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Main Authors: Hong, Jaemin, Ryu, Sukyoung
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.01427
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author Hong, Jaemin
Ryu, Sukyoung
author_facet Hong, Jaemin
Ryu, Sukyoung
contents Translating C to Rust is a promising way to enhance the reliability of legacy system programs. Although the industry has developed an automatic C-to-Rust translator, C2Rust, its translation remains unsatisfactory. One major reason is that C2Rust retains C standard library (libc) function calls instead of replacing them with functions from the Rust standard library (Rust std). However, little work has been done on replacing library functions in C2Rust-generated code. In this work, we focus on replacing the I/O API, an important subset of library functions. This poses challenges due to the semantically different designs of I/O APIs in libc and Rust std. First, the two APIs offer different sets of types that represent the origins (e.g., standard input, files) and capabilities (e.g., read, write) of streams used for I/O. Second, they use different error-checking mechanisms: libc uses internal indicators, while Rust std uses return values. To address these challenges, we propose two static analysis techniques, origin and capability analysis and error source analysis, and use their results to replace the I/O API. Our evaluation shows that the proposed approach is (1) correct, with all 32 programs that have test suites passing the tests after transformation, (2) efficient, analyzing and transforming 422k LOC in 14 seconds, and (3) widely applicable, replacing 82% of I/O API calls.
format Preprint
id arxiv_https___arxiv_org_abs_2506_01427
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Forcrat: Automatic I/O API Translation from C to Rust via Origin and Capability Analysis
Hong, Jaemin
Ryu, Sukyoung
Software Engineering
Translating C to Rust is a promising way to enhance the reliability of legacy system programs. Although the industry has developed an automatic C-to-Rust translator, C2Rust, its translation remains unsatisfactory. One major reason is that C2Rust retains C standard library (libc) function calls instead of replacing them with functions from the Rust standard library (Rust std). However, little work has been done on replacing library functions in C2Rust-generated code. In this work, we focus on replacing the I/O API, an important subset of library functions. This poses challenges due to the semantically different designs of I/O APIs in libc and Rust std. First, the two APIs offer different sets of types that represent the origins (e.g., standard input, files) and capabilities (e.g., read, write) of streams used for I/O. Second, they use different error-checking mechanisms: libc uses internal indicators, while Rust std uses return values. To address these challenges, we propose two static analysis techniques, origin and capability analysis and error source analysis, and use their results to replace the I/O API. Our evaluation shows that the proposed approach is (1) correct, with all 32 programs that have test suites passing the tests after transformation, (2) efficient, analyzing and transforming 422k LOC in 14 seconds, and (3) widely applicable, replacing 82% of I/O API calls.
title Forcrat: Automatic I/O API Translation from C to Rust via Origin and Capability Analysis
topic Software Engineering
url https://arxiv.org/abs/2506.01427