k8s-openapi
fusionauth-openapi
Our great sponsors
k8s-openapi | fusionauth-openapi | |
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7 | 3 | |
360 | 6 | |
- | - | |
8.3 | 7.2 | |
12 days ago | 10 days ago | |
Rust | Shell | |
Apache License 2.0 | Apache License 2.0 |
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.
k8s-openapi
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WinBtrfs – an open-source btrfs driver for Windows
It's called sans-io in Python land, which is where I heard it first.
https://sans-io.readthedocs.io/
I did it for one of my projects back in 2018 https://github.com/Arnavion/k8s-openapi/commit/9a4fbb718b119...
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The bane of my existence: Supporting both async and sync code in Rust
Another option is to implement your API in a sans-io form. Since k8s-openapi was mentioned (albeit for a different reason), I'll point out that its API gave you a request value that you could send using whatever sync or async HTTP client you want to use. It also gave you a corresponding function to parse the response, that you would call with the response bytes however you got them from your client.
https://github.com/Arnavion/k8s-openapi/blob/v0.19.0/README....
(Past tense because I removed all the API features from k8s-openapi after that release, for unrelated reasons.)
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Welcome to Comprehensive Rust
Macro expansion is slow, but only noticeably in the specific situation of a) third-party proc macros, b) a debug build, and c) a few thousand invocations of said proc macros. This is because debug builds compile proc macros in debug mode too, so while the macro itself compiles quickly (because it's a debug build), it ends up running slowly (because it's a debug build).
I know this from observing this on a mostly auto-generated crate that had a couple of thousand types with `#[derive(serde::)]` on each. [1]
This doesn't affect most users, because first-party macros like `#[derive(Debug)]` etc are not slow because they're part of rustc and are thus optimized regardless of the profile, and even with third-party macros it is unlikely that they have thousands of invocations. Even if it is* a problem, users can opt in to compiling just the proc macros in release mode. [2]
[1]: https://github.com/Arnavion/k8s-openapi/issues/4
[2]: https://github.com/rust-lang/cargo/issues/5622
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OpenAPI Generator allows generation of API client libraries from OpenAPI Specs
>OpenAPI Generator allows generation of API client libraries from OpenAPI Specs
It does, but the generated code can be very shitty for some combinations of spec and output language. I maintain Rust bindings for the Kubernetes API server's API, and I chose to write my own code generator instead. The README at https://github.com/Arnavion/k8s-openapi has more details.
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Any good toy Rust project for k8s application?
k8s_openapi - https://github.com/Arnavion/k8s-openapi
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Approaches for Chaining Access to Deeply Nested Optional Structs
For example: I have a routine that checks the value of (from k8s-openapi): Ingress -> IngressStatus -> LoadBalancerStatus -> Vec[0] -> String
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Writing a Kubernetes CRD Controller in Rust
As the maintainer of the Rust bindings that the library used in the article (kube) is backed by, I can confirm that Kubernetes' openapi spec requires a lot of Kubernetes-specific handling to generate a good client than generic openapi generators do not provide.
See https://github.com/Arnavion/k8s-openapi/blob/master/README.m... for a full description.
I also confirm that I keep it up-to-date with Kubernetes releases and have been doing so for the ~3 years that it's been around. Not just the minor ones every few months, but even the point ones; these days the latter usually only involves updating the test cases instead of code changes and they're done within a few hours of the upstream release.
fusionauth-openapi
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OpenAPI Generator allows generation of API client libraries from OpenAPI Specs
I talked to a startup ( https://stainlessapi.com/ ) about a service they provide where they take an OpenAPI spec and build good SDKs on top of it. This included making sure they are idiomatic, included examples, handled exceptions if needed, and some other goodness. I passed for now because they don't have the language support we need and I am not sure if we need their level of sophistication, but others may benefit from talking to them. (I think the founder helped build Stripe's API docs, IIRC.)
As we head down our OpenAPI path (https://github.com/fusionauth/fusionauth-openapi has only been built for the last 9 months), I'm very interested in stories like yours. We're very interested in quality SDKs that are easy to update. But since we control the OpenAPI spec for the product, we might have an easier time than you in some ways.
Thanks for sharing!
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Ask HN: SaaS Idea: SDK Generation for API's (OpenAPI / gRPC)
As someone who just released an OpenAPI spec for our API and struggled with building client libraries to test that the spec was correctly generated, I'd pay for this, especially if it integrated with the rubygems/packagists/nugets of the world.
Let me know if you want an alpha or beta tester. Our OpenAPI spec is here: https://github.com/fusionauth/fusionauth-openapi and my contact info is in my profile.
- FusionAuth Adds OpenAPI Support
What are some alternatives?
kube - Rust Kubernetes client and controller runtime
vcloud-rest-openapi - OpenAPI definitions for vCloud Director's Rest API
go - The Go programming language
api - The Up Banking API Specification
spectrum - OpenAPI Spec SDK and Converter for OpenAPI 3.0 and 2.0 Specs to Postman 2.0 Collections. Example RingCentral spec included.
smithy - Smithy is a protocol-agnostic interface definition language and set of tools for generating clients, servers, and documentation for any programming language.
OpenAPI-Specifications - The official DocuSign REST API Swagger Specification
tokio - A runtime for writing reliable asynchronous applications with Rust. Provides I/O, networking, scheduling, timers, ...
comprehensive-rust - This is the Rust course used by the Android team at Google. It provides you the material to quickly teach Rust.
m3o - Serverless Micro Services