/* * AP_Relay.cpp * * Created on: Oct 2, 2011 * Author: Amilcar Lucas */ #include "AP_Relay_config.h" #if AP_RELAY_ENABLED #include "AP_Relay.h" #include #include #include #include #include #include #include #if APM_BUILD_TYPE(APM_BUILD_Rover) #include #endif #if AP_RELAY_DRONECAN_ENABLED #include #include #endif #if CONFIG_HAL_BOARD == HAL_BOARD_SITL #define RELAY1_PIN_DEFAULT 13 #elif CONFIG_HAL_BOARD == HAL_BOARD_LINUX #if CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_BLUE #define RELAY1_PIN_DEFAULT 57 #define RELAY2_PIN_DEFAULT 49 #define RELAY3_PIN_DEFAULT 116 #define RELAY4_PIN_DEFAULT 113 #elif CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_BBBMINI #define RELAY1_PIN_DEFAULT 27 #define RELAY2_PIN_DEFAULT 65 #define RELAY3_PIN_DEFAULT 22 #define RELAY4_PIN_DEFAULT 81 #define RELAY5_PIN_DEFAULT 23 #define RELAY6_PIN_DEFAULT 26 #endif #endif #ifndef RELAY1_PIN_DEFAULT #define RELAY1_PIN_DEFAULT -1 #endif #ifndef RELAY2_PIN_DEFAULT #define RELAY2_PIN_DEFAULT -1 #endif #ifndef RELAY3_PIN_DEFAULT #define RELAY3_PIN_DEFAULT -1 #endif #ifndef RELAY4_PIN_DEFAULT #define RELAY4_PIN_DEFAULT -1 #endif #ifndef RELAY5_PIN_DEFAULT #define RELAY5_PIN_DEFAULT -1 #endif #ifndef RELAY6_PIN_DEFAULT #define RELAY6_PIN_DEFAULT -1 #endif const AP_Param::GroupInfo AP_Relay::var_info[] = { // 0 was PIN // 1 was PIN2 // 2 was PIN3 // 3 was PIN4 // 4 was DEFAULT // 5 was PIN5 // 6 was PIN6 // @Group: 1_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[0], "1_", 7, AP_Relay, AP_Relay_Params), #if AP_RELAY_NUM_RELAYS > 1 // @Group: 2_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[1], "2_", 8, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 2 // @Group: 3_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[2], "3_", 9, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 3 // @Group: 4_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[3], "4_", 10, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 4 // @Group: 5_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[4], "5_", 11, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 5 // @Group: 6_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[5], "6_", 12, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 6 // @Group: 7_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[6], "7_", 13, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 7 // @Group: 8_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[7], "8_", 14, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 8 // @Group: 9_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[8], "9_", 15, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 9 // @Group: 10_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[9], "10_", 16, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 10 // @Group: 11_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[10], "11_", 17, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 11 // @Group: 12_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[11], "12_", 18, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 12 // @Group: 13_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[12], "13_", 19, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 13 // @Group: 14_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[13], "14_", 20, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 14 // @Group: 15_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[14], "15_", 21, AP_Relay, AP_Relay_Params), #endif #if AP_RELAY_NUM_RELAYS > 15 // @Group: 16_ // @Path: AP_Relay_Params.cpp AP_SUBGROUPINFO(_params[15], "16_", 22, AP_Relay, AP_Relay_Params), #endif AP_GROUPEND }; AP_Relay *AP_Relay::singleton; extern const AP_HAL::HAL& hal; AP_Relay::AP_Relay(void) { AP_Param::setup_object_defaults(this, var_info); #if CONFIG_HAL_BOARD == HAL_BOARD_SITL if (singleton != nullptr) { AP_HAL::panic("AP_Relay must be singleton"); } #endif singleton = this; } void AP_Relay::convert_params() { // PARAMETER_CONVERSION - Added: Dec-2023 #ifndef HAL_BUILD_AP_PERIPH // Dont need this conversion on periph as relay support is more recent // Before converting local params we must find any relays being used by index from external libs int8_t relay_index; int8_t ice_relay = -1; #if AP_ICENGINE_ENABLED AP_ICEngine *ice = AP::ice(); if (ice != nullptr && ice->get_legacy_ignition_relay_index(relay_index)) { ice_relay = relay_index; } #endif int8_t chute_relay = -1; #if HAL_PARACHUTE_ENABLED AP_Parachute *parachute = AP::parachute(); if (parachute != nullptr && parachute->get_legacy_relay_index(relay_index)) { chute_relay = relay_index; } #endif int8_t cam_relay = -1; #if AP_CAMERA_ENABLED AP_Camera *camera = AP::camera(); if ((camera != nullptr) && (camera->get_legacy_relay_index(relay_index))) { cam_relay = relay_index; } #endif #if APM_BUILD_TYPE(APM_BUILD_Rover) int8_t rover_relay[] = { -1, -1, -1, -1 }; AP_MotorsUGV *motors = AP::motors_ugv(); if (motors != nullptr) { motors->get_legacy_relay_index(rover_relay[0], rover_relay[1], rover_relay[2], rover_relay[3]); } #endif // Find old default param int8_t default_state = 0; // off was the old behaviour const bool have_default = AP_Param::get_param_by_index(this, 4, AP_PARAM_INT8, &default_state); // grab the old values if they were set for (uint8_t i = 0; i < MIN(ARRAY_SIZE(_params), 6U); i++) { if (_params[i].function.configured()) { // Conversion already done, or user has configured manually continue; } uint8_t param_index = i; if (i > 3) { // Skip over the old DEFAULT parameter at index 4 param_index += 1; } int8_t pin = 0; if (!_params[i].pin.configured() && AP_Param::get_param_by_index(this, param_index, AP_PARAM_INT8, &pin) && (pin >= 0)) { // Copy old pin parameter if valid _params[i].pin.set_and_save(pin); } // Work out what function this relay should be AP_Relay_Params::FUNCTION new_fun; if (i == chute_relay) { new_fun = AP_Relay_Params::FUNCTION::PARACHUTE; } else if (i == ice_relay) { new_fun = AP_Relay_Params::FUNCTION::IGNITION; } else if (i == cam_relay) { new_fun = AP_Relay_Params::FUNCTION::CAMERA; #if APM_BUILD_TYPE(APM_BUILD_Rover) } else if (i == rover_relay[0]) { new_fun = AP_Relay_Params::FUNCTION::BRUSHED_REVERSE_1; } else if (i == rover_relay[1]) { new_fun = AP_Relay_Params::FUNCTION::BRUSHED_REVERSE_2; } else if (i == rover_relay[2]) { new_fun = AP_Relay_Params::FUNCTION::BRUSHED_REVERSE_3; } else if (i == rover_relay[3]) { new_fun = AP_Relay_Params::FUNCTION::BRUSHED_REVERSE_4; #endif } else { if (_params[i].pin < 0) { // Don't enable as numbered relay if pin is invalid // Other functions should be enabled with a invalid pin // This will result in a pre-arm promoting the user to resolve continue; } new_fun = AP_Relay_Params::FUNCTION::RELAY; } _params[i].function.set_and_save(int8_t(new_fun)); // Set the default state if (have_default) { _params[i].default_state.set_and_save(default_state); } } #endif // HAL_BUILD_AP_PERIPH } void AP_Relay::set_defaults() { const int8_t pins[] = { RELAY1_PIN_DEFAULT, RELAY2_PIN_DEFAULT, RELAY3_PIN_DEFAULT, RELAY4_PIN_DEFAULT, RELAY5_PIN_DEFAULT, RELAY6_PIN_DEFAULT }; for (uint8_t i = 0; i < MIN(ARRAY_SIZE(_params), ARRAY_SIZE(pins)); i++) { // set the default if (pins[i] != -1) { _params[i].pin.set_default(pins[i]); } } } // Return true is function is valid bool AP_Relay::function_valid(AP_Relay_Params::FUNCTION function) const { return (function > AP_Relay_Params::FUNCTION::NONE) && (function < AP_Relay_Params::FUNCTION::NUM_FUNCTIONS); } void AP_Relay::init() { set_defaults(); convert_params(); // setup the actual default values of all the pins for (uint8_t instance = 0; instance < ARRAY_SIZE(_params); instance++) { const int16_t pin = _params[instance].pin; if (pin == -1) { // no valid pin to set it on, skip it continue; } const AP_Relay_Params::FUNCTION function = _params[instance].function; if (!function_valid(function)) { // invalid function, skip it continue; } if (function == AP_Relay_Params::FUNCTION::RELAY) { // relay by instance number, set the state to match our output const AP_Relay_Params::DefaultState default_state = _params[instance].default_state; if ((default_state == AP_Relay_Params::DefaultState::OFF) || (default_state == AP_Relay_Params::DefaultState::ON)) { set_pin_by_instance(instance, (bool)default_state); } } else { // all functions are supposed to be off by default // this will need revisiting when we support inversion set_pin_by_instance(instance, false); } // Make sure any DroneCAN pin is enabled for streaming #if AP_RELAY_DRONECAN_ENABLED dronecan.enable_pin(pin); #endif } } void AP_Relay::set(const AP_Relay_Params::FUNCTION function, const bool value) { if (!function_valid(function)) { // invalid function return; } for (uint8_t instance = 0; instance < ARRAY_SIZE(_params); instance++) { if (function != _params[instance].function) { continue; } set_pin_by_instance(instance, value); } } // set a pins output state by instance and log if required // this is an internal helper, instance must have already been validated to be in range void AP_Relay::set_pin_by_instance(uint8_t instance, bool value) { const int16_t pin = _params[instance].pin; if (pin == -1) { // no valid pin to set it on, skip it return; } #if AP_SIM_ENABLED if (!(AP::sitl()->on_hardware_relay_enable_mask & (1U << instance))) { return; } #endif const bool initial_value = get_pin(pin); if (initial_value != value) { set_pin(pin, value); #if HAL_LOGGING_ENABLED AP::logger().Write("RELY", "TimeUS,Instance,State", "s#-", "F--", "QBB", AP_HAL::micros64(), instance, value); #endif } } void AP_Relay::set(const uint8_t instance, const bool value) { if (instance >= ARRAY_SIZE(_params)) { return; } if (_params[instance].function != AP_Relay_Params::FUNCTION::RELAY) { return; } set_pin_by_instance(instance, value); } void AP_Relay::toggle(uint8_t instance) { if (instance < ARRAY_SIZE(_params)) { set(instance, !get(instance)); } } // check settings are valid bool AP_Relay::arming_checks(size_t buflen, char *buffer) const { for (uint8_t i=0; ivalid_pin(pin)) { // Check GPIO pin is valid char param_name_buf[14]; hal.util->snprintf(param_name_buf, ARRAY_SIZE(param_name_buf), "RELAY%u_PIN", unsigned(i+1)); uint8_t servo_ch; if (hal.gpio->pin_to_servo_channel(pin, servo_ch)) { hal.util->snprintf(buffer, buflen, "%s=%d, set SERVO%u_FUNCTION=-1", param_name_buf, int(pin), unsigned(servo_ch+1)); } else { hal.util->snprintf(buffer, buflen, "%s=%d invalid", param_name_buf, int(pin)); } return false; } } return true; } bool AP_Relay::get(uint8_t instance) const { if (instance >= ARRAY_SIZE(_params)) { // invalid instance return false; } return get_pin(_params[instance].pin.get()); } // Get relay state from pin number bool AP_Relay::get_pin(const int16_t pin) const { if (pin < 0) { // invalid pin return false; } #if AP_RELAY_DRONECAN_ENABLED if (dronecan.valid_pin(pin)) { // Virtual DroneCAN pin return dronecan.get_pin(pin); } #endif // Real GPIO pin hal.gpio->pinMode(pin, HAL_GPIO_OUTPUT); return (bool)hal.gpio->read(pin); } // Set relay state from pin number void AP_Relay::set_pin(const int16_t pin, const bool value) { if (pin < 0) { // invalid pin return; } #if AP_RELAY_DRONECAN_ENABLED if (dronecan.valid_pin(pin)) { // Virtual DroneCAN pin dronecan.set_pin(pin, value); return; } #endif // Real GPIO pin hal.gpio->pinMode(pin, HAL_GPIO_OUTPUT); hal.gpio->write(pin, value); } // see if the relay is enabled bool AP_Relay::enabled(uint8_t instance) const { // Must be a valid instance with function relay and pin set return (instance < ARRAY_SIZE(_params)) && (_params[instance].pin != -1) && (_params[instance].function == AP_Relay_Params::FUNCTION::RELAY); } // see if the relay is enabled bool AP_Relay::enabled(AP_Relay_Params::FUNCTION function) const { for (uint8_t instance = 0; instance < ARRAY_SIZE(_params); instance++) { if ((_params[instance].function == function) && (_params[instance].pin != -1)) { return true; } } return false; } #if AP_RELAY_DRONECAN_ENABLED // Return true if pin number is a virtual DroneCAN pin bool AP_Relay::DroneCAN::valid_pin(int16_t pin) const { switch(pin) { case (int16_t)AP_Relay_Params::VIRTUAL_PINS::DroneCAN_0 ... (int16_t)AP_Relay_Params::VIRTUAL_PINS::DroneCAN_15: return true; default: return false; } } // Enable streaming of pin number void AP_Relay::DroneCAN::enable_pin(int16_t pin) { if (!valid_pin(pin)) { return; } const uint8_t index = hardpoint_index(pin); state[index].enabled = true; } // Get the hardpoint index of given pin number uint8_t AP_Relay::DroneCAN::hardpoint_index(const int16_t pin) const { return pin - (int16_t)AP_Relay_Params::VIRTUAL_PINS::DroneCAN_0; } // Set DroneCAN relay state from pin number void AP_Relay::DroneCAN::set_pin(const int16_t pin, const bool value) { const uint8_t index = hardpoint_index(pin); // Set pin and ensure enabled for streaming state[index].enabled = true; state[index].value = value; // Broadcast msg on all channels // Just a single send, rely on streaming to fill in any lost packet uavcan_equipment_hardpoint_Command msg {}; msg.hardpoint_id = index; msg.command = state[index].value; uint8_t can_num_drivers = AP::can().get_num_drivers(); for (uint8_t i = 0; i < can_num_drivers; i++) { auto *ap_dronecan = AP_DroneCAN::get_dronecan(i); if (ap_dronecan != nullptr) { ap_dronecan->relay_hardpoint.broadcast(msg); } } } // Get relay state from pin number, this relies on a cached value, assume remote pin is in sync bool AP_Relay::DroneCAN::get_pin(const int16_t pin) const { const uint8_t index = hardpoint_index(pin); return state[index].value; } // Populate message and update index with the sent command // This will allow the caller to cycle through each enabled pin bool AP_Relay::DroneCAN::populate_next_command(uint8_t &index, uavcan_equipment_hardpoint_Command &msg) const { // Find the next enabled index for (uint8_t i = 0; i < ARRAY_SIZE(state); i++) { // Look for next index, wrapping back to 0 as needed const uint8_t new_index = (index + 1 + i) % ARRAY_SIZE(state); if (!state[new_index].enabled) { // This index is not being used continue; } // Update command and index then return msg.hardpoint_id = new_index; msg.command = state[new_index].value; index = new_index; return true; } return false; } #endif // AP_RELAY_DRONECAN_ENABLED #if AP_MAVLINK_MSG_RELAY_STATUS_ENABLED // this method may only return false if there is no space in the // supplied link for the message. bool AP_Relay::send_relay_status(const GCS_MAVLINK &link) const { static_assert(AP_RELAY_NUM_RELAYS <= 16, "Too many relays for MAVLink status reporting to work."); if (!HAVE_PAYLOAD_SPACE(link.get_chan(), RELAY_STATUS)) { return false; } uint16_t present_mask = 0; uint16_t on_mask = 0; for (uint8_t i=0; i