Add CAMApplication prototype

- Mandatory parameters filled through the use of 3 ros topics
- Sending ITS packets with CAMs

Signed-off-by: Tiago Garcia <tiago.rgarcia@av.it.pt>
This commit is contained in:
Tiago Garcia 2024-06-12 23:51:59 +01:00
parent 5a2ff2f2d5
commit a2a54ba37f
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GPG Key ID: A3B1096AD19E1688
10 changed files with 548 additions and 13 deletions

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@ -35,6 +35,7 @@ ament_auto_add_library(autoware_v2x SHARED
src/v2x_app.cpp
src/application.cpp
src/cpm_application.cpp
src/cam_application.cpp
src/ethernet_device.cpp
src/link_layer.cpp
src/raw_socket_link.cpp

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@ -1,4 +1,4 @@
/**:
ros__parameters:
network_interface: "wlp4s0"
network_interface: "enx5414a7c7d3af"
is_sender: true

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@ -0,0 +1,148 @@
#ifndef CAM_APPLICATION_HPP_EUIC2VFR
#define CAM_APPLICATION_HPP_EUIC2VFR
#include "autoware_v2x/application.hpp"
#include "rclcpp/rclcpp.hpp"
#include <boost/asio/io_service.hpp>
#include <boost/asio/steady_timer.hpp>
#include "autoware_auto_vehicle_msgs/msg/velocity_report.hpp"
#include "autoware_auto_vehicle_msgs/msg/gear_report.hpp"
#include "autoware_adapi_v1_msgs/msg/vehicle_dimensions.hpp"
#include "autoware_v2x/positioning.hpp"
#include <vanetza/asn1/cam.hpp>
namespace v2x
{
class V2XNode;
class CamApplication : public Application
{
public:
CamApplication(V2XNode *node, vanetza::Runtime &, bool is_sender);
PortType port() override;
//std::string uuidToHexString(const unique_identifier_msgs::msg::UUID&);
void indicate(const DataIndication &, UpPacketPtr) override;
void set_interval(vanetza::Clock::duration);
//void setAllObjectsOfPersonsAnimalsToSend(const autoware_auto_control_msgs::msg::LongitudinalCommand::ConstSharedPtr);
void getVehicleDimensions(const autoware_adapi_v1_msgs::msg::VehicleDimensions);
void updateVelocityReport(const autoware_auto_vehicle_msgs::msg::VelocityReport::ConstSharedPtr);
void updateGearReport(const autoware_auto_vehicle_msgs::msg::GearReport::ConstSharedPtr);
void updateMGRS(double *, double *);
void updateRP(double *, double *, double *);
void updateGenerationTime(int *, long *);
void updateHeading(double *);
//void printObjectsList(int);
void send();
/** Creates the database schema.
* Creates tables for cam_sent, cam_received
*/
//void createTables();
/** Inserts CAM into the database.
* Constructs and executes queries for inserting the specified CAM data.
* @param cam The CAM to be inserted
* @param table_name The table to insert the CAM into (cam_sent or cam_received)
*/
//void insertCamToCamTable(vanetza::asn1::Cam, char*);
struct Object {
std::string uuid;
int vehicleID;
vanetza::Clock::time_point timestamp;
rclcpp::Time timestamp_ros;
// BasicContainer
long stationType;
long latitude; // Obtained from tfMessage (same value as CPMs)
long longitude; // Obtained from tfMessage (same value as CPMs)
long semiMajorConfidence; // Confidence (?)
long semiMinorConfidence; // Confidence (?)
long semiMajorOrientation; // Confidence (?)
long altitude; // Obtained from tfMessage (same value as CPMs)
long altitudeConfidence; // Confidence (?)
// BasicVehicleContainerHighFrequency
long heading; // Obtained from tfMessage (same value as CPMs)
long headingConfidence; // Confidence (?)
long speed; // Obtained from velocityReport after calculation
long speedConfidence; // Confidence (?)
long driveDirection; // Obtained from gearReport
long vehicleLength;
long vehicleLengthConfidence; // Confidence (?)
long vehicleWidth;
long longitudinalAcceleration; // Obtained from velocityReport after calculation over time
long longitudinalAccelerationConfidence; // Confidence (?)
long curvature; // Obtained from velocityReport after calculation
long curvatureConfidence; // Confidence (?)
long curvatureCalculationMode; // Manually set
long yawRate; // Obtained from velocityReport
long yawRateConfidence; // Confidence (?)
vanetza::PositionFix position;
int timeOfMeasurement;
bool to_send;
int to_send_trigger;
};
private:
void schedule_timer();
void on_timer(vanetza::Clock::time_point);
V2XNode *node_;
vanetza::Runtime &runtime_;
vanetza::Clock::duration cam_interval_;
struct VehicleDimensions {
float wheel_radius;
float wheel_width;
float wheel_base;
float wheel_tread;
float front_overhang;
float rear_overhang;
float left_overhang;
float right_overhang;
float height;
};
VehicleDimensions vehicleDimensions_;
struct Ego_station {
double mgrs_x;
double mgrs_y;
double latitude;
double longitude;
double altitude;
double heading;
};
Ego_station ego_;
struct VelocityReport {
rclcpp::Time stamp;
float heading_rate;
float lateral_velocity;
float longitudinal_velocity;
float longitudinal_acceleration;
};
VelocityReport velocityReport_;
uint8_t gearReport_;
int generationTime_;
long gdt_timestamp_;
double objectConfidenceThreshold_;
bool updating_velocity_report_;
bool updating_gear_report_;
bool sending_;
bool is_sender_;
bool reflect_packet_;
bool include_all_persons_and_animals_;
int cam_num_;
int received_cam_num_;
bool use_dynamic_generation_rules_;
};
}
#endif /* CAM_APPLICATION_HPP_EUIC2VFR */

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@ -4,9 +4,13 @@
#include "rclcpp/rclcpp.hpp"
#include "std_msgs/msg/string.hpp"
#include "autoware_auto_perception_msgs/msg/predicted_objects.hpp"
#include "autoware_auto_vehicle_msgs/msg/velocity_report.hpp"
#include "autoware_auto_vehicle_msgs/msg/gear_report.hpp"
#include "autoware_adapi_v1_msgs/msg/vehicle_dimensions.hpp"
#include "tf2_msgs/msg/tf_message.hpp"
#include <boost/asio/io_service.hpp>
#include "autoware_v2x/cpm_application.hpp"
#include "autoware_v2x/cam_application.hpp"
#include "autoware_v2x/time_trigger.hpp"
#include "autoware_v2x/link_layer.hpp"
#include "autoware_v2x/ethernet_device.hpp"
@ -24,18 +28,29 @@ namespace v2x
V2XApp(V2XNode *);
void start();
void objectsCallback(const autoware_auto_perception_msgs::msg::PredictedObjects::ConstSharedPtr);
void getVehicleDimensions(const autoware_adapi_v1_msgs::msg::VehicleDimensions);
void velocityReportCallback(const autoware_auto_vehicle_msgs::msg::VelocityReport::ConstSharedPtr);
void gearReportCallback(const autoware_auto_vehicle_msgs::msg::GearReport::ConstSharedPtr);
void tfCallback(const tf2_msgs::msg::TFMessage::ConstSharedPtr);
CpmApplication *cp;
CamApplication *cam;
// V2XNode *v2x_node;
private:
friend class CpmApplication;
friend class CamApplication;
friend class Application;
V2XNode* node_;
bool tf_received_;
int tf_interval_;
bool velocity_report_received_;
int velocity_report_interval_;
bool gear_report_received_;
int gear_report_interval_;
bool vehicle_dimensions_set_;
bool cp_started_;
bool cam_started_;
};
}

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@ -4,10 +4,15 @@
#include "rclcpp/rclcpp.hpp"
#include "std_msgs/msg/string.hpp"
#include "autoware_auto_perception_msgs/msg/predicted_objects.hpp"
#include "autoware_auto_vehicle_msgs/msg/velocity_report.hpp"
#include "autoware_auto_vehicle_msgs/msg/gear_report.hpp"
#include "autoware_adapi_v1_msgs/srv/get_vehicle_dimensions.hpp"
#include "autoware_adapi_v1_msgs/msg/vehicle_dimensions.hpp"
#include "tf2_msgs/msg/tf_message.hpp"
#include <boost/asio/io_service.hpp>
#include "autoware_v2x/v2x_app.hpp"
#include "autoware_v2x/cpm_application.hpp"
#include "autoware_v2x/cam_application.hpp"
#include "autoware_v2x/time_trigger.hpp"
#include "autoware_v2x/link_layer.hpp"
#include "autoware_v2x/ethernet_device.hpp"
@ -30,12 +35,20 @@ namespace v2x
private:
void objectsCallback(const autoware_auto_perception_msgs::msg::PredictedObjects::ConstSharedPtr msg);
void velocityReportCallback(const autoware_auto_vehicle_msgs::msg::VelocityReport::ConstSharedPtr msg);
void gearReportCallback(const autoware_auto_vehicle_msgs::msg::GearReport::ConstSharedPtr msg);
void getVehicleDimensionsCallback(const autoware_adapi_v1_msgs::srv::GetVehicleDimensions::Response::ConstSharedPtr msg);
void tfCallback(const tf2_msgs::msg::TFMessage::ConstSharedPtr msg);
rclcpp::Subscription<autoware_auto_perception_msgs::msg::PredictedObjects>::SharedPtr objects_sub_;
rclcpp::Subscription<autoware_auto_vehicle_msgs::msg::VelocityReport>::SharedPtr velocity_report_sub_;
rclcpp::Subscription<autoware_auto_vehicle_msgs::msg::GearReport>::SharedPtr gear_report_sub_;
rclcpp::Subscription<autoware_adapi_v1_msgs::srv::GetVehicleDimensions::Response>::SharedPtr get_vehicle_dimensions_;
rclcpp::Subscription<tf2_msgs::msg::TFMessage>::SharedPtr tf_sub_;
rclcpp::Publisher<autoware_auto_perception_msgs::msg::PredictedObjects>::SharedPtr cpm_objects_pub_;
rclcpp::Publisher<autoware_auto_perception_msgs::msg::PredictedObjects>::SharedPtr cpm_sender_pub_;
rclcpp::Publisher<autoware_auto_perception_msgs::msg::PredictedObjects>::SharedPtr cam_objects_pub_;
rclcpp::Publisher<autoware_auto_perception_msgs::msg::PredictedObjects>::SharedPtr cam_sender_pub_;
double pos_lat_;
double pos_lon_;

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@ -1,5 +1,5 @@
<launch>
<arg name="network_interface" default="wlp5s0"/>
<arg name="network_interface" default="enx5414a7c7d3af"/>
<arg name="is_sender" default="true"/>
<node pkg="autoware_v2x" exec="autoware_v2x_node" namespace="v2x" output="screen">
<param from="$(find-pkg-share autoware_v2x)/config/autoware_v2x.param.yaml"/>

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@ -10,6 +10,8 @@
<buildtool_depend>ament_cmake_auto</buildtool_depend>
<depend>autoware_auto_perception_msgs</depend>
<depend>autoware_auto_vehicle_msgs</depend>
<depend>autoware_adapi_v1_msgs</depend>
<depend>tf2_msgs</depend>
<depend>tf2</depend>
<depend>geometry_msgs</depend>

299
src/cam_application.cpp Normal file
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@ -0,0 +1,299 @@
#include "autoware_v2x/cam_application.hpp"
#include "autoware_v2x/positioning.hpp"
#include "autoware_v2x/security.hpp"
#include "autoware_v2x/link_layer.hpp"
#include "autoware_v2x/v2x_node.hpp"
#include "tf2/LinearMath/Quaternion.h"
#include "tf2/LinearMath/Matrix3x3.h"
#include "rclcpp/rclcpp.hpp"
#include <vanetza/btp/ports.hpp>
#include <vanetza/asn1/cam.hpp>
#include <vanetza/asn1/packet_visitor.hpp>
#include <chrono>
#include <functional>
#include <iostream>
#include <sstream>
#include <exception>
#include <GeographicLib/UTMUPS.hpp>
#include <GeographicLib/MGRS.hpp>
#include <string>
#include <boost/units/cmath.hpp>
#include <boost/units/systems/si/prefixes.hpp>
#include <sqlite3.h>
#define _USE_MATH_DEFINES
#include <math.h>
using namespace vanetza;
using namespace std::chrono;
namespace v2x
{
CamApplication::CamApplication(V2XNode * node, Runtime & rt, bool is_sender)
: node_(node),
runtime_(rt),
vehicleDimensions_(),
ego_(),
velocityReport_(),
gearReport_(),
generationTime_(0),
updating_velocity_report_(false),
updating_gear_report_(false),
sending_(false),
is_sender_(is_sender),
reflect_packet_(false),
objectConfidenceThreshold_(0.0),
include_all_persons_and_animals_(false),
cam_num_(0),
received_cam_num_(0),
use_dynamic_generation_rules_(false)
{
RCLCPP_INFO(node_->get_logger(), "CamApplication started. is_sender: %d", is_sender_);
set_interval(milliseconds(100));
//createTables();
}
void CamApplication::set_interval(Clock::duration interval) {
cam_interval_ = interval;
runtime_.cancel(this);
schedule_timer();
}
void CamApplication::schedule_timer() {
runtime_.schedule(cam_interval_, std::bind(&CamApplication::on_timer, this, std::placeholders::_1));
}
void CamApplication::on_timer(vanetza::Clock::time_point) {
schedule_timer();
send();
}
CamApplication::PortType CamApplication::port() {
return btp::ports::CAM;
}
//std::string CamApplication::uuidToHexString(const unique_identifier_msgs::msg::UUID &id) {
// std::stringstream ss;
// for (int i = 0; i < id.uuid.size(); i++) {
// ss << std::hex << std::setfill('0') << std::setw(2) << (int)id.uuid[i];
// }
// return ss.str();
//}
void CamApplication::indicate(const Application::DataIndication &, Application::UpPacketPtr)
{
// TODO: implement
}
void CamApplication::updateMGRS(double *x, double *y) {
ego_.mgrs_x = *x;
ego_.mgrs_y = *y;
}
void CamApplication::updateRP(double *lat, double *lon, double *altitude) {
ego_.latitude = *lat;
ego_.longitude = *lon;
ego_.altitude = *altitude;
}
void CamApplication::updateGenerationTime(int *gdt, long *gdt_timestamp) {
generationTime_ = *gdt;
gdt_timestamp_ = *gdt_timestamp; // ETSI-epoch milliseconds timestamp
}
void CamApplication::updateHeading(double *yaw) {
ego_.heading = *yaw;
}
//void CamApplication::setAllObjectsOfPersonsAnimalsToSend(const autoware_auto_perception_msgs::msg::PredictedObjects::ConstSharedPtr msg) {
// if (msg->objects.size() > 0) {
// for (autoware_auto_perception_msgs::msg::PredictedObject obj : msg->objects) {
// std::string object_uuid = uuidToHexString(obj.object_id);
// auto found_object = std::find_if(objectsList.begin(), objectsList.end(), [&](auto const &e) {
// return !strcmp(e.uuid.c_str(), object_uuid.c_str());
// });
//
// if (found_object == objectsList.end()) {
//
// } else {
// found_object->to_send = true;
// }
// }
// }
//}
void CamApplication::getVehicleDimensions(const autoware_adapi_v1_msgs::msg::VehicleDimensions msg) {
vehicleDimensions_.wheel_radius = msg.wheel_radius;
vehicleDimensions_.wheel_width = msg.wheel_width;
vehicleDimensions_.wheel_base = msg.wheel_base;
vehicleDimensions_.wheel_tread = msg.wheel_tread;
vehicleDimensions_.front_overhang = msg.front_overhang;
vehicleDimensions_.rear_overhang = msg.rear_overhang;
vehicleDimensions_.left_overhang = msg.left_overhang;
vehicleDimensions_.right_overhang = msg.right_overhang;
vehicleDimensions_.height = msg.height;
}
void CamApplication::updateVelocityReport(const autoware_auto_vehicle_msgs::msg::VelocityReport::ConstSharedPtr msg) {
if (updating_velocity_report_) {
RCLCPP_WARN(node_->get_logger(), "[CamApplication::updatevelocityReport_] already updating velocity report");
return;
}
updating_velocity_report_ = true;
rclcpp::Time msg_stamp(msg->header.stamp.sec, msg->header.stamp.nanosec);
float dt = (msg_stamp - velocityReport_.stamp).seconds();
if (dt == 0) {
RCLCPP_WARN(node_->get_logger(), "[CamApplication::updatevelocityReport_] deltaTime is 0");
return;
}
float longitudinal_acceleration = (msg->longitudinal_velocity - velocityReport_.longitudinal_velocity) / dt;
velocityReport_.stamp = msg->header.stamp;
velocityReport_.heading_rate = msg->heading_rate;
velocityReport_.lateral_velocity = msg->lateral_velocity;
velocityReport_.longitudinal_velocity = msg->longitudinal_velocity;
velocityReport_.longitudinal_acceleration = longitudinal_acceleration;
}
void CamApplication::updateGearReport(const autoware_auto_vehicle_msgs::msg::GearReport::ConstSharedPtr msg) {
if (updating_gear_report_) {
RCLCPP_WARN(node_->get_logger(), "[CamApplication::updatevelocityReport_] already updating gear report");
return;
}
updating_gear_report_ = true;
gearReport_ = msg->report;
}
void CamApplication::send() {
if (!is_sender_) return;
if (sending_) {
RCLCPP_WARN(node_->get_logger(), "[CamApplication::send] already sending");
return;
}
sending_ = true;
//printObjectsList(cam_num_);
RCLCPP_INFO(node_->get_logger(), "[CamApplication::send] cam_num: %d", cam_num_);
// RCLCPP_INFO(node_->get_logger(), "[CamApplication::send] sending CAM");
vanetza::asn1::Cam message;
ItsPduHeader_t &header = message->header;
header.protocolVersion = 2;
header.messageID = ItsPduHeader__messageID_cam;
header.stationID = 0;
CoopAwareness_t &cam = message->cam;
//asn_long2INTEGER(&cam.generationDeltaTime, (long) gdt_timestamp_);
BasicContainer_t &basic_container = cam.camParameters.basicContainer;
basic_container.stationType = StationType_passengerCar;
basic_container.referencePosition.latitude = ego_.latitude * 1e7;
basic_container.referencePosition.longitude = ego_.longitude * 1e7;
basic_container.referencePosition.altitude.altitudeValue = ego_.altitude;
// UNAVAILABLE VALUES FOR TESTING
basic_container.referencePosition.altitude.altitudeConfidence = AltitudeConfidence_unavailable;
basic_container.referencePosition.positionConfidenceEllipse.semiMajorConfidence = SemiAxisLength_unavailable;
basic_container.referencePosition.positionConfidenceEllipse.semiMinorConfidence = SemiAxisLength_unavailable;
basic_container.referencePosition.positionConfidenceEllipse.semiMajorOrientation = HeadingValue_unavailable;
// ------------------------------
BasicVehicleContainerHighFrequency_t &bvc = cam.camParameters.highFrequencyContainer.choice.basicVehicleContainerHighFrequency;
cam.camParameters.highFrequencyContainer.present = HighFrequencyContainer_PR_basicVehicleContainerHighFrequency;
int heading = std::lround(((-ego_.heading * 180.0 / M_PI) + 90.0) * 10.0);
if (heading < 0) heading += 3600;
bvc.heading.headingValue = heading;
float heading_rate = velocityReport_.heading_rate;
float lateral_velocity = velocityReport_.lateral_velocity;
float longitudinal_velocity = velocityReport_.longitudinal_velocity;
float speed = std::sqrt(std::pow(longitudinal_velocity, 2) + std::pow(lateral_velocity, 2));
bvc.speed.speedValue = std::lround(speed * 100);
if ((gearReport_ >= 2 && gearReport_ <= 19) || gearReport_ == 21 || gearReport_ == 22)
bvc.driveDirection = DriveDirection_forward;
else if (gearReport_ == 20 || gearReport_ == 21)
bvc.driveDirection = DriveDirection_backward;
else
bvc.driveDirection = DriveDirection_unavailable;
float vehicleLength = vehicleDimensions_.front_overhang + vehicleDimensions_.wheel_base + vehicleDimensions_.rear_overhang;
if (vehicleLength <= 0 || vehicleLength >= 1023)
bvc.vehicleLength.vehicleLengthValue = VehicleLengthValue_unavailable;
else
bvc.vehicleLength.vehicleLengthValue = vehicleLength;
float vehicleWidth = vehicleDimensions_.left_overhang + vehicleDimensions_.wheel_tread + vehicleDimensions_.right_overhang;
if (vehicleWidth <= 0 || vehicleWidth >= 62)
bvc.vehicleWidth = VehicleWidth_unavailable;
else
bvc.vehicleWidth = vehicleWidth;
//if (longitudinal_acceleration > 160 || longitudinal_acceleration < -160) {
// RCLCPP_WARN(node_->get_logger(), "[CamApplication::send] Longitudinal acceleration out of bounds: %d", longitudinal_acceleration);
// bvc.longitudinalAcceleration.longitudinalAccelerationValue = LongitudinalAccelerationValue_unavailable;
//} else {
// bvc.longitudinalAcceleration.longitudinalAccelerationValue = longitudinal_acceleration;
//}
bvc.longitudinalAcceleration.longitudinalAccelerationValue = LongitudinalAccelerationValue_unavailable;
if (longitudinal_velocity != 0)
bvc.curvature.curvatureValue = std::lround(lateral_velocity / std::pow(longitudinal_velocity, 2) * 100);
else
bvc.curvature.curvatureValue = std::numeric_limits<long>::infinity();
bvc.curvatureCalculationMode = CurvatureCalculationMode_yawRateNotUsed;
bvc.yawRate.yawRateValue = std::lround(heading_rate * 100);
// UNAVAILABLE VALUES FOR TESTING
bvc.heading.headingConfidence = HeadingConfidence_unavailable;
bvc.speed.speedConfidence = SpeedConfidence_unavailable;
bvc.vehicleLength.vehicleLengthConfidenceIndication = VehicleLengthConfidenceIndication_unavailable;
bvc.longitudinalAcceleration.longitudinalAccelerationConfidence = AccelerationConfidence_unavailable;
bvc.curvature.curvatureConfidence = CurvatureConfidence_unavailable;
bvc.yawRate.yawRateConfidence = YawRateConfidence_unavailable;
// ------------------------------
RCLCPP_INFO(node_->get_logger(), "[CamApplication::send] Sending CAM");
//insertCamToCamTable(message, (char *) "cam_sent");
std::unique_ptr<geonet::DownPacket> payload{new geonet::DownPacket()};
payload->layer(OsiLayer::Application) = std::move(message);
Application::DataRequest request;
request.its_aid = aid::CP;
request.transport_type = geonet::TransportType::SHB;
request.communication_profile = geonet::CommunicationProfile::ITS_G5;
Application::DataConfirm confirm = Application::request(request, std::move(payload), node_);
if (!confirm.accepted()) {
throw std::runtime_error("[CamApplication::send] CAM application data request failed");
}
sending_ = false;
std::chrono::milliseconds ms = std::chrono::duration_cast<std::chrono::milliseconds> (
std::chrono::system_clock::now().time_since_epoch()
);
node_->latency_log_file << "T_depart," << cam_num_ << "," << ms.count() << std::endl;
++cam_num_;
}
}

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@ -6,6 +6,7 @@
#include "autoware_v2x/security.hpp"
#include "autoware_v2x/link_layer.hpp"
#include "autoware_v2x/cpm_application.hpp"
#include "autoware_v2x/cam_application.hpp"
#include "rclcpp/rclcpp.hpp"
#include "std_msgs/msg/string.hpp"
@ -14,6 +15,7 @@
#include "tf2/LinearMath/Matrix3x3.h"
#include <vanetza/asn1/cpm.hpp>
#include <vanetza/asn1/cam.hpp>
#include <sstream>
#include <memory>
#include <GeographicLib/UTMUPS.hpp>
@ -32,7 +34,9 @@ namespace v2x
node_(node),
tf_received_(false),
tf_interval_(0),
cp_started_(false)
vehicle_dimensions_set_(false),
cp_started_(false),
cam_started_(false)
{
}
@ -46,6 +50,30 @@ namespace v2x
}
}
void V2XApp::getVehicleDimensions(const autoware_adapi_v1_msgs::msg::VehicleDimensions msg) {
if (vehicle_dimensions_set_) return;
cam->getVehicleDimensions(msg);
vehicle_dimensions_set_ = true;
}
void V2XApp::velocityReportCallback(const autoware_auto_vehicle_msgs::msg::VelocityReport::ConstSharedPtr msg) {
if (!velocity_report_received_) {
RCLCPP_WARN(node_->get_logger(), "[V2XApp::velocityReportCallback VelocityReport not received yet");
}
if (velocity_report_received_ && cam_started_) {
cam->updateVelocityReport(msg);
}
}
void V2XApp::gearReportCallback(const autoware_auto_vehicle_msgs::msg::GearReport::ConstSharedPtr msg) {
if (!gear_report_received_) {
RCLCPP_WARN(node_->get_logger(), "[V2XApp::gearReportCallback GearReport not received yet");
}
if (gear_report_received_ && cam_started_) {
cam->updateGearReport(msg);
}
}
void V2XApp::tfCallback(const tf2_msgs::msg::TFMessage::ConstSharedPtr msg) {
tf_received_ = true;
@ -94,6 +122,13 @@ namespace v2x
cp->updateHeading(&yaw);
cp->updateGenerationTime(&gdt, &timestamp_msec);
}
if (cam && cp_started_) {
cam->updateMGRS(&x, &y);
cam->updateRP(&lat, &lon, &z);
cam->updateHeading(&yaw);
cam->updateGenerationTime(&gdt, &timestamp_msec);
}
}
void V2XApp::start() {
@ -132,10 +167,13 @@ namespace v2x
bool is_sender;
node_->get_parameter("is_sender", is_sender);
cp = new CpmApplication(node_, trigger.runtime(), is_sender);
cam = new CamApplication(node_, trigger.runtime(), is_sender);
context.enable(cp);
context.enable(cam);
cp_started_ = true;
cam_started_ = true;
io_service.run();
}

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@ -6,11 +6,13 @@
#include "autoware_v2x/security.hpp"
#include "autoware_v2x/link_layer.hpp"
#include "autoware_v2x/cpm_application.hpp"
#include "autoware_v2x/cam_application.hpp"
#include "rclcpp/rclcpp.hpp"
#include "std_msgs/msg/string.hpp"
#include <vanetza/asn1/cpm.hpp>
#include <vanetza/asn1/cam.hpp>
#include <sstream>
#include <memory>
#include <boost/thread.hpp>
@ -34,11 +36,16 @@ namespace v2x
objects_sub_ = this->create_subscription<autoware_auto_perception_msgs::msg::PredictedObjects>("/perception/object_recognition/objects", 10, std::bind(&V2XNode::objectsCallback, this, _1));
tf_sub_ = this->create_subscription<tf2_msgs::msg::TFMessage>("/tf", 10, std::bind(&V2XNode::tfCallback, this, _1));
// Topic subscriptions for CAMApplication
velocity_report_sub_ = this->create_subscription<autoware_auto_vehicle_msgs::msg::VelocityReport>("/vehicle/status/velocity_status", 10, std::bind(&V2XNode::velocityReportCallback, this, _1));
gear_report_sub_ = this->create_subscription<autoware_auto_vehicle_msgs::msg::GearReport>("/vehicle/status/gear_status", 10, std::bind(&V2XNode::gearReportCallback, this, _1));
get_vehicle_dimensions_ = this->create_subscription<autoware_adapi_v1_msgs::srv::GetVehicleDimensions::Response>("/api/vehicle/dimensions", 10, std::bind(&V2XNode::getVehicleDimensionsCallback, this, _1));
cpm_objects_pub_ = create_publisher<autoware_auto_perception_msgs::msg::PredictedObjects>("/v2x/cpm/objects", rclcpp::QoS{10});
// cpm_sender_pub_ = create_publisher<autoware_auto_perception_msgs::msg::PredictedObjects>("/v2x/cpm/sender", rclcpp::QoS{10});
// Declare Parameters
this->declare_parameter<std::string>("network_interface", "vmnet1");
this->declare_parameter<std::string>("network_interface", "enx5414a7c7d3af");
this->declare_parameter<bool>("is_sender", true);
// Launch V2XApp in a new thread
@ -164,6 +171,18 @@ namespace v2x
void V2XNode::tfCallback(const tf2_msgs::msg::TFMessage::ConstSharedPtr msg) {
app->tfCallback(msg);
}
void V2XNode::velocityReportCallback(const autoware_auto_vehicle_msgs::msg::VelocityReport::ConstSharedPtr msg) {
app->velocityReportCallback(msg);
}
void V2XNode::gearReportCallback(const autoware_auto_vehicle_msgs::msg::GearReport::ConstSharedPtr msg) {
app->gearReportCallback(msg);
}
void V2XNode::getVehicleDimensionsCallback(const autoware_adapi_v1_msgs::srv::GetVehicleDimensions::Response::ConstSharedPtr msg) {
app->getVehicleDimensions(msg->dimensions);
}
}
#include "rclcpp_components/register_node_macro.hpp"