Do you think your wireless network is secure because you're using WPA2 encryption?

If yes, think again!

Security researchers have discovered several key management vulnerabilities in the core of Wi-Fi Protected Access II (WPA2) protocol that could allow an attacker to hack into your Wi-Fi network and eavesdrop on the Internet communications.

WPA2 is a 13-year-old WiFi authentication scheme widely used to secure WiFi connections, but the standard has been compromised, impacting almost all Wi-Fi devices—including in our homes and businesses, along with the networking companies that build them.

Dubbed KRACK—Key Reinstallation Attack—the proof-of-concept attack demonstrated by a team of researchers works against all modern protected Wi-Fi networks and can be abused to steal sensitive information like credit card numbers, passwords, chat messages, emails, and photos.

Since the weaknesses reside in the Wi-Fi standard itself, and not in the implementations or any individual product, any correct implementation of WPA2 is likely affected.

According to the researchers, the newly discovered attack works against:

• Both WPA1 and WPA2,
• Personal and enterprise networks,
• Ciphers WPA-TKIP, AES-CCMP, and GCMP

In short, if your device supports WiFi, it is most likely affected. During their initial research, the researchers discovered that Android, Linux, Apple, Windows, OpenBSD, MediaTek, Linksys, and others, are all affected by the KRACK attacks.

It should be noted that the KRACK attack does not help attackers to recover the targeted WiFi's password; instead, it allows them to decrypt WiFi users' data without cracking or knowing the actual password.

So merely changing your Wi-Fi network password does not prevent (or mitigate) KRACK attack.

Here's How the KRACK WPA2 Attack Works:

Discovered by researcher Mathy Vanhoef of imec-DistriNet, KU Leuven, the KRACK attack works by exploiting a 4-way handshake of the WPA2 protocol that's used to establish a key for encrypting traffic.

For a successful KRACK attack, an attacker needs to trick a victim into re-installing an already-in-use key, which is achieved by manipulating and replaying cryptographic handshake messages.

"When the victim reinstalls the key, associated parameters such as the incremental transmit packet number (i.e. nonce) and receive packet number (i.e. replay counter) are reset to their initial value," the researcher writes. 

"Essentially, to guarantee security, a key should only be installed and used once. Unfortunately, we found this is not guaranteed by the WPA2 protocol. By manipulating cryptographic handshakes, we can abuse this weakness in practice."

The research [PDF], titled Key Reinstallation Attacks: Forcing Nonce Reuse in WPA2, has been published by Mathy Vanhoef of KU Leuven and Frank Piessens of imec-DistriNet, Nitesh Saxena and Maliheh Shirvanian of the University of Alabama at Birmingham, Yong Li of Huawei Technologies, and Sven Schäge of Ruhr-Universität Bochum.

The team has successfully executed the key reinstallation attack against an Android smartphone, showing how an attacker can decrypt all data that the victim transmits over a protected WiFi. You can watch the proof-of-concept (PoC) video demonstration above.

"Decryption of packets is possible because a key reinstallation attack causes the transmit nonces (sometimes also called packet numbers or initialization vectors) to be reset to zero. As a result, the same encryption key is used with nonce values that have already been used in the past," the researcher say.

The researchers say their key reinstallation attack could be exceptionally devastating against Linux and Android 6.0 or higher, because "Android and Linux can be tricked into (re)installing an all-zero encryption key (see below for more info)."

The key management vulnerabilities in the WPA2 protocol discovered by the researchers has been tracked as CVE-2017-13077, CVE-2017-13078, CVE-2017-13079, CVE-2017-13080, CVE-2017-13081, CVE-2017-13082, CVE-2017-13084, CVE-2017-13086, CVE-2017-13087, CVE-2017-13088.

In order to patch these vulnerabilities, you need to wait for the firmware updates from your device vendors.

You can read more information about these vulnerabilities on the KRACK attack's dedicated website, and the research paper.

The team has also promised to release a tool using which you can check whether if your WiFi network is vulnerable to the KRACK attack or not.

We will keep updating the story. Stay Tuned!