WPA Attack
WPA is the precursor to WEP to fill a need for a secure replacement after the fully disclosed and flawed WEP encryption.
Background
Most wireless networks operating today use WPA and a Pre-Shared Key (PSK) between parties, i.e. a common password between the Access Point and Client Station, for protection. While the 802.11i standard, of which WPA is implemented on, is still intact the authentication is prone to a offline brute-force attack.
4-Way handshake
When a client want to connect to a access point, the following simplified stages will take place:
- Client will take the Password and ESSID of the network to compute a Pairwise Master Key and send a request to the AP asking to connect
- AP will responds with a random ANonce number
- Client create a random SNonce number, take the Pairwise Master Key, ANonce, SNonce, and AP and client MAC address to compute a Pairwise Transient Key
- Client will sign the SNonce number using the Pairwise Transient Key and send it unencrypted to the AP
- AP receives the signed SNonce, and compute the Pairwise Master Key from its Password and ESSID. Use the Pairwise Master Key, ANounce, SNounce, and AP and client MAC address to compute a Pairwise Transient Key
- By signing the SNonce message with the new Pairwise Transient Key, the AP can match the Integrity Code of the SNonce message sent from the client.
- If it's the same, the AP can then assume the client used the same Pairwise Master Key (Password+ESSID) to generate the Pairwise Transient Key, subsequently used to sign the message
- AP sends an acknowledgment to the client signed with the Pairwise Transient Key and includes information for further communication
For an excellent explanation, see the Airolib-ng manual.
Key generation
The PMK is generated using the following relatively processor intensive function, pseudo code:
- PMK = PBKDF2(passphrase, ssid, ssidLength, 4096, 256)
Where the PBKDF2 method is from PKCS #5 v2.0: Password-based Cryptography Standard. This means that the concatenated string of the passphrase, SSID, and the SSIDlength is hashed 4096 times to generate a value of 256 bits. The lengths of the passphrase and the SSID have little impact on the speed of this operation [1].
And the other PTK hash is generated using this less processor intensive function, pseudo code:
- PTK = PRF-512(PMK, "Pairwise key expansion", Min(AP_Mac, Client_Mac) || Max(AP_Mac, Client_Mac) || Min(ANonce, SNonce) || Max(ANonce, SNonce))
The PTK is a keyed-HMAC function using the PMK on the two MAC addresses and the two nonces from the first two packets of the 4-Way Handshake. [2].
- MIC = HMAC_MD5(MIC Key, 16, 802.1x data)
A MIC value is calculated, using the MIC Key from the PTK and the EAPoL message.
Generating the PMK using the PBKDF2 function is slow and costly. It can be pre-computed for time-space-benefit. Both coWPAtty and Pyrit can create these hash-tables. Pyrit is especially fast as it's utilizing the GPGPU concept to speed up the process, see the Pyrit project page to see the difference.
Details:
- PSK as the Key Establishment Method
- WPA Passive Dictionary Attack Overview
- Wireless Security WPA discussion thread
- Computing the Temporal Keys
- Cracking Wi-Fi Protected Access (WPA), Part 2, Page 6
Attack
An offline attack on the functions above are possible by disassociating any connected client(s), capturing a full 4-way handshake session when the client(s) re-connect, and then extrapolate the AP MAC, Client MAC, the ANonce and SNonce. The SSID is already known.
Present with the above information it's possible to brute-force the passphrase by computing the 4-way handshake as mentioned above (calculate the PMK, PTK, and subsequently sign the SNonce to get the Integrity Code) with every possible passphrase+SSID combination. If the passphrase is correct the Integrity Code will match the captured Integrity Code.
See the coWPAtty and Pyrit source code for examples on the handshake process.
Counter-measures
As it's explained above and clear, a long and alpha-numeric password will thwart this dictionary attack. Use a something like kurtm.net WPA-PSK generator or preferably the Yubico USB key adapter to generate a truly random password.
Tools
- pyrit - blog - Reference manual - Code details
- Like coWPatty and Airolib-ng
- Pre-compute PMK keys
- Import compressed (.gz) files
- Supports stdin (i.e. John the Ripper piping)
- Internal database over precomputed ESSID and PMK combinations
- Export PMK to coWPAtty (*.cow ) and Airolib-ng (*.db) supported files
- GPGPU acceleration
- Strip out 4-way handshake from capture file
- coWPAtty - coWPAtty project page - Readme
- Like Pyrite and Airolib-ng
- WPA-PSK attack on specific ESSID and captured 4-way handshake dump
- Passthrough from Pyrite possible (GPGPU acceleration)
- Pre-computed PMK tables supported
- genpmk:
- Generate "Pairwise Master Key" table for a specific ESSID, PMK tables
- Table-file name should end with *.cow
- Airolib-nb
- Like coWPatty and Pyrit
- Precompute TMK keys and attack WPA/WPA2 handshake captures
- Internal SQLite3 database
- Can export and import coWPAtty files
Extra:
- Church of Wifi wpa-psk rainbow tables
- Pre-computed TMK key tables, 1 million words computed for the top 1000 SSID's
- 7 and 33 GB torrents
- Hak5 single tables downloads
Drivers
The Alfa AWUS036H adapter is a really good 500 mW USB device based on the RTL8187 chipset, but the drivers are buggy. Currently, as of September 2009, it seems that the Compat mac80211 drivers are the most usable and stable one. See the tutorial below for details on how to install the correct driver.
I can confirm that the latest rtl8187/mac80211 drivers are slow. Packet injection using same device in Backtrack 3 (BT3) was much faster than in Backtrack (BT4) pre-final. Unsure of the cause, but it seems that the latest drivers lack a speed patch used previously (see thread below). BT3 uses the r8187/ieee80211_rtl stack while BT4 uses the main kernel rtl8187/mac80211 stack with some patches already applied (the Beta, not Pre-final, had news about rtl8187/mac80211speed improvements).
Summary:
apt-get install linux-headers-$(uname -r) build-essential make patch gettext gcc python-psyco autoconf subversion tcl8.5 libssl-dev libnl1 libnl-dev cd /usr/src/linux-source-$(uname -r) sudo make menuconfig sudo make; sudo make modules sudo rmmod rtl8187 sudo rmmod mac80211 echo "blacklist rtl8187" | sudo tee -a /etc/modprobe.d/blacklist echo "blacklist r8187" | sudo tee -a /etc/modprobe.d/blacklist echo "blacklist rt2870sta" | sudo tee -a /etc/modprobe.d/blacklist echo "blacklist mac80211" | sudo tee -a /etc/modprobe.d/blacklist sudo mkdir /usr/src/drivers cd /usr/src/drivers sudo wget http://download.aircrack-ng.org/drivers/compat-wireless-aircrack-alfa036h-050nh.tar.bz2 sudo tar jxvf compat-wireless-aircrack-alfa036h-050nh.tar.bz2 cd compat-wireless-aircrack-alfa036h-050nh sudo make sudo make install sudo make unload
- TUTORIAL: Installing drivers RTL8187, r8187, RT2800usb on UBUNTU
- tl8187 injection speed patches on linux-2.6.29
Word lists
List of word lists
These are compiled word lists and readily available.
- Church of Wifi wordlists - passwords2 (2.1 MB) and 9-final-wordlist (11 MB)
- Outpost9.com (direct) - dic-0294 (8.04 MB) (reference)
- Openwall wordlists - Multiple languages, small fee
- The Argon various wordlists - There are WPA versions of these lists, see Xploitz below
- Xploitz Master Password Collection
- Huegel's Cracking Dictionary Compilation - Cleaned-up version of Xploitz list
Generating word lists
By following simple guidelines a good word-list can be generated. Consider the following:
- Most people use easy to remember passwords, in this case it has to be 8 characters or over in length
- Append 0-9 to the word, i.e. (word)1, (word)2, (word)3, ..
- Sequence of numbers are often used, e.g. 123, 321, 999, ..
- First letter is often upper-case
- Short words (under 8 characters) are stringed in series of two, e.g. googlegoogle, hellohello, openopen, ..
- Forename and surname often used
John The Ripper and Raptor 3 are great utilities to create all the permutations mentioned above. JTP can pipe the data to avoid having to save the new stream. JTR has an extended rules engine to build the permutations.
john -wordfile:dictfile -rules -session:johnrestore.dat -stdout:63 | \ cowpatty -r eap-test.dump -f - -s somethingclever [3]
Tools
GPU acceleration
CUDA (Compute Unified Device Architecture) is a parallel computing architecture developed by nVidia [4]. Competitively, FireStream / Fire Processor is a stream processor developed by ATI Technologies. Both are based on the GPGPU (General Purpose Graphics Processing Units) concept for heavy floating-point computations [5]. Instead of having four or eight threads crunching on a parallelized task in the CPU, you could have 64, 320, or how many stream processors (Unified Shaders) tackling the same work in the GPU [6].
Traditionally the GPU has been very limited, only accelerating part of the graphics pipeline. Utilizing the GPU to perform floating-point computations is an order of magnitudes faster than on a modern CPU. It possible to achieve over a teraflop of theoretical computing capacity using relatively inexpensive commodity hardware.
As a side-note, SLI can not be used, only individual processor units.
- List of CUDA enabled nVidia video cards
- List of AMD/ATI Stream processor line-up
- nitteo's gigant F@H GPU2 FARM
- Manifold nVidia CUDA review
- Tom's Hardware: Look at Nvidia CUDA
Practical attak
Handy commands
Connect to OPEN network:
ifconfig wlan0 down iwconfig wlan0 essid SMC dhclient wlan0 -d
Connect to WEP protected network:
ifconfig wlan0 down iwconfig wlan0 enc (40/104bit key) iwconfig wlan0 essid SMC dhclient wlan0 -d
References
- Cracking WPA FAST with video cards - Forum post
- Remote-Exploit forums - Great community and resource
- Benefits of Time-Memory Trade-Off in coWPAtty
- Creating custom password lists from webpages
- pyrit CUDA nvidia Tutorial and Nvidia overclock instructions - PDF version
- BT4 (pre)final ATI guide
- WPA cracking with AMD Stream and a Radeon HD4870 by Znuh
- nitteo's gigant F@H GPU2 FARM
- Cracking Wi-Fi Protected Access (WPA), Part 2 - excellent article