/*
-* Copyright (c) 2011 Samsung Electronics Co., Ltd All Rights Reserved
+* Copyright (c) 2015 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.
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
-* limitations under the License.
+* limitations under the License.
*/
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <mm.h>
-#include <glib.h>
-#include <audio_io_private.h>
+
+#include <cpp_audio_io.h>
#include <dlog.h>
#ifdef LOG_TAG
#endif
#define LOG_TAG "TIZEN_N_AUDIO_IO"
-/*
-* Internal Macros
-*/
-#define AUDIO_IO_CHECK_CONDITION(condition,error,msg) \
- if(condition) {} else \
- { LOGE("[%s] %s(0x%08x)",__FUNCTION__, msg,error); return error;}; \
-
-#define AUDIO_IO_NULL_ARG_CHECK(arg) \
- AUDIO_IO_CHECK_CONDITION(arg != NULL, AUDIO_IO_ERROR_INVALID_PARAMETER, "AUDIO_IO_ERROR_INVALID_PARAMETER" )
-
-/*
-* Internal Implementation
-*/
-static int __convert_error_code(int code, char *func_name)
-{
- int ret = AUDIO_IO_ERROR_NONE;
- char* msg = "AUDIO_IO_ERROR_NONE";
-
- switch(code)
- {
- case MM_ERROR_NONE:
- ret = AUDIO_IO_ERROR_NONE;
- msg = "AUDIO_IO_ERROR_NONE";
- break;
- case MM_ERROR_INVALID_ARGUMENT:
- case MM_ERROR_SOUND_DEVICE_INVALID_SAMPLERATE:
- case MM_ERROR_SOUND_DEVICE_INVALID_CHANNEL:
- case MM_ERROR_SOUND_DEVICE_INVALID_FORMAT:
- ret = AUDIO_IO_ERROR_INVALID_PARAMETER;
- msg = "AUDIO_IO_ERROR_INVALID_PARAMETER";
- break;
- case MM_ERROR_SOUND_DEVICE_NOT_OPENED:
- ret = AUDIO_IO_ERROR_DEVICE_NOT_OPENED;
- msg = "AUDIO_IO_ERROR_DEVICE_NOT_OPENED";
- break;
- case MM_ERROR_SOUND_INTERNAL:
- ret = AUDIO_IO_ERROR_DEVICE_NOT_CLOSED;
- msg = "AUDIO_IO_ERROR_DEVICE_NOT_CLOSED";
- break;
- case MM_ERROR_SOUND_INVALID_POINTER:
- ret = AUDIO_IO_ERROR_INVALID_BUFFER;
- msg = "AUDIO_IO_ERROR_INVALID_BUFFER";
- break;
- case MM_ERROR_POLICY_BLOCKED:
- case MM_ERROR_POLICY_INTERRUPTED:
- case MM_ERROR_POLICY_INTERNAL:
- case MM_ERROR_POLICY_DUPLICATED:
- ret = AUDIO_IO_ERROR_SOUND_POLICY;
- msg = "AUDIO_IO_ERROR_SOUND_POLICY";
- break;
- }
- LOGE("[%s] %s(0x%08x) : core fw error(0x%x)",func_name,msg, ret, code);
- return ret;
-}
-
-static int __check_parameter(int sample_rate, audio_channel_e channel, audio_sample_type_e type)
-{
- if(sample_rate<8000 || sample_rate > 48000) {
- LOGE("[%s] AUDIO_IO_ERROR_INVALID_PARAMETER(0x%08x) : Invalid sample rate (8000~48000Hz) : %d",__FUNCTION__, AUDIO_IO_ERROR_INVALID_PARAMETER,sample_rate);
- return AUDIO_IO_ERROR_INVALID_PARAMETER;
- }
- if (channel < AUDIO_CHANNEL_MONO || channel > AUDIO_CHANNEL_STEREO) {
- LOGE("[%s] AUDIO_IO_ERROR_INVALID_PARAMETER(0x%08x) : Invalid audio channel : %d",__FUNCTION__, AUDIO_IO_ERROR_INVALID_PARAMETER,channel);
- return AUDIO_IO_ERROR_INVALID_PARAMETER;
- }
- if (type < AUDIO_SAMPLE_TYPE_U8 || type > AUDIO_SAMPLE_TYPE_S16_LE) {
- LOGE("[%s] AUDIO_IO_ERROR_INVALID_PARAMETER(0x%08x) : Invalid sample typel : %d",__FUNCTION__, AUDIO_IO_ERROR_INVALID_PARAMETER,type);
- return AUDIO_IO_ERROR_INVALID_PARAMETER;
- }
- return AUDIO_IO_ERROR_NONE;
-}
-
-
-static audio_io_interrupted_code_e __translate_interrupted_code (int code)
-{
- audio_io_interrupted_code_e e = AUDIO_IO_INTERRUPTED_COMPLETED;
-
- switch(code)
- {
- case MM_MSG_CODE_INTERRUPTED_BY_ALARM_END:
- case MM_MSG_CODE_INTERRUPTED_BY_EMERGENCY_END:
- e = AUDIO_IO_INTERRUPTED_COMPLETED;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_MEDIA:
- case MM_MSG_CODE_INTERRUPTED_BY_OTHER_PLAYER_APP:
- e = AUDIO_IO_INTERRUPTED_BY_MEDIA;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_CALL_START:
- e = AUDIO_IO_INTERRUPTED_BY_CALL;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_EARJACK_UNPLUG:
- e = AUDIO_IO_INTERRUPTED_BY_EARJACK_UNPLUG;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_RESOURCE_CONFLICT:
- e = AUDIO_IO_INTERRUPTED_BY_RESOURCE_CONFLICT;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_ALARM_START:
- e = AUDIO_IO_INTERRUPTED_BY_ALARM;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_EMERGENCY_START:
- e = AUDIO_IO_INTERRUPTED_BY_EMERGENCY;
- break;
-
- case MM_MSG_CODE_INTERRUPTED_BY_RESUMABLE_MEDIA:
- e = AUDIO_IO_INTERRUPTED_BY_RESUMABLE_MEDIA;
- break;
- }
-
- return e;
-}
-
-static int __mm_sound_pcm_capture_msg_cb (int message, void *param, void *user_param)
-{
- audio_io_interrupted_code_e e = AUDIO_IO_INTERRUPTED_COMPLETED;
- audio_in_s *handle = (audio_in_s *) user_param;
- MMMessageParamType *msg = (MMMessageParamType*)param;
-
- LOGI("[%s] Got message type : 0x%x with code : %d" ,__FUNCTION__, message, msg->code);
-
- if (handle->user_cb == NULL) {
- LOGI("[%s] No interrupt callback is set. Skip this" ,__FUNCTION__);
- return 0;
- }
-
- if (message == MM_MESSAGE_SOUND_PCM_INTERRUPTED) {
- e = __translate_interrupted_code (msg->code);
- } else if (message == MM_MESSAGE_SOUND_PCM_CAPTURE_RESTRICTED) {
- /* TODO : handling restricted code is needed */
- /* e = _translate_restricted_code (msg->code); */
- }
-
- handle->user_cb (e, handle->user_data);
-
- return 0;
-}
-
-static int __mm_sound_pcm_playback_msg_cb (int message, void *param, void *user_param)
-{
- audio_io_interrupted_code_e e = AUDIO_IO_INTERRUPTED_COMPLETED;
- audio_out_s *handle = (audio_out_s *) user_param;
- MMMessageParamType *msg = (MMMessageParamType*)param;
-
- LOGI("[%s] Got message type : 0x%x with code : %d" ,__FUNCTION__, message, msg->code);
-
- if (handle->user_cb == NULL) {
- LOGI("[%s] No interrupt callback is set. Skip this" ,__FUNCTION__);
- return 0;
- }
-
- if (message == MM_MESSAGE_SOUND_PCM_INTERRUPTED) {
- e = __translate_interrupted_code (msg->code);
- }
-
- handle->user_cb (e, handle->user_data);
-
- return 0;
-}
-
-
-/*
-* Public Implementation
-*/
-
-/* Audio In */
int audio_in_create(int sample_rate, audio_channel_e channel, audio_sample_type_e type , audio_in_h* input)
{
- int ret = 0;
- audio_in_s *handle = NULL;
-
- /* input condition check */
- AUDIO_IO_NULL_ARG_CHECK(input);
- if(__check_parameter(sample_rate, channel, type) != AUDIO_IO_ERROR_NONE)
- return AUDIO_IO_ERROR_INVALID_PARAMETER;
-
- /* Create Handle */
- handle = (audio_in_s*)malloc( sizeof(audio_in_s));
- if (handle != NULL) {
- memset(handle, 0, sizeof(audio_in_s));
- } else {
- LOGE("[%s] ERROR : AUDIO_IO_ERROR_OUT_OF_MEMORY(0x%08x)" ,__FUNCTION__, AUDIO_IO_ERROR_OUT_OF_MEMORY );
- return AUDIO_IO_ERROR_OUT_OF_MEMORY;
- }
-
- ret = mm_sound_pcm_capture_open( &handle->mm_handle,sample_rate, channel, type);
- if( ret < 0) {
- free (handle);
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- LOGI("[%s] mm_sound_pcm_capture_open() success",__FUNCTION__);
-
- /* Fill information */
- *input = (audio_in_h)handle;
- handle->_buffer_size= ret;
- handle->_sample_rate= sample_rate;
- handle->_channel= channel;
- handle->_type= type;
-
- /* Set message interrupt callback */
- ret = mm_sound_pcm_set_message_callback(handle->mm_handle, __mm_sound_pcm_capture_msg_cb, handle);
- if( ret < 0) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- LOGI("[%s] mm_sound_pcm_set_message_callback() success",__FUNCTION__);
-
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_create(sample_rate, channel, type, input);
}
int audio_in_destroy(audio_in_h input)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- audio_in_s *handle = (audio_in_s *) input;
-
- int ret = mm_sound_pcm_capture_close(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- free(handle);
+ return cpp_audio_in_destroy(input);
+}
- LOGI("[%s] mm_sound_pcm_capture_close() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+int audio_in_set_sound_stream_info(audio_in_h input, sound_stream_info_h stream_info)
+{
+ return cpp_audio_in_set_sound_stream_info(input, stream_info);
}
int audio_in_prepare(audio_in_h input)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- audio_in_s *handle = (audio_in_s *) input;
-
- int ret = mm_sound_pcm_capture_start(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
-
- LOGI("[%s] mm_sound_pcm_capture_start() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_prepare(input);
}
int audio_in_unprepare(audio_in_h input)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- audio_in_s *handle = (audio_in_s *) input;
-
- int ret = mm_sound_pcm_capture_stop(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
+ return cpp_audio_in_unprepare(input);
+}
- LOGI("[%s] mm_sound_pcm_capture_stop() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+int audio_in_pause(audio_in_h input)
+{
+ return cpp_audio_in_pause(input);
}
-int audio_in_read(audio_in_h input, void *buffer, unsigned int length )
+int audio_in_resume(audio_in_h input)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- AUDIO_IO_NULL_ARG_CHECK(buffer);
- audio_in_s *handle = (audio_in_s *) input;
- int ret = 0;
- int result = 0;
+ return cpp_audio_in_resume(input);
+}
- ret = mm_sound_pcm_capture_read(handle->mm_handle, (void*) buffer, length);
- if (ret > 0) {
- LOGI("[%s] (%d/%d) bytes read" ,__FUNCTION__, ret, length);
- return ret;
- }
+int audio_in_flush(audio_in_h input)
+{
+ return cpp_audio_in_flush(input);
+}
- switch(ret)
- {
- case MM_ERROR_SOUND_INVALID_STATE:
- result = AUDIO_IO_ERROR_INVALID_OPERATION;
- LOGE("[%s] (0x%08x) : Not recording started yet.",(char*)__FUNCTION__, AUDIO_IO_ERROR_INVALID_OPERATION);
- break;
- default:
- result = __convert_error_code(ret, (char*)__FUNCTION__);
- break;
- }
- return result;
+int audio_in_read(audio_in_h input, void *buffer, unsigned int length)
+{
+ return cpp_audio_in_read(input, buffer, length);
}
int audio_in_get_buffer_size(audio_in_h input, int *size)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- AUDIO_IO_NULL_ARG_CHECK(size);
- audio_in_s *handle = (audio_in_s *) input;
-
- *size = handle->_buffer_size;
-
- LOGI("[%s] buffer size = %d",__FUNCTION__, *size);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_get_buffer_size(input, size);
}
int audio_in_get_sample_rate(audio_in_h input, int *sample_rate)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- AUDIO_IO_NULL_ARG_CHECK(sample_rate);
- audio_in_s *handle = (audio_in_s *) input;
-
- *sample_rate = handle->_sample_rate;
-
- LOGI("[%s] sample rate = %d",__FUNCTION__, *sample_rate);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_get_sample_rate(input, sample_rate);
}
-
int audio_in_get_channel(audio_in_h input, audio_channel_e *channel)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- AUDIO_IO_NULL_ARG_CHECK(channel);
- audio_in_s *handle = (audio_in_s *) input;
-
- *channel = handle->_channel;
-
- LOGI("[%s] channel = %d",__FUNCTION__, *channel);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_get_channel(input, channel);
}
int audio_in_get_sample_type(audio_in_h input, audio_sample_type_e *type)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- AUDIO_IO_NULL_ARG_CHECK(type);
- audio_in_s *handle = (audio_in_s *) input;
-
- *type = handle->_type;
-
- LOGI("[%s] sample type = %d",__FUNCTION__, *type);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_get_sample_type(input, type);
}
-int audio_in_set_interrupted_cb(audio_in_h input, audio_io_interrupted_cb callback, void *user_data)
+int audio_in_set_stream_cb(audio_in_h input, audio_in_stream_cb callback, void* user_data)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- AUDIO_IO_NULL_ARG_CHECK(callback);
- audio_in_s *handle = (audio_in_s *) input;
-
- handle->user_cb = callback;
- handle->user_data = user_data;
-
- LOGI("[%s] current interrupted cb (%p) / data (%p)",__FUNCTION__, handle->user_cb, handle->user_data);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_in_set_stream_cb(input, callback, user_data);
}
-int audio_in_unset_interrupted_cb(audio_in_h input)
+int audio_in_unset_stream_cb(audio_in_h input)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- audio_in_s * handle = (audio_in_s *) input;
-
- handle->user_cb = NULL;
- handle->user_data = NULL;
+ return cpp_audio_in_unset_stream_cb(input);
+}
- LOGI("[%s] current interrupted cb (%p) / data (%p)",__FUNCTION__, handle->user_cb, handle->user_data);
- return AUDIO_IO_ERROR_NONE;
+int audio_in_peek(audio_in_h input, const void **buffer, unsigned int *length)
+{
+ return cpp_audio_in_peek(input, buffer, length);
}
-int audio_in_ignore_session(audio_in_h input)
+int audio_in_drop(audio_in_h input)
{
- AUDIO_IO_NULL_ARG_CHECK(input);
- audio_in_s * handle = (audio_in_s *) input;
- int ret = 0;
+ return cpp_audio_in_drop(input);
+}
- ret = mm_sound_pcm_capture_ignore_session(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
+int audio_in_set_state_changed_cb(audio_in_h input, audio_in_state_changed_cb callback, void* user_data)
+{
+ return cpp_audio_in_set_state_changed_cb(input, callback, user_data);
+}
- LOGI("[%s] mm_sound_pcm_capture_ignore_session() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+int audio_in_unset_state_changed_cb(audio_in_h input)
+{
+ return cpp_audio_in_unset_state_changed_cb(input);
}
/* Audio Out */
-int audio_out_create(int sample_rate, audio_channel_e channel, audio_sample_type_e type, sound_type_e sound_type, audio_out_h* output)
-{
- audio_out_s *handle = NULL;
- int ret = 0;
-
- /* input condition check */
- AUDIO_IO_NULL_ARG_CHECK(output);
- if(__check_parameter(sample_rate, channel, type)!=AUDIO_IO_ERROR_NONE)
- return AUDIO_IO_ERROR_INVALID_PARAMETER;
- if(sound_type < SOUND_TYPE_SYSTEM || sound_type > SOUND_TYPE_CALL) {
- LOGE("[%s] ERROR : AUDIO_IO_ERROR_INVALID_PARAMETER(0x%08x) : Invalid sample sound type : %d" ,__FUNCTION__,AUDIO_IO_ERROR_INVALID_PARAMETER,sound_type );
- return AUDIO_IO_ERROR_INVALID_PARAMETER;
- }
-
- /* Create Handle */
- handle = (audio_out_s*)malloc( sizeof(audio_out_s));
- if (handle != NULL) {
- memset(handle, 0 , sizeof(audio_out_s));
- } else {
- LOGE("[%s] ERROR : AUDIO_IO_ERROR_OUT_OF_MEMORY(0x%08x)" ,__FUNCTION__,AUDIO_IO_ERROR_OUT_OF_MEMORY );
- return AUDIO_IO_ERROR_OUT_OF_MEMORY;
- }
- ret = mm_sound_pcm_play_open(&handle->mm_handle,sample_rate, channel, type, sound_type);
- if( ret < 0) {
- free (handle);
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- LOGI("[%s] mm_sound_pcm_play_open() success",__FUNCTION__);
-
- /* Fill information */
- *output = (audio_out_h)handle;
- handle->_buffer_size = ret;
- handle->_sample_rate = sample_rate;
- handle->_channel = channel;
- handle->_type = type;
- handle->_sound_type = sound_type;
-
- /* Set message interrupt callback */
- ret = mm_sound_pcm_set_message_callback(handle->mm_handle, __mm_sound_pcm_playback_msg_cb, handle);
- if( ret < 0) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- LOGI("[%s] mm_sound_pcm_set_message_callback() success",__FUNCTION__);
-
- return AUDIO_IO_ERROR_NONE;
+int audio_out_create_new(int sample_rate, audio_channel_e channel, audio_sample_type_e type, audio_out_h *output)
+{
+ return cpp_audio_out_create_new(sample_rate, channel, type, output);
}
int audio_out_destroy(audio_out_h output)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- audio_out_s *handle = (audio_out_s *) output;
-
- int ret = mm_sound_pcm_play_close(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- free(handle);
+ return cpp_audio_out_destroy(output);
+}
- LOGI("[%s] mm_sound_pcm_play_close() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+int audio_out_set_sound_stream_info(audio_out_h output, sound_stream_info_h stream_info)
+{
+ return cpp_audio_out_set_sound_stream_info(output, stream_info);
}
int audio_out_prepare(audio_out_h output)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- audio_out_s *handle = (audio_out_s *) output;
+ return cpp_audio_out_prepare(output);
+}
- int ret = mm_sound_pcm_play_start(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
+int audio_out_unprepare(audio_out_h output)
+{
+ return cpp_audio_out_unprepare(output);
+}
- LOGI("[%s] mm_sound_pcm_play_start() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+int audio_out_pause(audio_out_h output)
+{
+ return cpp_audio_out_pause(output);
}
-int audio_out_unprepare(audio_out_h output)
+int audio_out_resume(audio_out_h output)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- audio_out_s *handle = (audio_out_s *) output;
+ return cpp_audio_out_resume(output);
+}
- int ret = mm_sound_pcm_play_stop(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
+int audio_out_drain(audio_out_h output)
+{
+ return cpp_audio_out_drain(output);
+}
- LOGI("[%s] mm_sound_pcm_play_stop() success",__FUNCTION__);
- return AUDIO_IO_ERROR_NONE;
+int audio_out_flush(audio_out_h output)
+{
+ return cpp_audio_out_flush(output);
}
int audio_out_write(audio_out_h output, void* buffer, unsigned int length)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(buffer);
- audio_out_s *handle = (audio_out_s *) output;
-
- int ret = mm_sound_pcm_play_write(handle->mm_handle, (void*) buffer, length);
- if (ret > 0) {
- LOGI("[%s] (%d/%d) bytes written" ,__FUNCTION__, ret, length);
- return ret;
- }
- switch(ret)
- {
- case MM_ERROR_SOUND_INVALID_STATE:
- ret = AUDIO_IO_ERROR_INVALID_OPERATION;
- LOGE("[%s] (0x%08x) : Not playing started yet.",(char*)__FUNCTION__, AUDIO_IO_ERROR_INVALID_OPERATION);
- break;
- default:
- ret = __convert_error_code(ret, (char*)__FUNCTION__);
- break;
- }
- return ret;
+ return cpp_audio_out_write(output, buffer, length);
}
-
int audio_out_get_buffer_size(audio_out_h output, int *size)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(size);
- audio_out_s *handle = (audio_out_s *) output;
-
- *size = handle->_buffer_size;
-
- LOGI("[%s] buffer size = %d",__FUNCTION__, *size);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_get_buffer_size(output, size);
}
-
int audio_out_get_sample_rate(audio_out_h output, int *sample_rate)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(sample_rate);
- audio_out_s *handle = (audio_out_s *) output;
-
- *sample_rate = handle->_sample_rate;
-
- LOGI("[%s] sample rate = %d",__FUNCTION__, *sample_rate);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_get_sample_rate(output, sample_rate);
}
-
int audio_out_get_channel(audio_out_h output, audio_channel_e *channel)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(channel);
- audio_out_s *handle = (audio_out_s *) output;
-
- *channel = handle->_channel;
-
- LOGI("[%s] channel = %d",__FUNCTION__, *channel);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_get_channel(output, channel);
}
-
int audio_out_get_sample_type(audio_out_h output, audio_sample_type_e *type)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(type);
- audio_out_s *handle = (audio_out_s *) output;
-
- *type = handle->_type;
-
- LOGI("[%s] sample type = %d",__FUNCTION__, *type);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_get_sample_type(output, type);
}
-
int audio_out_get_sound_type(audio_out_h output, sound_type_e *type)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(type);
- audio_out_s *handle = (audio_out_s *) output;
-
- *type = handle->_sound_type;
-
- LOGI("[%s] sound type = %d",__FUNCTION__, *type);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_get_sound_type(output, type);
}
-int audio_out_set_interrupted_cb(audio_out_h output, audio_io_interrupted_cb callback, void *user_data)
+int audio_out_set_stream_cb(audio_out_h output, audio_out_stream_cb callback, void* user_data)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- AUDIO_IO_NULL_ARG_CHECK(callback);
- audio_out_s *handle = (audio_out_s *) output;
-
- handle->user_cb = callback;
- handle->user_data = user_data;
-
- LOGI("[%s] current interrupted cb (%p) / data (%p)",__FUNCTION__, handle->user_cb, handle->user_data);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_set_stream_cb(output, callback, user_data);
}
-int audio_out_unset_interrupted_cb(audio_out_h output)
+int audio_out_unset_stream_cb(audio_out_h output)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- audio_out_s *handle = (audio_out_s *) output;
-
- handle->user_cb = NULL;
- handle->user_data = NULL;
-
- LOGI("[%s] current interrupted cb (%p) / data (%p)",__FUNCTION__, handle->user_cb, handle->user_data);
- return AUDIO_IO_ERROR_NONE;
+ return cpp_audio_out_unset_stream_cb(output);
}
-int audio_out_ignore_session(audio_out_h output)
+int audio_out_set_state_changed_cb(audio_out_h output, audio_out_state_changed_cb callback, void* user_data)
{
- AUDIO_IO_NULL_ARG_CHECK(output);
- audio_out_s *handle = (audio_out_s *) output;
- int ret = 0;
-
- ret = mm_sound_pcm_play_ignore_session(handle->mm_handle);
- if (ret != MM_ERROR_NONE) {
- return __convert_error_code(ret, (char*)__FUNCTION__);
- }
- LOGI("[%s] mm_sound_pcm_play_ignore_session() success",__FUNCTION__);
+ return cpp_audio_out_set_state_changed_cb(output, callback, user_data);
+}
- return AUDIO_IO_ERROR_NONE;
+int audio_out_unset_state_changed_cb(audio_out_h output)
+{
+ return cpp_audio_out_unset_state_changed_cb(output);
}