/* * avsystem * * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd. All rights reserved. * * Contact: Jonghyuk Choi * * 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 * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * 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. * */ #include #include #include #include #include #include #include #include #include #include #include "avsys-audio-shm.h" #include "avsys-audio-sync.h" #include "avsys-audio-path.h" #include "avsys-audio-shm.h" #include "avsys-debug.h" #include "avsys-common.h" #include "avsys-audio-handle.h" #include "avsys-audio-logical-volume.h" #include "avsys-audio-alsa.h" #include "avsys-audio-ascenario.h" #define EXPORT_API __attribute__((__visibility__("default"))) #define RET_IO_CTL_ERR_IF_FAIL(SECTION) { if(AVSYS_FAIL(SECTION)) { \ avsys_error_r(AVAUDIO,"%s %d\n",__func__,__LINE__); \ return AVSYS_STATE_ERR_IO_CONTROL; \ } } static int g_playback_path_select_data[AVSYS_AUDIO_PLAYBACK_GAIN_MAX][AVSYS_AUDIO_PATH_EX_OUTMAX] = { { /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ /* NONE SPK RECV HEADSET BTHEADSET A2DP HANDSFREE HDMI DOCK USBAUDIO */ 0, 1, 0, 1, 0, 0, 0, 1, 1, 0 }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ /* NONE SPK RECV HEADSET BTHEADSET A2DP HANDSFREE HDMI */ 1, 1, 0, 1, 0, 1, 0, 0, 0, 0 }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ /* NONE SPK RECV HEADSET BTHEADSET A2DP HANDSFREE HDMI */ 1, 1, 1, 1, 1, 0, 0, 0, 0, 0 }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ /* NONE SPK RECV HEADSET BTHEADSET A2DP HANDSFREE HDMI */ 1, 1, 1, 1, 1, 0, 0, 0, 0, 0 }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ /* NONE SPK RECV HEADSET BTHEADSET A2DP HANDSFREE HDMI */ 0, 1, 1, 1, 1, 0, 0, 0, 0, 0 } }; static int g_capture_path_select_data[AVSYS_AUDIO_CAPTURE_GAIN_MAX][AVSYS_AUDIO_PATH_EX_INMAX] = { { /* AVSYS_AUDIO_CAPTURE_GAIN_AP */ /* NONE MIC HMIC BMIC FMIN HFREE */ 1, 1, 1, 1, 0, 0 }, { /* AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO */ /* NONE MIC HMIC BMIC FMIN HFREE */ 1, 0, 0, 0, 1, 0 }, { /* AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL */ /* NONE MIC HMIC BMIC FMIN HFREE */ 1, 1, 1, 1, 0, 0 }, { /* AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL */ /* NONE MIC HMIC BMIC FMIN HFREE */ 1, 1, 1, 1, 0, 0 }, }; static int g_playback_gain_select_data[AVSYS_AUDIO_PLAYBACK_GAIN_MAX][AVSYS_AUDIO_PLAYBACK_GAIN_MAX] = { { /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ AVSYS_AUDIO_PLAYBACK_GAIN_AP, /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO, /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT, /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO, /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO, /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO, /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT, /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT, /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ }, { /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ AVSYS_AUDIO_PLAYBACK_GAIN_AP, /* AVSYS_AUDIO_PLAYBACK_GAIN_AP */ AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO, /* AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO */ AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL */ AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL, /* AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL */ AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT, /* AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT */ }, }; static int g_capture_gain_select_data[AVSYS_AUDIO_CAPTURE_GAIN_MAX][AVSYS_AUDIO_CAPTURE_GAIN_MAX] = { { /* AVSYS_AUDIO_CAPTURE_GAIN_AP */ AVSYS_AUDIO_CAPTURE_GAIN_AP, /* AVSYS_AUDIO_CAPTURE_GAIN_AP */ AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO, /* AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO */ AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL */ AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL */ }, { /* AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO */ AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO, /* AVSYS_AUDIO_CAPTURE_GAIN_AP */ AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO, /* AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO */ AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL */ AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL */ }, { /* AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL */ AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL, /* AVSYS_AUDIO_CAPTURE_GAIN_AP */ AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL, /* AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO */ AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL */ AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL */ }, { /* AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL */ AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL, /* AVSYS_AUDIO_CAPTURE_GAIN_AP */ AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL, /* AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO */ AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL */ AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL, /* AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL */ }, }; static int __avsys_audio_path_set_ascn_ap_playback(avsys_audio_path_ex_info_t *control); static int __avsys_audio_path_set_ascn_voicecall(avsys_audio_path_ex_info_t *control); static int __avsys_audio_path_set_ascn_videocall(avsys_audio_path_ex_info_t *control); static int __avsys_audio_path_set_ascn_fmradio(avsys_audio_path_ex_info_t *control); static int __avsys_audio_path_set_ascn_ap_capture(avsys_audio_path_ex_info_t *control); static int __avsys_audio_path_set_hw_controls(avsys_audio_path_ex_info_t *control); static int __avsys_audio_path_get_earjack_type(void); #define AUDIOSYSTEM_CONF "/opt/etc/audio_system.conf" #define CONF_ITEM_COUNT 2 #define INPUT_DEV_MAX 20 #define EARJACK_EVENT_PATH "/dev/input/event" #define AVSYS_AUDIO_INI_DEFAULT_PATH "/usr/etc/mmfw_avsystem.ini" #define AVSYS_AUDIO_DEFAULT_CONTROL_AIF_BEFORE_PATH_SET 0 #define AVSYS_AUDIO_DEFAULT_GAIN_DEBUG_MODE 0 #define CP_STATUS "/sys/class/audio/caps/cp_caps" #define CP_WB_STRING "wb" static char *conf_string[] = { "headset_detection", "headset_node", }; typedef struct { char headset_detection; char headset_node_number; bool control_aif_before_path_set; bool gain_debug_mode; } avsys_audio_conf; static int __load_conf(avsys_audio_conf *data) { dictionary *dict = NULL; #if defined(_MMFW_I386_ALL_SIMULATOR) if (data == NULL) return AVSYS_STATE_ERR_NULL_POINTER; data->headset_detection = 1; data->headset_node_number = 4; #else FILE *fp = NULL; int i = 0; char buffer[64] = { 0, }; char conf_data[CONF_ITEM_COUNT] = { 1, 0 }; if (data == NULL) return AVSYS_STATE_ERR_NULL_POINTER; fp = fopen(AUDIOSYSTEM_CONF, "r"); if (fp == NULL) { char filename[128] = { 0, }; char readBuffer[32] = { 0, }; char headset_find = 0; int num = 0, headset_num = -1; for (num = 0; num < INPUT_DEV_MAX; num++) { FILE *sfp = NULL; memset(filename, '\0', sizeof(filename)); snprintf(filename, sizeof(filename), "/sys/class/input/input%01d/name", num); if (NULL == (sfp = fopen(filename, "r"))) continue; memset(readBuffer, '\0', sizeof(readBuffer)); if (NULL == fgets(readBuffer, sizeof(readBuffer) - 1, sfp)) { fclose(sfp); continue; } if (strstr(readBuffer, "Headset")) { headset_find = 1; headset_num = num; } fclose(sfp); if (headset_num != -1) { break; } } if (headset_num == -1) return AVSYS_STATE_ERR_INTERNAL; if (NULL == (fp = fopen(AUDIOSYSTEM_CONF, "w"))) { return AVSYS_STATE_ERR_INTERNAL; } fprintf(fp, "%s:1\n", conf_string[0]); fprintf(fp, "%s:%d\n", conf_string[1], headset_num); fflush(fp); fclose(fp); fp = NULL; sync(); data->headset_detection = 1; data->headset_node_number = headset_num; return AVSYS_STATE_SUCCESS; } while (fgets(buffer, sizeof(buffer) - 1, fp) != NULL) { if ((strlen(buffer) < 3) || (buffer[0] == '#') || (buffer[0] == '!')) continue; if (buffer[strlen(buffer) - 1] == '\n') buffer[strlen(buffer) - 1] = '\0'; for (i = 0; i < CONF_ITEM_COUNT; i++) { if (0 == strncmp(buffer, conf_string[i], strlen(conf_string[i]))) { char *ptr = NULL; if (NULL == (ptr = strstr(buffer, ":"))) break; conf_data[i] = atoi(ptr + 1); avsys_warning(AVAUDIO, "%s[%d]\n", buffer, conf_data[i]); } } } fclose(fp); data->headset_detection = conf_data[0]; data->headset_node_number = conf_data[1]; #endif /* first, try to load existing ini file */ dict = iniparser_load(AVSYS_AUDIO_INI_DEFAULT_PATH); if (dict) { /* if dict is available */ data->control_aif_before_path_set = iniparser_getboolean(dict, "aif:control aif before path set", AVSYS_AUDIO_DEFAULT_CONTROL_AIF_BEFORE_PATH_SET); data->gain_debug_mode = iniparser_getboolean(dict, "debug:gain debug mode", AVSYS_AUDIO_DEFAULT_GAIN_DEBUG_MODE); /* free dict as we got our own structure */ iniparser_freedict (dict); } else { /* if no file exists. create one with set of default values */ data->control_aif_before_path_set = AVSYS_AUDIO_DEFAULT_CONTROL_AIF_BEFORE_PATH_SET; data->gain_debug_mode = AVSYS_AUDIO_DEFAULT_GAIN_DEBUG_MODE; } return AVSYS_STATE_SUCCESS; } static bool __is_cp_wb () { bool ret = false; char str[10] = { 0, }; FILE* fp = NULL; avsys_info(AVAUDIO, "Checking [%s] for WB capability...\n", CP_STATUS); fp = fopen (CP_STATUS, "r"); if (fp) { if (fgets (str, sizeof(str)-1, fp)) { if (strstr (str, CP_WB_STRING)) { ret = true; } } fclose(fp); } else { avsys_warning (AVAUDIO, "failed to open [%s]...errno=[%d]\n", CP_STATUS, errno); } avsys_info(AVAUDIO, "Result [%d] : [%s] capability!!!\n", ret, (ret)? "WB" : "NB"); return ret; } EXPORT_API int avsys_audio_path_ex_init(void) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; gain_info_t default_gain = { AVSYS_AUDIO_PLAYBACK_GAIN_AP, AVSYS_AUDIO_CAPTURE_GAIN_AP }; path_info_t default_path = { AVSYS_AUDIO_PATH_EX_SPK, AVSYS_AUDIO_PATH_EX_MIC }; option_info_t default_option = { AVSYS_AUDIO_PATH_OPTION_NONE, AVSYS_AUDIO_PATH_OPTION_NONE }; int index = 0; int err = AVSYS_STATE_SUCCESS; avsys_audio_conf conf = { 0, }; temp = &control; avsys_assert(AVSYS_SUCCESS(avsys_audio_create_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))); avsys_assert(AVSYS_SUCCESS(avsys_audio_create_shm(AVSYS_AUDIO_SHM_IDEN_PATH))); avsys_assert(AVSYS_SUCCESS(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))); if (control == NULL) return AVSYS_STATE_ERR_NULL_POINTER; /* init values */ control->pregain = default_gain; control->gain = default_gain; control->reqgain = default_gain; control->path = default_path; control->backup_gain = default_gain; control->backup_path = default_path; control->option = default_option; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; control->inserted = AVSYS_AUDIO_INSERTED_NONE; if (AVSYS_FAIL(__load_conf(&conf))) avsys_error_r(AVAUDIO, "Can not load audio system configuration file\n"); if (conf.headset_detection) { control->inserted = __avsys_audio_path_get_earjack_type(); if (control->inserted == AVSYS_AUDIO_INSERTED_NONE) control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; else control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_HEADSET; } else { avsys_warning(AVAUDIO, "Ignore headset detection. Use speaker device\n"); control->inserted = AVSYS_AUDIO_INSERTED_NONE; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } avsys_error_r(AVAUDIO, "Earjack init value is %d\n", control->inserted); control->control_aif_before_path_set = conf.control_aif_before_path_set; control->wb_enabled = __is_cp_wb(); control->gain_debug_mode = conf.gain_debug_mode; control->mute = AVSYS_AUDIO_UNMUTE; control->path_fixed = PATH_FIXED_NONE; index = 0; do { control->pathlock_pid[index] = -1; index++; } while (index < AVSYS_AUDIO_LOCK_SLOT_MAX); index = 0; do { control->path_fixed_pid[index] = -1; index++; } while (index < PATH_FIXED_TYPE_MAX); /* call path control */ err = __avsys_audio_path_set_ascn_ap_playback(control); if (AVSYS_SUCCESS(err)) err = __avsys_audio_path_set_hw_controls(control); if (AVSYS_SUCCESS(err)) err = __avsys_audio_path_set_ascn_ap_capture(control); return err; } EXPORT_API int avsys_audio_path_ex_fini(void) { if (AVSYS_FAIL(avsys_audio_remove_shm(AVSYS_AUDIO_SHM_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_remove_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (AVSYS_FAIL(avsys_audio_remove_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_remove_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return AVSYS_STATE_SUCCESS; } EXPORT_API int avsys_audio_path_ex_reset(int forced) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; gain_info_t default_gain = { AVSYS_AUDIO_PLAYBACK_GAIN_AP, AVSYS_AUDIO_CAPTURE_GAIN_AP }; path_info_t default_path = { AVSYS_AUDIO_PATH_EX_SPK, AVSYS_AUDIO_PATH_EX_MIC }; option_info_t default_option = { AVSYS_AUDIO_PATH_OPTION_NONE, AVSYS_AUDIO_PATH_OPTION_NONE }; int index = 0; int err = AVSYS_STATE_SUCCESS; int backup_debug = 0; avsys_audio_conf conf = { 0, }; temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (control == NULL) return AVSYS_STATE_ERR_NULL_POINTER; if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } /* init values */ control->pregain = default_gain; control->gain = default_gain; control->reqgain = default_gain; control->path = default_path; control->backup_gain = default_gain; control->backup_path = default_path; control->option = default_option; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; control->inserted = AVSYS_AUDIO_INSERTED_NONE; if (AVSYS_FAIL(__load_conf(&conf))) avsys_error_r(AVAUDIO, "Can not load audio system configuration file\n"); if (conf.headset_detection) { control->inserted = __avsys_audio_path_get_earjack_type(); if (control->inserted == AVSYS_AUDIO_INSERTED_NONE) control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; else { control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_HEADSET; control->path.playback = AVSYS_AUDIO_PATH_EX_HEADSET; if (control->inserted == AVSYS_AUDIO_INSERTED_4) control->path.capture = AVSYS_AUDIO_PATH_EX_HEADSETMIC; } } else { avsys_warning(AVAUDIO, "Ignore headset detection. Use speaker device\n"); control->inserted = AVSYS_AUDIO_INSERTED_NONE; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } avsys_error_r(AVAUDIO, "Earjack init value is %d\n", control->inserted); control->control_aif_before_path_set = conf.control_aif_before_path_set; control->gain_debug_mode = conf.gain_debug_mode; control->mute = AVSYS_AUDIO_UNMUTE; control->path_fixed = PATH_FIXED_NONE; index = 0; do { control->pathlock_pid[index] = -1; index++; } while (index < AVSYS_AUDIO_LOCK_SLOT_MAX); index = 0; do { control->path_fixed_pid[index] = -1; index++; } while (index < PATH_FIXED_TYPE_MAX); if (forced) { backup_debug = control->gain_debug_mode; control->gain_debug_mode = 1; } /* call path control */ err = __avsys_audio_path_set_ascn_ap_playback(control); if (AVSYS_SUCCESS(err)) err = __avsys_audio_path_set_hw_controls(control); if (AVSYS_SUCCESS(err)) err = __avsys_audio_path_set_ascn_ap_capture(control); if (forced) { control->gain_debug_mode = backup_debug; } if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return err; } EXPORT_API int avsys_audio_path_ex_dump(void) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; const static char *str_earType[] = { "None", "EarOnly", "EarMic", "TVout" }; const static char *str_yn[] = { "NO", "YES" }; const static char *str_ear[] = { "MANUAL", "AUTO_MUTE", "AUTO_NOMUTE" }; const static char *str_out[AVSYS_AUDIO_PATH_EX_OUTMAX] = { "NONE", "SPK", "RECV", "HEADSET", "BTHEADSET", "A2DP", "HANSFREE", "HDMI", "DOCK", "USBAUDIO" }; const static char *str_in[AVSYS_AUDIO_PATH_EX_INMAX] = { "NONE", "MIC", "HEADMIC", "BTMIC", "FMINPUT", "HANSFREEMIC" }; const static char *str_route[AVSYS_AUDIO_ROUTE_POLICY_MAX] = { "DEFAULT", "IGN_A2DP", "HANDSET" }; /* const static char *str_gain[AVSYS_AUDIO_GAIN_EX_MAX] = { "KEYTONE", "RINGTONE", "ALARMTONE", "CALLTONE", "AUDIOPLAYER", "VIDEOPLAYER", "VOICECALL", "VIDEOCALL", "FMRADIO", "VOICEREC", "CAMCORDER", "CAMERA", "GAME"}; */ const static char *str_playback_gain[AVSYS_AUDIO_PLAYBACK_GAIN_MAX] = { "AP", "FMRADIO", "VOICECALL", "VIDEOCALL", "CALLALERT", }; const static char *str_capture_gain[AVSYS_AUDIO_CAPTURE_GAIN_MAX] = { "AP", "FMRADIO", "VOICECALL", "VIDEOCALL", }; int index = 0; temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (control == NULL) return AVSYS_STATE_ERR_NULL_POINTER; fprintf(stdout, "======================================================================\n"); fprintf(stdout, " Avsystem Audio Path Control Information \n"); fprintf(stdout, "======================================================================\n"); #if defined(_MMFW_I386_ALL_SIMULATOR) fprintf(stdout, " In simulator, follow informations don`t have means.\n"); #endif fprintf(stdout, " GAIN : P (%-s / %-s) - R (%-s / %-s) - C (%-s / %-s)\n", str_playback_gain[control->pregain.playback], str_capture_gain[control->pregain.capture], str_playback_gain[control->reqgain.playback], str_capture_gain[control->reqgain.capture], str_playback_gain[control->gain.playback], str_capture_gain[control->gain.capture]); fprintf(stdout, " Current Out / In : %-s / %-s\n", str_out[control->path.playback], str_in[control->path.capture] ); fprintf(stdout, " Gain debug mode : 0x%-x\n", control->gain_debug_mode); fprintf(stdout, " Auto EarJack Control : %-s\n", str_ear[control->ear_auto]); fprintf(stdout, " Physical Earjack? [type] : %-s [%-s]\n", str_yn[control->inserted != AVSYS_AUDIO_INSERTED_NONE], str_earType[control->inserted]); fprintf(stdout, " Path Fixed State : 0x%-x\n", control->path_fixed); fprintf(stdout, " Mute status : %d\n", control->mute); if (control->path_fixed_pid[PATH_FIXED_TYPE_FMRADIO] != -1) fprintf(stdout, " FM Radio path pid : %d\n", control->path_fixed_pid[PATH_FIXED_TYPE_FMRADIO]); if (control->path_fixed_pid[PATH_FIXED_TYPE_CALL] != -1) fprintf(stdout, " Call path pid : %d\n", control->path_fixed_pid[PATH_FIXED_TYPE_CALL]); index = 0; do { if (control->pathlock_pid[index] != -1) fprintf(stdout, " Path sync lock required PIDs : %d\n", control->pathlock_pid[index]); index++; } while (index < AVSYS_AUDIO_LOCK_SLOT_MAX); fprintf(stdout, " Option Dual out : %-s\n", str_yn[(control->option.playback & AVSYS_AUDIO_PATH_OPTION_DUAL_OUT) ? 1 : 0]); fprintf(stdout, " Option Forced : %-s\n", str_yn[(control->option.playback & AVSYS_AUDIO_PATH_OPTION_FORCED) ? 1 : 0]); return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_get_earjack_type (void) { int fd = 0; char readval = AVSYS_AUDIO_INSERTED_NONE; fd = open("/sys/devices/platform/jack/earjack_online", O_RDONLY); if (fd == -1) { avsys_error_r(AVAUDIO, "Can not get initial jack type\n"); return AVSYS_AUDIO_INSERTED_NONE; } read(fd, &readval, sizeof(readval)); switch (readval) { case '0': readval = AVSYS_AUDIO_INSERTED_NONE; break; case '1': readval = AVSYS_AUDIO_INSERTED_3; break; case '3': readval = AVSYS_AUDIO_INSERTED_4; break; case '8': readval = AVSYS_AUDIO_INSERTED_AV; break; case '2': if (1 == read(fd, &readval, sizeof(readval))) { if (readval == '0') { readval = AVSYS_AUDIO_INSERTED_AV; } else { avsys_error(AVAUDIO, "Unknown jack type value...2%d\n", readval); readval = AVSYS_AUDIO_INSERTED_NONE; } } else { avsys_error(AVAUDIO, "jack type read error...\n"); readval = AVSYS_AUDIO_INSERTED_NONE; } break; default: avsys_error(AVAUDIO, "jack type unknown value...%c\n", readval); readval = AVSYS_AUDIO_INSERTED_NONE; break; } close(fd); return readval; } int avsys_audio_path_earjack_init(int *init_type, int *outfd) { #if !defined(_MMFW_I386_ALL_SIMULATOR) char eventnode_filename[32] = { 0, }; int fd = 0; avsys_audio_conf conf = { 0, }; if (outfd == NULL || init_type == NULL) { avsys_error(AVAUDIO, "input parameter is null\n"); return AVSYS_STATE_ERR_NULL_POINTER; } if (AVSYS_FAIL(__load_conf(&conf))) { avsys_error_r(AVAUDIO, "Can not load audio system configuration file\n"); } if (!conf.headset_detection) { avsys_error(AVAUDIO, "Earjack control daemon will be closed by user option...\n"); return AVSYS_STATE_ERR_DEVICE_NOT_SUPPORT; } snprintf(eventnode_filename, sizeof(eventnode_filename), "%s%01d", EARJACK_EVENT_PATH, conf.headset_node_number); fd = open(eventnode_filename, O_RDONLY); if (fd == -1) { avsys_error_r(AVAUDIO, "Device file open error\n"); return AVSYS_STATE_ERR_INTERNAL; } else { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; void *vol_data = NULL; void *handle_data = NULL; temp = &control; if(AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_LVOLUME, &vol_data))) { avsys_error(AVAUDIO,"attach logical volume shared memory failed\n"); close(fd); return AVSYS_STATE_ERR_ALLOCATION; } if(AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_HANDLE, &handle_data))) { avsys_error(AVAUDIO,"attach handle shared memory failed\n"); close(fd); return AVSYS_STATE_ERR_ALLOCATION; } if(AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void**)temp))) { avsys_error_r(AVAUDIO,"avsys_audio_get_shm() failed in %s\n", __func__); close(fd); return AVSYS_STATE_ERR_INTERNAL; } *init_type = control->inserted; *outfd = fd; return AVSYS_STATE_SUCCESS; } #else return AVSYS_STATE_ERR_DEVICE_NOT_SUPPORT; #endif } int avsys_audio_path_earjack_wait(int fd, int *current_type, int *new_type, int *is_auto_mute) { #if !defined(_MMFW_I386_ALL_SIMULATOR) fd_set set; int readtemp; int select_ret = 0; struct input_event jevent; int res = AVSYS_STATE_SUCCESS; int cur_type = -1; if (new_type == NULL || is_auto_mute == NULL) return AVSYS_STATE_ERR_NULL_POINTER; FD_ZERO(&set); FD_SET(fd, &set); cur_type = *current_type; select_ret = select(fd + 1, &set, NULL, NULL, NULL); avsys_info(AVAUDIO, "SELECT returns......\n"); if (select_ret != 1) { if (select_ret == 0) { avsys_error_r(AVAUDIO, "Earjack timeout in autocontrol\n"); } else if (select_ret == -1) { avsys_error_r(AVAUDIO, "Earjack detect unknown error: %d\n", errno); } return AVSYS_STATE_WAR_INVALID_VALUE; } #ifdef EARJACK_LOCK /* currently this is disabled to avoid semapore value increase */ if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } #endif if (read(fd, &jevent, sizeof(jevent)) < 0) { avsys_error(AVAUDIO, "read fd failed with 0x%x\n", errno); return AVSYS_STATE_WAR_INVALID_MODE; } avsys_info(AVAUDIO, "*** JEVENT : code=%d, value=%d\n", jevent.code, jevent.value); if (jevent.type != TYPE_EVENT_SWITCH) { avsys_info(AVAUDIO, "Not a switch event\n"); return AVSYS_STATE_WAR_INVALID_MODE; } switch (jevent.code) { case CODE_HEADPHONE_INSERT: case CODE_LINEOUT_INSERT: case CODE_JACK_PHYSICAL_INSERT: if (jevent.value == 1) { readtemp = __avsys_audio_path_get_earjack_type(); } else { readtemp = 0; } break; default: readtemp = cur_type; /* same value */ break; } *new_type = readtemp; avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } avsys_info(AVAUDIO, "control->ear_auto = %d\n", control->ear_auto); if (control->ear_auto == AVSYS_AUDIO_EAR_SWITCH_AUTO_WITH_MUTE) { *current_type = control->inserted; *is_auto_mute = 1; res = AVSYS_STATE_SUCCESS; } else if (control->ear_auto == AVSYS_AUDIO_EAR_SWITCH_AUTO_WITHOUT_MUTE) { *current_type = control->inserted; *is_auto_mute = 0; res = AVSYS_STATE_SUCCESS; } return res; #else return AVSYS_STATE_ERR_DEVICE_NOT_SUPPORT; #endif } int avsys_audio_path_earjack_process(int new_type) { #if !defined(_MMFW_I386_ALL_SIMULATOR) avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; int err = AVSYS_STATE_SUCCESS; temp = &control; avsys_info(AVAUDIO, "new_type = %d\n", new_type); if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } control->inserted = new_type; return err; #else return AVSYS_STATE_ERR_DEVICE_NOT_SUPPORT; #endif } int avsys_audio_path_earjack_deinit(int fd) { #if !defined(_MMFW_I386_ALL_SIMULATOR) close(fd); return AVSYS_STATE_SUCCESS; #else return AVSYS_STATE_ERR_DEVICE_NOT_SUPPORT; #endif } int avsys_audio_path_earjack_unlock() { #ifdef EARJACK_LOCK /* currently this is disabled to avoid semapore value increase */ if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } #endif return AVSYS_STATE_SUCCESS; }; #define DO_IF_VALID(c, p) { if(c > -1) p; } #define DO_IF_INVALID(c, p) { if(c == -1) p; } #define CHECK_VALID(c) (c>-1 ? 1 : 0) enum { CMD_DEVICE_NONE = 0, CMD_DEVICE_OPEN, CMD_DEVICE_CLOSE, /* Not used */ CMD_DEVICE_MAX }; avsys_audio_alsa_aif_handle_t *g_hAIF[AIF_DEVICE_MAX] = { NULL, NULL, NULL, NULL, NULL }; char *strAIF[AIF_DEVICE_MAX] = { "AIF CP Capture", "AIF CP Playback", "AIF BT Capture", "AIF BT Playback", "AIF RADIO Playback" }; #define SET_AIF(index) do { AIF_control[index] = CMD_DEVICE_OPEN; } while (0) static int __is_cp_aif (int type) { return ((type == AIF_CP_PLAYBACK || type == AIF_CP_CAPTURE)); } static int __avsys_open_aif(char AIF_control[], bool wb_enabled) { int iAIF = 0; int err = AVSYS_STATE_SUCCESS; bool bt_enabled = 0; aif_rate_t rate = 0; /* Check If BT is enabled */ for (iAIF = 0; iAIF < AIF_DEVICE_MAX; iAIF++) { if (AIF_control[iAIF] == CMD_DEVICE_OPEN && (iAIF == AIF_BT_PLAYBACK || iAIF== AIF_BT_CAPTURE)) { bt_enabled = true; break; } } /* Iterate control command */ avsys_info(AVAUDIO, "================== Close if reopen is needed (bt[%d] wb[%d]) ================== \n", bt_enabled, wb_enabled); for (iAIF = 0; iAIF < AIF_DEVICE_MAX; iAIF++) { /* check command */ if (AIF_control[iAIF] != CMD_DEVICE_OPEN) continue; avsys_info(AVAUDIO, "%d. [%s]\n", iAIF, strAIF[iAIF]); /* check handle exists */ if (g_hAIF[iAIF]) { /* Handle is already opened. * Check if WB is supported and CP handle case */ if (wb_enabled && __is_cp_aif(g_hAIF[iAIF]->type)) { /* CP Handle is already opened with WB enabled . * Determine whether re-open is needed */ if ((bt_enabled && g_hAIF[iAIF]->rate != AIF_NB_RATE) || (!bt_enabled && g_hAIF[iAIF]->rate == AIF_NB_RATE)) { /* CP handle exists and BT enabled with not NB opened => close for reopen CP handle exists and BT disabled with NB opened => close for reopen */ avsys_info(AVAUDIO, "=> Close device for reopen :: %s\n", strAIF[iAIF]); if (AVSYS_FAIL(avsys_audio_alsa_close_AIF_device(g_hAIF[iAIF]))) { avsys_error_r(AVAUDIO, "close %s device failed\n", strAIF[iAIF]); } free(g_hAIF[iAIF]); g_hAIF[iAIF] = NULL; } else { /* CP handle exists and BT enabled with NB opened || CP handle exists and BT disabled with not NB opened */ avsys_info(AVAUDIO, "=> Skip device :: %s\n", strAIF[iAIF]); continue; } } else { /* Not CP case or WB is disabled. No need to reopen */ avsys_info(AVAUDIO, "=> Skip device :: %s\n", strAIF[iAIF]); continue; } } } avsys_info(AVAUDIO, "================== Open & Set Param ================== \n"); /* Iterate control command */ for (iAIF = 0; iAIF < AIF_DEVICE_MAX; iAIF++) { /* check command */ if (AIF_control[iAIF] != CMD_DEVICE_OPEN) continue; avsys_info(AVAUDIO, "%d. [%s]\n", iAIF, strAIF[iAIF]); /* check handle exists */ if (g_hAIF[iAIF]) { /* Not CP case or WB is disabled. No need to reopen */ avsys_info(AVAUDIO, "=> Skip device Already opened!!! :: %s\n", strAIF[iAIF]); continue; } /* memory allocation for handle */ avsys_warning(AVAUDIO, "=> [%s] handle alloc", strAIF[iAIF]); g_hAIF[iAIF] = calloc(sizeof(avsys_audio_handle_t), 1); if (!g_hAIF[iAIF]) { avsys_error_r(AVAUDIO, "=> Can not alloc memory for [%s] device handle", strAIF[iAIF]); err = AVSYS_STATE_ERR_ALLOCATION; continue; } if (AVSYS_FAIL(avsys_audio_alsa_open_AIF_device(iAIF, g_hAIF[iAIF]))) { avsys_error_r(AVAUDIO, "=> open [%s] device failed\n", strAIF[iAIF]); err = AVSYS_STATE_ERR_INVALID_HANDLE; } else { avsys_warning(AVAUDIO, "=> open [%s] device success\n", strAIF[iAIF]); /* Select RATE */ if (__is_cp_aif(g_hAIF[iAIF]->type)) { rate = (wb_enabled && !bt_enabled)? AIF_WB_RATE : AIF_NB_RATE; } else { rate = AIF_CONF_RATE; } if (AVSYS_FAIL(avsys_audio_alsa_set_AIF_params(g_hAIF[iAIF],rate))) { avsys_error_r(AVAUDIO, "=> [%s] device set parameter failed\n", strAIF[iAIF]); err = AVSYS_STATE_ERR_INVALID_PARAMETER; } else { avsys_warning(AVAUDIO, "=> [%s] device set parameter success\n", strAIF[iAIF]); } } } return err; } static void __avsys_close_aif () { int iAIF = 0; for (iAIF = 0; iAIF < AIF_DEVICE_MAX; iAIF++) { if (g_hAIF[iAIF]) { avsys_info(AVAUDIO, "close device :: %s\n", strAIF[iAIF]); if (AVSYS_FAIL(avsys_audio_alsa_close_AIF_device(g_hAIF[iAIF]))) { avsys_error_r(AVAUDIO, "close %s device failed\n", strAIF[iAIF]); } free(g_hAIF[iAIF]); g_hAIF[iAIF] = NULL; avsys_warning(AVAUDIO, "%s device handle free\n", strAIF[iAIF]); } else { avsys_info(AVAUDIO, "skip closing device :: %s\n", strAIF[iAIF]); } } } static int __avsys_audio_release_path (gain_info_t local_gain, avsys_audio_path_ex_info_t *control) { int err = AVSYS_STATE_SUCCESS; int iAIF = 0; bool close_aif_later = false; avsys_warning(AVAUDIO, "Release path for %d %d\n", local_gain.playback, local_gain.capture); switch (local_gain.playback) { case AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL: case AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL: if (getpid() == control->path_fixed_pid[PATH_FIXED_TYPE_CALL]) { if (!control->control_aif_before_path_set) { __avsys_close_aif(); } else { close_aif_later = true; } if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_CODEC_DISABLE_ON_SUSPEND))) { avsys_error_r(AVAUDIO, "[%s] failed to set codec_disable_on_suspend\n", __func__); } } else { if (control->path_fixed_pid[PATH_FIXED_TYPE_CALL] < 0) { avsys_warning(AVAUDIO, "Sound path for call released already\n"); } else { avsys_warning(AVAUDIO, "Try to close call path from other process.. original pid[%d]\n", control->path_fixed_pid[PATH_FIXED_TYPE_CALL]); avsys_warning(AVAUDIO, "Just mark handle as off\n"); } } if ((control->path_fixed & PATH_FIXED_WITH_CALL) == 0) { avsys_error(AVAUDIO, "Call path release without call path request\n"); } control->path_fixed &= ~PATH_FIXED_WITH_CALL; control->path_fixed_pid[PATH_FIXED_TYPE_CALL] = -1; break; case AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO: /* TODO: Reset & Codec disable on suspend script */ if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_CODEC_DISABLE_ON_SUSPEND))) { avsys_error_r(AVAUDIO, "[%s] failed to set codec_disable_on_suspend\n", __func__); } if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_STR_RESET_CAPTURE))) { avsys_error_r(AVAUDIO, "[%s] failed to set reset\n", __func__); } break; default: avsys_warning(AVAUDIO, "unexpected path release\n"); break; } if (control->path_fixed != PATH_FIXED_NONE) { avsys_error(AVAUDIO, "Still remain another path_fixed request : 0x%08X\n", control->path_fixed); avsys_error(AVAUDIO, "This is not expected condition\n"); } else { avsys_warning(AVAUDIO, "Path Release to default condition....\n"); control->gain.playback = AVSYS_AUDIO_PLAYBACK_GAIN_AP; control->gain.capture = AVSYS_AUDIO_CAPTURE_GAIN_AP; control->path.playback = AVSYS_AUDIO_PATH_EX_SPK; control->path.capture = AVSYS_AUDIO_PATH_EX_MIC; if (control->inserted != AVSYS_AUDIO_INSERTED_NONE) { control->path.playback = AVSYS_AUDIO_PATH_EX_HEADSET; if (control->inserted == AVSYS_AUDIO_INSERTED_4) control->path.capture = AVSYS_AUDIO_PATH_EX_HEADSETMIC; } /* Playback */ err = __avsys_audio_path_set_ascn_ap_playback(control); if (AVSYS_SUCCESS(err)) { err = __avsys_audio_path_set_hw_controls(control); if (AVSYS_FAIL(err)) { avsys_error(AVAUDIO, "Update logical volume failure\n"); } } else { avsys_error(AVAUDIO, "Set ap playback failure\n"); } /* Capture */ err = __avsys_audio_path_set_ascn_ap_capture(control); if (AVSYS_FAIL(err)) { avsys_error(AVAUDIO, "Set ap capture failure\n"); } } if (close_aif_later == true) { __avsys_close_aif(); } return err; } int avsys_audio_path_earjack_get_type() { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; int err = AVSYS_STATE_SUCCESS; int ret = 0; temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (control == NULL) return AVSYS_STATE_ERR_NULL_POINTER; if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } ret = control->inserted; if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return ret; } int avsys_audio_path_ex_set_path(int gain, int out, int in, int option) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; gain_info_t local_gain = { -1, -1 }; gain_info_t req_gain = { -1, -1 }; pid_t current_pid; int err = AVSYS_STATE_SUCCESS; char req_release_path = 0; char AIF_control[AIF_DEVICE_MAX] = { CMD_DEVICE_NONE, CMD_DEVICE_NONE, CMD_DEVICE_NONE, CMD_DEVICE_NONE, CMD_DEVICE_NONE }; int iAIF = 0; avsys_warning(AVAUDIO, "=================== [Input Param] gain %d, out %d, in %d, opt 0x%x ====================\n", gain, out, in, option); /* Determine REQUESTs */ switch (gain) { case AVSYS_AUDIO_GAIN_EX_KEYTONE: case AVSYS_AUDIO_GAIN_EX_ALARMTONE: case AVSYS_AUDIO_GAIN_EX_AUDIOPLAYER: case AVSYS_AUDIO_GAIN_EX_VIDEOPLAYER: case AVSYS_AUDIO_GAIN_EX_CAMERA: case AVSYS_AUDIO_GAIN_EX_GAME: req_gain.playback = AVSYS_AUDIO_PLAYBACK_GAIN_AP; req_gain.capture = AVSYS_AUDIO_CAPTURE_GAIN_AP; break; case AVSYS_AUDIO_GAIN_EX_RINGTONE: case AVSYS_AUDIO_GAIN_EX_CALLTONE: req_gain.playback = AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT; break; case AVSYS_AUDIO_GAIN_EX_VOICEREC: case AVSYS_AUDIO_GAIN_EX_CAMCORDER: req_gain.capture = AVSYS_AUDIO_CAPTURE_GAIN_AP; break; case AVSYS_AUDIO_GAIN_EX_VOICECALL: req_gain.playback = AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL; req_gain.capture = AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL; if (out == AVSYS_AUDIO_PATH_EX_NONE && in == AVSYS_AUDIO_PATH_EX_NONE) req_release_path = 1; break; case AVSYS_AUDIO_GAIN_EX_VIDEOCALL: req_gain.playback = AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL; req_gain.capture = AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL; if (out == AVSYS_AUDIO_PATH_EX_NONE && in == AVSYS_AUDIO_PATH_EX_NONE) req_release_path = 1; break; case AVSYS_AUDIO_GAIN_EX_FMRADIO: req_gain.playback = AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO; req_gain.capture = AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO; if (out == AVSYS_AUDIO_PATH_EX_NONE && in == AVSYS_AUDIO_PATH_EX_NONE) req_release_path = 1; break; } /* Get avsys shared memeory */ temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } /* LOCK */ if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } current_pid = getpid(); /* moved from below */ /* Check FORCED option */ if (option & AVSYS_AUDIO_PATH_OPTION_FORCED) { DO_IF_VALID(req_gain.playback, local_gain.playback = req_gain.playback) DO_IF_VALID(req_gain.capture, local_gain.capture = req_gain.capture) } else { DO_IF_VALID(req_gain.playback, local_gain.playback = g_playback_gain_select_data[control->gain.playback][req_gain.playback]) DO_IF_VALID(req_gain.capture, local_gain.capture = g_capture_gain_select_data[control->gain.capture][req_gain.capture]) } avsys_info(AVAUDIO, "Gain : req(%d,%d) local(%d,%d)\n", req_gain.playback, req_gain.capture, local_gain.playback, local_gain.capture); /* Check path fixed process alive. */ if (control->path_fixed & PATH_FIXED_WITH_CALL) { if (AVSYS_FAIL(avsys_check_process(control->path_fixed_pid[PATH_FIXED_TYPE_CALL]))) { control->path_fixed &= ~PATH_FIXED_WITH_CALL; } } if (control->path_fixed == PATH_FIXED_NONE) { /* forced gain setting when path fixed by dead process */ if (req_gain.playback != local_gain.playback) { local_gain.playback = req_gain.playback; } if (req_gain.capture != local_gain.capture) { local_gain.capture = req_gain.capture; } } if (CHECK_VALID(local_gain.playback)) { if (g_playback_path_select_data[local_gain.playback][out] == 0) { avsys_error(AVAUDIO, "[PLAYBACK] Does not support request sound path : conv gain %d, out path %d\n", local_gain.playback, out); if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return AVSYS_STATE_ERR_INVALID_STATE; } } if (CHECK_VALID(local_gain.capture)) { if (g_capture_path_select_data[local_gain.capture][in] == 0) { avsys_error(AVAUDIO, "[CAPTURE] Does not support request sound path : conv gain %d, in path %d\n", local_gain.capture, in); if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return AVSYS_STATE_ERR_INVALID_STATE; } } /* overwrite local_gain with current gain if it is simplex sound path */ DO_IF_INVALID(local_gain.playback, local_gain.playback = control->gain.playback) DO_IF_INVALID(local_gain.capture, local_gain.capture = control->gain.capture) control->pregain = control->gain; control->gain = local_gain; DO_IF_VALID(req_gain.playback, control->reqgain.playback = req_gain.playback) DO_IF_VALID(req_gain.capture, control->reqgain.capture = req_gain.capture) DO_IF_VALID(local_gain.playback, control->option.playback = option) DO_IF_VALID(local_gain.capture, control->option.capture = option) /* Check for Release PATH */ if (req_release_path && (req_gain.playback == local_gain.playback) && (req_gain.capture == local_gain.capture)) { avsys_warning(AVAUDIO,"Release path for %d %d\n", local_gain.playback, local_gain.capture); err = __avsys_audio_release_path(local_gain, control); goto FINISHED; } if (CHECK_VALID(req_gain.playback)) { if(req_gain.playback != local_gain.playback) { avsys_warning(AVAUDIO, "Sound Path is protected. use current configuration (playback_gain %d, out %d, opt 0x%x)\n", local_gain.playback, control->path.playback, control->option.playback); if (req_gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_AP) { control->backup_gain.playback = control->reqgain.playback; control->backup_path.playback = out; } } else { control->path.playback = out; control->backup_gain.playback = local_gain.playback; control->backup_path.playback = out; switch (local_gain.playback) { case AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT: if (control->path.playback == AVSYS_AUDIO_PATH_EX_BTHEADSET) { SET_AIF(AIF_BT_PLAYBACK); SET_AIF(AIF_BT_CAPTURE); } break; case AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL: case AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL: /* Set CP only for voicecall */ if (local_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL) { SET_AIF(AIF_CP_PLAYBACK); } /* Voicecall / Videocall Common setting */ control->path_fixed_pid[PATH_FIXED_TYPE_CALL] = current_pid; if (control->path.playback == AVSYS_AUDIO_PATH_EX_BTHEADSET) { SET_AIF(AIF_BT_PLAYBACK); } break; case AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO: control->path_fixed_pid[PATH_FIXED_TYPE_FMRADIO] = current_pid; SET_AIF(AIF_RADIO_PLAYBACK); break; } } } if (CHECK_VALID(req_gain.capture)) { if (req_gain.capture != local_gain.capture) { avsys_warning(AVAUDIO, "Sound Path is protected. use current configuration (capture_gain %d, in %d, opt 0x%x)\n", local_gain.capture, control->path.capture, control->option.capture); if (req_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_AP) { control->backup_gain.capture = control->reqgain.capture; control->backup_path.capture = in; } } else { control->path.capture = in; control->backup_gain.capture = local_gain.capture; control->backup_path.capture = in; switch (local_gain.capture) { case AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL: case AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL: /* Set CP only for voicecall */ if (local_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL) { SET_AIF(AIF_CP_CAPTURE); } /* Voicecall / Videocall Common setting */ control->path_fixed_pid[PATH_FIXED_TYPE_CALL] = current_pid; if (control->path.capture == AVSYS_AUDIO_PATH_EX_BTMIC) { SET_AIF(AIF_BT_CAPTURE); } break; case AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO: control->path_fixed_pid[PATH_FIXED_TYPE_FMRADIO] = current_pid; break; } } } /* Open AIFs */ if (control->control_aif_before_path_set) { err = __avsys_open_aif(AIF_control, control->wb_enabled); } /* Do ALSA scenario control based on gain */ /* Playback */ if (local_gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_AP) { avsys_warning(AVAUDIO, "playback gain : ap\n"); err = __avsys_audio_path_set_ascn_ap_playback(control); if (AVSYS_SUCCESS(err)) { err = __avsys_audio_path_set_hw_controls(control); } } else if(local_gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT) { avsys_warning(AVAUDIO,"playback gain : callalert\n"); err = __avsys_audio_path_set_ascn_ap_playback(control); if (AVSYS_SUCCESS(err)) { err = __avsys_audio_path_set_hw_controls(control); } } else if (local_gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO && local_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_FMRADIO) { avsys_warning(AVAUDIO, "fmradio gain\n"); err = __avsys_audio_path_set_ascn_fmradio(control); } else if (local_gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL && local_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_VOICECALL) { avsys_warning(AVAUDIO, "voicecall gain\n"); err = __avsys_audio_path_set_ascn_voicecall(control); } else if (local_gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL && local_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_VIDEOCALL) { avsys_warning(AVAUDIO, "videocall gain\n"); err = __avsys_audio_path_set_ascn_videocall(control); } /* Capture */ if (local_gain.capture == AVSYS_AUDIO_CAPTURE_GAIN_AP) { avsys_warning(AVAUDIO, "capture gain : ap\n"); err = __avsys_audio_path_set_ascn_ap_capture(control); } if (!control->control_aif_before_path_set) { err = __avsys_open_aif(AIF_control, control->wb_enabled); } FINISHED: /* UnLOCK */ if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } avsys_info(AVAUDIO, "------------------------------------------------\n"); return err; } int avsys_audio_path_ex_get_path(int *gain, int *out, int *in, int *option) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t ** temp = NULL; if(gain == NULL || out == NULL || in == NULL || option == NULL) { avsys_error(AVAUDIO,"Invalid parameter\n"); return AVSYS_STATE_ERR_NULL_POINTER; } temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } switch (control->gain.playback) { case AVSYS_AUDIO_PLAYBACK_GAIN_AP: *gain = AVSYS_AUDIO_GAIN_EX_KEYTONE; *out = control->path.playback; *in = AVSYS_AUDIO_PATH_EX_NONE; *option = control->option.playback; break; case AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT: *gain = AVSYS_AUDIO_GAIN_EX_RINGTONE; *out = control->path.playback; *in = AVSYS_AUDIO_PATH_EX_NONE; *option = control->option.playback; break; case AVSYS_AUDIO_PLAYBACK_GAIN_VOICECALL: *gain = AVSYS_AUDIO_GAIN_EX_VOICECALL; *out = control->path.playback; *in = control->path.capture; *option = control->option.playback; break; case AVSYS_AUDIO_PLAYBACK_GAIN_VIDEOCALL: *gain = AVSYS_AUDIO_GAIN_EX_VIDEOCALL; *out = control->path.playback; *in = control->path.capture; *option = control->option.playback; break; case AVSYS_AUDIO_PLAYBACK_GAIN_FMRADIO: *gain = AVSYS_AUDIO_GAIN_EX_FMRADIO; *out = control->path.playback; *in = control->path.capture; *option = control->option.playback; break; } if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return AVSYS_STATE_SUCCESS; } int avsys_audio_path_ex_set_amp(const int onoff) { //not yet implemented. return AVSYS_STATE_SUCCESS; } int avsys_audio_path_ex_set_mute(const int mute) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (control == NULL) { return AVSYS_STATE_ERR_NULL_POINTER; } if (mute == AVSYS_AUDIO_UNMUTE || mute == AVSYS_AUDIO_MUTE) { if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (control->mute == mute) { avsys_info(AVAUDIO, "[Path Mute] skip mute ctrl op: %d\n", mute); if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() 2 failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return AVSYS_STATE_SUCCESS; } else { control->mute = mute; avsys_warning(AVAUDIO, "[Path Mute] run mute ctrl op: %d\n", mute); } if (control->mute) { if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_STR_PLAYBACK_MUTE))) { if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() 1 failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } avsys_error(AVAUDIO, "Mute fail %s\n", __func__); return AVSYS_STATE_ERR_IO_CONTROL; } } else { if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_STR_PLAYBACK_UNMUTE))) { if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() 1 failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } avsys_error(AVAUDIO, "Unmute fail %s\n", __func__); return AVSYS_STATE_ERR_IO_CONTROL; } } if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() 2 failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } } else { int mute_nolock; if (mute == AVSYS_AUDIO_UNMUTE_NOLOCK) /* set nomalize */ mute_nolock = AVSYS_AUDIO_UNMUTE; else mute_nolock = AVSYS_AUDIO_MUTE; if (control->mute == mute_nolock) { avsys_info(AVAUDIO, "[Path Mute] skip mute ctrl op: %d\n", mute); return AVSYS_STATE_SUCCESS; } else { control->mute = mute_nolock; avsys_warning(AVAUDIO, "[Path Mute] run mute ctrl op: %d\n", mute); } if (control->mute) { if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_STR_PLAYBACK_MUTE))) { avsys_error(AVAUDIO, "Mute fail %s\n", __func__); return AVSYS_STATE_ERR_IO_CONTROL; } } else { if (AVSYS_FAIL(avsys_audio_ascn_single_set(ASCN_STR_PLAYBACK_UNMUTE))) { avsys_error(AVAUDIO, "Unmute fail %s\n", __func__); return AVSYS_STATE_ERR_IO_CONTROL; } } } if (mute == AVSYS_AUDIO_UNMUTE || mute == AVSYS_AUDIO_UNMUTE_NOLOCK) avsys_info_r(AVAUDIO, "Global Mute Disabled\n"); else if (mute == AVSYS_AUDIO_MUTE || mute == AVSYS_AUDIO_MUTE_NOLOCK) avsys_info_r(AVAUDIO, "Global Mute Enabled\n"); return AVSYS_STATE_SUCCESS; } int avsys_audio_path_ex_get_mute(int *mute) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; temp = &control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))) { avsys_error_r(AVAUDIO, "avsys_audio_get_shm() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } if (control == NULL) { return AVSYS_STATE_ERR_NULL_POINTER; } if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } *mute = control->mute; if (AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))) { avsys_error_r(AVAUDIO, "avsys_audio_unlock_sync() failed in %s\n", __func__); return AVSYS_STATE_ERR_INTERNAL; } return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_set_ascn_ap_playback(avsys_audio_path_ex_info_t *control) { int cmd_gain[2] = { 0, 0 }; int cmd_path[3] = { 0, 0, 0 }; char callalert_mode = 0; avsys_info(AVAUDIO, "<< path.playback = %d, option = %x, gain.playback = %d, inserted = %d\n", control->path.playback, control->option.playback, control->gain.playback, control->inserted); callalert_mode = (control->gain.playback == AVSYS_AUDIO_PLAYBACK_GAIN_CALLALERT) ? 1 : 0; control->path_fixed = PATH_FIXED_NONE; switch (control->path.playback) { case AVSYS_AUDIO_PATH_EX_SPK: if (control->option.playback & AVSYS_AUDIO_PATH_OPTION_DUAL_OUT) { if (callalert_mode) { cmd_gain[0] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_CALLALERT; cmd_gain[1] = INPUT_AP | OUTPUT_HEADSET | GAIN_CALLALERT; } else { cmd_gain[0] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_MODE; cmd_gain[1] = INPUT_AP | OUTPUT_HEADSET | GAIN_MODE; } cmd_path[0] = INPUT_AP | OUTPUT_STEREO_SPK; cmd_path[1] = INPUT_AP | OUTPUT_HEADSET; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } else { if (callalert_mode) { cmd_gain[0] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_CALLALERT; } else { cmd_gain[0] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_MODE; } control->ear_auto = AVSYS_AUDIO_EAR_SWITCH_AUTO_WITHOUT_MUTE; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; cmd_path[0] = INPUT_AP | OUTPUT_STEREO_SPK; } break; case AVSYS_AUDIO_PATH_EX_RECV: control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; cmd_gain[0] = INPUT_AP | OUTPUT_RECV | GAIN_MODE; cmd_path[0] = INPUT_AP | OUTPUT_RECV; break; case AVSYS_AUDIO_PATH_EX_HEADSET: if (callalert_mode) { cmd_gain[0] = INPUT_AP | OUTPUT_HEADSET | GAIN_CALLALERT; } else { cmd_gain[0] = INPUT_AP | OUTPUT_HEADSET | GAIN_MODE; } control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_HEADSET; cmd_path[0] = INPUT_AP | OUTPUT_HEADSET; break; case AVSYS_AUDIO_PATH_EX_HDMI: control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; cmd_gain[0] = INPUT_AP | OUTPUT_HDMI | GAIN_MODE; cmd_path[0] = INPUT_AP | OUTPUT_HDMI; break; case AVSYS_AUDIO_PATH_EX_DOCK: control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; cmd_gain[0] = INPUT_AP | OUTPUT_DOCK | GAIN_MODE; cmd_path[0] = INPUT_AP | OUTPUT_DOCK; break; case AVSYS_AUDIO_PATH_EX_BTHEADSET: control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_BTHEADSET; cmd_gain[0] = INPUT_AP | OUTPUT_BT_HEADSET | GAIN_MODE; cmd_path[0] = INPUT_AP | OUTPUT_BT_HEADSET; break; case AVSYS_AUDIO_PATH_EX_HANDSFREE: default: /* DEFAULT PATH CONTROL TO NONE */ control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; break; } avsys_warning(AVAUDIO, "Run Alsa Scenario Script\n"); RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_gain, 2, ASCN_RESET_PLAYBACK)) RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_path, 2, ASCN_RESET_NONE)) avsys_info(AVAUDIO, ">> leave"); return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_set_ascn_voicecall(avsys_audio_path_ex_info_t *control) { int cmd_gain[6] = { 0, 0, 0, 0, 0, 0 }; int cmd_path[6] = { 0, 0, 0, 0, 0, 0 }; int gain_idx = 0; int path_idx = 0; control->path_fixed = PATH_FIXED_WITH_CALL; avsys_info(AVAUDIO, "<< path.playback = %d, option = %x, gain.playback = %d, inserted = %d\n", control->path.playback, control->option.playback, control->gain.playback, control->inserted); /* PLAYBACK */ switch (control->path.playback) { case AVSYS_AUDIO_PATH_EX_NONE: avsys_warning(AVAUDIO, "[SZ] playback AVSYS_AUDIO_PATH_EX_NONE\n"); break; case AVSYS_AUDIO_PATH_EX_SPK: if (control->reqgain.playback == control->gain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_STEREO_SPK; cmd_gain[gain_idx++] = INPUT_CP | OUTPUT_STEREO_SPK | GAIN_VOICE_CALL; cmd_path[path_idx++] = INPUT_CP | OUTPUT_STEREO_SPK; } else { avsys_warning(AVAUDIO, "Ignore another path setting request during voicecall\n"); } break; case AVSYS_AUDIO_PATH_EX_RECV: if (control->gain.playback == control->reqgain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_RECV | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_RECV; cmd_gain[gain_idx++] = INPUT_CP | OUTPUT_RECV | GAIN_VOICE_CALL; cmd_path[path_idx++] = INPUT_CP | OUTPUT_RECV; } else { avsys_warning(AVAUDIO, "Ignore another path setting request during voicecall\n"); } break; case AVSYS_AUDIO_PATH_EX_HEADSET: if (control->reqgain.playback == control->gain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_HEADSET | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_HEADSET; cmd_gain[gain_idx++] = INPUT_CP | OUTPUT_HEADSET | GAIN_VOICE_CALL; cmd_path[path_idx++] = INPUT_CP | OUTPUT_HEADSET; } else { avsys_warning(AVAUDIO, "Ignore another path setting request during voicecall\n"); } break; case AVSYS_AUDIO_PATH_EX_BTHEADSET: if (control->reqgain.playback == control->gain.playback) { control->ear_auto = AVSYS_AUDIO_EAR_SWITCH_AUTO_WITH_MUTE; cmd_gain[gain_idx++] = INPUT_CP | OUTPUT_BT_HEADSET | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_BT_HEADSET; cmd_path[path_idx++] = INPUT_CP | OUTPUT_BT_HEADSET; } else { avsys_warning(AVAUDIO, "Ignore another path setting request during voicecall\n"); } break; case AVSYS_AUDIO_PATH_EX_HANDSFREE: default: if (control->reqgain.playback == control->gain.playback) { control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } break; } /* Add sound path CP to AP (Rx recording) */ if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC) { avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC\n"); //cmd_path[path_idx++] = INPUT_CP | OUTPUT_AP; } /* CAPTURE */ switch (control->path.capture) { case AVSYS_AUDIO_PATH_EX_NONE: avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_EX_NONE\n"); break; case AVSYS_AUDIO_PATH_EX_MIC: if (control->reqgain.capture == control->gain.capture) { if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_USE_SUBMIC) { cmd_gain[gain_idx++] = INPUT_SUB_MIC | OUTPUT_CP | GAIN_MODE; cmd_path[path_idx++] = INPUT_SUB_MIC | OUTPUT_CP; if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC) { avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC\n"); //cmd_path[path_idx++] = INPUT_SUB_MIC | OUTPUT_AP; } } else { cmd_gain[gain_idx++] = INPUT_MAIN_MIC | OUTPUT_CP | GAIN_MODE; cmd_path[path_idx++] = INPUT_MAIN_MIC | OUTPUT_CP; if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC) { avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC\n"); //cmd_path[path_idx++] = INPUT_MAIN_MIC | OUTPUT_AP; } } } break; case AVSYS_AUDIO_PATH_EX_HEADSETMIC: if (control->reqgain.capture == control->gain.capture) { cmd_gain[gain_idx++] = INPUT_EAR_MIC | OUTPUT_CP | GAIN_MODE; cmd_path[path_idx++] = INPUT_EAR_MIC | OUTPUT_CP; if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC) { avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC\n"); //cmd_path[path_idx++] = INPUT_EAR_MIC | OUTPUT_AP; } } break; case AVSYS_AUDIO_PATH_EX_BTMIC: if (control->reqgain.capture == control->gain.capture) { cmd_gain[gain_idx++] = INPUT_BT_MIC | OUTPUT_CP | GAIN_MODE; cmd_path[path_idx++] = INPUT_BT_MIC | OUTPUT_CP; if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC) { avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_OPTION_VOICECALL_REC\n"); //avsys_error(AVAUDIO, "BT Call recording is not supported"); } } break; case AVSYS_AUDIO_PATH_EX_HANDSFREE: default: break; } RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_single_set(ASCN_STR_RESET)); RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_gain, 6, ASCN_RESET_NONE)); RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_path, 6, ASCN_RESET_NONE)); avsys_info(AVAUDIO, ">> leave"); return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_set_ascn_videocall(avsys_audio_path_ex_info_t *control) { int cmd_gain[2] = { 0, 0 }; int cmd_path[3] = { 0, 0, 0 }; int gain_idx = 0; int path_idx = 0; control->path_fixed = PATH_FIXED_WITH_CALL; switch (control->path.playback) { case AVSYS_AUDIO_PATH_EX_NONE: avsys_warning(AVAUDIO, "[SZ] playback AVSYS_AUDIO_PATH_EX_NONE\n"); break; case AVSYS_AUDIO_PATH_EX_SPK: if (control->reqgain.playback == control->gain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_STEREO_SPK; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } else { avsys_warning(AVAUDIO, "Sound Path request during VT call ignored."); } break; case AVSYS_AUDIO_PATH_EX_RECV: if (control->gain.playback == control->reqgain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_RECV | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_RECV; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } else { avsys_warning(AVAUDIO, "Sound Path request during VT call ignored."); } break; case AVSYS_AUDIO_PATH_EX_HEADSET: if (control->reqgain.playback == control->gain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_HEADSET | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_HEADSET; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_HEADSET; } else { avsys_warning(AVAUDIO, "Sound Path request during VT call ignored."); } break; case AVSYS_AUDIO_PATH_EX_BTHEADSET: if (control->reqgain.playback == control->gain.playback) { cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_BT_HEADSET | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_BT_HEADSET; control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_BTHEADSET; } else { avsys_warning(AVAUDIO, "Sound Path request during VT call ignored."); } break; case AVSYS_AUDIO_PATH_EX_HANDSFREE: default: if (control->reqgain.playback == control->gain.playback) { control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; } break; } switch (control->path.capture) { case AVSYS_AUDIO_PATH_EX_NONE: avsys_warning(AVAUDIO, "[SZ] capture AVSYS_AUDIO_PATH_EX_NONE\n"); break; case AVSYS_AUDIO_PATH_EX_MIC: if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_USE_SUBMIC) { cmd_gain[gain_idx++] = INPUT_SUB_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[path_idx++] = INPUT_SUB_MIC | OUTPUT_AP; } else { cmd_gain[gain_idx++] = INPUT_MAIN_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[path_idx++] = INPUT_MAIN_MIC | OUTPUT_AP; } break; case AVSYS_AUDIO_PATH_EX_HEADSETMIC: cmd_gain[gain_idx++] = INPUT_EAR_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[path_idx++] = INPUT_EAR_MIC | OUTPUT_AP; break; case AVSYS_AUDIO_PATH_EX_BTMIC: cmd_gain[gain_idx++] = INPUT_BT_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[path_idx++] = INPUT_BT_MIC | OUTPUT_AP; break; case AVSYS_AUDIO_PATH_EX_HANDSFREE: default: break; } RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_single_set(ASCN_STR_RESET)); RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_gain, 2, ASCN_RESET_NONE)); RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_path, 2, ASCN_RESET_NONE)); return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_set_ascn_fmradio(avsys_audio_path_ex_info_t *control) { int cmd_gain[2] = { 0, 0 }; int cmd_path[3] = { 0, 0, 0 }; int skip_clear = 0; int skip_clear_record = 0; int gain_idx = 0; int path_idx = 0; avsys_warning(AVAUDIO, "req gain playback [%x], control gain playback [%x]\n", control->reqgain.playback, control->gain.playback); avsys_warning(AVAUDIO, "req gain capture [%x], control gain capture [%x]\n", control->reqgain.capture, control->gain.capture); switch (control->path.playback) { case AVSYS_AUDIO_PATH_EX_NONE: avsys_warning(AVAUDIO, "[SZ] playback AVSYS_AUDIO_PATH_EX_NONE\n"); break; case AVSYS_AUDIO_PATH_EX_SPK: if (control->reqgain.playback == control->gain.playback) { avsys_warning(AVAUDIO, "req gain playback == control gain playback\n"); cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_STEREO_SPK | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_STEREO_SPK; } else { avsys_warning(AVAUDIO, "req gain playback != control gain playback\n"); /* append ap playback sound path */ control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; cmd_path[path_idx++] = INPUT_AP | OUTPUT_STEREO_SPK; skip_clear = 1; } break; case AVSYS_AUDIO_PATH_EX_HEADSET: if (control->reqgain.playback == control->gain.playback) { avsys_warning(AVAUDIO, "req gain playback == control gain playback\n"); cmd_gain[gain_idx++] = INPUT_AP | OUTPUT_HEADSET | GAIN_MODE; cmd_path[path_idx++] = INPUT_AP | OUTPUT_HEADSET; } else { //append ap playback avsys_warning(AVAUDIO, "req gain playback != control gain playback\n"); control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_HEADSET; cmd_path[path_idx++] = INPUT_AP | OUTPUT_HEADSET; skip_clear = 1; } break; case AVSYS_AUDIO_PATH_EX_A2DP: if (control->reqgain.playback == control->gain.playback) { avsys_warning(AVAUDIO, "req gain playback == control gain playback\n"); //control->ear_auto = AVSYS_AUDIO_EAR_SWITCH_MANUAL; } else { avsys_warning(AVAUDIO, "req gain playback != control gain playback\n"); control->lvol_dev_type = AVSYS_AUDIO_LVOL_DEV_TYPE_BTHEADSET; skip_clear = 1; } break; default: break; } switch (control->path.capture) { case AVSYS_AUDIO_PATH_EX_FMINPUT: if (control->reqgain.capture == control->gain.capture) { avsys_warning(AVAUDIO, "req gain capture == control gain capture\n"); cmd_path[path_idx++] = INPUT_FMRADIO | OUTPUT_AP | GAIN_MODE; cmd_path[path_idx++] = INPUT_FMRADIO | OUTPUT_AP; if (control->reqgain.capture == control->pregain.capture) { avsys_warning(AVAUDIO, "req gain capture == control pregain capture\n"); skip_clear_record = 1; } } break; default: break; } if (skip_clear_record) { RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_single_set(ASCN_STR_RESET_PLAYBACK)) } else if (!skip_clear) { RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_single_set(ASCN_STR_RESET)) } RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_gain, gain_idx, ASCN_RESET_NONE)) RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_path, path_idx, ASCN_RESET_NONE)) return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_set_ascn_ap_capture(avsys_audio_path_ex_info_t *control) { int cmd_gain[2] = { 0, 0 }; int cmd_path[3] = { 0, 0, 0 }; avsys_info(AVAUDIO, "<< path.capture = %d, option = %x, gain.capture = %d, inserted = %d\n", control->path.capture, control->option.capture, control->gain.capture, control->inserted); switch(control->path.capture) { case AVSYS_AUDIO_PATH_EX_MIC: control->ear_auto = AVSYS_AUDIO_EAR_SWITCH_AUTO_WITHOUT_MUTE; if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_USE_SUBMIC) { cmd_gain[0] = INPUT_SUB_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[0] = INPUT_SUB_MIC | OUTPUT_AP; } else if (control->option.capture & AVSYS_AUDIO_PATH_OPTION_USE_STEREOMIC) { cmd_gain[0] = INPUT_STEREO_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[0] = INPUT_STEREO_MIC | OUTPUT_AP; } else { cmd_gain[0] = INPUT_MAIN_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[0] = INPUT_MAIN_MIC | OUTPUT_AP; } break; case AVSYS_AUDIO_PATH_EX_HEADSETMIC: cmd_gain[0] = INPUT_EAR_MIC | OUTPUT_AP | GAIN_MODE; cmd_path[0] = INPUT_EAR_MIC | OUTPUT_AP; break; default: break; } RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_gain, 2, ASCN_RESET_CAPTURE)) RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_bulk_set(cmd_path, 2, ASCN_RESET_NONE)) avsys_info (AVAUDIO, ">> leave"); return AVSYS_STATE_SUCCESS; } static int __avsys_audio_path_set_hw_controls(avsys_audio_path_ex_info_t *control) { avsys_audio_handle_info_t *handle_control = NULL; avsys_audio_handle_info_t **temp = NULL; int ret = AVSYS_STATE_SUCCESS; avsys_info(AVAUDIO, "global mute %d\n", control->mute); avsys_info(AVAUDIO, "path_fixed mute %d\n", control->path_fixed); /* update logical volume table - about output device - information for open handles */ avsys_info(AVAUDIO, "Control handle informations\n"); { avsys_audio_handle_t *ptr = NULL; int handle = -1; int out_device = AVSYS_AUDIO_LVOL_DEV_TYPE_SPK; temp = &handle_control; if (AVSYS_FAIL(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_HANDLE, (void**)temp))) { avsys_error(AVAUDIO, "avsys_audio_get_shm() failed in %s\n",__func__); return AVSYS_STATE_ERR_INTERNAL; } if (AVSYS_FAIL(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_HANDLE))) { avsys_error(AVAUDIO, "avsys_audio_lock_sync() failed in %s\n",__func__); return AVSYS_STATE_ERR_INTERNAL; } while (++handle < AVSYS_AUDIO_HANDLE_MAX) { long long int flag = 0x01; flag <<= handle; if (handle_control->allocated & flag) { ptr = &(handle_control->handles[handle]); if (ptr->mode != AVSYS_AUDIO_MODE_OUTPUT && ptr->mode != AVSYS_AUDIO_MODE_OUTPUT_CLOCK && ptr->mode != AVSYS_AUDIO_MODE_OUTPUT_LOW_LATENCY && ptr->mode != AVSYS_AUDIO_MODE_OUTPUT_AP_CALL) { continue; } ptr->path_off = 0; out_device = control->lvol_dev_type; avsys_audio_logical_volume_update_table(out_device, &ptr->gain_setting); avsys_audio_logical_volume_convert(&ptr->setting_vol, &ptr->working_vol, &ptr->gain_setting); } } if(AVSYS_FAIL(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_HANDLE))) { avsys_error(AVAUDIO,"avsys_audio_unlock_sync() failed in %s\n",__func__); return AVSYS_STATE_ERR_INTERNAL; } } return AVSYS_STATE_SUCCESS; } static bool __avsys_audio_path_check_cp_audio(int gain) { /*If video call uses CP audio, add AVSYS_AUDIO_GAIN_EX_VIDEOCALL to following code. */ if (gain == AVSYS_AUDIO_GAIN_EX_VOICECALL) return true; else return false; } int avsys_audio_path_set_volume(int handle) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; avsys_audio_handle_t *ptr = NULL; int err; int vol_conf, vol_conf_type; int out_device = AVSYS_AUDIO_DEVICE_TYPE_SPK; err = avsys_audio_handle_get_ptr(handle, &ptr, HANDLE_PTR_MODE_NORMAL); if (AVSYS_FAIL(err)) { avsys_error(AVAUDIO, "Handle is not allocated\n"); avsys_audio_handle_release_ptr(handle, HANDLE_PTR_MODE_NORMAL); return AVSYS_STATE_ERR_INVALID_PARAMETER; } temp = &control; avsys_assert(AVSYS_SUCCESS(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))); avsys_assert(control != NULL); avsys_assert(AVSYS_SUCCESS(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))); if (__avsys_audio_path_check_cp_audio(control->gain.playback)) ptr->during_cp_audio = 1; else ptr->during_cp_audio = 0; vol_conf = ptr->gain_setting.volume_config; vol_conf_type = AVSYS_AUDIO_VOLUME_CONFIG_TYPE(vol_conf); out_device = control->lvol_dev_type; avsys_assert(AVSYS_SUCCESS(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))); avsys_warning(AVAUDIO, "set path volume : gain(%d), out_dev(%d)\n", vol_conf_type, out_device); err = avsys_audio_logical_volume_set_table(vol_conf, out_device, &ptr->gain_setting); avsys_audio_handle_release_ptr(handle, HANDLE_PTR_MODE_NORMAL); return err; } int avsys_audio_path_set_route_policy(avsys_audio_route_policy_t route) { /* Deprecated */ return 0; } int avsys_audio_path_get_route_policy(avsys_audio_route_policy_t *route) { /* Deprecated */ return 0; } int avsys_audio_path_check_cp_audio(bool *cpaudio, bool *btpath) { avsys_audio_path_ex_info_t *control = NULL; avsys_audio_path_ex_info_t **temp = NULL; if (!cpaudio || !btpath) return AVSYS_STATE_ERR_INVALID_PARAMETER; temp = &control; avsys_assert(AVSYS_SUCCESS(avsys_audio_get_shm(AVSYS_AUDIO_SHM_IDEN_PATH, (void **)temp))); avsys_assert(control != NULL); avsys_assert(AVSYS_SUCCESS(avsys_audio_lock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))); if (__avsys_audio_path_check_cp_audio(control->gain.playback)) *cpaudio = true; else *cpaudio = false; if (control->path.playback == AVSYS_AUDIO_PATH_EX_BTHEADSET) *btpath = true; else *btpath = false; avsys_assert(AVSYS_SUCCESS(avsys_audio_unlock_sync(AVSYS_AUDIO_SYNC_IDEN_PATH))); return AVSYS_STATE_SUCCESS; } int avsys_audio_path_set_single_ascn(char *str) { if (!str) return AVSYS_STATE_ERR_INVALID_PARAMETER; RET_IO_CTL_ERR_IF_FAIL(avsys_audio_ascn_single_set(str)) return AVSYS_STATE_SUCCESS; }