The proper way to create WASM browser service workers.
This crate provides rust library and JS glue code allowing to wrap POSIX compatible code into WASM/WASI target to be able to run in the browser service worker. It also provides imput/output message channel with main web application.
WebAssembly System Interfaces (WASI) is an exciting new specification that allows running POSIX-like applications anywhere, safely and securely with WebAssembly. -> Medium / Running WASI in Javascript with Wasmer-JS
POSIX-compatible applications compiled to WASI can now also run in browser, think of code-reuse and delegating server workload to client side. On top of that it appears code compiled to wasm32-wasi target is executing about 2 times faster than code compiled to other wasm32 targets with web bindings, CPU intensive workloads can now execute with performance close to native targets (try http://wabench.com:8080).
WASI target allows to compile many crates which are using standard library, except threads and networking which is not supported yet. The only problem is that WASI is not built to be executed from browser, rather it is standard which aims to run WASM code on server side. Leveraging @wasmer/wasi this crate provides browser service worker WASI runtime as well as communication bridge to/from web application.
Another possible reason is WASM code which executes as part of web application occupies same javascript thread, hence if wasm code is running complex calculations it will block browser application while working. To make it working in separate thread we can employ browser service workers.
This example requires WASI JavaScript bindings which can be deployed with wasi-worker-cli or WASI environment with properly preconfigured filesystem
use wasi_worker::*;
struct MyWorker;
impl Handler for MyWorker {
fn on_message(&self, msg: &[u8]) -> std::io::Result<()> {
println!("My Worker got message: {:?}", msg);
Ok(())
}
}
fn main() {
// JS glue code will hook to /output.bin
ServiceWorker::initialize(ServiceOptions::default());
ServiceWorker::set_message_handler(Box::new(MyWorker {}));
// Send binary message to main browser application
ServiceWorker::post_message(b"message");
}JavaScript WASI bindings are built on top of @wasmer libraries can be easily deployed with wasiworker tool:
cargo install wasi-worker-cli
wasiworker install will add sample worker code and bin target to current crate directory:
wasiworker install
wasiworker deploy will build worker bin target and deploy it with JS glue code under ./dist:
wasiworker deploy
For hacking JS glue code source code is located in the same repository.
use wasi_worker::*;
struct MyWorker {}
impl Handler for MyWorker {
fn on_message(&self, msg: &[u8]) -> std::io::Result<()> {
// Process incoming message
println!("My Worker got message: {:?}", msg);
Ok(())
}
}
fn main() {
// In WASI setup output will go to /output.bin
#[cfg(target_os="wasi")]
let opt = ServiceOptions::default();
// In user filesystem we operate under current dir
#[cfg(not(target_os="wasi"))]
let opt = ServiceOptions {
output: FileOptions::File("./testdata/output.bin".to_string())
};
let output_file = match &opt.output {
FileOptions::File(path) => path.clone()
};
ServiceWorker::initialize(opt)
.expect("ServiceWorker::initialize");
// Attach Agent to ServiceWorker as message handler singleton
ServiceWorker::set_message_handler(Box::new(MyWorker {}));
// Send binary message to main browser application
// this requires JS glue see wasi-worker-cli
ServiceWorker::post_message(b"message")
.expect("ServiceWorker::post_message");
// It does not autodelete output file
std::fs::remove_file(output_file)
.expect("Remove output.bin");
}- library code with WASI fs interface
- basic example
- documentation
- CLI for worker setup
- drop output file on exit