Just to complete the list of WLAN hacking posts I decided to add this article as well.
The original article (written by Adam Pash) can be found at lifehacker.com
How to Crack a Wi-Fi Network’s WPA Password with Reaver
A new, free, open-source tool called Reaver exploits a security hole in wireless routers and can crack most routers’ current passwords with relative ease. Here’s how to crack a WPA or WPA2 password, step by step, with Reaver—and how to protect your network against Reaver attacks.
What You’ll Need
You don’t have to be a networking wizard to use Reaver, the command-line tool that does the heavy lifting, and if you’ve got a blank DVD, a computer with compatible Wi-Fi, and a few hours on your hands, you’ve got basically all you’ll need. There are a number of ways you could set up Reaver, but here are the specific requirements for this guide:
The BackTrack 5 Live DVD.
BackTrack is a bootable Linux distribution that’s filled to the brim with network testing tools, and while it’s not strictly required to use Reaver, it’s the easiest approach for most users. Download the Live DVD from BackTrack’s download page and burn it to a DVD. You can alternately download a virtual machine image if you’re using VMware, but if you don’t know what VMware is, just stick with the Live DVD. As of this writing, that means you should select BackTrack 5 R1 from the Release drop-down, select Gnome, 32- or 64-bit depending on your CPU (if you don’t know which you have, 32 is a safe bet), ISO for image, and then download the ISO.
A computer with Wi-Fi and a DVD drive.
BackTrack will work with the wireless card on most laptops, so chances are your laptop will work fine. However, BackTrack doesn’t have a full compatibility list, so no guarantees. You’ll also need a DVD drive, since that’s how you’ll boot into BackTrack. I used a six-year-old MacBook Pro.
A nearby WPA-secured Wi-Fi network.
Technically, it will need to be a network using WPA security with the WPS feature enabled. I’ll explain in more detail in the “How Reaver Works” section how WPS creates the security hole that makes WPA cracking possible.
A little patience.
This is a 4-step process, and while it’s not terribly difficult to crack a WPA password with Reaver, it’s a brute-force attack, which means your computer will be testing a number of different combinations of cracks on your router before it finds the right one. When I tested it, Reaver took roughly 2.5 hours to successfully crack my password. The Reaver home page suggests it can take anywhere from 4-10 hours. Your mileage may vary.
Let’s Get Crackin’
At this point you should have BackTrack burned to a DVD, and you should have your laptop handy.
Step 1: Boot into BackTrack
To boot into BackTrack, just put the DVD in your drive and boot your machine from the disc. (Google around if you don’t know anything about live CDs/DVDs and need help with this part.) During the boot process, BackTrack will prompt you to to choose the boot mode. Select “BackTrack Text – Default Boot Text Mode” and press Enter.
Eventually BackTrack will boot to a command line prompt. When you’ve reached the prompt, type startx and press Enter. BackTrack will boot into its graphical interface.
Step 2: Install Reaver
Reaver has been added to the bleeding edge version of BackTrack, but it’s not yet incorporated with the live DVD, so as of this writing, you need to install Reaver before proceeding. (Eventually, Reaver will simply be incorporated with BackTrack by default.) To install Reaver, you’ll first need to connect to a Wi-Fi network that you have the password to.
Click Applications > Internet > Wicd Network Manager
Select your network and click Connect, enter your password if necessary, click OK, and then click Connect a second time.
Now that you’re online, let’s install Reaver. Click the Terminal button in the menu bar (or click Applications > Accessories > Terminal). At the prompt, type:
root@root:~# apt-get update
And then, after the update completes:
root@root:~# apt-get install reaver
If all went well, Reaver should now be installed. It may seem a little lame that you need to connect to a network to do this, but it will remain installed until you reboot your computer. At this point, go ahead and disconnect from the network by opening Wicd Network Manager again and clicking Disconnect. (You may not strictly need to do this. I did just because it felt like I was somehow cheating if I were already connected to a network.)
Step 3: Gather Your Device Information, Prep Your Crackin’
In order to use Reaver, you need to get your wireless card’s interface name, the BSSID of the router you’re attempting to crack (the BSSID is a unique series of letters and numbers that identifies a router), and you need to make sure your wireless card is in monitor mode. So let’s do all that.
Find your wireless card:
root@root:~# iwconfig lo no wireless extensions. eth0 no wireless extensions. wlan0 IEEE 802.11abg ESSID:"default" Mode:Managed Frequency:2.437 GHz Access Point: Not-Associated Tx-Power=20 dBm Retry long limit:7 RTS thr:off Fragment thr:off Encryption key:off Power Management:off
Put your wireless card into monitor mode: Assuming your wireless card’s interface name is wlan0, execute the following command to put your wireless card into monitor mode:
root@root:~# airmon-ng start wlan0
This command will output the name of monitor mode interface, which you’ll also want to make note of. Most likely, it’ll be mon0. Make note of that.
Find the BSSID of the router you want to crack: Lastly, you need to get the unique identifier of the router you’re attempting to crack so that you can point Reaver in the right direction. To do this, execute the following command:
root@root:~# airodump-ng wlan0
(Note: If airodump-ng wlan0 doesn’t work for you, you may want to try the monitor interface instead—e.g., airodump-ng mon0.)
You’ll see a list of the wireless networks in range—it’ll look something like the screenshot below:
[ CH 1 ] [Elapsed: 4s ] [ 2012-03-20 13:23] [ WPA handshake: 00:14:6C:7E:40:80 BSSID PWR RXQ Beacons #Data, #/s CH MB ENC CIPHER AUTH ESSID 00:09:6B:1C:AA:1D 11 16 10 0 0 11 54. OPN NETGEAR 00:14:9C:7A:41:81 34 100 57 14 1 9 11e WEP WEP bigbear 00:14:DC:7E:40:80 32 100 752 73 2 9 54 WPA TKIP PSK teddy ...
When you see the network you want, press Ctrl+C to stop the list from refreshing, then copy that network’s BSSID (it’s the series of letters, numbers, and colons on the far left). The network should have WPA or WPA2 listed under the ENC column.
Now, with the BSSID and monitor interface name in hand, you’ve got everything you need to start up Reaver.
Step 4: Crack a Network’s WPA Password with Reaver
Now execute the following command in the Terminal, replacing bssid and moninterface with the BSSID and monitor interface and you copied down above:
root@root:~# reaver -i moninterface -b bssid -vv
For example, if your monitor interface was mon0 like mine, and your BSSID was 8D:AE:9D:65:1F:B2 (a BSSID I just made up), your command would look like:
root@root:~# reaver -i mon0 -b 8D:AE:9D:65:1F:B2 -vv
Press Enter, sit back, and let Reaver work its disturbing magic. Reaver will now try a series of PINs on the router in a brute force attack, one after another. This will take a while. In my successful test, Reaver took 2 hours and 30 minutes to crack the network and deliver me with the correct password. As mentioned above, the Reaver documentation says it can take between 4 and 10 hours, so it could take more or less time than I experienced, depending.
A few important factors to consider:
Reaver worked exactly as advertised in my test, but it won’t necessarily work on all routers (see more below). Also, the router you’re cracking needs to have a relatively strong signal, so if you’re hardly in range of a router, you’ll likely experience problems, and Reaver may not work. Throughout the process, Reaver would sometimes experience a timeout, sometimes get locked in a loop trying the same PIN repeatedly, and so on. I just let it keep on running, and kept it close to the router, and eventually it worked its way through.
Also of note, you can also pause your progress at any time by pressing Ctrl+C while Reaver is running. This will quit the process, but Reaver will save any progress so that next time you run the command, you can pick up where you left off-as long as you don’t shut down your computer (which, if you’re running off a live DVD, will reset everything).
How Reaver Works
Now that you’ve seen how to use Reaver, let’s take a quick overview of how Reaver works. The tool takes advantage of a vulnerability in something called Wi-Fi Protected Setup, or WPS. It’s a feature that exists on many routers, intended to provide an easy setup process, and it’s tied to a PIN that’s hard-coded into the device. Reaver exploits a flaw in these PINs; the result is that, with enough time, it can reveal your WPA or WPA2 password.
How to Protect Yourself Against Reaver Attacks
Since the vulnerability lies in the implementation of WPS, your network should be safe if you can simply turn off WPS (or, even better, if your router doesn’t support it in the first place). Unfortunately, as Gallagher points out as Ars, even with WPS manually turned off through his router’s settings, Reaver was still able to crack his password.
So that’s kind of a bummer. You may still want to try disabling WPS on your router if you can, and test it against Reaver to see if it helps.
You could also set up MAC address filtering on your router (which only allows specifically whitelisted devices to connect to your network), but a sufficiently savvy hacker could detect the MAC address of a whitelisted device and use MAC address spoofing to imitate that computer.
Double bummer. So what will work?
I have the open-source router firmware DD-WRT installed on my router and I was unable to use Reaver to crack its password. As it turns out, DD-WRT does not support WPS, so there’s yet another reason to love the free router-booster. If that’s got you interested in DD-WRT, check their supported devices list to see if your router’s supported. It’s a good security upgrade, and DD-WRT can also do cool things like monitor your internet usage, set up a network hard drive, act as a whole-house ad blocker, boost the range of your Wi-Fi network, and more. It essentially turns your $60 router into a $600 router.