/*
* This file is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This file is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see .
*
* Author: Eugene Shamaev, Siddharth Bharat Purohit
*/
#pragma once
#include
#if HAL_ENABLE_DRONECAN_DRIVERS
#include "AP_Canard_iface.h"
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "AP_DroneCAN_DNA_Server.h"
#include
#include
#ifndef DRONECAN_SRV_NUMBER
#define DRONECAN_SRV_NUMBER NUM_SERVO_CHANNELS
#endif
#ifndef AP_DRONECAN_SEND_GPS
#define AP_DRONECAN_SEND_GPS (BOARD_FLASH_SIZE > 1024)
#endif
#define AP_DRONECAN_SW_VERS_MAJOR 1
#define AP_DRONECAN_SW_VERS_MINOR 0
#define AP_DRONECAN_HW_VERS_MAJOR 1
#define AP_DRONECAN_HW_VERS_MINOR 0
#ifndef AP_DRONECAN_HOBBYWING_ESC_SUPPORT
#define AP_DRONECAN_HOBBYWING_ESC_SUPPORT (BOARD_FLASH_SIZE>1024)
#endif
// fwd-declare callback classes
class AP_DroneCAN_DNA_Server;
class AP_DroneCAN : public AP_CANDriver, public AP_ESC_Telem_Backend {
friend class AP_DroneCAN_DNA_Server;
public:
AP_DroneCAN(const int driver_index);
~AP_DroneCAN();
static const struct AP_Param::GroupInfo var_info[];
// Return uavcan from @driver_index or nullptr if it's not ready or doesn't exist
static AP_DroneCAN *get_dronecan(uint8_t driver_index);
bool prearm_check(char* fail_msg, uint8_t fail_msg_len) const;
void init(uint8_t driver_index, bool enable_filters) override;
bool add_interface(AP_HAL::CANIface* can_iface) override;
uint8_t get_driver_index() const { return _driver_index; }
FUNCTOR_TYPEDEF(ParamGetSetIntCb, bool, AP_DroneCAN*, const uint8_t, const char*, int32_t &);
FUNCTOR_TYPEDEF(ParamGetSetFloatCb, bool, AP_DroneCAN*, const uint8_t, const char*, float &);
FUNCTOR_TYPEDEF(ParamSaveCb, void, AP_DroneCAN*, const uint8_t, bool);
void send_node_status();
///// SRV output /////
void SRV_push_servos(void);
///// LED /////
bool led_write(uint8_t led_index, uint8_t red, uint8_t green, uint8_t blue);
// buzzer
void set_buzzer_tone(float frequency, float duration_s);
// Send Reboot command
// Note: Do not call this from outside UAVCAN thread context,
// you can call this from dronecan callbacks and handlers.
// THIS IS NOT A THREAD SAFE API!
void send_reboot_request(uint8_t node_id);
// get or set param value
// returns true on success, false on failure
// failures occur when waiting on node to respond to previous get or set request
bool set_parameter_on_node(uint8_t node_id, const char *name, float value, ParamGetSetFloatCb *cb);
bool set_parameter_on_node(uint8_t node_id, const char *name, int32_t value, ParamGetSetIntCb *cb);
bool get_parameter_on_node(uint8_t node_id, const char *name, ParamGetSetFloatCb *cb);
bool get_parameter_on_node(uint8_t node_id, const char *name, ParamGetSetIntCb *cb);
// Save parameters
bool save_parameters_on_node(uint8_t node_id, ParamSaveCb *cb);
// options bitmask
enum class Options : uint16_t {
DNA_CLEAR_DATABASE = (1U<<0),
DNA_IGNORE_DUPLICATE_NODE = (1U<<1),
CANFD_ENABLED = (1U<<2),
DNA_IGNORE_UNHEALTHY_NODE = (1U<<3),
USE_ACTUATOR_PWM = (1U<<4),
SEND_GNSS = (1U<<5),
USE_HIMARK_SERVO = (1U<<6),
USE_HOBBYWING_ESC = (1U<<7),
ENABLE_STATS = (1U<<8),
};
// check if a option is set
bool option_is_set(Options option) const {
return (uint16_t(_options.get()) & uint16_t(option)) != 0;
}
// check if a option is set and if it is then reset it to
// 0. return true if it was set
bool check_and_reset_option(Options option);
CanardInterface& get_canard_iface() { return canard_iface; }
Canard::Publisher rgb_led{canard_iface};
Canard::Publisher buzzer{canard_iface};
Canard::Publisher rtcm_stream{canard_iface};
// xacti specific publishers
Canard::Publisher xacti_copter_att_status{canard_iface};
Canard::Publisher xacti_gimbal_control_data{canard_iface};
Canard::Publisher xacti_gnss_status{canard_iface};
private:
void loop(void);
///// SRV output /////
void SRV_send_actuator();
void SRV_send_esc();
void SRV_send_himark();
// SafetyState
void safety_state_send();
// send notify vehicle state
void notify_state_send();
// check for parameter get/set response timeout
void check_parameter_callback_timeout();
// send queued parameter get/set request. called from loop
void send_parameter_request();
// send queued parameter save request. called from loop
void send_parameter_save_request();
// periodic logging
void logging();
// get parameter on a node
ParamGetSetIntCb *param_int_cb; // latest get param request callback function (for integers)
ParamGetSetFloatCb *param_float_cb; // latest get param request callback function (for floats)
bool param_request_sent = true; // true after a param request has been sent, false when queued to be sent
uint32_t param_request_sent_ms; // system time that get param request was sent
HAL_Semaphore _param_sem; // semaphore protecting this block of variables
uint8_t param_request_node_id; // node id of most recent get param request
// save parameters on a node
ParamSaveCb *save_param_cb; // latest save param request callback function
bool param_save_request_sent = true; // true after a save param request has been sent, false when queued to be sent
HAL_Semaphore _param_save_sem; // semaphore protecting this block of variables
uint8_t param_save_request_node_id; // node id of most recent save param request
// UAVCAN parameters
AP_Int8 _dronecan_node;
AP_Int32 _servo_bm;
AP_Int32 _esc_bm;
AP_Int8 _esc_offset;
AP_Int16 _servo_rate_hz;
AP_Int16 _options;
AP_Int16 _notify_state_hz;
AP_Int16 _pool_size;
uint32_t *mem_pool;
AP_DroneCAN_DNA_Server _dna_server;
uint8_t _driver_index;
char _thread_name[13];
bool _initialized;
///// SRV output /////
struct {
uint16_t pulse;
bool esc_pending;
bool servo_pending;
} _SRV_conf[DRONECAN_SRV_NUMBER];
uint32_t _esc_send_count;
uint32_t _srv_send_count;
uint32_t _fail_send_count;
uint32_t _SRV_armed_mask; // mask of servo outputs that are active
uint32_t _ESC_armed_mask; // mask of ESC outputs that are active
uint32_t _SRV_last_send_us;
HAL_Semaphore SRV_sem;
// last log time
uint32_t last_log_ms;
#if AP_DRONECAN_SEND_GPS
// send GNSS Fix and yaw, same thing AP_GPS_DroneCAN would receive
void gnss_send_fix();
void gnss_send_yaw();
// GNSS Fix and Status
struct {
uint32_t last_gps_lib_fix_ms;
uint32_t last_send_status_ms;
uint32_t last_lib_yaw_time_ms;
} _gnss;
#endif
// node status send
uint32_t _node_status_last_send_ms;
// safety status send state
uint32_t _last_safety_state_ms;
// notify vehicle state
uint32_t _last_notify_state_ms;
uavcan_protocol_NodeStatus node_status_msg;
CanardInterface canard_iface;
Canard::Publisher node_status{canard_iface};
Canard::Publisher can_stats{canard_iface};
Canard::Publisher protocol_stats{canard_iface};
Canard::Publisher act_out_array{canard_iface};
Canard::Publisher esc_raw{canard_iface};
Canard::Publisher safety_state{canard_iface};
Canard::Publisher arming_status{canard_iface};
Canard::Publisher notify_state{canard_iface};
Canard::Publisher himark_out{canard_iface};
#if AP_DRONECAN_SEND_GPS
Canard::Publisher gnss_fix2{canard_iface};
Canard::Publisher gnss_auxiliary{canard_iface};
Canard::Publisher gnss_heading{canard_iface};
Canard::Publisher gnss_status{canard_iface};
#endif
// incoming messages
Canard::ObjCallback safety_button_cb{this, &AP_DroneCAN::handle_button};
Canard::Subscriber safety_button_listener{safety_button_cb, _driver_index};
Canard::ObjCallback traffic_report_cb{this, &AP_DroneCAN::handle_traffic_report};
Canard::Subscriber traffic_report_listener{traffic_report_cb, _driver_index};
Canard::ObjCallback actuator_status_cb{this, &AP_DroneCAN::handle_actuator_status};
Canard::Subscriber actuator_status_listener{actuator_status_cb, _driver_index};
Canard::ObjCallback esc_status_cb{this, &AP_DroneCAN::handle_ESC_status};
Canard::Subscriber esc_status_listener{esc_status_cb, _driver_index};
Canard::ObjCallback debug_cb{this, &AP_DroneCAN::handle_debug};
Canard::Subscriber debug_listener{debug_cb, _driver_index};
// param client
Canard::ObjCallback param_get_set_res_cb{this, &AP_DroneCAN::handle_param_get_set_response};
Canard::Client param_get_set_client{canard_iface, param_get_set_res_cb};
Canard::ObjCallback param_save_res_cb{this, &AP_DroneCAN::handle_param_save_response};
Canard::Client param_save_client{canard_iface, param_save_res_cb};
// reboot client
void handle_restart_node_response(const CanardRxTransfer& transfer, const uavcan_protocol_RestartNodeResponse& msg) {}
Canard::ObjCallback restart_node_res_cb{this, &AP_DroneCAN::handle_restart_node_response};
Canard::Client restart_node_client{canard_iface, restart_node_res_cb};
uavcan_protocol_param_ExecuteOpcodeRequest param_save_req;
uavcan_protocol_param_GetSetRequest param_getset_req;
// Node Info Server
Canard::ObjCallback node_info_req_cb{this, &AP_DroneCAN::handle_node_info_request};
Canard::Server node_info_server{canard_iface, node_info_req_cb};
uavcan_protocol_GetNodeInfoResponse node_info_rsp;
#if AP_DRONECAN_HOBBYWING_ESC_SUPPORT
/*
Hobbywing ESC support. Note that we need additional meta-data as
the status messages do not have an ESC ID in them, so we need a
mapping from node ID
*/
#define HOBBYWING_MAX_ESC 8
struct {
uint32_t last_GetId_send_ms;
uint8_t thr_chan[HOBBYWING_MAX_ESC];
} hobbywing;
void hobbywing_ESC_update();
void SRV_send_esc_hobbywing();
Canard::Publisher esc_hobbywing_raw{canard_iface};
Canard::Publisher esc_hobbywing_GetEscID{canard_iface};
Canard::ObjCallback esc_hobbywing_GetEscID_cb{this, &AP_DroneCAN::handle_hobbywing_GetEscID};
Canard::Subscriber esc_hobbywing_GetEscID_listener{esc_hobbywing_GetEscID_cb, _driver_index};
Canard::ObjCallback esc_hobbywing_StatusMSG1_cb{this, &AP_DroneCAN::handle_hobbywing_StatusMsg1};
Canard::Subscriber esc_hobbywing_StatusMSG1_listener{esc_hobbywing_StatusMSG1_cb, _driver_index};
Canard::ObjCallback esc_hobbywing_StatusMSG2_cb{this, &AP_DroneCAN::handle_hobbywing_StatusMsg2};
Canard::Subscriber esc_hobbywing_StatusMSG2_listener{esc_hobbywing_StatusMSG2_cb, _driver_index};
bool hobbywing_find_esc_index(uint8_t node_id, uint8_t &esc_index) const;
void handle_hobbywing_GetEscID(const CanardRxTransfer& transfer, const com_hobbywing_esc_GetEscID& msg);
void handle_hobbywing_StatusMsg1(const CanardRxTransfer& transfer, const com_hobbywing_esc_StatusMsg1& msg);
void handle_hobbywing_StatusMsg2(const CanardRxTransfer& transfer, const com_hobbywing_esc_StatusMsg2& msg);
#endif // AP_DRONECAN_HOBBYWING_ESC_SUPPORT
// incoming button handling
void handle_button(const CanardRxTransfer& transfer, const ardupilot_indication_Button& msg);
void handle_traffic_report(const CanardRxTransfer& transfer, const ardupilot_equipment_trafficmonitor_TrafficReport& msg);
void handle_actuator_status(const CanardRxTransfer& transfer, const uavcan_equipment_actuator_Status& msg);
void handle_actuator_status_Volz(const CanardRxTransfer& transfer, const com_volz_servo_ActuatorStatus& msg);
void handle_ESC_status(const CanardRxTransfer& transfer, const uavcan_equipment_esc_Status& msg);
void handle_himark_servoinfo(const CanardRxTransfer& transfer, const com_himark_servo_ServoInfo &msg);
static bool is_esc_data_index_valid(const uint8_t index);
void handle_debug(const CanardRxTransfer& transfer, const uavcan_protocol_debug_LogMessage& msg);
void handle_param_get_set_response(const CanardRxTransfer& transfer, const uavcan_protocol_param_GetSetResponse& rsp);
void handle_param_save_response(const CanardRxTransfer& transfer, const uavcan_protocol_param_ExecuteOpcodeResponse& rsp);
void handle_node_info_request(const CanardRxTransfer& transfer, const uavcan_protocol_GetNodeInfoRequest& req);
};
#endif // #if HAL_ENABLE_DRONECAN_DRIVERS