Password cracking

Abstract: Password-based protocols for authenticated key exchange (AKE) are designed to work despite the use of passwords drawn from a space so small that an adversary might well enumerate, off line, all possible passwords. While several such protocols have been suggested, the underlying theory has been lagging. We begin by defining a model for this problem, one rich enough to deal with password guessing, forward secrecy, server compromise, and loss of session keys. The one model can be used to define various goals. We take AKE (with "implicit" authentication) as the "basic" goal, and we give definitions for it, and for entity-authentication goals as well. Then we prove correctness for the idea at the center of the Encrypted Key-Exchange (EKE) protocol of Bellovin and Merritt: we prove security, in an ideal-cipher model, of the two-flow protocol at the core of EKE.

Abstract: Classic cryptographic protocols based on user-chosen keys allow an attacker to mount password-guessing attacks. A combination of asymmetric (public-key) and symmetric (secret-key) cryptography that allow two parties sharing a common password to exchange confidential and authenticated information over an insecure network is introduced. In particular, a protocol relying on the counter-intuitive motion of using a secret key to encrypt a public key is presented. Such protocols are secure against active attacks, and have the property that the password is protected against offline dictionary attacks. >

Abstract: Password-based authenticated key exchange are protocols which are designed to be secure even when the secret key or password shared between two users is drawn from a small set of values. Due to the low entropy of passwords, such protocols are always subject to on-line guessing attacks. In these attacks, the adversary may succeed with non-negligible probability by guessing the password shared between two users during its on-line attempt to impersonate one of these users. The main goal of password-based authenticated key exchange protocols is to restrict the adversary to this case only. In this paper, we consider password-based authenticated key exchange in the three-party scenario, in which the users trying to establish a secret do not share a password between themselves but only with a trusted server. Towards our goal, we recall some of the existing security notions for password-based authenticated key exchange protocols and introduce new ones that are more suitable to the case of generic constructions. We then present a natural generic construction of a three-party protocol, based on any two-party authenticated key exchange protocol, and prove its security without making use of the Random Oracle model. To the best of our knowledge, the new protocol is the first provably-secure password-based protocol in the three-party setting.

Abstract: The most common computer authentication method is to use alphanumerical usernames and passwords. This method has been shown to have significant drawbacks. For example, users tend to pick passwords that can be easily guessed. On the other hand, if a password is hard to guess, then it is often hard to remember. To address this problem, some researchers have developed authentication methods that use pictures as passwords. In this paper, we conduct a comprehensive survey of the existing graphical password techniques. We classify these techniques into two categories: recognition-based and recall-based approaches. We discuss the strengths and limitations of each method and point out the future research directions in this area. We also try to answer two important questions: "Are graphical passwords as secure as text-based passwords?"; "What are the major design and implementation issues for graphical passwords?" This survey will be useful for information security researchers and practitioners who are interested in finding an alternative to text-based authentication methods