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-rw-r--r--libopie2/examples/opienet/miniwellenreiter/miniwellenreiter.cpp2
1 files changed, 1 insertions, 1 deletions
diff --git a/libopie2/examples/opienet/miniwellenreiter/miniwellenreiter.cpp b/libopie2/examples/opienet/miniwellenreiter/miniwellenreiter.cpp
index f1966c1..ebd3b5f 100644
--- a/libopie2/examples/opienet/miniwellenreiter/miniwellenreiter.cpp
+++ b/libopie2/examples/opienet/miniwellenreiter/miniwellenreiter.cpp
@@ -40,195 +40,195 @@ public:
40 40
41 if ( argc < 3 ) 41 if ( argc < 3 )
42 { 42 {
43 printf( "Usage: ./%s <interface> <driver> <interval>\n", argv[0] ); 43 printf( "Usage: ./%s <interface> <driver> <interval>\n", argv[0] );
44 printf( "\n" ); 44 printf( "\n" );
45 printf( "Valid wireless interfaces (detected) are:\n" ); 45 printf( "Valid wireless interfaces (detected) are:\n" );
46 46
47 ONetwork::InterfaceIterator it = net->iterator(); 47 ONetwork::InterfaceIterator it = net->iterator();
48 while ( it.current() ) 48 while ( it.current() )
49 { 49 {
50 if ( it.current()->isWireless() ) 50 if ( it.current()->isWireless() )
51 { 51 {
52 printf( " - '%s' (MAC=%s) (IPv4=%s)\n", (const char*) it.current()->name(), 52 printf( " - '%s' (MAC=%s) (IPv4=%s)\n", (const char*) it.current()->name(),
53 (const char*) it.current()->macAddress().toString(), 53 (const char*) it.current()->macAddress().toString(),
54 (const char*) it.current()->ipV4Address() ); 54 (const char*) it.current()->ipV4Address() );
55 } 55 }
56 ++it; 56 ++it;
57 } 57 }
58 exit( -1 ); 58 exit( -1 );
59 } 59 }
60 60
61 printf( "*******************************************************************\n" ); 61 printf( "*******************************************************************\n" );
62 printf( "* Wellenreiter mini edition 1.0.0 (C) 2003 Michael 'Mickey' Lauer *\n" ); 62 printf( "* Wellenreiter mini edition 1.0.0 (C) 2003 Michael 'Mickey' Lauer *\n" );
63 printf( "*******************************************************************\n" ); 63 printf( "*******************************************************************\n" );
64 printf( "\n\n" ); 64 printf( "\n\n" );
65 65
66 QString interface( argv[1] ); 66 QString interface( argv[1] );
67 QString driver( argv[2] ); 67 QString driver( argv[2] );
68 68
69 printf( "Trying to use '%s' as %s-controlled device...\n", (const char*) interface, (const char*) driver ); 69 printf( "Trying to use '%s' as %s-controlled device...\n", (const char*) interface, (const char*) driver );
70 70
71 // sanity checks before downcasting 71 // sanity checks before downcasting
72 ONetworkInterface* iface = net->interface( interface ); 72 ONetworkInterface* iface = net->interface( interface );
73 if ( !iface ) 73 if ( !iface )
74 { 74 {
75 printf( "Interface '%s' doesn't exist. Exiting.\n", (const char*) interface ); 75 printf( "Interface '%s' doesn't exist. Exiting.\n", (const char*) interface );
76 exit( -1 ); 76 exit( -1 );
77 } 77 }
78 if ( !iface->isWireless() ) 78 if ( !iface->isWireless() )
79 { 79 {
80 printf( "Interface '%s' doesn't support wireless extensions. Exiting.\n", (const char*) interface ); 80 printf( "Interface '%s' doesn't support wireless extensions. Exiting.\n", (const char*) interface );
81 exit( -1 ); 81 exit( -1 );
82 } 82 }
83 83
84 // downcast should be safe now 84 // downcast should be safe now
85 wiface = (OWirelessNetworkInterface*) iface; 85 wiface = (OWirelessNetworkInterface*) iface;
86 printf( "Using wireless interface '%s' for scanning (current SSID is '%s')...\n", (const char*) interface, (const char*) wiface->SSID() ); 86 printf( "Using wireless interface '%s' for scanning (current SSID is '%s')...\n", (const char*) interface, (const char*) wiface->SSID() );
87 87
88 // ifconfig +promisc the interface to receive all packets 88 // ifconfig +promisc the interface to receive all packets
89 if ( !wiface->promiscuousMode() ) 89 if ( !wiface->promiscuousMode() )
90 { 90 {
91 printf( "Interface status is not promisc... switching to promisc... " ); 91 printf( "Interface status is not promisc... switching to promisc... " );
92 wiface->setPromiscuousMode( true ); 92 wiface->setPromiscuousMode( true );
93 if ( !wiface->promiscuousMode() ) 93 if ( !wiface->promiscuousMode() )
94 { 94 {
95 printf( "failed (%s). Exiting.\n", strerror( errno ) ); 95 printf( "failed (%s). Exiting.\n", strerror( errno ) );
96 exit( -1 ); 96 exit( -1 );
97 } 97 }
98 else 98 else
99 { 99 {
100 printf( "ok.\n" ); 100 printf( "ok.\n" );
101 } 101 }
102 } 102 }
103 else 103 else
104 printf( "Interface status is already promisc - good.\n" ); 104 printf( "Interface status is already promisc - good.\n" );
105 105
106 // connect a monitoring strategy to the interface 106 // connect a monitoring strategy to the interface
107 if ( driver == "orinoco" ) 107 if ( driver == "orinoco" )
108 new OOrinocoMonitoringInterface( wiface, false ); 108 new OOrinocoMonitoringInterface( wiface, false );
109 else 109 else
110 if ( driver == "hostap" ) 110 if ( driver == "hostap" )
111 new OHostAPMonitoringInterface( wiface, false ); 111 new OHostAPMonitoringInterface( wiface, false );
112 else 112 else
113 if ( driver == "wlan-ng" ) 113 if ( driver == "wlan-ng" )
114 new OWlanNGMonitoringInterface( wiface, false ); 114 new OWlanNGMonitoringInterface( wiface, false );
115 else 115 else
116 { 116 {
117 printf( "Unknown driver. Exiting\n" ); 117 printf( "Unknown driver. Exiting\n" );
118 exit( -1 ); 118 exit( -1 );
119 } 119 }
120 120
121 // enable monitoring mode 121 // enable monitoring mode
122 printf( "Enabling monitor mode...\n" ); 122 printf( "Enabling monitor mode...\n" );
123 wiface->setMode( "monitor" ); 123 wiface->setMode( "monitor" );
124 124
125 // open a packet capturer 125 // open a packet capturer
126 cap = new OPacketCapturer(); 126 cap = new OPacketCapturer();
127 cap->open( interface ); 127 cap->open( interface );
128 if ( !cap->isOpen() ) 128 if ( !cap->isOpen() )
129 { 129 {
130 printf( "Unable to open libpcap (%s). Exiting.\n", strerror( errno ) ); 130 printf( "Unable to open libpcap (%s). Exiting.\n", strerror( errno ) );
131 exit( -1 ); 131 exit( -1 );
132 } 132 }
133 133
134 // set capturer to non-blocking mode 134 // set capturer to non-blocking mode
135 cap->setBlocking( false ); 135 cap->setBlocking( false );
136 136
137 // start channel hopper 137 // start channel hopper
138 //wiface->setChannelHopping( 1000 ); 138 //wiface->setChannelHopping( 1000 );
139 139
140 // connect 140 // connect
141 connect( cap, SIGNAL( receivedPacket(OPacket*) ), this, SLOT( receivePacket(OPacket*) ) ); 141 connect( cap, SIGNAL( receivedPacket(OPacket*) ), this, SLOT( receivePacket(OPacket*) ) );
142 // timer 142 // timer
143 startTimer( 1000 ); 143 startTimer( 1000 );
144 144
145 } 145 }
146 146
147 ~Wellenreiter() {}; 147 ~Wellenreiter() {};
148 148
149public slots: 149public slots:
150 virtual void timerEvent(QTimerEvent* e) 150 virtual void timerEvent(QTimerEvent* e)
151 { 151 {
152 wiface->setChannel( channel++ ); 152 wiface->setChannel( channel++ );
153 if ( channel == 14 ) channel = 1; 153 if ( channel == 14 ) channel = 1;
154 } 154 }
155 155
156 void receivePacket(OPacket* p) 156 void receivePacket(OPacket* p)
157 { 157 {
158 if (!p) 158 if (!p)
159 { 159 {
160 printf( "(empty packet received)\n" ); 160 printf( "(empty packet received)\n" );
161 return; 161 return;
162 } 162 }
163 163
164 OWaveLanManagementPacket* beacon = (OWaveLanManagementPacket*) p->child( "802.11 Management" ); 164 OWaveLanManagementPacket* beacon = (OWaveLanManagementPacket*) p->child( "802.11 Management" );
165 if ( beacon ) 165 if ( beacon )
166 { 166 {
167 OWaveLanManagementSSID* ssid = static_cast<OWaveLanManagementSSID*>( p->child( "802.11 SSID" ) ); 167 OWaveLanManagementSSID* ssid = static_cast<OWaveLanManagementSSID*>( p->child( "802.11 SSID" ) );
168 QString essid = ssid ? ssid->ID() : "<unknown>"; 168 QString essid = ssid ? ssid->ID() : QString::fromLatin1( "<unknown>" );
169 169
170 if ( stations.find( essid ) ) 170 if ( stations.find( essid ) )
171 stations[essid]->beacons++; 171 stations[essid]->beacons++;
172 else 172 else
173 { 173 {
174 printf( "found new network @ channel %d, SSID = '%s'\n", wiface->channel(), (const char*) essid ); 174 printf( "found new network @ channel %d, SSID = '%s'\n", wiface->channel(), (const char*) essid );
175 stations.insert( essid, new Station( "unknown", wiface->channel(), 175 stations.insert( essid, new Station( "unknown", wiface->channel(),
176 ((OWaveLanPacket*) beacon->parent())->usesWep() ) ); 176 ((OWaveLanPacket*) beacon->parent())->usesWep() ) );
177 } 177 }
178 return; 178 return;
179 } 179 }
180 180
181 OWaveLanDataPacket* data = (OWaveLanDataPacket*) p->child( "802.11 Data" ); 181 OWaveLanDataPacket* data = (OWaveLanDataPacket*) p->child( "802.11 Data" );
182 if ( data ) 182 if ( data )
183 { 183 {
184 OWaveLanPacket* wlan = (OWaveLanPacket*) p->child( "802.11" ); 184 OWaveLanPacket* wlan = (OWaveLanPacket*) p->child( "802.11" );
185 if ( wlan->fromDS() && !wlan->toDS() ) 185 if ( wlan->fromDS() && !wlan->toDS() )
186 { 186 {
187 printf( "FromDS: '%s' -> '%s' via '%s'\n", 187 printf( "FromDS: '%s' -> '%s' via '%s'\n",
188 (const char*) wlan->macAddress3().toString(true), 188 (const char*) wlan->macAddress3().toString(true),
189 (const char*) wlan->macAddress1().toString(true), 189 (const char*) wlan->macAddress1().toString(true),
190 (const char*) wlan->macAddress2().toString(true) ); 190 (const char*) wlan->macAddress2().toString(true) );
191 } 191 }
192 else 192 else
193 if ( !wlan->fromDS() && wlan->toDS() ) 193 if ( !wlan->fromDS() && wlan->toDS() )
194 { 194 {
195 printf( "ToDS: '%s' -> '%s' via '%s'\n", 195 printf( "ToDS: '%s' -> '%s' via '%s'\n",
196 (const char*) wlan->macAddress2().toString(true), 196 (const char*) wlan->macAddress2().toString(true),
197 (const char*) wlan->macAddress3().toString(true), 197 (const char*) wlan->macAddress3().toString(true),
198 (const char*) wlan->macAddress1().toString(true) ); 198 (const char*) wlan->macAddress1().toString(true) );
199 } 199 }
200 else 200 else
201 if ( wlan->fromDS() && wlan->toDS() ) 201 if ( wlan->fromDS() && wlan->toDS() )
202 { 202 {
203 printf( "WSD(bridge): '%s' -> '%s' via '%s' and '%s'\n", 203 printf( "WSD(bridge): '%s' -> '%s' via '%s' and '%s'\n",
204 (const char*) wlan->macAddress4().toString(true), 204 (const char*) wlan->macAddress4().toString(true),
205 (const char*) wlan->macAddress3().toString(true), 205 (const char*) wlan->macAddress3().toString(true),
206 (const char*) wlan->macAddress1().toString(true), 206 (const char*) wlan->macAddress1().toString(true),
207 (const char*) wlan->macAddress2().toString(true) ); 207 (const char*) wlan->macAddress2().toString(true) );
208 } 208 }
209 else 209 else
210 { 210 {
211 printf( "IBSS(AdHoc): '%s' -> '%s' (Cell: '%s')'\n", 211 printf( "IBSS(AdHoc): '%s' -> '%s' (Cell: '%s')'\n",
212 (const char*) wlan->macAddress2().toString(true), 212 (const char*) wlan->macAddress2().toString(true),
213 (const char*) wlan->macAddress1().toString(true), 213 (const char*) wlan->macAddress1().toString(true),
214 (const char*) wlan->macAddress3().toString(true) ); 214 (const char*) wlan->macAddress3().toString(true) );
215 } 215 }
216 return; 216 return;
217 } 217 }
218 } 218 }
219private: 219private:
220 OPacketCapturer* cap; 220 OPacketCapturer* cap;
221 OWirelessNetworkInterface* wiface; 221 OWirelessNetworkInterface* wiface;
222 int channel; 222 int channel;
223}; 223};
224 224
225 225
226int main( int argc, char** argv ) 226int main( int argc, char** argv )
227{ 227{
228 Wellenreiter w( argc, argv ); 228 Wellenreiter w( argc, argv );
229 w.exec(); 229 w.exec();
230 return 0; 230 return 0;
231} 231}
232 232
233#include "miniwellenreiter.moc" 233#include "miniwellenreiter.moc"
234 234