ROS/MAVROS 发送自定义消息

按照 Source Installation 中的指导，从 mavlink/mavros 安装“ROS Kinetic”版本。

• **Ubuntu：**18.04

• **ROS：**Melodic

• PX4 Firmware: 1.9.0

However these steps are fairly general and so it should work with other distros/versions with little to no modifications. :::

MAVROS 安装

Follow Source Installation instructions from mavlink/mavros to install "ROS Kinetic".

MAVROS

1. 首先，我们创建一个新的MAVROS 插件，在keyboard_command.cpp(workspace/src/mavros/mavros_extras/src/plugins)示例中添加以下代码：

   代码功能是从ROS消息主题/mavros/keyboard_command/keyboard_sub中订阅了一个字符消息，并且将其作为MAVLink 消息发送出去。

    #include <mavros/mavros_plugin.h>
    #include <pluginlib/class_list_macros.h>
    #include <iostream>
    #include <std_msgs/Char.h>
   
    namespace mavros {
    namespace extra_plugins{
   
    class KeyboardCommandPlugin : public plugin::PluginBase {
    public:
        KeyboardCommandPlugin() : PluginBase(),
            nh("~keyboard_command")
   
       { };
   
        void initialize(UAS &uas_)
        {
            PluginBase::initialize(uas_);
            keyboard_sub = nh.subscribe("keyboard_sub", 10, &KeyboardCommandPlugin::keyboard_cb, this);
        };
   
        Subscriptions get_subscriptions()
        {
            return {/* RX disabled */ };
        }
   
    private:
        ros::NodeHandle nh;
        ros::Subscriber keyboard_sub;
   
       void keyboard_cb(const std_msgs::Char::ConstPtr &req)
        {
            std::cout << "Got Char : " << req->data <<  std::endl;
            UAS_FCU(m_uas)->send_message_ignore_drop(req->data);
        }
    };
    }   // namespace extra_plugins
    }   // namespace mavros
   
   PLUGINLIB_EXPORT_CLASS(mavros::extra_plugins::KeyboardCommandPlugin, mavros::plugin::PluginBase)

2. Edit mavros_plugins.xml (in workspace/src/mavros/mavros_extras) and add the following lines:

   <class name="keyboard_command" type="mavros::extra_plugins::KeyboardCommandPlugin" base_class_type="mavros::plugin::PluginBase">
        <description>Accepts keyboard command.</description>
   </class>

3. Edit CMakeLists.txt (in workspace/src/mavros/mavros_extras) and add the following line in add_library.

   add_library( 
   ...
     src/plugins/keyboard_command.cpp 
   )

4. Inside common.xml in (workspace/src/mavlink/message_definitions/v1.0), copy the following lines to add your MAVLink message:

   ...
     <message id="229" name="KEY_COMMAND">
        <description>Keyboard char command.</description>
        <field type="char" name="command"> </field>
      </message>
   ...

PX4 修改

1. Inside common.xml (in PX4-Autopilot/mavlink/include/mavlink/v2.0/message_definitions), add your MAVLink message as following (same procedure as for MAVROS section above):

   ...
     <message id="229" name="KEY_COMMAND">
        <description>Keyboard char command.</description>
        <field type="char" name="command"> </field>
      </message>
   ...

2. Remove common, standard directories in (PX4-Autopilot/mavlink/include/mavlink/v2.0).

   rm -r common
   rm -r standard

3. git 克隆"mavlink_generator"到你想要的文件夹下并执行。

   git clone https://github.com/mavlink/mavlink mavlink-generator
   cd mavlink-generator
   python mavgenerate.py

4. 你会看到一个“MAVLink Generator”应用程序窗口：

   • For XML, "Browse" to /PX4-Autopilot/mavlink/include/mavlink/v2.0/message_definitions/standard.xml.

   • For Out, "Browse" to /PX4-Autopilot/mavlink/include/mavlink/v2.0/.

   • Select Language C

   • Select Protocol 2.0

   • Check Validate

   Then, press Generate. You will see common, and standard directories created in /PX4-Autopilot/mavlink/include/mavlink/v2.0/.

5. Make your own uORB message file key_command.msg in (PX4-Autopilot/msg). 示例中的“key_command.msg”文件只包含以下代码：

   char cmd

   Then, in CMakeLists.txt (in PX4-Autopilot/msg), include

   set(
   ...
        key_command.msg
        )

6. Edit mavlink_receiver.h (in PX4-Autopilot/src/modules/mavlink)

   ...
   #include <uORB/topics/key_command.h>
   ...
   class MavlinkReceiver
   {
   ...
   private:
       void handle_message_key_command(mavlink_message_t *msg);
   ...
       orb_advert_t _key_command_pub{nullptr};
   }

7. Edit mavlink_receiver.cpp (in PX4-Autopilot/src/modules/mavlink). 这是 PX4 接收 ROS 发送过来的 MAVLink 消息的地方，并且将消息作为 uORB 主题发布。

   ...
   void MavlinkReceiver::handle_message(mavlink_message_t *msg)
   {
   ...
    case MAVLINK_MSG_ID_KEY_COMMAND:
           handle_message_key_command(msg);
           break;
   ...
   }
   ...
   void
   MavlinkReceiver::handle_message_key_command(mavlink_message_t *msg)
   {
       mavlink_key_command_t man;
       mavlink_msg_key_command_decode(msg, &man);
   
   struct key_command_s key = {};
   
       key.timestamp = hrt_absolute_time();
       key.cmd = man.command;
   
       if (_key_command_pub == nullptr) {
           _key_command_pub = orb_advertise(ORB_ID(key_command), &key);
   
       } else {
           orb_publish(ORB_ID(key_command), _key_command_pub, &key);
       }
   }

8. 像其他示例一样订阅你自己的uORB主题。 For this example lets create the model in (/PX4-Autopilot/src/modules/key_receiver). In this directory, create two files CMakeLists.txt, key_receiver.cpp. 两个文件如下所示。

   -CMakeLists.txt

   px4_add_module(
       MODULE modules__key_receiver
       MAIN key_receiver
       STACK_MAIN 2500
       STACK_MAX 4000
       SRCS
           key_receiver.cpp
       DEPENDS
           platforms__common
   
       )

   -key_receiver.cpp

   #include <px4_config.h>
   #include <px4_tasks.h>
   #include <px4_posix.h>
   #include <unistd.h>
   #include <stdio.h>
   #include <poll.h>
   #include <string.h>
   #include <math.h>
   
   #include <uORB/uORB.h>
   #include <uORB/topics/key_command.h>
   
   extern "C" __EXPORT int key_receiver_main(int argc, char **argv);
   
   int key_receiver_main(int argc, char **argv)
   {
       int key_sub_fd = orb_subscribe(ORB_ID(key_command));
       orb_set_interval(key_sub_fd, 200); // limit the update rate to 200ms
   
       px4_pollfd_struct_t fds[1];
       fds[0].fd = key_sub_fd, fds[0].events = POLLIN;
   
       int error_counter = 0;
   
       while(true)
       {
           int poll_ret = px4_poll(fds, 1, 1000);
   
           if (poll_ret == 0)
           {
               PX4_ERR("Got no data within a second");
           }
   
           else if (poll_ret < 0)
           {
               if (error_counter < 10 || error_counter % 50 == 0)
               {
                   PX4_ERR("ERROR return value from poll(): %d", poll_ret);
               }
   
               error_counter++;
           }
   
           else
           {
               if (fds[0].revents & POLLIN)
               {
                   struct key_command_s input;
                   orb_copy(ORB_ID(key_command), key_sub_fd, &input);
                   PX4_INFO("Recieved Char : %c", input.cmd);
                }
           }
       }
       return 0;
   }

   For a more detailed explanation see the topic Writing your first application.

9. Lastly add your module in the default.px4board file correspondent to your board in PX4-Autopilot/boards/. For example for the Pixhawk 4 add the following code in PX4-Autopilot/boards/px4/fmu-v5/default.px4board: ```CONFIG_MODULES_KEY_RECEIVER=y

MODULES ...

key_receiver ... In your workspace enter: catkin build.

1. Beforehand, you have to set your "px4.launch" in (/workspace/src/mavros/mavros/launch). Edit "px4.launch" as below. If you are using USB to connect your computer with Pixhawk, you have to set "fcu_url" as shown below. But, if you are using CP2102 to connect your computer with Pixhawk, you have to replace "ttyACM0" with "ttyUSB0". Modifying "gcs_url" is to connect your Pixhawk with UDP, because serial communication cannot accept MAVROS, and your nutshell connection simultaneously.

2. Write your IP address at "xxx.xx.xxx.xxx"

   ...
     <arg name="fcu_url" default="/dev/ttyACM0:57600" />
     <arg name="gcs_url" default="udp://:14550@xxx.xx.xxx.xxx:14557" />
   ...

Build for PX4

1. Build PX4-Autopilot and upload in the normal way.

   For example, to build for Pixhawk 4/FMUv5 execute the following command in the root of the PX4-Autopilot directory:

   make px4_fmu-v5_default upload

构建

测试是否从你的 ROS 话题中接收到 a 字符。

PX4 编译

1. In a terminal enter

   roslaunch mavros px4.launch

2. In a second terminal run:

   rostopic pub -r 10 /mavros/keyboard_command/keyboard_sub std_msgs/Char 97

   This means, publish 97 ('a' in ASCII) to ROS topic "/mavros/keyboard_command/keyboard_sub" in message type "std_msgs/Char". "-r 10" means to publish continuously in "10Hz".

Running PX4

1. Enter the Pixhawk nutshell through UDP. Replace xxx.xx.xxx.xxx with your IP.

   cd PX4-Autopilot/Tools
   ./mavlink_shell.py xxx.xx.xxx.xxx:14557 --baudrate 57600

2. After few seconds, press Enter a couple of times. You should see a prompt in the terminal as below:

   rostopic pub -r 10 /mavros/keyboard_command/keyboard_sub std_msgs/Char 97

   Type "key_receiver", to run your subscriber module.

   nsh> key_receiver

Check if it successfully receives a from your ROS topic.