ardupilot/libraries/AP_OpenDroneID/AP_OpenDroneID_DroneCAN.cpp

251 lines
8.5 KiB
C++

/*
* 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 <http://www.gnu.org/licenses/>.
*/
/*
DroneCAN support for OpenDroneID
*/
#include "AP_OpenDroneID.h"
#if AP_OPENDRONEID_ENABLED
#include <AP_UAVCAN/AP_UAVCAN.h>
#include <dronecan/remoteid/Location.hpp>
#include <dronecan/remoteid/BasicID.hpp>
#include <dronecan/remoteid/SelfID.hpp>
#include <dronecan/remoteid/OperatorID.hpp>
#include <dronecan/remoteid/System.hpp>
#include <dronecan/remoteid/ArmStatus.hpp>
#if HAL_MAX_CAN_PROTOCOL_DRIVERS
static uavcan::Publisher<dronecan::remoteid::Location>* dc_location[HAL_MAX_CAN_PROTOCOL_DRIVERS];
static uavcan::Publisher<dronecan::remoteid::BasicID>* dc_basic_id[HAL_MAX_CAN_PROTOCOL_DRIVERS];
static uavcan::Publisher<dronecan::remoteid::SelfID>* dc_self_id[HAL_MAX_CAN_PROTOCOL_DRIVERS];
static uavcan::Publisher<dronecan::remoteid::System>* dc_system[HAL_MAX_CAN_PROTOCOL_DRIVERS];
static uavcan::Publisher<dronecan::remoteid::OperatorID>* dc_operator_id[HAL_MAX_CAN_PROTOCOL_DRIVERS];
// handle ArmStatus
UC_REGISTRY_BINDER(ArmStatusCb, dronecan::remoteid::ArmStatus);
static uavcan::Subscriber<dronecan::remoteid::ArmStatus, ArmStatusCb> *arm_status_listener[HAL_MAX_CAN_PROTOCOL_DRIVERS];
static void handle_arm_status(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ArmStatusCb &cb);
void AP_OpenDroneID::dronecan_init(AP_UAVCAN *uavcan)
{
const uint8_t driver_index = uavcan->get_driver_index();
const uint8_t driver_mask = 1U<<driver_index;
if (dronecan_done_init & driver_mask) {
// already initialised
return;
}
dc_location[driver_index] = new uavcan::Publisher<dronecan::remoteid::Location>(*uavcan->get_node());
if (dc_location[driver_index] == nullptr) {
goto alloc_failed;
}
dc_location[driver_index]->setTxTimeout(uavcan::MonotonicDuration::fromMSec(20));
dc_location[driver_index]->setPriority(uavcan::TransferPriority::OneHigherThanLowest);
dc_basic_id[driver_index] = new uavcan::Publisher<dronecan::remoteid::BasicID>(*uavcan->get_node());
if (dc_basic_id[driver_index] == nullptr) {
goto alloc_failed;
}
dc_basic_id[driver_index]->setTxTimeout(uavcan::MonotonicDuration::fromMSec(20));
dc_basic_id[driver_index]->setPriority(uavcan::TransferPriority::OneHigherThanLowest);
dc_self_id[driver_index] = new uavcan::Publisher<dronecan::remoteid::SelfID>(*uavcan->get_node());
if (dc_self_id[driver_index] == nullptr) {
goto alloc_failed;
}
dc_self_id[driver_index]->setTxTimeout(uavcan::MonotonicDuration::fromMSec(20));
dc_self_id[driver_index]->setPriority(uavcan::TransferPriority::OneHigherThanLowest);
dc_system[driver_index] = new uavcan::Publisher<dronecan::remoteid::System>(*uavcan->get_node());
if (dc_system[driver_index] == nullptr) {
goto alloc_failed;
}
dc_system[driver_index]->setTxTimeout(uavcan::MonotonicDuration::fromMSec(20));
dc_system[driver_index]->setPriority(uavcan::TransferPriority::OneHigherThanLowest);
dc_operator_id[driver_index] = new uavcan::Publisher<dronecan::remoteid::OperatorID>(*uavcan->get_node());
if (dc_operator_id[driver_index] == nullptr) {
goto alloc_failed;
}
dc_operator_id[driver_index]->setTxTimeout(uavcan::MonotonicDuration::fromMSec(20));
dc_operator_id[driver_index]->setPriority(uavcan::TransferPriority::OneHigherThanLowest);
arm_status_listener[driver_index] = new uavcan::Subscriber<dronecan::remoteid::ArmStatus, ArmStatusCb>(*uavcan->get_node());
if (arm_status_listener[driver_index] == nullptr) {
goto alloc_failed;
}
arm_status_listener[driver_index]->start(ArmStatusCb(uavcan, &handle_arm_status));
dronecan_done_init |= driver_mask;
return;
alloc_failed:
dronecan_init_failed |= driver_mask;
GCS_SEND_TEXT(MAV_SEVERITY_NOTICE, "OpenDroneID DroneCAN alloc failed");
}
/*
send pending DroneCAN OpenDroneID packets
*/
void AP_OpenDroneID::dronecan_send(AP_UAVCAN *uavcan)
{
const uint8_t driver_index = uavcan->get_driver_index();
const uint8_t driver_mask = 1U<<driver_index;
if (driver_index+1 != _can_driver) {
// not enabled for this CAN driver
return;
}
dronecan_init(uavcan);
if (dronecan_init_failed & driver_mask) {
return;
}
if (need_send_basic_id & driver_mask) {
WITH_SEMAPHORE(_sem);
dronecan_send_basic_id(uavcan);
need_send_basic_id &= ~driver_mask;
}
if (need_send_system & driver_mask) {
WITH_SEMAPHORE(_sem);
dronecan_send_system(uavcan);
need_send_system &= ~driver_mask;
}
if (need_send_self_id & driver_mask) {
WITH_SEMAPHORE(_sem);
dronecan_send_self_id(uavcan);
need_send_self_id &= ~driver_mask;
}
if (need_send_operator_id & driver_mask) {
WITH_SEMAPHORE(_sem);
dronecan_send_operator_id(uavcan);
need_send_operator_id &= ~driver_mask;
}
if (need_send_location & driver_mask) {
WITH_SEMAPHORE(_sem);
dronecan_send_location(uavcan);
need_send_location &= ~driver_mask;
}
}
#define ODID_COPY(name) msg.name = pkt.name
#define ODID_COPY_STR(name) do { for (uint8_t i = 0; i<sizeof(pkt.name) && pkt.name[i]; i++) msg.name.push_back(pkt.name[i]); } while(0)
void AP_OpenDroneID::dronecan_send_location(AP_UAVCAN *uavcan)
{
dronecan::remoteid::Location msg {};
const auto &pkt = pkt_location;
ODID_COPY_STR(id_or_mac);
ODID_COPY(status);
ODID_COPY(direction);
ODID_COPY(speed_horizontal);
ODID_COPY(speed_vertical);
ODID_COPY(latitude);
ODID_COPY(longitude);
ODID_COPY(altitude_barometric);
ODID_COPY(altitude_geodetic);
ODID_COPY(height_reference);
ODID_COPY(height);
ODID_COPY(horizontal_accuracy);
ODID_COPY(vertical_accuracy);
ODID_COPY(barometer_accuracy);
ODID_COPY(speed_accuracy);
ODID_COPY(timestamp);
ODID_COPY(timestamp_accuracy);
dc_location[uavcan->get_driver_index()]->broadcast(msg);
}
void AP_OpenDroneID::dronecan_send_basic_id(AP_UAVCAN *uavcan)
{
dronecan::remoteid::BasicID msg {};
const auto &pkt = pkt_basic_id;
ODID_COPY_STR(id_or_mac);
ODID_COPY(id_type);
ODID_COPY(ua_type);
ODID_COPY_STR(uas_id);
dc_basic_id[uavcan->get_driver_index()]->broadcast(msg);
}
void AP_OpenDroneID::dronecan_send_system(AP_UAVCAN *uavcan)
{
dronecan::remoteid::System msg {};
const auto &pkt = pkt_system;
ODID_COPY_STR(id_or_mac);
ODID_COPY(operator_location_type);
ODID_COPY(classification_type);
ODID_COPY(operator_latitude);
ODID_COPY(operator_longitude);
ODID_COPY(area_count);
ODID_COPY(area_radius);
ODID_COPY(area_ceiling);
ODID_COPY(area_floor);
ODID_COPY(category_eu);
ODID_COPY(class_eu);
ODID_COPY(operator_altitude_geo);
ODID_COPY(timestamp);
dc_system[uavcan->get_driver_index()]->broadcast(msg);
}
void AP_OpenDroneID::dronecan_send_self_id(AP_UAVCAN *uavcan)
{
dronecan::remoteid::SelfID msg {};
const auto &pkt = pkt_self_id;
ODID_COPY_STR(id_or_mac);
ODID_COPY(description_type);
ODID_COPY_STR(description);
dc_self_id[uavcan->get_driver_index()]->broadcast(msg);
}
void AP_OpenDroneID::dronecan_send_operator_id(AP_UAVCAN *uavcan)
{
dronecan::remoteid::OperatorID msg {};
const auto &pkt = pkt_operator_id;
ODID_COPY_STR(id_or_mac);
ODID_COPY(operator_id_type);
ODID_COPY_STR(operator_id);
dc_operator_id[uavcan->get_driver_index()]->broadcast(msg);
}
/*
handle ArmStatus message from DroneCAN
*/
static void handle_arm_status(AP_UAVCAN* ap_uavcan, uint8_t node_id, const ArmStatusCb &cb)
{
const auto &msg = *cb.msg;
mavlink_open_drone_id_arm_status_t status {};
status.status = msg.status;
strncpy_noterm(status.error, msg.error.c_str(), sizeof(status.error));
AP::opendroneid().set_arm_status(status);
}
// copy arm status for DroneCAN
void AP_OpenDroneID::set_arm_status(mavlink_open_drone_id_arm_status_t &status)
{
WITH_SEMAPHORE(_sem);
arm_status = status;
last_arm_status_ms = AP_HAL::millis();
}
#endif
#endif // AP_OPENDRONEID_ENABLED