A complete and mature WebAssembly runtime for Ruby based on Wasmer.
Features
- Easy to use: The
wasmer
API mimics the standard WebAssembly API, - Fast:
wasmer
executes the WebAssembly modules as fast as possible, close to native speed, - Safe: All calls to WebAssembly will be fast, but more importantly, completely safe and sandboxed.
Documentation: browse the detailed API documentation full of examples.
Examples as tutorials: browser the examples/
directory,
it's the best place for a complete introduction!
The wasmer
package brings the required API to execute WebAssembly
modules. In a nutshell, wasmer
compiles the WebAssembly module into
compiled code, and then executes it. wasmer
is designed to work in
various environments and platforms. To achieve this, Wasmer (the
original runtime) provides multiple engines and multiple
compilers.
Succinctly, an engine is responsible to drive the compilation (by using a compiler) and the execution of a WebAssembly module. Wasmer comes with many engines and compilers, but for the Ruby extension, it only provides the JIT engine with the Cranelift compiler. It is subject to change in the future where the user will have the choice to select its own engine and compiler.
To install the wasmer
Ruby gem, just run this command in your shell:
$ gem install wasmer
And you're ready to get fun!
View the wasmer
gem on RubyGems.
Note: Rust is required to install the Ruby library (Cargo —the build tool for Rust— is used to compile the extension). See how to install Rust.
We highly recommend to read the
examples/
directory, which contains a sequence of examples/tutorials. It's the
best place to learn by reading examples.
But for the most eager of you, and we know you're numerous you
mischievous, there is a quick toy program in
examples/appendices/simple.rs
, written in Rust:
#[no_mangle]
pub extern fn sum(x: i32, y: i32) -> i32 {
x + y
}
After compilation to WebAssembly, the
examples/appendices/simple.wasm
binary file is generated.
Then, we can execute it in Ruby:
require "wasmer"
# Let's define the store, that holds the engine, that holds the compiler.
store = Wasmer::Store.new
# Let's compile the module to be able to execute it!
module_ = Wasmer::Module.new store, IO.read("simple.wasm", mode: "rb")
# Now the module is compiled, we can instantiate it.
instance = Wasmer::Instance.new module_, nil
# Call the exported `sum` function.
result = instance.exports.sum.(5, 37)
puts result # 42!
And then, finally, enjoy by running:
$ ruby examples/appendices/simple.rb
The Ruby extension is written in Rust, with rutie
.
First, you need to install Rust and Ruby. We will not make you the
affront to explain to you how to install Ruby (if you really need,
check rbenv
). For Rust though, we advice to use
rustup
, then:
$ rustup install stable
Then, after installing just
, you can simply run:
$ just build
The supported Ruby versions are:
- Ruby 2.6,
- Ruby 2.7,
- Ruby 3.0.
This project provides extensions to rutie
, through the
rutie-derive
and rutie-derive-macros
crates (see the crates/
directory). Those crates aim at enhancing rutie
by providing a
better “Domain Specific Language” (DSL for short) to declare Ruby
modules, classes, methods and functions. It's not perfect but it does
a good job for the moment. Contributions on that front are welcomed
too!
Running the test-all
recipe will automatically build and run all the
tests. It includes library tests, along with documentation tests and
the examples:
$ just test-all
To generate the documentation, run the following command:
$ just doc
All the examples in the documentation are automatically run as tests,
called doctests. To run the doctests, run just test
.
Quoting the WebAssembly site:
WebAssembly (abbreviated Wasm) is a binary instruction format for a stack-based virtual machine. Wasm is designed as a portable target for compilation of high-level languages like C/C++/Rust, enabling deployment on the web for client and server applications.
About speed:
WebAssembly aims to execute at native speed by taking advantage of common hardware capabilities available on a wide range of platforms.
About safety:
WebAssembly describes a memory-safe, sandboxed execution environment […].
The entire project is under the MIT License. Please read the
LICENSE
file.