/* * AP_ToneAlarm driver */ /* * This program 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 program 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 . */ #include #include #include "ToneAlarm.h" #include "AP_Notify.h" #include #include #include extern const AP_HAL::HAL& hal; // Tunes follow the syntax of the Microsoft GWBasic/QBasic PLAY // statement, with some exceptions and extensions. // See https://firmware.ardupilot.org/Tools/ToneTester/ const AP_ToneAlarm::Tone AP_ToneAlarm::_tones[] { #define AP_NOTIFY_TONE_QUIET_NEG_FEEDBACK 0 { "MFT200L4<<B#A#2P8B#A#2", false }, #define AP_NOTIFY_TONE_QUIET_NEU_FEEDBACK 2 { "MFT200L4B#", false }, #define AP_NOTIFY_TONE_QUIET_POS_FEEDBACK 4 { "MFT200L4A#B#", false }, #define AP_NOTIFY_TONE_LOUD_READY_OR_FINISHED 6 { "MFT100L4>G#6A#6B#4", false }, #define AP_NOTIFY_TONE_QUIET_READY_OR_FINISHED 7 { "MFT200L4A#A#A#A#", false }, #define AP_NOTIFY_TONE_QUIET_ARMING_WARNING 9 { "MNT75L1O2G", false }, #define AP_NOTIFY_TONE_LOUD_WP_COMPLETE 10 { "MFT200L8G>C3", false }, #define AP_NOTIFY_TONE_LOUD_LAND_WARNING_CTS 11 { "MBT200L2A-G-A-G-A-G-", true }, #define AP_NOTIFY_TONE_LOUD_VEHICLE_LOST_CTS 12 { "MBT200>A#1", true }, #define AP_NOTIFY_TONE_LOUD_BATTERY_ALERT_CTS 13 { "MBNT255>A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8A#8", true }, #define AP_NOTIFY_TONE_QUIET_CALIBRATING_CTS 14 { "MBNT255B", false}, #define AP_NOTIFY_TONE_LOUD_2 17 { "MFT100L8>BB", false}, #define AP_NOTIFY_TONE_LOUD_3 18 { "MFT100L8>BBB", false}, #define AP_NOTIFY_TONE_LOUD_4 19 { "MFT100L8>BBBB", false}, #define AP_NOTIFY_TONE_LOUD_5 20 { "MFT100L8>BBBBB", false}, #define AP_NOTIFY_TONE_LOUD_6 21 { "MFT100L8>BBBBBB", false}, #define AP_NOTIFY_TONE_LOUD_7 22 { "MFT100L8>BBBBBBB", false}, #define AP_NOTIFY_TONE_TUNING_START 23 { "MFT100L20>C#D#", false}, #define AP_NOTIFY_TONE_TUNING_SAVE 24 { "MFT100L10DBDB>", false}, #define AP_NOTIFY_TONE_TUNING_ERROR 25 { "MFT100L10>BBBBBBBB", false}, #define AP_NOTIFY_TONE_LEAK_DETECTED 26 { "MBT255L8>A+AA-", true}, #define AP_NOTIFY_TONE_QUIET_SHUTDOWN 27 { "MFMST200L32O3ceP32cdP32ceP32ccc>cA#8A#8A#8A#8P8A#8A#8A#8A#8P8A#8A#8A#8A#8P8A#8A#8A#8A#8", true }, }; bool AP_ToneAlarm::init() { if (pNotify->buzzer_enabled() == false) { return false; } if (!hal.util->toneAlarm_init(pNotify->get_buzzer_types())) { return false; } // set initial boot states. This prevents us issuing a arming // warning in plane and rover on every boot flags.armed = AP_Notify::flags.armed; flags.failsafe_battery = AP_Notify::flags.failsafe_battery; flags.pre_arm_check = 1; _cont_tone_playing = -1; hal.scheduler->register_timer_process(FUNCTOR_BIND(this, &AP_ToneAlarm::_timer_task, void)); #if HAVE_FILESYSTEM_SUPPORT && CONFIG_HAL_BOARD != HAL_BOARD_LINUX // if we don't have a SDcard then play a failure tone instead of // normal startup tone. This gives the user a chance to fix it // before they try to arm. We don't do this on Linux as Linux // flight controllers don't usually have removable storage struct stat st; if (AP::FS().stat(HAL_BOARD_STORAGE_DIRECTORY, &st) != 0) { play_tone(AP_NOTIFY_TONE_NO_SDCARD); return true; } #endif #ifndef HAL_BUILD_AP_PERIPH play_tone(AP_NOTIFY_TONE_STARTUP); #endif return true; } // play_tune - play one of the pre-defined tunes void AP_ToneAlarm::play_tone(const uint8_t tone_index) { uint32_t tnow_ms = AP_HAL::millis(); const Tone &tone_requested = _tones[tone_index]; if (tone_requested.continuous) { _cont_tone_playing = tone_index; } _tone_playing = tone_index; _tone_beginning_ms = tnow_ms; play_tune(tone_requested.str); } void AP_ToneAlarm::_timer_task() { WITH_SEMAPHORE(_sem); _mml_player.update(); } void AP_ToneAlarm::play_tune(const char *str) { WITH_SEMAPHORE(_sem); _mml_player.stop(); strncpy(_tone_buf, str, AP_NOTIFY_TONEALARM_TONE_BUF_SIZE); _tone_buf[AP_NOTIFY_TONEALARM_TONE_BUF_SIZE-1] = 0; _mml_player.play(_tone_buf); } void AP_ToneAlarm::stop_cont_tone() { if (_cont_tone_playing == _tone_playing) { play_tune(""); _tone_playing = -1; } _cont_tone_playing = -1; } void AP_ToneAlarm::check_cont_tone() { uint32_t tnow_ms = AP_HAL::millis(); // if we are supposed to be playing a continuous tone, // and it was interrupted, and the interrupting tone has timed out, // resume the continuous tone if (_cont_tone_playing != -1 && _tone_playing != _cont_tone_playing && tnow_ms-_tone_beginning_ms > AP_NOTIFY_TONEALARM_MAX_TONE_LENGTH_MS) { play_tone(_cont_tone_playing); } } // update - updates led according to timed_updated. Should be called at 50Hz void AP_ToneAlarm::update() { // exit if buzzer is not enabled if (pNotify->buzzer_enabled() == false) { return; } check_cont_tone(); if (AP_Notify::flags.powering_off) { if (!flags.powering_off) { play_tone(AP_NOTIFY_TONE_QUIET_SHUTDOWN); } flags.powering_off = AP_Notify::flags.powering_off; return; } if (AP_Notify::flags.compass_cal_running != flags.compass_cal_running) { if (AP_Notify::flags.compass_cal_running) { play_tone(AP_NOTIFY_TONE_QUIET_CALIBRATING_CTS); play_tone(AP_NOTIFY_TONE_QUIET_POS_FEEDBACK); } else { if (_cont_tone_playing == AP_NOTIFY_TONE_QUIET_CALIBRATING_CTS) { stop_cont_tone(); } } } flags.compass_cal_running = AP_Notify::flags.compass_cal_running; if (AP_Notify::events.compass_cal_canceled) { play_tone(AP_NOTIFY_TONE_QUIET_NEU_FEEDBACK); return; } if (AP_Notify::events.initiated_compass_cal) { play_tone(AP_NOTIFY_TONE_QUIET_NEU_FEEDBACK); return; } if (AP_Notify::events.compass_cal_saved || AP_Notify::events.temp_cal_saved) { play_tone(AP_NOTIFY_TONE_QUIET_READY_OR_FINISHED); return; } if (AP_Notify::events.compass_cal_failed || AP_Notify::events.temp_cal_failed) { play_tone(AP_NOTIFY_TONE_QUIET_NEG_FEEDBACK); return; } if (AP_Notify::events.initiated_temp_cal) { play_tone(AP_NOTIFY_TONE_QUIET_NEU_FEEDBACK); return; } if (AP_Notify::flags.temp_cal_running != flags.temp_cal_running) { if (AP_Notify::flags.temp_cal_running) { play_tone(AP_NOTIFY_TONE_QUIET_CALIBRATING_CTS); play_tone(AP_NOTIFY_TONE_QUIET_POS_FEEDBACK); } else { if (_cont_tone_playing == AP_NOTIFY_TONE_QUIET_CALIBRATING_CTS) { stop_cont_tone(); } } } flags.temp_cal_running = AP_Notify::flags.temp_cal_running; // don't play other tones if cal is running if (AP_Notify::flags.compass_cal_running || AP_Notify::flags.temp_cal_running) { return; } // notify the user when autotune or mission completes if (AP_Notify::flags.armed && (AP_Notify::events.autotune_complete || AP_Notify::events.mission_complete)) { play_tone(AP_NOTIFY_TONE_LOUD_READY_OR_FINISHED); } //notify the user when autotune fails if (AP_Notify::flags.armed && (AP_Notify::events.autotune_failed)) { play_tone(AP_NOTIFY_TONE_LOUD_NEG_FEEDBACK); } // notify the user when a waypoint completes if (AP_Notify::events.waypoint_complete) { play_tone(AP_NOTIFY_TONE_LOUD_WP_COMPLETE); } // notify the user when their mode change was successful if (AP_Notify::events.user_mode_change) { if (AP_Notify::flags.armed) { play_tone(AP_NOTIFY_TONE_LOUD_NEU_FEEDBACK); } else { play_tone(AP_NOTIFY_TONE_QUIET_NEU_FEEDBACK); } } // notify the user when their mode change failed if (AP_Notify::events.user_mode_change_failed) { if (AP_Notify::flags.armed) { play_tone(AP_NOTIFY_TONE_LOUD_NEG_FEEDBACK); } else { play_tone(AP_NOTIFY_TONE_QUIET_NEG_FEEDBACK); } } // failsafe initiated mode change if (AP_Notify::events.failsafe_mode_change) { play_tone(AP_NOTIFY_TONE_LOUD_ATTENTION_NEEDED); } // notify the user when arming fails if (AP_Notify::events.arming_failed) { play_tone(AP_NOTIFY_TONE_QUIET_NEG_FEEDBACK); } // notify the user when RC contact is lost if (flags.failsafe_radio != AP_Notify::flags.failsafe_radio) { flags.failsafe_radio = AP_Notify::flags.failsafe_radio; if (flags.failsafe_radio) { // armed case handled by events.failsafe_mode_change if (!AP_Notify::flags.armed) { play_tone(AP_NOTIFY_TONE_QUIET_NEG_FEEDBACK); } } else { if (AP_Notify::flags.armed) { play_tone(AP_NOTIFY_TONE_LOUD_POS_FEEDBACK); } else { play_tone(AP_NOTIFY_TONE_QUIET_POS_FEEDBACK); } } } // notify the user when GCS failsafe is triggered if (flags.failsafe_gcs != AP_Notify::flags.failsafe_gcs) { flags.failsafe_gcs = AP_Notify::flags.failsafe_gcs; if (flags.failsafe_gcs) { // armed case handled by events.failsafe_mode_change if (!AP_Notify::flags.armed) { play_tone(AP_NOTIFY_TONE_QUIET_NEG_FEEDBACK); } } else { if (AP_Notify::flags.armed) { play_tone(AP_NOTIFY_TONE_LOUD_POS_FEEDBACK); } else { play_tone(AP_NOTIFY_TONE_QUIET_POS_FEEDBACK); } } } // notify the user when pre_arm checks are passing if (flags.pre_arm_check != AP_Notify::flags.pre_arm_check) { flags.pre_arm_check = AP_Notify::flags.pre_arm_check; if (flags.pre_arm_check) { play_tone(AP_NOTIFY_TONE_QUIET_READY_OR_FINISHED); _have_played_ready_tone = true; } else { // only play sad tone if we've ever played happy tone: if (_have_played_ready_tone) { play_tone(AP_NOTIFY_TONE_QUIET_NOT_READY_OR_NOT_FINISHED); } } } // check if arming status has changed if (flags.armed != AP_Notify::flags.armed) { flags.armed = AP_Notify::flags.armed; if (flags.armed) { // arming tune play_tone(AP_NOTIFY_TONE_QUIET_ARMING_WARNING); } else { // disarming tune play_tone(AP_NOTIFY_TONE_QUIET_NEU_FEEDBACK); if (!flags.leak_detected) { stop_cont_tone(); } } } // check if battery status has changed if (flags.failsafe_battery != AP_Notify::flags.failsafe_battery) { flags.failsafe_battery = AP_Notify::flags.failsafe_battery; if (flags.failsafe_battery) { // battery warning tune play_tone(AP_NOTIFY_TONE_LOUD_BATTERY_ALERT_CTS); } } // check parachute release if (flags.parachute_release != AP_Notify::flags.parachute_release) { flags.parachute_release = AP_Notify::flags.parachute_release; if (flags.parachute_release) { // parachute release warning tune play_tone(AP_NOTIFY_TONE_LOUD_ATTENTION_NEEDED); } } // lost vehicle tone if (flags.vehicle_lost != AP_Notify::flags.vehicle_lost) { flags.vehicle_lost = AP_Notify::flags.vehicle_lost; if (flags.vehicle_lost) { play_tone(AP_NOTIFY_TONE_LOUD_VEHICLE_LOST_CTS); } else { stop_cont_tone(); } } // waiting to be thrown vehicle tone if (flags.waiting_for_throw != AP_Notify::flags.waiting_for_throw) { flags.waiting_for_throw = AP_Notify::flags.waiting_for_throw; if (flags.waiting_for_throw) { play_tone(AP_NOTIFY_TONE_WAITING_FOR_THROW); } else { stop_cont_tone(); } } if (flags.leak_detected != AP_Notify::flags.leak_detected) { flags.leak_detected = AP_Notify::flags.leak_detected; if (flags.leak_detected) { play_tone(AP_NOTIFY_TONE_LEAK_DETECTED); } else { stop_cont_tone(); } } if (AP_Notify::events.tune_started) { play_tone(AP_NOTIFY_TONE_TUNING_START); AP_Notify::events.tune_started = 0; } if (AP_Notify::events.tune_next) { // signify which parameter in the set is starting play_tone(AP_NOTIFY_TONE_LOUD_1 + (AP_Notify::events.tune_next-1)); AP_Notify::events.tune_next = 0; } if (AP_Notify::events.tune_save) { play_tone(AP_NOTIFY_TONE_TUNING_SAVE); AP_Notify::events.tune_save = 0; } if (AP_Notify::events.tune_error) { play_tone(AP_NOTIFY_TONE_TUNING_ERROR); AP_Notify::events.tune_error = 0; } // notify the user when ekf failsafe is triggered if (flags.failsafe_ekf != AP_Notify::flags.failsafe_ekf) { flags.failsafe_ekf = AP_Notify::flags.failsafe_ekf; if (flags.failsafe_ekf) { play_tone(AP_NOTIFY_TONE_EKF_ALERT); } } } /* * handle a PLAY_TUNE message */ void AP_ToneAlarm::handle_play_tune(const mavlink_message_t &msg) { // decode mavlink message mavlink_play_tune_t packet; mavlink_msg_play_tune_decode(&msg, &packet); WITH_SEMAPHORE(_sem); _mml_player.stop(); strncpy(_tone_buf, packet.tune, MIN(sizeof(packet.tune), sizeof(_tone_buf)-1)); _tone_buf[sizeof(_tone_buf)-1] = 0; uint8_t len = strlen(_tone_buf); uint8_t len2 = strnlen(packet.tune2, sizeof(packet.tune2)); len2 = MIN((sizeof(_tone_buf)-1)-len, len2); strncpy(_tone_buf+len, packet.tune2, len2); _tone_buf[sizeof(_tone_buf)-1] = 0; _mml_player.play(_tone_buf); }