Contextual Linear Types for Differential Privacy

IF 1.5 2区计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING ACM Transactions on Programming Languages and Systems Pub Date : 2023-05-17 DOI:https://dl.acm.org/doi/10.1145/3589207

Matías Toro, David Darais, Chike Abuah, Joseph P. Near, Damián Árquez, Federico Olmedo, Éric Tanter

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Abstract

Language support for differentially private programming is both crucial and delicate. While elaborate program logics can be very expressive, type-system-based approaches using linear types tend to be more lightweight and amenable to automatic checking and inference, and in particular in the presence of higher-order programming. Since the seminal design of Fuzz, which is restricted to ϵ-differential privacy in its original design, significant progress has been made to support more advanced variants of differential privacy, like (ϵ, δ)-differential privacy. However, supporting these advanced privacy variants while also supporting higher-order programming in full has proven to be challenging. We present Jazz, a language and type system that uses linear types and latent contextual effects to support both advanced variants of differential privacy and higher-order programming. Latent contextual effects allow delaying the payment of effects for connectives such as products, sums, and functions, yielding advantages in terms of precision of the analysis and annotation burden upon elimination, as well as modularity. We formalize the core of Jazz, prove it sound for privacy via a logical relation for metric preservation, and illustrate its expressive power through a number of case studies drawn from the recent differential privacy literature.

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差分隐私的上下文线性类型

对不同私有编程的语言支持既重要又微妙。虽然精心设计的程序逻辑可能非常具有表现力，但是使用线性类型的基于类型系统的方法往往更轻量级，更适合自动检查和推理，特别是在存在高阶编程的情况下。自Fuzz的开创性设计以来，它在原始设计中仅限于ϵ-differential隐私，在支持更高级的差分隐私变体(如(λ， δ)-差分隐私)方面取得了重大进展。然而，要在完全支持高阶编程的同时支持这些高级隐私变体，已被证明是具有挑战性的。我们介绍Jazz，这是一种语言和类型系统，它使用线性类型和潜在的上下文效应来支持差分隐私的高级变体和高阶编程。潜在的上下文效应允许延迟诸如产品、总和和函数等连接词的效果的支付，从而在分析的精确性和消除时的注释负担以及模块化方面产生优势。我们将Jazz的核心形式化，通过度量保存的逻辑关系证明它对隐私是合理的，并通过从最近的差分隐私文献中提取的许多案例研究来说明它的表达能力。

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来源期刊

ACM Transactions on Programming Languages and Systems 工程技术-计算机：软件工程

CiteScore

3.10

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： ACM Transactions on Programming Languages and Systems (TOPLAS) is the premier journal for reporting recent research advances in the areas of programming languages, and systems to assist the task of programming. Papers can be either theoretical or experimental in style, but in either case, they must contain innovative and novel content that advances the state of the art of programming languages and systems. We also invite strictly experimental papers that compare existing approaches, as well as tutorial and survey papers. The scope of TOPLAS includes, but is not limited to, the following subjects: language design for sequential and parallel programming programming language implementation programming language semantics compilers and interpreters runtime systems for program execution storage allocation and garbage collection languages and methods for writing program specifications languages and methods for secure and reliable programs testing and verification of programs