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hyper | rustls | |
---|---|---|
97 | 57 | |
13,821 | 5,437 | |
1.7% | 3.6% | |
9.2 | 9.9 | |
about 6 hours ago | 3 days ago | |
Rust | Rust | |
MIT License | GNU General Public License v3.0 or later |
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.
hyper
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The Linux Kernel Prepares for Rust 1.77 Upgrade
> If you are equally picky and constrain yourself to parts of the ecosystem which care about binary size, you still have more options and can avoid size issues.
What's an example of this for, say, libcurl? On my system it has a tiny number of recursive dependencies, around a dozen. [0] Furthermore if I want to write a C program that uses libcurl I have to download zero bytes of data ... because it's a shared library that is already installed on my system, since so many programs already use it.
I don't really know the appropriate comparison for Rust. reqwest seems roughly comparable, but it's an HTTP client library, and not a general purpose network client like curl. Obviously curl can do a lot more. Even the list of direct dependencies for reqwest is quite long [1], and it's built on top of another http library [2] that has its own long list of dependencies, a list that includes tokio, no small library itself.
In terms of final binary size, the installed size of the curl package on my system, which includes both the command line tool and development dependencies for libcurl, is 1875.03 KiB.
[0] I'm excluding the dependency on the ca-certificates package, since this only provides the certificate chain for TLS and lots of programs rely on it.
[1] https://crates.io/crates/reqwest/0.11.24/dependencies
[2] https://crates.io/crates/hyper/0.14.28/dependencies
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json-responder 1.1: dynamic path resolution
hyper-based HTTP server generating JSON responses. Written in Rust.
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I pre-released my project "json-responder" written in Rust
tokio / hyper / toml / serde / serde_json / json5 / console
- How Turborepo is porting from Go to Rust
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Signway - a pre-signed URLs gateway written in rust, specifically designed for allowing LLM based client apps to directly query OpenAI's api securely.
Using Rust here was immensely helpful, using libraries made by the community like https://github.com/hyperium/hyper really powered up the development of Signway, so glad to see this kind of awesome crates made public. Hope that it continues to be like that despite the current controversies.
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Problem with YouTube embed thumbnail...
- Discord sends a slightly weird request by specifying content length (a bug in hyper we've not yet upgraded to fix, https://github.com/hyperium/hyper/commit/fb90d30c02d8f7cdc9a643597d5c4ca7a123f3dd)
- Hyper – A fast and correct HTTP implementation for Rust
rustls
- Pingora: HTTP Server and Proxy Library, in Rust, by Cloudflare, Released
- Alternative to openssl for reqwest https with client certs.
- rustls 0.22 is out with pluggable crypto providers and better CRL support
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Exploring the Rust compiler benchmark suite
The RustTLS project is currently setting up their own CI benchmarking workflow, so I think that you could find some inspiration there: https://github.com/rustls/rustls/issues/1385 and https://github.com/rustls/rustls/issues/1205.
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What are the scenarios where "Rewrite it in Rust" didn't meet your expectations or couldn't be successfully implemented?
I also studied this question on FFI several weeks ago in terms of "rewrite part of the system in Rust". Unexpected results could be semantic issues (e.g., different error handling methods) or security issues (FFI could be a soundness hole). I suggest going through the issues of libraries that have started rewriting work such as rust-openssl or rustls (This is the one trying to rewrite in whole rust rather than using FFI; however, you will not be able to find the mapping function in the C version and compare them). I hope this helps!
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A brief guide to choosing TLS crates
Now for rust implementation of tls. Certificates can be loaded in two ways. * Finds and loads certificates using OS specific tools3 * Uses a rust implementation of webpki4 for loading with certificates5
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Microsoft is busy rewriting core Windows library code in memory-safe Rust
> Ring is mostly C/Assembly
Crypto needs to be written in Assembly to ensure that operations take a constant time, regardless of input. Writing it in a high level language like C or Rust opens you up to the compiler "optimising" routines and making them no longer constant time.
But you already knew this. And you also knew that the security audit (https://github.com/rustls/rustls/blob/master/audit/TLS-01-re...) of ring was favourable
> No issues were found with regards to the cryptographic engineering of rustls or its underlying ring library. A recommendation is provided in TLS-01-001 to optionally supplement the already solid cryptographic library with another cryptographic provider (EverCrypt) with an added benefit of formally verified cryptographic primitives. Overall, it is very clear that the developers of rustls have an extensive knowledge on how to correctly implement the TLS stack whilst avoiding the common pitfalls that surround the TLS ecosystem. This knowledge has translated reliably into an implementation of exceptional quality.
You said
> a standard library with feature flags and editions would make rust ridiculously much more productive
What's the difference between opting into a library with a feature flag and opting in with a line in Cargo.toml? Let's say you want to use the de-facto regex library. Would it really be ridiculously productive if you said you wanted the "regex" feature flag instead of the "regex" crate?
I do agree that the standard library does need a versioning story so they can remove long deprecated functions. Where it gets complicated is if a new method is reintroduced using the same name in a later edition.
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gRPC with mutual TLS on IPs only
I used the commands listed in the .sh file here: https://github.com/rustls/rustls/tree/main/test-ca to generate keys/certs for a server and a client (with IP.1 records for SANs). I have added the local root CA to the trust store of each VM.
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rustls 0.21 released with support for IP address server names
This is great news, this was our single biggest annoyance with rustls. One of our cloud providers choses to issue their hosted postgres instances with TLS certificates with IP addresses. Unusual, but valid per the spec, so why not. Apparently a practise that's also popular in kubernetes settings, so I'm somewhat surprised it took 5 years to close the issue, but now I can finally recommend people to use rustls without mentioning any gotchas.
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Is Rust really safe? How to identify functions that can potentially cause panic
I believe it is more relevant than you think: servers running in containers, web assembler tasks running in browsers, embedded devices and kernels with total control of the system, all have the ability to do something more sensible than plain out SIGABRT or similar, and in many the case is not that the complete system is falling down. For example RustTLS is looking into allowing fallible allocators and as a pretty general-purpose library that seems like a nice feature. I do wish ulimit -v worked in a sensible manner with applications.
What are some alternatives?
reqwest - An easy and powerful Rust HTTP Client
rust-native-tls
tokio - A runtime for writing reliable asynchronous applications with Rust. Provides I/O, networking, scheduling, timers, ...
rust-openssl - OpenSSL bindings for Rust
Warp - Warp is a modern, Rust-based terminal with AI built in so you and your team can build great software, faster.
mkcert - A simple zero-config tool to make locally trusted development certificates with any names you'd like.
actix-web - Actix Web is a powerful, pragmatic, and extremely fast web framework for Rust.
ring - Safe, fast, small crypto using Rust
Rocket - A web framework for Rust.
webpki - WebPKI X.509 Certificate Validation in Rust
curl-rust - Rust bindings to libcurl
rust-crypto - A (mostly) pure-Rust implementation of various cryptographic algorithms.