Abstract

We propose the Write-Once Register (WOR) as an abstraction for building and verifying distributed systems. A WOR exposes a simple, data-centric API: clients can capture, write, and read it. Applications can use a sequence or a set of WORs to obtain properties such as durability, concurrency control, and failure atomicity. By hiding the logic for distributed coordination underneath a data-centric API, the WOR abstraction enables easy, incremental, and extensible implementation and verification of applications built above it. We present the design, implementation, and verification of a system called WormSpace that provides developers with an address space of WORs, implementing each WOR via a Paxos instance. We describe three applications built over WormSpace: a flexible, efficient Multi-Paxos implementation; a shared log implementation with lower append latency than the state-of-the-art; and a fault-tolerant transaction coordinator that uses an optimal number of round-trips. We show that these applications are simple, easy to verify, and match the performance of unverified monolithic implementations. We use a modular layered verification approach to link the proofs for WormSpace, its applications, and a verified operating system to produce the first verified distributed system stack from the application to the operating system.