mirror of https://github.com/ArduPilot/ardupilot
258 lines
7.9 KiB
C++
258 lines
7.9 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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simulate Hirth EFI system
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*/
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#include "SIM_Aircraft.h"
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#include <SITL/SITL.h>
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#include <AP_HAL/utility/sparse-endian.h>
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#include <stdio.h>
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#include "SIM_EFI_Hirth.h"
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using namespace SITL;
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// assume SERVO3 is throttle
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#define HIRTH_RPM_INDEX 2
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void EFI_Hirth::update_receive()
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{
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const ssize_t num_bytes_read = read_from_autopilot((char*)&receive_buf[receive_buf_ofs], ARRAY_SIZE(receive_buf) - receive_buf_ofs);
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if (num_bytes_read < 0) {
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return;
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}
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receive_buf_ofs += num_bytes_read;
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if (receive_buf_ofs < 1) {
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return;
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}
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const uint8_t expected_bytes_in_message = receive_buf[0];
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if (expected_bytes_in_message == 0) {
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AP_HAL::panic("zero bytes expected is unexpected");
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}
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if (expected_bytes_in_message > ARRAY_SIZE(receive_buf)) {
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AP_HAL::panic("Unexpectedly large byte count");
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}
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if (receive_buf_ofs < expected_bytes_in_message) {
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return;
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}
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// checksum is sum of all bytes except the received checksum:
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const uint8_t expected_checksum = 256U - crc_sum_of_bytes(receive_buf, expected_bytes_in_message-1);
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const uint8_t received_checksum = receive_buf[expected_bytes_in_message-1];
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if (expected_checksum == received_checksum) {
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PacketCode received_packet_code = PacketCode(receive_buf[1]);
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if (received_packet_code == PacketCode::SetValues) {
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// do this synchronously for now
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handle_set_values();
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} else if (uint8_t(received_packet_code) == 0x04 ||
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uint8_t(received_packet_code) == 0x0B ||
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uint8_t(received_packet_code) == 0x0D) {
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assert_receive_size(3);
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if (requested_data_record.time_ms != 0) {
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AP_HAL::panic("Requesting too fast?");
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}
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requested_data_record.code = received_packet_code;
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requested_data_record.time_ms = AP_HAL::millis();
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} else {
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AP_HAL::panic("Invalid packet code");
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}
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} else {
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AP_HAL::panic("checksum failed");
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// simply throw these bytes away. What the actual device does in the
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// face of weird data is unknown.
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}
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memmove(&receive_buf[0], &receive_buf[expected_bytes_in_message], receive_buf_ofs - expected_bytes_in_message);
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receive_buf_ofs -= expected_bytes_in_message;
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}
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void EFI_Hirth::assert_receive_size(uint8_t receive_size)
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{
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if (receive_buf[0] != receive_size) {
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AP_HAL::panic("Expected %u message size, got %u message size", receive_size, receive_buf[0]);
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}
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}
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void EFI_Hirth::handle_set_values()
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{
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assert_receive_size(23);
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static_assert(sizeof(settings) == 20, "correct number of bytes in settings");
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memcpy((void*)&settings, &receive_buf[2], sizeof(settings));
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// send ACK for set-values
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constexpr uint8_t set_values_ack[] {
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3, // length
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uint8_t(PacketCode::SetValues), // code
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3 + uint8_t(PacketCode::SetValues)
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};
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write_to_autopilot((const char*)set_values_ack, sizeof(set_values_ack));
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}
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void EFI_Hirth::update_send()
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{
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if (requested_data_record.time_ms == 0) {
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// no outstanding request
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return;
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}
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if (AP_HAL::millis() - requested_data_record.time_ms < 20) {
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// 20ms to service a request
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return;
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}
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requested_data_record.time_ms = 0;
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switch (requested_data_record.code) {
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case PacketCode::DataRecord1:
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send_record1();
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break;
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case PacketCode::DataRecord2:
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send_record2();
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break;
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case PacketCode::DataRecord3:
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send_record3();
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break;
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default:
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AP_HAL::panic("Unknown data record (%u) requested", (unsigned)requested_data_record.code);
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}
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}
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void EFI_Hirth::update_engine_model()
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{
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auto sitl = AP::sitl();
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// FIXME: this should come from simulation, not baro. baro gets
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// warmed by the simulated electronics!
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const float ambient = AP::baro().get_temperature();
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const uint32_t now_ms = AP_HAL::millis();
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const float delta_t = (now_ms - engine.last_update_ms) * 1e-6;
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engine.last_update_ms = now_ms;
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// lose heat to environment (air-cooling due to airspeed and prop
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// airflow could be taken into account here)
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const float ENV_LOSS_FACTOR = 25;
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engine.cht1_temperature -= (engine.cht1_temperature - ambient) * delta_t * ENV_LOSS_FACTOR;
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engine.cht2_temperature -= (engine.cht2_temperature - ambient) * delta_t * ENV_LOSS_FACTOR;
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const float rpm = sitl->state.rpm[HIRTH_RPM_INDEX];
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const float RPM_GAIN_FACTOR_CHT1 = 10;
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const float RPM_GAIN_FACTOR_CHT2 = 8;
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engine.cht1_temperature += rpm * delta_t * RPM_GAIN_FACTOR_CHT1;
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engine.cht2_temperature += rpm * delta_t * RPM_GAIN_FACTOR_CHT2;
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}
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void EFI_Hirth::init()
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{
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// auto sitl = AP::sitl();
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if (is_zero(AP::baro().get_temperature())) {
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// defer until the baro has had a chance to update....
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return;
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}
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engine.cht1_temperature = AP::baro().get_temperature();
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engine.cht2_temperature = AP::baro().get_temperature();
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init_done = true;
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}
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void EFI_Hirth::update()
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{
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const auto *sitl = AP::sitl();
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if (!sitl || sitl->efi_type != SIM::EFI_TYPE_HIRTH) {
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return;
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}
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if (!init_done) {
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init();
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}
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// update throttle; interim thing to make life a little more interesting
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throttle = 0.9 * throttle + 0.1 * settings.throttle/10;
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update_engine_model();
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update_receive();
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update_send();
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}
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uint16_t EFI_Hirth::engine_status_field_value() const
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{
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return (
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0U << 0 | // engine temperature sensor
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1U << 1 | // air temperature sensor
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1U << 2 | // air pressure sensor
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1U << 3 // throttle sensor OK
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);
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}
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void SITL::EFI_Hirth::send_record1()
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{
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const auto *sitl = AP::sitl();
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// notionally the field updates should happen in the update()
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// method, but here to save CPU for now:
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auto &r = packed_record1.record;
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r.engine_status = engine_status_field_value();
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r.rpm = sitl->state.rpm[HIRTH_RPM_INDEX];
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r.air_temperature = AP::baro().get_temperature();
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r.throttle = settings.throttle / 10; // just echo this back
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packed_record1.update_checksum();
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write_to_autopilot((char*)&packed_record1, sizeof(packed_record1));
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ASSERT_STORAGE_SIZE(Record1, 84);
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}
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void SITL::EFI_Hirth::send_record2()
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{
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const auto *sitl = AP::sitl();
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// notionally the field updates should happen in the update()
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// method, but here to save CPU for now:
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auto &r = packed_record2.record;
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r.throttle_percent_times_10 = throttle * 10.0;
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r.fuel_consumption = ((MAX(sitl->state.rpm[HIRTH_RPM_INDEX] - 1500.0, 0)) /2200.0) * 10; // from log, very rough
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packed_record2.update_checksum();
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write_to_autopilot((char*)&packed_record2, sizeof(packed_record2));
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ASSERT_STORAGE_SIZE(Record2, 98);
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}
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void SITL::EFI_Hirth::send_record3()
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{
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// notionally the field updates should happen in the update()
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// method, but here to save CPU for now:
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auto &r = packed_record3.record;
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r.excess_temperature_1 = engine.cht1_temperature; // cht1
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r.excess_temperature_2 = engine.cht2_temperature; // cht2
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r.excess_temperature_3 = 39; // egt1
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r.excess_temperature_4 = 41; // egt2
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packed_record3.update_checksum();
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write_to_autopilot((char*)&packed_record3, sizeof(packed_record3));
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ASSERT_STORAGE_SIZE(Record3, 100);
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}
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