Skip to content

Latest commit

 

History

History
50 lines (32 loc) · 2.55 KB

lec_23_anonymous.md

File metadata and controls

50 lines (32 loc) · 2.55 KB
title filename chapternum
Anonymous communication
lec_23_anonymous
22

Anonymous communication

Encryption is meant to protect the contents of communication, but sometimes the bigger secret is that the communication existed in the first place. If a whistleblower wants to leak some information to the New York Times, the mere fact that she sent an email would reveal her identity. There are two main concepts aimed at achieving anonymity:

  • Anonymous routing is about ensuring that Alice and Bob can communicate without that fact being revealed.

  • Steganography is about having Alice and Bob hiding an encrypted communication in the context of an seemingly innocuous conversation.

Steganography

The goal in a stegnaographic communication is to hide cryptographic (or non cryptographic) content without being detected. The idea is simple: let's start with the symmetric case and assume Alice and Bob share a shared key $k$ and Alice wants to transmit a bit $b$ to Bob. We assume that Alice and has a choice of $t$ words $w_1,\ldots,w_t$ that would be reasonable for her to send at this point in the conversation. Alice will choose a word $w_i$ such that $f_k(w_i)=b$ where ${ f_k }$ is a pseudorandom function collection. With probability $1-2^{-t}$ there will be such a word. Bob will decode the message using $f_k(w_i)$. Alice and Bob can use an error correcting code to compensate for the probability $2^{-t}$ that Alice is forced to send the wrong bit.

In the public key setting, suppose that Bob publishes a public key $e$ for an encryption scheme that has pseudorandom ciphertexts. That is, to a party that does not know the key, an encryption is indistinguishable from a random string. To send some message $m$ to Bob, Alice computes $c = E_e(m)$ and transmits it to Bob one bit at a time. Given the $t$ words $w_1,\ldots,w_t$, to transmit the bit $c_j$ Alice chooses a word $w_i$ such that $H(w_i)=c_j$ where $H:{0,1}^*\rightarrow{0,1}$ is a hash function modeled as a random oracle. The distribution of words output by Alice $w^1,\ldots,w^\ell$ is uniform conditioned on $(H(w^1),\ldots,H(w^\ell))=c$. But note that if $H$ is a random oracle, then $H(w^1),\ldots,H(w^\ell)$ is going to be uniform, and hence indistinguishable from $c$.

Anonymous routing

  • Low latency communication: Aqua, Crowds, LAP, ShadowWalker, Tarzan, Tor

  • Message at a time, protection against timing / traffic analysis: Mix-nets, e-voting, Dining Cryptographer network (DC net), Dissent, Herbivore, Riposte

Tor

Basic arhictecture. Attacks

Telex

Riposte