e2core
wasm-micro-runtime
e2core | wasm-micro-runtime | |
---|---|---|
9 | 16 | |
718 | 4,507 | |
0.1% | 2.1% | |
6.6 | 9.7 | |
8 months ago | 5 days ago | |
Go | C | |
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.
e2core
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Are V8 isolates the future of computing?
> If one writes Go or Rust, there are much better ways to run them than targeting WASM
wasm has its place, especially for contained workloads that can be wrapped in its strict capability boundaries (think, file-encoding jobs that shouldn't access anything else but said files: https://news.ycombinator.com/item?id=29112713).
> Containers are still the defacto standard.
wasmedge [0], atmo [1], krustlet [2], blueboat [3] and numerous other projects are turning up the heat [4]!
[0] https://github.com/WasmEdge/WasmEdge
[1] https://github.com/suborbital/atmo
[2] https://github.com/krustlet/krustlet
[3] https://github.com/losfair/blueboat
[4] https://news.ycombinator.com/item?id=30155295
- OAuth with Cloudflare Workers on a Statically Generated Site
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Show HN: Sat, the tiny WebAssembly compute module
One of the first things we've used it for internally is to run one-off isolated tests on WebAssembly modules instead of feeding them through a production Atmo[0] instance. It basically serves as a dumb pipe for feeding data in and out of a Wasm module.
0: https://github.com/suborbital/atmo
- Atmo: Serverless WebAssembly
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WebAssembly Landscape 2020
Excited to see Atmo on there 🙂 https://github.com/suborbital/atmo
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Choosing building blocks to move faster
My open source focus for this year is building Atmo, and there is one aspect of the process that I would like to highlight. Since early 2020 I knew roughly what I wanted to build. The specifics of that thing changed over time, but the core idea of a server-side WebAssembly platform was consistent all throughout the year. I didn't write a single line of code for Atmo until late October, even though that was what I wanted to build the entire time. I want to talk about why.
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Building for a future based on WebAssembly
I am also open to any and all contributions from the community. I am more than happy to meet with anyone interested in working alongside me to build these capabilities so that I can help get you started developing Atmo, Vektor, Grav, Hive, and Subo. Developers with no experience working with WebAssembly, distributed systems, web services, or Go are encouraged to join and I will do whatever I can to help you learn what's needed to contribute. Open Source is not just about developing in the open, it's also about helping others learn.
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Meshing a modern monolith
With SUFA systems, multiple ASGs are created, each designated as a capability group. Each capability group is given access to the resources required for the associated function namespace to operate (such as the datastore or secrets), and can then scale independently of one another. Since the application's functions are decoupled entirely from one another, it's possible for some functions to run on the host that receives the request, and functions from particular namespaces to be meshed into other capability groups. A SUFA framework such as Atmo is responsible for handling the meshed communication, completely absorbing the complexity.
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Building a better monolith
The SUFA pattern was designed in concert with Atmo, which is an all-in-one framework upon which SUFA systems can be built. Atmo uses a file known as a 'Directive' to describe all aspects of your application, including how to chain functions to handle requests. You can write your functions using several languages to be run atop Atmo, as it is built to use WebAssembly modules as the unit of compute. Atmo will automatically scale out to handle your application load, and includes all sorts of tooling and built-in best practices to ensure you're getting the best performance and security without needing to write a single line of boilerplate ever again.
wasm-micro-runtime
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Build your own WebAssembly Compiler
Here is what you are looking for: https://github.com/bytecodealliance/wasm-micro-runtime
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Val, a high-level systems programming language
No longer does Wasm/WASI need JS host! There are many spec-compliant runtimes built for environments from tiny embedded systems up to beefy arm/x86 racks:
- https://github.com/bytecodealliance/wasm-micro-runtime
- https://github.com/bytecodealliance/wasmtime
- https://github.com/wasmerio/wasmer
- https://github.com/tetratelabs/wazero
- https://github.com/extism/extism (disclaimer, my company's project - makes wasm easily embeddable into 16+ programming languages!)
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Blog Post: Reasonable Bootstrap
The WASM core 1.1 infrastructure is already available in a very strict defined more or less guarantied compatible form on nearly any final target. Even on very small devices for embedded computing (WAMR takes less then 85kB and supports even trusted computing etc.) and in contexts, where usually no other low level development tools are available (for example within the context of Webbrowsers, sandboxed execution etc.)
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WASM vs Native Rust performance
WAMR and it's different AoT preprocessing and execution modes could be even more efficient. ;)
- adding multiple optional scripting languages
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Wasm-bpf: Build and run eBPF programs in WebAssembly
Wasm-bpf is a WebAssembly eBPF library, toolchain and runtime powered by CO-RE(Compile Once – Run Everywhere) libbpf and WAMR. It can help you build almost every eBPF programs or use cases to Wasm.
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Ruby Adds Support for WebAssembly: What is WebAssembly and how it benefits Ruby devs?
Running a Wasm application outside the browser requires an appropriate runtime that implements the WebAssembly VM and provides interfaces to the underlying system. There are a few competing solutions in this field, the most popular being wasmtime, wasmer, and WAMR.
- WebAssembly Micro Runtime (WAMR)
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Learning Embedded rust
A very interesting solution for high level interface access by less professional developers could be seen in pikascript, which works even on very small devices. WAMR is another project with similar capabilities. Both of them can be very well combined with core infrastructure realized as embedded rust code.
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Wasmtime 1.0
Seems the micro runtime also released 1.0:
https://github.com/bytecodealliance/wasm-micro-runtime
But why does it not have binaries compiled and ready?
What are some alternatives?
miniflare - 🔥 Fully-local simulator for Cloudflare Workers. For the latest version, see https://github.com/cloudflare/workers-sdk/tree/main/packages/miniflare.
wasm3 - 🚀 A fast WebAssembly interpreter and the most universal WASM runtime
krustlet - Kubernetes Rust Kubelet
zephyr - Primary Git Repository for the Zephyr Project. Zephyr is a new generation, scalable, optimized, secure RTOS for multiple hardware architectures.
grav - Embedded decentralized message bus
q3vm - Q3VM - Single file (vm.c) bytecode virtual machine/interpreter for C-language input
sat - Tiny & fast WebAssembly edge compute server
crun - A fast and lightweight fully featured OCI runtime and C library for running containers
workers-sdk - ⛅️ Home to Wrangler, the CLI for Cloudflare Workers®
raylib - A simple and easy-to-use library to enjoy videogames programming
awesome-paas - A curated list of PaaS, developer platforms, Self hosted PaaS, Cloud IDEs and ADNs.
WASI - WebAssembly System Interface