/* * Copyright (C) OpenTX * * Based on code named * th9x - http://code.google.com/p/th9x * er9x - http://code.google.com/p/er9x * gruvin9x - http://code.google.com/p/gruvin9x * * License GPLv2: http://www.gnu.org/licenses/gpl-2.0.html * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * 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. */ #include "opentx.h" #include extern RTOS_MUTEX_HANDLE audioMutex; const int16_t sineValues[] = { 0, 196, 392, 588, 784, 980, 1175, 1370, 1564, 1758, 1951, 2143, 2335, 2525, 2715, 2904, 3091, 3278, 3463, 3647, 3829, 4011, 4190, 4369, 4545, 4720, 4894, 5065, 5235, 5403, 5569, 5733, 5895, 6055, 6213, 6369, 6522, 6673, 6822, 6969, 7113, 7255, 7395, 7532, 7667, 7799, 7929, 8056, 8180, 8302, 8422, 8539, 8653, 8765, 8874, 8980, 9084, 9185, 9283, 9379, 9472, 9562, 9650, 9735, 9818, 9898, 9975, 10050, 10123, 10192, 10260, 10324, 10387, 10447, 10504, 10559, 10612, 10663, 10711, 10757, 10801, 10843, 10882, 10920, 10955, 10989, 11020, 11050, 11078, 11104, 11128, 11151, 11172, 11191, 11209, 11225, 11240, 11254, 11266, 11277, 11287, 11296, 11303, 11310, 11316, 11320, 11324, 11327, 11330, 11331, 11332, 11333, 11333, 11333, 11332, 11331, 11329, 11328, 11326, 11324, 11323, 11321, 11319, 11318, 11316, 11315, 11314, 11313, 11313, 11313, 11314, 11315, 11317, 11319, 11323, 11326, 11331, 11336, 11342, 11349, 11356, 11365, 11375, 11385, 11397, 11409, 11423, 11437, 11453, 11470, 11488, 11507, 11527, 11548, 11571, 11595, 11620, 11646, 11673, 11702, 11732, 11763, 11795, 11828, 11863, 11899, 11936, 11974, 12013, 12054, 12095, 12138, 12182, 12227, 12273, 12320, 12368, 12417, 12467, 12518, 12570, 12623, 12676, 12731, 12786, 12842, 12898, 12956, 13014, 13072, 13131, 13191, 13251, 13311, 13372, 13433, 13495, 13556, 13618, 13680, 13743, 13805, 13867, 13929, 13991, 14053, 14115, 14177, 14238, 14299, 14359, 14419, 14479, 14538, 14597, 14655, 14712, 14768, 14824, 14879, 14933, 14986, 15039, 15090, 15140, 15189, 15237, 15284, 15330, 15375, 15418, 15460, 15500, 15539, 15577, 15614, 15648, 15682, 15714, 15744, 15772, 15799, 15825, 15849, 15871, 15891, 15910, 15927, 15942, 15955, 15967, 15977, 15985, 15991, 15996, 15999, 16000, 15999, 15996, 15991, 15985, 15977, 15967, 15955, 15942, 15927, 15910, 15891, 15871, 15849, 15825, 15799, 15772, 15744, 15714, 15682, 15648, 15614, 15577, 15539, 15500, 15460, 15418, 15375, 15330, 15284, 15237, 15189, 15140, 15090, 15039, 14986, 14933, 14879, 14824, 14768, 14712, 14655, 14597, 14538, 14479, 14419, 14359, 14299, 14238, 14177, 14115, 14053, 13991, 13929, 13867, 13805, 13743, 13680, 13618, 13556, 13495, 13433, 13372, 13311, 13251, 13191, 13131, 13072, 13014, 12956, 12898, 12842, 12786, 12731, 12676, 12623, 12570, 12518, 12467, 12417, 12368, 12320, 12273, 12227, 12182, 12138, 12095, 12054, 12013, 11974, 11936, 11899, 11863, 11828, 11795, 11763, 11732, 11702, 11673, 11646, 11620, 11595, 11571, 11548, 11527, 11507, 11488, 11470, 11453, 11437, 11423, 11409, 11397, 11385, 11375, 11365, 11356, 11349, 11342, 11336, 11331, 11326, 11323, 11319, 11317, 11315, 11314, 11313, 11313, 11313, 11314, 11315, 11316, 11318, 11319, 11321, 11323, 11324, 11326, 11328, 11329, 11331, 11332, 11333, 11333, 11333, 11332, 11331, 11330, 11327, 11324, 11320, 11316, 11310, 11303, 11296, 11287, 11277, 11266, 11254, 11240, 11225, 11209, 11191, 11172, 11151, 11128, 11104, 11078, 11050, 11020, 10989, 10955, 10920, 10882, 10843, 10801, 10757, 10711, 10663, 10612, 10559, 10504, 10447, 10387, 10324, 10260, 10192, 10123, 10050, 9975, 9898, 9818, 9735, 9650, 9562, 9472, 9379, 9283, 9185, 9084, 8980, 8874, 8765, 8653, 8539, 8422, 8302, 8180, 8056, 7929, 7799, 7667, 7532, 7395, 7255, 7113, 6969, 6822, 6673, 6522, 6369, 6213, 6055, 5895, 5733, 5569, 5403, 5235, 5065, 4894, 4720, 4545, 4369, 4190, 4011, 3829, 3647, 3463, 3278, 3091, 2904, 2715, 2525, 2335, 2143, 1951, 1758, 1564, 1370, 1175, 980, 784, 588, 392, 196, 0, -196, -392, -588, -784, -980, -1175, -1370, -1564, -1758, -1951, -2143, -2335, -2525, -2715, -2904, -3091, -3278, -3463, -3647, -3829, -4011, -4190, -4369, -4545, -4720, -4894, -5065, -5235, -5403, -5569, -5733, -5895, -6055, -6213, -6369, -6522, -6673, -6822, -6969, -7113, -7255, -7395, -7532, -7667, -7799, -7929, -8056, -8180, -8302, -8422, -8539, -8653, -8765, -8874, -8980, -9084, -9185, -9283, -9379, -9472, -9562, -9650, -9735, -9818, -9898, -9975, -10050, -10123, -10192, -10260, -10324, -10387, -10447, -10504, -10559, -10612, -10663, -10711, -10757, -10801, -10843, -10882, -10920, -10955, -10989, -11020, -11050, -11078, -11104, -11128, -11151, -11172, -11191, -11209, -11225, -11240, -11254, -11266, -11277, -11287, -11296, -11303, -11310, -11316, -11320, -11324, -11327, -11330, -11331, -11332, -11333, -11333, -11333, -11332, -11331, -11329, -11328, -11326, -11324, -11323, -11321, -11319, -11318, -11316, -11315, -11314, -11313, -11313, -11313, -11314, -11315, -11317, -11319, -11323, -11326, -11331, -11336, -11342, -11349, -11356, -11365, -11375, -11385, -11397, -11409, -11423, -11437, -11453, -11470, -11488, -11507, -11527, -11548, -11571, -11595, -11620, -11646, -11673, -11702, -11732, -11763, -11795, -11828, -11863, -11899, -11936, -11974, -12013, -12054, -12095, -12138, -12182, -12227, -12273, -12320, -12368, -12417, -12467, -12518, -12570, -12623, -12676, -12731, -12786, -12842, -12898, -12956, -13014, -13072, -13131, -13191, -13251, -13311, -13372, -13433, -13495, -13556, -13618, -13680, -13743, -13805, -13867, -13929, -13991, -14053, -14115, -14177, -14238, -14299, -14359, -14419, -14479, -14538, -14597, -14655, -14712, -14768, -14824, -14879, -14933, -14986, -15039, -15090, -15140, -15189, -15237, -15284, -15330, -15375, -15418, -15460, -15500, -15539, -15577, -15614, -15648, -15682, -15714, -15744, -15772, -15799, -15825, -15849, -15871, -15891, -15910, -15927, -15942, -15955, -15967, -15977, -15985, -15991, -15996, -15999, -16000, -15999, -15996, -15991, -15985, -15977, -15967, -15955, -15942, -15927, -15910, -15891, -15871, -15849, -15825, -15799, -15772, -15744, -15714, -15682, -15648, -15614, -15577, -15539, -15500, -15460, -15418, -15375, -15330, -15284, -15237, -15189, -15140, -15090, -15039, -14986, -14933, -14879, -14824, -14768, -14712, -14655, -14597, -14538, -14479, -14419, -14359, -14299, -14238, -14177, -14115, -14053, -13991, -13929, -13867, -13805, -13743, -13680, -13618, -13556, -13495, -13433, -13372, -13311, -13251, -13191, -13131, -13072, -13014, -12956, -12898, -12842, -12786, -12731, -12676, -12623, -12570, -12518, -12467, -12417, -12368, -12320, -12273, -12227, -12182, -12138, -12095, -12054, -12013, -11974, -11936, -11899, -11863, -11828, -11795, -11763, -11732, -11702, -11673, -11646, -11620, -11595, -11571, -11548, -11527, -11507, -11488, -11470, -11453, -11437, -11423, -11409, -11397, -11385, -11375, -11365, -11356, -11349, -11342, -11336, -11331, -11326, -11323, -11319, -11317, -11315, -11314, -11313, -11313, -11313, -11314, -11315, -11316, -11318, -11319, -11321, -11323, -11324, -11326, -11328, -11329, -11331, -11332, -11333, -11333, -11333, -11332, -11331, -11330, -11327, -11324, -11320, -11316, -11310, -11303, -11296, -11287, -11277, -11266, -11254, -11240, -11225, -11209, -11191, -11172, -11151, -11128, -11104, -11078, -11050, -11020, -10989, -10955, -10920, -10882, -10843, -10801, -10757, -10711, -10663, -10612, -10559, -10504, -10447, -10387, -10324, -10260, -10192, -10123, -10050, -9975, -9898, -9818, -9735, -9650, -9562, -9472, -9379, -9283, -9185, -9084, -8980, -8874, -8765, -8653, -8539, -8422, -8302, -8180, -8056, -7929, -7799, -7667, -7532, -7395, -7255, -7113, -6969, -6822, -6673, -6522, -6369, -6213, -6055, -5895, -5733, -5569, -5403, -5235, -5065, -4894, -4720, -4545, -4369, -4190, -4011, -3829, -3647, -3463, -3278, -3091, -2904, -2715, -2525, -2335, -2143, -1951, -1758, -1564, -1370, -1175, -980, -784, -588, -392, -196, }; #if defined(SDCARD) const char * const unitsFilenames[] = { "", "volt", "amp", "mamp", "knot", "mps", "fps", "kph", "mph", "meter", "foot", "celsius", "fahr", "percent", "mamph", "watt", "mwatt", "db", "rpm", "g", "degree", "radian", "ml", "founce", "mlpm", "hertz", "ms", "us", "spare4", "spare5", "spare6", "spare7", "spare8", "spare9", "spare10", "hour", "minute", "second", }; const char * const audioFilenames[] = { "hello", "bye", "thralert", "swalert", "baddata", "lowbatt", "inactiv", "rssi_org", "rssi_red", "swr_red", "telemko", "telemok", "trainko", "trainok", "sensorko", "servoko", "rxko", "modelpwr", #if defined(PCBSKY9X) "highmah", "hightemp", #endif "error", "warning1", "warning2", "warning3", "midtrim", "mintrim", "maxtrim", "midstck1", "midstck2", "midstck3", "midstck4", #if defined(PCBFRSKY) "midpot1", "midpot2", #if defined(PCBX9E) "midpot3", "midpot4", #endif "midslid1", "midslid2", #if defined(PCBX9E) "midslid3", "midslid4", #endif #else "midpot1", "midpot2", "midpot3", #endif "mixwarn1", "mixwarn2", "mixwarn3", "timovr1", "timovr2", "timovr3" }; BitField<(AU_SPECIAL_SOUND_FIRST)> sdAvailableSystemAudioFiles; BitField<(MAX_FLIGHT_MODES * 2/*on, off*/)> sdAvailableFlightmodeAudioFiles; BitField<(SWSRC_LAST_SWITCH+NUM_XPOTS*XPOTS_MULTIPOS_COUNT)> sdAvailableSwitchAudioFiles; BitField<(MAX_LOGICAL_SWITCHES * 2/*on, off*/)> sdAvailableLogicalSwitchAudioFiles; char * getAudioPath(char * path) { strcpy(path, SOUNDS_PATH "/"); strncpy(path+SOUNDS_PATH_LNG_OFS, currentLanguagePack->id, 2); return path + sizeof(SOUNDS_PATH); } char * strAppendSystemAudioPath(char * path) { char * str = getAudioPath(path); strcpy(str, SYSTEM_SUBDIR "/"); return str + sizeof(SYSTEM_SUBDIR); } void getSystemAudioFile(char * filename, int index) { char * str = strAppendSystemAudioPath(filename); strcpy(str, audioFilenames[index]); strcat(str, SOUNDS_EXT); } void referenceSystemAudioFiles() { static_assert(sizeof(audioFilenames)==AU_SPECIAL_SOUND_FIRST*sizeof(char *), "Invalid audioFilenames size"); char path[AUDIO_FILENAME_MAXLEN+1]; FILINFO fno; DIR dir; sdAvailableSystemAudioFiles.reset(); char * filename = strAppendSystemAudioPath(path); *(filename-1) = '\0'; FRESULT res = f_opendir(&dir, path); /* Open the directory */ if (res == FR_OK) { for (;;) { res = f_readdir(&dir, &fno); /* Read a directory item */ if (res != FR_OK || fno.fname[0] == 0) break; /* Break on error or end of dir */ uint8_t len = strlen(fno.fname); // Eliminates directories / non wav files if (len < 5 || strcasecmp(fno.fname+len-4, SOUNDS_EXT) || (fno.fattrib & AM_DIR)) continue; for (int i=0; iid, 2); char * result = strcat_currentmodelname(path+sizeof(SOUNDS_PATH)); *result++ = '/'; *result = '\0'; return result; } void getFlightmodeAudioFile(char * filename, int index, unsigned int event) { char * str = getModelAudioPath(filename); char * tmp = strcatFlightmodeName(str, index); strcpy(tmp, suffixes[event]); strcat(tmp, SOUNDS_EXT); } void getSwitchAudioFile(char * filename, swsrc_t index) { char * str = getModelAudioPath(filename); #if defined(PCBFRSKY) if (index <= SWSRC_LAST_SWITCH) { div_t swinfo = switchInfo(index); *str++ = 'S'; *str++ = 'A' + swinfo.quot; const char * positions[] = { "-up", "-mid", "-down" }; strcpy(str, positions[swinfo.rem]); } else { div_t swinfo = div(int(index - SWSRC_FIRST_MULTIPOS_SWITCH), XPOTS_MULTIPOS_COUNT); *str++ = 'S'; *str++ = '1' + swinfo.quot; *str++ = '1' + swinfo.rem; *str = '\0'; } #else int len = STR_VSWITCHES[0]; strncpy(str, &STR_VSWITCHES[1+(len*index)], len); str += len; *str = '\0'; #endif strcat(str, SOUNDS_EXT); } void getLogicalSwitchAudioFile(char * filename, int index, unsigned int event) { char * str = getModelAudioPath(filename); #if defined(PCBFRSKY) *str++ = 'L'; if (index >= 9) { div_t qr = div(index+1, 10); *str++ = '0' + qr.quot; *str++ = '0' + qr.rem; } else { *str++ = '1' + index; } #else int len = STR_VSWITCHES[0]; strncpy(str, &STR_VSWITCHES[1+len*(index+SWSRC_FIRST_LOGICAL_SWITCH)], len); str += len; #endif strcpy(str, suffixes[event]); strcat(str, SOUNDS_EXT); } void referenceModelAudioFiles() { char path[AUDIO_FILENAME_MAXLEN+1]; FILINFO fno; DIR dir; sdAvailableFlightmodeAudioFiles.reset(); sdAvailableSwitchAudioFiles.reset(); sdAvailableLogicalSwitchAudioFiles.reset(); char * filename = getModelAudioPath(path); *(filename-1) = '\0'; FRESULT res = f_opendir(&dir, path); /* Open the directory */ if (res == FR_OK) { for (;;) { res = f_readdir(&dir, &fno); /* Read a directory item */ if (res != FR_OK || fno.fname[0] == 0) break; /* Break on error or end of dir */ uint8_t len = strlen(fno.fname); bool found = false; // Eliminates directories / non wav files if (len < 5 || strcasecmp(fno.fname+len-4, SOUNDS_EXT) || (fno.fattrib & AM_DIR)) continue; TRACE("referenceModelAudioFiles(): using file: %s", fno.fname); // Flight modes Audio Files -[on|off].wav for (int i=0; i-[up|mid|down].wav for (int i=SWSRC_FIRST_SWITCH; i<=SWSRC_LAST_SWITCH+NUM_XPOTS*XPOTS_MULTIPOS_COUNT && !found; i++) { getSwitchAudioFile(path, i); // TRACE("referenceModelAudioFiles(): searching for %s in %s (%d)", path, fno.fname, i); if (!strcasecmp(filename, fno.fname)) { sdAvailableSwitchAudioFiles.setBit(i-SWSRC_FIRST_SWITCH); found = true; TRACE("\tfound: %s", filename); } } // Logical Switches Audio Files -[on|off].wav for (int i=0; i> 24); uint8_t index = (i >> 16) & 0xFF; event_t event = i & 0xFF; // TRACE("isAudioFileReferenced(%08x)", i); if (category == SYSTEM_AUDIO_CATEGORY) { if (sdAvailableSystemAudioFiles.getBit(event)) { getSystemAudioFile(filename, event); return true; } } else if (category == PHASE_AUDIO_CATEGORY) { if (sdAvailableFlightmodeAudioFiles.getBit(INDEX_PHASE_AUDIO_FILE(index, event))) { getFlightmodeAudioFile(filename, index, event); return true; } } else if (category == SWITCH_AUDIO_CATEGORY) { if (sdAvailableSwitchAudioFiles.getBit(index)) { getSwitchAudioFile(filename, SWSRC_FIRST_SWITCH+index); return true; } } else if (category == LOGICAL_SWITCH_AUDIO_CATEGORY) { if (sdAvailableLogicalSwitchAudioFiles.getBit(INDEX_LOGICAL_SWITCH_AUDIO_FILE(index, event))) { getLogicalSwitchAudioFile(filename, index, event); return true; } } return false; } tmr10ms_t timeAutomaticPromptsSilence = 0; void playModelEvent(uint8_t category, uint8_t index, event_t event) { char filename[AUDIO_FILENAME_MAXLEN+1]; // TRACE("playModelEvent(): cat: %u, idx: %u, evt:%u", (uint32_t)category, (uint32_t)index, (uint32_t)event); if (IS_SILENCE_PERIOD_ELAPSED() && isAudioFileReferenced((category << 24) + (index << 16) + event, filename)) { audioQueue.playFile(filename); } } void playModelName() { char filename[AUDIO_FILENAME_MAXLEN+1]; char * str = getModelAudioPath(filename); strcpy(str, "name.wav"); audioQueue.playFile(filename); } #else // defined(SDCARD) #define isAudioFileReferenced(i, f) false #endif // defined(SDCARD) const int16_t alawTable[256] = { -5504, -5248, -6016, -5760, -4480, -4224, -4992, -4736, -7552, -7296, -8064, -7808, -6528, -6272, -7040, -6784, -2752, -2624, -3008, -2880, -2240, -2112, -2496, -2368, -3776, -3648, -4032, -3904, -3264, -3136, -3520, -3392, -22016, -20992, -24064, -23040, -17920, -16896, -19968, -18944, -30208, -29184, -32256, -31232, -26112, -25088, -28160, -27136, -11008, -10496, -12032, -11520, -8960, -8448, -9984, -9472, -15104, -14592, -16128, -15616, -13056, -12544, -14080, -13568, -344, -328, -376, -360, -280, -264, -312, -296, -472, -456, -504, -488, -408, -392, -440, -424, -88, -72, -120, -104, -24, -8, -56, -40, -216, -200, -248, -232, -152, -136, -184, -168, -1376, -1312, -1504, -1440, -1120, -1056, -1248, -1184, -1888, -1824, -2016, -1952, -1632, -1568, -1760, -1696, -688, -656, -752, -720, -560, -528, -624, -592, -944, -912, -1008, -976, -816, -784, -880, -848, 5504, 5248, 6016, 5760, 4480, 4224, 4992, 4736, 7552, 7296, 8064, 7808, 6528, 6272, 7040, 6784, 2752, 2624, 3008, 2880, 2240, 2112, 2496, 2368, 3776, 3648, 4032, 3904, 3264, 3136, 3520, 3392, 22016, 20992, 24064, 23040, 17920, 16896, 19968, 18944, 30208, 29184, 32256, 31232, 26112, 25088, 28160, 27136, 11008, 10496, 12032, 11520, 8960, 8448, 9984, 9472, 15104, 14592, 16128, 15616, 13056, 12544, 14080, 13568, 344, 328, 376, 360, 280, 264, 312, 296, 472, 456, 504, 488, 408, 392, 440, 424, 88, 72, 120, 104, 24, 8, 56, 40, 216, 200, 248, 232, 152, 136, 184, 168, 1376, 1312, 1504, 1440, 1120, 1056, 1248, 1184, 1888, 1824, 2016, 1952, 1632, 1568, 1760, 1696, 688, 656, 752, 720, 560, 528, 624, 592, 944, 912, 1008, 976, 816, 784, 880, 848 }; const int16_t ulawTable[256] = { -32124, -31100, -30076, -29052, -28028, -27004, -25980, -24956, -23932, -22908, -21884, -20860, -19836, -18812, -17788, -16764, -15996, -15484, -14972, -14460, -13948, -13436, -12924, -12412, -11900, -11388, -10876, -10364, -9852, -9340, -8828, -8316, -7932, -7676, -7420, -7164, -6908, -6652, -6396, -6140, -5884, -5628, -5372, -5116, -4860, -4604, -4348, -4092, -3900, -3772, -3644, -3516, -3388, -3260, -3132, -3004, -2876, -2748, -2620, -2492, -2364, -2236, -2108, -1980, -1884, -1820, -1756, -1692, -1628, -1564, -1500, -1436, -1372, -1308, -1244, -1180, -1116, -1052, -988, -924, -876, -844, -812, -780, -748, -716, -684, -652, -620, -588, -556, -524, -492, -460, -428, -396, -372, -356, -340, -324, -308, -292, -276, -260, -244, -228, -212, -196, -180, -164, -148, -132, -120, -112, -104, -96, -88, -80, -72, -64, -56, -48, -40, -32, -24, -16, -8, 0, 32124, 31100, 30076, 29052, 28028, 27004, 25980, 24956, 23932, 22908, 21884, 20860, 19836, 18812, 17788, 16764, 15996, 15484, 14972, 14460, 13948, 13436, 12924, 12412, 11900, 11388, 10876, 10364, 9852, 9340, 8828, 8316, 7932, 7676, 7420, 7164, 6908, 6652, 6396, 6140, 5884, 5628, 5372, 5116, 4860, 4604, 4348, 4092, 3900, 3772, 3644, 3516, 3388, 3260, 3132, 3004, 2876, 2748, 2620, 2492, 2364, 2236, 2108, 1980, 1884, 1820, 1756, 1692, 1628, 1564, 1500, 1436, 1372, 1308, 1244, 1180, 1116, 1052, 988, 924, 876, 844, 812, 780, 748, 716, 684, 652, 620, 588, 556, 524, 492, 460, 428, 396, 372, 356, 340, 324, 308, 292, 276, 260, 244, 228, 212, 196, 180, 164, 148, 132, 120, 112, 104, 96, 88, 80, 72, 64, 56, 48, 40, 32, 24, 16, 8, 0 }; AudioQueue audioQueue __DMA; // to place it in the RAM section on Horus, to have file buffers in RAM for DMA access AudioBuffer audioBuffers[AUDIO_BUFFER_COUNT] __DMA; AudioQueue::AudioQueue() : buffersFifo(), _started(false), normalContext(), backgroundContext(), priorityContext(), varioContext(), fragmentsFifo() { } #define CODEC_ID_PCM_S16LE 1 #define CODEC_ID_PCM_ALAW 6 #define CODEC_ID_PCM_MULAW 7 #if !defined(SIMU) void audioTask(void * pdata) { while (!audioQueue.started()) { RTOS_WAIT_TICKS(1); } setSampleRate(AUDIO_SAMPLE_RATE); if (!globalData.unexpectedShutdown) { AUDIO_HELLO(); } while (true) { DEBUG_TIMER_SAMPLE(debugTimerAudioIterval); DEBUG_TIMER_START(debugTimerAudioDuration); audioQueue.wakeup(); DEBUG_TIMER_STOP(debugTimerAudioDuration); RTOS_WAIT_MS(4); } } #endif inline void mixSample(audio_data_t * result, int sample, unsigned int fade) { *result = limit(AUDIO_DATA_MIN, *result + ((sample >> fade) >> (16-AUDIO_BITS_PER_SAMPLE)), AUDIO_DATA_MAX); } #if defined(SDCARD) #define RIFF_CHUNK_SIZE 12 uint8_t wavBuffer[AUDIO_BUFFER_SIZE*2] __DMA; int WavContext::mixBuffer(AudioBuffer *buffer, int volume, unsigned int fade) { FRESULT result = FR_OK; UINT read = 0; if (fragment.file[1]) { result = f_open(&state.file, fragment.file, FA_OPEN_EXISTING | FA_READ); fragment.file[1] = 0; if (result == FR_OK) { result = f_read(&state.file, wavBuffer, RIFF_CHUNK_SIZE+8, &read); if (result == FR_OK && read == RIFF_CHUNK_SIZE+8 && !memcmp(wavBuffer, "RIFF", 4) && !memcmp(wavBuffer+8, "WAVEfmt ", 8)) { uint32_t size = *((uint32_t *)(wavBuffer+16)); result = (size < 256 ? f_read(&state.file, wavBuffer, size+8, &read) : FR_DENIED); if (result == FR_OK && read == size+8) { state.codec = ((uint16_t *)wavBuffer)[0]; state.freq = ((uint16_t *)wavBuffer)[2]; uint32_t *wavSamplesPtr = (uint32_t *)(wavBuffer + size); uint32_t size = wavSamplesPtr[1]; if (state.freq != 0 && state.freq * (AUDIO_SAMPLE_RATE / state.freq) == AUDIO_SAMPLE_RATE) { state.resampleRatio = (AUDIO_SAMPLE_RATE / state.freq); state.readSize = (state.codec == CODEC_ID_PCM_S16LE ? 2*AUDIO_BUFFER_SIZE : AUDIO_BUFFER_SIZE) / state.resampleRatio; } else { result = FR_DENIED; } while (result == FR_OK && memcmp(wavSamplesPtr, "data", 4) != 0) { result = f_lseek(&state.file, f_tell(&state.file)+size); if (result == FR_OK) { result = f_read(&state.file, wavBuffer, 8, &read); if (read != 8) result = FR_DENIED; wavSamplesPtr = (uint32_t *)wavBuffer; size = wavSamplesPtr[1]; } } state.size = size; } else { result = FR_DENIED; } } else { result = FR_DENIED; } } } if (result == FR_OK) { read = 0; result = f_read(&state.file, wavBuffer, state.readSize, &read); if (result == FR_OK) { if (read > state.size) { read = state.size; } state.size -= read; if (read != state.readSize) { f_close(&state.file); fragment.clear(); } audio_data_t * samples = buffer->data; if (state.codec == CODEC_ID_PCM_S16LE) { read /= 2; for (uint32_t i=0; idata; } } if (result != FR_OK) { clear(); } return 0; } #else int WavContext::mixBuffer(AudioBuffer *buffer, int volume, unsigned int fade) { return 0; } #endif const unsigned int toneVolumes[] = { 10, 8, 6, 4, 2 }; inline float evalVolumeRatio(int freq, int volume) { float result = toneVolumes[2+volume]; if (freq < 330) { result = (result * freq * freq) / (330 * 330); } return result; } int ToneContext::mixBuffer(AudioBuffer * buffer, int volume, unsigned int fade) { int duration = 0; int result = 0; int remainingDuration = fragment.tone.duration - state.duration; if (remainingDuration > 0) { int points; float toneIdx = state.idx; if (fragment.tone.reset) { fragment.tone.reset = 0; state.duration = 0; state.pause = 0; } if (fragment.tone.freq != state.freq) { state.freq = fragment.tone.freq; state.step = limit(1, float(fragment.tone.freq) * (float(DIM(sineValues))/float(AUDIO_SAMPLE_RATE)), 512); state.volume = 1.0f / evalVolumeRatio(fragment.tone.freq, volume); } if (fragment.tone.freqIncr) { int freqChange = AUDIO_BUFFER_DURATION * fragment.tone.freqIncr; if (freqChange > 0) { fragment.tone.freq += freqChange; if (fragment.tone.freq > BEEP_MAX_FREQ) { fragment.tone.freq = BEEP_MAX_FREQ; } } else { if (fragment.tone.freq > BEEP_MIN_FREQ - freqChange) { fragment.tone.freq += freqChange; } else { fragment.tone.freq = BEEP_MIN_FREQ; } } } if (remainingDuration > AUDIO_BUFFER_DURATION) { duration = AUDIO_BUFFER_DURATION; points = AUDIO_BUFFER_SIZE; } else { duration = remainingDuration; points = (duration * AUDIO_BUFFER_SIZE) / AUDIO_BUFFER_DURATION; unsigned int end = toneIdx + (state.step * points); if (end > DIM(sineValues)) end -= (end % DIM(sineValues)); else end = DIM(sineValues); points = (float(end) - toneIdx) / state.step; } for (int i=0; idata[i], sample, fade); toneIdx += state.step; if ((unsigned int)toneIdx >= DIM(sineValues)) toneIdx -= DIM(sineValues); } if (remainingDuration > AUDIO_BUFFER_DURATION) { state.duration += AUDIO_BUFFER_DURATION; state.idx = toneIdx; return AUDIO_BUFFER_SIZE; } else { state.duration = 32000; // once the tone is finished, it's not possible to update its frequency and duration } } remainingDuration = fragment.tone.pause - state.pause; if (remainingDuration > 0) { result = AUDIO_BUFFER_SIZE; state.pause += min(AUDIO_BUFFER_DURATION-duration, fragment.tone.pause); if (fragment.tone.pause > state.pause) return result; } clear(); return result; } void AudioQueue::wakeup() { DEBUG_TIMER_START(debugTimerAudioConsume); audioConsumeCurrentBuffer(); DEBUG_TIMER_STOP(debugTimerAudioConsume); AudioBuffer * buffer; while ((buffer = buffersFifo.getEmptyBuffer()) != nullptr) { int result; unsigned int fade = 0; int size = 0; // write silence in the buffer for (uint32_t i=0; idata[i] = AUDIO_DATA_SILENCE; /* silence */ } // mix the priority context (only tones) result = priorityContext.mixBuffer(buffer, g_eeGeneral.beepVolume, fade); if (result > 0) { size = result; fade += 1; } // mix the normal context (tones and wavs) if (normalContext.isEmpty() && !fragmentsFifo.empty()) { RTOS_LOCK_MUTEX(audioMutex); normalContext.setFragment(fragmentsFifo.get()); RTOS_UNLOCK_MUTEX(audioMutex); } result = normalContext.mixBuffer(buffer, g_eeGeneral.beepVolume, g_eeGeneral.wavVolume, fade); if (result > 0) { size = max(size, result); fade += 1; } // mix the vario context result = varioContext.mixBuffer(buffer, g_eeGeneral.varioVolume, fade); if (result > 0) { size = max(size, result); fade += 1; } // mix the background context if (isFunctionActive(FUNCTION_BACKGND_MUSIC) && !isFunctionActive(FUNCTION_BACKGND_MUSIC_PAUSE)) { result = backgroundContext.mixBuffer(buffer, g_eeGeneral.backgroundVolume, fade); if (result > 0) { size = max(size, result); } } // push the buffer if needed if (size > 0) { // TRACE("pushing buffer %p", buffer); buffer->size = size; #if defined(SOFTWARE_VOLUME) if (currentSpeakerVolume > 0) { for (uint32_t i=0; isize; ++i) { int32_t tmpSample = (int32_t) ((uint32_t) (buffer->data[i]) - AUDIO_DATA_SILENCE); // conversion from uint16_t buffer->data[i] = (int16_t) (((tmpSample * currentSpeakerVolume) / VOLUME_LEVEL_MAX) + AUDIO_DATA_SILENCE); } buffersFifo.audioPushBuffer(); } else { break; } #else buffersFifo.audioPushBuffer(); #endif } else { // break the endless loop break; } DEBUG_TIMER_START(debugTimerAudioConsume); audioConsumeCurrentBuffer(); DEBUG_TIMER_STOP(debugTimerAudioConsume); } } inline unsigned int getToneLength(uint16_t len) { unsigned int result = len; // default if (g_eeGeneral.beepLength < 0) { result /= (1-g_eeGeneral.beepLength); } else if (g_eeGeneral.beepLength > 0) { result *= (1+g_eeGeneral.beepLength); } return result; } void AudioQueue::pause(uint16_t len) { playTone(0, 0, len); } bool AudioQueue::isPlaying(uint8_t id) { return normalContext.hasPromptId(id) || (isFunctionActive(FUNCTION_BACKGND_MUSIC) && backgroundContext.hasPromptId(id)) || fragmentsFifo.hasPromptId(id); } void AudioQueue::playTone(uint16_t freq, uint16_t len, uint16_t pause, uint8_t flags, int8_t freqIncr) { #if defined(SIMU) && !defined(SIMU_AUDIO) return; #endif RTOS_LOCK_MUTEX(audioMutex); freq = limit(BEEP_MIN_FREQ, freq, BEEP_MAX_FREQ); if (flags & PLAY_BACKGROUND) { varioContext.setFragment(freq, len, pause, 0, 0, (flags & PLAY_NOW)); } else { // adjust frequency and length according to the user preferences freq += g_eeGeneral.speakerPitch * 15; len = getToneLength(len); if (flags & PLAY_NOW) { if (priorityContext.isFree()) { priorityContext.clear(); priorityContext.setFragment(freq, len, pause, flags & 0x0f, freqIncr, false); } } else { fragmentsFifo.push(AudioFragment(freq, len, pause, flags & 0x0f, freqIncr, false)); } } RTOS_UNLOCK_MUTEX(audioMutex); } #if defined(SDCARD) void AudioQueue::playFile(const char * filename, uint8_t flags, uint8_t id) { #if defined(SIMU) TRACE("playFile(\"%s\", flags=%x, id=%d)", filename, flags, id); if (strlen(filename) > AUDIO_FILENAME_MAXLEN) { TRACE("file name too long! maximum length is %d characters", AUDIO_FILENAME_MAXLEN); return; } #if !defined(SIMU_AUDIO) return; #endif #endif if (!sdMounted()) return; if (g_eeGeneral.beepMode == e_mode_quiet) return; if (strlen(filename) > AUDIO_FILENAME_MAXLEN) { POPUP_WARNING(STR_PATH_TOO_LONG); return; } RTOS_LOCK_MUTEX(audioMutex); if (flags & PLAY_BACKGROUND) { backgroundContext.clear(); backgroundContext.setFragment(filename, 0, id); } else { fragmentsFifo.push(AudioFragment(filename, flags & 0x0f, id)); } RTOS_UNLOCK_MUTEX(audioMutex); } void AudioQueue::stopPlay(uint8_t id) { #if defined(SIMU) TRACE("stopPlay(id=%d)", id); #endif #if defined(SIMU) && !defined(SIMU_AUDIO) return; #endif RTOS_LOCK_MUTEX(audioMutex); fragmentsFifo.removePromptById(id); backgroundContext.stop(id); RTOS_UNLOCK_MUTEX(audioMutex); } void AudioQueue::stopSD() { sdAvailableSystemAudioFiles.reset(); stopAll(); playTone(0, 0, 100, PLAY_NOW); // insert a 100ms pause } #endif void AudioQueue::stopAll() { flush(); RTOS_LOCK_MUTEX(audioMutex); priorityContext.clear(); normalContext.clear(); RTOS_UNLOCK_MUTEX(audioMutex); } void AudioQueue::flush() { RTOS_LOCK_MUTEX(audioMutex); fragmentsFifo.clear(); varioContext.clear(); backgroundContext.clear(); RTOS_UNLOCK_MUTEX(audioMutex); } void audioPlay(unsigned int index, uint8_t id) { if (g_eeGeneral.beepMode >= -1) { char filename[AUDIO_FILENAME_MAXLEN+1]; if (isAudioFileReferenced(index, filename)) { audioQueue.playFile(filename, 0, id); } } } void audioKeyPress() { if (g_eeGeneral.beepMode == e_mode_all) { audioQueue.playTone(BEEP_DEFAULT_FREQ, 40, 20, PLAY_NOW); } #if defined(HAPTIC) if (g_eeGeneral.hapticMode == e_mode_all) { haptic.play(5, 0, PLAY_NOW); } #endif } void audioKeyError() { if (g_eeGeneral.beepMode >= e_mode_nokeys) { audioQueue.playTone(BEEP_DEFAULT_FREQ, 160, 20, PLAY_NOW); } #if defined(HAPTIC) if (g_eeGeneral.hapticMode >= e_mode_nokeys) { haptic.play(15, 3, PLAY_NOW); } #endif } void audioTrimPress(int value) { if (g_eeGeneral.beepMode >= e_mode_nokeys) { value = limit(TRIM_MIN, value, TRIM_MAX) * 8 + 120*16; audioQueue.playTone(value, 40, 20, PLAY_NOW); } } void audioTimerCountdown(uint8_t timer, int value) { if (g_model.timers[timer].countdownBeep == COUNTDOWN_VOICE) { if (value >= 0 && value <= TIMER_COUNTDOWN_START(timer)) { playNumber(value, 0, 0, 0); } else if (value == 30 || value == 20) { playDuration(value, 0, 0); } } else if (g_model.timers[timer].countdownBeep == COUNTDOWN_BEEPS) { if (value == 0) { audioQueue.playTone(BEEP_DEFAULT_FREQ + 150, 300, 20, PLAY_NOW); } else if (value > 0 && value <= TIMER_COUNTDOWN_START(timer)) { audioQueue.playTone(BEEP_DEFAULT_FREQ + 150, 100, 20, PLAY_NOW); } else if (value == 30) { audioQueue.playTone(BEEP_DEFAULT_FREQ + 150, 120, 20, PLAY_REPEAT(2)); } else if (value == 20) { audioQueue.playTone(BEEP_DEFAULT_FREQ + 150, 120, 20, PLAY_REPEAT(1)); } else if (value == 10) { audioQueue.playTone(BEEP_DEFAULT_FREQ + 150, 120, 20, PLAY_NOW); } } #if defined(HAPTIC) else if (g_model.timers[timer].countdownBeep == COUNTDOWN_HAPTIC) { if (value == 0) { haptic.play(15, 3, PLAY_NOW); } else if (value > 0 && value <= TIMER_COUNTDOWN_START(timer)) { haptic.play(10, 0, PLAY_NOW); } else if (value == 30) { haptic.play(10, 3, PLAY_REPEAT(2) | PLAY_NOW); } else if (value == 20) { haptic.play(10, 3, PLAY_REPEAT(1) | PLAY_NOW); } else if (value == 10) { haptic.play(10, 3, PLAY_NOW); } } #endif } void audioEvent(unsigned int index) { if (index == AU_NONE) return; #if defined(HAPTIC) haptic.event(index); // do this before audio to help sync timings #endif if (index <= AU_ERROR) { if (g_eeGeneral.alarmsFlash) { flashCounter = FLASH_DURATION; } } if (g_eeGeneral.beepMode >= e_mode_nokeys || (g_eeGeneral.beepMode >= e_mode_alarms && index <= AU_ERROR)) { #if defined(SDCARD) char filename[AUDIO_FILENAME_MAXLEN + 1]; if (index < AU_SPECIAL_SOUND_FIRST && isAudioFileReferenced(index, filename)) { audioQueue.stopPlay(ID_PLAY_PROMPT_BASE + index); audioQueue.playFile(filename, 0, ID_PLAY_PROMPT_BASE + index); return; } #endif switch (index) { case AU_INACTIVITY: audioQueue.playTone(2250, 80, 20, PLAY_REPEAT(2)); break; case AU_TX_BATTERY_LOW: #if defined(PCBSKY9X) case AU_TX_MAH_HIGH: case AU_TX_TEMP_HIGH: #endif audioQueue.playTone(1950, 160, 20, PLAY_REPEAT(2), 1); audioQueue.playTone(2550, 160, 20, PLAY_REPEAT(2), -1); break; case AU_THROTTLE_ALERT: case AU_SWITCH_ALERT: case AU_ERROR: audioQueue.playTone(BEEP_DEFAULT_FREQ, 200, 20, PLAY_NOW); break; case AU_TRIM_MIDDLE: audioQueue.playTone(120*16, 80, 20, PLAY_NOW); break; case AU_TRIM_MIN: audioQueue.playTone(TRIM_MIN*8 + 120*16, 80, 20, PLAY_NOW); break; case AU_TRIM_MAX: audioQueue.playTone(TRIM_MAX*8 + 120*16, 80, 20, PLAY_NOW); break; case AU_WARNING1: audioQueue.playTone(BEEP_DEFAULT_FREQ, 80, 20, PLAY_NOW); break; case AU_WARNING2: audioQueue.playTone(BEEP_DEFAULT_FREQ, 160, 20, PLAY_NOW); break; case AU_WARNING3: audioQueue.playTone(BEEP_DEFAULT_FREQ, 200, 20, PLAY_NOW); break; // TODO remove all these ones case AU_STICK1_MIDDLE: case AU_STICK2_MIDDLE: case AU_STICK3_MIDDLE: case AU_STICK4_MIDDLE: case AU_POT1_MIDDLE: case AU_POT2_MIDDLE: #if defined(PCBX9E) case AU_POT3_MIDDLE: case AU_POT4_MIDDLE: #endif #if defined(PCBFRSKY) case AU_SLIDER1_MIDDLE: case AU_SLIDER2_MIDDLE: #if defined(PCBX9E) case AU_SLIDER3_MIDDLE: case AU_SLIDER4_MIDDLE: #endif #else case AU_POT3_MIDDLE: #endif audioQueue.playTone(BEEP_DEFAULT_FREQ + 1500, 80, 20, PLAY_NOW); break; case AU_MIX_WARNING_1: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1440, 48, 32); break; case AU_MIX_WARNING_2: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1560, 48, 32, PLAY_REPEAT(1)); break; case AU_MIX_WARNING_3: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1680, 48, 32, PLAY_REPEAT(2)); break; case AU_TIMER1_ELAPSED: case AU_TIMER2_ELAPSED: case AU_TIMER3_ELAPSED: audioQueue.playTone(BEEP_DEFAULT_FREQ + 150, 300, 20, PLAY_NOW); break; case AU_RSSI_ORANGE: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1500, 800, 20, PLAY_NOW); break; case AU_RSSI_RED: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1800, 800, 20, PLAY_REPEAT(1) | PLAY_NOW); break; case AU_RAS_RED: audioQueue.playTone(450, 160, 40, PLAY_REPEAT(2), 1); break; case AU_SPECIAL_SOUND_BEEP1: audioQueue.playTone(BEEP_DEFAULT_FREQ, 60, 20); break; case AU_SPECIAL_SOUND_BEEP2: audioQueue.playTone(BEEP_DEFAULT_FREQ, 120, 20); break; case AU_SPECIAL_SOUND_BEEP3: audioQueue.playTone(BEEP_DEFAULT_FREQ, 200, 20); break; case AU_SPECIAL_SOUND_WARN1: audioQueue.playTone(BEEP_DEFAULT_FREQ + 600, 120, 40, PLAY_REPEAT(2)); break; case AU_SPECIAL_SOUND_WARN2: audioQueue.playTone(BEEP_DEFAULT_FREQ + 900, 120, 40, PLAY_REPEAT(2)); break; case AU_SPECIAL_SOUND_CHEEP: audioQueue.playTone(BEEP_DEFAULT_FREQ + 900, 80, 20, PLAY_REPEAT(2), 2); break; case AU_SPECIAL_SOUND_RING: audioQueue.playTone(BEEP_DEFAULT_FREQ + 750, 40, 20, PLAY_REPEAT(10)); audioQueue.playTone(BEEP_DEFAULT_FREQ + 750, 40, 80, PLAY_REPEAT(1)); audioQueue.playTone(BEEP_DEFAULT_FREQ + 750, 40, 20, PLAY_REPEAT(10)); break; case AU_SPECIAL_SOUND_SCIFI: audioQueue.playTone(2550, 80, 20, PLAY_REPEAT(2), -1); audioQueue.playTone(1950, 80, 20, PLAY_REPEAT(2), 1); audioQueue.playTone(2250, 80, 20, 0); break; case AU_SPECIAL_SOUND_ROBOT: audioQueue.playTone(2250, 40, 20, PLAY_REPEAT(1)); audioQueue.playTone(1650, 120, 20, PLAY_REPEAT(1)); audioQueue.playTone(2550, 120, 20, PLAY_REPEAT(1)); break; case AU_SPECIAL_SOUND_CHIRP: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1200, 40, 20, PLAY_REPEAT(2)); audioQueue.playTone(BEEP_DEFAULT_FREQ + 1620, 40, 20, PLAY_REPEAT(3)); break; case AU_SPECIAL_SOUND_TADA: audioQueue.playTone(1650, 80, 40); audioQueue.playTone(2850, 80, 40); audioQueue.playTone(3450, 64, 36, PLAY_REPEAT(2)); break; case AU_SPECIAL_SOUND_CRICKET: audioQueue.playTone(2550, 40, 80, PLAY_REPEAT(3)); audioQueue.playTone(2550, 40, 160, PLAY_REPEAT(1)); audioQueue.playTone(2550, 40, 80, PLAY_REPEAT(3)); break; case AU_SPECIAL_SOUND_SIREN: audioQueue.playTone(450, 160, 40, PLAY_REPEAT(2), 2); break; case AU_SPECIAL_SOUND_ALARMC: audioQueue.playTone(1650, 32, 68, PLAY_REPEAT(2)); audioQueue.playTone(2250, 64, 156, PLAY_REPEAT(1)); audioQueue.playTone(1650, 64, 76, PLAY_REPEAT(2)); audioQueue.playTone(2250, 32, 168, PLAY_REPEAT(1)); break; case AU_SPECIAL_SOUND_RATATA: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1500, 40, 80, PLAY_REPEAT(10)); break; case AU_SPECIAL_SOUND_TICK: audioQueue.playTone(BEEP_DEFAULT_FREQ + 1500, 40, 400, PLAY_REPEAT(2)); break; default: break; } } } #if defined(SDCARD) void pushUnit(uint8_t unit, uint8_t idx, uint8_t id) { if (unit < DIM(unitsFilenames)) { char path[AUDIO_FILENAME_MAXLEN+1]; char * tmp = strAppendSystemAudioPath(path); tmp = strAppendStringWithIndex(tmp, unitsFilenames[unit], idx); strcpy(tmp, SOUNDS_EXT); audioQueue.playFile(path, 0, id); } else { TRACE("pushUnit: out of bounds unit : %d", unit); // We should never get here, but given the nature of TTS files, this prevent segfault in case of bug there. } } #endif void pushPrompt(uint16_t prompt, uint8_t id) { #if defined(SDCARD) char filename[AUDIO_FILENAME_MAXLEN+1]; char * str = strAppendSystemAudioPath(filename); strcpy(str, "0000" SOUNDS_EXT); for (int8_t i=3; i>=0; i--) { str[i] = '0' + (prompt%10); prompt /= 10; } audioQueue.playFile(filename, 0, id); #endif } void onKeyPress() { audioKeyPress(); } void onKeyError() { audioKeyError(); }