#include "app_config.h" #include "user_cfg.h" #include "fs.h" #include "string.h" #include "system/includes.h" #include "vm.h" #include "btcontroller_config.h" #include "app_main.h" #include "media/includes.h" #include "audio_config.h" #include "asm/pwm_led.h" #include "aec_user.h" #include "app_power_manage.h" #define LOG_TAG_CONST USER_CFG #define LOG_TAG "[USER_CFG]" #define LOG_ERROR_ENABLE #define LOG_DEBUG_ENABLE #define LOG_INFO_ENABLE #define LOG_DUMP_ENABLE #define LOG_CLI_ENABLE #include "debug.h" void lp_winsize_init(struct lp_ws_t *lp); void bt_max_pwr_set(u8 pwr, u8 pg_pwr, u8 iq_pwr, u8 ble_pwr); void app_set_sys_vol(s16 vol_l, s16 vol_r); BT_CONFIG bt_cfg = { .edr_name = {'Y', 'L', '-', 'B', 'R', '3', '0'}, .mac_addr = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}, .tws_local_addr = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}, .rf_power = 10, .dac_analog_gain = 25, .mic_analog_gain = 7, .tws_device_indicate = 0x6688, }; AUDIO_CONFIG audio_cfg = { .max_sys_vol = SYS_MAX_VOL, .default_vol = SYS_DEFAULT_VOL, .tone_vol = SYS_DEFAULT_TONE_VOL, }; //======================================================================================// // BTIF配置项表 // // 参数1: 配置项名字 // // 参数2: 配置项需要多少个byte存储 // // 说明: 配置项ID注册到该表后该配置项将读写于BTIF区域, 其它没有注册到该表 // // 的配置项则默认读写于VM区域. // //======================================================================================// const struct btif_item btif_table[] = { // item id len // {CFG_BT_MAC_ADDR, 6 }, {CFG_BT_FRE_OFFSET, 6 }, //测试盒矫正频偏值 //{CFG_DAC_DTB, 2 }, //{CFG_MC_BIAS, 1 }, {0, 0 }, //reserved cfg }; //============================= VM 区域空间最大值 ======================================// //以下宏在app_cfg中配置: const int vm_max_page_align_size_config = VM_MAX_PAGE_ALIGN_SIZE_CONFIG; //page对齐vm管理空间最大值配置 const int vm_max_sector_align_size_config = VM_MAX_SECTOR_ALIGN_SIZE_CONFIG; //sector对齐vm管理空间最大值配置 //======================================================================================// struct lp_ws_t lp_winsize = { .lrc_ws_inc = 480, //260 .lrc_ws_init = 160, .bt_osc_ws_inc = 100, .bt_osc_ws_init = 140, .osc_change_mode = 0, }; u16 bt_get_tws_device_indicate(u8 *tws_device_indicate) { return bt_cfg.tws_device_indicate; } const u8 *bt_get_mac_addr() { return bt_cfg.mac_addr; } void bt_update_mac_addr(u8 *addr) { memcpy(bt_cfg.mac_addr, addr, 6); } static u8 bt_mac_addr_for_testbox[6] = {0}; void bt_get_vm_mac_addr(u8 *addr) { #if 0 //中断不能调用syscfg_read; int ret = 0; ret = syscfg_read(CFG_BT_MAC_ADDR, addr, 6); if ((ret != 6)) { syscfg_write(CFG_BT_MAC_ADDR, addr, 6); } #else memcpy(addr, bt_mac_addr_for_testbox, 6); #endif } void bt_get_tws_local_addr(u8 *addr) { memcpy(addr, bt_cfg.tws_local_addr, 6); } const char *sdk_version_info_get(void) { extern u32 __VERSION_BEGIN; char *version_str = ((char *)&__VERSION_BEGIN) + 4; return version_str; } const char *bt_get_local_name() { return (const char *)(bt_cfg.edr_name); } const char *bt_get_pin_code() { return "0000"; } extern STATUS_CONFIG status_config; extern struct charge_platform_data charge_data; /* extern struct dac_platform_data dac_data; */ extern struct adkey_platform_data adkey_data; extern struct led_platform_data pwm_led_data; extern struct adc_platform_data adc_data; extern u8 key_table[KEY_EVENT_MAX][KEY_NUM_MAX]; u8 get_max_sys_vol(void) { return (audio_cfg.max_sys_vol); } u8 get_tone_vol(void) { if (!audio_cfg.tone_vol) { return (get_max_sys_vol()); } if (audio_cfg.tone_vol > get_max_sys_vol()) { return (get_max_sys_vol()); } return (audio_cfg.tone_vol); } #define USE_CONFIG_BIN_FILE 0 #define USE_CONFIG_STATUS_SETTING 1 //状态设置,包括灯状态和提示音 #define USE_CONFIG_AUDIO_SETTING USE_CONFIG_BIN_FILE //音频设置 #define USE_CONFIG_CHARGE_SETTING USE_CONFIG_BIN_FILE //充电设置 #define USE_CONFIG_KEY_SETTING USE_CONFIG_BIN_FILE //按键消息设置 #define USE_CONFIG_MIC_TYPE_SETTING USE_CONFIG_BIN_FILE //MIC类型设置 #define USE_CONFIG_LOWPOWER_V_SETTING USE_CONFIG_BIN_FILE //低电提示设置 #define USE_CONFIG_AUTO_OFF_SETTING USE_CONFIG_BIN_FILE //自动关机时间设置 #define USE_CONFIG_VOL_SETTING 1 //音量表读配置 __attribute__((weak)) void get_config_mic_gain(u8 mic_gain0, u8 mic_gain1, u8 mic_gain2) { } /*更加mic通道值获取使用的第几个mic*/ u8 get_mic_num(u8 bit) { u8 i = 0; for (i = 0; i < 4; i++) { if (bit & 0x1) { return i; } bit >>= 1; } return 0; } __BANK_INIT_ENTRY void cfg_file_parse(u8 idx) { u8 tmp[128] = {0}; int ret = 0; memset(tmp, 0x00, sizeof(tmp)); /*************************************************************************/ /* CFG READ IN cfg_tools.bin */ /*************************************************************************/ //-----------------------------CFG_BT_NAME--------------------------------------// ret = syscfg_read(CFG_BT_NAME, tmp, 32); if (ret < 0) { log_info("read bt name err"); } else if (ret >= LOCAL_NAME_LEN) { memset(bt_cfg.edr_name, 0x00, LOCAL_NAME_LEN); memcpy(bt_cfg.edr_name, tmp, LOCAL_NAME_LEN); bt_cfg.edr_name[LOCAL_NAME_LEN - 1] = 0; } else { memset(bt_cfg.edr_name, 0x00, LOCAL_NAME_LEN); memcpy(bt_cfg.edr_name, tmp, ret); } /* g_printf("bt name config:%s", bt_cfg.edr_name); */ log_info("bt name config:%s", bt_cfg.edr_name); //-----------------------------CFG_TWS_PAIR_CODE_ID----------------------------// ret = syscfg_read(CFG_TWS_PAIR_CODE_ID, &bt_cfg.tws_device_indicate, 2); if (ret < 0) { log_debug("read pair code err"); bt_cfg.tws_device_indicate = 0x8888; } /* g_printf("tws pair code config:"); */ log_info("tws pair code config:"); log_info_hexdump(&bt_cfg.tws_device_indicate, 2); //-----------------------------CFG_BT_RF_POWER_ID----------------------------// ret = syscfg_read(CFG_BT_RF_POWER_ID, &app_var.rf_power, 1); if (ret < 0) { log_debug("read rf err"); app_var.rf_power = 10; } bt_max_pwr_set(app_var.rf_power, 5, 8, 9);//last is ble tx_pwer(0~9) /* g_printf("rf config:%d\n", app_var.rf_power); */ log_info("rf config:%d\n", app_var.rf_power); //-----------------------------CFG_AEC_ID------------------------------------// #if TCFG_AUDIO_TRIPLE_MIC_ENABLE log_info("3mic config:"); AEC_TMS_CONFIG aec; ret = syscfg_read(CFG_TMS_DNS_ID, &aec, sizeof(aec)); #elif TCFG_AUDIO_DUAL_MIC_ENABLE #if ((defined TCFG_AUDIO_DMS_SEL) && (TCFG_AUDIO_DMS_SEL == DMS_FLEXIBLE)) #if(TCFG_AUDIO_CVP_NS_MODE == CVP_ANS_MODE) log_info("dms_flexible config:");/*双mic话务耳机降噪*/ DMS_FLEXIBLE_CONFIG aec; ret = syscfg_read(CFG_DMS_FLEXIBLE_ID, &aec, sizeof(aec)); #else /*DMS_DNS*/ log_info("dms_dns_flexible config:");/*双mic话务耳机神经网络降噪*/ DMS_FLEXIBLE_CONFIG aec; ret = syscfg_read(CFG_DMS_DNS_FLEXIBLE_ID, &aec, sizeof(aec)); #endif/*TCFG_AUDIO_CVP_NS_MODE*/ #else /*TCFG_AUDIO_DMS_SEL == DMS_NORMAL*/ #if(TCFG_AUDIO_CVP_NS_MODE == CVP_ANS_MODE) log_info("dms_ans config:");/*双mic传统降噪*/ AEC_DMS_CONFIG aec; ret = syscfg_read(CFG_DMS_ID, &aec, sizeof(aec)); #else /*DMS_DNS*/ log_info("dms_dns config:");/*双mic神经网络降噪*/ AEC_DMS_CONFIG aec; ret = syscfg_read(CFG_DMS_DNS_ID, &aec, sizeof(aec)); #endif/*TCFG_AUDIO_CVP_NS_MODE*/ #if TCFG_AUDIO_MIC_ARRAY_TRIM_ENABLE app_var.enc_degradation = aec.target_signal_degradation; #endif /*TCFG_AUDIO_MIC_ARRAY_TRIM_ENABLE*/ #endif/*TCFG_AUDIO_DMS_SEL*/ #else /*single mic*/ AEC_CONFIG aec; #if(TCFG_AUDIO_CVP_NS_MODE == CVP_ANS_MODE) log_info("sms_ans config:"); ret = syscfg_read(CFG_AEC_ID, &aec, sizeof(aec)); #else /*SMS_DNS*/ log_info("sms_dns config:"); ret = syscfg_read(CFG_SMS_DNS_ID, &aec, sizeof(aec)); #endif/*TCFG_AUDIO_CVP_NS_MODE*/ #endif/*TCFG_AUDIO_DUAL_MIC_ENABLE*/ //log_info("ret:%d,aec_cfg size:%d\n",ret,sizeof(aec)); if (ret == sizeof(aec)) { log_info("aec cfg read succ\n"); log_info_hexdump(&aec, sizeof(aec)); app_var.aec_mic_gain = aec.mic_again; app_var.aec_mic1_gain = aec.mic_again; app_var.aec_mic2_gain = aec.mic_again; app_var.aec_mic3_gain = aec.mic_again; #if TCFG_AUDIO_DUAL_MIC_ENABLE #if ((defined TCFG_AUDIO_DMS_SEL) && (TCFG_AUDIO_DMS_SEL == DMS_FLEXIBLE)) app_var.aec_mic1_gain = aec.mic1_again; #endif/*TCFG_AUDIO_DMS_SEL*/ #endif/*TCFG_AUDIO_DUAL_MIC_ENABLE*/ get_config_mic_gain(app_var.aec_mic_gain, app_var.aec_mic1_gain, app_var.aec_mic1_gain); /*3麦增益设置*/ #if TCFG_AUDIO_TRIPLE_MIC_ENABLE app_var.talk_mic_ch = aec.talk_mic_ch; app_var.talk_ref_mic_ch = aec.talk_ref_mic_ch; app_var.talk_fb_mic_ch = aec.talk_fb_mic_ch; printf("3 mic ch sel , talk : %d, ref : %d, fb : %d", app_var.talk_mic_ch, app_var.talk_ref_mic_ch, app_var.talk_fb_mic_ch); u8 gain[4] = {0}; gain[get_mic_num(aec.talk_mic_ch)] = aec.mic_again; gain[get_mic_num(aec.talk_ref_mic_ch)] = aec.mic_again; gain[get_mic_num(aec.talk_fb_mic_ch)] = aec.fb_mic_again; app_var.aec_mic_gain = gain[0]; app_var.aec_mic1_gain = gain[1]; app_var.aec_mic2_gain = gain[2]; app_var.aec_mic3_gain = gain[3]; #endif app_var.aec_dac_gain = aec.dac_again; #if AEC_READ_CONFIG #ifdef CONFIG_MEDIA_ORIGIN_ENABLE aec_cfg_fill(&aec); #endif/*CONFIG_MEDIA_ORIGIN_ENABLE*/ #endif/*AEC_READ_CONFIG*/ } else { log_info("aec cfg read err ret: %d, aec : %d,use default value\n", ret, sizeof(aec)); app_var.talk_mic_ch = 1; app_var.talk_ref_mic_ch = 2; app_var.talk_fb_mic_ch = 4; app_var.aec_mic_gain = 6; app_var.aec_mic1_gain = 6; app_var.aec_mic2_gain = 1; app_var.aec_mic3_gain = 1; app_var.aec_dac_gain = 12;/*初始化默认值要注意不能大于芯片支持最大模拟音量*/ } log_info("CVP_cfg Mic0_gain:%d Mic1_gain:%d Mic2_gain:%d Mic3_gain:%d DAC_Gain:%d", app_var.aec_mic_gain, app_var.aec_mic1_gain, app_var.aec_mic2_gain, app_var.aec_mic3_gain, app_var.aec_dac_gain); //-----------------------------CFG_MIC_ARRAY_TRIM-------------------------------------// #if TCFG_AUDIO_MIC_ARRAY_TRIM_ENABLE extern void put_float(double fv); ret = syscfg_read(CFG_MIC_ARRAY_TRIM_EN, (u8 *)(&app_var.audio_mic_array_trim_en), sizeof(app_var.audio_mic_array_trim_en)); if (ret != sizeof(app_var.audio_mic_array_trim_en)) { log_info("audio_mic_array_trim_en vm read fail %d, %d!!!", ret, sizeof(app_var.audio_mic_array_trim_en)); } ret = syscfg_read(CFG_MIC_ARRAY_DIFF_CMP_VALUE, (u8 *)(&app_var.audio_mic_array_diff_cmp), sizeof(app_var.audio_mic_array_diff_cmp)); if (ret != sizeof(app_var.audio_mic_array_diff_cmp)) { log_info("audio_mic_array_diff_cmp vm read fail %d, %d!!!", ret, sizeof(app_var.audio_mic_array_diff_cmp)); app_var.audio_mic_array_diff_cmp = 1.0f; } ret = syscfg_read(CFG_MIC_TARGET_DIFF_CMP, (u8 *)(&app_var.audio_mic_cmp), sizeof(audio_mic_cmp_t)); if (ret != sizeof(audio_mic_cmp_t)) { log_info("audio_mic_array_diff_cmp vm read fail %d, %d!!!", ret, sizeof(audio_mic_cmp_t)); app_var.audio_mic_cmp.talk = 1.0f; app_var.audio_mic_cmp.ff = 1.0f; app_var.audio_mic_cmp.fb = 1.0f; } log_info("mic array trim en: %d\n", app_var.audio_mic_array_trim_en); log_info("mic_array_diff_cmp:"); put_float(app_var.audio_mic_array_diff_cmp); log_info("mic_cmp-talk:"); put_float(app_var.audio_mic_cmp.talk); log_info("mic_cmp-ff:"); put_float(app_var.audio_mic_cmp.ff); log_info("mic_cmp-fb:"); put_float(app_var.audio_mic_cmp.fb); #endif //-----------------------------CFG_VOL_LIST-------------------------------------// audio_volume_list_init(USE_CONFIG_VOL_SETTING); //-----------------------------CFG_MIC_TYPE_ID------------------------------------// #if USE_CONFIG_MIC_TYPE_SETTING log_info("mic_type_config:"); extern int read_mic_type_config(void); read_mic_type_config(); #endif #if TCFG_MC_BIAS_AUTO_ADJUST ret = syscfg_read(CFG_MC_BIAS, &adc_data.mic_bias_res, 1); log_info("mic_bias_res:%d", adc_data.mic_bias_res); if (ret != 1) { log_info("mic_bias_adjust NULL"); } u8 mic_ldo_idx; ret = syscfg_read(CFG_MIC_LDO_VSEL, &mic_ldo_idx, 1); if (ret == 1) { adc_data.mic_ldo_vsel = mic_ldo_idx & 0x3; log_info("mic_ldo_vsel:%d,%d\n", adc_data.mic_ldo_vsel, mic_ldo_idx); } else { log_info("mic_ldo_vsel_adjust NULL\n"); } #endif #if USE_CONFIG_STATUS_SETTING /* g_printf("status_config:"); */ log_info("status_config:"); STATUS_CONFIG *status = (STATUS_CONFIG *)tmp; ret = syscfg_read(CFG_UI_TONE_STATUS_ID, status, sizeof(STATUS_CONFIG)); if (ret > 0) { memcpy((u8 *)&status_config, (u8 *)status, sizeof(STATUS_CONFIG)); log_info_hexdump(&status_config, sizeof(STATUS_CONFIG)); } #endif #if USE_CONFIG_AUDIO_SETTING /* g_printf("app audio_config:"); */ log_info("app audio_config:"); ret = syscfg_read(CFG_AUDIO_ID, (u8 *)&audio_cfg, sizeof(AUDIO_CONFIG)); if (ret > 0) { log_info_hexdump((u8 *)&audio_cfg, sizeof(AUDIO_CONFIG)); #else { #endif /* dac_data.max_ana_vol = audio_cfg.max_sys_vol; */ /* if (dac_data.max_ana_vol > 30) { */ /* dac_data.max_ana_vol = 30; */ /* } */ u8 default_volume = audio_cfg.default_vol; s8 music_volume = -1; #if SYS_DEFAULT_VOL default_volume = audio_cfg.default_vol; #else syscfg_read(CFG_SYS_VOL, &default_volume, 1); ret = syscfg_read(CFG_MUSIC_VOL, &music_volume, 1); if (ret < 0) { music_volume = -1; } #endif if (default_volume > audio_cfg.max_sys_vol) { default_volume = audio_cfg.max_sys_vol; } if (default_volume == 0) { default_volume = audio_cfg.max_sys_vol / 2; } app_var.music_volume = music_volume == -1 ? default_volume : music_volume; app_var.wtone_volume = audio_cfg.tone_vol; #if TCFG_CALL_USE_DIGITAL_VOLUME app_var.call_volume = 15; #else app_var.call_volume = app_var.aec_dac_gain; #endif app_var.opid_play_vol_sync = default_volume * 127 / audio_cfg.max_sys_vol; log_info("max vol:%d default vol:%d tone vol:%d", audio_cfg.max_sys_vol, default_volume, audio_cfg.tone_vol); } #if (USE_CONFIG_CHARGE_SETTING) && (TCFG_CHARGE_ENABLE) /* g_printf("app charge config:"); */ log_info("app charge config:"); CHARGE_CONFIG *charge = (CHARGE_CONFIG *)tmp; ret = syscfg_read(CFG_CHARGE_ID, charge, sizeof(CHARGE_CONFIG)); if (ret > 0) { log_info_hexdump(charge, sizeof(CHARGE_CONFIG)); log_info("sw:%d poweron_en:%d full_v:%d full_mA:%d charge_mA:%d", charge->sw, charge->poweron_en, charge->full_v, charge->full_c, charge->charge_c); memcpy((u8 *)&charge_data, (u8 *)charge, sizeof(CHARGE_CONFIG)); } #endif #if (USE_CONFIG_KEY_SETTING) && (TCFG_ADKEY_ENABLE || TCFG_IOKEY_ENABLE) /* g_printf("app key config:"); */ log_info("app key config:"); KEY_OP *key_msg = (KEY_OP *)tmp; ret = syscfg_read(CFG_KEY_MSG_ID, key_msg, sizeof(KEY_OP) * KEY_NUM_MAX); if (ret > 0) { log_info_hexdump(key_msg, sizeof(KEY_OP) * KEY_NUM); memcpy(key_table, key_msg, sizeof(KEY_OP) * KEY_NUM); } log_info("key_msg:"); log_info_hexdump((u8 *)key_table, KEY_EVENT_MAX * KEY_NUM_MAX); #endif #if USE_CONFIG_LOWPOWER_V_SETTING /* g_printf("auto low power config:"); */ log_info("auto low power config:"); AUTO_LOWPOWER_V_CONFIG auto_lowpower; ret = syscfg_read(CFG_LOWPOWER_V_ID, &auto_lowpower, sizeof(AUTO_LOWPOWER_V_CONFIG)); if (ret > 0) { app_var.warning_tone_v = auto_lowpower.warning_tone_v; app_var.poweroff_tone_v = auto_lowpower.poweroff_tone_v; } log_info("warning_tone_v:%d poweroff_tone_v:%d", app_var.warning_tone_v, app_var.poweroff_tone_v); #else app_var.warning_tone_v = LOW_POWER_WARN_VAL; app_var.poweroff_tone_v = LOW_POWER_OFF_VAL; log_info("warning_tone_v:%d poweroff_tone_v:%d", app_var.warning_tone_v, app_var.poweroff_tone_v); #endif #if USE_CONFIG_AUTO_OFF_SETTING /* g_printf("auto off time config:"); */ log_info("auto off time config:"); AUTO_OFF_TIME_CONFIG auto_off_time; ret = syscfg_read(CFG_AUTO_OFF_TIME_ID, &auto_off_time, sizeof(AUTO_OFF_TIME_CONFIG)); if (ret > 0) { app_var.auto_off_time = auto_off_time.auto_off_time * 60; } log_info("auto_off_time:%d", app_var.auto_off_time); #else app_var.auto_off_time = TCFG_AUTO_SHUT_DOWN_TIME; log_info("auto_off_time:%d", app_var.auto_off_time); #endif /*************************************************************************/ /* CFG READ IN VM */ /*************************************************************************/ u8 mac_buf[6]; u8 mac_buf_tmp[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; u8 mac_buf_tmp2[6] = {0, 0, 0, 0, 0, 0}; #if TCFG_USER_TWS_ENABLE int len = syscfg_read(CFG_TWS_LOCAL_ADDR, bt_cfg.tws_local_addr, 6); if (len != 6) { get_random_number(bt_cfg.tws_local_addr, 6); syscfg_write(CFG_TWS_LOCAL_ADDR, bt_cfg.tws_local_addr, 6); } log_debug("tws_local_mac:"); log_info_hexdump(bt_cfg.tws_local_addr, sizeof(bt_cfg.tws_local_addr)); ret = syscfg_read(CFG_TWS_COMMON_ADDR, mac_buf, 6); if (ret != 6 || !memcmp(mac_buf, mac_buf_tmp, 6)) #endif do { ret = syscfg_read(CFG_BT_MAC_ADDR, mac_buf, 6); if ((ret != 6) || !memcmp(mac_buf, mac_buf_tmp, 6) || !memcmp(mac_buf, mac_buf_tmp2, 6)) { get_random_number(mac_buf, 6); syscfg_write(CFG_BT_MAC_ADDR, mac_buf, 6); } } while (0); syscfg_read(CFG_BT_MAC_ADDR, bt_mac_addr_for_testbox, 6); if (!memcmp(bt_mac_addr_for_testbox, mac_buf_tmp, 6)) { get_random_number(bt_mac_addr_for_testbox, 6); syscfg_write(CFG_BT_MAC_ADDR, bt_mac_addr_for_testbox, 6); log_info(">>>init mac addr!!!\n"); } log_info("mac:"); log_info_hexdump(mac_buf, sizeof(mac_buf)); memcpy(bt_cfg.mac_addr, mac_buf, 6); #if (CONFIG_BT_MODE != BT_NORMAL) const u8 dut_name[] = "AC693x_DUT"; const u8 dut_addr[6] = {0x12, 0x34, 0x56, 0x56, 0x34, 0x12}; memcpy(bt_cfg.edr_name, dut_name, sizeof(dut_name)); memcpy(bt_cfg.mac_addr, dut_addr, 6); #endif /*************************************************************************/ /* CFG READ IN isd_config.ini */ /*************************************************************************/ LRC_CONFIG lrc_cfg; ret = syscfg_read(CFG_LRC_ID, &lrc_cfg, sizeof(LRC_CONFIG)); if (ret > 0) { log_info("lrc cfg:"); log_info_hexdump(&lrc_cfg, sizeof(LRC_CONFIG)); lp_winsize.lrc_ws_inc = lrc_cfg.lrc_ws_inc; lp_winsize.lrc_ws_init = lrc_cfg.lrc_ws_init; lp_winsize.bt_osc_ws_inc = lrc_cfg.btosc_ws_inc; lp_winsize.bt_osc_ws_init = lrc_cfg.btosc_ws_init; lp_winsize.osc_change_mode = lrc_cfg.lrc_change_mode; } /* printf("%d %d %d ",lp_winsize.lrc_ws_inc,lp_winsize.lrc_ws_init,lp_winsize.osc_change_mode); */ lp_winsize_init(&lp_winsize); } extern void lmp_hci_write_local_name(const char *name); int bt_modify_name(u8 *new_name) { u8 new_len = strlen(new_name); if (new_len >= LOCAL_NAME_LEN) { new_name[LOCAL_NAME_LEN - 1] = 0; } if (strcmp(new_name, bt_cfg.edr_name)) { syscfg_write(CFG_BT_NAME, new_name, LOCAL_NAME_LEN); memcpy(bt_cfg.edr_name, new_name, LOCAL_NAME_LEN); lmp_hci_write_local_name(bt_get_local_name()); log_info("mdy_name sucess\n"); return 1; } return 0; }