Weak Diffie-Hellman and the Logjam Attack - Revoke from Web Server

Diffie-Hellman key exchange is a popular cryptographic algorithm that allows Internet protocols to agree on a shared key and negotiate a secure connection. It is fundamental to many protocols including HTTPS, SSH, IPsec, SMTPS, and protocols that rely on TLS.
We have uncovered several weaknesses in how Diffie-Hellman key exchange has been deployed:
  1. Logjam attack against the TLS protocol. The Logjam attack allows a man-in-the-middle attacker to downgrade vulnerable TLS connections to 512-bit export-grade cryptography. This allows the attacker to read and modify any data passed over the connection. The attack is reminiscent of the FREAK attack, but is due to a flaw in the TLS protocol rather than an implementation vulnerability, and attacks a Diffie-Hellman key exchange rather than an RSA key exchange. The attack affects any server that supports DHE_EXPORTciphers, and affects all modern web browsers. 8.4% of the Top 1 Million domains were initially vulnerable.
  2. Threats from state-level adversaries. Millions of HTTPS, SSH, and VPN servers all use the same prime numbers for Diffie-Hellman key exchange. Practitioners believed this was safe as long as new key exchange messages were generated for every connection. However, the first step in the number field sieve—the most efficient algorithm for breaking a Diffie-Hellman connection—is dependent only on this prime. After this first step, an attacker can quickly break individual connections.
    We carried out this computation against the most common 512-bit prime used for TLS and demonstrate that the Logjam attack can be used to downgrade connections to 80% of TLS servers supporting DHE_EXPORT. We further estimate that an academic team can break a 768-bit prime and that a nation-state can break a 1024-bit prime. Breaking the single, most common 1024-bit prime used by web servers would allow passive eavesdropping on connections to 18% of the Top 1 Million HTTPS domains. A second prime would allow passive decryption of connections to 66% of VPN servers and 26% of SSH servers. A close reading of published NSA leaks shows that the agency's attacks on VPNs are consistent with having achieved such a break.

Full Technical Paper

Imperfect Forward Secrecy: How Diffie-Hellman Fails in Practice
David Adrian, Karthikeyan Bhargavan, Zakir Durumeric, Pierrick Gaudry, Matthew Green, J. Alex Halderman, Nadia Heninger, Drew Springall, Emmanuel Thomé, Luke Valenta, Benjamin VanderSloot, Eric Wustrow, Santiago Zanella-Béguelin, and Paul Zimmermann
22nd ACM Conference on Computer and Communications Security (CCS ’15), Denver, CO, October 2015
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More: Full paper | Talk slides | Bibtex

Additional Information

Contact the Team

This study was performed by computer scientists at CNRS, Inria Nancy-Grand Est, Inria Paris-Rocquencourt, Microsoft Research, Johns Hopkins University, University of Michigan, and the University of Pennsylvania: David AdrianKarthikeyan BhargavanZakir Durumeric,Pierrick GaudryMatthew GreenJ. Alex HaldermanNadia HeningerDrew SpringallEmmanuel ThoméLuke ValentaBenjamin VanderSloot,Eric WustrowSantiago Zanella-Beguelin, and Paul Zimmermann. The team can be contacted at weakdh-team@umich.edu.

Who is Affected?

Websites, mail servers, and other TLS-dependent services that support DHE_EXPORT ciphers are at risk for the Logjam attack. We use Internet-wide scanning to measure who is vulnerable.
ProtocolVulnerable to Logjam
HTTPS — Top 1 Million Domains8.4%
HTTPS — Browser Trusted Sites3.4%
SMTP+StartTLS — IPv4 Address Space14.8%
POP3S — IPv4 Address Space8.9%
IMAPS — IPv4 Address Space8.4%
Websites that use one of a few commonly shared 1024-bit Diffie-Hellman groups may be susceptible to passive eavesdropping from an attacker with nation-state resources. Here, we show how various protocols would be affected if a single 1024-bit group were broken in each protocol, assuming a typical up-to-date client (e.g., most recent version of OpenSSH or up-to-date installation of Chrome).
Vulnerable if most common 1024-bit group is broken
HTTPS — Top 1 Million Domains17.9%
HTTPS — Browser Trusted Sites6.6%
SSH — IPv4 Address Space25.7%
IKEv1 (IPsec VPNs) — IPv4 Address Space66.1%

What Should I Do?

If you run a server…

If you have a web or mail server, you should disable support for export cipher suites and use a 2048-bit Diffie-Hellman group. We have published a Guide to Deploying Diffie-Hellman for TLS with step-by-step instructions. If you use SSH, you should upgrade both your server and client installations to the most recent version of OpenSSH, which prefers Elliptic-Curve Diffie-Hellman Key Exchange.

If you use a browser…

Make sure you have the most recent version of your browser installed, and check for updates frequently. Google Chrome (including Android Browser), Mozilla Firefox, Microsoft Internet Explorer, and Apple Safari are all deploying fixes for the Logjam attack.

If you’re a sysadmin or developer …


Make sure any TLS libraries you use are up-to-date, that servers you maintain use 2048-bit or larger primes, and that clients you maintain reject Diffie-Hellman primes smaller than 1024-bit.