) { // not in filter list continue; } } // else show ID = UIDV[j].toShort(); if( ID < 0x1200 || ID > 0x12ff ) { // use this profile if( R ) { unsigned int ch; bool has; has = V[i]->rfcommChannel( ch ); SIt = new ChannelLVI( (has) ? (int)ch : -1 , PI ); SIt->setText(0, V[i]->name() ); Pm = Icons->serviceIcon( ID, R ); SIt->setPixmap(0, Pm ); Done = 1; break; } } } if( ! Done ) { // check other range too for( unsigned int j = 0; j < UIDV.count(); j ++ ) { if( Filter.count() ) { bool FilterOut = 1; // filter out if not in list for( unsigned int ff = 0; ff < Filter.count(); ff ++ ) { if( UIDV[j] == Filter[ff] ) { FilterOut = 0; break; } } if( FilterOut ) { // not in filter list continue; } } // else show ID = UIDV[j].toShort(); if( ID >= 0x1200 && ID <= 0x12ff ) { // use this profile unsigned int ch; bool has; has = V[i]->rfcommChannel( ch ); SIt = new ChannelLVI( (has) ? (int)ch : -1 , PI ); SIt->setText(0, V[i]->name() ); Pm = Icons->serviceIcon( ID, R ); SIt->setPixmap(0, Pm ); break; } } } } } scanMode( false ); } void OTScan::scanMode( bool M ) { // avoid infinite loop because it triggers DoScan Detect_But->blockSignals( TRUE ); Detect_But->setOn( M ); Detect_But->setText( (M) ? tr("Scanning") : tr("Scan") ); Detect_But->blockSignals( FALSE ); } // // // // // OTManage::OTManage( QWidget * parent, OTIcons * _IC ) : OTManageGUI( parent ) { OT = OTGateway::getOTGateway(); Icons = (_IC ) ? _IC : new OTIcons(); MyIcons = (_IC == 0 ); AllDrivers_LV->setSorting(-1); connect( OT, SIGNAL( driverListChanged() ), this, SLOT( SLOT_DriverListChanged() ) ); connect( OT, SIGNAL( stateChange( OTDriver *, bool ) ), this, SLOT( SLOT_StateChange( OTDriver *, bool ) ) ); SLOT_DriverListChanged(); AllDrivers_LV->header()->hide(); } OTManage::~OTManage() { if( MyIcons ) delete Icons; OTGateway::releaseOTGateway(); } void OTManage::SLOT_ShowDriver( QListViewItem * It ) { if( It == 0 || It->depth() > 0 ) // not toplevel return; DriverLVI * it = (DriverLVI *) It; DriverIsUp_CB->setChecked( it->driver()->isUp() ); } void OTManage::SLOT_UpDriver( bool Up ) { QListViewItem * it = AllDrivers_LV->firstChild(); while( it ) { if( it->isSelected() ) { OTDriver * D = ((DriverLVI *)it)->driver(); owarn << "UP driver " << D->devname() << oendl; // this D->setUp( Up ); return; } it = it->nextSibling(); } } void OTManage::SLOT_StateChange( OTDriver * D, bool Up ) { QListViewItem * it = AllDrivers_LV->firstChild(); while( it ) { if( ((DriverLVI *)it)->driver() == D ) { it->setPixmap( 0, Icons->loadPixmap( ( Up ) ? "bluezon" : "bluezoff" ) ); return; } it = it->nextSibling(); } } void OTManage::SLOT_DriverListChanged( ) { DriverLVI * It; QListViewItem * Sub; QListViewItem * First = 0; OTDriver* D; OTDriverList & DL = OT->getDriverList(); AllDrivers_LV->clear(); for( unsigned int i = 0; i < DL.count(); i ++ ) { D = DL[i]; It = new DriverLVI( D, AllDrivers_LV ); if( ! First ) First = It; It->setText( 0, D->devname() ); It->setPixmap( 0, Icons->loadPixmap( (D->isUp()) ? "bluezon" : "bluezoff" ) ); Sub = new QListViewItem( It ); Sub->setText( 0, tr( "Name" ) ); Sub->setText( 1, D->name() ); Sub = new QListViewItem( It ); Sub->setText( 0, tr( "Address" ) ); Sub->setText( 1, D->address().toString() ); Sub = new QListViewItem( It ); Sub->setText( 0, tr( "Revision" ) ); Sub->setText( 1, D->revision() ); Sub = new QListViewItem( It ); Sub->setText( 0, tr( "Manufacturer" ) ); Sub->setText( 1, D->manufacturer() ); QString Service, Device; D->getClass( Service, Device ); Sub = new QListViewItem( It ); Sub->setText( 0, tr( "Service classes" ) ); Sub->setText( 1, Service ); Sub = new QListViewItem( It ); Sub->setText( 0, tr( "Device class" ) ); Sub->setText( 1, Device ); } if( DL.count() ) { AllDrivers_LV->setCurrentItem( First ); DriverIsUp_CB->setEnabled( TRUE ); } else { DriverIsUp_CB->setChecked( FALSE ); DriverIsUp_CB->setEnabled( FALSE ); } } void OTManage::SLOT_SetRefreshTimer( int v ) { OT->setRefreshTimer( v * 1000 ); } // // // // // OTMain::OTMain( QWidget * parent ) : OTMainGUI( parent ) { Icons = new OTIcons(); SnifWindow = 0; OT = OTGateway::getOTGateway(); connect( OT, SIGNAL( deviceEnabled( bool ) ), this, SLOT( SLOT_DeviceIsEnabled( bool ) ) ); connect( OT, SIGNAL( driverListChanged() ), this, SLOT( SLOT_DriverListChanged() ) ); connect( OT, SIGNAL( stateChange( OTDriver *, bool ) ), this, SLOT( SLOT_StateChange( OTDriver *, bool ) ) ); if( ! OT->needsEnabling() ) { MustBeEnabled_CB->hide(); } else { // detect current state MustBeEnabled_CB->setChecked( OT->isEnabled() ); } SLOT_DriverListChanged(); } OTMain::~OTMain() { OTGateway::releaseOTGateway(); delete Icons; } void OTMain::SLOT_DriverListChanged() { OTDriver * D; OTDriverList & DL = OT->getDriverList(); DeviceList_CB->clear(); for( unsigned int i = 0; i < DL.count(); i ++ ) { D = DL[i]; DeviceList_CB->insertItem( Icons->loadPixmap( (D->isUp()) ? "bluezon" : "bluezoff" ), D->devname() ); if( D == OT->scanWith() ) { DeviceList_CB->setCurrentItem( i ); } } Scan_But->setEnabled( OT->getDriverList().count() > 0 ); DeviceList_CB->setEnabled( OT->getDriverList().count() > 0 ); } void OTMain::SLOT_EnableBluetooth( bool Up ) { OT->SLOT_SetEnabled( Up ); } void OTMain::SLOT_DeviceIsEnabled( bool Up ) { MustBeEnabled_CB->blockSignals( TRUE ); MustBeEnabled_CB->setChecked( Up ); MustBeEnabled_CB->blockSignals( FALSE ); } void OTMain::SLOT_Manage( void ) { QDialog * Dlg = new QDialog( this, 0, TRUE ); QVBoxLayout * V = new QVBoxLayout( Dlg ); OTManage * Mng = new OTManage( Dlg, Icons ); V->addWidget( Mng ); Dlg->setCaption( tr("Manage local devices" ) ); Dlg->showMaximized(); Dlg->exec(); delete Dlg; } void OTMain::SLOT_Scan( void ) { OTDriverList & DL = OT->getDriverList(); for( unsigned int i = 0; i < DL.count(); i ++ ) { if( DL[i]->isUp() && DL[i]->devname() == DeviceList_CB->currentText() ) { QDialog * Dlg = new QDialog( this, 0, TRUE ); QVBoxLayout * V = new QVBoxLayout( Dlg ); OTScan * Scn = new OTScan( Dlg, Icons ); OT->setScanWith( OT->driver(i) ); V->addWidget( Scn ); Dlg->setCaption( tr("Scan Neighbourhood" ) ); Dlg->showMaximized(); Dlg->exec(); delete Dlg; return; } } } void OTMain::SLOT_StateChange( OTDriver * D, bool Up ) { for( int i = 0; i < DeviceList_CB->count(); i ++ ) { if( DeviceList_CB->text(i) == D->devname() ) { DeviceList_CB->changeItem( Icons->loadPixmap( (Up) ? "bluezon" : "bluezoff" ), D->devname(), i ); return; } } } void OTMain::SLOT_Pairing( void ) { QDialog * Dlg = new QDialog( this, 0, TRUE ); QVBoxLayout * V = new QVBoxLayout( Dlg ); OTPairing * Pair = new OTPairing( Dlg, Icons ); V->addWidget( Pair ); Dlg->showMaximized(); Dlg->setCaption( tr("Manage pairing" ) ); Dlg->exec(); delete Dlg; } void OTMain::SLOT_Sniffing( void ) { if( SnifWindow == 0 ) { - SnifWindow = new OTSniffing( this ); + SnifWindow = new QDialog( this, 0, FALSE ); + QVBoxLayout * V = new QVBoxLayout( SnifWindow ); + OTSniffing * SN = new OTSniffing( SnifWindow ); + V->addWidget( SN ); } SnifWindow->showMaximized(); SnifWindow->show(); } diff --git a/noncore/settings/networksettings2/opietooth2/Opietooth.h b/noncore/settings/networksettings2/opietooth2/Opietooth.h index 211ae65..2b20975 100644 --- a/noncore/settings/networksettings2/opietooth2/Opietooth.h +++ b/noncore/settings/networksettings2/opietooth2/Opietooth.h @@ -1,223 +1,240 @@ #ifndef OPIETOOTH_H #define OPIETOOTH_H #include <OTIcons.h> -namespace Opie { namespace Ui { class OLedBox; }; }; +class MyProcess; +class System; + +namespace Opie { + + namespace Ui { + + class OLedBox; + + }; + +}; #include <OTSniffGUI.h> namespace Opietooth2 { class OTGateway; class OTDriver; class OTInquiry; class OTPeer; class PeerLVI; class OTSniffing : public OTSniffGUI { Q_OBJECT public : OTSniffing( QWidget * parent ); ~OTSniffing(); private slots : - void SLOT_Trace( void ); + void SLOT_Trace( bool ); void SLOT_ClearLog( void ); + void SLOT_Load( void ); + void SLOT_Save( void ); + void SLOT_ProcessExited( MyProcess * ); + void SLOT_Show( const QString & ); signals : protected : private : OTGateway * OT; + MyProcess * HciDump; + System * Sys; }; }; #include <OTPairingGUI.h> namespace Opietooth2 { class OTPairing : public OTPairingGUI { Q_OBJECT public : OTPairing( QWidget * parent, OTIcons * _Ic = 0 ); ~OTPairing(); private slots : void SLOT_Unpair( void ); signals : protected : private : bool MyIcons; OTIcons * Icons; OTGateway * OT; }; }; #include <OTScanGUI.h> namespace Opietooth2 { class OTGateway; class OTDriver; class OTInquiry; class OTPeer; class OTScan : public OTScanGUI { Q_OBJECT public : OTScan( QWidget * parent, OTIcons * _Ic = 0 ); ~OTScan(); // static function to return a device and a channel static int getDevice( OTPeer *& Peer, int & Channel, OTGateway * OT, const UUIDVector & Filter = 0, QWidget* Parent = 0); // show only services that match any of the filter void setScanFilter( const UUIDVector & Filter ); void resetScanFilter( void ); inline OTPeer * selectedPeer( void ) { return SelectedPeer; } inline int selectedChannel( void ) { return SelectedChannel; } public slots : private slots : void SLOT_DoScan( bool ); void SLOT_NewPeer( OTPeer *, bool ); void SLOT_FinishedDetecting(); void SLOT_Show( QListViewItem *); void SLOT_RefreshServices( void ); void SLOT_RefreshState( void ); void SLOT_CleanupOld( void ); void SLOT_UpdateStrength( void ); void SLOT_PeerState( OTPeer * ); void SLOT_Selected( QListViewItem * ); signals : void selected( void ); protected : private : void refreshState( PeerLVI *, bool ); void scanMode( bool ); // load scanned devices bool MyIcons; OTIcons * Icons; OTGateway * OT; OTInquiry * Scanning; UUIDVector Filter; Opie::Ui::OLedBox * Paired_Led; QTimer * StrengthTimer; PeerLVI * Current; OTPeer * SelectedPeer; int SelectedChannel; }; }; #include <OTManageGUI.h> namespace Opietooth2 { class OTManage : public OTManageGUI { Q_OBJECT public : OTManage( QWidget * parent, OTIcons * _IC = 0 ); ~OTManage(); public slots : private slots : void SLOT_ShowDriver( QListViewItem * ); void SLOT_UpDriver( bool ); void SLOT_StateChange( OTDriver * , bool ); void SLOT_DriverListChanged(); void SLOT_SetRefreshTimer( int ); signals : protected : private : // load scanned devices bool MyIcons; OTIcons * Icons; OTGateway * OT; OTInquiry * Scanning; }; }; #include <OTMainGUI.h> namespace Opietooth2 { class OTMain : public OTMainGUI { Q_OBJECT public : OTMain( QWidget * parent ); ~OTMain(); public slots : private slots : void SLOT_Pairing( void ); void SLOT_Manage( void ); void SLOT_Sniffing( void ); void SLOT_Scan( void ); void SLOT_EnableBluetooth( bool ); void SLOT_DriverListChanged(); void SLOT_DeviceIsEnabled( bool ); void SLOT_StateChange( OTDriver * , bool ); signals : protected : private : // load scanned devices OTIcons * Icons; OTGateway * OT; - OTSniffing * SnifWindow; + QDialog * SnifWindow; }; }; #endif diff --git a/noncore/settings/networksettings2/opietooth2/libopietooth2.control b/noncore/settings/networksettings2/opietooth2/libopietooth2.control index fd01fb5..c2c8eb8 100644 --- a/noncore/settings/networksettings2/opietooth2/libopietooth2.control +++ b/noncore/settings/networksettings2/opietooth2/libopietooth2.control @@ -1,9 +1,9 @@ Package: libopietooth2 Files: lib/libopietooth2.so.* apps/Settings/opietooth-manager.desktop pics/opietooth/*.png pics/opietooth/icons/*.png Priority: optional Section: opie/system Maintainer: wim delvaux <wim.delvaux@handhelds.org> Architecture: arm Version: $QPE_VERSION$EXTRAVERSION -Depends: task-opie-minimal, libbluetooth1, opie-bluepin | opie-multiauth-bluepingplugin, bluez-utils-nodbus +Depends: task-opie-minimal, opie-networksettings2, libbluetooth1, opie-bluepin | opie-multiauth-bluepingplugin, bluez-utils-nodbus Description: Opie bluetooth support library version 2 diff --git a/noncore/settings/networksettings2/opietooth2/opietooth2.pro b/noncore/settings/networksettings2/opietooth2/opietooth2.pro index cfb527d..e0057a9 100644 --- a/noncore/settings/networksettings2/opietooth2/opietooth2.pro +++ b/noncore/settings/networksettings2/opietooth2/opietooth2.pro @@ -1,37 +1,37 @@ TEMPLATE = lib CONFIG += qt warn_on release #CONFIG += qt warn_on debug DESTDIR = $(OPIEDIR)/lib$(PROJMAK) HEADERS = OTDevice.h \ OTDriver.h \ OTGateway.h \ OTHCISocket.h \ OTInquiry.h \ OTDeviceAddress.h \ OTIcons.h \ OTUUID.h \ OTSDPAttribute.h \ OTSDPService.h \ OTPeer.h \ Opietooth.h SOURCES = OTDevice.cpp \ OTDriver.cpp \ OTDriverList.cpp \ OTHCISocket.cpp \ OTInquiry.cpp \ OTDeviceAddress.cpp \ OTUUID.cpp \ OTSDPAttribute.cpp \ OTSDPService.cpp \ OTIcons.cpp \ OTPeer.cpp \ OTGateway.cpp \ Opietooth.cpp -INCLUDEPATH += $(OPIEDIR)/include +INCLUDEPATH += $(OPIEDIR)/include ../networksettings2 DEPENDPATH += $(OPIEDIR)/include -LIBS += -lqpe -lopiecore2 -lbluetooth +LIBS += -lqpe -lopiecore2 -lbluetooth -lnetworksettings2 INTERFACES = OTMainGUI.ui OTSniffGUI.ui OTScanGUI.ui OTManageGUI.ui OTPairingGUI.ui TARGET = opietooth2 VERSION = 1.0.0 include ( $(OPIEDIR)/include.pro ) |