Run native, statically-compiled apps on any platform, using WebAssembly.
Examples include 
This does not use Wasm3 engine. The approach is similar to WasmBoxC or RLBox:
- Compile source code to
wasm - Translate
wasmtoCusingwasm2c - Compile produced
C, link with a thin runtime implementation using the native platform toolchain
- Language/toolchain decoupling
- Resilience against attacks (RCE, Control-flow hijacking)
- Sandboxing / SFI (Software Fault Isolation)
- Enables wasm transformations, like instrumentation or
gas metering - Software-based memory virtualization
- Moderate runtime overhead (mostly depends on the source language/runtime)
- Small performance hit (~50% slowdown)
- Moderate binary size increase
- Highly portable
$ make APP=rust
Finished release [optimized] target(s) in 0.00s
$ pio run -e esp32 -t upload
$ pio device monitor
Initializing WebAssembly...
🦀 Rust is running!
$ make APP=assemblyscript
> npm run asbuild:optimized
$ pio run -e esp32 -t upload
$ pio device monitor
Initializing WebAssembly...
🚀 AssemblyScript is running!
$ make APP=tinygo
$ pio run -e esp32 -t upload
$ pio device monitor
Initializing WebAssembly...
🤖 TinyGo is running!
Ensure WABT and Binaryen tools are in your PATH.
# AssemblyScript (needs Node.js)
cd apps/assemblyscript
npm install
cd ../..
make APP=assemblyscript
# Rust
rustup target add wasm32-unknown-unknown
make APP=rust
# C/C++ (needs wasienv)
make APP=cpp
# TinyGo (needs TinyGo v0.21.0 and Go v1.17.3)
make APP=tinygo
# Zig (needs Zig v0.9.0)
make APP=zig# For ESP32:
pio run -e esp32 -t upload
# For ESP8266:
pio run -e esp8266 -t upload
# For Raspberry Pi Pico:
pio run -e rpi-pico -t upload
# Open serial monitor
pio device monitor --quietRequires particle-cli.
Should work on all Particle devices i.e. Spark Core, Photon, Electron, Argon, Boron:
particle flash MyDevice ./src/
# Open serial monitor
particle serial monitor --followThis project is released under The MIT License (MIT)