/* * Copyright (C) 2018 The Android Open Source Project * * 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. */ #define LOG_TAG "audio_hw_waves" /*#define LOG_NDEBUG 0*/ #include #include #include #include #include #include #include #include #include #include #include #include "audio_extn.h" #include "maxxaudio.h" #define LIB_MA_PARAM "libmaxxaudioqdsp.so" #define LIB_MA_PATH "vendor/lib/" #define PRESET_PATH "/vendor/etc" #define MPS_BASE_STRING "default" #define USER_PRESET_PATH "" #define CONFIG_BASE_STRING "maxx_conf" #define CAL_PRESIST_STR "cal_persist" #define CAL_SAMPLERATE_STR "cal_samplerate" #define MA_QDSP_PARAM_INIT "maxxaudio_qdsp_initialize" #define MA_QDSP_PARAM_DEINIT "maxxaudio_qdsp_uninitialize" #define MA_QDSP_IS_FEATURE_USED "maxxaudio_qdsp_is_feature_supported" #define MA_QDSP_SET_LR_SWAP "maxxaudio_qdsp_set_lr_swap" #define MA_QDSP_SET_ORIENTATION "maxxaudio_qdsp_set_orientation" #define MA_QDSP_SET_MODE "maxxaudio_qdsp_set_sound_mode" #define MA_QDSP_SET_VOL "maxxaudio_qdsp_set_volume" #define MA_QDSP_SET_VOLT "maxxaudio_qdsp_set_volume_table" #define MA_QDSP_SET_PARAM "maxxaudio_qdsp_set_parameter" #define SUPPORT_DEV "18d1:5033" // Blackbird usbid #define SUPPORTED_USB 0x01 typedef unsigned int effective_scope_flag_t; const effective_scope_flag_t EFFECTIVE_SCOPE_RTC = 1 << 0; /* RTC */ const effective_scope_flag_t EFFECTIVE_SCOPE_ACDB = 1 << 1; /* ACDB */ const effective_scope_flag_t EFFECTIVE_SCOPE_ALL = EFFECTIVE_SCOPE_RTC | EFFECTIVE_SCOPE_ACDB; const effective_scope_flag_t EFFECTIVE_SCOPE_NONE = 0; const effective_scope_flag_t EFFECTIVE_SCOPE_DEFAULT = EFFECTIVE_SCOPE_NONE; const unsigned int AUDIO_CAL_SETTINGS_VERSION_MAJOR = 2; const unsigned int AUDIO_CAL_SETTINGS_VERSION_MINOR = 0; const unsigned int AUDIO_CAL_SETTINGS_VERSION_MAJOR_DEFAULT = AUDIO_CAL_SETTINGS_VERSION_MAJOR; const unsigned int AUDIO_CAL_SETTINGS_VERSION_MINOR_DEFAULT = AUDIO_CAL_SETTINGS_VERSION_MINOR; const unsigned int VALUE_AUTO = 0xFFFFFFFF; const unsigned int APP_TYPE_AUTO = VALUE_AUTO; const unsigned int APP_TYPE_DEFAULT = APP_TYPE_AUTO; const unsigned int DEVICE_AUTO = VALUE_AUTO; const unsigned int DEVICE_DEFAULT = DEVICE_AUTO; const unsigned int MAAP_OUTPUT_GAIN = 27; typedef enum MA_STREAM_TYPE { STREAM_MIN_TYPES = 0, STREAM_VOICE = STREAM_MIN_TYPES, STREAM_SYSTEM, STREAM_RING, STREAM_MUSIC, STREAM_ALARM, STREAM_NOTIFICATION , STREAM_MAX_TYPES, } ma_stream_type_t; typedef enum MA_CMD { MA_CMD_VOL, MA_CMD_SWAP_ENABLE, MA_CMD_SWAP_DISABLE, MA_CMD_ROTATE_ENABLE, MA_CMD_ROTATE_DISABLE, } ma_cmd_t; typedef struct ma_audio_cal_version { unsigned int major; unsigned int minor; } ma_audio_cal_version_t; typedef struct ma_audio_cal_common_settings { unsigned int app_type; unsigned int device; } ma_audio_cal_common_settings_t; struct ma_audio_cal_settings { ma_audio_cal_version_t version; ma_audio_cal_common_settings_t common; effective_scope_flag_t effect_scope_flag; }; struct ma_state { float vol; bool active; }; typedef void *ma_audio_cal_handle_t; typedef int (*set_audio_cal_t)(const char *); typedef bool (*ma_param_init_t)(ma_audio_cal_handle_t *, const char *, const char *, const char *, set_audio_cal_t); typedef bool (*ma_param_deinit_t)(ma_audio_cal_handle_t *); typedef bool (*ma_is_feature_used_t)(ma_audio_cal_handle_t, const char *); typedef bool (*ma_set_lr_swap_t)(ma_audio_cal_handle_t, const struct ma_audio_cal_settings *, bool); typedef bool (*ma_set_orientation_t)(ma_audio_cal_handle_t, const struct ma_audio_cal_settings *, int); typedef bool (*ma_set_sound_mode_t)(ma_audio_cal_handle_t, const struct ma_audio_cal_settings *, unsigned int); typedef bool (*ma_set_volume_t)(ma_audio_cal_handle_t, const struct ma_audio_cal_settings *, double); typedef bool (*ma_set_volume_table_t)(ma_audio_cal_handle_t, const struct ma_audio_cal_settings *, size_t, struct ma_state *); typedef bool (*ma_set_param_t)(ma_audio_cal_handle_t, const struct ma_audio_cal_settings *, unsigned int, double); struct ma_platform_data { void *waves_handle; void *platform; pthread_mutex_t lock; ma_param_init_t ma_param_init; ma_param_deinit_t ma_param_deinit; ma_is_feature_used_t ma_is_feature_used; ma_set_lr_swap_t ma_set_lr_swap; ma_set_orientation_t ma_set_orientation; ma_set_sound_mode_t ma_set_sound_mode; ma_set_volume_t ma_set_volume; ma_set_volume_table_t ma_set_volume_table; ma_set_param_t ma_set_param; bool speaker_lr_swap; bool orientation_used; int dispaly_orientation; }; ma_audio_cal_handle_t g_ma_audio_cal_handle = NULL; static uint16_t g_supported_dev = 0; static struct ma_state ma_cur_state_table[STREAM_MAX_TYPES]; static struct ma_platform_data *my_data = NULL; static int set_audio_cal(const char *audio_cal) { ALOGV("set_audio_cal: %s", audio_cal); return platform_set_parameters(my_data->platform, str_parms_create_str(audio_cal)); } static bool ma_set_lr_swap_l( const struct ma_audio_cal_settings *audio_cal_settings, bool swap) { return my_data->ma_set_lr_swap(g_ma_audio_cal_handle, audio_cal_settings, swap); } static bool ma_set_orientation_l( const struct ma_audio_cal_settings *audio_cal_settings, int orientation) { return my_data->ma_set_orientation(g_ma_audio_cal_handle, audio_cal_settings, orientation); } static bool ma_set_sound_mode_l( const struct ma_audio_cal_settings *audio_cal_settings, int sound_mode) { return my_data->ma_set_sound_mode(g_ma_audio_cal_handle, audio_cal_settings, sound_mode); } static bool ma_set_volume_l( const struct ma_audio_cal_settings *audio_cal_settings, double volume) { return my_data->ma_set_volume(g_ma_audio_cal_handle, audio_cal_settings, volume); } static bool ma_set_volume_table_l( const struct ma_audio_cal_settings *audio_cal_settings, size_t num_streams, struct ma_state *volume_table) { return my_data->ma_set_volume_table(g_ma_audio_cal_handle, audio_cal_settings, num_streams, volume_table); } static bool ma_set_param_l( const struct ma_audio_cal_settings *audio_cal_settings, unsigned int index, double value) { return my_data->ma_set_param(g_ma_audio_cal_handle, audio_cal_settings, index, value); } static void print_state_log() { ALOGD("%s: send volume table -(%i,%f,%s),(%i,%f,%s),(%i,%f,%s),(%i,%f,%s)," "(%i,%f,%s),(%i,%f,%s)", __func__, STREAM_VOICE, ma_cur_state_table[STREAM_VOICE].vol, ma_cur_state_table[STREAM_VOICE].active ? "T" : "F", STREAM_SYSTEM, ma_cur_state_table[STREAM_SYSTEM].vol, ma_cur_state_table[STREAM_SYSTEM].active ? "T" : "F", STREAM_RING, ma_cur_state_table[STREAM_RING].vol, ma_cur_state_table[STREAM_RING].active ? "T" : "F", STREAM_MUSIC, ma_cur_state_table[STREAM_MUSIC].vol, ma_cur_state_table[STREAM_MUSIC].active ? "T" : "F", STREAM_ALARM, ma_cur_state_table[STREAM_ALARM].vol, ma_cur_state_table[STREAM_ALARM].active ? "T" : "F", STREAM_NOTIFICATION, ma_cur_state_table[STREAM_NOTIFICATION].vol, ma_cur_state_table[STREAM_NOTIFICATION].active ? "T" : "F"); } static inline bool valid_usecase(struct audio_usecase *usecase) { if ((usecase->type == PCM_PLAYBACK) && /* supported usecases */ ((usecase->id == USECASE_AUDIO_PLAYBACK_DEEP_BUFFER) || (usecase->id == USECASE_AUDIO_PLAYBACK_LOW_LATENCY) || (usecase->id == USECASE_AUDIO_PLAYBACK_OFFLOAD)) && /* support devices */ ((usecase->devices & AUDIO_DEVICE_OUT_SPEAKER) || (usecase->devices & AUDIO_DEVICE_OUT_SPEAKER_SAFE) || (audio_is_usb_out_device(usecase->devices) && audio_extn_ma_supported_usb()))) /* TODO: enable A2DP when it is ready */ return true; ALOGV("%s: not support type %d usecase %d device %d", __func__, usecase->type, usecase->id, usecase->devices); return false; } // already hold lock static inline bool is_active() { ma_stream_type_t i = 0; for (i = 0; i < STREAM_MAX_TYPES; i++) if (ma_cur_state_table[i].active) return true; return false; } static void ma_cal_init(struct ma_audio_cal_settings *ma_cal) { ma_cal->version.major = AUDIO_CAL_SETTINGS_VERSION_MAJOR_DEFAULT; ma_cal->version.minor = AUDIO_CAL_SETTINGS_VERSION_MINOR_DEFAULT; ma_cal->common.app_type = APP_TYPE_DEFAULT; ma_cal->common.device = DEVICE_DEFAULT; ma_cal->effect_scope_flag = EFFECTIVE_SCOPE_ALL; } static bool check_and_send_all_audio_cal(struct audio_device *adev, ma_cmd_t cmd) { int i = 0; bool ret = false; float vol = 0; struct listnode *node; struct audio_usecase *usecase; struct ma_audio_cal_settings ma_cal; ma_cal_init(&ma_cal); list_for_each(node, &adev->usecase_list) { usecase = node_to_item(node, struct audio_usecase, list); if (valid_usecase(usecase)) { ma_cal.common.app_type = usecase->stream.out->app_type_cfg.app_type; ma_cal.common.device = usecase->stream.out->devices; ALOGV("%s: send usecase(%d) app_type(%d) device(%d)", __func__, usecase->id, ma_cal.common.app_type, ma_cal.common.device); switch (cmd) { case MA_CMD_VOL: ret = ma_set_volume_table_l(&ma_cal, STREAM_MAX_TYPES, ma_cur_state_table); if (ret) ALOGV("ma_set_volume_table_l success"); else ALOGE("ma_set_volume_table_l returned with error."); print_state_log(); break; case MA_CMD_SWAP_ENABLE: /* lr swap only enable for speaker path */ if (ma_cal.common.device & AUDIO_DEVICE_OUT_SPEAKER) { ret = ma_set_lr_swap_l(&ma_cal, true); if (ret) ALOGV("ma_set_lr_swap_l enable returned with success."); else ALOGE("ma_set_lr_swap_l enable returned with error."); } break; case MA_CMD_SWAP_DISABLE: ret = ma_set_lr_swap_l(&ma_cal, false); if (ret) ALOGV("ma_set_lr_swap_l disable returned with success."); else ALOGE("ma_set_lr_swap_l disable returned with error."); break; case MA_CMD_ROTATE_ENABLE: if (ma_cal.common.device & AUDIO_DEVICE_OUT_SPEAKER) { ret = ma_set_orientation_l(&ma_cal, my_data->dispaly_orientation); if (ret) ALOGV("ma_set_orientation_l %d returned with success.", my_data->dispaly_orientation); else ALOGE("ma_set_orientation_l %d returned with error.", my_data->dispaly_orientation); } break; case MA_CMD_ROTATE_DISABLE: ret = ma_set_orientation_l(&ma_cal, 0); if (ret) ALOGV("ma_set_orientation_l 0 returned with success."); else ALOGE("ma_set_orientation_l 0 returned with error."); break; default: ALOGE("%s: unsupported cmd %d", __func__, cmd); } } } return ret; } static bool find_sup_dev(char *name) { char *token; const char s[2] = ","; bool ret = false; char sup_devs[128]; // the rule of comforming suppored dev's name // 1. Both string len are equal // 2. Both string content are equal strncpy(sup_devs, SUPPORT_DEV, sizeof(sup_devs)); token = strtok(sup_devs, s); while (token != NULL) { if (strncmp(token, name, strlen(token)) == 0 && strlen(token) == strlen(name)) { ALOGD("%s: support dev %s", __func__, token); ret = true; break; } token = strtok(NULL, s); } return ret; } static void ma_set_swap_l(struct audio_device *adev, bool enable) { if (enable) check_and_send_all_audio_cal(adev, MA_CMD_SWAP_ENABLE); else check_and_send_all_audio_cal(adev, MA_CMD_SWAP_DISABLE); } static void ma_set_rotation_l(struct audio_device *adev, int orientation) { if (orientation != 0) check_and_send_all_audio_cal(adev, MA_CMD_ROTATE_ENABLE); else check_and_send_all_audio_cal(adev, MA_CMD_ROTATE_DISABLE); } static void ma_support_usb(bool enable, int card) { char path[128]; char id[32]; int ret = 0; int32_t fd = -1; char *idd; if (enable) { ret = snprintf(path, sizeof(path), "/proc/asound/card%u/usbid", card); if (ret < 0) { ALOGE("%s: failed on snprintf (%d) to path %s\n", __func__, ret, path); goto done; } fd = open(path, O_RDONLY); if (fd < 0) { ALOGE("%s: error failed to open id file %s error: %d\n", __func__, path, errno); goto done; } if (read(fd, id, sizeof(id)) < 0) { ALOGE("%s: file read error", __func__); goto done; } //replace '\n' to '\0' idd = strtok(id, "\n"); if (find_sup_dev(idd)) { ALOGV("%s: support usbid is %s", __func__, id); g_supported_dev |= SUPPORTED_USB; } else ALOGV("%s: usbid %s isn't found from %s", __func__, id, SUPPORT_DEV); } else { g_supported_dev &= ~SUPPORTED_USB; } done: if (fd >= 0) close(fd); } // adev_init lock held void audio_extn_ma_init(void *platform) { ma_stream_type_t i = 0; int ret = 0; char lib_path[128] = {0}; char mps_path[128] = {0}; char cnf_path[128] = {0}; struct snd_card_split *snd_split_handle = NULL; snd_split_handle = audio_extn_get_snd_card_split(); if (platform == NULL) { ALOGE("%s: platform is NULL", __func__); goto error; } if (my_data) { free(my_data); } my_data = calloc(1, sizeof(struct ma_platform_data)); if (my_data == NULL) { ALOGE("%s: ma_cal alloct fail", __func__); goto error; } pthread_mutex_init(&my_data->lock, NULL); my_data->platform = platform; ret = snprintf(lib_path, sizeof(lib_path), "%s/%s", LIB_MA_PATH, LIB_MA_PARAM); if (ret < 0) { ALOGE("%s: snprintf failed for lib %s, ret %d", __func__, LIB_MA_PARAM, ret); goto error; } my_data->waves_handle = dlopen(lib_path, RTLD_NOW); if (my_data->waves_handle == NULL) { ALOGE("%s: DLOPEN failed for %s, %s", __func__, LIB_MA_PARAM, dlerror()); goto error; } else { ALOGV("%s: DLOPEN successful for %s", __func__, LIB_MA_PARAM); my_data->ma_param_init = (ma_param_init_t)dlsym(my_data->waves_handle, MA_QDSP_PARAM_INIT); if (!my_data->ma_param_init) { ALOGE("%s: dlsym error %s for ma_param_init", __func__, dlerror()); goto error; } my_data->ma_param_deinit = (ma_param_deinit_t)dlsym( my_data->waves_handle, MA_QDSP_PARAM_DEINIT); if (!my_data->ma_param_deinit) { ALOGE("%s: dlsym error %s for ma_param_deinit", __func__, dlerror()); goto error; } my_data->ma_is_feature_used = (ma_is_feature_used_t)dlsym(my_data->waves_handle, MA_QDSP_IS_FEATURE_USED); if (!my_data->ma_is_feature_used) { ALOGV("%s: dlsym error %s for ma_is_feature_used", __func__, dlerror()); } my_data->ma_set_orientation = (ma_set_orientation_t)dlsym(my_data->waves_handle, MA_QDSP_SET_ORIENTATION); if (!my_data->ma_set_orientation) { ALOGV("%s: dlsym error %s for ma_set_orientation", __func__, dlerror()); } my_data->ma_set_lr_swap = (ma_set_lr_swap_t)dlsym(my_data->waves_handle, MA_QDSP_SET_LR_SWAP); if (!my_data->ma_set_lr_swap) { ALOGE("%s: dlsym error %s for ma_set_lr_swap", __func__, dlerror()); goto error; } my_data->ma_set_sound_mode = (ma_set_sound_mode_t)dlsym( my_data->waves_handle, MA_QDSP_SET_MODE); if (!my_data->ma_set_sound_mode) { ALOGE("%s: dlsym error %s for ma_set_sound_mode", __func__, dlerror()); goto error; } my_data->ma_set_volume = (ma_set_volume_t)dlsym(my_data->waves_handle, MA_QDSP_SET_VOL); if (!my_data->ma_set_volume) { ALOGE("%s: dlsym error %s for ma_set_volume", __func__, dlerror()); goto error; } my_data->ma_set_volume_table = (ma_set_volume_table_t)dlsym( my_data->waves_handle, MA_QDSP_SET_VOLT); if (!my_data->ma_set_volume_table) { ALOGE("%s: dlsym error %s for ma_set_volume_table", __func__, dlerror()); goto error; } my_data->ma_set_param = (ma_set_param_t)dlsym( my_data->waves_handle, MA_QDSP_SET_PARAM); if (!my_data->ma_set_param) { ALOGE("%s: dlsym error %s for ma_set_param", __func__, dlerror()); goto error; } } /* get preset table */ if (snd_split_handle == NULL) { snprintf(mps_path, sizeof(mps_path), "%s/%s.mps", PRESET_PATH, MPS_BASE_STRING); } else { snprintf(mps_path, sizeof(mps_path), "%s/%s_%s.mps", PRESET_PATH, MPS_BASE_STRING, snd_split_handle->form_factor); } /* get config files */ if (snd_split_handle == NULL) { snprintf(cnf_path, sizeof(cnf_path), "%s/%s.ini", PRESET_PATH, CONFIG_BASE_STRING); } else { snprintf(cnf_path, sizeof(cnf_path), "%s/%s_%s.ini", PRESET_PATH, CONFIG_BASE_STRING, snd_split_handle->form_factor); } /* check file */ if (access(mps_path, R_OK) < 0) { ALOGW("%s: file %s isn't existed.", __func__, mps_path); goto error; } else ALOGD("%s: Loading mps file: %s", __func__, mps_path); /* TODO: check user preset table once the feature is enabled if (access(USER_PRESET_PATH, F_OK) < 0 ){ ALOGW("%s: file %s isn't existed.", __func__, USER_PRESET_PATH); goto error; } */ if (access(cnf_path, R_OK) < 0) { ALOGW("%s: file %s isn't existed.", __func__, cnf_path); goto error; } else ALOGD("%s: Loading ini file: %s", __func__, cnf_path); /* init ma parameter */ if (my_data->ma_param_init(&g_ma_audio_cal_handle, mps_path, USER_PRESET_PATH, /* unused */ cnf_path, &set_audio_cal)) { if (!g_ma_audio_cal_handle) { ALOGE("%s: ma parameters initialize failed", __func__); my_data->ma_param_deinit(&g_ma_audio_cal_handle); goto error; } ALOGD("%s: ma parameters initialize successful", __func__); } else { ALOGE("%s: ma parameters initialize failed", __func__); goto error; } /* init volume table */ for (i = 0; i < STREAM_MAX_TYPES; i++) { ma_cur_state_table[i].vol = 0.0; ma_cur_state_table[i].active = false; } my_data->speaker_lr_swap = false; my_data->orientation_used = false; my_data->dispaly_orientation = 0; if (g_ma_audio_cal_handle && my_data->ma_is_feature_used) { my_data->orientation_used = my_data->ma_is_feature_used( g_ma_audio_cal_handle, "SET_ORIENTATION"); } return; error: if (my_data) { free(my_data); } my_data = NULL; } //adev_init lock held void audio_extn_ma_deinit() { if (my_data) { /* deinit ma parameter */ if (my_data->ma_param_deinit && my_data->ma_param_deinit(&g_ma_audio_cal_handle)) ALOGD("%s: ma parameters uninitialize successful", __func__); else ALOGD("%s: ma parameters uninitialize failed", __func__); pthread_mutex_destroy(&my_data->lock); free(my_data); my_data = NULL; } } // adev_init and adev lock held bool audio_extn_ma_set_state(struct audio_device *adev, int stream_type, float vol, bool active) { bool ret = false; struct ma_state pr_mstate; if (stream_type >= STREAM_MAX_TYPES || stream_type < STREAM_MIN_TYPES) { ALOGE("%s: stream_type %d out of range.", __func__, stream_type); return ret; } if (!my_data) { ALOGV("%s: maxxaudio isn't initialized.", __func__); return ret; } ALOGV("%s: stream[%d] vol[%f] active[%s]", __func__, stream_type, vol, active ? "true" : "false"); pr_mstate.vol = ma_cur_state_table[(ma_stream_type_t)stream_type].vol; pr_mstate.active = ma_cur_state_table[(ma_stream_type_t)stream_type].active; // update condition: vol or active state changes if (pr_mstate.vol != vol || pr_mstate.active != active) { pthread_mutex_lock(&my_data->lock); ma_cur_state_table[(ma_stream_type_t)stream_type].vol = vol; ma_cur_state_table[(ma_stream_type_t)stream_type].active = active; ret = check_and_send_all_audio_cal(adev, MA_CMD_VOL); pthread_mutex_unlock(&my_data->lock); } return ret; } void audio_extn_ma_set_device(struct audio_usecase *usecase) { int i = 0; int u_index = -1; float vol = 0; struct ma_audio_cal_settings ma_cal; if (!my_data) { ALOGV("%s: maxxaudio isn't initialized.", __func__); return; } if (!valid_usecase(usecase)) { ALOGV("%s: %d is not supported usecase", __func__, usecase->id); return; } ma_cal_init(&ma_cal); /* update audio_cal and send it */ ma_cal.common.app_type = usecase->stream.out->app_type_cfg.app_type; ma_cal.common.device = usecase->stream.out->devices; ALOGV("%s: send usecase(%d) app_type(%d) device(%d)", __func__, usecase->id, ma_cal.common.app_type, ma_cal.common.device); pthread_mutex_lock(&my_data->lock); if (is_active()) { if (ma_cal.common.device & AUDIO_DEVICE_OUT_SPEAKER) { if (my_data->orientation_used) ma_set_rotation_l(usecase->stream.out->dev, my_data->dispaly_orientation); else ma_set_swap_l(usecase->stream.out->dev, my_data->speaker_lr_swap); } else { if (my_data->orientation_used) ma_set_rotation_l(usecase->stream.out->dev, 0); else ma_set_swap_l(usecase->stream.out->dev, false); } if (!ma_set_volume_table_l(&ma_cal, STREAM_MAX_TYPES, ma_cur_state_table)) ALOGE("ma_set_volume_table_l returned with error."); else ALOGV("ma_set_volume_table_l success"); print_state_log(); } pthread_mutex_unlock(&my_data->lock); } void audio_extn_ma_set_parameters(struct audio_device *adev, struct str_parms *parms) { int ret; bool ret_b; int val; char value[128]; // do LR swap and usb recognition ret = str_parms_get_int(parms, "rotation", &val); if (ret >= 0) { if (!my_data) { ALOGV("%s: maxxaudio isn't initialized.", __func__); return; } switch (val) { case 270: my_data->speaker_lr_swap = true; break; case 0: case 90: case 180: my_data->speaker_lr_swap = false; break; } my_data->dispaly_orientation = val; if (my_data->orientation_used) ma_set_rotation_l(adev, my_data->dispaly_orientation); else ma_set_swap_l(adev, my_data->speaker_lr_swap); } // check connect status ret = str_parms_get_str(parms, AUDIO_PARAMETER_DEVICE_CONNECT, value, sizeof(value)); if (ret >= 0) { audio_devices_t device = (audio_devices_t)strtoul(value, NULL, 10); if (audio_is_usb_out_device(device)) { ret = str_parms_get_str(parms, "card", value, sizeof(value)); if (ret >= 0) { const int card = atoi(value); ma_support_usb(true, card); } } } // check disconnect status ret = str_parms_get_str(parms, AUDIO_PARAMETER_DEVICE_DISCONNECT, value, sizeof(value)); if (ret >= 0) { audio_devices_t device = (audio_devices_t)strtoul(value, NULL, 10); if (audio_is_usb_out_device(device)) { ret = str_parms_get_str(parms, "card", value, sizeof(value)); if (ret >= 0) { const int card = atoi(value); ma_support_usb(false, card /*useless*/); } } } } bool audio_extn_ma_supported_usb() { ALOGV("%s: current support 0x%x", __func__, g_supported_dev); return (g_supported_dev & SUPPORTED_USB) ? true : false; }