Do not expect that you will be able to hack WiFi with your default internal WiFi card or Mac's Airport. As stated in the beginning, you will need some compatible hardware, check out the list. I recommend anything with an RTL8187L chip or RT3070 chip or compatible device made by ALFA. Also devices with directional or yagi antennas work best. If you have a compatible chipset as listed below, give that a go. The blank sections have unknown compatibility at this time but are likely to be compatible. Check here for XiaopanOS compatible hardware
| Product Name (chip) | Bus | Beini system version | Notes | |||
| 1.0-RC5.2 | 1.1 | 1.0-in Final | 1.2.1 | 1.2.2 | |||
| TP-LINK TL-WN321G + Ver: 1.0(RT73) | USB | Compatible | Compatible | Compatible | Compatible | |
| TP-LINK TL-WN322G + Ver: 1.0(ZD1211rw) | USB | Compatible | Compatible | |||
| TP-LINK TL-WN322G + Ver: 2.0(Atheros 9271) | USB | Not compatible | Not compatible | Not compatible | Compatible | 54Mbps |
| TP-LINK TL-WN422G + Ver: 1.0(ZD1211rw) | USB | Compatible | Compatible | |||
| TP-LINK TL-WN422G + Ver: 2.0(Atheros 9271) | USB | Not compatible | Not compatible | Not compatible | Compatible | |
| TP-LINK TL-WN821N. Ver: 2.0(Atheros 9.17 thousand) | USB | Compatible | Compatible | Compatible | Compatible | |
| TP-LINK TL-WN821N. Ver: 3.0(Atheros) | USB | Not compatible | Not compatible | Not compatible | Compatible | 300Mbps |
| TP-LINK TL-WN550G Ver: 1.0 (theAtheros 5k) | PCI | Compatible | Compatible | |||
| TP-LINK TL-WN551G REV: 1.5E(Atheros 5k) | PCI | Compatible | Compatible | |||
| TP-LINK TL-WN721N Ver: 1.0(Atheros 9271) | USB | Not compatible | Not compatible | Not compatible | Compatible | |
| TP-LINK TL-WN722N Ver: 1.0(Atheros 9271) | USB | Not compatible | Not compatible | Not compatible | Compatible | 150Mbps |
| TP-LINK TL-WN310G Ver: 2.4(Atheros 2413) | PCMCIA | Compatible | Compatible | |||
| TP-LINK TL-WN7200ND Ver: 1.0(RT3070) | USB | Compatible | 150Mbps | |||
| TP-LINK TL-WN822N Ver: 1.0(Atheros AR9170) | USB | Compatible | Compatible | 300Mbps | ||
| Asus USB-G31 (RT73) | USB | Compatible | Compatible | Compatible | Compatible | |
| The Asus WL-167g (RT73) | USB | Compatible | Compatible | Compatible | Compatible | |
| The Asus WL-107g (Ralink 2560) | USB | Compatible | Compatible | |||
| D-Link DWL-G122 H / W Ver: C1 F / W Ver: 3.00 (RT73) | USB | Compatible | Compatible | |||
| D-Link DWL-G122 H / W Ver: F1 F / W Ver: 6.00 (RTL8188S) | USB | Not compatible | Not compatible | Not compatible | Not compatible | |
| D-Link G the DWA-110 H / W Ver: A1 F / W Ver: 1.00 (RT73) | USB | Compatible | Compatible | |||
| D-Link DWL-G650 + AH / W Ver: E2 F / W Ver: 5.00 (Ralink 2561 PCI RT61PCI) | PCMCIA | Compatible | Compatible | Compatible | Compatible | |
| D-Link, the DWA-130 H / W Ver: C1 F / W Ver: 1.20 () | USB | Not compatible | Not compatible | |||
| D-Link, the DWA-130 H / W Ver: C2 F / W Ver: 3.00 () | USB | Not compatible | Not compatible | |||
| The D-Link, the DWA-133 H / W Ver: A1 F / W Ver: 1.00 () | USB | Not compatible | Not compatible | Not compatible | Not compatible | |
| D-Link DWL-G122 H / W Ver: F1 F / W Ver: 6.00 () | USB | Not compatible | Not compatible | Not compatible | Not compatible | |
| D-Link DWA-125 H / W Ver: A2 F / W Ver: 1.30 (RT3070) | USB | Not compatible | Not compatible | Compatible | Compatible | |
| D-Link DWA-125 H / W Ver: A2 F / W Ver: 1.40 (RT3070) | USB | Not compatible | Not compatible | Compatible | Compatible | |
| FAST FW54U Ver: 5.0 (ZD1211) | USB | Compatible | Compatible | |||
| FAST FW54U Ver: 7.0 (Atheros 9271) | USB | Not compatible | Not compatible | Not compatible | Compatible | 54Mbps |
| NETGEAR WG111v2 (RTL8187L) | USB | Compatible | Not compatible | Compatible | Compatible | |
| NETGEAR WG111v3 (RTL8187B) | USB | Compatible | Not compatible | Not compatible | Not compatible | |
| NETGEAR WN111v2 (Atheros AR9170) | USB | Compatible | Compatible | |||
| IP-COM W321G + () | USB | Not compatible | Not compatible | |||
| IP-COM W323G + () | USB | Not compatible | Not compatible | |||
| IP-COM W821U () | USB | Not compatible | Not compatible | |||
| IP-COM W550G V1.0 (Marvell 88w8335-TGJ1 (rev 03)) | PCI | Not compatible | Not compatible | |||
| Tenda TWL541C (Marvell 88w8335) | PCI | Not compatible | Not compatible | |||
| Tenda W302P V1.1 (RT2760T) | USB | Not compatible | Not compatible | |||
| Tenda W311U (Ralink 2800) | USB | Not compatible | Not compatible | Compatible | Compatible | 150Mbps |
| Tenda W311Ma | USB | Not compatible | Not compatible | Not compatible | Not compatible | 150Mbps |
| Tenda W311M | USB | Not compatible | Not compatible | Not compatible | Not compatible | |
| Tenda W541U Ver: 2.0 (Ralink 2800) | USB | Not compatible | Not compatible | Compatible | Compatible | |
| BUFFALO BUF-WLIUCG-1 (B) MODEL: WLI-UC-G (MelCo 0411:0137) | USB | Not compatible | Not compatible | |||
| Mercurycom (Mercury) MW54U VER 6.0 (RT73) | USB | Compatible | Compatible | |||
| Mercurycom (Mercury) MW54U VER 7.0 (Atheros 9271) | USB | Not compatible | Not compatible | Not compatible | ||
| SAGEM with (Sagem) XG-760N(ZD1211B) | USB | Compatible | Compatible | |||
| SAGEM with (Sagem) XG-703A(GW3887) | USB | Compatible | Compatible | Compatible | Compatible | |
| INVENTEL the (UBS) ur054g, ( R01 ) V1.1 (GW3887) | USB | Compatible | Compatible | Compatible | Compatible | |
| LinkSys wusb54g V4 (RT2571F) | USB | Compatible | Compatible | |||
| NEC Aterm WL54AG (AR5212) | PCMCIA | Compatible | Compatible | |||
| CNet CUA-854L WIFI USB 11G(RT73) | USB | Compatible | Compatible | |||
| AWUS036NEH (RT2870) | USB | Compatible | Compatible | |||
| Wireless LAN chip | ||||||
| (Intel 2100BG) | Mini-PCI | Compatible | Compatible | |||
| (Intel 2200BG) | Mini-PCI | Compatible | Compatible | |||
| (Intel 3945ABG) | PCI-E | Compatible | Compatible | Compatible | Compatible | |
| (Intel 1000BGN) | PCI-E | Compatible | Compatible | Compatible | Compatible | |
| (Intel 5100AGN) | PCI-E | Compatible | Compatible | Compatible | Compatible | |
| (Intel 5300AGN) | PCI-E | Compatible | Compatible | |||
| (Intel 6000) | PCI-E | Compatible | Compatible | |||
| (Intel 4965AG) | PCI-E | Compatible | Compatible | |||
| (Atheros AR5B91) | PCI-E | |||||
| (Atheros AR5B93) | PCI-E | Compatible | Compatible | Compatible | ||
| (Atheros AR928X) | PCI-E | Compatible | Compatible | |||
Other Notes
• When installing the ISO through Parallels or VMware, you need to select 'Other Linux 2.6' When you add the virtual machine.
• If Beini cannot detect your card or USB device, delete the devices drivers off your Mac
• Get a directional antenna with an SMA connector for better range. Check eBay, Amazon etc.
• Track Beini's developments @ google code
Modes Explained
The -0 Deautenticate [Conflict Mode]
Forced to disconnect the connection to reconnect with the routing side has been connected to the legitimate client.
Reconnect the packet, resulting in an effective ARP Request.
If a client is connected to the routing side, but no one online to produce valid data, then, that the use of -3 is also unable to produce an effective ARP the Request.
Therefore need to use the -0 attack mode with -3 attack will be immediately activated.
aireplay - ng - 0 10 - a < AP MAC > - c < My the MAC > Wifi0 parameters Description: [- ]: conflict attack mode, followed by the number sent (set to 0 , compared with cyclic attacks of disconnect connection, the client does the Internet) [- ]: set AP MAC [- c ]: the set has been connected to the legitimate client MAC . If you do not set a - c , then disconnect all and AP connectivity. aireplay - ng - 3 - b < the AP MAC > - h < My MAC > Wifi0 of
Note: Using this attack mode the premise must be connected to the router through the certification of a legitimate client
-1 Fakeauth Count [disguised client connection]
This model is to disguise a client and the AP to connect. This step is non-client research study a first step, because no legitimate connection to the client, and therefore need a disguise client and the router is connected to. AP to receive packets, you must make your own card and AP association. If there is no associated target AP will ignore all packets sent from your network card, the IVS data will not produce.
-1 Disguised client successfully connected to send into the command, the router receives inject command only after the feedback data to thereby generate the ARP packet.
aireplay - ng - 1 0 - e < the AP the ESSID > - a < AP MAC > - h < My the MAC > Wifi0 parameters Description: [- ]: the Camouflage client connection mode, the latter with the delay [- e ]: set AP the of [- a ]: set AP MAC [- h ]: set disguise the client's network card MAC (ie, network card MAC )
-2 Interactive, [interactive mode]
The interactive mode is a packet capture and mentioning that the data sent attack packets, three with the collection mode
A.
This mode is mainly used to study learning without the client, -1 and to establish a false client connections and direct contracting attack
aireplay - ng - 2 - p 0 841 - c ff. : ff : ff : ff : ff : ff - b < the AP MAC > - h < My the MAC > Wifi0 parameters Description: [- ]: interactive attack modes [- p ]: set of the information contained in the control frame ( 16 hex), default 0841 [- c ]: set the destination MAC address [- ]: set the AP 's MAC address [- h ]: Set the disguised client network card MAC (ie, card MAC ) 2 . Extract the package, send inject packets aireplay - ng - 2 - the r <file> - x 1024 Wifi0 contracting attacks. which - x 1024 is the contracting speed to avoid the card crashes, you can choose 1024 .
-3 ARP Request [injected into the attack mode]
This mode is very effective to analyze the process of re-issued in one packet capture after such an attack mode.
Both can take advantage of a legitimate client, you can also camouflage the client with the -1 virtual connection.
If a legitimate client that generally need to wait a few minutes, so that the communication between the legitimate client and AP, a small amount of data can produce an effective ARP Request only -3 mode into success.
If no communication exists, can not get the ARP Request this attack will fail.
A long period of time between the legitimate client and AP ARP the Request, you can try to use the -0 attack. If there is no legitimate client, you can use -1 to create a virtual connection camouflage client connection process packet. The resulting ARP Request.
ANSI -3 mode injection.
aireplay - ng - 3 - b < the AP MAC > - h < My the MAC - x 512 Wifi0 parameters Description: [- 3 ]: ARP injection attack mode [- ]: set AP MAC [- h ]: set [- x ]: the number of households package of the definition to send data per second, but the maximum does not exceed 1024 , it is recommended to use 512 (or not defined)
-4 Chopchop [Attack Mode]
To a xor file containing the key data in this mode is mainly to get a xor file containing the key data, can not be used to decrypt the packet.
But use it to generate a new packet so that we can be injected.
aireplay - ng - 4 - b < the AP MAC > - h < My the MAC > Wifi0 parameters Description: [- ]: Set the research study, the AP MAC [- h ]: connection set up a virtual disguise MAC (NIC MAC )
-5 Fragment [fragmented packet attack mode]
Used to obtain PRGA (the suffix containing the key of the xor file)
This model one can use PRGA here PRGA is not WEP Key data can not be used to decrypt the packets.
But use it to generate a new packet so that we can be injected.
Its working principle is the target AP to re-broadcast packets, when the AP re-broadcast, a new IVS will produce, we use this to study the learning!
aireplay - ng - 5 - b < the AP MAC > - h < My the MAC > Wifi0 parameters Description: [- ]: fragmented packet attack mode [- ]: set AP MAC [- h ]: Set the virtual camouflage to connect the MAC (ie NIC MAC ) packetforge, - ng : packet manufacturing procedures packetforge - ng <mode> <options> packetforge - ng - 0 - a < the AP MAC > - h < My the MAC > Wifi0 - k 255.255 . 255.255 - l 255.255 255.255 - y < xor the file > - w mr parameter Description: [- ]: camouflage ARP packets [- ]: set the AP MAC [- h ]: set up a virtual disguise connection MAC ( MAC ) [- k ]: < ip [: port ]> Description: Set the target file IP and port [- l ]: < ip [: port ]> Description: Set the source file, IP and port [- y ]: < file > Description: xor file . Followed by xor . [- w ]: set camouflage file name