Causes and Canonicalization of Unreproducible Builds in Java
April 30, 2025 Β· Declared Dead Β· π IEEE Transactions on Software Engineering
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Authors
Aman Sharma, Benoit Baudry, Martin Monperrus
arXiv ID
2504.21679
Category
cs.SE: Software Engineering
Citations
3
Venue
IEEE Transactions on Software Engineering
Last Checked
4 months ago
Abstract
The increasing complexity of software supply chains and the rise of supply chain attacks have elevated concerns around software integrity. Users and stakeholders face significant challenges in validating that a given software artifact corresponds to its declared source. Reproducible Builds address this challenge by ensuring that independently performed builds from identical source code produce identical binaries. However, achieving reproducibility at scale remains difficult, especially in Java, due to a range of non-deterministic factors and caveats in the build process. In this work, we focus on reproducibility in Java-based software, archetypal of enterprise applications. We introduce a conceptual framework for reproducible builds, we analyze a large dataset from Reproducible Central, and we develop a novel taxonomy of six root causes of unreproducibility. We study actionable mitigations: artifact and bytecode canonicalization using OSS-Rebuild and jNorm respectively. Finally, we present Chains-Rebuild, a tool that achieve successfulcanonicalization for 26.60% on 12,803 unreproducible artifacts To sum up, our contributions are the first large-scale taxonomy of build unreproducibility causes in Java, a publicly available dataset of unreproducible builds, and Chains-Rebuild, a canonicalization tool for mitigating unreproducible builds in Java.
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