X-Git-Url: http://review.tizen.org/git/?a=blobdiff_plain;f=server%2Fsttd_recorder.c;h=5c4687b4ab107cbd6eccf4465db387864b23b2d2;hb=b6aed48b1a283015e0948fa4b37578c80bd921fe;hp=aee880699c44ea6cbd8c914ac1ce063fab428172;hpb=854562a21f7bc212fe4fc9d3134a4e9a842fdee3;p=platform%2Fcore%2Fuifw%2Fstt.git diff --git a/server/sttd_recorder.c b/server/sttd_recorder.c index aee8806..5c4687b 100644 --- a/server/sttd_recorder.c +++ b/server/sttd_recorder.c @@ -1,5 +1,5 @@ /* -* Copyright (c) 2011-2014 Samsung Electronics Co., Ltd All Rights Reserved +* Copyright (c) 2011-2016 Samsung Electronics Co., Ltd All Rights Reserved * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at @@ -11,20 +11,30 @@ * limitations under the License. */ +#ifdef TV_PRODUCT +#define TV_BT_MODE +#endif + #include #include #include +#include #include +#ifdef TV_BT_MODE +#include +#endif #include "stt_defs.h" +#include "sttd_dbus.h" #include "sttd_recorder.h" #include "sttd_main.h" -#include "sttp.h" #define FRAME_LENGTH 160 #define BUFFER_LENGTH FRAME_LENGTH * 2 +static pthread_mutex_t sttd_audio_in_handle_mutex = PTHREAD_MUTEX_INITIALIZER; + typedef enum { STTD_RECORDER_STATE_NONE = -1, STTD_RECORDER_STATE_READY = 0, /**< Recorder is ready to start */ @@ -32,23 +42,21 @@ typedef enum { } sttd_recorder_state; typedef struct { - int engine_id; + int uid; audio_in_h audio_h; - sttp_audio_type_e audio_type; + stte_audio_type_e audio_type; } stt_recorder_s; -static GSList *g_recorder_list; - -static int g_recording_engine_id; +static stt_recorder_s* g_recorder = NULL; static stt_recorder_audio_cb g_audio_cb; +static sound_stream_info_h g_stream_info_h; + static stt_recorder_interrupt_cb g_interrupt_cb; static sttd_recorder_state g_recorder_state = STTD_RECORDER_STATE_NONE; -static FILE* g_pFile_vol; - static int g_buffer_count; /* Sound buf save for test */ @@ -63,36 +71,119 @@ static FILE* g_pFile; static int g_count = 1; #endif -const char* __stt_get_session_interrupt_code(sound_session_interrupted_code_e code) +#ifdef TV_BT_MODE +static float get_volume_decibel(char* data, int size, stte_audio_type_e type); + +//static stt_recorder_s* __get_recorder(int engine_id); + +static int g_bt_extend_count; + +#define SMART_CONTROL_EXTEND_CMD 0x03 +#define SMART_CONTROL_START_CMD 0x04 + +static void _bt_cb_hid_state_changed(int result, bool connected, const char *remote_address, void *user_data) { - switch (code) { - case SOUND_SESSION_INTERRUPTED_COMPLETED: return "SOUND_SESSION_INTERRUPTED_COMPLETED"; - case SOUND_SESSION_INTERRUPTED_BY_MEDIA: return "SOUND_SESSION_INTERRUPTED_BY_MEDIA"; - case SOUND_SESSION_INTERRUPTED_BY_CALL: return "SOUND_SESSION_INTERRUPTED_BY_CALL"; - case SOUND_SESSION_INTERRUPTED_BY_EARJACK_UNPLUG: return "SOUND_SESSION_INTERRUPTED_BY_EARJACK_UNPLUG"; - case SOUND_SESSION_INTERRUPTED_BY_RESOURCE_CONFLICT: return "SOUND_SESSION_INTERRUPTED_BY_RESOURCE_CONFLICT"; - case SOUND_SESSION_INTERRUPTED_BY_ALARM: return "SOUND_SESSION_INTERRUPTED_BY_ALARM"; - case SOUND_SESSION_INTERRUPTED_BY_EMERGENCY: return "SOUND_SESSION_INTERRUPTED_BY_EMERGENCY"; - case SOUND_SESSION_INTERRUPTED_BY_NOTIFICATION: return "SOUND_SESSION_INTERRUPTED_BY_NOTIFICATION"; - default: - return "Undefined error code"; + SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Bluetooth Event [%d] Received address [%s]", result, remote_address); +} + +static void _bt_hid_audio_data_receive_cb(bt_hid_voice_data_s *voice_data, void *user_data) +{ + if (STTD_RECORDER_STATE_RECORDING != g_recorder_state) { + /* SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Exit audio reading normal func"); */ + return; + } + + if (NULL != g_audio_cb) { + if (0 != g_audio_cb((void*)voice_data->audio_buf, (unsigned int)voice_data->length)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to read audio"); + sttd_recorder_stop(); + } + + if (NULL == g_recorder) { + return; + } + + float vol_db = get_volume_decibel((char*)voice_data->audio_buf, (int)voice_data->length, g_recorder->audio_type); + if (0 != sttdc_send_set_volume(g_recorder->uid, vol_db)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder] Fail to send recording volume(%f)", vol_db); + } } + + if (0 == g_buffer_count || 0 == g_buffer_count % 50) { + SLOG(LOG_WARN, TAG_STTD, "[Recorder][%d] Recording... : read_size(%d)", g_buffer_count, voice_data->length); + + if (0 == g_bt_extend_count % 5 && 0 != g_buffer_count) { + const unsigned char input_data[2] = {SMART_CONTROL_EXTEND_CMD, 0x10 }; + if (BT_ERROR_NONE != bt_hid_send_rc_command(NULL, input_data, sizeof(input_data))) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail bt_hid_send_rc_command(NULL, %s, %d)", input_data, sizeof(input_data)); + } else { + SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Extend bt audio recorder"); + } + } + g_bt_extend_count++; + + if (100000 == g_buffer_count) { + g_buffer_count = 0; + } + } + + g_buffer_count++; + +#ifdef BUF_SAVE_MODE + /* write pcm buffer */ + fwrite(data, 1, len, g_pFile); +#endif + return; } +#endif + -void __sttd_recorder_sound_interrupted_cb(sound_session_interrupted_code_e code, void *user_data) +const char* __stt_get_focus_changed_reason_code(sound_stream_focus_change_reason_e reason) { - SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Get the interrupt code from sound mgr : %s", - __stt_get_session_interrupt_code(code)); + switch (reason) { + case SOUND_STREAM_FOCUS_CHANGED_BY_MEDIA: return "SOUND_STREAM_FOCUS_CHANGED_BY_MEDIA"; + case SOUND_STREAM_FOCUS_CHANGED_BY_SYSTEM: return "SOUND_STREAM_FOCUS_CHANGED_BY_SYSTEM"; + case SOUND_STREAM_FOCUS_CHANGED_BY_ALARM: return "SOUND_STREAM_FOCUS_CHANGED_BY_ALARM"; + case SOUND_STREAM_FOCUS_CHANGED_BY_NOTIFICATION: return "SOUND_STREAM_FOCUS_CHANGED_BY_NOTIFICATION"; + case SOUND_STREAM_FOCUS_CHANGED_BY_EMERGENCY: return "SOUND_STREAM_FOCUS_CHANGED_BY_EMERGENCY"; + case SOUND_STREAM_FOCUS_CHANGED_BY_VOICE_INFORMATION: return "SOUND_STREAM_FOCUS_CHANGED_BY_VOICE_INFORMATION"; + case SOUND_STREAM_FOCUS_CHANGED_BY_VOICE_RECOGNITION: return "SOUND_STREAM_FOCUS_CHANGED_BY_VOICE_RECOGNITION"; + case SOUND_STREAM_FOCUS_CHANGED_BY_RINGTONE: return "SOUND_STREAM_FOCUS_CHANGED_BY_RINGTONE"; + case SOUND_STREAM_FOCUS_CHANGED_BY_VOIP: return "SOUND_STREAM_FOCUS_CHANGED_BY_VOIP"; + case SOUND_STREAM_FOCUS_CHANGED_BY_CALL: return "SOUND_STREAM_FOCUS_CHANGED_BY_CALL"; + case SOUND_STREAM_FOCUS_CHANGED_BY_MEDIA_EXTERNAL_ONLY: return "SOUND_STREAM_FOCUS_CHANGED_BY_MEDIA_EXTERNAL_ONLY"; + default: return "Undefined reason code"; + } +} - if (SOUND_SESSION_INTERRUPTED_COMPLETED == code || SOUND_SESSION_INTERRUPTED_BY_EARJACK_UNPLUG == code) +void __recorder_focus_state_cb(sound_stream_info_h stream_info, sound_stream_focus_change_reason_e reason, const char *extra_info, void *user_data) +{ + SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Focus state changed cb"); + + if (stream_info != g_stream_info_h) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Invalid stream info handle"); return; + } - if (NULL != g_interrupt_cb) { - g_interrupt_cb(); + int ret; + sound_stream_focus_state_e state_for_recording; + ret = sound_manager_get_focus_state(g_stream_info_h, NULL, &state_for_recording); + if (SOUND_MANAGER_ERROR_NONE != ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to get focus state"); + return; + } + + SLOG(LOG_WARN, TAG_STTD, "[Recorder] focus state changed to (%d) with reason(%s)", (int)state_for_recording, __stt_get_focus_changed_reason_code(reason)); + + if (STTD_RECORDER_STATE_RECORDING == g_recorder_state && SOUND_STREAM_FOCUS_STATE_RELEASED == state_for_recording) { + SLOG(LOG_WARN, TAG_STTD, "[Recorder] Focus released as interrupt"); + if (NULL != g_interrupt_cb) { + g_interrupt_cb(); + } } - return; } + int sttd_recorder_initialize(stt_recorder_audio_cb audio_cb, stt_recorder_interrupt_cb interrupt_cb) { if (NULL == audio_cb || NULL == interrupt_cb) { @@ -105,28 +196,52 @@ int sttd_recorder_initialize(stt_recorder_audio_cb audio_cb, stt_recorder_interr return STTD_ERROR_INVALID_STATE; } + if (0 != pthread_mutex_init(&sttd_audio_in_handle_mutex, NULL)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to initialize audio in handle mutex."); + } + g_audio_cb = audio_cb; g_interrupt_cb = interrupt_cb; g_recorder_state = STTD_RECORDER_STATE_NONE; - g_recording_engine_id = -1; + g_recorder = NULL; - if (0 != sound_manager_set_session_type(SOUND_SESSION_TYPE_MEDIA)) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to set exclusive session"); + if (0 != sound_manager_create_stream_information(SOUND_STREAM_TYPE_VOICE_RECOGNITION, __recorder_focus_state_cb, NULL, &g_stream_info_h)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to create stream info"); + } + +#ifdef TV_BT_MODE + if (BT_ERROR_NONE != bt_initialize()) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to init bt"); + return STTD_ERROR_OPERATION_FAILED; } - if (0 != sound_manager_set_session_interrupted_cb(__sttd_recorder_sound_interrupted_cb, NULL)) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to set sound interrupt callback"); + if (BT_ERROR_NONE != bt_hid_host_initialize(_bt_cb_hid_state_changed, NULL)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail bt_hid_host_initialize()"); + return STTD_ERROR_OPERATION_FAILED; } +#endif return 0; } int sttd_recorder_deinitialize() { - if (0 != sound_manager_unset_session_interrupted_cb()) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to unset sound interrupt callback"); + if (0 != pthread_mutex_destroy(&sttd_audio_in_handle_mutex)) { + SLOG(LOG_ERROR, TAG_STTD, "[Server ERROR] Fail to destroy audio in handle mutex."); } + if (0 != sound_manager_destroy_stream_information(g_stream_info_h)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to destroy stream info"); + } + + if (NULL != g_recorder) { + audio_in_destroy(g_recorder->audio_h); + g_recorder->audio_h = NULL; + free(g_recorder); + g_recorder = NULL; + } + +#ifdef __UNUSED_CODES__ /* Remove all recorder */ GSList *iter = NULL; stt_recorder_s *recorder = NULL; @@ -138,45 +253,28 @@ int sttd_recorder_deinitialize() if (NULL != recorder) { g_recorder_list = g_slist_remove(g_recorder_list, recorder); - audio_in_destroy(recorder->audio_h); - + if (recorder->audio_h) { + audio_in_destroy(recorder->audio_h); + recorder->audio_h = NULL; + } free(recorder); } iter = g_slist_nth(g_recorder_list, 0); } +#endif - if (0 == access(STT_AUDIO_VOLUME_PATH, R_OK)) { - if (0 != remove(STT_AUDIO_VOLUME_PATH)) { - SLOG(LOG_WARN, TAG_STTD, "[Recorder WARN] Fail to remove volume file"); - } - } +#ifdef TV_BT_MODE + bt_hid_host_deinitialize(); + + bt_deinitialize(); +#endif g_recorder_state = STTD_RECORDER_STATE_NONE; return 0; } -static stt_recorder_s* __get_recorder(int engine_id) -{ - GSList *iter = NULL; - stt_recorder_s *recorder = NULL; - - iter = g_slist_nth(g_recorder_list, 0); - - while (NULL != iter) { - recorder = iter->data; - - if (recorder->engine_id == engine_id) { - return recorder; - } - - iter = g_slist_next(iter); - } - - return NULL; -} - int sttd_recorder_set_audio_session() { return 0; @@ -187,34 +285,36 @@ int sttd_recorder_unset_audio_session() return 0; } -int sttd_recorder_create(int engine_id, sttp_audio_type_e type, int channel, unsigned int sample_rate) +int sttd_recorder_create(stte_audio_type_e type, int channel, unsigned int sample_rate) { /* Check engine id is valid */ - if (NULL != __get_recorder(engine_id)) { + if (NULL != g_recorder) { SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Engine id is already registered"); return STTD_ERROR_INVALID_PARAMETER; } + audio_in_h temp_in_h = NULL; + +#ifndef TV_BT_MODE audio_channel_e audio_ch; audio_sample_type_e audio_type; - audio_in_h temp_in_h; switch (channel) { - case 1: audio_ch = AUDIO_CHANNEL_MONO; break; - case 2: audio_ch = AUDIO_CHANNEL_STEREO; break; - default: - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Input channel is not supported"); - return STTD_ERROR_OPERATION_FAILED; - break; + case 1: audio_ch = AUDIO_CHANNEL_MONO; break; + case 2: audio_ch = AUDIO_CHANNEL_STEREO; break; + default: + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Input channel is not supported"); + return STTD_ERROR_OPERATION_FAILED; + break; } switch (type) { - case STTP_AUDIO_TYPE_PCM_S16_LE: audio_type = AUDIO_SAMPLE_TYPE_S16_LE; break; - case STTP_AUDIO_TYPE_PCM_U8: audio_type = AUDIO_SAMPLE_TYPE_U8; break; - default: - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Invalid Audio Type"); - return STTD_ERROR_OPERATION_FAILED; - break; + case STTE_AUDIO_TYPE_PCM_S16_LE: audio_type = AUDIO_SAMPLE_TYPE_S16_LE; break; + case STTE_AUDIO_TYPE_PCM_U8: audio_type = AUDIO_SAMPLE_TYPE_U8; break; + default: + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Invalid Audio Type"); + return STTD_ERROR_OPERATION_FAILED; + break; } int ret; @@ -223,59 +323,89 @@ int sttd_recorder_create(int engine_id, sttp_audio_type_e type, int channel, uns SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to create audio handle : %d", ret); return STTD_ERROR_OPERATION_FAILED; } +#else + if (BT_ERROR_NONE != bt_hid_set_audio_data_receive_cb(_bt_hid_audio_data_receive_cb, NULL)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail bt_hid_set_audio_data_receive_cb()"); + return STTD_ERROR_OPERATION_FAILED; + } +#endif stt_recorder_s* recorder; recorder = (stt_recorder_s*)calloc(1, sizeof(stt_recorder_s)); if (NULL == recorder) { - audio_in_destroy(temp_in_h); +#ifndef TV_BT_MODE + if (temp_in_h) { + audio_in_destroy(temp_in_h); + temp_in_h = NULL; + } +#endif SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to allocate memory"); return STTD_ERROR_OUT_OF_MEMORY; } - recorder->engine_id = engine_id; + recorder->uid = -1; recorder->audio_h = temp_in_h; recorder->audio_type = type; - g_recorder_list = g_slist_append(g_recorder_list, recorder); + g_recorder = recorder; g_recorder_state = STTD_RECORDER_STATE_READY; return 0; } -int sttd_recorder_destroy(int engine_id) +int sttd_recorder_destroy() { + // critical section required because this function can be called from stt engine thread context + SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Enter critical section"); + pthread_mutex_lock(&sttd_audio_in_handle_mutex); + /* Check engine id is valid */ - stt_recorder_s* recorder; - recorder = __get_recorder(engine_id); - if (NULL == recorder) { + if (NULL == g_recorder) { SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Engine id is not valid"); + pthread_mutex_unlock(&sttd_audio_in_handle_mutex); return STTD_ERROR_INVALID_PARAMETER; } +#ifndef TV_BT_MODE int ret; if (STTD_RECORDER_STATE_RECORDING == g_recorder_state) { - ret = audio_in_unprepare(recorder->audio_h); - if (AUDIO_IO_ERROR_NONE != ret) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to unprepare audioin : %d", ret); + if (g_recorder->audio_h) { + ret = audio_in_unprepare(g_recorder->audio_h); + if (AUDIO_IO_ERROR_NONE != ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to unprepare audioin : %d", ret); + } } g_recorder_state = STTD_RECORDER_STATE_READY; } - ret = audio_in_destroy(recorder->audio_h); - if (AUDIO_IO_ERROR_NONE != ret) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to destroy audioin : %d", ret); + if (g_recorder->audio_h) { + ret = audio_in_destroy(g_recorder->audio_h); + if (AUDIO_IO_ERROR_NONE != ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to destroy audioin : %d", ret); + } + g_recorder->audio_h = NULL; } - g_recorder_list = g_slist_remove(g_recorder_list, recorder); +#else + if (STTD_RECORDER_STATE_RECORDING == g_recorder_state) { + g_recorder_state = STTD_RECORDER_STATE_READY; + } + + bt_hid_unset_audio_data_receive_cb(); +#endif - free(recorder); + free(g_recorder); + g_recorder = NULL; + + pthread_mutex_unlock(&sttd_audio_in_handle_mutex); + SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Leave critical section"); return 0; } -static float get_volume_decibel(char* data, int size, sttp_audio_type_e type) +static float get_volume_decibel(char* data, int size, stte_audio_type_e type) { #define MAX_AMPLITUDE_MEAN_16 32768 #define MAX_AMPLITUDE_MEAN_08 128 @@ -287,7 +417,7 @@ static float get_volume_decibel(char* data, int size, sttp_audio_type_e type) float rms = 0.0; unsigned long long square_sum = 0; - if (type == STTP_AUDIO_TYPE_PCM_S16_LE) + if (type == STTE_AUDIO_TYPE_PCM_S16_LE) depthByte = 2; else depthByte = 1; @@ -318,15 +448,14 @@ static float get_volume_decibel(char* data, int size, sttp_audio_type_e type) return db; } +#ifndef TV_BT_MODE Eina_Bool __read_audio_func(void *data) { int read_byte = -1; static char g_buffer[BUFFER_LENGTH]; /* Check engine id is valid */ - stt_recorder_s* recorder; - recorder = __get_recorder(g_recording_engine_id); - if (NULL == recorder) { + if (NULL == g_recorder) { return EINA_FALSE; } @@ -335,7 +464,7 @@ Eina_Bool __read_audio_func(void *data) return EINA_FALSE; } - read_byte = audio_in_read(recorder->audio_h, g_buffer, BUFFER_LENGTH); + read_byte = audio_in_read(g_recorder->audio_h, g_buffer, BUFFER_LENGTH); if (0 > read_byte) { SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Fail to read audio : %d", read_byte); g_recorder_state = STTD_RECORDER_STATE_READY; @@ -344,15 +473,16 @@ Eina_Bool __read_audio_func(void *data) if (0 != g_audio_cb(g_buffer, read_byte)) { SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Fail audio callback"); - sttd_recorder_stop(g_recording_engine_id); + sttd_recorder_stop(); return EINA_FALSE; } - float vol_db = get_volume_decibel(g_buffer, BUFFER_LENGTH, recorder->audio_type); - - rewind(g_pFile_vol); - - fwrite((void*)(&vol_db), sizeof(vol_db), 1, g_pFile_vol); + if (0 == g_buffer_count % 30) { + float vol_db = get_volume_decibel(g_buffer, BUFFER_LENGTH, g_recorder->audio_type); + if (0 != sttdc_send_set_volume(g_recorder->uid, vol_db)) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder] Fail to send recording volume(%f)", vol_db); + } + } /* Audio read log */ if (0 == g_buffer_count % 50) { @@ -372,22 +502,32 @@ Eina_Bool __read_audio_func(void *data) return EINA_TRUE; } +#endif -int sttd_recorder_start(int engine_id) +int sttd_recorder_start(int uid) { if (STTD_RECORDER_STATE_RECORDING == g_recorder_state) return 0; + int ret = -1; +#ifndef TV_BT_MODE /* Check engine id is valid */ - stt_recorder_s* recorder; - recorder = __get_recorder(engine_id); - if (NULL == recorder) { + if (NULL == g_recorder) { SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Engine id is not valid"); return STTD_ERROR_INVALID_PARAMETER; } - int ret = -1; - ret = audio_in_prepare(recorder->audio_h); + ret = sound_manager_acquire_focus(g_stream_info_h, SOUND_STREAM_FOCUS_FOR_RECORDING, NULL); + if (SOUND_MANAGER_ERROR_NONE != ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to acquire focus : %d", ret); + } else { + ret = audio_in_set_stream_info(g_recorder->audio_h, g_stream_info_h); + if (AUDIO_IO_ERROR_NONE != ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to set stream info"); + } + } + + ret = audio_in_prepare(g_recorder->audio_h); if (AUDIO_IO_ERROR_NONE != ret) { SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to start audio : %d", ret); return STTD_ERROR_RECORDER_BUSY; @@ -396,14 +536,32 @@ int sttd_recorder_start(int engine_id) /* Add ecore timer to read audio data */ ecore_timer_add(0, __read_audio_func, NULL); - g_recorder_state = STTD_RECORDER_STATE_RECORDING; - g_recording_engine_id = engine_id; - - g_pFile_vol = fopen(STT_AUDIO_VOLUME_PATH, "wb+"); - if (!g_pFile_vol) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to create Volume File"); - return -1; +#else + g_bt_extend_count = 0; + const unsigned char input_data[2] = {SMART_CONTROL_START_CMD, 0x00 }; + int bt_retry = 0; + bool started = false; + while (5 > bt_retry) { + ret = bt_hid_send_rc_command(NULL, input_data, sizeof(input_data)); + if (BT_ERROR_NONE == ret) { + SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Start bt audio recorder"); + started = true; + break; + } else if (BT_ERROR_NOW_IN_PROGRESS == ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail bt_hid_send_rc_command(NULL, %s, %d)", input_data, sizeof(input_data)); + usleep(50000); + bt_retry++; + } else { + break; + } } + if (false == started) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to start bt audio"); + return STTD_ERROR_OPERATION_FAILED; + } +#endif + g_recorder_state = STTD_RECORDER_STATE_RECORDING; + g_recorder->uid = uid; g_buffer_count = 0; @@ -424,29 +582,54 @@ int sttd_recorder_start(int engine_id) return 0; } -int sttd_recorder_stop(int engine_id) +int sttd_recorder_stop() { if (STTD_RECORDER_STATE_READY == g_recorder_state) return 0; /* Check engine id is valid */ - stt_recorder_s* recorder; - recorder = __get_recorder(engine_id); - if (NULL == recorder) { + if (NULL == g_recorder) { SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Engine id is not valid"); return STTD_ERROR_INVALID_PARAMETER; } + g_recorder->uid = -1; + int ret; - ret = audio_in_unprepare(recorder->audio_h); +#ifndef TV_BT_MODE + ret = audio_in_unprepare(g_recorder->audio_h); if (AUDIO_IO_ERROR_NONE != ret) { SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to unprepare audioin : %d", ret); } +#else + int bt_retry = 0; + bool stopped = false; + while (5 > bt_retry) { + ret = bt_hid_rc_stop_sending_voice(NULL); + if (BT_ERROR_NONE == ret) { + SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Stop bt audio"); + stopped = true; + break; + } else if (BT_ERROR_NOW_IN_PROGRESS == ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail bt_hid_rc_stop_sending_voice()"); + usleep(50000); + bt_retry++; + } else { + break; + } + } + if (false == stopped) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to stop bt audio"); + return STTD_ERROR_OPERATION_FAILED; + } +#endif g_recorder_state = STTD_RECORDER_STATE_READY; - g_recording_engine_id = -1; - fclose(g_pFile_vol); + ret = sound_manager_release_focus(g_stream_info_h, SOUND_STREAM_FOCUS_FOR_RECORDING, NULL); + if (SOUND_MANAGER_ERROR_NONE != ret) { + SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to release focus :%d", ret); + } #ifdef BUF_SAVE_MODE fclose(g_pFile); @@ -454,27 +637,3 @@ int sttd_recorder_stop(int engine_id) return 0; } - -int sttd_recorder_set_ignore_session(int engine_id) -{ - if (STTD_RECORDER_STATE_READY != g_recorder_state) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Record is working."); - return -1; - } - - /* Check engine id is valid */ - stt_recorder_s* recorder; - recorder = __get_recorder(engine_id); - if (NULL == recorder) { - SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Engine id is not valid"); - return STTD_ERROR_INVALID_PARAMETER; - } - - int ret = audio_in_ignore_session(recorder->audio_h); - if (AUDIO_IO_ERROR_NONE != ret) { - SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to ignore session : %d", ret); - return STTD_ERROR_OPERATION_FAILED; - } - - return 0; -} \ No newline at end of file