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Formal verification of Multi-Paxos for distributed consensus - MaRDI portal

Formal verification of Multi-Paxos for distributed consensus

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Publication:2281632

DOI10.1007/978-3-319-48989-6_8zbMath1427.68162arXiv1606.01387OpenAlexW2949965653MaRDI QIDQ2281632

Yanhong A. Liu, Saksham Chand, Scott D. Stoller

Publication date: 3 January 2020

Abstract: Paxos is an important algorithm for a set of distributed processes to agree on a single value or a sequence of values, for which it is called Basic Paxos or Multi-Paxos, respectively. Consensus is critical when distributed services are replicated for fault-tolerance, because non-faulty replicas must agree on the state of the system or the sequence of operations that have been performed. Unfortunately, consensus algorithms including Multi-Paxos in particular are well-known to be difficult to understand, and their accurate specifications and correctness proofs remain challenging, despite extensive studies ever since Lamport introduced Paxos. This article describes formal specification and verification of Lamport's Multi-Paxos algorithm for distributed consensus. The specification is written in TLA+, Lamport's Temporal Logic of Actions. The proof is written and automatically checked using TLAPS, the TLA+ Proof System. The proof is for the safety property of the algorithm. Building on Lamport, Merz, and Doligez's specification and proof for Basic Paxos, we aim to facilitate the understanding of Multi-Paxos and its proof by minimizing the difference from those for Basic Paxos, and to demonstrate a general way of proving other variants of Paxos and other sophisticated distributed algorithms. We also discuss our general strategies and results for proving complex invariants using invariance lemmas and increments, for proving properties about sets and tuples to help the proof check succeed in significantly reduced time, and for overall proof improvement leading to considerably reduced proof size.


Full work available at URL: https://arxiv.org/abs/1606.01387






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