Crate lunatic

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Framework for building Rust applications that run on lunatic.

Main concepts

The main abstraction in lunatic is a process. Contrary to operating system processes, lunatic processes are lightweight and fast to spawn. They are designed for massive concurrency. Like operating system processes, they are sandboxed. Each of them gets a separate memory and they can’t access the memory from other processes, not even through raw pointers. If we want to exchange any information between process we need to do it through message passing.

This library makes processes feel native to the Rust language. They can be spawned from just a function.

Process types:

Linking

Processes can be linked together. This means that if one of them fails, all linked ones will be killed too.

To spawn a linked process use the spawn_link function.

Process configuration

Spawn functions have a variant that takes a ProcessConfig. This configuration can be used to set a memory or CPU limit on the newly spawned process. It can also be used to control file and network access permissions of processes.

Setup

To run the example you will first need to download the lunatic runtime by following the installation steps in this repository. The runtime is just single executable and runs on Windows, macOS and Linux. If you have already Rust installed, you can get it with:

cargo install lunatic-runtime

Lunatic applications need to be compiled to WebAssembly before they can be executed by the runtime. Rust has great support for WebAssembly and you can build a lunatic compatible application just by passing the --target=wasm32-wasi flag to cargo, e.g:

# Add the WebAssembly target
rustup target add wasm32-wasi
# Build the app
cargo build --release --target=wasm32-wasi

This will generate a .wasm file in the target/wasm32-wasi/release/ folder inside your project. You can now run your application by passing the generated .wasm file to Lunatic, e.g:

lunatic run target/wasm32-wasi/release/<name>.wasm
Better developer experience

To simplify developing, testing and running lunatic applications with cargo, you can add a .cargo/config.toml file to your project with the following content:

[build]
target = "wasm32-wasi"

[target.wasm32-wasi]
runner = "lunatic run"

or inside of your Cargo project just run:

lunatic init

This will automatically crate the file above.

Now you can just use the commands you were already familiar with, such as cargo run, cargo test and cargo is going to automatically build your project as a WebAssembly module and run it inside lunatic.

Testing

Lunatic provides a test macro to run your tests inside processes. Check out the tests directory for examples.

Re-exports

Modules

  • Contains the AbstractProcess abstraction.
  • Low level lunatic VM syscalls.
  • Expose metrics functions from lunatic’s runtime Lunatic’s runtime comes with metrics integration and can expose those metrics to prometheus if prometheus feature is enable at build time and using –prometheus flag to start the exporter
  • Networking related functions.
  • Serializer implementations for messages.
  • sqlitesqlite
    Sqlite database client.
  • Contains helper structures to deal with time-related functionality.

Macros

Structs

Enums

Traits

  • ProcessName is used to uniquely name a process from a Rust type.
  • Implemented for all resources held by the VM.

Functions

Type Definitions

Attribute Macros

  • Add AbstractProcess behavior to the given struct implementation with minimum boilerplate code.
  • Marks the main function to be executed by the lunatic runtime as the root process.
  • Marks function to be executed by the lunatic runtime as a unit test. This is a drop-in replacement for the standard #[test] attribute macro.

Derive Macros

  • ProcessName implements the lunatic::ProcessName trait by generating a unique name in the following format: