mirror of https://github.com/ArduPilot/ardupilot
191 lines
7.0 KiB
C++
191 lines
7.0 KiB
C++
#include "AP_InertialSensor.h"
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#include "AP_InertialSensor_Backend.h"
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#include <AP_Logger/AP_Logger.h>
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// Write ACC data packet: raw accel data
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void AP_InertialSensor_Backend::Write_ACC(const uint8_t instance, const uint64_t sample_us, const Vector3f &accel) const
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{
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const uint64_t now = AP_HAL::micros64();
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const struct log_ACC pkt {
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LOG_PACKET_HEADER_INIT(LOG_ACC_MSG),
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time_us : now,
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instance : instance,
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sample_us : sample_us?sample_us:now,
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AccX : accel.x,
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AccY : accel.y,
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AccZ : accel.z
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};
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AP::logger().WriteBlock(&pkt, sizeof(pkt));
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}
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// Write GYR data packet: raw gyro data
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void AP_InertialSensor_Backend::Write_GYR(const uint8_t instance, const uint64_t sample_us, const Vector3f &gyro) const
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{
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const uint64_t now = AP_HAL::micros64();
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const struct log_GYR pkt{
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LOG_PACKET_HEADER_INIT(LOG_GYR_MSG),
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time_us : now,
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instance : instance,
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sample_us : sample_us?sample_us:now,
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GyrX : gyro.x,
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GyrY : gyro.y,
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GyrZ : gyro.z
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};
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AP::logger().WriteBlock(&pkt, sizeof(pkt));
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}
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// Write IMU data packet: raw accel/gyro data
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void AP_InertialSensor::Write_IMU_instance(const uint64_t time_us, const uint8_t imu_instance) const
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{
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const Vector3f &gyro = get_gyro(imu_instance);
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const Vector3f &accel = get_accel(imu_instance);
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const struct log_IMU pkt{
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LOG_PACKET_HEADER_INIT(LOG_IMU_MSG),
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time_us : time_us,
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instance: imu_instance,
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gyro_x : gyro.x,
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gyro_y : gyro.y,
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gyro_z : gyro.z,
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accel_x : accel.x,
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accel_y : accel.y,
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accel_z : accel.z,
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gyro_error : _gyro_error_count[imu_instance],
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accel_error : _accel_error_count[imu_instance],
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temperature : get_temperature(imu_instance),
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gyro_health : (uint8_t)get_gyro_health(imu_instance),
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accel_health : (uint8_t)get_accel_health(imu_instance),
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gyro_rate : get_gyro_rate_hz(imu_instance),
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accel_rate : get_accel_rate_hz(imu_instance),
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};
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AP::logger().WriteBlock(&pkt, sizeof(pkt));
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}
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// Write IMU data packet for all instances
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void AP_InertialSensor::Write_IMU() const
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{
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const uint64_t time_us = AP_HAL::micros64();
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uint8_t n = MAX(get_accel_count(), get_gyro_count());
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for (uint8_t i=0; i<n; i++) {
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Write_IMU_instance(time_us, i);
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}
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}
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// Write VIBE data packet for all instances
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void AP_InertialSensor::Write_Vibration() const
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{
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const uint64_t time_us = AP_HAL::micros64();
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for (uint8_t i = 0; i < INS_MAX_INSTANCES; i++) {
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if (!use_accel(i)) {
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continue;
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}
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const Vector3f vibration = get_vibration_levels(i);
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const struct log_Vibe pkt{
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LOG_PACKET_HEADER_INIT(LOG_VIBE_MSG),
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time_us : time_us,
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imu : i,
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vibe_x : vibration.x,
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vibe_y : vibration.y,
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vibe_z : vibration.z,
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clipping : get_accel_clip_count(i)
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};
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AP::logger().WriteBlock(&pkt, sizeof(pkt));
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}
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}
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#if AP_INERTIALSENSOR_BATCHSAMPLER_ENABLED
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// Write information about a series of IMU readings to log:
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bool AP_InertialSensor::BatchSampler::Write_ISBH(const float sample_rate_hz) const
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{
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uint8_t instance_to_write = instance;
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if (post_filter && (_doing_pre_post_filter_logging
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|| (_doing_post_filter_logging && _doing_sensor_rate_logging))) {
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instance_to_write += (type == IMU_SENSOR_TYPE_ACCEL ? _imu._accel_count : _imu._gyro_count);
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}
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const struct log_ISBH pkt{
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LOG_PACKET_HEADER_INIT(LOG_ISBH_MSG),
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time_us : AP_HAL::micros64(),
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seqno : isb_seqnum,
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sensor_type : (uint8_t)type,
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instance : instance_to_write,
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multiplier : multiplier,
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sample_count : (uint16_t)_required_count,
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sample_us : measurement_started_us,
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sample_rate_hz : sample_rate_hz,
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};
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return AP::logger().WriteBlock_first_succeed(&pkt, sizeof(pkt));
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}
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// Write a series of IMU readings to log:
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bool AP_InertialSensor::BatchSampler::Write_ISBD() const
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{
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struct log_ISBD pkt = {
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LOG_PACKET_HEADER_INIT(LOG_ISBD_MSG),
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time_us : AP_HAL::micros64(),
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isb_seqno : isb_seqnum,
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seqno : (uint16_t) (data_read_offset/samples_per_msg)
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};
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memcpy(pkt.x, &data_x[data_read_offset], sizeof(pkt.x));
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memcpy(pkt.y, &data_y[data_read_offset], sizeof(pkt.y));
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memcpy(pkt.z, &data_z[data_read_offset], sizeof(pkt.z));
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return AP::logger().WriteBlock_first_succeed(&pkt, sizeof(pkt));
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}
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#endif
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// @LoggerMessage: FTN
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// @Description: Filter Tuning Message - per motor
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// @Field: TimeUS: microseconds since system startup
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// @Field: I: instance
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// @Field: NDn: number of active dynamic harmonic notches
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// @Field: NF1: dynamic harmonic notch centre frequency for motor 1
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// @Field: NF2: dynamic harmonic notch centre frequency for motor 2
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// @Field: NF3: dynamic harmonic notch centre frequency for motor 3
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// @Field: NF4: dynamic harmonic notch centre frequency for motor 4
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// @Field: NF5: dynamic harmonic notch centre frequency for motor 5
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// @Field: NF6: dynamic harmonic notch centre frequency for motor 6
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// @Field: NF7: dynamic harmonic notch centre frequency for motor 7
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// @Field: NF8: dynamic harmonic notch centre frequency for motor 8
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// @Field: NF9: dynamic harmonic notch centre frequency for motor 9
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// @Field: NF10: dynamic harmonic notch centre frequency for motor 10
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// @Field: NF11: dynamic harmonic notch centre frequency for motor 11
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// @Field: NF12: dynamic harmonic notch centre frequency for motor 12
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// @LoggerMessage: FTNS
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// @Description: Filter Tuning Message
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// @Field: TimeUS: microseconds since system startup
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// @Field: I: instance
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// @Field: NF: dynamic harmonic notch centre frequency
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void AP_InertialSensor::write_notch_log_messages() const
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{
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for (auto ¬ch : harmonic_notches) {
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const uint8_t i = ¬ch - &harmonic_notches[0];
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if (!notch.params.enabled()) {
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continue;
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}
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const float* notches = notch.calculated_notch_freq_hz;
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if (notch.num_calculated_notch_frequencies > 1) {
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// log per motor center frequencies
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AP::logger().WriteStreaming(
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"FTN", "TimeUS,I,NDn,NF1,NF2,NF3,NF4,NF5,NF6,NF7,NF8,NF9,NF10,NF11,NF12", "s#-zzzzzzzzzzzz", "F--------------", "QBBffffffffffff",
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AP_HAL::micros64(),
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i,
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notch.num_calculated_notch_frequencies,
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notches[0], notches[1], notches[2], notches[3],
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notches[4], notches[5], notches[6], notches[7],
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notches[8], notches[9], notches[10], notches[11]);
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} else {
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// log single center frequency
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AP::logger().WriteStreaming(
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"FTNS", "TimeUS,I,NF", "s#z", "F--", "QBf",
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AP_HAL::micros64(),
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i,
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notches[0]);
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}
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}
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}
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