ardupilot/libraries/AP_DDS/README.md

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# Testing with DDS/micro-Ros
## Architecture
Ardupilot contains the DDS Client library, which can run as SITL. Then, the DDS application runs a ROS2 node, an EProsima Integration Service, and the MicroXRCE Agent. The two systems communicate over serial, which is the only supported protocol in Ardupilot MicroXCE DDS at this time.
```mermaid
---
title: Hardware Serial Port Loopback
---
graph LR
subgraph Linux Computer
subgraph Ardupilot SITL
veh[sim_vehicle.py] <--> xrceClient[EProsima Micro XRCE DDS Client]
xrceClient <--> port1[devUSB1]
end
subgraph DDS Application
ros[ROS2 Node] <--> agent[Micro ROS Agent]
agent <--> port2[devUSB2]
end
port1 <--> port2
end
```
Currently, serial is the only supported transport, but there are plans to add IP-based transport over ethernet.
## Installing Build Dependencies
While DDS support in Ardupilot is mostly through git submodules, another tool needs to be available on your system: Micro XRCE DDS Gen.
- Go to a directory on your system to clone the repo (perhaps next to `ardupilot`)
- Install java
```console
sudo apt install default-jre
````
- Follow instructions [here](https://micro-xrce-dds.docs.eprosima.com/en/latest/installation.html#installing-the-micro-xrce-dds-gen-tool) to install the latest version of the generator using Ardupilot's mirror
```console
git clone --recurse-submodules https://github.com/ardupilot/Micro-XRCE-DDS-Gen.git
cd Micro-XRCE-DDS-Gen
./gradlew assemble
```
- Add the generator directory to $PATH.
```console
# Add this to ~/.bashrc
export PATH=$PATH:/your/path/to/Micro-XRCE-DDS-Gen/scripts
```
- Test it
```console
cd /path/to/ardupilot
microxrceddsgen -version
# openjdk version "11.0.18" 2023-01-17
# OpenJDK Runtime Environment (build 11.0.18+10-post-Ubuntu-0ubuntu122.04)
# OpenJDK 64-Bit Server VM (build 11.0.18+10-post-Ubuntu-0ubuntu122.04, mixed mode, sharing)
# microxrceddsgen version: 1.0.0beta2
```
> :warning: **If you have installed FastDDS or FastDDSGen globally on your system**:
eProsima's libraries and the packaging system in Ardupilot are not determistic in this scenario.
You may experience the wrong version of a library brought in, or runtime segfaults.
For now, avoid having simultaneous local and global installs.
If you followed the [global install](https://fast-dds.docs.eprosima.com/en/latest/installation/sources/sources_linux.html#global-installation)
section, you should remove it and switch to local install.
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## Setup serial for SITL with DDS
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On Linux, creating a virtual serial port will be necessary to use serial in SITL, because of that install socat.
```
sudo apt-get update
sudo apt-get install socat
```
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## Setup ardupilot for SITL with DDS
Set up your [SITL](https://ardupilot.org/dev/docs/setting-up-sitl-on-linux.html).
Run the simulator with the following command. Take note how three parameters need adjusting from default to use DDS.
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| Name | Description |
| - | - |
| DDS_ENABLE | Set to 1 to enable DDS |
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| SERIAL1_BAUD | The serial baud rate for DDS |
| SERIAL1_PROTOCOL | Set this to 45 to use DDS on the serial port |
```bash
# Wipe params till you see "AP: ArduPilot Ready"
# Select your favorite vehicle type
sim_vehicle.py -w -v ArduPlane --enable-dds
# Set params
param set DDS_ENABLE 1
param set SERIAL1_BAUD 115
# See libraries/AP_SerialManager/AP_SerialManager.h AP_SerialManager SerialProtocol_DDS_XRCE
param set SERIAL1_PROTOCOL 45
```
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## Setup ROS 2 and micro-ROS
Follow the steps to use the microROS Agent
- Install ROS Humble (as described here)
- https://docs.ros.org/en/humble/Installation/Ubuntu-Install-Debians.html
- Install geographic_msgs
```bash
sudo apt install ros-humble-geographic-msgs
```
- Install and run the microROS agent (as descibed here). Make sure to use the `humble` branch.
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- Follow [the instructions](https://micro.ros.org/docs/tutorials/core/first_application_linux/) for the following:
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- Do "Installing ROS 2 and the micro-ROS build system"
- Skip the docker run command, build it locally instead
- Skip "Creating a new firmware workspace"
- Skip "Building the firmware"
- Do "Creating the micro-ROS agent"
- Source your ROS workspace
Until this [PR](https://github.com/micro-ROS/micro-ROS.github.io/pull/401) is merged, ignore the notes about `foxy`. It works on `humble`.
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## Using the ROS2 CLI to Read Ardupilot Data
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After your setups are complete, do the following:
- Source the ros2 installation
```bash
source /opt/ros/humble/setup.bash
```
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- Start a virtual serial port with socat. Take note of the two `/dev/pts/*` ports. If yours are different, substitute as needed.
```bash
socat -d -d pty,raw,echo=0 pty,raw,echo=0
>>> 2023/02/21 05:26:06 socat[334] N PTY is /dev/pts/1
>>> 2023/02/21 05:26:06 socat[334] N PTY is /dev/pts/2
>>> 2023/02/21 05:26:06 socat[334] N starting data transfer loop with FDs [5,5] and [7,7]
```
- Run the microROS agent
```bash
cd ardupilot/libraries/AP_DDS
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ros2 run micro_ros_agent micro_ros_agent serial -b 115200 -D /dev/pts/2 -r dds_xrce_profile.xml # (assuming we are using tty/pts/2 for DDS Application)
```
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- Run SITL (remember to kill any terminals running ardupilot SITL beforehand)
```bash
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sim_vehicle.py -v ArduPlane -D --console --enable-dds -A "--uartC=uart:/dev/pts/1" # (assuming we are using /dev/pts/1 for Ardupilot SITL)
```
- You should be able to see the agent here and view the data output.
```bash
$ ros2 node list
/Ardupilot_DDS_XRCE_Client
$ ros2 topic list -v
Published topics:
* /ap/battery/battery0 [sensor_msgs/msg/BatteryState] 1 publisher
* /ap/clock [builtin_interfaces/msg/Time] 1 publisher
* /ap/navsat/navsat0 [sensor_msgs/msg/NavSatFix] 1 publisher
* /ap/pose/filtered [geometry_msgs/msg/PoseStamped] 1 publisher
* /ap/tf_static [tf2_msgs/msg/TFMessage] 1 publisher
* /parameter_events [rcl_interfaces/msg/ParameterEvent] 1 publisher
* /rosout [rcl_interfaces/msg/Log] 1 publisher
Subscribed topics:
$ ros2 topic hz /ap/clock
average rate: 50.115
min: 0.012s max: 0.024s std dev: 0.00328s window: 52
$ ros2 topic echo /ap/clock
sec: 1678668735
nanosec: 729410000
---
```
The static transforms for enabled sensors are also published, and can be recieved like so:
```console
ros2 topic echo /ap/tf_static --qos-depth 1 --qos-history keep_last --qos-reliability reliable --qos-durability transient_local --once
```
In order to consume the transforms, it's highly recommended to [create and run a transform broadcaster in ROS 2](https://docs.ros.org/en/humble/Concepts/About-Tf2.html#tutorials).
## Contributing to AP_DDS library
### Adding DDS messages to Ardupilot
Unlike the use of ROS 2 `.msg` files, since Ardupilot supports native DDS, the message files follow [OMG IDL DDS v4.2](https://www.omg.org/spec/IDL/4.2/PDF).
This package is intended to work with any `.idl` file complying with those extensions.
Over time, these restrictions will ideally go away.
To get a new IDL file from ROS2, follow this process:
```console
cd ardupilot
source /opt/ros/humble/setup.bash
# Find the IDL file
find /opt/ros/$ROS_DISTRO -type f -wholename \*builtin_interfaces/msg/Time.idl
# Create the directory in the source tree if it doesn't exist similar to the one found in the ros directory
mkdir -p libraries/AP_DDS/Idl/builtin_interfaces/msg/
# Copy the IDL
cp /opt/ros/humble/share/builtin_interfaces/msg/Time.idl libraries/AP_DDS/Idl/builtin_interfaces/msg/
# Build the code again with the `--enable-dds` flag as described above
```
### Development Requirements
Astyle is used to format the C++ code in AP_DDS. This is required for CI to pass the build.
See [Tools/CodeStyle/ardupilot-astyle.sh](../../Tools/CodeStyle/ardupilot-astyle.sh).
```console
./Tools/CodeStyle/ardupilot-astyle.sh libraries/AP_DDS/*.h libraries/AP_DDS/*.cpp
```
Pre-commit is used for other things like formatting python and XML code.
This will run the tools automatically when you commit. If there are changes, just add them back your staging index and commit again.
1. Install [pre-commit](https://pre-commit.com/#installation) python package.
1. Install ArduPilot's hooks in the root of the repo, then commit like normal
```console
cd ardupilot
pre-commit install
git commit
```