International Association
for Cryptologic Research

Waku is a privacy-preserving, generalized, and decentralized messaging protocol suite. Waku uses GossipSub for message routing and Rate Limiting Nullifiers (RLN) for spam protection. GossipSub ensures fast and reliable peer-to-peer message delivery in a permissionless environment, while RLN enforces a common publishing rate limit using zero-knowledge proofs.

This paper presents a practical evaluation of message propagation latency in Waku. First, we estimate latencies analytically, building a simple mathematical model for latency under varying conditions. Second, we run a large-scale single-host simulation with 1000 nodes. Third, we set up a multi-host Waku deployment using five nodes in different locations across the world. Finally, we compare our analytical estimations to the results of the simulation and the real-world measurement.

The experimental results are in line with our theoretical model. Under realistic assumptions, medium-sized messages (25 KB) are delivered within 1 second. We conclude that Waku can achieve satisfactory latency for typical use cases, such as decentralized messengers, while providing scalability and anonymity.