#ifdef TV_PRODUCT
#define TV_BT_MODE
+#define TV_FFV_MODE
#endif
#include <audio_io.h>
#include <math.h>
#include <pthread.h>
#include <sound_manager.h>
+#include <sound_manager_internal.h>
#ifdef TV_BT_MODE
-#include <bluetooth.h>
+#include <bluetooth_product.h>
+#endif
+#ifdef TV_FFV_MODE
+#include <farfield-voice-api.h>
#endif
#include "stt_defs.h"
#include "sttd_dbus.h"
#include "sttd_recorder.h"
#include "sttd_main.h"
-#include "sttp.h"
+#include "sttd_engine_agent.h"
+#include "sttd_client_data.h"
+#define STTE_AUDIO_ID_NONE "STT_AUDIO_ID_NONE" /**< None audio id */
+#ifdef TV_FFV_MODE
+#define STTE_AUDIO_ID_FFV "STT_FARFIELD_VOICE_VD"
+#endif
-#define FRAME_LENGTH 160
+#define FRAME_LENGTH 320
#define BUFFER_LENGTH FRAME_LENGTH * 2
static pthread_mutex_t sttd_audio_in_handle_mutex = PTHREAD_MUTEX_INITIALIZER;
+#ifndef TV_BT_MODE
+static Ecore_Timer* g_audio_timer = NULL;
+#endif
+
typedef enum {
STTD_RECORDER_STATE_NONE = -1,
STTD_RECORDER_STATE_READY = 0, /**< Recorder is ready to start */
} 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 int g_buffer_count;
+static int g_stream_focus_id;
+
+static bool g_is_set_audio_type = false;
+
+#ifdef TV_FFV_MODE
+farfield_voice_h g_farfieldvoice_h = NULL;
+#endif
+
/* Sound buf save for test */
/*
#define BUF_SAVE_MODE
#endif
#ifdef TV_BT_MODE
-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);
-static stt_recorder_s* __get_recorder(int engine_id);
-
-static int g_bt_extend_count;
+//static stt_recorder_s* __get_recorder(int engine_id);
#define SMART_CONTROL_EXTEND_CMD 0x03
#define SMART_CONTROL_START_CMD 0x04
static void _bt_hid_audio_data_receive_cb(bt_hid_voice_data_s *voice_data, void *user_data)
{
+ if (0 >= sttd_client_get_ref_count()) {
+ if (0 == g_buffer_count % 50) {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder INFO] BT audio function callback is invoked, but no cliet");
+
+ if (100000 == g_buffer_count) {
+ g_buffer_count = 0;
+ }
+ }
+ g_buffer_count++;
+ return;
+ }
+
if (STTD_RECORDER_STATE_RECORDING != g_recorder_state) {
- /* SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Exit audio reading normal func"); */
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder] Exit audio reading normal func");
return;
}
if (NULL != g_audio_cb) {
+ if (false == g_is_set_audio_type) {
+ sttd_engine_agent_set_audio_type(STTE_AUDIO_ID_BLUETOOTH);
+ g_is_set_audio_type = true;
+ }
+
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(g_recording_engine_id);
+ sttd_recorder_stop();
}
- stt_recorder_s* recorder;
- recorder = __get_recorder(g_recording_engine_id);
- if (NULL == recorder) {
+ if (NULL == g_recorder) {
return;
}
- float vol_db = get_volume_decibel((char*)voice_data->audio_buf, (int)voice_data->length, recorder->audio_type);
- if (0 != sttdc_send_set_volume(recorder->uid, vol_db)) {
+ 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;
}
}
#endif
+#ifdef TV_FFV_MODE
+static void _ffv_audio_function_cb(void* data, unsigned int length, void* user_data)
+{
+ if (STTD_RECORDER_STATE_RECORDING != g_recorder_state) {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder] Exit audio reading normal func");
+ return;
+ }
+
+ if (0 >= sttd_client_get_ref_count()) {
+ if (0 == g_buffer_count % 50) {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder INFO] farfield audio function callback is invoked, but no cliet");
+
+ if (100000 == g_buffer_count) {
+ g_buffer_count = 0;
+ }
+ }
+ g_buffer_count++;
+ return;
+ }
+
+ if (false == g_is_set_audio_type) {
+ sttd_engine_agent_set_audio_type(STTE_AUDIO_ID_FFV);
+ g_is_set_audio_type = true;
+ }
+
+ if (0 == g_buffer_count % 50) {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder INFO] farfield audio function callback is invoked");
+
+ if (100000 == g_buffer_count) {
+ g_buffer_count = 0;
+ }
+ }
+
+ g_buffer_count++;
+
+ if (NULL != g_audio_cb) {
+ if (0 != g_audio_cb(data, length)) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to read audio");
+ sttd_recorder_stop();
+ }
+
+ if (NULL == g_recorder) {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder INFO] g_recoder is NULL");
+ return;
+ }
+
+ float vol_db = get_volume_decibel((char*)data, (int)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);
+ }
+ }
+}
+#endif
const char* __stt_get_focus_changed_reason_code(sound_stream_focus_change_reason_e reason)
{
}
}
-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)
+void __recorder_focus_state_watch_cb(int id, sound_stream_focus_mask_e focus_mask, sound_stream_focus_state_e focus_state,
+ 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;
- }
-
- 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_watch_cb is called, focus_state(%d), reason(%s)", (int)focus_state, __stt_get_focus_changed_reason_code(reason));
- 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) {
+ if (STTD_RECORDER_STATE_RECORDING == g_recorder_state && SOUND_STREAM_FOCUS_STATE_ACQUIRED == focus_state) {
SLOG(LOG_WARN, TAG_STTD, "[Recorder] Focus released as interrupt");
if (NULL != g_interrupt_cb) {
g_interrupt_cb();
}
}
-
int sttd_recorder_initialize(stt_recorder_audio_cb audio_cb, stt_recorder_interrupt_cb interrupt_cb)
{
if (NULL == audio_cb || NULL == interrupt_cb) {
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_create_stream_information(SOUND_STREAM_TYPE_VOICE_RECOGNITION, __recorder_focus_state_cb, NULL, &g_stream_info_h)) {
+ if (0 != sound_manager_create_stream_information_internal(SOUND_STREAM_TYPE_VOICE_RECOGNITION_SERVICE, NULL, NULL, &g_stream_info_h)) {
SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to create stream info");
}
+ if (0 != sound_manager_add_focus_state_watch_cb(SOUND_STREAM_FOCUS_FOR_BOTH, __recorder_focus_state_watch_cb, NULL, &g_stream_focus_id)) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to add focus state watch callback");
+ }
+
+#ifdef TV_FFV_MODE
+ g_farfieldvoice_h = farfield_voice_init();
+ if (NULL == g_farfieldvoice_h) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to init farfield_voice_init");
+ } else {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder INFO] Register farfield voice audio callback");
+ farfield_voice_register_audio_cb(g_farfieldvoice_h, _ffv_audio_function_cb, NULL);
+ }
+#endif
+
#ifdef TV_BT_MODE
- if (BT_ERROR_NONE != bt_initialize()) {
+ if (BT_ERROR_NONE != bt_product_init()) {
SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to init bt");
return STTD_ERROR_OPERATION_FAILED;
}
SLOG(LOG_ERROR, TAG_STTD, "[Server ERROR] Fail to destroy audio in handle mutex.");
}
+ if (0 != sound_manager_remove_focus_state_watch_cb(g_stream_focus_id)) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to remove focus state watch callback");
+ }
+
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;
if (NULL != recorder) {
g_recorder_list = g_slist_remove(g_recorder_list, recorder);
- if(recorder->audio_h) {
+ if (recorder->audio_h) {
audio_in_destroy(recorder->audio_h);
recorder->audio_h = NULL;
}
iter = g_slist_nth(g_recorder_list, 0);
}
+#endif
+
+#ifdef TV_FFV_MODE
+ if (NULL != g_farfieldvoice_h) {
+ SLOG(LOG_INFO, TAG_STTD, "[Recorder INFO] Unregister farfield voice");
+ farfield_voice_unregister_audio_cb(g_farfieldvoice_h);
+ farfield_voice_final(g_farfieldvoice_h);
+ g_farfieldvoice_h = NULL;
+ }
+#endif
#ifdef TV_BT_MODE
- bt_hid_host_deinitialize ();
+ bt_hid_host_deinitialize();
- bt_deinitialize();
+ bt_product_deinit();
#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;
return 0;
}
-int sttd_recorder_create(int engine_id, int uid, 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;
}
}
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;
+ 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;
return STTD_ERROR_OUT_OF_MEMORY;
}
- recorder->engine_id = engine_id;
- recorder->uid = uid;
+ 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) {
- if (recorder->audio_h) {
- ret = audio_in_unprepare(recorder->audio_h);
+ 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;
}
- if (recorder->audio_h) {
- ret = audio_in_destroy(recorder->audio_h);
+ 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);
}
- recorder->audio_h = NULL;
+ g_recorder->audio_h = NULL;
}
+
#else
if (STTD_RECORDER_STATE_RECORDING == g_recorder_state) {
g_recorder_state = STTD_RECORDER_STATE_READY;
bt_hid_unset_audio_data_receive_cb();
#endif
- g_recorder_list = g_slist_remove(g_recorder_list, recorder);
-
- 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)
+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
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;
if (0 == count)
rms = 0.0;
else
- rms = sqrt(square_sum/count);
+ rms = sqrt((double)square_sum/count);
if (depthByte == 2)
db = 20 * log10(rms/MAX_AMPLITUDE_MEAN_16);
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;
}
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;
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;
}
- if (0 == g_buffer_count % 30) {
- float vol_db = get_volume_decibel(g_buffer, BUFFER_LENGTH, recorder->audio_type);
- if (0 != sttdc_send_set_volume(recorder->uid, vol_db)) {
+ if (NULL == g_recorder)
+ SLOG(LOG_WARN, TAG_STTD, "[Recorder] g_recorder is NULL. It is already stopped and destroyed.");
+
+ if (0 == g_buffer_count % 30 && NULL != g_recorder) {
+ 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);
}
}
}
#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
+ int ret = -1;
/* 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;
}
- 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(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_set_sound_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(recorder->audio_h);
+ 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;
}
/* Add ecore timer to read audio data */
- ecore_timer_add(0, __read_audio_func, NULL);
-
-#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 (NULL != g_audio_timer) {
+ ecore_timer_del(g_audio_timer);
+ g_audio_timer = NULL;
}
- if (false == started) {
- SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to start bt audio");
+
+ g_audio_timer = ecore_timer_add(0, __read_audio_func, NULL);
+ if (NULL == g_audio_timer) {
+ SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Fail to create timer of read_audio");
return STTD_ERROR_OPERATION_FAILED;
}
#endif
+
g_recorder_state = STTD_RECORDER_STATE_RECORDING;
- g_recording_engine_id = engine_id;
+ g_recorder->uid = uid;
g_buffer_count = 0;
#ifdef BUF_SAVE_MODE
g_count++;
- snprintf(g_temp_file_name, sizeof(g_temp_file_name), "/tmp/stt_temp_%d_%d", getpid(), g_count);
+ while (1) {
+ snprintf(g_temp_file_name, sizeof(g_temp_file_name), "/tmp/stt_temp_%d_%d", getpid(), g_count);
+ ret = access(g_temp_file_name, 0);
+
+ if (0 == ret) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] File is already exist");
+ if (0 == remove(g_temp_file_name)) {
+ SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Remove file");
+ break;
+ } else {
+ g_count++;
+ }
+ } else {
+ break;
+ }
+ }
+
SECURE_SLOG(LOG_DEBUG, TAG_STTD, "[Recorder] Temp file name=[%s]", g_temp_file_name);
/* open test file */
- g_pFile = fopen(g_temp_file_name, "wb+");
+ g_pFile = fopen(g_temp_file_name, "wb+x");
if (!g_pFile) {
SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] File not found!");
return -1;
return 0;
}
-int sttd_recorder_stop(int engine_id)
+int sttd_recorder_stop()
{
if (STTD_RECORDER_STATE_READY == g_recorder_state)
return 0;
+ // 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);
+
+ g_is_set_audio_type = false;
+ sttd_engine_agent_set_audio_type(STTE_AUDIO_ID_NONE);
+
/* 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;
}
- int ret;
+ g_recorder->uid = -1;
+
+ int ret = -1;
#ifndef TV_BT_MODE
- ret = audio_in_unprepare(recorder->audio_h);
+ if (NULL != g_audio_timer) {
+ ecore_timer_del(g_audio_timer);
+ g_audio_timer = NULL;
+ }
+
+ 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);
}
usleep(50000);
bt_retry++;
} else {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] bt_hid_rc_stop_sending_voice(): ret(%d)", ret);
break;
}
}
if (false == stopped) {
- SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to stop bt audio");
- return STTD_ERROR_OPERATION_FAILED;
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to stop bt audio(%d)", ret);
+// return STTD_ERROR_OPERATION_FAILED;
}
#endif
- g_recorder_state = STTD_RECORDER_STATE_READY;
- g_recording_engine_id = -1;
-
- 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 TV_FFV_MODE
+ ret = farfield_voice_set_recognition_state(FARFIELD_VOICE_RECOGNITION_STOP);
+ if (0 != ret) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to stop FFV, ret(%d)", ret);
}
+#endif
+
+ g_recorder_state = STTD_RECORDER_STATE_READY;
#ifdef BUF_SAVE_MODE
fclose(g_pFile);
#endif
+ pthread_mutex_unlock(&sttd_audio_in_handle_mutex);
+ SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Leave critical section");
+
+ return 0;
+}
+
+int sttd_recorder_start_file(int uid, const char *filepath)
+{
+ if (STTD_RECORDER_STATE_RECORDING == g_recorder_state)
+ return 0;
+
+ /* Check engine id is valid */
+ if (NULL == g_recorder) {
+ SLOG(LOG_WARN, TAG_STTD, "[Recorder WARNING] Engine id is not valid");
+ return STTD_ERROR_INVALID_PARAMETER;
+ }
+ g_recorder_state = STTD_RECORDER_STATE_RECORDING;
+ g_recorder->uid = uid;
+
+ int cnt = 0;
+ int totalReadBytes = 0;
+
+ FILE *infile = fopen(filepath, "rb");
+
+ //process the file
+ if (infile != NULL) {
+ while (!feof(infile)) {
+ static char pcm_buff[BUFFER_LENGTH];
+ int read_byte = fread(pcm_buff, 1, BUFFER_LENGTH, infile);
+ totalReadBytes += read_byte;
+ if (0 != read_byte) {
+ if (0 != g_audio_cb(pcm_buff, read_byte)) {
+ SLOG(LOG_ERROR, TAG_STTD, "[Recorder ERROR] Fail to call audio callback");
+ fclose(infile);
+ return -1;
+ }
+ if (0 == cnt % 30) {
+ float vol_db = get_volume_decibel(pcm_buff, 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 == cnt % 50)
+ SLOG(LOG_DEBUG, TAG_STTD, "[Recorder][%d] Recording... : read_size(%d)", cnt, read_byte);
+ cnt++;
+ }
+ }
+ fclose(infile);
+ }
+
+ SLOG(LOG_DEBUG, TAG_STTD, "[Recorder][%d] total bytes(%d)", cnt, totalReadBytes);
+ return 0;
+}
+
+int sttd_recorder_stop_file()
+{
+ if (STTD_RECORDER_STATE_READY == g_recorder_state)
+ return 0;
+
+ /* Check engine id is valid */
+ 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;
+ g_recorder_state = STTD_RECORDER_STATE_READY;
return 0;
}
+
+int sttd_recorder_clear()
+{
+#ifdef TV_BT_MODE
+ SLOG(LOG_DEBUG, TAG_STTD, "[Recorder DEBUG] Clear recorder on TV");
+
+ if (STTD_RECORDER_STATE_RECORDING == g_recorder_state) {
+ sttd_recorder_stop();
+ }
+ if (STTD_RECORDER_STATE_READY == g_recorder_state) {
+ sttd_recorder_destroy();
+ }
+#endif
+
+ return STTD_ERROR_NONE;
+}