Easy to use bindings for ROS2 that do not require hooking in to the ROS2 build infrastructure -- cargo build
is all you need. Convenience Rust types are created by calling into the c introspection libraries. This circumvents the ROS2 .msg/.idl pipeline by relying on already generated C code. By default, the behavior is to build bindings to the RCL and all message types that can be found in the currently sourced ros environment, but it is possible to be more specific to save on build time (see note below).
When integration with the colcon build system is desired, a CMakeLists.txt file can be used to limit the generation of bindings to only include specific (idl) dependencies. This is done through additional environment variables. A minimal example of the colcon integration is available here: https://github.com/m-dahl/r2r_minimal_node.
This library differ a bit in style from rclpy and rclcpp as it eliminates all synchronous callbacks in favor of rust futures and streams. Coupled with the rust await syntax, this makes it very pleasant to work with ROS services and actions, even in a single threaded setup (see service.rs example). The library purposefully does not chose an async runtime -- this means that the user needs to take care of any task spawning. This also limits the API to what futures-rs provides.
Documentation can be found on docs.rs: https://docs.rs/r2r/latest/r2r.
These bindings are being written organically when things are needed by me and others so please be aware that the API will change. As of now I have no intention of wrapping all of the RCL just for the sake of completeness. However, if you need some specific functionality, feel free to open an issue or a PR!
- Make sure you have libclang installed. (e.g. libclang-dev on ubuntu)
- Depend on this package in Cargo.toml:
r2r = "0.9.4"
- You need to source your ROS2 installation before building/running.
- The bindings will rebuild automatically if/when you source your workspace(s).
- If you make changes to existing message types, run
cargo clean -p r2r_msg_gen
to force recompilation of the rust message types on the next build.
Examples of how to use the crate are included in examples/
. /opt/ros/humble/setup.sh
cargo build
cargo run --example subscriber
# In other shell
ros2 topic pub /topic std_msgs/msg/String "data: 'Hello, world'"
Since the default behavior is to build all sourced message types, build time can quickly become a problem for larger workspaces. To avoid building everything, it is possible to declare only the message packages needed using the environment variable IDL_PACKAGE_FILTER
. Setting this can be done in .cargo/config.toml
for convenience, e.g. https://github.com/m-dahl/r2r_minimal_node/blob/master/r2r_minimal_node/.cargo/config.toml. Note there is no automatic dependency resolution done for nested message types, so all used message packages need to be explicitly included.
- Up to date with ROS2
DashingEloquentFoxy Galactic Humble Iron Jazzy - Building Rust types
- Publish/subscribe
- Services
- Actions
- Parameter handling
- Simulated time (make sure
rosgraph_msgs
is sourced when building to enable) - Runs on Linux, OSX, and Windows.
- Fix cargo syntax for older rust versions < 1.77 https://github.com/sequenceplanner/r2r/commit/74ad4410c79b1be7e42eb1822a291639e3c40ec4
- Fix message generation for WChar idl type https://github.com/sequenceplanner/r2r/commit/94db799db282c8b1e0222f1699e6a6420b5fd544
- Fix cfg warnings https://github.com/sequenceplanner/r2r/commit/4cb5bd362e81154924cc7dc21f8edbf470c4604a
- More convinent one time parameter access #107
- Fix unsafe precondition(s) violated with rust 1.78 #96. There may be more of these to fix, please report if you encounter.
- Expose QoS settings for service clients and servers #95. Note, slight API change!
- Make the order of parameters deterministic #94
- Add a r2r_info example to print environmental information #92
- Code cleanups #90, #91
- Remove is_available's node mut-ref dependency #89. Note, slight API change!
- Support simulated time #88
- Add
get_publishers_info_by_topic
#80 - Raw publishers #76
- Add
rcl_publisher_get_subscription_count
related methods #75 - From serialized bytes for
WrappedNativeMsgUntyped
https://github.com/sequenceplanner/r2r/commit/d5f2ef0eac7072c66fe8866a3dbbfc2326b13804 - Message (de-)serialization helpers #74.
- Raw message subscribers. #73
- Fix include path regression on linux. #71
- Fix regression when building with colcon/cmake. https://github.com/sequenceplanner/r2r/commit/7fc96e3eb2fd9f7f272258e07204041aeecfba76
- Windows support! #66
- Derive macro for ros parameters. #65 and #68. NOTE: Breaks old parameters API, see commit message for details https://github.com/sequenceplanner/r2r/commit/00d7a3db0b48c27a61ce153b084eadeef799765a.
- Implement rcl_interfaces::srv::ListParameters service. #64
- Eliminate compiler warnings about virtual workspace's resolver. #63
- Fix issue with snake case conversion for idl header files. #61
- Fix build issue with race condition between header file generation and calling bindgen. https://github.com/sequenceplanner/r2r/commit/f5f41baa2554b24813cc2f212ecf2e45476063e1
- Refactor code generation using syn and quote and improve build times #58
- Replace (e)println with log #51
- Fix mistake in docs generation.
- Various CI improvements: #54, #56
- Fix build problem at docs.rs #56
- Clarify compilation flags related to build time in README.md as suggested in #53
- Add associated constants to generated message types. #46
- Log loaned message error only once. #44
- Update r2r_cargo.cmake to latest version (see here)
- Use non-mangled names for serde serialization. #40
- Avoid segfault when rcl_init fails. #41
- Loaned message support. (Changes
publish_native
api). #42
- Fix undeclared type on Foxy. #39
- Documentation is lacking. (For now, look at the examples.)
All code is under the MIT licence unless another license is specified in the source files. Some parts from the rclrust (https://github.com/rclrust/rclrust) package are included in this repo and these are licensed under Apache 2.0.
Supported by ROSIN - ROS-Industrial Quality-Assured Robot Software Components. More information: rosin-project.eu
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement no. 732287.