creusot
wasmer
creusot | wasmer | |
---|---|---|
15 | 131 | |
868 | 17,870 | |
- | 1.5% | |
9.6 | 9.9 | |
3 months ago | 5 days ago | |
Rust | Rust | |
GNU Lesser General Public License v3.0 only | MIT License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
creusot
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Conditioonal Compilation across Crates?
However, it seems that C is not "notified" whether --cfg thing is set, only the main crate being built is. Regardless of this flag, the dummy macro is always chosen. Am I doing something wrong? It should work; the Creusot project is doing something similar.
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Kani 0.29.0 has been released!
I believe https://github.com/xldenis/creusot is more similar in that it also uses proofs to prove rust code correct.
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Prop v0.42 released! Don't panic! The answer is... support for dependent types :)
Wow that sounds really cool! I'm not an expert but does that mean that one day you could implement dependend types or refinement types in Rust as a crate ? I currently only know of tools like: Flux Creusot Kani Prusti
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Linus Torvalds: Rust will go into Linux 6.1
Easy reasoning does not end on memory safety. For example, deductive verification of Rust code is possible exactly because there's no reference aliasing in safe Rust
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A personal list of Rust grievances
> No support for using something like separation logic within Rust itself to verify that unsafe code upholds the invariants that the safe language expects.
I think this is something we might see in the future. There are a lot of formal methods people who are interested in rust. Creusot in particular is pretty close to doing this - at least for simpler invariants
https://github.com/xldenis/creusot
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Whiley, a language with statically checked pre and post conditions, releases its 0.6.1 version and portions implemented in Rust
Seems similar in principle to cruesot except as another language instead of as a layer on-top of rust.
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What it feels like when Rust saves your bacon
You often encounter this entire thread of rhetoric when someone wants to put a diversion into the central argument, yeah but it doesn't ____.
But Rust does do that, match exhaustiveness, forcing the handling of errors and the type system enables things like CreuSAT [1] using creusot [2]
[1] https://news.ycombinator.com/item?id=31780128
[2] https://github.com/xldenis/creusot
> Creusot works by translating Rust code to WhyML, the verification and specification language of Why3. Users can then leverage the full power of Why3 to (semi)-automatically discharge the verification conditions!
Units of Measure, https://github.com/iliekturtles/uom
The base properties of the language enable things that can never be done in C++.
- Creusot: Deductive Verification of Rust
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What Is Rust's Unsafe?
> I’ve been working on a tool: https://github.com/xldenis/creusot to put this into practice
Note that there are other tools trying to deal with formal statements about Rust code. AIUI, Rust developers are working on forming a proper working group for pursuing these issues. We might get a RFC-standardized way of expressing formal/logical conditions about Rust code, which would be a meaningful first step towards supporting proof-carrying code within Rust.
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AdaCore and Ferrous Systems Joining Forces to Support Rust
This is exciting! I've met with people from AdaCore and Ferrous systems (individually) several times and they're all serious, competent and motivated.
I'm curious what kinds of software they want to (eventually) verify, my PhD thesis is developing a verification tool for Rust (https://github.com/xldenis/creusot) and I'm always on the look out for case studies to push me forward.
The road to formally verified Rust is still long but in my unbiased opinion looking quite bright, especially compared to other languages like C.
wasmer
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Bebop v3: a fast, modern replacement to Protocol Buffers
This is awesome. I'd love to have upstream support in Wasmer ( https://wasmer.io )
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Unlocking the Power of WebAssembly
WebAssembly is extremely portable. WebAssembly runs on: all major web browsers, V8 runtimes like Node.js, and independent Wasm runtimes like Wasmtime, Lucet, and Wasmer.
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Show HN: dockerc – Docker image to static executable "compiler"
Unfortunately cosmopolitan wouldn't work for dockerc. Cosmopolitan works as long as you only use it but container runtimes require additional features. Also containers contain arbitrary executables so not sure how that would work either...
As for WASM, this is already possible using container2wasm[0] and wasmer[1]'s ability to generate static binaries.
[0]: https://github.com/ktock/container2wasm
[1]: https://wasmer.io/
- RustPython
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Howto: WASM runtimes in Docker / Colima
I could not find any guide how to add WASM container capability to Docker running on Colima. This guide provides a few Colima templates for exactly this, which adds WasmEdge, Wasmtime and Wasmer runtime types.
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Show HN: Mutable.ai – Turn your codebase into a Wiki
Just suggested as well Wasmer on Twitter! https://github.com/wasmerio/wasmer
Looking forward to seeing the results :)
- Jaq – A jq clone focused on correctness, speed, and simplicity
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Prettier $20k Bounty was Claimed
The Biome team has been incredibly fast on solving the challenge and achieving 95% compatibility with Prettier [1]
Just as a note, as it was not mentioned in the article, Wasmer [2] also participated with a $2,500 bounty to compile Biome to WASIX [3], and it has been awesome to see how their team has been working to achieve this as well... hopefully we'll get Biome running in Wasmer soon!
Keep up the great work!!
[1] https://github.com/biomejs/biome/issues/720
[2] https://wasmer.io/
[3] https://wasix.org/
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The Curse of Docker
It's funny how WebAssembly can help overcome most of the issues mentioned on the blogpost (packaging, configuration, portability) if addressed properly.
That's the main reason Wasmer [1] was created :)
[1] https://wasmer.io
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Bring garbage collected programming languages efficiently to WebAssembly
Thanks for the mention to Wasmer.
I'll put here a link in case is useful for future readers: https://wasmer.io/
What are some alternatives?
misra-rust - An investigation into what adhering to each MISRA-C rule looks like in Rust. The intention is to decipher how much we "get for free" from the Rust compiler.
wasmtime - A fast and secure runtime for WebAssembly
l4v - seL4 specification and proofs
SSVM - WasmEdge is a lightweight, high-performance, and extensible WebAssembly runtime for cloud native, edge, and decentralized applications. It powers serverless apps, embedded functions, microservices, smart contracts, and IoT devices.
Daikon - Dynamic detection of likely invariants
wasm3 - 🚀 A fast WebAssembly interpreter and the most universal WASM runtime
agda-stdlib - The Agda standard library
quickjs-emscripten - Safely execute untrusted Javascript in your Javascript, and execute synchronous code that uses async functions
hacspec - Please see https://github.com/hacspec/hax
awesome-wasm-runtimes - A list of webassemby runtimes
CreuSAT - CreuSAT - A formally verified SAT solver written in Rust and verified with Creusot.
wasm-bindgen - Facilitating high-level interactions between Wasm modules and JavaScript