Your humble blogwatcher has selected these bloggy morsels for your enjoyment.
Nate Anderson dons his tinfoil hat:
Researchers have come a step closer to breaking open a common WiFi encryption scheme. An attacker can now read and falsify short packets in the common TKIP version of WiFi Protected Access (WPA) encryption in about one minute—a huge speed increase from the previously-required 12-15 minutes..
The current attack comes courtesy of Toshihiro Ohigashi (Hiroshima University) and Masakatu Morii (Kobe University), and it is outlined in a new paper (PDF) of theirs called "A Practical Message Falsification Attack on WPA." It builds on 2008 research from a pair of German students, research that also attacked WPA TKIP systems and could read individual packets, crafted new data for them, then recalculate a legitimate packet checksum. MORE
Nick Farrell offers this inoffensive, lepidopteroid racial stereotype:
Japanese boffins took time out from fighting giant moths to work out how to break the WPA encryption system used in wireless routers in just sixty seconds. ... It has been known that WPA could be broken for some months now, but these researchers have come up with a theoretical attack and made it practical.
Both attacks work on WPA systems that use the Temporal Key Integrity Protocol (TKIP) algorithm ... [which] is a bit long in the tooth. It was designed as an interim encryption method as WiFi security was developing. ... However there is still a fair bit of WPA with TKIP kit out there since 2006. Newer WPA2 devices that use the stronger Advanced Encryption Standard (AES) algorithm remain safe for now. MORE
Jose Vilches looks back:
The attack builds on the so-called "Becks-Tews method" unveiled last year by researchers Martin Beck and Erik Tews. However, that method worked on a smaller range of WPA devices and took between 12 and 15 minutes to carry out. Both attacks work on WPA systems that use the Temporal Key Integrity Protocol (TKIP) algorithm.
They aren't key-recovery attacks -- but give hackers a way to read encrypted traffic sent between computers and certain types of routers that use the outdated encryption system. MORE
Glenn Fleishman gets technical:
Ohigahi and Morii use a physical man-in-the-middle (MitM) as part of their solution. ... A directional antenna that lets them intercept and reuse an ... initialization vector (IV) ... the station only receives the falsified packet, and thus doesn't receive an out-of-sequence number. This mostly likely requires a directional antenna which can overpower the broadcast of the access point for a given client; it might also work with a distant omnidirectional access point if the attacker had a more powerful omni.
The ... approach has other refinements, such as monitoring the network for periods of low usage and then switching from the pure repeater mode into a key recover mode in which the malicious party attempts to recover the encrypted checksum, blocking communication between the station and access point during this time. ... They reduce the time necessary for a crack by making additional assumptions about ARP packets that let them solve for the checksum about 37 percent of the time, and check whether they've recovered the key. MORE
But Scott Merrill couldn't care less:
Be like me, and forget trying to encrypt your transmission method, and rely instead on strong encryption at the protocol level. All of the wireless networks I’ve set up at home have been wide open. If you’re not using SSL or TLS for your traffic anyway, you’re doing something wrong. Besides, I hate having to key in security details when I visit friends’ “protected” wireless networks. MORE
To sum up, William Garrison mans the harpoons:
TKIP was fundamentally broken, by design. ... It allowed router manufacturers to use something better than WEP without having to beef-up their hardware. It worked well, and bought several years before it was completely broken.
Anyone who has a router using TKIP bought at a bad time, and is stuck with something that's only a little better than WEP. MORE
This story, "WPA Wi-Fi Cracked in a Minute — Maybe" was originally published by Computerworld.