The Linux Wireless Extensions V16 introduce some massive changes in the

binary structures. Since we still use V15 on most target platforms I have
to introduce two headers. Define OPIE_WE_VERSION to specify which header to include

5 files changed, 107 insertions, 39 deletions

diff --git a/libopie2/opienet/onetwork.cpp b/libopie2/opienet/onetwork.cpp
index 16fa8ae..36f409b 100644
--- a/libopie2/opienet/onetwork.cpp
+++ b/libopie2/opienet/onetwork.cpp
@@ -1,1204 +1,1225 @@
 /*

                              This file is part of the Opie Project

-                             Copyright (C) 2003 by Michael 'Mickey' Lauer <mickey@Vanille.de>

-              =.

+                             Copyright (C) 2003-2004 by Michael 'Mickey' Lauer

+              =.             <mickey@Vanille.de>

             .=l.

            .>+-=

  _;:,     .>    :=|.         This program is free software; you can

 .> <`_,   >  .   <=          redistribute it and/or  modify it under

 :`=1 )Y*s>-.--   :           the terms of the GNU Library General Public

 .="- .-=="i,     .._         License as published by the Free Software

  - .   .-<_>     .<>         Foundation; either version 2 of the License,

      ._= =}       :          or (at your option) any later version.

     .%`+i>       _;_.

     .i_,=:_.      -<s.       This program 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., 59 Temple Place - Suite 330,

                              Boston, MA 02111-1307, USA.

 

 */

 

 /* OPIE */

 

 #include <opie2/onetwork.h>

 #include <opie2/ostation.h>

 #include <opie2/odebug.h>

 

 /* QT */

 

 #include <qfile.h>

 #include <qtextstream.h>

 

 /* UNIX */

 

 #include <assert.h>

 #include <arpa/inet.h>

 #include <errno.h>

 #include <string.h>

 #include <stdlib.h>

 #include <math.h>

 #include <sys/ioctl.h>

 #include <sys/socket.h>

 #include <sys/types.h>

 #include <unistd.h>

 #include <linux/sockios.h>

 #include <net/if_arp.h>

 #include <stdarg.h>

 

 #ifndef NODEBUG

 #include <opie2/odebugmapper.h>

 DebugMapper* debugmapper = new DebugMapper();

 #endif

 

 /*======================================================================================

  * ONetwork

  *======================================================================================*/

 

 ONetwork* ONetwork::_instance = 0;

 

 ONetwork::ONetwork()

 {

     odebug << "ONetwork::ONetwork()" << oendl;

     odebug << "ONetwork: This code has been compiled against Wireless Extensions V" << WIRELESS_EXT << oendl;

     synchronize();

 }

 

 void ONetwork::synchronize()

 {

     // gather available interfaces by inspecting /proc/net/dev

     //FIXME: we could use SIOCGIFCONF here, but we aren't interested in virtual (e.g. eth0:0) devices

     //FIXME: Use SIOCGIFCONF anway, because we can disable listing of aliased devices

     //FIXME: Best is use SIOCGIFCONF and if this doesn't work (result=-1), then fallback to parsing /proc/net/dev

 

     _interfaces.clear();

     QString str;

     QFile f( "/proc/net/dev" );

     bool hasFile = f.open( IO_ReadOnly );

     if ( !hasFile )

     {

         odebug << "ONetwork: /proc/net/dev not existing. No network devices available" << oendl;

         return;

     }

     QTextStream s( &f );

     s.readLine();

     s.readLine();

     while ( !s.atEnd() )

     {

         s >> str;

         str.truncate( str.find( ':' ) );

         odebug << "ONetwork: found interface '" << str << "'" << oendl;

         ONetworkInterface* iface;

         if ( isWirelessInterface( str ) )

         {

             iface = new OWirelessNetworkInterface( this, (const char*) str );

             odebug << "ONetwork: interface '" << str << "' has Wireless Extensions" << oendl;

         }

         else

         {

             iface = new ONetworkInterface( this, (const char*) str );

         }

         _interfaces.insert( str, iface );

         s.readLine();

     }

 }

 

 

 short ONetwork::wirelessExtensionVersion()

 {

     return WIRELESS_EXT;

 }

 

 

 int ONetwork::count() const

 {

     return _interfaces.count();

 }

 

 

 ONetworkInterface* ONetwork::interface( const QString& iface ) const

 {

     return _interfaces[iface];

 }

 

 

 ONetwork* ONetwork::instance()

 {

     if ( !_instance ) _instance = new ONetwork();

     return _instance;

 }

 

 

 ONetwork::InterfaceIterator ONetwork::iterator() const

 {

     return ONetwork::InterfaceIterator( _interfaces );

 }

 

 

 bool ONetwork::isWirelessInterface( const char* name ) const

 {

     int sfd = socket( AF_INET, SOCK_STREAM, 0 );

     struct iwreq iwr;

     memset( &iwr, 0, sizeof( struct iwreq ) );

     strcpy( (char*) &iwr.ifr_name, name );

     int result = ::ioctl( sfd, SIOCGIWNAME, &iwr );

     return result != -1;

 }

 

 /*======================================================================================

  * ONetworkInterface

  *======================================================================================*/

 

 ONetworkInterface::ONetworkInterface( QObject* parent, const char* name )

                  :QObject( parent, name ),

                  _sfd( socket( AF_INET, SOCK_DGRAM, 0 ) ), _mon( 0 )

 {

     odebug << "ONetworkInterface::ONetworkInterface()" << oendl;

     init();

 }

 

 

 struct ifreq& ONetworkInterface::ifr() const

 {

     return _ifr;

 }

 

 

 void ONetworkInterface::init()

 {

     odebug << "ONetworkInterface::init()" << oendl;

 

     memset( &_ifr, 0, sizeof( struct ifreq ) );

 

     if ( _sfd == -1 )

     {

         odebug << "ONetworkInterface::init(): Warning - can't get socket for device '" << name() << "'" << oendl;

         return;

     }

 }

 

 

 bool ONetworkInterface::ioctl( int call, struct ifreq& ifreq ) const

 {

     #ifndef NODEBUG

     int result = ::ioctl( _sfd, call, &ifreq );

     if ( result == -1 )

         odebug << "ONetworkInterface::ioctl (" << name() << ") call '" << debugmapper->map( call )

                << "' FAILED! " << result << " (" << strerror( errno ) << ")" << oendl;

     else

         odebug << "ONetworkInterface::ioctl (" << name() << ") call '" << debugmapper->map( call )

                << "' - Status: Ok." << oendl;

     return ( result != -1 );

     #else

     return ::ioctl( _sfd, call, &ifreq ) != -1;

     #endif

 }

 

 

 bool ONetworkInterface::ioctl( int call ) const

 {

     strcpy( _ifr.ifr_name, name() );

     return ioctl( call, _ifr );

 }

 

 

 bool ONetworkInterface::isLoopback() const

 {

     ioctl( SIOCGIFFLAGS );

     return _ifr.ifr_flags & IFF_LOOPBACK;

 }

 

 

 bool ONetworkInterface::setUp( bool b )

 {

     ioctl( SIOCGIFFLAGS );

     if ( b ) _ifr.ifr_flags |= IFF_UP;

     else   _ifr.ifr_flags &= (~IFF_UP);

     return ioctl( SIOCSIFFLAGS );

 }

 

 

 bool ONetworkInterface::isUp() const

 {

     ioctl( SIOCGIFFLAGS );

     return _ifr.ifr_flags & IFF_UP;

 }

 

 

 void ONetworkInterface::setIPV4Address( const QHostAddress& addr )

 {

     struct sockaddr_in *sa = (struct sockaddr_in *) &_ifr.ifr_addr;

     sa->sin_family = AF_INET;

     sa->sin_port = 0;

     sa->sin_addr.s_addr = htonl( addr.ip4Addr() );

     ioctl( SIOCSIFADDR );

 }

 

 

 QString ONetworkInterface::ipV4Address() const

 {

     if ( ioctl( SIOCGIFADDR ) )

     {

         struct sockaddr_in* sa = (struct sockaddr_in *) &_ifr.ifr_addr;

         //FIXME: Use QHostAddress here

         return QString( inet_ntoa( sa->sin_addr ) );

     }

     else

         return "<unknown>";

 

 }

 

 

 void ONetworkInterface::setMacAddress( const OMacAddress& addr )

 {

     _ifr.ifr_hwaddr.sa_family = ARPHRD_ETHER;

     memcpy( &_ifr.ifr_hwaddr.sa_data, addr.native(), 6 );

     ioctl( SIOCSIFHWADDR );

 }

 

 

 OMacAddress ONetworkInterface::macAddress() const

 {

     if ( ioctl( SIOCGIFHWADDR ) )

     {

         return OMacAddress( _ifr );

     }

     else

     {

         return OMacAddress::unknown;

     }

 }

 

 

 void ONetworkInterface::setIPV4Netmask( const QHostAddress& addr )

 {

     struct sockaddr_in *sa = (struct sockaddr_in *) &_ifr.ifr_addr;

     sa->sin_family = AF_INET;

     sa->sin_port = 0;

     sa->sin_addr.s_addr = htonl( addr.ip4Addr() );

     ioctl( SIOCSIFNETMASK );

 }

 

 

 QString ONetworkInterface::ipV4Netmask() const

 {

     if ( ioctl( SIOCGIFNETMASK ) )

     {

         struct sockaddr_in* sa = (struct sockaddr_in *) &_ifr.ifr_addr;

         //FIXME: Use QHostAddress here

         return QString( inet_ntoa( sa->sin_addr ) );

     }

     else

         return "<unknown>";

 }

 

 

 int ONetworkInterface::dataLinkType() const

 {

     if ( ioctl( SIOCGIFHWADDR ) )

     {

         return _ifr.ifr_hwaddr.sa_family;

     }

     else

     {

         return -1;

     }

 }

 

 

 void ONetworkInterface::setMonitoring( OMonitoringInterface* m )

 {

     _mon = m;

     odebug << "ONetwork::setMonitoring(): Installed monitoring driver '" << m->name() << "' on interface '" << name() << "'" << oendl;

 }

 

 

 OMonitoringInterface* ONetworkInterface::monitoring() const

 {

     return _mon;

 }

 

 

 ONetworkInterface::~ONetworkInterface()

 {

     odebug << "ONetworkInterface::~ONetworkInterface()" << oendl;

     if ( _sfd != -1 ) ::close( _sfd );

 }

 

 

 bool ONetworkInterface::setPromiscuousMode( bool b )

 {

     ioctl( SIOCGIFFLAGS );

     if ( b ) _ifr.ifr_flags |= IFF_PROMISC;

     else   _ifr.ifr_flags &= (~IFF_PROMISC);

     return ioctl( SIOCSIFFLAGS );

 }

 

 

 bool ONetworkInterface::promiscuousMode() const

 {

     ioctl( SIOCGIFFLAGS );

     return _ifr.ifr_flags & IFF_PROMISC;

 }

 

 

 bool ONetworkInterface::isWireless() const

 {

     return ioctl( SIOCGIWNAME );

 }

 

 

 /*======================================================================================

  * OChannelHopper

  *======================================================================================*/

 

 OChannelHopper::OChannelHopper( OWirelessNetworkInterface* iface )

                :QObject( 0, "Mickey's funky hopper" ),

                _iface( iface ), _interval( 0 ), _tid( 0 )

 {

     int _maxChannel = iface->channels()+1;

     // generate fancy hopping sequence honoring the device capabilities

     if ( _maxChannel >=  1 ) _channels.append(  1 );

     if ( _maxChannel >=  7 ) _channels.append(  7 );

     if ( _maxChannel >= 13 ) _channels.append( 13 );

     if ( _maxChannel >=  2 ) _channels.append(  2 );

     if ( _maxChannel >=  8 ) _channels.append(  8 );

     if ( _maxChannel >=  3 ) _channels.append(  3 );

     if ( _maxChannel >= 14 ) _channels.append( 14 );

     if ( _maxChannel >=  9 ) _channels.append(  9 );

     if ( _maxChannel >=  4 ) _channels.append(  4 );

     if ( _maxChannel >= 10 ) _channels.append( 10 );

     if ( _maxChannel >=  5 ) _channels.append(  5 );

     if ( _maxChannel >= 11 ) _channels.append( 11 );

     if ( _maxChannel >=  6 ) _channels.append(  6 );

     if ( _maxChannel >= 12 ) _channels.append( 12 );

     _channel = _channels.begin();

 

 }

 

 

 OChannelHopper::~OChannelHopper()

 {

 }

 

 

 bool OChannelHopper::isActive() const

 {

     return _tid;

 }

 

 

 int OChannelHopper::channel() const

 {

     return *_channel;

 }

 

 

 void OChannelHopper::timerEvent( QTimerEvent* )

 {

     _iface->setChannel( *_channel );

     emit( hopped( *_channel ) );

     odebug << "OChannelHopper::timerEvent(): set channel " << *_channel << " on interface '" << _iface->name() << "'" << oendl;

     if ( ++_channel == _channels.end() ) _channel = _channels.begin();

 }

 

 

 void OChannelHopper::setInterval( int interval )

 {

     if ( interval == _interval )

         return;

 

     if ( _interval )

         killTimer( _tid );

 

     _tid = 0;

     _interval = interval;

 

     if ( _interval )

     {

         _tid = startTimer( interval );

     }

 }

 

 

 int OChannelHopper::interval() const

 {

     return _interval;

 }

 

 

 /*======================================================================================

  * OWirelessNetworkInterface

  *======================================================================================*/

 

 OWirelessNetworkInterface::OWirelessNetworkInterface( QObject* parent, const char* name )

                          :ONetworkInterface( parent, name ), _hopper( 0 )

 {

     odebug << "OWirelessNetworkInterface::OWirelessNetworkInterface()" << oendl;

     init();

 }

 

 

 OWirelessNetworkInterface::~OWirelessNetworkInterface()

 {

 }

 

 

 struct iwreq& OWirelessNetworkInterface::iwr() const

 {

     return _iwr;

 }

 

 

 void OWirelessNetworkInterface::init()

 {

     odebug << "OWirelessNetworkInterface::init()" << oendl;

     memset( &_iwr, 0, sizeof( struct iwreq ) );

     buildInformation();

     buildPrivateList();

     dumpInformation();

 }

 

 

 bool OWirelessNetworkInterface::isAssociated() const

 {

     //FIXME: handle different modes

     return !(associatedAP() == OMacAddress::unknown);

 }

 

 

 OMacAddress OWirelessNetworkInterface::associatedAP() const

 {

     if ( ioctl( SIOCGIWAP ) )

         return (const unsigned char*) &_ifr.ifr_hwaddr.sa_data[0];

     else

         return OMacAddress::unknown;

 }

 

 

 void OWirelessNetworkInterface::buildInformation()

 {

     //ML: If you listen carefully enough, you can hear lots of WLAN drivers suck

     //ML: The HostAP drivers need more than sizeof struct_iw range to complete

     //ML: SIOCGIWRANGE otherwise they fail with "Invalid Argument Length".

     //ML: The Wlan-NG drivers on the otherside fail (segfault!) if you allocate

     //ML: _too much_ space. This is damn shitty crap *sigh*

     //ML: We allocate a large memory region in RAM and check whether the

     //ML: driver pollutes this extra space. The complaint will be made on stdout,

     //ML: so please forward this...

 

     struct iwreq wrq;

     int len = sizeof( struct iw_range )*2;

     char *buffer = (char*) malloc( len );

     //FIXME: Validate if we actually got the memory block

     memset( buffer, 0, len );

     memcpy( wrq.ifr_name, name(), IFNAMSIZ);

     wrq.u.data.pointer = (caddr_t) buffer;

     wrq.u.data.length = sizeof( struct iw_range );

     wrq.u.data.flags = 0;

 

     if ( ::ioctl( _sfd, SIOCGIWRANGE, &wrq ) == -1 )

     {

         owarn << "OWirelessNetworkInterface::buildInformation(): Can't get channel information - using default values." << oendl;

         _channels.insert( 2412,  1 ); // 2.412 GHz

         _channels.insert( 2417,  2 ); // 2.417 GHz

         _channels.insert( 2422,  3 ); // 2.422 GHz

         _channels.insert( 2427,  4 ); // 2.427 GHz

         _channels.insert( 2432,  5 ); // 2.432 GHz

         _channels.insert( 2437,  6 ); // 2.437 GHz

         _channels.insert( 2442,  7 ); // 2.442 GHz

         _channels.insert( 2447,  8 ); // 2.447 GHz

         _channels.insert( 2452,  9 ); // 2.452 GHz

         _channels.insert( 2457, 10 ); // 2.457 GHz

         _channels.insert( 2462, 11 ); // 2.462 GHz

 

         memset( &_range, 0, sizeof( struct iw_range ) );

     }

     else

     {

         // <check if the driver overwrites stuff>

         int max = 0;

         for ( int r = sizeof( struct iw_range ); r < len; r++ )

             if (buffer[r] != 0)

                 max = r;

         if (max > 0)

         {

             owarn << "OWirelessNetworkInterface::buildInformation(): Driver for wireless interface '" << name()

                   << "' sucks! It overwrote the buffer end with at least " << max - sizeof( struct iw_range ) << " bytes!" << oendl;

         }

         // </check if the driver overwrites stuff>

 

         struct iw_range range;

         memcpy( &range, buffer, sizeof range );

 

         odebug << "OWirelessNetworkInterface::buildInformation(): Interface reported to have " << (int) range.num_frequency << " channels." << oendl;

         for ( int i = 0; i < range.num_frequency; ++i )

         {

             int freq = (int) ( double( range.freq[i].m ) * pow( 10.0, range.freq[i].e ) / 1000000.0 );

             _channels.insert( freq, i+1 );

         }

     }

 

     memcpy( &_range, buffer, sizeof( struct iw_range ) );

     odebug << "OWirelessNetworkInterface::buildInformation(): Information block constructed." << oendl;

     free(buffer);

 }

 

 

 void OWirelessNetworkInterface::buildPrivateList()

 {

     odebug << "OWirelessNetworkInterface::buildPrivateList()" << oendl;

 

     struct iw_priv_args priv[IW_MAX_PRIV_DEF];

 

     _iwr.u.data.pointer = (char*) &priv;

     _iwr.u.data.length = IW_MAX_PRIV_DEF; // length in terms of number of (sizeof iw_priv_args), not (sizeof iw_priv_args) itself

     _iwr.u.data.flags = 0;

 

     if ( !wioctl( SIOCGIWPRIV ) )

     {

         owarn << "OWirelessNetworkInterface::buildPrivateList(): Can't get private ioctl information." << oendl;

         return;

     }

 

     for ( int i = 0; i < _iwr.u.data.length; ++i )

     {

         new OPrivateIOCTL( this, priv[i].name, priv[i].cmd, priv[i].get_args, priv[i].set_args );

     }

     odebug << "OWirelessNetworkInterface::buildPrivateList(): Private ioctl list constructed." << oendl;

 }

 

 

 void OWirelessNetworkInterface::dumpInformation() const

 {

     odebug << "OWirelessNetworkInterface::() -------------- dumping information block ----------------" << oendl;

 

-    qDebug( " - driver's idea of maximum throughput is %d bps = %d byte/s = %d Kb/s = %f.2 Mb/s", _range.throughput, _range.throughput / 8, _range.throughput / 8 / 1024, float( _range.throughput ) / 8.0 / 1024.0 / 1024.0 );

-    qDebug( " - driver for '%s' has been compiled against WE V%d (source=V%d)", name(), _range.we_version_compiled, _range.we_version_source );

+    qDebug( " - driver's idea of maximum throughput is %d bps = %d byte/s = %d Kb/s = %f.2 Mb/s", 

+            _range.throughput, _range.throughput / 8, _range.throughput / 8 / 1024, float( _range.throughput ) / 8.0 / 1024.0 / 1024.0 );

+    qDebug( " - driver for '%s' (V%d) has been compiled against WE V%d",

+             name(), _range.we_version_source, _range.we_version_compiled );

+             

+    if ( _range.we_version_compiled != WIRELESS_EXT )

+    {

+        owarn << "Version mismatch! WE_DRIVER = " << _range.we_version_compiled << " and WE_OPIENET = " << WIRELESS_EXT << oendl;

+    }

 

     odebug << "OWirelessNetworkInterface::() ---------------------------------------------------------" << oendl;

 }

 

 

 int OWirelessNetworkInterface::channel() const

 {

     //FIXME: When monitoring enabled, then use it

     //FIXME: to gather the current RF channel

     //FIXME: Until then, get active channel from hopper.

     if ( _hopper && _hopper->isActive() )

         return _hopper->channel();

 

     if ( !wioctl( SIOCGIWFREQ ) )

     {

         return -1;

     }

     else

     {

         return _channels[ static_cast<int>(double( _iwr.u.freq.m ) * pow( 10.0, _iwr.u.freq.e ) / 1000000) ];

     }

 }

 

 

 void OWirelessNetworkInterface::setChannel( int c ) const

 {

     if ( !c )

     {

         oerr << "OWirelessNetworkInterface::setChannel( 0 ) called - fix your application!" << oendl;

         return;

     }

 

     if ( !_mon )

     {

         memset( &_iwr, 0, sizeof( struct iwreq ) );

         _iwr.u.freq.m = c;

         _iwr.u.freq.e = 0;

         wioctl( SIOCSIWFREQ );

     }

     else

     {

         _mon->setChannel( c );

     }

 }

 

 

 double OWirelessNetworkInterface::frequency() const

 {

     if ( !wioctl( SIOCGIWFREQ ) )

     {

         return -1.0;

     }

     else

     {

         return double( _iwr.u.freq.m ) * pow( 10.0, _iwr.u.freq.e ) / 1000000000.0;

     }

 }

 

 

 int OWirelessNetworkInterface::channels() const

 {

     return _channels.count();

 }

 

 

 void OWirelessNetworkInterface::setChannelHopping( int interval )

 {

     if ( !_hopper ) _hopper = new OChannelHopper( this );

     _hopper->setInterval( interval );

     //FIXME: When and by whom will the channel hopper be deleted?

     //TODO: rely on QObject hierarchy

 }

 

 

 int OWirelessNetworkInterface::channelHopping() const

 {

     return _hopper->interval();

 }

 

 

 OChannelHopper* OWirelessNetworkInterface::channelHopper() const

 {

     return _hopper;

 }

 

 

 void OWirelessNetworkInterface::commit() const

 {

     wioctl( SIOCSIWCOMMIT );

 }

 

 

 void OWirelessNetworkInterface::setMode( const QString& newMode )

 {

     #ifdef FINALIZE

     QString currentMode = mode();

     if ( currentMode == newMode ) return;

     #endif

 

     odebug << "OWirelessNetworkInterface::setMode(): trying to set mode " << newMode << oendl;

 

     _iwr.u.mode = stringToMode( newMode );

 

     if ( _iwr.u.mode != IW_MODE_MONITOR )

     {

         // IWR.U.MODE WIRD DURCH ABFRAGE DES MODE HIER PLATTGEMACHT!!!!!!!!!!!!!!!!!!!!! DEPP!

         _iwr.u.mode = stringToMode( newMode );

         wioctl( SIOCSIWMODE );

 

         // special iwpriv fallback for monitor mode (check if we're really out of monitor mode now)

 

         if ( mode() == "monitor" )

         {

             odebug << "OWirelessNetworkInterface::setMode(): SIOCSIWMODE not sufficient - trying fallback to iwpriv..." << oendl;

             if ( _mon )

                 _mon->setEnabled( false );

             else

                 odebug << "ONetwork(): can't switch monitor mode without installed monitoring interface" << oendl;

         }

 

     }

     else    // special iwpriv fallback for monitor mode

     {

         if ( wioctl( SIOCSIWMODE ) )

         {

             odebug << "OWirelessNetworkInterface::setMode(): IW_MODE_MONITOR ok" << oendl;

         }

         else

         {

             odebug << "OWirelessNetworkInterface::setMode(): SIOCSIWMODE not working - trying fallback to iwpriv..." << oendl;

 

             if ( _mon )

                 _mon->setEnabled( true );

             else

                 odebug << "ONetwork(): can't switch monitor mode without installed monitoring interface" << oendl;

         }

     }

 }

 

 

 QString OWirelessNetworkInterface::mode() const

 {

     memset( &_iwr, 0, sizeof( struct iwreq ) );

 

     if ( !wioctl( SIOCGIWMODE ) )

     {

         return "<unknown>";

     }

 

     odebug << "OWirelessNetworkInterface::setMode(): WE's idea of current mode seems to be " << modeToString( _iwr.u.mode ) << oendl;

 

     // legacy compatible monitor mode check

 

     if ( dataLinkType() == ARPHRD_IEEE80211 || dataLinkType() == 802 )

     {

         return "monitor";

     }

     else

     {

         return modeToString( _iwr.u.mode );

     }

 }

 

 void OWirelessNetworkInterface::setNickName( const QString& nickname )

 {

     _iwr.u.essid.pointer = const_cast<char*>( (const char*) nickname );

     _iwr.u.essid.length = nickname.length();

     wioctl( SIOCSIWNICKN );

 }

 

 

 QString OWirelessNetworkInterface::nickName() const

 {

     char str[IW_ESSID_MAX_SIZE];

     _iwr.u.data.pointer = &str[0];

     _iwr.u.data.length = IW_ESSID_MAX_SIZE;

     if ( !wioctl( SIOCGIWNICKN ) )

     {

         return "<unknown>";

     }

     else

     {

         str[_iwr.u.data.length] = 0x0; // some drivers (e.g. wlan-ng) don't zero-terminate the string

         return str;

     }

 }

 

 

 void OWirelessNetworkInterface::setPrivate( const QString& call, int numargs, ... )

 {

     OPrivateIOCTL* priv = static_cast<OPrivateIOCTL*>( child( (const char*) call ) );

     if ( !priv )

     {

         owarn << "OWirelessNetworkInterface::setPrivate(): interface '" << name()

               << "' does not support private ioctl '" << call << "'" << oendl;

         return;

     }

     if ( priv->numberSetArgs() != numargs )

     {

         owarn << "OWirelessNetworkInterface::setPrivate(): parameter count not matching. '"

               << call << "' expects " << priv->numberSetArgs() << ", but got " << numargs << oendl;

         return;

     }

 

     odebug << "OWirelessNetworkInterface::setPrivate(): about to call '" << call << "' on interface '" << name() << "'" << oendl;

     memset( &_iwr, 0, sizeof _iwr );

     va_list argp;

     va_start( argp, numargs );

     for ( int i = 0; i < numargs; ++i )

     {

         priv->setParameter( i, va_arg( argp, int ) );

     }

     va_end( argp );

     priv->invoke();

 }

 

 

 void OWirelessNetworkInterface::getPrivate( const QString& call )

 {

     oerr << "OWirelessNetworkInterface::getPrivate() is not implemented yet." << oendl;

 }

 

 

 bool OWirelessNetworkInterface::hasPrivate( const QString& call )

 {

     return child( (const char*) call );

 }

 

 

 QString OWirelessNetworkInterface::SSID() const

 {

     char str[IW_ESSID_MAX_SIZE];

     _iwr.u.essid.pointer = &str[0];

     _iwr.u.essid.length = IW_ESSID_MAX_SIZE;

     if ( !wioctl( SIOCGIWESSID ) )

     {

         return "<unknown>";

     }

     else

     {

         return str;

     }

 }

 

 

 void OWirelessNetworkInterface::setSSID( const QString& ssid )

 {

     _iwr.u.essid.pointer = const_cast<char*>( (const char*) ssid );

     _iwr.u.essid.length = ssid.length();

     wioctl( SIOCSIWESSID );

 }

 

 

 OStationList* OWirelessNetworkInterface::scanNetwork()

 {

     _iwr.u.param.flags = IW_SCAN_DEFAULT;

     _iwr.u.param.value = 0;

     if ( !wioctl( SIOCSIWSCAN ) )

     {

         return 0;

     }

 

     OStationList* stations = new OStationList();

 

     int timeout = 1000000;

 

     odebug << "ONetworkInterface::scanNetwork() - scan started." << oendl;

 

     bool results = false;

     struct timeval tv;

     tv.tv_sec = 0;

     tv.tv_usec = 250000; // initial timeout ~ 250ms

     char buffer[IW_SCAN_MAX_DATA];

 

     while ( !results && timeout > 0 )

     {

         timeout -= tv.tv_usec;

         select( 0, 0, 0, 0, &tv );

 

         _iwr.u.data.pointer = &buffer[0];

         _iwr.u.data.flags = 0;

         _iwr.u.data.length = sizeof buffer;

         if ( wioctl( SIOCGIWSCAN ) )

         {

             results = true;

             continue;

         }

         else if ( errno == EAGAIN)

         {

             odebug << "ONetworkInterface::scanNetwork() - scan in progress..." << oendl;

             #if 0

             if ( qApp )

             {

                 qApp->processEvents( 100 );

                 continue;

             }

             #endif

             tv.tv_sec = 0;

             tv.tv_usec = 100000;

             continue;

         }

     }

 

     odebug << "ONetworkInterface::scanNetwork() - scan finished." << oendl;

 

     if ( results )

     {

         odebug << " - result length = " << _iwr.u.data.length << oendl;

         if ( !_iwr.u.data.length )

         {

             odebug << " - no results (empty neighbourhood)" << oendl;

             return stations;

         }

 

         odebug << " - results are in!" << oendl;

         dumpBytes( (const unsigned char*) &buffer[0], _iwr.u.data.length );

 

         // parse results

 

         int offset = 0;

         struct iw_event* we = (struct iw_event*) &buffer[0];

 

         while ( offset < _iwr.u.data.length )

         {

             //const char* cmd = *(*_ioctlmap)[we->cmd];

             //if ( !cmd ) cmd = "<unknown>";

             odebug << " - reading next event... cmd=" << we->cmd << ", len=" << we->len << oendl;

             switch (we->cmd)

             {

                 case SIOCGIWAP:

                 {

                     odebug << "SIOCGIWAP" << oendl;

                     stations->append( new OStation() );

                     stations->last()->macAddress = (const unsigned char*) &we->u.ap_addr.sa_data[0];

                     break;

                 }

                 case SIOCGIWMODE:

                 {

                     odebug << "SIOCGIWMODE" << oendl;

                     stations->last()->type = modeToString( we->u.mode );

                     break;

                 }

                 case SIOCGIWFREQ:

                 {

                     odebug << "SIOCGIWFREQ" << oendl;

                     stations->last()->channel = _channels[ static_cast<int>(double( we->u.freq.m ) * pow( 10.0, we->u.freq.e ) / 1000000) ];

                     break;

                 }

                 case SIOCGIWESSID:

                 {

                     odebug << "SIOCGIWESSID" << oendl;

                     stations->last()->ssid = we->u.essid.pointer;

                     break;

                 }

                 case SIOCGIWSENS: odebug << "SIOCGIWSENS" << oendl; break;

                 case SIOCGIWENCODE: odebug << "SIOCGIWENCODE" << oendl; break;

                 case IWEVTXDROP: odebug << "IWEVTXDROP" << oendl; break;         /* Packet dropped to excessive retry */

                 case IWEVQUAL: odebug << "IWEVQUAL" << oendl; break;             /* Quality part of statistics (scan) */

                 case IWEVCUSTOM: odebug << "IWEVCUSTOM" << oendl; break;         /* Driver specific ascii string */

                 case IWEVREGISTERED: odebug << "IWEVREGISTERED" << oendl; break; /* Discovered a new node (AP mode) */

                 case IWEVEXPIRED: odebug << "IWEVEXPIRED" << oendl; break;       /* Expired a node (AP mode) */

                 default: odebug << "unhandled event" << oendl;

             }

 

             offset += we->len;

             we = (struct iw_event*) &buffer[offset];

         }

         return stations;

 

         return stations;

 

     }

     else

     {

         odebug << " - no results (timeout) :(" << oendl;

         return stations;

     }

 }

 

 

 int OWirelessNetworkInterface::signalStrength() const

-{

-    int max = _range.max_qual.level;

-    odebug << "signalStrength(): max quality seems to be " << max << "dBM" << oendl;

-    return 50;

+{   

+    iw_statistics stat;

+    ::memset( &stat, 0, sizeof stat );

+    _iwr.u.data.pointer = (char*) &stat;

+    _iwr.u.data.flags = 0;

+    _iwr.u.data.length = sizeof stat;

+    

+    if ( !wioctl( SIOCGIWSTATS ) )

+    {

+        return -1;

+    }

+   

+    int max = _range.max_qual.qual;

+    int cur = stat.qual.qual;

+    int lev = stat.qual.level; //FIXME: Do something with them?

+    int noi = stat.qual.noise; //FIXME: Do something with them?

+    

+    return cur*100/max;

 }

 

 

 bool OWirelessNetworkInterface::wioctl( int call, struct iwreq& iwreq ) const

 {

     #ifndef NODEBUG

     int result = ::ioctl( _sfd, call, &iwreq );

 

     if ( result == -1 )

         odebug << "ONetworkInterface::wioctl (" << name() << ") call '"

                << debugmapper->map( call ) << "' FAILED! " << result << " (" << strerror( errno ) << ")" << oendl;

     else

         odebug << "ONetworkInterface::wioctl (" << name() << ") call '"

                << debugmapper->map( call ) << "' - Status: Ok." << oendl;

 

     return ( result != -1 );

     #else

     return ::ioctl( _sfd, call, &iwreq ) != -1;

     #endif

 }

 

 

 bool OWirelessNetworkInterface::wioctl( int call ) const

 {

     strcpy( _iwr.ifr_name, name() );

     return wioctl( call, _iwr );

 }

 

 

 /*======================================================================================

  * OMonitoringInterface

  *======================================================================================*/

 

 OMonitoringInterface::OMonitoringInterface( ONetworkInterface* iface, bool prismHeader )

                       :_if( static_cast<OWirelessNetworkInterface*>( iface ) ), _prismHeader( prismHeader )

 {

 }

 

 

 OMonitoringInterface::~OMonitoringInterface()

 {

 }

 

 

 void OMonitoringInterface::setChannel( int c )

 {

     // use standard WE channel switching protocol

     memset( &_if->_iwr, 0, sizeof( struct iwreq ) );

     _if->_iwr.u.freq.m = c;

     _if->_iwr.u.freq.e = 0;

     _if->wioctl( SIOCSIWFREQ );

 }

 

 

 void OMonitoringInterface::setEnabled( bool b )

 {

 }

 

 

 /*======================================================================================

  * OCiscoMonitoringInterface

  *======================================================================================*/

 

 OCiscoMonitoringInterface::OCiscoMonitoringInterface( ONetworkInterface* iface, bool prismHeader )

                            :OMonitoringInterface( iface, prismHeader )

 {

     iface->setMonitoring( this );

 }

 

 

 OCiscoMonitoringInterface::~OCiscoMonitoringInterface()

 {

 }

 

 

 void OCiscoMonitoringInterface::setEnabled( bool b )

 {

     QString fname;

     fname.sprintf( "/proc/driver/aironet/%s", (const char*) _if->name() );

     QFile f( fname );

     if ( !f.exists() ) return;

 

     if ( f.open( IO_WriteOnly ) )

     {

         QTextStream s( &f );

         s << "Mode: r";

         s << "Mode: y";

         s << "XmitPower: 1";

     }

 

     // flushing and closing will be done automatically when f goes out of scope

 }

 

 

 QString OCiscoMonitoringInterface::name() const

 {

     return "cisco";

 }

 

 

 void OCiscoMonitoringInterface::setChannel( int )

 {

     // cisco devices automatically switch channels when in monitor mode

 }

 

 

 /*======================================================================================

  * OWlanNGMonitoringInterface

  *======================================================================================*/

 

 

 OWlanNGMonitoringInterface::OWlanNGMonitoringInterface( ONetworkInterface* iface, bool prismHeader )

                            :OMonitoringInterface( iface, prismHeader )

 {

     iface->setMonitoring( this );

 }

 

 

 OWlanNGMonitoringInterface::~OWlanNGMonitoringInterface()

 {

 }

 

 

 void OWlanNGMonitoringInterface::setEnabled( bool b )

 {

     //FIXME: do nothing if its already in the same mode

 

     QString enable = b ? "true" : "false";

     QString prism = _prismHeader ? "true" : "false";

     QString cmd;

     cmd.sprintf( "$(which wlanctl-ng) %s lnxreq_wlansniff channel=%d enable=%s prismheader=%s",

                  (const char*) _if->name(), 1, (const char*) enable, (const char*) prism );

     system( cmd );

 }

 

 

 QString OWlanNGMonitoringInterface::name() const

 {

     return "wlan-ng";

 }

 

 

 void OWlanNGMonitoringInterface::setChannel( int c )

 {

     //NOTE: Older wlan-ng drivers automatically hopped channels while lnxreq_wlansniff=true. Newer ones don't.

 

     QString enable = "true"; //_if->monitorMode() ? "true" : "false";

     QString prism = _prismHeader ? "true" : "false";

     QString cmd;

     cmd.sprintf( "$(which wlanctl-ng) %s lnxreq_wlansniff channel=%d enable=%s prismheader=%s",

                  (const char*) _if->name(), c, (const char*) enable, (const char*) prism );

     system( cmd );

 }

 

 

 /*======================================================================================

  * OHostAPMonitoringInterface

  *======================================================================================*/

 

 OHostAPMonitoringInterface::OHostAPMonitoringInterface( ONetworkInterface* iface, bool prismHeader )

                            :OMonitoringInterface( iface, prismHeader )

 {

     iface->setMonitoring( this );

 }

 

 OHostAPMonitoringInterface::~OHostAPMonitoringInterface()

 {

 }

 

 void OHostAPMonitoringInterface::setEnabled( bool b )

 {

     int monitorCode = _prismHeader ? 1 : 2;

     if ( b )

     {

         _if->setPrivate( "monitor", 1, monitorCode );

     }

     else

     {

         _if->setPrivate( "monitor", 1, 0 );

     }

 }

 

 

 QString OHostAPMonitoringInterface::name() const

 {

     return "hostap";

 }

 

 

 /*======================================================================================

  * OOrinocoNetworkInterface

  *======================================================================================*/

 

 OOrinocoMonitoringInterface::OOrinocoMonitoringInterface( ONetworkInterface* iface, bool prismHeader )

                            :OMonitoringInterface( iface, prismHeader )

 {

     iface->setMonitoring( this );

 }

 

 

 OOrinocoMonitoringInterface::~OOrinocoMonitoringInterface()

 {

 }

 

 

 void OOrinocoMonitoringInterface::setChannel( int c )

 {

     int monitorCode = _prismHeader ? 1 : 2;

     _if->setPrivate( "monitor", 2, monitorCode, c );

 }

 

 

 void OOrinocoMonitoringInterface::setEnabled( bool b )

 {

     // IW_MODE_MONITOR was introduced in Wireless Extensions Version 15

     // Wireless Extensions < Version 15 need iwpriv commandos for monitoring

     // However, as of recent orinoco drivers, IW_MODE_MONITOR is still not supported

 

     if ( b )

     {

         setChannel( 1 );

     }

     else

     {

         _if->setPrivate( "monitor", 2, 0, 0 );

     }

 }

 

 

 QString OOrinocoMonitoringInterface::name() const

 {

     return "orinoco";

 }

diff --git a/libopie2/opienet/onetwork.h b/libopie2/opienet/onetwork.h
index 9b8a0d4..0a51108 100644
--- a/libopie2/opienet/onetwork.h
+++ b/libopie2/opienet/onetwork.h
@@ -1,545 +1,555 @@
 /*
                              This file is part of the Opie Project
                              Copyright (C) 2003-2004 by Michael 'Mickey' Lauer
               =.             <mickey@Vanille.de>
             .=l.
            .>+-=
  _;:,     .>    :=|.         This program is free software; you can
 .> <`_,   >  .   <=          redistribute it and/or  modify it under
 :`=1 )Y*s>-.--   :           the terms of the GNU Library General Public
 .="- .-=="i,     .._         License as published by the Free Software
  - .   .-<_>     .<>         Foundation; either version 2 of the License,
      ._= =}       :          or (at your option) any later version.
     .%`+i>       _;_.
     .i_,=:_.      -<s.       This program 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., 59 Temple Place - Suite 330,
                              Boston, MA 02111-1307, USA.
 
 */
 
 #ifndef ONETWORK_H
 #define ONETWORK_H
 
-#include "wireless.h"
+#if !defined( OPIE_WE_VERSION )
+#error Need to define a wireless extension version to build against!
+#endif
+
+#if OPIE_WE_VERSION == 15
+#include "wireless.15.h"
+#endif
+
+#if OPIE_WE_VERSION == 16
+#include "wireless.16.h"
+#endif
 
 /* OPIE */
 
 #include <opie2/onetutils.h>
 #include <opie2/ostation.h>
 
 /* QT */
 
 #include <qvaluelist.h>
 #include <qdict.h>
 #include <qmap.h>
 #include <qobject.h>
 #include <qhostaddress.h>
 
 class ONetworkInterface;
 class OWirelessNetworkInterface;
 class OChannelHopper;
 class OMonitoringInterface;
 
 /*======================================================================================
  * ONetwork
  *======================================================================================*/
 
 /**
  * @brief A container class for all network interfaces
  *
  * This class provides access to all available network interfaces of your computer.
  *
  * @author Michael 'Mickey' Lauer <mickey@vanille.de>
  */
 class ONetwork : public QObject
 {
   Q_OBJECT
 
   public:
     typedef QDict<ONetworkInterface> InterfaceMap;
     typedef QDictIterator<ONetworkInterface> InterfaceIterator;
 
   public:
     /**
      * @returns the number of available interfaces
      */
     int count() const;
     /**
      * @returns a pointer to the (one and only) @ref ONetwork instance.
      */
     static ONetwork* instance();
     /**
      * @returns an iterator usable for iterating through all network interfaces.
      */
     InterfaceIterator iterator() const;
     /**
      * @returns true, if the @a interface supports the wireless extension protocol.
      */
     bool isWirelessInterface( const char* interface ) const;
     /**
      * @returns a pointer to the @ref ONetworkInterface object for the specified @a interface or 0, if not found.
      * @see ONetworkInterface
      */
     ONetworkInterface* interface( const QString& interface ) const;
     /**
      * @internal Rebuild the internal interface database
      * @note Sometimes it might be useful to call this from client code,
      * e.g. after issuing a cardctl insert
      */
     void synchronize();
     /**
      * @returns the wireless extension version used at compile time.
      **/
     static short wirelessExtensionVersion();
 
   protected:
     ONetwork();
 
   private:
     static ONetwork* _instance;
     InterfaceMap _interfaces;
 };
 
 
 /*======================================================================================
  * ONetworkInterface
  *======================================================================================*/
 
 /**
  * @brief A network interface wrapper.
  *
  * This class provides a wrapper for a network interface. All the cumbersume details of
  * Linux ioctls are hidden under a convenient high-level interface.
  * @warning Most of the setting methods contained in this class require the appropriate
  * process permissions to work.
  *
  * @author Michael 'Mickey' Lauer <mickey@vanille.de>
  */
 class ONetworkInterface : public QObject
 {
     friend class OMonitoringInterface;
     friend class OCiscoMonitoringInterface;
     friend class OWlanNGMonitoringInterface;
     friend class OHostAPMonitoringInterface;
     friend class OOrinocoMonitoringInterface;
 
   public:
     /**
      * Constructor. Normally you don't create @ref ONetworkInterface objects yourself,
      * but access them via @ref ONetwork::interface().
      */
     ONetworkInterface( QObject* parent, const char* name );
     /**
      * Destructor.
      */
     virtual ~ONetworkInterface();
     /**
      * Associates a @a monitoring interface with this network interface.
      * @note This is currently only useful with @ref OWirelessNetworkInterface objects.
      */
     void setMonitoring( OMonitoringInterface* monitoring );
     /**
      * @returns the currently associated monitoring interface or 0, if no monitoring is associated.
      */
     OMonitoringInterface* monitoring() const;
     /**
      * Setting an interface to promiscuous mode enables the device to receive
      * all packets on the shared medium - as opposed to packets which are addressed to this interface.
      */
     bool setPromiscuousMode( bool );
     /**
      * @returns true if the interface is set to promiscuous mode.
      */
     bool promiscuousMode() const;
     /**
      * Setting an interface to up enables it to receive packets.
      */
     bool setUp( bool );
     /**
      * @returns true if the interface is up.
      */
     bool isUp() const;
     /**
      * @returns true if the interface is a loopback interface.
      */
     bool isLoopback() const;
     /**
      * @returns true if the interface is featuring supports the wireless extension protocol.
      */
     bool isWireless() const;
     /**
      * Associate the IP address @ addr with the interface.
      */
     void setIPV4Address( const QHostAddress& addr );
     /**
      * @returns the IPv4 address associated with the interface.
      */
     QString ipV4Address() const; //TODO: make this return an OHostAddress
     /**
      * Associate the MAC address @a addr with the interface.
      * @note It can be necessary to shut down the interface prior to calling this method.
      * @warning This is not supported by all drivers.
      */
     void setMacAddress( const OMacAddress& addr );
     /**
      * @returns the MAC address associated with the interface.
      */
     OMacAddress macAddress() const;
     /**
      * Associate the IPv4 @a netmask with the interface.
      */
     void setIPV4Netmask( const QHostAddress& netmask );
     /**
      * @returns the IPv4 netmask associated with the interface.
      */
     QString ipV4Netmask() const; //TODO: make this return an OHostAddress
     /**
      * @returns the data link type currently associated with the interface.
      * @see #include <net/if_arp.h> for possible values.
      */
     int dataLinkType() const;
 
   protected:
     const int _sfd;
     mutable ifreq _ifr;
     OMonitoringInterface* _mon;
 
   protected:
     struct ifreq& ifr() const;
     virtual void init();
     bool ioctl( int call ) const;
     bool ioctl( int call, struct ifreq& ) const;
 };
 
 /*======================================================================================
  * OChannelHopper
  *======================================================================================*/
 
 /**
  * @brief A radio frequency channel hopper.
  *
  * This class provides a channel hopper for radio frequencies. A channel hopper frequently
  * changes the radio frequency channel of its associated @ref OWirelessNetworkInterface.
  * This is necessary when in monitoring mode and scanning for other devices, because
  * the radio frequency hardware can only detect packets sent on the same frequency.
  *
  * @author Michael 'Mickey' Lauer <mickey@vanille.de>
  */
 class OChannelHopper : public QObject
 {
   Q_OBJECT
 
   public:
     /**
      * Constructor.
      */
     OChannelHopper( OWirelessNetworkInterface* );
     /**
      * Destructor.
      */
     virtual ~OChannelHopper();
     /**
      * @returns true, if the channel hopper is hopping channels
      */
     bool isActive() const;
     /**
      * @returns the last hopped channel
      */
     int channel() const;
     /**
      * Set the channel hopping @a interval.
      * An interval of 0 deactivates the channel hopper.
      */
     void setInterval( int interval );
     /**
      * @returns the channel hopping interval
      */
     int interval() const;
 
   signals:
     /**
      * This signal is emitted right after the channel hopper performed a hop
      */
     void hopped( int );
 
   protected:
     virtual void timerEvent( QTimerEvent* );
 
   private:
     OWirelessNetworkInterface* _iface;
     int _interval;
     int _tid;
     QValueList<int> _channels;
     QValueList<int>::Iterator _channel;
 };
 
 
 /*======================================================================================
  * OWirelessNetworkInterface
  *======================================================================================*/
 
 /**
  * @brief A network interface wrapper for interfaces supporting the wireless extensions protocol.
  *
  * This class provides a high-level encapsulation of the Linux wireless extension API.
  *
  * @author Michael 'Mickey' Lauer <mickey@vanille.de>
  */
 class OWirelessNetworkInterface : public ONetworkInterface
 {
     friend class OMonitoringInterface;
     friend class OCiscoMonitoringInterface;
     friend class OWlanNGMonitoringInterface;
     friend class OHostAPMonitoringInterface;
     friend class OOrinocoMonitoringInterface;
 
     friend class OPrivateIOCTL;
 
   public:
     /**
      * Constructor.
      */
     OWirelessNetworkInterface( QObject* parent, const char* name );
     /**
      * Destructor.
      */
     virtual ~OWirelessNetworkInterface();
     /**
      * Setting the @a channel of the interface changes the radio frequency (RF)
      * of the corresponding wireless network device.
      * @note Common channel range is within [1-14]. A value of 0 is not allowed.
      * @see channels()
      */
     virtual void setChannel( int channel ) const;
     /**
      * @returns the channel index of the current radio frequency.
      */
     virtual int channel() const;
     /**
      * @returns the current radio frequency (in MHz).
      */
     virtual double frequency() const;
     /**
      * @returns the number of radio frequency channels for the
      * corresponding wireless network device.
      * @note European devices usually have 14 channels, while American typically feature 11 channels.
      */
     virtual int channels() const;
     /**
      * Set the IEEE 802.11 operation @a mode.
      * Valid values are <ul><li>adhoc<li>managed<li>monitor<li>master
      * @warning Not all drivers support the all modes.
      * @note You might have to change the SSID to get the operation mode change into effect.
      */
     virtual void setMode( const QString& mode );
     /**
      * @returns the current IEEE 802.11 operation mode.
      * Possible values are <ul><li>adhoc<li>managed<li>monitor<li>master or <li>unknown
      *
      * @note: Important note concerning the 'monitor' mode:
      * Setting the monitor mode on a wireless network interface enables
      * listening to IEEE 802.11 data and management frames which normally
      * are handled by the device firmware. This can be used to detect
      * other wireless network devices, e.g. Access Points or Ad-hoc stations.
      * @warning Standard wireless network drives don't support the monitor mode.
      * @warning You need a patched driver for this to work.
      * @note Enabling the monitor mode is highly driver dependent and requires
      * the proper @ref OMonitoringInterface to be associated with the interface.
      * @see OMonitoringInterface
      */
     virtual QString mode() const;
     /**
      * Set the channel hopping @a interval. An @a interval of 0 disables channel hopping.
      * @see OChannelHopper
      */
     virtual void setChannelHopping( int interval = 0 );
     /**
      * @returns the channel hopping interval or 0, if channel hopping is disabled.
      */
     virtual int channelHopping() const;
     /**
      * @returns the @ref OChannelHopper of this interface or 0, if channel hopping has not been activated before
      */
     virtual OChannelHopper* channelHopper() const;
     /**
      * Set the station @a nickname.
      */
     virtual void setNickName( const QString& nickname );
     /**
      * @returns the current station nickname.
      */
     virtual QString nickName() const;
     /**
      * Invoke the private IOCTL @a command with a @number of parameters on the network interface.
      * @see OPrivateIOCTL
      */
     virtual void setPrivate( const QString& command, int number, ... );
     /**
      * @returns true if the interface is featuring the private IOCTL @command.
      */
     virtual bool hasPrivate( const QString& command );
     virtual void getPrivate( const QString& command ); //FIXME: Implement and document this
     /**
      * @returns true if the interface is associated to an access point
      * @note: This information is only valid if the interface is in managed mode.
      */
     virtual bool isAssociated() const;
     /**
      * @returns the MAC address of the Access Point if the device is in infrastructure mode.
      * @returns a (more or less random) cell ID address if the device is in adhoc mode.
      */
     virtual OMacAddress associatedAP() const;
     /**
      * Set the @a ssid (Service Set ID) string. This is used to decide
      * which network to associate with (use "any" to let the driver decide).
      */
     virtual void setSSID( const QString& ssid );
     /**
      * @returns the current SSID (Service Set ID).
      */
     virtual QString SSID() const;
     /**
      * Perform scanning the wireless network neighbourhood.
      * @note: UNSTABLE API - UNDER CONSTRUCTION - DON'T USE!
      */
     virtual OStationList* scanNetwork();
     /**
      * @return signal strength to associated neighbour (in percent).
      * In infrastructure mode, this is the signal strength of the Access Point.
      * In other modes the result is driver dependent.
      */
     virtual int signalStrength() const;
     /** @internal commit pending changes to the driver
      *
      */
     void commit() const;
 
   protected:
     void buildInformation();
     void buildPrivateList();
     void dumpInformation() const;
     virtual void init();
     struct iwreq& iwr() const;
     bool wioctl( int call ) const;
     bool wioctl( int call, struct iwreq& ) const;
 
   protected:
     mutable struct iwreq _iwr;
     QMap<int,int> _channels;
     struct iw_range _range;
 
   private:
     OChannelHopper* _hopper;
 };
 
 
 /*======================================================================================
  * OMonitoringInterface
  *======================================================================================*/
 
 
 class OMonitoringInterface
 {
   public:
     OMonitoringInterface();
     OMonitoringInterface( ONetworkInterface*, bool _prismHeader );
     virtual ~OMonitoringInterface();
 
   public:
     virtual void setEnabled( bool );
     virtual void setChannel( int );
 
     virtual QString name() const = 0;
 
   protected:
     OWirelessNetworkInterface* _if;
     bool _prismHeader;
 
 };
 
 
 /*======================================================================================
  * OCiscoMonitoring
  *======================================================================================*/
 
 
 class OCiscoMonitoringInterface : public OMonitoringInterface
 {
   public:
     OCiscoMonitoringInterface( ONetworkInterface*, bool _prismHeader );
     virtual ~OCiscoMonitoringInterface();
 
     virtual void setEnabled( bool );
     virtual QString name() const;
     virtual void setChannel( int );
 
 };
 
 
 /*======================================================================================
  * OWlanNGMonitoringInterface
  *======================================================================================*/
 
 
 class OWlanNGMonitoringInterface : public OMonitoringInterface
 {
   public:
     OWlanNGMonitoringInterface( ONetworkInterface*, bool _prismHeader );
     virtual ~OWlanNGMonitoringInterface();
 
   public:
     virtual void setEnabled( bool );
     virtual QString name() const;
     virtual void setChannel( int );
 
 };
 
 
 /*======================================================================================
  * OHostAPMonitoringInterface
  *======================================================================================*/
 
 
 class OHostAPMonitoringInterface : public OMonitoringInterface
 {
   public:
     OHostAPMonitoringInterface( ONetworkInterface*, bool _prismHeader );
     virtual ~OHostAPMonitoringInterface();
 
   public:
     virtual void setEnabled( bool );
     virtual QString name() const;
  };
 
 
 /*======================================================================================
  * OOrinocoMonitoringInterface
  *======================================================================================*/
 
 
 class OOrinocoMonitoringInterface : public OMonitoringInterface
 {
   public:
     OOrinocoMonitoringInterface( ONetworkInterface*, bool _prismHeader );
     virtual ~OOrinocoMonitoringInterface();
 
    public:
     virtual void setChannel( int );
     virtual void setEnabled( bool );
     virtual QString name() const;
 
 };
 
 #endif // ONETWORK_H
 
diff --git a/libopie2/opienet/opienet.pro b/libopie2/opienet/opienet.pro
index cab6da6..97bcf31 100644
--- a/libopie2/opienet/opienet.pro
+++ b/libopie2/opienet/opienet.pro
@@ -1,34 +1,36 @@
 TEMPLATE    = lib
 CONFIG      += qt warn_on debug
 DESTDIR     = $(OPIEDIR)/lib
 HEADERS     = 802_11_user.h       \
               dhcp.h              \
               udp_ports.h         \
-              wireless.h          \
+              wireless.15.h       \
+              wireless.16.h       \
               odebugmapper.h      \
               omanufacturerdb.h   \
               onetutils.h         \
               onetwork.h          \
               opcap.h             \
               ostation.h
-SOURCES     = odebugmapper.cpp       \
+SOURCES     = odebugmapper.cpp    \
               omanufacturerdb.cpp \
               onetutils.cpp       \
               onetwork.cpp        \
               opcap.cpp           \
               ostation.cpp
 INTERFACES  =
 TARGET      = opienet2
 VERSION     = 1.8.3
 INCLUDEPATH += $(OPIEDIR)/include
 DEPENDPATH  += $(OPIEDIR)/include
 LIBS        += -lpcap
 
 
 !contains( platform, x11 ) {
   include ( $(OPIEDIR)/include.pro )
 }
 
 contains( platform, x11 ) {
   LIBS        += -L$(OPIEDIR)/lib -Wl,-rpath,$(OPIEDIR)/lib 
 }
+
diff --git a/libopie2/opienet/wireless.h b/libopie2/opienet/wireless.15.h
index 8135e97..8135e97 100644
--- a/libopie2/opienet/wireless.h
+++ b/libopie2/opienet/wireless.15.h
diff --git a/libopie2/opienet/wireless.h b/libopie2/opienet/wireless.16.h
index 8135e97..9a9accd 100644
--- a/libopie2/opienet/wireless.h
+++ b/libopie2/opienet/wireless.16.h
@@ -1,705 +1,740 @@
 /*
  * This file define a set of standard wireless extensions
  *
- * Version :	15	12.7.02
+ * Version :	16	2.4.03
  *
  * Authors :	Jean Tourrilhes - HPL - <jt@hpl.hp.com>
  * Copyright (c) 1997-2002 Jean Tourrilhes, All Rights Reserved.
  */
 
 #ifndef _LINUX_WIRELESS_H
 #define _LINUX_WIRELESS_H
 
 /************************** DOCUMENTATION **************************/
 /*
  * Initial APIs (1996 -> onward) :
  * -----------------------------
  * Basically, the wireless extensions are for now a set of standard ioctl
  * call + /proc/net/wireless
  *
  * The entry /proc/net/wireless give statistics and information on the
  * driver.
  * This is better than having each driver having its entry because
  * its centralised and we may remove the driver module safely.
  *
  * Ioctl are used to configure the driver and issue commands.  This is
  * better than command line options of insmod because we may want to
  * change dynamically (while the driver is running) some parameters.
  *
  * The ioctl mechanimsm are copied from standard devices ioctl.
  * We have the list of command plus a structure descibing the
  * data exchanged...
  * Note that to add these ioctl, I was obliged to modify :
  *	# net/core/dev.c (two place + add include)
  *	# net/ipv4/af_inet.c (one place + add include)
  *
  * /proc/net/wireless is a copy of /proc/net/dev.
  * We have a structure for data passed from the driver to /proc/net/wireless
  * Too add this, I've modified :
  *	# net/core/dev.c (two other places)
  *	# include/linux/netdevice.h (one place)
  *	# include/linux/proc_fs.h (one place)
  *
  * New driver API (2002 -> onward) :
  * -------------------------------
  * This file is only concerned with the user space API and common definitions.
  * The new driver API is defined and documented in :
  *	# include/net/iw_handler.h
  *
  * Note as well that /proc/net/wireless implementation has now moved in :
  *	# include/linux/wireless.c
  *
  * Wireless Events (2002 -> onward) :
  * --------------------------------
  * Events are defined at the end of this file, and implemented in :
  *	# include/linux/wireless.c
  *
  * Other comments :
  * --------------
  * Do not add here things that are redundant with other mechanisms
  * (drivers init, ifconfig, /proc/net/dev, ...) and with are not
  * wireless specific.
  *
  * These wireless extensions are not magic : each driver has to provide
  * support for them...
  *
  * IMPORTANT NOTE : As everything in the kernel, this is very much a
  * work in progress. Contact me if you have ideas of improvements...
  */
 
 /***************************** INCLUDES *****************************/
 
+/* To minimise problems in user space, I might remove those headers
+ * at some point. Jean II */
 #include <sys/types.h>
 #include <net/if.h>
 #include <linux/types.h>
 
 #ifndef IFNAMSIZ
 #define IFNAMSIZ 16
 #endif
 #ifndef IW_MAX_PRIV_DEF
 #define IW_MAX_PRIV_DEF        128
 #endif
 
 /***************************** VERSION *****************************/
 /*
  * This constant is used to know the availability of the wireless
  * extensions and to know which version of wireless extensions it is
  * (there is some stuff that will be added in the future...)
  * I just plan to increment with each new version.
  */
-#define WIRELESS_EXT	15
+#define WIRELESS_EXT	16
 
 /*
  * Changes :
  *
  * V2 to V3
  * --------
  *	Alan Cox start some incompatibles changes. I've integrated a bit more.
  *	- Encryption renamed to Encode to avoid US regulation problems
  *	- Frequency changed from float to struct to avoid problems on old 386
  *
  * V3 to V4
  * --------
  *	- Add sensitivity
  *
  * V4 to V5
  * --------
  *	- Missing encoding definitions in range
  *	- Access points stuff
  *
  * V5 to V6
  * --------
  *	- 802.11 support (ESSID ioctls)
  *
  * V6 to V7
  * --------
  *	- define IW_ESSID_MAX_SIZE and IW_MAX_AP
  *
  * V7 to V8
  * --------
  *	- Changed my e-mail address
  *	- More 802.11 support (nickname, rate, rts, frag)
  *	- List index in frequencies
  *
  * V8 to V9
  * --------
  *	- Support for 'mode of operation' (ad-hoc, managed...)
  *	- Support for unicast and multicast power saving
  *	- Change encoding to support larger tokens (>64 bits)
  *	- Updated iw_params (disable, flags) and use it for NWID
  *	- Extracted iw_point from iwreq for clarity
  *
  * V9 to V10
  * ---------
  *	- Add PM capability to range structure
  *	- Add PM modifier : MAX/MIN/RELATIVE
  *	- Add encoding option : IW_ENCODE_NOKEY
  *	- Add TxPower ioctls (work like TxRate)
  *
  * V10 to V11
  * ----------
  *	- Add WE version in range (help backward/forward compatibility)
  *	- Add retry ioctls (work like PM)
  *
  * V11 to V12
  * ----------
  *	- Add SIOCSIWSTATS to get /proc/net/wireless programatically
  *	- Add DEV PRIVATE IOCTL to avoid collisions in SIOCDEVPRIVATE space
  *	- Add new statistics (frag, retry, beacon)
  *	- Add average quality (for user space calibration)
  *
  * V12 to V13
  * ----------
  *	- Document creation of new driver API.
  *	- Extract union iwreq_data from struct iwreq (for new driver API).
  *	- Rename SIOCSIWNAME as SIOCSIWCOMMIT
  *
  * V13 to V14
  * ----------
  *	- Wireless Events support : define struct iw_event
  *	- Define additional specific event numbers
  *	- Add "addr" and "param" fields in union iwreq_data
  *	- AP scanning stuff (SIOCSIWSCAN and friends)
  *
  * V14 to V15
  * ----------
  *	- Add IW_PRIV_TYPE_ADDR for struct sockaddr private arg
  *	- Make struct iw_freq signed (both m & e), add explicit padding
  *	- Add IWEVCUSTOM for driver specific event/scanning token
  *	- Add IW_MAX_GET_SPY for driver returning a lot of addresses
  *	- Add IW_TXPOW_RANGE for range of Tx Powers
  *	- Add IWEVREGISTERED & IWEVEXPIRED events for Access Points
  *	- Add IW_MODE_MONITOR for passive monitor
+ *
+ * V15 to V16
+ * ----------
+ *	- Increase the number of bitrates in iw_range to 32 (for 802.11g)
+ *	- Increase the number of frequencies in iw_range to 32 (for 802.11b+a)
+ *	- Reshuffle struct iw_range for increases, add filler
+ *	- Increase IW_MAX_AP to 64 for driver returning a lot of addresses
+ *	- Remove IW_MAX_GET_SPY because conflict with enhanced spy support
+ *	- Add SIOCSIWTHRSPY/SIOCGIWTHRSPY and "struct iw_thrspy"
+ *	- Add IW_ENCODE_TEMP and iw_range->encoding_login_index
  */
 
 /**************************** CONSTANTS ****************************/
 
 /* -------------------------- IOCTL LIST -------------------------- */
 
 /* Wireless Identification */
 #define SIOCSIWCOMMIT	0x8B00		/* Commit pending changes to driver */
 #define SIOCGIWNAME	0x8B01		/* get name == wireless protocol */
 /* SIOCGIWNAME is used to verify the presence of Wireless Extensions.
  * Common values : "IEEE 802.11-DS", "IEEE 802.11-FH", "IEEE 802.11b"...
  * Don't put the name of your driver there, it's useless. */
 
 /* Basic operations */
 #define SIOCSIWNWID	0x8B02		/* set network id (pre-802.11) */
 #define SIOCGIWNWID	0x8B03		/* get network id (the cell) */
 #define SIOCSIWFREQ	0x8B04		/* set channel/frequency (Hz) */
 #define SIOCGIWFREQ	0x8B05		/* get channel/frequency (Hz) */
 #define SIOCSIWMODE	0x8B06		/* set operation mode */
 #define SIOCGIWMODE	0x8B07		/* get operation mode */
 #define SIOCSIWSENS	0x8B08		/* set sensitivity (dBm) */
 #define SIOCGIWSENS	0x8B09		/* get sensitivity (dBm) */
 
 /* Informative stuff */
 #define SIOCSIWRANGE	0x8B0A		/* Unused */
 #define SIOCGIWRANGE	0x8B0B		/* Get range of parameters */
 #define SIOCSIWPRIV	0x8B0C		/* Unused */
 #define SIOCGIWPRIV	0x8B0D		/* get private ioctl interface info */
 #define SIOCSIWSTATS	0x8B0E		/* Unused */
 #define SIOCGIWSTATS	0x8B0F		/* Get /proc/net/wireless stats */
 /* SIOCGIWSTATS is strictly used between user space and the kernel, and
  * is never passed to the driver (i.e. the driver will never see it). */
 
-/* Mobile IP support (statistics per MAC address) */
+/* Spy support (statistics per MAC address - used for Mobile IP support) */
 #define SIOCSIWSPY	0x8B10		/* set spy addresses */
 #define SIOCGIWSPY	0x8B11		/* get spy info (quality of link) */
+#define SIOCSIWTHRSPY	0x8B12		/* set spy threshold (spy event) */
+#define SIOCGIWTHRSPY	0x8B13		/* get spy threshold */
 
 /* Access Point manipulation */
 #define SIOCSIWAP	0x8B14		/* set access point MAC addresses */
 #define SIOCGIWAP	0x8B15		/* get access point MAC addresses */
 #define SIOCGIWAPLIST	0x8B17		/* Deprecated in favor of scanning */
 #define SIOCSIWSCAN	0x8B18		/* trigger scanning (list cells) */
 #define SIOCGIWSCAN	0x8B19		/* get scanning results */
 
 /* 802.11 specific support */
 #define SIOCSIWESSID	0x8B1A		/* set ESSID (network name) */
 #define SIOCGIWESSID	0x8B1B		/* get ESSID */
 #define SIOCSIWNICKN	0x8B1C		/* set node name/nickname */
 #define SIOCGIWNICKN	0x8B1D		/* get node name/nickname */
 /* As the ESSID and NICKN are strings up to 32 bytes long, it doesn't fit
  * within the 'iwreq' structure, so we need to use the 'data' member to
  * point to a string in user space, like it is done for RANGE... */
 
 /* Other parameters useful in 802.11 and some other devices */
 #define SIOCSIWRATE	0x8B20		/* set default bit rate (bps) */
 #define SIOCGIWRATE	0x8B21		/* get default bit rate (bps) */
 #define SIOCSIWRTS	0x8B22		/* set RTS/CTS threshold (bytes) */
 #define SIOCGIWRTS	0x8B23		/* get RTS/CTS threshold (bytes) */
 #define SIOCSIWFRAG	0x8B24		/* set fragmentation thr (bytes) */
 #define SIOCGIWFRAG	0x8B25		/* get fragmentation thr (bytes) */
 #define SIOCSIWTXPOW	0x8B26		/* set transmit power (dBm) */
 #define SIOCGIWTXPOW	0x8B27		/* get transmit power (dBm) */
 #define SIOCSIWRETRY	0x8B28		/* set retry limits and lifetime */
 #define SIOCGIWRETRY	0x8B29		/* get retry limits and lifetime */
 
 /* Encoding stuff (scrambling, hardware security, WEP...) */
 #define SIOCSIWENCODE	0x8B2A		/* set encoding token & mode */
 #define SIOCGIWENCODE	0x8B2B		/* get encoding token & mode */
 /* Power saving stuff (power management, unicast and multicast) */
 #define SIOCSIWPOWER	0x8B2C		/* set Power Management settings */
 #define SIOCGIWPOWER	0x8B2D		/* get Power Management settings */
 
 /* -------------------- DEV PRIVATE IOCTL LIST -------------------- */
 
 /* These 16 ioctl are wireless device private.
  * Each driver is free to use them for whatever purpose it chooses,
  * however the driver *must* export the description of those ioctls
  * with SIOCGIWPRIV and *must* use arguments as defined below.
  * If you don't follow those rules, DaveM is going to hate you (reason :
  * it make mixed 32/64bit operation impossible).
  */
 #define SIOCIWFIRSTPRIV	0x8BE0
 #define SIOCIWLASTPRIV	0x8BFF
 /* Previously, we were using SIOCDEVPRIVATE, but we now have our
  * separate range because of collisions with other tools such as
  * 'mii-tool'.
  * We now have 32 commands, so a bit more space ;-).
  * Also, all 'odd' commands are only usable by root and don't return the
  * content of ifr/iwr to user (but you are not obliged to use the set/get
  * convention, just use every other two command).
  * And I repeat : you are not obliged to use them with iwspy, but you
  * must be compliant with it.
  */
 
 /* ------------------------- IOCTL STUFF ------------------------- */
 
 /* The first and the last (range) */
 #define SIOCIWFIRST	0x8B00
 #define SIOCIWLAST	SIOCIWLASTPRIV		/* 0x8BFF */
 
 /* Even : get (world access), odd : set (root access) */
 #define IW_IS_SET(cmd)	(!((cmd) & 0x1))
 #define IW_IS_GET(cmd)	((cmd) & 0x1)
 
 /* ----------------------- WIRELESS EVENTS ----------------------- */
 /* Those are *NOT* ioctls, do not issue request on them !!! */
 /* Most events use the same identifier as ioctl requests */
 
 #define IWEVTXDROP	0x8C00		/* Packet dropped to excessive retry */
 #define IWEVQUAL	0x8C01		/* Quality part of statistics (scan) */
 #define IWEVCUSTOM	0x8C02		/* Driver specific ascii string */
 #define IWEVREGISTERED	0x8C03		/* Discovered a new node (AP mode) */
 #define IWEVEXPIRED	0x8C04		/* Expired a node (AP mode) */
 
 #define IWEVFIRST	0x8C00
 
 /* ------------------------- PRIVATE INFO ------------------------- */
 /*
  * The following is used with SIOCGIWPRIV. It allow a driver to define
  * the interface (name, type of data) for its private ioctl.
  * Privates ioctl are SIOCIWFIRSTPRIV -> SIOCIWLASTPRIV
  */
 
 #define IW_PRIV_TYPE_MASK	0x7000	/* Type of arguments */
 #define IW_PRIV_TYPE_NONE	0x0000
 #define IW_PRIV_TYPE_BYTE	0x1000	/* Char as number */
 #define IW_PRIV_TYPE_CHAR	0x2000	/* Char as character */
 #define IW_PRIV_TYPE_INT	0x4000	/* 32 bits int */
 #define IW_PRIV_TYPE_FLOAT	0x5000	/* struct iw_freq */
 #define IW_PRIV_TYPE_ADDR	0x6000	/* struct sockaddr */
 
-#define IW_PRIV_SIZE_FIXED	0x0800	/* Variable or fixed nuber of args */
+#define IW_PRIV_SIZE_FIXED	0x0800	/* Variable or fixed number of args */
 
 #define IW_PRIV_SIZE_MASK	0x07FF	/* Max number of those args */
 
 /*
  * Note : if the number of args is fixed and the size < 16 octets,
  * instead of passing a pointer we will put args in the iwreq struct...
  */
 
 /* ----------------------- OTHER CONSTANTS ----------------------- */
 
 /* Maximum frequencies in the range struct */
-#define IW_MAX_FREQUENCIES	16
+#define IW_MAX_FREQUENCIES	32
 /* Note : if you have something like 80 frequencies,
  * don't increase this constant and don't fill the frequency list.
  * The user will be able to set by channel anyway... */
 
 /* Maximum bit rates in the range struct */
-#define IW_MAX_BITRATES		8
+#define IW_MAX_BITRATES		32
 
 /* Maximum tx powers in the range struct */
 #define IW_MAX_TXPOWER		8
 /* Note : if you more than 8 TXPowers, just set the max and min or
  * a few of them in the struct iw_range. */
 
 /* Maximum of address that you may set with SPY */
-#define IW_MAX_SPY		8	/* set */
-#define IW_MAX_GET_SPY		64	/* get */
+#define IW_MAX_SPY		8
 
 /* Maximum of address that you may get in the
    list of access points in range */
 #define IW_MAX_AP		64
 
 /* Maximum size of the ESSID and NICKN strings */
 #define IW_ESSID_MAX_SIZE	32
 
 /* Modes of operation */
 #define IW_MODE_AUTO	0	/* Let the driver decides */
 #define IW_MODE_ADHOC	1	/* Single cell network */
 #define IW_MODE_INFRA	2	/* Multi cell network, roaming, ... */
 #define IW_MODE_MASTER	3	/* Synchronisation master or Access Point */
 #define IW_MODE_REPEAT	4	/* Wireless Repeater (forwarder) */
 #define IW_MODE_SECOND	5	/* Secondary master/repeater (backup) */
 #define IW_MODE_MONITOR	6	/* Passive monitor (listen only) */
 
 /* Maximum number of size of encoding token available
  * they are listed in the range structure */
 #define IW_MAX_ENCODING_SIZES	8
 
 /* Maximum size of the encoding token in bytes */
 #define IW_ENCODING_TOKEN_MAX	32	/* 256 bits (for now) */
 
 /* Flags for encoding (along with the token) */
 #define IW_ENCODE_INDEX		0x00FF	/* Token index (if needed) */
 #define IW_ENCODE_FLAGS		0xFF00	/* Flags defined below */
 #define IW_ENCODE_MODE		0xF000	/* Modes defined below */
 #define IW_ENCODE_DISABLED	0x8000	/* Encoding disabled */
 #define IW_ENCODE_ENABLED	0x0000	/* Encoding enabled */
 #define IW_ENCODE_RESTRICTED	0x4000	/* Refuse non-encoded packets */
 #define IW_ENCODE_OPEN		0x2000	/* Accept non-encoded packets */
-#define IW_ENCODE_NOKEY         0x0800  /* Key is write only, so not present */
+#define IW_ENCODE_NOKEY		0x0800  /* Key is write only, so not present */
+#define IW_ENCODE_TEMP		0x0400  /* Temporary key */
 
 /* Power management flags available (along with the value, if any) */
 #define IW_POWER_ON		0x0000	/* No details... */
 #define IW_POWER_TYPE		0xF000	/* Type of parameter */
 #define IW_POWER_PERIOD		0x1000	/* Value is a period/duration of  */
 #define IW_POWER_TIMEOUT	0x2000	/* Value is a timeout (to go asleep) */
 #define IW_POWER_MODE		0x0F00	/* Power Management mode */
 #define IW_POWER_UNICAST_R	0x0100	/* Receive only unicast messages */
 #define IW_POWER_MULTICAST_R	0x0200	/* Receive only multicast messages */
 #define IW_POWER_ALL_R		0x0300	/* Receive all messages though PM */
 #define IW_POWER_FORCE_S	0x0400	/* Force PM procedure for sending unicast */
 #define IW_POWER_REPEATER	0x0800	/* Repeat broadcast messages in PM period */
 #define IW_POWER_MODIFIER	0x000F	/* Modify a parameter */
 #define IW_POWER_MIN		0x0001	/* Value is a minimum  */
 #define IW_POWER_MAX		0x0002	/* Value is a maximum */
 #define IW_POWER_RELATIVE	0x0004	/* Value is not in seconds/ms/us */
 
 /* Transmit Power flags available */
 #define IW_TXPOW_TYPE		0x00FF	/* Type of value */
 #define IW_TXPOW_DBM		0x0000	/* Value is in dBm */
 #define IW_TXPOW_MWATT		0x0001	/* Value is in mW */
 #define IW_TXPOW_RANGE		0x1000	/* Range of value between min/max */
 
 /* Retry limits and lifetime flags available */
 #define IW_RETRY_ON		0x0000	/* No details... */
 #define IW_RETRY_TYPE		0xF000	/* Type of parameter */
 #define IW_RETRY_LIMIT		0x1000	/* Maximum number of retries*/
 #define IW_RETRY_LIFETIME	0x2000	/* Maximum duration of retries in us */
 #define IW_RETRY_MODIFIER	0x000F	/* Modify a parameter */
 #define IW_RETRY_MIN		0x0001	/* Value is a minimum  */
 #define IW_RETRY_MAX		0x0002	/* Value is a maximum */
 #define IW_RETRY_RELATIVE	0x0004	/* Value is not in seconds/ms/us */
 
 /* Scanning request flags */
 #define IW_SCAN_DEFAULT		0x0000	/* Default scan of the driver */
 #define IW_SCAN_ALL_ESSID	0x0001	/* Scan all ESSIDs */
 #define IW_SCAN_THIS_ESSID	0x0002	/* Scan only this ESSID */
 #define IW_SCAN_ALL_FREQ	0x0004	/* Scan all Frequencies */
 #define IW_SCAN_THIS_FREQ	0x0008	/* Scan only this Frequency */
 #define IW_SCAN_ALL_MODE	0x0010	/* Scan all Modes */
 #define IW_SCAN_THIS_MODE	0x0020	/* Scan only this Mode */
 #define IW_SCAN_ALL_RATE	0x0040	/* Scan all Bit-Rates */
 #define IW_SCAN_THIS_RATE	0x0080	/* Scan only this Bit-Rate */
 /* Maximum size of returned data */
 #define IW_SCAN_MAX_DATA	4096	/* In bytes */
 
 /* Max number of char in custom event - use multiple of them if needed */
 #define IW_CUSTOM_MAX		256	/* In bytes */
 
 /****************************** TYPES ******************************/
 
 /* --------------------------- SUBTYPES --------------------------- */
 /*
  *	Generic format for most parameters that fit in an int
  */
 struct	iw_param
 {
   __s32		value;		/* The value of the parameter itself */
   __u8		fixed;		/* Hardware should not use auto select */
   __u8		disabled;	/* Disable the feature */
   __u16		flags;		/* Various specifc flags (if any) */
 };
 
 /*
  *	For all data larger than 16 octets, we need to use a
  *	pointer to memory allocated in user space.
  */
 struct	iw_point
 {
   caddr_t	pointer;	/* Pointer to the data  (in user space) */
   __u16		length;		/* number of fields or size in bytes */
   __u16		flags;		/* Optional params */
 };
 
 /*
  *	A frequency
  *	For numbers lower than 10^9, we encode the number in 'm' and
  *	set 'e' to 0
  *	For number greater than 10^9, we divide it by the lowest power
  *	of 10 to get 'm' lower than 10^9, with 'm'= f / (10^'e')...
  *	The power of 10 is in 'e', the result of the division is in 'm'.
  */
 struct	iw_freq
 {
 	__s32		m;		/* Mantissa */
 	__s16		e;		/* Exponent */
 	__u8		i;		/* List index (when in range struct) */
 	__u8		pad;		/* Unused - just for alignement */
 };
 
 /*
  *	Quality of the link
  */
 struct	iw_quality
 {
 	__u8		qual;		/* link quality (%retries, SNR,
 					   %missed beacons or better...) */
 	__u8		level;		/* signal level (dBm) */
 	__u8		noise;		/* noise level (dBm) */
 	__u8		updated;	/* Flags to know if updated */
 };
 
 /*
  *	Packet discarded in the wireless adapter due to
  *	"wireless" specific problems...
  *	Note : the list of counter and statistics in net_device_stats
  *	is already pretty exhaustive, and you should use that first.
  *	This is only additional stats...
  */
 struct	iw_discarded
 {
 	__u32		nwid;		/* Rx : Wrong nwid/essid */
 	__u32		code;		/* Rx : Unable to code/decode (WEP) */
 	__u32		fragment;	/* Rx : Can't perform MAC reassembly */
 	__u32		retries;	/* Tx : Max MAC retries num reached */
 	__u32		misc;		/* Others cases */
 };
 
 /*
  *	Packet/Time period missed in the wireless adapter due to
  *	"wireless" specific problems...
  */
 struct	iw_missed
 {
 	__u32		beacon;		/* Missed beacons/superframe */
 };
 
+/*
+ *	Quality range (for spy threshold)
+ */
+struct	iw_thrspy
+{
+	struct sockaddr		addr;		/* Source address (hw/mac) */
+	struct iw_quality	qual;		/* Quality of the link */
+	struct iw_quality	low;		/* Low threshold */
+	struct iw_quality	high;		/* High threshold */
+};
+
 /* ------------------------ WIRELESS STATS ------------------------ */
 /*
  * Wireless statistics (used for /proc/net/wireless)
  */
 struct	iw_statistics
 {
 	__u16		status;		/* Status
 					 * - device dependent for now */
 
 	struct iw_quality	qual;		/* Quality of the link
 						 * (instant/mean/max) */
 	struct iw_discarded	discard;	/* Packet discarded counts */
 	struct iw_missed	miss;		/* Packet missed counts */
 };
 
 /* ------------------------ IOCTL REQUEST ------------------------ */
 /*
  * This structure defines the payload of an ioctl, and is used 
  * below.
  *
  * Note that this structure should fit on the memory footprint
  * of iwreq (which is the same as ifreq), which mean a max size of
  * 16 octets = 128 bits. Warning, pointers might be 64 bits wide...
  * You should check this when increasing the structures defined
  * above in this file...
  */
 union	iwreq_data
 {
 	/* Config - generic */
 	char		name[IFNAMSIZ];
 	/* Name : used to verify the presence of  wireless extensions.
 	 * Name of the protocol/provider... */
 
 	struct iw_point	essid;		/* Extended network name */
 	struct iw_param	nwid;		/* network id (or domain - the cell) */
 	struct iw_freq	freq;		/* frequency or channel :
 					 * 0-1000 = channel
 					 * > 1000 = frequency in Hz */
 
 	struct iw_param	sens;		/* signal level threshold */
 	struct iw_param	bitrate;	/* default bit rate */
 	struct iw_param	txpower;	/* default transmit power */
 	struct iw_param	rts;		/* RTS threshold threshold */
 	struct iw_param	frag;		/* Fragmentation threshold */
 	__u32		mode;		/* Operation mode */
 	struct iw_param	retry;		/* Retry limits & lifetime */
 
 	struct iw_point	encoding;	/* Encoding stuff : tokens */
 	struct iw_param	power;		/* PM duration/timeout */
 	struct iw_quality qual;		/* Quality part of statistics */
 
 	struct sockaddr	ap_addr;	/* Access point address */
-	struct sockaddr	addr;		/* Destination address (hw) */
+	struct sockaddr	addr;		/* Destination address (hw/mac) */
 
 	struct iw_param	param;		/* Other small parameters */
 	struct iw_point	data;		/* Other large parameters */
 };
 
 /*
  * The structure to exchange data for ioctl.
  * This structure is the same as 'struct ifreq', but (re)defined for
  * convenience...
  * Do I need to remind you about structure size (32 octets) ?
  */
-struct	iwreq
+struct	iwreq 
 {
 	union
 	{
 		char	ifrn_name[IFNAMSIZ];	/* if name, e.g. "eth0" */
 	} ifr_ifrn;
 
 	/* Data part (defined just above) */
 	union	iwreq_data	u;
 };
 
 /* -------------------------- IOCTL DATA -------------------------- */
 /*
  *	For those ioctl which want to exchange mode data that what could
  *	fit in the above structure...
  */
 
 /*
  *	Range of parameters
  */
 
 struct	iw_range
 {
 	/* Informative stuff (to choose between different interface) */
 	__u32		throughput;	/* To give an idea... */
 	/* In theory this value should be the maximum benchmarked
 	 * TCP/IP throughput, because with most of these devices the
 	 * bit rate is meaningless (overhead an co) to estimate how
 	 * fast the connection will go and pick the fastest one.
 	 * I suggest people to play with Netperf or any benchmark...
 	 */
 
 	/* NWID (or domain id) */
 	__u32		min_nwid;	/* Minimal NWID we are able to set */
 	__u32		max_nwid;	/* Maximal NWID we are able to set */
 
-	/* Frequency */
-	__u16		num_channels;	/* Number of channels [0; num - 1] */
-	__u8		num_frequency;	/* Number of entry in the list */
-	struct iw_freq	freq[IW_MAX_FREQUENCIES];	/* list */
-	/* Note : this frequency list doesn't need to fit channel numbers */
+	/* Old Frequency (backward compat - moved lower ) */
+	__u16		old_num_channels;
+	__u8		old_num_frequency;
+	/* Filler to keep "version" at the same offset */
+	__s32		old_freq[6];
 
 	/* signal level threshold range */
 	__s32	sensitivity;
 
 	/* Quality of link & SNR stuff */
+	/* Quality range (link, level, noise)
+	 * If the quality is absolute, it will be in the range [0 ; max_qual],
+	 * if the quality is dBm, it will be in the range [max_qual ; 0].
+	 * Don't forget that we use 8 bit arithmetics... */
 	struct iw_quality	max_qual;	/* Quality of the link */
+	/* This should contain the average/typical values of the quality
+	 * indicator. This should be the threshold between a "good" and
+	 * a "bad" link (example : monitor going from green to orange).
+	 * Currently, user space apps like quality monitors don't have any
+	 * way to calibrate the measurement. With this, they can split
+	 * the range between 0 and max_qual in different quality level
+	 * (using a geometric subdivision centered on the average).
+	 * I expect that people doing the user space apps will feedback
+	 * us on which value we need to put in each driver... */
+	struct iw_quality	avg_qual;	/* Quality of the link */
 
 	/* Rates */
 	__u8		num_bitrates;	/* Number of entries in the list */
 	__s32		bitrate[IW_MAX_BITRATES];	/* list, in bps */
 
 	/* RTS threshold */
 	__s32		min_rts;	/* Minimal RTS threshold */
 	__s32		max_rts;	/* Maximal RTS threshold */
 
 	/* Frag threshold */
 	__s32		min_frag;	/* Minimal frag threshold */
 	__s32		max_frag;	/* Maximal frag threshold */
 
 	/* Power Management duration & timeout */
 	__s32		min_pmp;	/* Minimal PM period */
 	__s32		max_pmp;	/* Maximal PM period */
 	__s32		min_pmt;	/* Minimal PM timeout */
 	__s32		max_pmt;	/* Maximal PM timeout */
 	__u16		pmp_flags;	/* How to decode max/min PM period */
 	__u16		pmt_flags;	/* How to decode max/min PM timeout */
 	__u16		pm_capa;	/* What PM options are supported */
 
 	/* Encoder stuff */
 	__u16	encoding_size[IW_MAX_ENCODING_SIZES];	/* Different token sizes */
 	__u8	num_encoding_sizes;	/* Number of entry in the list */
 	__u8	max_encoding_tokens;	/* Max number of tokens */
+	/* For drivers that need a "login/passwd" form */
+	__u8	encoding_login_index;	/* token index for login token */
 
 	/* Transmit power */
 	__u16		txpower_capa;	/* What options are supported */
 	__u8		num_txpower;	/* Number of entries in the list */
 	__s32		txpower[IW_MAX_TXPOWER];	/* list, in bps */
 
 	/* Wireless Extension version info */
 	__u8		we_version_compiled;	/* Must be WIRELESS_EXT */
 	__u8		we_version_source;	/* Last update of source */
 
 	/* Retry limits and lifetime */
 	__u16		retry_capa;	/* What retry options are supported */
 	__u16		retry_flags;	/* How to decode max/min retry limit */
 	__u16		r_time_flags;	/* How to decode max/min retry life */
 	__s32		min_retry;	/* Minimal number of retries */
 	__s32		max_retry;	/* Maximal number of retries */
 	__s32		min_r_time;	/* Minimal retry lifetime */
 	__s32		max_r_time;	/* Maximal retry lifetime */
 
-	/* Average quality of link & SNR */
-	struct iw_quality	avg_qual;	/* Quality of the link */
-	/* This should contain the average/typical values of the quality
-	 * indicator. This should be the threshold between a "good" and
-	 * a "bad" link (example : monitor going from green to orange).
-	 * Currently, user space apps like quality monitors don't have any
-	 * way to calibrate the measurement. With this, they can split
-	 * the range between 0 and max_qual in different quality level
-	 * (using a geometric subdivision centered on the average).
-	 * I expect that people doing the user space apps will feedback
-	 * us on which value we need to put in each driver...
-	 */
+	/* Frequency */
+	__u16		num_channels;	/* Number of channels [0; num - 1] */
+	__u8		num_frequency;	/* Number of entry in the list */
+	struct iw_freq	freq[IW_MAX_FREQUENCIES];	/* list */
+	/* Note : this frequency list doesn't need to fit channel numbers,
+	 * because each entry contain its channel index */
 };
 
 /*
  * Private ioctl interface information
  */
  
 struct	iw_priv_args
 {
 	__u32		cmd;		/* Number of the ioctl to issue */
 	__u16		set_args;	/* Type and number of args */
 	__u16		get_args;	/* Type and number of args */
 	char		name[IFNAMSIZ];	/* Name of the extension */
 };
 
 /* ----------------------- WIRELESS EVENTS ----------------------- */
 /*
  * Wireless events are carried through the rtnetlink socket to user
  * space. They are encapsulated in the IFLA_WIRELESS field of
  * a RTM_NEWLINK message.
  */
 
 /*
  * A Wireless Event. Contains basically the same data as the ioctl...
  */
 struct iw_event
 {
 	__u16		len;			/* Real lenght of this stuff */
 	__u16		cmd;			/* Wireless IOCTL */
 	union iwreq_data	u;		/* IOCTL fixed payload */
 };
 
 /* Size of the Event prefix (including padding and alignement junk) */
 #define IW_EV_LCP_LEN	(sizeof(struct iw_event) - sizeof(union iwreq_data))
 /* Size of the various events */
 #define IW_EV_CHAR_LEN	(IW_EV_LCP_LEN + IFNAMSIZ)
 #define IW_EV_UINT_LEN	(IW_EV_LCP_LEN + sizeof(__u32))
 #define IW_EV_FREQ_LEN	(IW_EV_LCP_LEN + sizeof(struct iw_freq))
 #define IW_EV_POINT_LEN	(IW_EV_LCP_LEN + sizeof(struct iw_point))
 #define IW_EV_PARAM_LEN	(IW_EV_LCP_LEN + sizeof(struct iw_param))
 #define IW_EV_ADDR_LEN	(IW_EV_LCP_LEN + sizeof(struct sockaddr))
 #define IW_EV_QUAL_LEN	(IW_EV_LCP_LEN + sizeof(struct iw_quality))
 
 /* Note : in the case of iw_point, the extra data will come at the
  * end of the event */
 
 #endif	/* _LINUX_WIRELESS_H */