Creating custom msg and srv files
Goal: Define custom interface files (.msg
and .srv
) and use them with Python and C++ nodes.
Tutorial level: Beginner
Time: 20 minutes
Background
In previous tutorials you utilized message and service interfaces to learn about topics, services, and simple publisher/subscriber (C++/Python) and service/client (C++/Python) nodes. The interfaces you used were predefined in those cases.
While it’s good practice to use predefined interface definitions, you will probably need to define your own messages and services sometimes as well. This tutorial will introduce you to the simplest method of creating custom interface definitions.
Prerequisites
You should have a ROS 2 workspace.
This tutorial also uses the packages created in the publisher/subscriber (C++ and Python) and service/client (C++ and Python) tutorials to try out the new custom messages.
Tasks
1 Create a new package
For this tutorial you will be creating custom .msg
and .srv
files in their own package, and then utilizing them in a separate package.
Both packages should be in the same workspace.
Since we will use the pub/sub and service/client packages created in earlier tutorials, make sure you are in the same workspace as those packages (ros2_ws/src
), and then run the following command to create a new package:
ros2 pkg create --build-type ament_cmake --license Apache-2.0 tutorial_interfaces
tutorial_interfaces
is the name of the new package.
Note that it is, and can only be, a CMake package, but this doesn’t restrict in which type of packages you can use your messages and services.
You can create your own custom interfaces in a CMake package, and then use it in a C++ or Python node, which will be covered in the last section.
The .msg
and .srv
files are required to be placed in directories called msg
and srv
respectively.
Create the directories in ros2_ws/src/tutorial_interfaces
:
mkdir msg srv
2 Create custom definitions
2.1 msg definition
In the tutorial_interfaces/msg
directory you just created, make a new file called Num.msg
with one line of code declaring its data structure:
int64 num
This is a custom message that transfers a single 64-bit integer called num
.
Also in the tutorial_interfaces/msg
directory you just created, make a new file called Sphere.msg
with the following content:
geometry_msgs/Point center
float64 radius
This custom message uses a message from another message package (geometry_msgs/Point
in this case).
2.2 srv definition
Back in the tutorial_interfaces/srv
directory you just created, make a new file called AddThreeInts.srv
with the following request and response structure:
int64 a
int64 b
int64 c
---
int64 sum
This is your custom service that requests three integers named a
, b
, and c
, and responds with an integer called sum
.
3 CMakeLists.txt
To convert the interfaces you defined into language-specific code (like C++ and Python) so that they can be used in those languages, add the following lines to CMakeLists.txt
:
find_package(geometry_msgs REQUIRED)
find_package(rosidl_default_generators REQUIRED)
rosidl_generate_interfaces(${PROJECT_NAME}
"msg/Num.msg"
"msg/Sphere.msg"
"srv/AddThreeInts.srv"
DEPENDENCIES geometry_msgs # Add packages that above messages depend on, in this case geometry_msgs for Sphere.msg
)
Note
The first argument (library name) in the rosidl_generate_interfaces must match ${PROJECT_NAME} (see https://github.com/ros2/rosidl/issues/441#issuecomment-591025515).
4 package.xml
Because the interfaces rely on rosidl_default_generators
for generating language-specific code, you need to declare a build tool dependency on it.
rosidl_default_runtime
is a runtime or execution-stage dependency, needed to be able to use the interfaces later.
The rosidl_interface_packages
is the name of the dependency group that your package, tutorial_interfaces
, should be associated with, declared using the <member_of_group>
tag.
Add the following lines within the <package>
element of package.xml
:
<depend>geometry_msgs</depend>
<buildtool_depend>rosidl_default_generators</buildtool_depend>
<exec_depend>rosidl_default_runtime</exec_depend>
<member_of_group>rosidl_interface_packages</member_of_group>
5 Build the tutorial_interfaces
package
Now that all the parts of your custom interfaces package are in place, you can build the package.
In the root of your workspace (~/ros2_ws
), run the following command:
colcon build --packages-select tutorial_interfaces
colcon build --packages-select tutorial_interfaces
colcon build --merge-install --packages-select tutorial_interfaces
Now the interfaces will be discoverable by other ROS 2 packages.
6 Confirm msg and srv creation
In a new terminal, run the following command from within your workspace (ros2_ws
) to source it:
source install/setup.bash
. install/setup.bash
call install/setup.bat
Now you can confirm that your interface creation worked by using the ros2 interface show
command:
ros2 interface show tutorial_interfaces/msg/Num
should return:
int64 num
And
ros2 interface show tutorial_interfaces/msg/Sphere
should return:
geometry_msgs/Point center
float64 x
float64 y
float64 z
float64 radius
And
ros2 interface show tutorial_interfaces/srv/AddThreeInts
should return:
int64 a
int64 b
int64 c
---
int64 sum
7 Test the new interfaces
For this step you can use the packages you created in previous tutorials.
A few simple modifications to the nodes, CMakeLists.txt
and package.xml
files will allow you to use your new interfaces.
7.1 Testing Num.msg
with pub/sub
With a few modifications to the publisher/subscriber package created in a previous tutorial (C++ or Python), you can see Num.msg
in action.
Since you’ll be changing the standard string msg to a numerical one, the output will be slightly different.
Publisher
#include <chrono>
#include <memory>
#include "rclcpp/rclcpp.hpp"
#include "tutorial_interfaces/msg/num.hpp" // CHANGE
using namespace std::chrono_literals;
class MinimalPublisher : public rclcpp::Node
{
public:
MinimalPublisher()
: Node("minimal_publisher"), count_(0)
{
publisher_ = this->create_publisher<tutorial_interfaces::msg::Num>("topic", 10); // CHANGE
timer_ = this->create_wall_timer(
500ms, std::bind(&MinimalPublisher::timer_callback, this));
}
private:
void timer_callback()
{
auto message = tutorial_interfaces::msg::Num(); // CHANGE
message.num = this->count_++; // CHANGE
RCLCPP_INFO_STREAM(this->get_logger(), "Publishing: '" << message.num << "'"); // CHANGE
publisher_->publish(message);
}
rclcpp::TimerBase::SharedPtr timer_;
rclcpp::Publisher<tutorial_interfaces::msg::Num>::SharedPtr publisher_; // CHANGE
size_t count_;
};
int main(int argc, char * argv[])
{
rclcpp::init(argc, argv);
rclcpp::spin(std::make_shared<MinimalPublisher>());
rclcpp::shutdown();
return 0;
}
import rclpy
from rclpy.node import Node
from tutorial_interfaces.msg import Num # CHANGE
class MinimalPublisher(Node):
def __init__(self):
super().__init__('minimal_publisher')
self.publisher_ = self.create_publisher(Num, 'topic', 10) # CHANGE
timer_period = 0.5
self.timer = self.create_timer(timer_period, self.timer_callback)
self.i = 0
def timer_callback(self):
msg = Num() # CHANGE
msg.num = self.i # CHANGE
self.publisher_.publish(msg)
self.get_logger().info('Publishing: "%d"' % msg.num) # CHANGE
self.i += 1
def main(args=None):
rclpy.init(args=args)
minimal_publisher = MinimalPublisher()
rclpy.spin(minimal_publisher)
minimal_publisher.destroy_node()
rclpy.shutdown()
if __name__ == '__main__':
main()
Subscriber
#include <functional>
#include <memory>
#include "rclcpp/rclcpp.hpp"
#include "tutorial_interfaces/msg/num.hpp" // CHANGE
using std::placeholders::_1;
class MinimalSubscriber : public rclcpp::Node
{
public:
MinimalSubscriber()
: Node("minimal_subscriber")
{
subscription_ = this->create_subscription<tutorial_interfaces::msg::Num>( // CHANGE
"topic", 10, std::bind(&MinimalSubscriber::topic_callback, this, _1));
}
private:
void topic_callback(const tutorial_interfaces::msg::Num & msg) const // CHANGE
{
RCLCPP_INFO_STREAM(this->get_logger(), "I heard: '" << msg.num << "'"); // CHANGE
}
rclcpp::Subscription<tutorial_interfaces::msg::Num>::SharedPtr subscription_; // CHANGE
};
int main(int argc, char * argv[])
{
rclcpp::init(argc, argv);
rclcpp::spin(std::make_shared<MinimalSubscriber>());
rclcpp::shutdown();
return 0;
}
import rclpy
from rclpy.node import Node
from tutorial_interfaces.msg import Num # CHANGE
class MinimalSubscriber(Node):
def __init__(self):
super().__init__('minimal_subscriber')
self.subscription = self.create_subscription(
Num, # CHANGE
'topic',
self.listener_callback,
10)
self.subscription
def listener_callback(self, msg):
self.get_logger().info('I heard: "%d"' % msg.num) # CHANGE
def main(args=None):
rclpy.init(args=args)
minimal_subscriber = MinimalSubscriber()
rclpy.spin(minimal_subscriber)
minimal_subscriber.destroy_node()
rclpy.shutdown()
if __name__ == '__main__':
main()
CMakeLists.txt
Add the following lines (C++ only):
#...
find_package(ament_cmake REQUIRED)
find_package(rclcpp REQUIRED)
find_package(tutorial_interfaces REQUIRED) # CHANGE
add_executable(talker src/publisher_member_function.cpp)
ament_target_dependencies(talker rclcpp tutorial_interfaces) # CHANGE
add_executable(listener src/subscriber_member_function.cpp)
ament_target_dependencies(listener rclcpp tutorial_interfaces) # CHANGE
install(TARGETS
talker
listener
DESTINATION lib/${PROJECT_NAME})
ament_package()
package.xml
Add the following line:
<depend>tutorial_interfaces</depend>
<exec_depend>tutorial_interfaces</exec_depend>
After making the above edits and saving all the changes, build the package:
On Linux/macOS:
colcon build --packages-select cpp_pubsub
On Windows:
colcon build --merge-install --packages-select cpp_pubsub
On Linux/macOS:
colcon build --packages-select py_pubsub
On Windows:
colcon build --merge-install --packages-select py_pubsub
Then open two new terminals, source ros2_ws
in each, and run:
ros2 run cpp_pubsub talker
ros2 run cpp_pubsub listener
ros2 run py_pubsub talker
ros2 run py_pubsub listener
Since Num.msg
relays only an integer, the talker should only be publishing integer values, as opposed to the string it published previously:
[INFO] [minimal_publisher]: Publishing: '0'
[INFO] [minimal_publisher]: Publishing: '1'
[INFO] [minimal_publisher]: Publishing: '2'
7.2 Testing AddThreeInts.srv
with service/client
With a few modifications to the service/client package created in a previous tutorial (C++ or Python), you can see AddThreeInts.srv
in action.
Since you’ll be changing the original two integer request srv to a three integer request srv, the output will be slightly different.
Service
#include "rclcpp/rclcpp.hpp"
#include "tutorial_interfaces/srv/add_three_ints.hpp" // CHANGE
#include <memory>
void add(const std::shared_ptr<tutorial_interfaces::srv::AddThreeInts::Request> request, // CHANGE
std::shared_ptr<tutorial_interfaces::srv::AddThreeInts::Response> response) // CHANGE
{
response->sum = request->a + request->b + request->c; // CHANGE
RCLCPP_INFO(rclcpp::get_logger("rclcpp"), "Incoming request\na: %ld" " b: %ld" " c: %ld", // CHANGE
request->a, request->b, request->c); // CHANGE
RCLCPP_INFO(rclcpp::get_logger("rclcpp"), "sending back response: [%ld]", (long int)response->sum);
}
int main(int argc, char **argv)
{
rclcpp::init(argc, argv);
std::shared_ptr<rclcpp::Node> node = rclcpp::Node::make_shared("add_three_ints_server"); // CHANGE
rclcpp::Service<tutorial_interfaces::srv::AddThreeInts>::SharedPtr service = // CHANGE
node->create_service<tutorial_interfaces::srv::AddThreeInts>("add_three_ints", &add); // CHANGE
RCLCPP_INFO(rclcpp::get_logger("rclcpp"), "Ready to add three ints."); // CHANGE
rclcpp::spin(node);
rclcpp::shutdown();
}
from tutorial_interfaces.srv import AddThreeInts # CHANGE
import rclpy
from rclpy.node import Node
class MinimalService(Node):
def __init__(self):
super().__init__('minimal_service')
self.srv = self.create_service(AddThreeInts, 'add_three_ints', self.add_three_ints_callback) # CHANGE
def add_three_ints_callback(self, request, response):
response.sum = request.a + request.b + request.c # CHANGE
self.get_logger().info('Incoming request\na: %d b: %d c: %d' % (request.a, request.b, request.c)) # CHANGE
return response
def main(args=None):
rclpy.init(args=args)
minimal_service = MinimalService()
rclpy.spin(minimal_service)
rclpy.shutdown()
if __name__ == '__main__':
main()
Client
#include "rclcpp/rclcpp.hpp"
#include "tutorial_interfaces/srv/add_three_ints.hpp" // CHANGE
#include <chrono>
#include <cstdlib>
#include <memory>
using namespace std::chrono_literals;
int main(int argc, char **argv)
{
rclcpp::init(argc, argv);
if (argc != 4) { // CHANGE
RCLCPP_INFO(rclcpp::get_logger("rclcpp"), "usage: add_three_ints_client X Y Z"); // CHANGE
return 1;
}
std::shared_ptr<rclcpp::Node> node = rclcpp::Node::make_shared("add_three_ints_client"); // CHANGE
rclcpp::Client<tutorial_interfaces::srv::AddThreeInts>::SharedPtr client = // CHANGE
node->create_client<tutorial_interfaces::srv::AddThreeInts>("add_three_ints"); // CHANGE
auto request = std::make_shared<tutorial_interfaces::srv::AddThreeInts::Request>(); // CHANGE
request->a = atoll(argv[1]);
request->b = atoll(argv[2]);
request->c = atoll(argv[3]); // CHANGE
while (!client->wait_for_service(1s)) {
if (!rclcpp::ok()) {
RCLCPP_ERROR(rclcpp::get_logger("rclcpp"), "Interrupted while waiting for the service. Exiting.");
return 0;
}
RCLCPP_INFO(rclcpp::get_logger("rclcpp"), "service not available, waiting again...");
}
auto result = client->async_send_request(request);
// Wait for the result.
if (rclcpp::spin_until_future_complete(node, result) ==
rclcpp::FutureReturnCode::SUCCESS)
{
RCLCPP_INFO(rclcpp::get_logger("rclcpp"), "Sum: %ld", result.get()->sum);
} else {
RCLCPP_ERROR(rclcpp::get_logger("rclcpp"), "Failed to call service add_three_ints"); // CHANGE
}
rclcpp::shutdown();
return 0;
}
from tutorial_interfaces.srv import AddThreeInts # CHANGE
import sys
import rclpy
from rclpy.node import Node
class MinimalClientAsync(Node):
def __init__(self):
super().__init__('minimal_client_async')
self.cli = self.create_client(AddThreeInts, 'add_three_ints') # CHANGE
while not self.cli.wait_for_service(timeout_sec=1.0):
self.get_logger().info('service not available, waiting again...')
self.req = AddThreeInts.Request() # CHANGE
def send_request(self):
self.req.a = int(sys.argv[1])
self.req.b = int(sys.argv[2])
self.req.c = int(sys.argv[3]) # CHANGE
self.future = self.cli.call_async(self.req)
def main(args=None):
rclpy.init(args=args)
minimal_client = MinimalClientAsync()
minimal_client.send_request()
while rclpy.ok():
rclpy.spin_once(minimal_client)
if minimal_client.future.done():
try:
response = minimal_client.future.result()
except Exception as e:
minimal_client.get_logger().info(
'Service call failed %r' % (e,))
else:
minimal_client.get_logger().info(
'Result of add_three_ints: for %d + %d + %d = %d' % # CHANGE
(minimal_client.req.a, minimal_client.req.b, minimal_client.req.c, response.sum)) # CHANGE
break
minimal_client.destroy_node()
rclpy.shutdown()
if __name__ == '__main__':
main()
CMakeLists.txt
Add the following lines (C++ only):
#...
find_package(ament_cmake REQUIRED)
find_package(rclcpp REQUIRED)
find_package(tutorial_interfaces REQUIRED) # CHANGE
add_executable(server src/add_two_ints_server.cpp)
ament_target_dependencies(server
rclcpp tutorial_interfaces) # CHANGE
add_executable(client src/add_two_ints_client.cpp)
ament_target_dependencies(client
rclcpp tutorial_interfaces) # CHANGE
install(TARGETS
server
client
DESTINATION lib/${PROJECT_NAME})
ament_package()
package.xml
Add the following line:
<depend>tutorial_interfaces</depend>
<exec_depend>tutorial_interfaces</exec_depend>
After making the above edits and saving all the changes, build the package:
On Linux/macOS:
colcon build --packages-select cpp_srvcli
On Windows:
colcon build --merge-install --packages-select cpp_srvcli
On Linux/macOS:
colcon build --packages-select py_srvcli
On Windows:
colcon build --merge-install --packages-select py_srvcli
Then open two new terminals, source ros2_ws
in each, and run:
ros2 run cpp_srvcli server
ros2 run cpp_srvcli client 2 3 1
ros2 run py_srvcli service
ros2 run py_srvcli client 2 3 1
Summary
In this tutorial, you learned how to create custom interfaces in their own package and how to utilize those interfaces in other packages.
This tutorial only scratches the surface about defining custom interfaces. You can learn more about it in About ROS 2 interfaces.
Next steps
The next tutorial covers more ways to use interfaces in ROS 2.