#mav-link #drones #uav #protocols #message-parser #arguments-parser #parser

no-std bin+lib mavspec

A set of code generation utilities for MAVLink protocol

19 releases

0.3.4 Aug 9, 2024
0.3.3 Mar 25, 2024
0.2.2 Jan 26, 2024
0.1.3 Jan 10, 2024
0.1.2 Dec 30, 2023

#50 in Robotics

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MAVSpec

A code-generator for MAVLink.

πŸ‡ΊπŸ‡¦ repository crates.io docs.rs issues

MAVLink is a lightweight open protocol for communicating between drones, onboard components and ground control stations. It is used by such autopilots like PX4 or ArduPilot. MAVLink has simple and compact serialization model. The basic abstraction is message which can be sent through a link (UDP, TCP, UNIX socket, UART, whatever) and deserialized into a struct with fields of primitive types or arrays of primitive types. Such fields can be additionally restricted by enum variants, annotated with metadata like units of measurements, default or invalid values. There are several MAVLink dialects. Official dialect definitions are XML files that can be found in the MAVlink repository. Based on message abstractions, MAVLink defines so-called microservices that specify how clients should respond on a particular message under certain conditions or how they should initiate a particular action.

This library is a building block for other MAVLink-related tools (telemetry collectors, IO, etc.). It is only responsible for code generation. Other Mavka projects are focused on their own areas:

  • MAVInspect is responsible for parsing mavlink message XML definitions. MAVSpec is using this library to discover and parse MAVLink dialects.
  • Mavio, a minimalistic library for transport-agnostic MAVLink communication written in Rust. It supports no-std (and no-alloc) targets and focuses on stateless parts of MAVLink protocol.
  • Maviola is a MAVLink communication library based on Mavio that provides a high-level interface for MAVLink messaging and takes care about stateful features of the protocol: sequencing, message time-stamping, automatic heartbeats, simplifies message signing, and so on.

This project respects semantic versioning.

Install

Install as a Cargo dependency.

cargo add mavspec --features specs

The specs feature enables all core interfaces which are used by autogenerated code.

Since you probably want to generate code as a part of you build sequence, we suggest to also add MAVSpec as a build dependency.

cargo add --build mavspec --featurs generators

The generators feature enables all code-generators.

Usage

The following explains how to use library API, for command-line tool usage check CLI section.

Rust

API documentation for Rust code-generation can be found here.

Add MAVSpec with rust feature to your dependencies.

cargo add mavspec --features rust

This feature enables interfaces upon which your generated code will depend. You can access these interfaces through use mavspec::rust::spec.

Optionally enable std (for Rust standard library) or alloc (for memory allocation support) features if your target supports them (if you are not developing for an embedded devices, then we suggest to always enable std).

Add MAVSpec with rust_gen as a build dependency:

cargo add --build mavspec --features rust_gen

If necessary, add optional section to your Cargo.toml to generate only specific MAVLink entities:

[package.metadata.mavspec]
microservices = ["HEARTBEAT", "MISSION"]
messages = ["PROTOCOL_VERSION", "MAV_INSPECT_V1", "PING"]
enums = ["STORAGE_STATUS", "GIMBAL_*"]
commands = ["MAV_CMD_DO_CHANGE_SPEED", "MAV_CMD_DO_SET_ROI*"]
generate_tests = false

This will greatly reduce compile time and may slightly reduce memory footprint (if you are not going to expose autogenerated code as a part of your library API, then Rust compiler will probably optimize away all unused pieces).

If you want to generate tests for generated code, set generate_tests to true. This mode is disabled by default.

Update your build.rs:

use std::env::var;
use std::path::Path;

use mavspec::rust::BuildHelper;

fn main() {
    // Assume that your library and `message_definitions` are both in the root of your project.
    let sources = vec![
        "./message_definitions/standard",
        "./message_definitions/extra",
    ];
    // Output path
    let destination = Path::new(&var("OUT_DIR").unwrap()).join("mavlink");
    // Path to your `Cargo.toml` manifest
    let manifest_path = Path::new(env!("CARGO_MANIFEST_DIR")).join("Cargo.toml");

    // Parse XML definitions and generate Rust code
    BuildHelper::builder(&destination)
        .set_sources(&sources)
        .set_manifest_path(&manifest_path)
        .generate()
        .unwrap();
}

The OUT_DIR environment variable is provided by Rust build toolchain and points to output library for your crate. It is considered a bad practice to write outside this path in the build scripts.

Finally, import generated code in your lib.rs (or anywhere it seems appropriate):

mod mavlink {
    include!(concat!(env!("OUT_DIR"), "/mavlink/mod.rs"));
}

pub use mavlink::dialects;

Check examples/rust for a slightly more elaborated example which uses Cargo features as flags for MAVLink dialect selection.

Rust naming conventions

In MAVSpec we are trying to keep balance between names as they appear in MAVLink XML definitions and Rust naming conventions. In most situation we favor the Rust way unless it introduces confusions. In case we failed, and you are confused, all entities are supplemented with descriptions where canonical MAVlink names are mentioned. Here is the list of the naming rules:

  • For structs and enums MAVSpec uses UpperCamelCase.
  • For message fields we use snake_case.
  • For enum entries (enum entries) we use UpperCamelCase with MAVLink enum name prefix stripped (whenever applicable). For example, if bitmask enum has name IMPORTANCE_LEVEL and flag name is IMPORTANCE_LEVEL_THE_MATTER_OF_LIFE_AND_DEATH, then flag name will be TheMatterOfLifeAndDeath.
  • For bitmask flags (enum entries for enums which are bitmasks) we use SCREAMING_SNAKE_CASE with MAVLink enum name prefix stripped (whenever applicable). For example, if bitmask enum has name VERY_IMPORTANT_FLAGS and flag name is VERY_IMPORTANT_FLAGS_THE_MATTER_OF_LIFE_AND_DEATH_FLAG, then flag name will be THE_MATTER_OF_LIFE_AND_DEATH_FLAG.
  • In the case of collision with rust keywords, we add underscore suffix. For example, type field of HEARTBEAT message will be encoded as type_.
  • In the rare cases when symbolic name starts with numeric character, it will be prefixed with _.

Check mavspec_examples_rust.rs which shows how the last two cases of inconvenient names are handled (this is not something of high aesthetic value but in our defence we must say that all approaches we've considered looked equally ugly).

Fingerprints

MAVInspect may skip code re-generation if dialects haven't changed. It uses 64-bit CRC fingerprint to monitor changes. Set fingerprints feature flag to enable this behavior.

This feature is useful for reducing build time during development and CI runs. Make sure that your releases are clean and do not depend on fingerprints.

Unstable Features

Unstable features are enabled by unstable feature flag. Such features are experimental and can be changed or excluded in future releases.

CLI

Install mavspec command-line tool.

cargo install mavspec --features cli

Check installation:

mavspec -V

If you are working from the MAVSpec repository, then you always can run CLI-tool using cargo:

cargo run --bin mavspec --features cli --

Parse XML definitions from ./message_definitions/standard and generate dialects in tmp/mavlink directory:

mavspec --src message_definitions/standard --out tmp/mavlink rust

Print mavspec help for Rust code generator:

mavspec rust -h

Examples

  • examples/rust β€” an example library with autogenerated code.
    cargo run --package mavspec_examples_rust --bin mavspec_examples_rust
    

Roadmap

API is considered relatively stable but certain advanced features are yet to be developed. However, most of these features are nice to have, rather than something necessary to consider this library complete.

Milestone v1 contains features considered necessary to reach stable version 1.0.0. Most of these features are related to Rust code generator.

Other code generators (will form a basis for other Mavka projects):

Propositions and pull-requests are welcomed.

First of all, there is an official MAVLink client for Rust worth mentioning: rust-mavlink. One of the reasons behind writing this library was my desire to decouple parser and code generator into the separate projects.

I was personally inspired by gomavlib library for MAVLink (Go). I like the way it is written, and its source code helped me in several cases when official MAVLink documentation wasn't clear enough.

If you want to autogenerate language bindings and prefer Python, you might be interested in the official mavgen code-generation tool. If you are looking for a router for MAVLink messages, then we suggest mavp2p. If you want a solution that supports MAVLink microservices, then it worth checking MAVSDK that uses gRPC API.

MAVLink is almost 15 years old, but the ecosystem around this protocol is still dynamic and developing. Some projects are stable and robust, while others are nice and feature-rich but incomplete.

License

Here we simply comply with the suggested dual licensing according to Rust API Guidelines (C-PERMISSIVE).

Licensed under either of

at your option.

Contribution

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.

Dependencies

~0–1.5MB
~25K SLoC