static void __mmradio_seek_thread(mm_radio_t *radio);
static void __mmradio_scan_thread(mm_radio_t *radio);
static bool __is_tunable_frequency(mm_radio_t *radio, int freq);
-
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
-static void __mmradio_sound_focus_cb(int id, mm_sound_focus_type_e focus_type,
- mm_sound_focus_state_e focus_state, const char *reason_for_change, int option,
- const char *additional_info, void *user_data);
-static void __mmradio_sound_focus_watch_cb(int id, mm_sound_focus_type_e focus_type,
- mm_sound_focus_state_e focus_state, const char *reason_for_change,
- const char *additional_info, void *user_data);
-#endif
+static int __mmradio_create_threads(mm_radio_t *radio);
+static void __mmradio_destroy_threads(mm_radio_t *radio);
+static int __mmradio_create_thread_type(mm_radio_t *radio, MMRadioThreadTypes type);
+static void __mmradio_destroy_thread_type(mm_radio_t *radio, MMRadioThreadTypes type);
static void __mmradio_volume_changed_cb(volume_type_t type, unsigned int volume, void *user_data);
static int __mmradio_set_media_volume(mm_radio_t *radio, unsigned int level);
+static int __resource_release_cb(mm_resource_manager_h rm,
+ mm_resource_manager_res_h res, void *user_data);
+static void __mmradio_msg_thread(mm_radio_t *radio);
+static void __mmradio_msg_push(mm_radio_t *radio, MMRadioMsgTypes msg_type, int msg_data);
+
+typedef void (*thread_function)(mm_radio_t *);
+thread_function __mmradio_thread_function[] = {
+ &__mmradio_msg_thread,
+ &__mmradio_seek_thread,
+ &__mmradio_scan_thread
+};
int _mmradio_apply_region(mm_radio_t *radio, MMRadioRegionType region, bool update)
{
/* set default value */
radio->freq = DEFAULT_FREQ;
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
- memset(&radio->sound_focus, 0, sizeof(mm_radio_sound_focus));
-#endif
memset(&radio->region_setting, 0, sizeof(MMRadioRegion_t));
radio->local_volume = 1.0;
-
- /* create command lock */
- ret = pthread_mutex_init(&radio->cmd_lock, NULL);
- if (ret) {
- MMRADIO_LOG_ERROR("mutex creation failed");
- return MM_ERROR_RADIO_INTERNAL;
+ radio->vstream = NULL;
+ radio->stream_info = NULL;
+
+ /* create msg queue for msg thread */
+ radio->msg_queue = g_async_queue_new();
+ if (!radio->msg_queue) {
+ MMRADIO_LOG_ERROR("failed to get msg g_async_queue_new");
+ return MM_ERROR_RADIO_INTERNAL;
}
- ret = pthread_mutex_init(&radio->volume_lock, NULL);
+ /* create mutex and thread */
+ ret = __mmradio_create_threads(radio);
if (ret) {
- MMRADIO_LOG_ERROR("volume mutex creation failed");
- return MM_ERROR_RADIO_INTERNAL;
+ MMRADIO_LOG_ERROR("failed to create threads");
+ goto ERROR_THREAD;
}
MMRADIO_SET_STATE(radio, MM_RADIO_STATE_NULL);
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
- ret = mmradio_sound_focus_register(&radio->sound_focus,
- (mm_sound_focus_changed_cb)__mmradio_sound_focus_cb,
- (mm_sound_focus_changed_watch_cb)__mmradio_sound_focus_watch_cb,
- (void *)radio);
-
+ /* initialize resource manager */
+ ret = mm_resource_manager_create(MM_RESOURCE_MANAGER_APP_CLASS_MEDIA,
+ __resource_release_cb, radio, &radio->resource_manager);
if (ret) {
- /* NOTE : we are dealing it as an error since we cannot expect it's behavior */
- MMRADIO_LOG_ERROR("mmradio_audio_focus_register is failed");
- return MM_ERROR_RADIO_INTERNAL;
+ MMRADIO_LOG_ERROR("failed to create resource manager");
+ ret = MM_ERROR_RADIO_INTERNAL;
+ goto ERROR_RESOURCE;
}
-#endif
ret = radio_hal_interface_init(&(radio->hal_inf));
if (ret) {
- MMRADIO_LOG_ERROR("mmradio hal interface init failed");
- return ret;
+ MMRADIO_LOG_ERROR("failed to init mmradio hal interface");
+ goto ERROR_HAL_INIT;
}
MMRADIO_LOG_FLEAVE();
return MM_ERROR_NONE;
+
+ERROR_HAL_INIT:
+ mm_resource_manager_destroy(radio->resource_manager);
+ERROR_RESOURCE:
+ __mmradio_destroy_threads(radio);
+ERROR_THREAD:
+ if (radio->msg_queue)
+ g_async_queue_unref(radio->msg_queue);
+ return ret;
}
int _mmradio_realize(mm_radio_t *radio)
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_REALIZE);
- ret = pthread_mutex_init(&radio->seek_cancel_mutex, NULL);
- if (ret < 0) {
- MMRADIO_LOG_ERROR("Mutex creation failed %d", ret);
- return MM_ERROR_RADIO_INTERNAL;
- }
-
if (radio->region_setting.country == MM_RADIO_REGION_GROUP_NONE) {
/* not initialized yet. set it with default region */
region = RADIO_DEFAULT_REGION;
#ifdef TIZEN_FEATURE_SOUND_VSTREAM
ret = sound_manager_create_stream_information_internal(SOUND_STREAM_TYPE_RADIO, NULL, radio, &radio->stream_info);
if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("sound_manager_create_stream_information_internal error");
+ MMRADIO_LOG_ERROR("failed to create stream information");
MMRADIO_LOG_FLEAVE();
return ret;
}
ret = sound_manager_get_max_volume(SOUND_TYPE_MEDIA, &max);
if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_WARNING("sound_manager_get_max_volume error");
+ MMRADIO_LOG_WARNING("failed to get max volume");
radio->max_media_volume = DEFAULT_MAX_MEDIA_VOLUME;
} else {
radio->max_media_volume = max;
ret = mm_sound_volume_get_value(VOLUME_TYPE_MEDIA, &volume);
if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_WARNING("failed to get MEDIA_VOLUME");
+ MMRADIO_LOG_WARNING("failed to get media volume");
MMRADIO_VOLUME_LOCK(radio);
radio->media_volume = volume;
ret = mm_sound_add_volume_changed_callback(__mmradio_volume_changed_cb, (void *)radio, &radio->volume_subs_id);
if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_WARNING("mm_sound_add_volume_changed_callback error");
+ MMRADIO_LOG_WARNING("failed to register volume changed callback");
MMRADIO_SET_STATE(radio, MM_RADIO_STATE_READY);
/*Stop radio if started*/
_mmradio_stop(radio);
- /* close radio device here !!!! */
- radio_hal_close(radio->hal_inf);
- radio_hal_unprepare(radio->hal_inf);
#ifdef TIZEN_FEATURE_SOUND_VSTREAM
- sound_manager_destroy_virtual_stream(radio->vstream);
- sound_manager_destroy_stream_information(radio->stream_info);
+ if (radio->vstream) {
+ sound_manager_destroy_virtual_stream(radio->vstream);
+ radio->vstream = NULL;
+ }
+ if (radio->stream_info) {
+ sound_manager_destroy_stream_information(radio->stream_info);
+ radio->stream_info = NULL;
+ }
#endif
- pthread_mutex_destroy(&radio->seek_cancel_mutex);
MMRADIO_SET_STATE(radio, MM_RADIO_STATE_NULL);
_mmradio_unrealize(radio);
- ret = radio_hal_interface_deinit(radio->hal_inf);
- if (ret) {
- MMRADIO_LOG_ERROR("mmradio hal interface deinit failed");
- return ret;
- }
+ /* destroy mutex and thread */
+ __mmradio_destroy_threads(radio);
- /* destroy command lock */
- ret = pthread_mutex_destroy(&radio->cmd_lock);
- if (ret) {
- MMRADIO_LOG_ERROR("mutex destroy failed\n");
- }
+ if (radio->msg_queue)
+ g_async_queue_unref(radio->msg_queue);
- ret = pthread_mutex_destroy(&radio->volume_lock);
+ ret = radio_hal_interface_deinit(radio->hal_inf);
if (ret) {
- MMRADIO_LOG_ERROR("volume mutex destroy failed\n");
+ MMRADIO_LOG_ERROR("failed to deinitialize radio hal interface");
+ return ret;
}
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
- ret = mmradio_sound_focus_deregister(&radio->sound_focus);
+ ret = mm_resource_manager_destroy(radio->resource_manager);
if (ret) {
- MMRADIO_LOG_ERROR("failed to deregister sound focus");
+ MMRADIO_LOG_ERROR("failed to destroy resource manager");
return MM_ERROR_RADIO_INTERNAL;
}
-#endif
+
MMRADIO_LOG_FLEAVE();
return MM_ERROR_NONE;
ret = radio_hal_set_frequency(radio->hal_inf, freq);
if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_set_frequency error");
+ MMRADIO_LOG_ERROR("failed to set radio hal frequency");
MMRADIO_LOG_FLEAVE();
return ret;
}
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_GET_FREQ);
- return_val_if_fail(pFreq, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(pFreq, MM_ERROR_INVALID_ARGUMENT);
ret = radio_hal_get_frequency(radio->hal_inf, &freq);
if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_get_frequency error");
+ MMRADIO_LOG_ERROR("failed to get radio hal frequency");
*pFreq = 0;
return ret;
}
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_mute is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_mute error");
+ MMRADIO_LOG_ERROR("failed to set radio hal mute");
MMRADIO_LOG_FLEAVE();
return ret;
}
- radio->is_muted = TRUE;
+ radio->is_muted = true;
MMRADIO_LOG_INFO("Radio mute state [%d]", radio->is_muted);
MMRADIO_LOG_FLEAVE();
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_unmute is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_unmute error");
+ MMRADIO_LOG_ERROR("failed to set radio hal unmute");
MMRADIO_LOG_FLEAVE();
return ret;
}
- radio->is_muted = FALSE;
+ radio->is_muted = false;
MMRADIO_LOG_INFO("Radio mute state [%d]", radio->is_muted);
MMRADIO_LOG_FLEAVE();
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE(radio);
- return_val_if_fail(pState, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(pState, MM_ERROR_INVALID_ARGUMENT);
state = __mmradio_get_state(radio);
MMRADIO_LOG_INFO("now tune to frequency : %d", radio->freq);
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
- if (radio->sound_focus.handle > 0) {
- ret = mmradio_acquire_sound_focus(&radio->sound_focus);
- if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("failed to set sound focus");
+ if (!radio->is_ready) {
+ ret = mm_resource_manager_mark_for_acquire(radio->resource_manager,
+ MM_RESOURCE_MANAGER_RES_TYPE_RADIO,
+ MM_RESOURCE_MANAGER_RES_VOLUME_FULL, &radio->radio_resource);
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("resource manager mark for acquire fail");
+ return MM_ERROR_RADIO_INTERNAL;
+ }
+
+ radio->interrupted_by_resource_conflict = FALSE;
+ ret = mm_resource_manager_commit(radio->resource_manager);
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to commit resource manager");
+ mm_resource_manager_mark_for_release(radio->resource_manager,
+ radio->radio_resource);
+ radio->radio_resource = NULL;
return ret;
}
- }
-#endif
- if (!radio->is_ready) {
ret = radio_hal_prepare(radio->hal_inf);
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_prepare is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_prepare_device error");
+ MMRADIO_LOG_ERROR("failed to prepare radio hal");
goto error2;
}
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_open is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_init error");
+ MMRADIO_LOG_ERROR("failed to open radio hal");
goto error1;
}
- radio->is_ready = TRUE;
+ radio->is_ready = true;
} else {
MMRADIO_LOG_DEBUG("radio prepared and opened");
}
ret = mm_sound_volume_get_value(VOLUME_TYPE_MEDIA, &volume);
if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_WARNING("failed to get MEDIA_VOLUME");
+ MMRADIO_LOG_WARNING("failed to get media volume");
ret = __mmradio_set_media_volume(radio, volume);
if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("failed to media volume");
+ MMRADIO_LOG_ERROR("failed to set media volume");
goto error1;
}
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_start is not supported");
} else if (ret) {
- MMRADIO_LOG_ERROR("failed to radio_hal_start");
+ MMRADIO_LOG_ERROR("failed to start radio hal");
goto error1;
}
/* set stored frequency */
ret = radio_hal_set_frequency(radio->hal_inf, radio->freq);
if (ret) {
- MMRADIO_LOG_ERROR("failed to radio_hal_set_frequency");
+ MMRADIO_LOG_ERROR("failed to set radio hal frequency");
goto error1;
}
#ifdef TIZEN_FEATURE_SOUND_VSTREAM
ret = sound_manager_start_virtual_stream(radio->vstream);
if (ret) {
- MMRADIO_LOG_ERROR("failed to sound_manager_start_virtual_stream");
- goto error;
+ MMRADIO_LOG_ERROR("failed to start sound manager virtual stream");
+ goto error1;
}
#endif
return MM_ERROR_NONE;
-#ifdef TIZEN_FEATURE_SOUND_VSTREAM
-error:
- sound_manager_stop_virtual_stream(radio->vstream);
-#endif
error1:
radio_hal_close(radio->hal_inf);
error2:
radio_hal_unprepare(radio->hal_inf);
- radio->is_ready = FALSE;
+ radio->is_ready = false;
return ret;
}
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_STOP);
- radio->seek_unmute = FALSE;
/*cancel if any seek*/
_mmradio_seek_cancel(radio);
#ifdef TIZEN_FEATURE_SOUND_VSTREAM
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_unmute is not supported");
} else if (ret) {
- MMRADIO_LOG_ERROR("failed to radio_hal_stop");
+ MMRADIO_LOG_ERROR("failed to stop radio hal");
return ret;
}
- /* close radio device here !!!! */
- ret = radio_hal_close(radio->hal_inf);
- if (ret == MM_ERROR_NOT_SUPPORT_API) {
- MMRADIO_LOG_WARNING("radio_hal_close is not supported");
- } else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_close_device error");
- return ret;
- }
+ if (radio->is_ready) {
+ /* close radio device here !!!! */
+ ret = radio_hal_close(radio->hal_inf);
+ if (ret == MM_ERROR_NOT_SUPPORT_API) {
+ MMRADIO_LOG_WARNING("radio_hal_close is not supported");
+ } else if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to close radio hal");
+ return ret;
+ }
- ret = radio_hal_unprepare(radio->hal_inf);
- if (ret == MM_ERROR_NOT_SUPPORT_API) {
- MMRADIO_LOG_WARNING("radio_hal_unprepare is not supported");
- } else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_close_device error");
- return ret;
- }
+ ret = radio_hal_unprepare(radio->hal_inf);
+ if (ret == MM_ERROR_NOT_SUPPORT_API) {
+ MMRADIO_LOG_WARNING("radio_hal_unprepare is not supported");
+ } else if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to unprepare radio hal");
+ return ret;
+ }
- radio->is_ready = FALSE;
+ if (!radio->interrupted_by_resource_conflict && /* is being released */
+ radio->radio_resource != NULL) {
+ ret = mm_resource_manager_mark_for_release(radio->resource_manager,
+ radio->radio_resource);
+ radio->radio_resource = NULL;
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to mark resource for release, ret(0x%x)", ret);
+ return ret;
+ }
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
- if (radio->sound_focus.handle > 0) {
- ret = mmradio_release_sound_focus(&radio->sound_focus);
- if (ret) {
- MMRADIO_LOG_ERROR("mmradio_release_audio_focus is failed");
- return ret;
+ ret = mm_resource_manager_commit(radio->resource_manager);
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE)
+ MMRADIO_LOG_ERROR("resource manager commit fail");
}
+
+ radio->is_ready = false;
}
-#endif
+
MMRADIO_SET_STATE(radio, MM_RADIO_STATE_READY);
MMRADIO_LOG_FLEAVE();
int _mmradio_seek(mm_radio_t *radio, MMRadioSeekDirectionType direction)
{
int ret = MM_ERROR_NONE;
+ MMRadioThread_t *p_thread = NULL;
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_SEEK);
- if (radio->is_seeking) {
+ p_thread = &radio->thread[MM_RADIO_THREAD_SEEK];
+ MMRADIO_CHECK_ARG(p_thread);
+
+ if (p_thread->is_running) {
MMRADIO_LOG_ERROR("[RADIO_ERROR_INVALID_OPERATION]radio is seeking, can't serve another request try again");
return MM_ERROR_RADIO_INTERNAL;
}
- radio->seek_unmute = FALSE;
- radio->is_seeking = TRUE;
- radio->seek_cancel = FALSE;
+ radio->seek_unmute = false;
if (!radio->is_muted) {
ret = radio_hal_mute(radio->hal_inf);
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_mute is not supported");
} else if (ret) {
- MMRADIO_LOG_ERROR("failed to radio_hal_mute");
+ MMRADIO_LOG_ERROR("failed to set radio hal mute");
return ret;
}
- radio->seek_unmute = TRUE;
+ radio->seek_unmute = true;
}
MMRADIO_LOG_INFO("trying to seek. direction[0:UP/1:DOWN) %d", direction);
radio->seek_direction = direction;
+ p_thread->is_running = true;
+ p_thread->stop = false;
- ret = pthread_create(&radio->seek_thread, NULL, (void *)__mmradio_seek_thread, (void *)radio);
-
- if (ret) {
- MMRADIO_LOG_DEBUG("failed create thread");
- radio->is_seeking = FALSE;
- radio->seek_cancel = TRUE;
- if (radio->seek_unmute) {
- ret = radio_hal_mute(radio->hal_inf);
- if (ret == MM_ERROR_NOT_SUPPORT_API) {
- MMRADIO_LOG_WARNING("radio_hal_mute is not supported");
- } else if (ret) {
- MMRADIO_LOG_ERROR("failed to radio_hal_mute");
- radio->seek_unmute = FALSE;
- return ret;
- }
- }
- return MM_ERROR_RADIO_INTERNAL;
- }
+ MMRADIO_THREAD_SIGNAL(p_thread);
MMRADIO_LOG_FLEAVE();
void _mmradio_seek_cancel(mm_radio_t *radio)
{
- int ret = MM_ERROR_NONE;
- char str_error[READ_MAX_BUFFER_SIZE];
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
- /*cancel any outstanding seek request*/
- radio->seek_cancel = TRUE;
- if (radio->seek_thread) {
- ret = pthread_mutex_trylock(&radio->seek_cancel_mutex);
- MMRADIO_LOG_DEBUG("try lock ret: %s (%d)", strerror_r(ret, str_error, sizeof(str_error)), ret);
- if (ret == EBUSY) { /* it was already locked by other */
- MMRADIO_LOG_WARNING("send SEEK ABORT with FMRX_PROPERTY_SEARCH_ABORT");
- } else if (ret == 0) {
- MMRADIO_LOG_INFO("trylock is successful. unlock now");
- pthread_mutex_unlock(&radio->seek_cancel_mutex);
- } else {
- MMRADIO_LOG_ERROR("trylock is failed but Not EBUSY. ret: %d", ret);
- }
- MMRADIO_LOG_DEBUG("pthread_join seek_thread");
- pthread_join(radio->seek_thread, NULL);
- MMRADIO_LOG_DEBUG("done");
- radio->is_seeking = FALSE;
- radio->seek_thread = 0;
- }
+ /* cancel any outstanding seek request */
+ radio->thread[MM_RADIO_THREAD_SEEK].stop = true;
+
MMRADIO_LOG_FLEAVE();
}
-
int _mmradio_start_scan(mm_radio_t *radio)
{
int ret = MM_ERROR_NONE;
+ MMRadioThread_t *p_thread = NULL;;
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_START_SCAN);
- int scan_tr_id = 0;
+ p_thread = &radio->thread[MM_RADIO_THREAD_SCAN];
+ MMRADIO_CHECK_ARG(p_thread);
- radio->stop_scan = false;
+ p_thread->stop = false;
if (!radio->is_ready) {
+ ret = mm_resource_manager_mark_for_acquire(radio->resource_manager,
+ MM_RESOURCE_MANAGER_RES_TYPE_RADIO,
+ MM_RESOURCE_MANAGER_RES_VOLUME_FULL, &radio->radio_resource);
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("resource manager mark for acquire fail");
+ return MM_ERROR_RADIO_INTERNAL;
+ }
+
+ radio->interrupted_by_resource_conflict = FALSE;
+ ret = mm_resource_manager_commit(radio->resource_manager);
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to commit resource manager");
+ mm_resource_manager_mark_for_release(radio->resource_manager,
+ radio->radio_resource);
+ radio->radio_resource = NULL;
+ return ret;
+ }
+
ret = radio_hal_prepare(radio->hal_inf);
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_prepare is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_prepare_device error");
+ MMRADIO_LOG_ERROR("failed to prepare radio hal");
return ret;
}
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_open is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_init error");
+ MMRADIO_LOG_ERROR("failed to open radio hal");
MMRADIO_LOG_FLEAVE();
return ret;
}
- radio->is_ready = TRUE;
+ radio->is_ready = true;
} else {
MMRADIO_LOG_DEBUG("radio prepared and opened");
}
- scan_tr_id = pthread_create(&radio->scan_thread, NULL, (void *)__mmradio_scan_thread, (void *)radio);
+ p_thread->is_running = true;
- if (scan_tr_id != 0) {
- MMRADIO_LOG_ERROR("failed to create thread : scan");
- return MM_ERROR_RADIO_NOT_INITIALIZED;
- }
+ MMRADIO_THREAD_SIGNAL(p_thread);
MMRADIO_SET_STATE(radio, MM_RADIO_STATE_SCANNING);
int _mmradio_stop_scan(mm_radio_t *radio)
{
- int ret = 0;
- char str_error[READ_MAX_BUFFER_SIZE];
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_STOP_SCAN);
- radio->stop_scan = true;
-
- if (radio->scan_thread > 0) {
- /* make sure all the search is stopped else we'll wait till search finish which is not ideal*/
- ret = pthread_mutex_trylock(&radio->seek_cancel_mutex);
- MMRADIO_LOG_DEBUG("try lock ret: %s (%d)", strerror_r(ret, str_error, sizeof(str_error)), ret);
- if (ret == EBUSY) { /* it was already locked by other */
- MMRADIO_LOG_WARNING("send SEEK ABORT with FMRX_PROPERTY_SEARCH_ABORT");
- } else if (ret == 0) {
- MMRADIO_LOG_INFO("trylock is successful. unlock now");
- pthread_mutex_unlock(&radio->seek_cancel_mutex);
- } else {
- MMRADIO_LOG_ERROR("trylock is failed but Not EBUSY. ret: %d", ret);
- }
- MMRADIO_LOG_DEBUG("pthread_join scan_thread");
- pthread_join(radio->scan_thread, NULL);
- radio->scan_thread = 0;
- }
+ radio->thread[MM_RADIO_THREAD_SCAN].stop = true;
MMRADIO_LOG_FLEAVE();
int _mm_radio_get_signal_strength(mm_radio_t *radio, int *value)
{
int ret = MM_ERROR_NONE;
- uint32_t strength = 0;
+ int32_t strength = 0;
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE(radio);
- return_val_if_fail(value, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(value, MM_ERROR_INVALID_ARGUMENT);
/* just return stored frequency if radio device is not ready */
ret = radio_hal_get_signal_strength(radio->hal_inf, &strength);
if (ret == MM_ERROR_NOT_SUPPORT_API) {
MMRADIO_LOG_WARNING("radio_hal_unmute is not supported");
} else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_get_signal_strength error");
+ MMRADIO_LOG_ERROR("failed to get radio hal signal strength");
*value = 0;
MMRADIO_LOG_FLEAVE();
return ret;
int ret = MM_ERROR_NONE;
int prev_freq = 0;
+ MMRadioThread_t *p_thread = NULL;
+
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
- ret = radio_hal_mute(radio->hal_inf);
-
- if (ret == MM_ERROR_NOT_SUPPORT_API) {
- MMRADIO_LOG_WARNING("radio_hal_mute is not supported");
- } else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_mute error");
- goto FINISHED;
- }
- ret = radio_hal_set_frequency(radio->hal_inf, radio->region_setting.band_min);
+ p_thread = &radio->thread[MM_RADIO_THREAD_SCAN];
+ MMRADIO_CHECK_ARG_RETURN_VOID(p_thread);
- if (ret != MM_ERROR_NONE)
- goto FINISHED;
+ MMRADIO_THREAD_LOCK(p_thread);
+ MMRADIO_THREAD_SIGNAL(p_thread);
+ MMRADIO_THREAD_UNLOCK(p_thread);
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_START, NULL);
- MMRADIO_SET_STATE(radio, MM_RADIO_STATE_SCANNING);
+ MMRADIO_THREAD_LOCK(p_thread);
- while (!radio->stop_scan) {
- uint32_t freq = 0;
- MMMessageParamType param = { 0, };
+ while (!p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("scan thread started. waiting for signal.");
+ MMRADIO_THREAD_WAIT(p_thread);
- MMRADIO_LOG_DEBUG("scanning....");
-
- pthread_mutex_lock(&radio->seek_cancel_mutex);
+ if (p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("exiting scan thread");
+ goto EXIT;
+ }
- if (radio->stop_scan) {
- MMRADIO_LOG_INFO("scan was canceled");
- pthread_mutex_unlock(&radio->seek_cancel_mutex);
- goto FINISHED;
+ if (radio->old_state == MM_RADIO_STATE_PLAYING) {
+ ret = radio_hal_mute(radio->hal_inf);
+ if (ret == MM_ERROR_NOT_SUPPORT_API) {
+ MMRADIO_LOG_WARNING("radio_hal_mute is not supported");
+ } else if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("faied to set radio hal mute");
+ goto FINISHED;
+ }
}
- ret = radio_hal_seek(radio->hal_inf, MM_RADIO_SEEK_UP);
+ ret = radio_hal_set_frequency(radio->hal_inf, radio->region_setting.band_min);
+ if (ret != MM_ERROR_NONE)
+ goto FINISHED;
- pthread_mutex_unlock(&radio->seek_cancel_mutex);
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_START, NULL);
+ MMRADIO_SET_STATE(radio, MM_RADIO_STATE_SCANNING);
- if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio scanning error");
- break;
- }
+ prev_freq = 0;
+ while (!p_thread->stop) {
+ uint32_t freq = 0;
- /* now we can get new frequency from radio device */
- if (radio->stop_scan)
- break;
+ MMRADIO_LOG_DEBUG("scanning....");
- ret = radio_hal_get_frequency(radio->hal_inf, &freq);
- if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("failed to get current frequency");
- } else {
- if (freq <= prev_freq) {
- MMRADIO_LOG_ERROR("frequency is less than previous [%d] -> [%d] we wrapped around, we are finished scanning", prev_freq, freq);
- break;
+ if (p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("exiting scan thread");
+ goto EXIT;
}
- prev_freq = param.radio_scan.frequency = (int)freq;
- MMRADIO_LOG_INFO("scanning : new frequency : [%d]", param.radio_scan.frequency);
+ if (p_thread->stop) {
+ MMRADIO_LOG_INFO("scan was canceled");
+ goto FINISHED;
+ }
- /* drop if max freq is scanned */
- if (param.radio_scan.frequency >= radio->region_setting.band_max) {
- MMRADIO_LOG_WARNING("%d freq is dropping...and stopping scan", param.radio_scan.frequency);
+ MMRADIO_HAL_SEEK_THREAD_LOCK(radio);
+ ret = radio_hal_seek(radio->hal_inf, MM_RADIO_SEEK_UP);
+ MMRADIO_HAL_SEEK_THREAD_UNLOCK(radio);
+ if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("radio scanning error");
break;
}
- if (radio->stop_scan) {
- /* doesn't need to post */
- break;
+ if (p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("exiting scan thread");
+ goto EXIT;
}
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_INFO, ¶m);
+ if (p_thread->stop) {
+ MMRADIO_LOG_INFO("scan was canceled");
+ goto FINISHED;
+ }
+
+ /* now we can get new frequency from radio device */
+ ret = radio_hal_get_frequency(radio->hal_inf, &freq);
+ if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to get current frequency");
+ } else {
+ if (freq <= prev_freq) {
+ MMRADIO_LOG_ERROR("frequency is less than previous [%d] -> [%d] we wrapped around, we are finished scanning", prev_freq, freq);
+ break;
+ }
+
+ prev_freq = (int)freq;
+ MMRADIO_LOG_INFO("scanning : new frequency : [%d]", prev_freq);
+
+ /* drop if max freq is scanned */
+ if (prev_freq >= radio->region_setting.band_max) {
+ MMRADIO_LOG_WARNING("%d freq is dropping...and stopping scan", prev_freq);
+ break;
+ }
+
+ if (p_thread->stop) {
+ /* doesn't need to post */
+ break;
+ }
+
+ __mmradio_msg_push(radio, MM_RADIO_MSG_SCAN_INFO, freq);
+ }
}
- }
+
FINISHED:
- if (radio->old_state == MM_RADIO_STATE_READY) {
- MMRADIO_LOG_DEBUG("old state is ready");
- } else if (radio->old_state == MM_RADIO_STATE_PLAYING) {
- MMRADIO_LOG_DEBUG("old state is playing");
- ret = radio_hal_unmute(radio->hal_inf);
- if (ret == MM_ERROR_NOT_SUPPORT_API) {
- MMRADIO_LOG_WARNING("radio_hal_unmute is not supported");
- } else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_unmute error");
- goto FINISHED_ERR;
- }
- ret = radio_hal_set_frequency(radio->hal_inf, prev_freq);
- if (ret == MM_ERROR_NOT_SUPPORT_API) {
- MMRADIO_LOG_WARNING("radio_hal_set_frequency is not supported");
- } else if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_set_frequency error");
- goto FINISHED_ERR;
+ if (radio->old_state == MM_RADIO_STATE_READY) {
+ MMRADIO_LOG_DEBUG("old state is ready");
+ } else if (radio->old_state == MM_RADIO_STATE_PLAYING) {
+ MMRADIO_LOG_DEBUG("old state is playing");
+ ret = radio_hal_unmute(radio->hal_inf);
+ if (ret == MM_ERROR_NOT_SUPPORT_API) {
+ MMRADIO_LOG_WARNING("radio_hal_unmute is not supported");
+ } else if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to set radio hal unmute");
+ goto FINISHED_ERR;
+ }
+ ret = radio_hal_set_frequency(radio->hal_inf, prev_freq);
+ if (ret == MM_ERROR_NOT_SUPPORT_API) {
+ MMRADIO_LOG_WARNING("radio_hal_set_frequency is not supported");
+ } else if (ret != MM_ERROR_NONE) {
+ MMRADIO_LOG_ERROR("failed to set radio hal frequency");
+ goto FINISHED_ERR;
+ }
}
- }
FINISHED_ERR:
+ if (radio->old_state == MM_RADIO_STATE_PLAYING) {
+ MMRADIO_SET_STATE(radio, MM_RADIO_STATE_PLAYING);
+ } else {
+ /* close radio device here !!!! */
+ if (radio->is_ready) {
+ ret = radio_hal_close(radio->hal_inf);
+ if (ret == MM_ERROR_NOT_SUPPORT_API)
+ MMRADIO_LOG_WARNING("radio_hal_close is not supported");
+ else if (ret != MM_ERROR_NONE)
+ MMRADIO_LOG_ERROR("failed to close radio hal");
+
+ ret = radio_hal_unprepare(radio->hal_inf);
+ if (ret == MM_ERROR_NOT_SUPPORT_API)
+ MMRADIO_LOG_WARNING("radio_hal_unprepare is not supported");
+ else if (ret != MM_ERROR_NONE)
+ MMRADIO_LOG_ERROR("failed to unprepare radio hal");
+
+ if (!radio->interrupted_by_resource_conflict && /* is being released */
+ radio->radio_resource != NULL) {
+ ret = mm_resource_manager_mark_for_release(radio->resource_manager,
+ radio->radio_resource);
+ radio->radio_resource = NULL;
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE)
+ MMRADIO_LOG_ERROR("failed to mark resource for release, ret(0x%x)", ret);
+ }
+
+ ret = mm_resource_manager_commit(radio->resource_manager);
+ if (ret != MM_RESOURCE_MANAGER_ERROR_NONE)
+ MMRADIO_LOG_ERROR("resource manager commit fail");
+ radio->is_ready = false;
+ }
+ MMRADIO_SET_STATE(radio, MM_RADIO_STATE_READY);
+ }
- radio->scan_thread = 0;
-
- if (radio->old_state == MM_RADIO_STATE_PLAYING) {
- MMRADIO_SET_STATE(radio, MM_RADIO_STATE_PLAYING);
- } else {
- /* close radio device here !!!! */
- ret = radio_hal_close(radio->hal_inf);
- if (ret == MM_ERROR_NOT_SUPPORT_API)
- MMRADIO_LOG_WARNING("radio_hal_close is not supported");
- else if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_ERROR("radio_hal_close_device error");
+ if (!p_thread->stop)
+ __mmradio_msg_push(radio, MM_RADIO_MSG_SCAN_FINISHED, 0);
+ else
+ __mmradio_msg_push(radio, MM_RADIO_MSG_SCAN_STOPPED, 0);
- ret = radio_hal_unprepare(radio->hal_inf);
- if (ret == MM_ERROR_NOT_SUPPORT_API)
- MMRADIO_LOG_WARNING("radio_hal_unprepare is not supported");
- else if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_ERROR("radio_hal_close_device error");
+ p_thread->is_running = false;
- radio->is_ready = FALSE;
-
- MMRADIO_SET_STATE(radio, MM_RADIO_STATE_READY);
}
- if (!radio->stop_scan)
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_FINISH, NULL);
- else
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_STOP, NULL);
+EXIT:
+ p_thread->is_running = false;
+
+ MMRADIO_THREAD_UNLOCK(p_thread);
MMRADIO_LOG_FLEAVE();
pthread_exit(NULL);
- return;
}
bool __is_tunable_frequency(mm_radio_t *radio, int freq)
{
int ret = MM_ERROR_NONE;
uint32_t freq = 0;
- MMMessageParamType param = {0, };
+ MMRadioThread_t *p_thread = NULL;
MMRADIO_LOG_FENTER();
MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SEEK_START, NULL);
+ p_thread = &radio->thread[MM_RADIO_THREAD_SEEK];
+ MMRADIO_CHECK_ARG_RETURN_VOID(p_thread);
- MMRADIO_LOG_DEBUG("seeking....");
+ MMRADIO_THREAD_LOCK(p_thread);
+ MMRADIO_THREAD_SIGNAL(p_thread);
+ MMRADIO_THREAD_UNLOCK(p_thread);
- if (!radio->seek_cancel) {
+ MMRADIO_THREAD_LOCK(p_thread);
- MMRADIO_LOG_DEBUG("try to seek ");
- pthread_mutex_lock(&radio->seek_cancel_mutex);
- MMRADIO_LOG_DEBUG("seek start");
+ while (!p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("seek thread started. waiting for signal.");
+ MMRADIO_THREAD_WAIT(p_thread);
+
+ if (p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("exiting seek thread");
+ goto EXIT;
+ }
- if (radio->seek_cancel) {
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SEEK_START, NULL);
+ MMRADIO_LOG_DEBUG("seeking....");
+
+ if (p_thread->stop) {
MMRADIO_LOG_INFO("seek was canceled so we return failure to application");
- pthread_mutex_unlock(&radio->seek_cancel_mutex);
goto SEEK_FAILED;
}
-
+ freq = 0;
+ MMRADIO_LOG_DEBUG("try to seek ");
+ MMRADIO_HAL_SEEK_THREAD_LOCK(radio);
+ MMRADIO_LOG_DEBUG("seek start");
ret = radio_hal_seek(radio->hal_inf, radio->seek_direction);
- pthread_mutex_unlock(&radio->seek_cancel_mutex);
+ MMRADIO_HAL_SEEK_THREAD_UNLOCK(radio);
if (ret) {
- MMRADIO_LOG_ERROR("radio_hal_seek failed");
+ MMRADIO_LOG_ERROR("failed to seek radio hal");
+ goto SEEK_FAILED;
+ }
+
+ if (p_thread->thread_exit) {
+ MMRADIO_LOG_DEBUG("exiting seek thread");
+ goto EXIT;
+ }
+
+ if (p_thread->stop) {
+ MMRADIO_LOG_INFO("seek was canceled so we return failure to application");
goto SEEK_FAILED;
}
MMRADIO_LOG_ERROR("failed to tune to new frequency");
goto SEEK_FAILED;
}
+ radio->freq = (int)freq;
+ MMRADIO_LOG_WARNING("setting frequency : [%d]", radio->freq);
}
if (radio->seek_unmute) {
*/
ret = radio_hal_unmute(radio->hal_inf);
if (ret) {
- MMRADIO_LOG_ERROR("failed to tune to new frequency");
+ MMRADIO_LOG_ERROR("failed to set unmute radio hal");
goto SEEK_FAILED;
}
- radio->seek_unmute = FALSE;
+ radio->seek_unmute = false;
}
- param.radio_scan.frequency = radio->prev_seek_freq = (int)freq;
- MMRADIO_LOG_INFO("seeking : new frequency : [%d]", param.radio_scan.frequency);
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SEEK_FINISH, ¶m);
- }
-
- radio->seek_thread = 0;
- radio->is_seeking = FALSE;
-
- MMRADIO_LOG_FLEAVE();
-
- pthread_exit(NULL);
- return;
+ radio->prev_seek_freq = (int)freq;
+ MMRADIO_LOG_INFO("seeking : new frequency : [%d]", (int) freq);
+ __mmradio_msg_push(radio, MM_RADIO_MSG_SEEK_FINISHED, freq);
+ p_thread->is_running = false;
+ continue;
SEEK_FAILED:
-
- if (radio->seek_unmute) {
- /* now turn on radio
- * In the case of limit freq, tuner should be unmuted.
- * Otherwise, sound can't output even though application set new frequency.
- */
- ret = radio_hal_unmute(radio->hal_inf);
- if (ret)
- MMRADIO_LOG_ERROR("failed to tune to new frequency");
- radio->seek_unmute = FALSE;
+ if (radio->seek_unmute) {
+ /* now turn on radio
+ * In the case of limit freq, tuner should be unmuted.
+ * Otherwise, sound can't output even though application set new frequency.
+ */
+ ret = radio_hal_unmute(radio->hal_inf);
+ if (ret)
+ MMRADIO_LOG_ERROR("failed to set unmute radio hal");
+ radio->seek_unmute = false;
+ }
+ /* freq -1 means it's failed to seek */
+ __mmradio_msg_push(radio, MM_RADIO_MSG_SEEK_FINISHED, -1);
+ p_thread->is_running = false;
}
- /* freq -1 means it's failed to seek */
- param.radio_scan.frequency = -1;
- MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SEEK_FINISH, ¶m);
- radio->is_seeking = FALSE;
+
+EXIT:
+ p_thread->is_running = false;
+ MMRADIO_THREAD_UNLOCK(p_thread);
+ MMRADIO_LOG_FLEAVE();
pthread_exit(NULL);
- return;
}
static bool __mmradio_post_message(mm_radio_t *radio, enum MMMessageType msgtype, MMMessageParamType *param)
MMRADIO_LOG_FENTER();
if (!radio->msg_cb) {
- MMRADIO_LOG_WARNING("failed to post a message");
+ MMRADIO_LOG_WARNING("failed to post a message because msg cb didn't register");
return false;
}
radio->current_state = new_state;
/* fill message param */
+ msg.union_type = MM_MSG_UNION_STATE;
msg.state.previous = radio->old_state;
msg.state.current = radio->current_state;
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
- /* post message to application */
- switch (radio->sound_focus.by_focus_cb) {
- case MMRADIO_FOCUS_CB_NONE:
- {
- msg_type = MM_MESSAGE_STATE_CHANGED;
- MMRADIO_POST_MSG(radio, msg_type, &msg);
- }
- break;
-
- case MMRADIO_FOCUS_CB_POSTMSG:
- {
- msg_type = MM_MESSAGE_STATE_INTERRUPTED;
- msg.union_type = MM_MSG_UNION_CODE;
- msg.code = radio->sound_focus.event_src;
- MMRADIO_POST_MSG(radio, msg_type, &msg);
- }
- break;
-
- case MMRADIO_FOCUS_CB_SKIP_POSTMSG:
- default:
- break;
+ if (radio->interrupted_by_resource_conflict) {
+ __mmradio_msg_push(radio, MM_RADIO_MSG_STATE_INTERRUPTED,
+ MM_MSG_CODE_INTERRUPTED_BY_RESOURCE_CONFLICT);
+ } else {
+ msg_type = MM_MESSAGE_STATE_CHANGED;
+ MMRADIO_POST_MSG(radio, msg_type, &msg);
}
-#else
- msg_type = MM_MESSAGE_STATE_CHANGED;
- MMRADIO_POST_MSG(radio, msg_type, &msg);
-#endif
MMRADIO_LOG_FLEAVE();
return radio->current_state;
}
-#ifdef TIZEN_FEATURE_SOUND_FOCUS
-static void __mmradio_sound_focus_cb(int id, mm_sound_focus_type_e focus_type,
- mm_sound_focus_state_e focus_state, const char *reason_for_change, int option,
- const char *additional_info, void *user_data)
-{
- mm_radio_t *radio = (mm_radio_t *)user_data;
- enum MMMessageInterruptedCode event_source;
- int result = MM_ERROR_NONE;
- int postMsg = false;
-
- MMRADIO_LOG_FENTER();
- MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
- MMRADIO_LOG_INFO("focus_state [%d]", focus_state);
-
- mmradio_get_sound_focus_reason(focus_state, reason_for_change, FALSE, &event_source, &postMsg);
- radio->sound_focus.event_src = event_source;
-
- switch (focus_state) {
- case FOCUS_IS_RELEASED:{
- radio->sound_focus.cur_focus_type &= ~focus_type;
- radio->sound_focus.by_focus_cb = MMRADIO_FOCUS_CB_POSTMSG;
-
- result = _mmradio_stop(radio);
- if (result)
- MMRADIO_LOG_ERROR("failed to stop radio");
-
- radio->sound_focus.by_focus_cb = MMRADIO_FOCUS_CB_NONE;
-
- MMRADIO_LOG_DEBUG("FOCUS_IS_RELEASED cur_focus_type : %d", radio->sound_focus.cur_focus_type);
- }
- break;
-
- case FOCUS_IS_ACQUIRED:{
- MMMessageParamType msg = { 0, };
- msg.union_type = MM_MSG_UNION_CODE;
- msg.code = event_source;
-
- radio->sound_focus.cur_focus_type |= focus_type;
-
- if ((postMsg) && (FOCUS_FOR_BOTH == radio->sound_focus.cur_focus_type))
- MMRADIO_POST_MSG(radio, MM_MESSAGE_READY_TO_RESUME, &msg);
-
- radio->sound_focus.by_focus_cb = MMRADIO_FOCUS_CB_NONE;
-
- MMRADIO_LOG_DEBUG("FOCUS_IS_ACQUIRED cur_focus_type : %d", radio->sound_focus.cur_focus_type);
- }
- break;
-
- default:
- MMRADIO_LOG_DEBUG("Unknown focus_state");
- break;
- }
-
- MMRADIO_LOG_FLEAVE();
-}
-
-static void __mmradio_sound_focus_watch_cb(int id, mm_sound_focus_type_e focus_type,
- mm_sound_focus_state_e focus_state, const char *reason_for_change,
- const char *additional_info, void *user_data)
-{
- mm_radio_t *radio = (mm_radio_t *)user_data;
- enum MMMessageInterruptedCode event_source;
- int result = MM_ERROR_NONE;
- int postMsg = false;
-
- MMRADIO_LOG_FENTER();
- MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
- MMRADIO_LOG_INFO("focus_state [%d]", focus_state);
-
- mmradio_get_sound_focus_reason(focus_state, reason_for_change, TRUE, &event_source, &postMsg);
- radio->sound_focus.event_src = event_source;
-
- switch (focus_state) {
- case FOCUS_IS_ACQUIRED: {
- radio->sound_focus.cur_focus_type &= ~focus_type;
- radio->sound_focus.by_focus_cb = MMRADIO_FOCUS_CB_POSTMSG;
-
- result = _mmradio_stop(radio);
- if (result)
- MMRADIO_LOG_ERROR("failed to stop radio");
- radio->sound_focus.by_focus_cb = MMRADIO_FOCUS_CB_NONE;
-
- MMRADIO_LOG_DEBUG("FOCUS_IS_RELEASED cur_focus_type : %d\n", radio->sound_focus.cur_focus_type);
- }
- break;
-
- case FOCUS_IS_RELEASED: {
- MMMessageParamType msg = { 0, };
- msg.union_type = MM_MSG_UNION_CODE;
- msg.code = event_source;
-
- radio->sound_focus.cur_focus_type |= focus_type;
-
- if ((postMsg) && (FOCUS_FOR_BOTH == radio->sound_focus.cur_focus_type))
- MMRADIO_POST_MSG(radio, MM_MESSAGE_READY_TO_RESUME, &msg);
-
- radio->sound_focus.by_focus_cb = MMRADIO_FOCUS_CB_NONE;
-
- MMRADIO_LOG_DEBUG("FOCUS_IS_ACQUIRED cur_focus_type : %d", radio->sound_focus.cur_focus_type);
- }
- break;
-
- default:
- MMRADIO_LOG_DEBUG("Unknown focus_state");
- break;
- }
-
- MMRADIO_LOG_FLEAVE();
-}
-#endif
-
static void __mmradio_volume_changed_cb(volume_type_t type, unsigned int volume, void *user_data)
{
mm_radio_t *radio = (mm_radio_t *)user_data;
MMRADIO_LOG_INFO("Change FM Radio volume to %d", volume);
ret = __mmradio_set_media_volume(radio, volume);
if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_ERROR("__mmradio_set_media_volume error");
+ MMRADIO_LOG_ERROR("failed to set media volume");
return;
}
}
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_GET_REGION);
- return_val_if_fail(type, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(type, MM_ERROR_INVALID_ARGUMENT);
*type = radio->region_setting.country;
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_GET_REGION);
- return_val_if_fail(min_freq && max_freq, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(min_freq && max_freq, MM_ERROR_INVALID_ARGUMENT);
*min_freq = radio->region_setting.band_min;
*max_freq = radio->region_setting.band_max;
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_GET_REGION);
- return_val_if_fail(ch_spacing, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(ch_spacing, MM_ERROR_INVALID_ARGUMENT);
*ch_spacing = radio->region_setting.channel_spacing;
ret = radio_hal_set_volume(radio->hal_inf, volume);
if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_ERROR("radio_hal_set_volume error");
+ MMRADIO_LOG_ERROR("failed to set radio hal volume");
MMRADIO_LOG_FLEAVE();
MMRADIO_CHECK_INSTANCE(radio);
MMRADIO_CHECK_STATE_RETURN_IF_FAIL(radio, MMRADIO_COMMAND_GET_VOLUME);
- return_val_if_fail(pVolume, MM_ERROR_INVALID_ARGUMENT);
+ MMRADIO_RETURN_VAL_IF_FAIL(pVolume, MM_ERROR_INVALID_ARGUMENT);
ret = radio_hal_get_volume(radio->hal_inf, &volume);
if (ret != MM_ERROR_NONE) {
- MMRADIO_LOG_ERROR("radio_hal_get_volume error");
+ MMRADIO_LOG_ERROR("failed to get radio hal volume");
*pVolume = 0;
return ret;
}
ret = radio_hal_set_media_volume(radio->hal_inf, level);
if (ret != MM_ERROR_NONE)
- MMRADIO_LOG_ERROR("radio_hal_set_media_volume error");
+ MMRADIO_LOG_ERROR("failed to set radio hal media volume");
MMRADIO_LOG_FLEAVE();
return ret;
}
+static int __resource_release_cb(mm_resource_manager_h rm,
+ mm_resource_manager_res_h res, void *user_data)
+{
+ mm_radio_t *radio = NULL;
+
+ MMRADIO_LOG_FENTER();
+
+ if (!user_data) {
+ MMRADIO_LOG_ERROR("user_data is null");
+ return FALSE;
+ }
+
+ radio = (mm_radio_t *)user_data;
+ radio->radio_resource = NULL;
+
+ MMRADIO_LOG_DEBUG("radio resource conflict so, resource will be freed by _mmradio_stop");
+
+ radio->interrupted_by_resource_conflict = TRUE;
+
+ MMRADIO_CMD_LOCK(radio);
+ if (_mmradio_stop(radio) != MM_ERROR_NONE)
+ MMRADIO_LOG_ERROR("failed to stop radio");
+ MMRADIO_CMD_UNLOCK(radio);
+
+ MMRADIO_LOG_FLEAVE();
+
+ return FALSE;
+}
+
+static int __mmradio_create_thread_type(mm_radio_t *radio, MMRadioThreadTypes type)
+{
+ MMRadioThread_t *p_thread = NULL;
+
+ MMRADIO_LOG_FENTER();
+
+ MMRADIO_CHECK_INSTANCE(radio);
+
+ if (type >= MM_RADIO_THREAD_NUM) {
+ MMRADIO_LOG_WARNING("wrong argument thread type");
+ return MM_ERROR_RADIO_INTERNAL;
+ }
+
+ p_thread = &radio->thread[type];
+ MMRADIO_CHECK_ARG(p_thread);
+
+ MMRADIO_INIT_MUTEX(p_thread->mutex);
+ MMRADIO_INIT_COND(p_thread->cond);
+
+ MMRADIO_THREAD_LOCK(p_thread);
+ p_thread->thread_id = pthread_create(&p_thread->thread, NULL,
+ (void *)__mmradio_thread_function[type], (void *)radio);
+ if (p_thread->thread_id) {
+ MMRADIO_LOG_DEBUG("failed to create thread : [%d]", type);
+ MMRADIO_THREAD_UNLOCK(p_thread);
+ return MM_ERROR_RADIO_INTERNAL;
+ }
+
+ MMRADIO_LOG_DEBUG("wait for [%d] thread", type);
+ MMRADIO_THREAD_WAIT(p_thread);
+ MMRADIO_LOG_DEBUG("[%d] thread started", type);
+ MMRADIO_THREAD_UNLOCK(p_thread);
+
+ return MM_ERROR_NONE;
+
+ERROR:
+ pthread_mutex_destroy(&p_thread->mutex);
+ pthread_cond_destroy(&p_thread->cond);
+ return MM_ERROR_RADIO_INTERNAL;
+
+}
+
+static int __mmradio_create_threads(mm_radio_t *radio)
+{
+ int ret = MM_ERROR_NONE;
+ int type = 0;
+
+ MMRADIO_LOG_FENTER();
+
+ MMRADIO_CHECK_INSTANCE(radio);
+
+ MMRADIO_INIT_MUTEX(radio->cmd_lock);
+ MMRADIO_INIT_MUTEX(radio->volume_lock);
+ MMRADIO_INIT_MUTEX(radio->hal_seek_mutex);
+
+ for (type = (int)MM_RADIO_THREAD_MSG; type < (int)MM_RADIO_THREAD_NUM; type++) {
+ ret = __mmradio_create_thread_type(radio, (MMRadioThreadTypes)type);
+ if (ret) {
+ MMRADIO_LOG_ERROR("failed to create thread(%d)", type);
+ while (--type >= (int)MM_RADIO_THREAD_MSG)
+ __mmradio_destroy_thread_type(radio, (MMRadioThreadTypes)type);
+ goto ERROR;
+ }
+ }
+
+ MMRADIO_LOG_FLEAVE();
+ return ret;
+
+ERROR:
+ pthread_mutex_destroy(&radio->cmd_lock);
+ pthread_mutex_destroy(&radio->volume_lock);
+ pthread_mutex_destroy(&radio->hal_seek_mutex);
+
+ MMRADIO_LOG_FLEAVE();
+ return MM_ERROR_RADIO_INTERNAL;
+}
+
+static void __mmradio_destroy_thread_type(mm_radio_t *radio, MMRadioThreadTypes type)
+{
+ MMRadioThread_t *p_thread = NULL;
+ mm_radio_msg_t *msg = NULL;
+ MMRADIO_LOG_FENTER();
+
+ MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
+
+ if (type >= MM_RADIO_THREAD_NUM) {
+ MMRADIO_LOG_WARNING("wrong argument thread type");
+ return;
+ }
+
+ p_thread = &radio->thread[type];
+ MMRADIO_CHECK_ARG_RETURN_VOID(p_thread);
+
+ if (p_thread->thread) {
+ switch (type) {
+ case MM_RADIO_THREAD_MSG:
+ msg = g_slice_new0(mm_radio_msg_t);
+ if (!msg) {
+ MMRADIO_LOG_ERROR("failed to get mm_radio_msg_t");
+ } else {
+ msg->msg_type = MM_RADIO_MSG_DESTROY;
+ g_async_queue_push_front(radio->msg_queue, msg);
+ pthread_join(p_thread->thread, NULL);
+ p_thread->thread = 0;
+ }
+ break;
+ case MM_RADIO_THREAD_SEEK:
+ case MM_RADIO_THREAD_SCAN:
+ MMRADIO_THREAD_LOCK(p_thread);
+ p_thread->thread_exit = true;
+ MMRADIO_THREAD_SIGNAL(p_thread);
+ MMRADIO_THREAD_UNLOCK(p_thread);
+ pthread_join(p_thread->thread, NULL);
+ p_thread->thread = 0;
+ break;
+ default:
+ MMRADIO_LOG_WARNING("(%d)type isn't handled", type);
+ break;
+ }
+ } else {
+ MMRADIO_LOG_WARNING("(%d)thread is zero", type);
+ }
+
+ pthread_mutex_destroy(&p_thread->mutex);
+ pthread_cond_destroy(&p_thread->cond);
+
+ MMRADIO_LOG_FLEAVE();
+}
+
+static void __mmradio_destroy_threads(mm_radio_t *radio)
+{
+ int type = (int)MM_RADIO_THREAD_NUM;
+ MMRADIO_LOG_FENTER();
+
+ MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
+
+ while (--type >= 0)
+ __mmradio_destroy_thread_type(radio, (MMRadioThreadTypes)type);
+
+ pthread_mutex_destroy(&radio->cmd_lock);
+ pthread_mutex_destroy(&radio->volume_lock);
+ pthread_mutex_destroy(&radio->hal_seek_mutex);
+
+ MMRADIO_LOG_FLEAVE();
+}
+
+void __mmradio_msg_push(mm_radio_t *radio, MMRadioMsgTypes msg_type, int msg_data)
+{
+ mm_radio_msg_t *msg = g_slice_new0(mm_radio_msg_t);
+ if (!msg) {
+ MMRADIO_LOG_ERROR("NULL msg pointer");
+ return;
+ }
+
+ msg->msg_type = msg_type;
+ msg->data = msg_data;
+
+ MMRADIO_LOG_INFO("push msg_type: %d, msg_data: %d", (int)msg->msg_type, msg->data);
+ g_async_queue_push(radio->msg_queue, msg);
+}
+
+void __mmradio_msg_thread(mm_radio_t *radio)
+{
+
+ mm_radio_msg_t *msg = NULL;
+ MMRadioThread_t *p_thread = NULL;
+
+ MMRADIO_LOG_FENTER();
+ MMRADIO_CHECK_INSTANCE_RETURN_VOID(radio);
+
+ p_thread = &radio->thread[MM_RADIO_THREAD_MSG];
+ MMRADIO_CHECK_ARG_RETURN_VOID(p_thread);
+
+ p_thread->thread_exit = false;
+
+
+ MMRADIO_THREAD_LOCK(p_thread);
+ MMRADIO_THREAD_SIGNAL(p_thread);
+ MMRADIO_THREAD_UNLOCK(p_thread);
+
+ /* we run a while one loop*/
+ while (!p_thread->thread_exit) {
+ msg = (mm_radio_msg_t *)g_async_queue_pop(radio->msg_queue);
+ if (!msg) {
+ MMRADIO_LOG_ERROR("poped message is NULL!");
+ break;
+ }
+
+ MMMessageParamType param = {0,};
+
+ switch (msg->msg_type) {
+ case MM_RADIO_MSG_DESTROY:
+ MMRADIO_LOG_INFO("get destroy msg. pop all event to finish this thread");
+ mm_radio_msg_t *msg_pop = NULL;
+ while ((msg_pop = (mm_radio_msg_t *)g_async_queue_try_pop(radio->msg_queue))) {
+ if (msg_pop != NULL) {
+ MMRADIO_LOG_DEBUG("drop this msg type: %d", msg_pop->msg_type);
+ g_slice_free(mm_radio_msg_t, msg_pop);
+ }
+ }
+ p_thread->thread_exit = true;
+ break;
+ case MM_RADIO_MSG_SCAN_INFO:
+ MMRADIO_LOG_INFO("get scan info frequency: %d", msg->data);
+ param.radio_scan.frequency = (int) msg->data;
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_INFO, ¶m);
+ break;
+ case MM_RADIO_MSG_SCAN_STOPPED:
+ MMRADIO_LOG_INFO("get scan stopped");
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_STOP, NULL);
+ break;
+ case MM_RADIO_MSG_SCAN_FINISHED:
+ MMRADIO_LOG_INFO("get scan finished");
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SCAN_FINISH, NULL);
+ break;
+ case MM_RADIO_MSG_SEEK_FINISHED:
+ MMRADIO_LOG_INFO("get seek finish frequency: %d", msg->data);
+ param.radio_scan.frequency = (int) msg->data;
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_RADIO_SEEK_FINISH, ¶m);
+ break;
+ case MM_RADIO_MSG_STATE_INTERRUPTED:
+ MMRADIO_LOG_INFO("get state interrupted type: %d", msg->data);
+ param.union_type = MM_MSG_UNION_STATE;
+ param.state.previous = radio->old_state;
+ param.state.current = radio->current_state;
+ param.state.code = msg->data;
+ MMRADIO_POST_MSG(radio, MM_MESSAGE_STATE_INTERRUPTED, ¶m);
+ break;
+ default:
+ MMRADIO_LOG_ERROR("wrong msg_type : %d", msg->msg_type);
+ break;
+ }
+
+ if (msg)
+ g_slice_free(mm_radio_msg_t, msg);
+
+ }
+
+ MMRADIO_LOG_INFO("msg thread is finished");
+ MMRADIO_LOG_FLEAVE();
+ pthread_exit(NULL);
+}