Kernkonzepte
Relational network verification offers a new approach to validating network changes by analyzing similarities and differences between two network snapshots.
Zusammenfassung
The content introduces relational network verification as a method to validate network changes by comparing two network snapshots. It discusses the challenges of traditional single-snapshot verification and the benefits of relational reasoning. The development of a high-level relational specification language and a tool called Rela is highlighted, along with experiments demonstrating its effectiveness in validating network changes. The article also explores the formalization of Rela specifications and the decision procedure for compliance checking.
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Introduction to Relational Network Verification
- Relational approach to network change validation.
- Contrasting traditional single-snapshot verification.
- Development of Rela tool for network change validation.
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Challenges of Single-Snapshot Verification
- Scale and complexity issues in creating detailed specifications.
- Incomplete information and the need for manual inspection.
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Benefits of Relational Reasoning
- Compact and precise specifications for network changes.
- Formalizing engineer intent in change requests.
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Formalization of Rela Specifications
- Translation of Rela specifications into Regular IR.
- Syntax and semantics of Rela specifications.
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Decision Procedure
- Compilation of Rela into Finite-State Automaton.
- Compliance checking and counterexample generation.
Statistiken
"Relational network verification is a new approach to validating network changes."
"Rela specifications need fewer than 10 terms for 93% of changes."
"Rela validates 80% of changes within 20 minutes."
Zitate
"Creating such specifications is almost impossible for most real-world networks."
"Manual inspection is time-consuming, tedious, and error-prone."
"Relational verification will prove effective in stateful forwarding and control planes."