ardupilot/libraries/AP_DDS/AP_DDS_Client.h

234 lines
8.6 KiB
C++

#pragma once
#if AP_DDS_ENABLED
#include "uxr/client/client.h"
#include "ucdr/microcdr.h"
#include "ardupilot_msgs/msg/GlobalPosition.h"
#include "builtin_interfaces/msg/Time.h"
#include "sensor_msgs/msg/NavSatFix.h"
#include "tf2_msgs/msg/TFMessage.h"
#include "sensor_msgs/msg/BatteryState.h"
#include "sensor_msgs/msg/Joy.h"
#include "geometry_msgs/msg/PoseStamped.h"
#include "geometry_msgs/msg/TwistStamped.h"
#include "geographic_msgs/msg/GeoPoseStamped.h"
#include "rosgraph_msgs/msg/Clock.h"
#include <AP_HAL/AP_HAL.h>
#include <AP_HAL/Scheduler.h>
#include <AP_HAL/Semaphores.h>
#include <AP_AHRS/AP_AHRS.h>
#include "fcntl.h"
#include <AP_Param/AP_Param.h>
#include "AP_DDS_config.h"
#define DDS_MTU 512
#define DDS_STREAM_HISTORY 8
#define DDS_BUFFER_SIZE DDS_MTU * DDS_STREAM_HISTORY
#if AP_DDS_UDP_ENABLED
#include <AP_HAL/utility/Socket.h>
#include <AP_Networking/AP_Networking_address.h>
#endif
extern const AP_HAL::HAL& hal;
class AP_DDS_Client
{
private:
AP_Int8 enabled;
// Serial Allocation
uxrSession session; //Session
bool is_using_serial; // true when using serial transport
// input and output stream
uint8_t *input_reliable_stream;
uint8_t *output_reliable_stream;
uxrStreamId reliable_in;
uxrStreamId reliable_out;
// Outgoing Sensor and AHRS data
builtin_interfaces_msg_Time time_topic;
geographic_msgs_msg_GeoPoseStamped geo_pose_topic;
geometry_msgs_msg_PoseStamped local_pose_topic;
geometry_msgs_msg_TwistStamped tx_local_velocity_topic;
sensor_msgs_msg_BatteryState battery_state_topic;
sensor_msgs_msg_NavSatFix nav_sat_fix_topic;
rosgraph_msgs_msg_Clock clock_topic;
// incoming joystick data
static sensor_msgs_msg_Joy rx_joy_topic;
// incoming REP147 velocity control
static geometry_msgs_msg_TwistStamped rx_velocity_control_topic;
// incoming REP147 goal interface global position
static ardupilot_msgs_msg_GlobalPosition rx_global_position_control_topic;
// outgoing transforms
tf2_msgs_msg_TFMessage tx_static_transforms_topic;
// incoming transforms
static tf2_msgs_msg_TFMessage rx_dynamic_transforms_topic;
HAL_Semaphore csem;
// connection parametrics
bool status_ok{false};
bool connected{false};
static void update_topic(builtin_interfaces_msg_Time& msg);
bool update_topic(sensor_msgs_msg_NavSatFix& msg, const uint8_t instance) WARN_IF_UNUSED;
static void populate_static_transforms(tf2_msgs_msg_TFMessage& msg);
static void update_topic(sensor_msgs_msg_BatteryState& msg, const uint8_t instance);
static void update_topic(geometry_msgs_msg_PoseStamped& msg);
static void update_topic(geometry_msgs_msg_TwistStamped& msg);
static void update_topic(geographic_msgs_msg_GeoPoseStamped& msg);
static void update_topic(rosgraph_msgs_msg_Clock& msg);
// subscription callback function
static void on_topic_trampoline(uxrSession* session, uxrObjectId object_id, uint16_t request_id, uxrStreamId stream_id, struct ucdrBuffer* ub, uint16_t length, void* args);
void on_topic(uxrSession* session, uxrObjectId object_id, uint16_t request_id, uxrStreamId stream_id, struct ucdrBuffer* ub, uint16_t length);
// service replier callback function
static void on_request_trampoline(uxrSession* session, uxrObjectId object_id, uint16_t request_id, SampleIdentity* sample_id, ucdrBuffer* ub, uint16_t length, void* args);
void on_request(uxrSession* session, uxrObjectId object_id, uint16_t request_id, SampleIdentity* sample_id, ucdrBuffer* ub, uint16_t length);
// delivery control parameters
uxrDeliveryControl delivery_control {
.max_samples = UXR_MAX_SAMPLES_UNLIMITED,
.max_elapsed_time = 0,
.max_bytes_per_second = 0,
.min_pace_period = 0
};
// The last ms timestamp AP_DDS wrote a Time message
uint64_t last_time_time_ms;
// The last ms timestamp AP_DDS wrote a NavSatFix message
uint64_t last_nav_sat_fix_time_ms;
// The last ms timestamp AP_DDS wrote a BatteryState message
uint64_t last_battery_state_time_ms;
// The last ms timestamp AP_DDS wrote a Local Pose message
uint64_t last_local_pose_time_ms;
// The last ms timestamp AP_DDS wrote a Local Velocity message
uint64_t last_local_velocity_time_ms;
// The last ms timestamp AP_DDS wrote a GeoPose message
uint64_t last_geo_pose_time_ms;
// The last ms timestamp AP_DDS wrote a Clock message
uint64_t last_clock_time_ms;
// functions for serial transport
bool ddsSerialInit();
static bool serial_transport_open(uxrCustomTransport* args);
static bool serial_transport_close(uxrCustomTransport* transport);
static size_t serial_transport_write(uxrCustomTransport* transport, const uint8_t* buf, size_t len, uint8_t* error);
static size_t serial_transport_read(uxrCustomTransport* transport, uint8_t* buf, size_t len, int timeout, uint8_t* error);
struct {
AP_HAL::UARTDriver *port;
uxrCustomTransport transport;
} serial;
#if AP_DDS_UDP_ENABLED
// functions for udp transport
bool ddsUdpInit();
static bool udp_transport_open(uxrCustomTransport* args);
static bool udp_transport_close(uxrCustomTransport* transport);
static size_t udp_transport_write(uxrCustomTransport* transport, const uint8_t* buf, size_t len, uint8_t* error);
static size_t udp_transport_read(uxrCustomTransport* transport, uint8_t* buf, size_t len, int timeout, uint8_t* error);
struct {
AP_Int32 port;
// UDP endpoint
AP_Networking_IPV4 ip{AP_DDS_DEFAULT_UDP_IP_ADDR};
// UDP Allocation
uxrCustomTransport transport;
SocketAPM *socket;
} udp;
#endif
// pointer to transport's communication structure
uxrCommunication *comm{nullptr};
// client key we present
static constexpr uint32_t key = 0xAAAABBBB;
public:
~AP_DDS_Client();
bool start(void);
void main_loop(void);
//! @brief Initialize the client's transport
//! @return True on successful initialization, false on failure
bool init_transport() WARN_IF_UNUSED;
//! @brief Initialize the client's uxr session and IO stream(s)
//! @return True on successful initialization, false on failure
bool init_session() WARN_IF_UNUSED;
//! @brief Set up the client's participants, data read/writes,
// publishers, subscribers
//! @return True on successful creation, false on failure
bool create() WARN_IF_UNUSED;
//! @brief Serialize the current time state and publish to the IO stream(s)
void write_time_topic();
//! @brief Serialize the current nav_sat_fix state and publish to the IO stream(s)
void write_nav_sat_fix_topic();
//! @brief Serialize the static transforms and publish to the IO stream(s)
void write_static_transforms();
//! @brief Serialize the current nav_sat_fix state and publish it to the IO stream(s)
void write_battery_state_topic();
//! @brief Serialize the current local_pose and publish to the IO stream(s)
void write_local_pose_topic();
//! @brief Serialize the current local velocity and publish to the IO stream(s)
void write_tx_local_velocity_topic();
//! @brief Serialize the current geo_pose and publish to the IO stream(s)
void write_geo_pose_topic();
//! @brief Serialize the current clock and publish to the IO stream(s)
void write_clock_topic();
//! @brief Update the internally stored DDS messages with latest data
void update();
//! @brief GCS message prefix
static constexpr const char* msg_prefix = "DDS:";
//! @brief Parameter storage
static const struct AP_Param::GroupInfo var_info[];
//! @brief Convenience grouping for a single "channel" of data
struct Topic_table {
const uint8_t topic_id;
const uint8_t pub_id;
const uint8_t sub_id; // added sub_id fields to avoid confusion
const uxrObjectId dw_id;
const uxrObjectId dr_id; // added dr_id fields to avoid confusion
const char* topic_profile_label;
const char* dw_profile_label;
const char* dr_profile_label;
};
static const struct Topic_table topics[];
//! @brief Convenience grouping for a single "channel" of services
struct Service_table {
//! @brief Request ID for the service
const uint8_t req_id;
//! @brief Reply ID for the service
const uint8_t rep_id;
//! @brief Profile Label for the service requester
const char* req_profile_label;
//! @brief Profile Label for the service replier
const char* rep_profile_label;
};
static const struct Service_table services[];
};
#endif // AP_DDS_ENABLED