/* ********************************************************************* * Audio AEC APIs * Description:AEC用户调用接口 * Note(s) :ANS等级和AEC滤波器长度可根据实际需要进行配置 * (1)CONST_ANS_MODE:ANS降噪等级配置 * (2)AEC_TAIL_LENGTH:AEC滤波器长度配置 ********************************************************************* */ #include "system/includes.h" #include "app_config.h" #include "audio_config.h" #include "aec_user.h" #include "media/includes.h" #include "media/audio_eq_drc_apply.h" #include "circular_buf.h" #include "clock_cfg.h" #include "media/effects_adj.h" #include "audio_effect/audio_eff_default_parm.h" #define LOG_TAG_CONST AEC_USER #define LOG_TAG "[AEC_USER]" #define LOG_ERROR_ENABLE #define LOG_DEBUG_ENABLE #define LOG_INFO_ENABLE /* #define LOG_DUMP_ENABLE */ #define LOG_CLI_ENABLE #include "debug.h" #define AEC_USER_MALLOC_ENABLE 1 /*AEC_TOGGLE:AEC模块使能开关,Disable则数据完全不经过处理,AEC模块不占用资源*/ #if (TCFG_AEC_ENABLE) #define AEC_TOGGLE 1 #else #define AEC_TOGGLE 0 #endif/*TCFG_AEC_ENABLE*/ #if (AUDIO_OUTPUT_WAY == AUDIO_OUTPUT_WAY_DONGLE) #undef AEC_TOGGLE #define AEC_TOGGLE 0 #endif/*AUDIO_OUTPUT_WAY_DONGLE*/ #if (TCFG_EQ_ENABLE == 1) #define AEC_DCCS_EN TCFG_AEC_DCCS_EQ_ENABLE /*mic去直流滤波eq*/ #define AEC_UL_EQ_EN TCFG_AEC_UL_EQ_ENABLE /*mic 普通eq*/ #else #define AEC_DCCS_EN 0 #define AEC_UL_EQ_EN 0 #endif/*TCFG_EQ_ENABLE*/ /*使能即可跟踪通话过程的内存情况*/ #define CVP_MEM_TRACE_ENABLE 0 #ifdef CONFIG_FPGA_ENABLE const u8 CONST_AEC_ENABLE = 0; #else const u8 CONST_AEC_ENABLE = 1; #endif/*CONFIG_FPGA_ENABLE*/ #ifdef AUDIO_PCM_DEBUG /*AEC串口数据导出*/ const u8 CONST_AEC_EXPORT = 1; #else const u8 CONST_AEC_EXPORT = 0; #endif/*AUDIO_PCM_DEBUG*/ /* *ANS等级:0~2, *等级1比等级0多6k左右的ram *等级2比等级1多3k左右的ram */ const u8 CONST_ANS_MODE = 1; /*参考数据变采样处理*/ #if TCFG_USB_MIC_CVP_ENABLE const u8 CONST_REF_SRC = 1; #else const u8 CONST_REF_SRC = 0; #endif /*TCFG_USB_MIC_CVP_ENABLE*/ /* *AEC复杂等级,等级越高,ram和mips越大,适应性越好 *回音路径不定/回音失真等情况才需要比较高的等级 *音箱建议使用等级:4 *耳机建议使用等级:2 */ #define AEC_TAIL_LENGTH 4 /*range:2~10,default:4*/ /* *延时估计使能 *点烟器/单工模式需要做延时估计 *其他的暂时不需要做 */ #if ((AUDIO_OUTPUT_WAY == AUDIO_OUTPUT_WAY_FM) || TCFG_AEC_SIMPLEX) const u8 CONST_AEC_DLY_EST = 1; #else const u8 CONST_AEC_DLY_EST = 0; #endif //////////////////Simplex Parameters(单工调试参数)///////////////////// #if TCFG_AEC_SIMPLEX const u8 CONST_AEC_SIMPLEX = 1; #else const u8 CONST_AEC_SIMPLEX = 0; #endif/*TCFG_AEC_SIMPLEX*/ /*单工连续清0的帧数*/ #define AEC_SIMPLEX_TAIL 15 /* *远端数据大于CONST_AEC_SIMPLEX_THR,即清零近端数据 *越小,回音限制得越好,同时也就越容易卡 */ #define AEC_SIMPLEX_THR 100000 /*default:260000*/ //////////////////////////= EDN =////////////////////////////////////// //////////////////AEC Parameters(通话回声调试参数)///////////////////// /*aec mode select:AEC_MODE_REDUCE or AEC_MODE_ADVANCE */ #define AEC_MODULE_BIT AEC_MODE_ADVANCE //////////////////////////= EDN =////////////////////////////////////// /*数据输出开头丢掉的数据包数*/ #define AEC_OUT_DUMP_PACKET 10 /**数据输出开头丢掉的数据包数*/ #define AEC_IN_DUMP_PACKET 1 extern struct adc_platform_data adc_data; /*复用lmp rx buf(一般通话的时候复用) *rx_buf概率产生碎片,导致alloc失败,因此默认配0 */ #define MALLOC_MULTIPLEX_EN 0 extern void *lmp_malloc(int); extern void lmp_free(void *); extern u32 usb_mic_is_running(); void *zalloc_mux(int size) { #if MALLOC_MULTIPLEX_EN void *p = NULL; void bredr_rx_bulk_state(); bredr_rx_bulk_state(); do { p = lmp_malloc(size); if (p) { break; } printf("aec_malloc wait...\n"); os_time_dly(2); } while (1); if (p) { memset(p, 0, size); } y_printf("[malloc_mux]p = 0x%x,size = %d\n", p, size); return p; #else return zalloc(size); #endif } void free_mux(void *p) { #if MALLOC_MULTIPLEX_EN y_printf("[free_mux]p = 0x%x\n", p); lmp_free(p); #else free(p); #endif } void aec_param_dump(struct aec_s_attr *param) { log_info("===========dump aec param==================\n"); log_info("toggle:%d\n", param->toggle); log_info("EnableBit:%x\n", param->EnableBit); log_info("ul_eq_en:%x\n", param->ul_eq_en); log_info("agc_en:%x\n", param->agc_en); //log_info("AGC_fade:%d\n", (int)(param->AGC_gain_step * 100)); log_info("AGC_NDT_max_gain:%d\n", (int)(param->AGC_NDT_max_gain * 100)); log_info("AGC_NDT_min_gain:%d\n", (int)(param->AGC_NDT_min_gain * 100)); log_info("AGC_NDT_speech_thr:%d\n", (int)(param->AGC_NDT_speech_thr * 100)); log_info("AGC_DT_max_gain:%d\n", (int)(param->AGC_DT_max_gain * 100)); log_info("AGC_DT_min_gain:%d\n", (int)(param->AGC_DT_min_gain * 100)); log_info("AGC_DT_speech_thr:%d\n", (int)(param->AGC_DT_speech_thr * 100)); log_info("AGC_echo_present_thr:%d\n", (int)(param->AGC_echo_present_thr * 100)); log_info("AEC_DT_AggressiveFactor:%d\n", (int)(param->AEC_DT_AggressiveFactor * 100)); log_info("AEC_RefEngThr:%d\n", (int)(param->AEC_RefEngThr * 100)); log_info("ES_AggressFactor:%d\n", (int)(param->ES_AggressFactor * 100)); log_info("ES_MinSuppress:%d\n", (int)(param->ES_MinSuppress * 100)); log_info("ANS_AggressFactor:%d\n", (int)(param->ANS_AggressFactor * 100)); log_info("ANS_MinSuppress:%d\n", (int)(param->ANS_MinSuppress * 100)); log_info("=================END=======================\n"); } struct audio_aec_hdl { u8 start; //aec模块状态 u8 inbuf_clear_cnt; //aec输入数据丢掉 u8 output_fade_in; //aec输出淡入使能 u8 output_fade_in_gain; //aec输出淡入增益 #if AEC_UL_EQ_EN struct audio_eq *ul_eq; //上行数据eq处理 #endif/*AEC_UL_EQ_EN*/ #if AEC_DCCS_EN struct audio_eq *dccs_eq; //省电容mic去直流滤波 #endif/*AEC_DCCS_EN*/ u16 dump_packet; //前面如果有杂音,丢掉几包 u8 output_buf[1000]; //aec数据输出缓存 cbuffer_t output_cbuf; struct aec_s_attr attr; //aec模块参数属性 }; #if AEC_USER_MALLOC_ENABLE struct audio_aec_hdl *aec_hdl = NULL; #else struct audio_aec_hdl aec_handle; #endif/*AEC_USER_MALLOC_ENABLE*/ void audio_aec_ref_start(u8 en) { if (aec_hdl) { if (en != aec_hdl->attr.fm_tx_start) { aec_hdl->attr.fm_tx_start = en; y_printf("fm_tx_start:%d\n", en); } } } #if AEC_DCCS_EN const int DCCS_8k_Coeff[5] = { (943718 << 2), -(856687 << 2), (1048576 << 2), (1887437 << 2), -(2097152 << 2) }; const int DCCS_16k_Coeff[5] = { (1006633 << 2), -(967542 << 2), (1048576 << 2), (2013266 << 2), -(2097152 << 2) }; int aec_dccs_eq_filter(void *eq, int sr, struct audio_eq_filter_info *info) { //r_printf("dccs_eq sr:%d\n", sr); if (sr == 16000) { info->L_coeff = (void *)DCCS_16k_Coeff; info->R_coeff = (void *)DCCS_16k_Coeff; } else { info->L_coeff = (void *)DCCS_8k_Coeff; info->R_coeff = (void *)DCCS_8k_Coeff; } info->L_gain = 0; info->R_gain = 0; info->nsection = 1; return 0; } static int dccs_eq_output(void *priv, void *data, u32 len) { return 0; } #endif/*AEC_DCCS_EN*/ #if AEC_UL_EQ_EN static int ul_eq_output(void *priv, void *data, u32 len) { return 0; } #endif/*AEC_UL_EQ_EN*/ /* ********************************************************************* * Audio AEC Process_Probe * Description: AEC模块数据前处理回调 * Arguments : data 数据地址 * len 数据长度 * Return : 0 成功 其他 失败 * Note(s) : 在源数据经过AEC模块前,可以增加自定义处理 ********************************************************************* */ static int audio_aec_probe(s16 *data, u16 len) { #if AEC_DCCS_EN if (aec_hdl->dccs_eq) { audio_eq_run(aec_hdl->dccs_eq, data, len); } #endif/*AEC_DCCS_EN*/ return 0; } /* ********************************************************************* * Audio AEC Process_Post * Description: AEC模块数据后处理回调 * Arguments : data 数据地址 * len 数据长度 * Return : 0 成功 其他 失败 * Note(s) : 在数据处理完毕,可以增加自定义后处理 ********************************************************************* */ static int audio_aec_post(s16 *data, u16 len) { #if AEC_UL_EQ_EN if (aec_hdl->ul_eq) { audio_eq_run(aec_hdl->ul_eq, data, len); } #endif/*AEC_UL_EQ_EN*/ return 0; } /*跟踪系统内存使用情况:physics memory size xxxx bytes*/ static void sys_memory_trace(void) { static int cnt = 0; if (cnt++ > 200) { cnt = 0; mem_stats(); } } /* ********************************************************************* * Audio AEC Output Handle * Description: AEC模块数据输出回调 * Arguments : data 输出数据地址 * len 输出数据长度 * Return : 数据输出消耗长度 * Note(s) : None. ********************************************************************* */ extern void esco_enc_resume(void); static int audio_aec_output(s16 *data, u16 len) { #if CVP_MEM_TRACE_ENABLE sys_memory_trace(); #endif/*CVP_MEM_TRACE_ENABLE*/ if (aec_hdl->dump_packet) { aec_hdl->dump_packet--; memset(data, 0, len); } else { if (aec_hdl->output_fade_in) { s32 tmp_data; //printf("fade:%d\n",aec_hdl->output_fade_in_gain); for (int i = 0; i < len / 2; i++) { tmp_data = data[i]; data[i] = tmp_data * aec_hdl->output_fade_in_gain >> 7; } aec_hdl->output_fade_in_gain += 12; if (aec_hdl->output_fade_in_gain >= 128) { aec_hdl->output_fade_in = 0; } } } u16 wlen = cbuf_write(&aec_hdl->output_cbuf, data, len); //printf("wlen:%d-%d\n",len,aec_hdl.output_cbuf.data_len); esco_enc_resume(); #if 1 static u32 aec_output_max = 0; if (aec_output_max < aec_hdl->output_cbuf.data_len) { aec_output_max = aec_hdl->output_cbuf.data_len; y_printf("o_max:%d", aec_output_max); } #endif if (wlen != len) { putchar('F'); } return wlen; } /* ********************************************************************* * Audio AEC Output Read * Description: 读取aec模块的输出数据 * Arguments : buf 读取数据存放地址 * len 读取数据长度 * Return : 数据读取长度 * Note(s) : None. ********************************************************************* */ int audio_aec_output_read(s16 *buf, u16 len) { //printf("rlen:%d-%d\n",len,aec_hdl.output_cbuf.data_len); local_irq_disable(); if (!aec_hdl || !aec_hdl->start) { printf("audio_aec close now"); local_irq_enable(); return -EINVAL; } u16 rlen = cbuf_read(&aec_hdl->output_cbuf, buf, len); if (rlen == 0) { //putchar('N'); } local_irq_enable(); return rlen; } static const char *CVP_ModuleName[] = { "AEC", "NLP", "ANS", "ENC", "AGC" }; static const char *CVP_ModuleStatus[] = { "Disable", "Enable" }; static void dumpModulaStatus(int EnableBit) { printf("EnableBitDebug = 0x%x\n", EnableBit); for (int i = 0; i < 5; i++) { int k = 1 << i; printf("%s : %s\n", CVP_ModuleName[i], CVP_ModuleStatus[((EnableBit & k) != 0)]); } } /* ********************************************************************* * Audio AEC Parameters * Description: AEC模块配置参数 * Arguments : p 参数指针 * Return : None. * Note(s) : 读取配置文件成功,则使用配置文件的参数配置,否则使用默 * 认参数配置 ********************************************************************* */ static void audio_aec_param_read_config(struct aec_s_attr *p) { AEC_CONFIG cfg; int ret = syscfg_read(CFG_AEC_ID, &cfg, sizeof(AEC_CONFIG)); if (ret == sizeof(AEC_CONFIG)) { log_info("audio_aec read config ok\n"); p->AGC_NDT_fade_in_step = cfg.ndt_fade_in; p->AGC_NDT_fade_out_step = cfg.ndt_fade_out; p->AGC_DT_fade_in_step = cfg.dt_fade_in; p->AGC_DT_fade_out_step = cfg.dt_fade_out; p->AGC_NDT_max_gain = cfg.ndt_max_gain; p->AGC_NDT_min_gain = cfg.ndt_min_gain; p->AGC_NDT_speech_thr = cfg.ndt_speech_thr; p->AGC_DT_max_gain = cfg.dt_max_gain; p->AGC_DT_min_gain = cfg.dt_min_gain; p->AGC_DT_speech_thr = cfg.dt_speech_thr; p->AGC_echo_present_thr = cfg.echo_present_thr; p->AEC_DT_AggressiveFactor = cfg.aec_dt_aggress; p->AEC_RefEngThr = cfg.aec_refengthr; p->ES_AggressFactor = cfg.es_aggress_factor; p->ES_MinSuppress = cfg.es_min_suppress; p->ES_Unconverge_OverDrive = cfg.es_min_suppress; p->ANS_AggressFactor = cfg.ans_aggress; p->ANS_MinSuppress = cfg.ans_suppress; //dumpModulaStatus(cfg.aec_mode); p->EnableBit = (cfg.aec_mode & AEC_MODE_ADVANCE); if (p->EnableBit == 0) { p->toggle = 0; printf("cvp toggle off\n"); } if ((cfg.aec_mode & AGC_EN) == 0) { p->agc_en = (cfg.aec_mode & AGC_EN) ? 1 : 0; } p->ul_eq_en = cfg.ul_eq_en; printf("aec_mode:%x,agc_en:%d,ul_eq_en:%d\n", cfg.aec_mode, p->agc_en, p->ul_eq_en); //aec_param_dump(p); } else { log_error("read audio_aec param err:%x", ret); } } /* ********************************************************************* * Audio AEC Open * Description: 初始化AEC模块 * Arguments : sr 采样率(8000/16000) * enablebit 使能模块(AEC/NLP/AGC/ANS...) * out_hdl 自定义回调函数,NULL则用默认的回调 * Return : 0 成功 其他 失败 * Note(s) : 该接口是对audio_aec_init的扩展,支持自定义使能模块以及 * 数据输出回调函数 ********************************************************************* */ int audio_aec_open(u16 sample_rate, s16 enablebit, int (*out_hdl)(s16 *data, u16 len)) { struct aec_s_attr *aec_param; printf("audio_aec_open\n"); mem_stats(); #if AEC_USER_MALLOC_ENABLE aec_hdl = zalloc(sizeof(struct audio_aec_hdl)); if (aec_hdl == NULL) { log_error("aec_hdl malloc failed"); return -ENOMEM; } #else aec_hdl = &aec_handle; #endif/*AEC_USER_MALLOC_ENABLE*/ cbuf_init(&aec_hdl->output_cbuf, aec_hdl->output_buf, sizeof(aec_hdl->output_buf)); aec_hdl->start = 1; aec_hdl->dump_packet = AEC_OUT_DUMP_PACKET; aec_hdl->inbuf_clear_cnt = AEC_IN_DUMP_PACKET; aec_hdl->output_fade_in = 1; aec_hdl->output_fade_in_gain = 0; aec_param = &aec_hdl->attr; #if (AUDIO_OUTPUT_WAY == AUDIO_OUTPUT_WAY_FM) aec_param->output_way = 1; #else aec_param->output_way = 0; #endif aec_param->toggle = 1; aec_param->EnableBit = AEC_MODULE_BIT; aec_param->agc_en = 1; aec_param->wideband = 0; aec_param->ul_eq_en = 1; aec_param->packet_dump = 50;/*0~255(u8)*/ /*AGC*/ aec_param->AGC_NDT_fade_in_step = 1.3f; aec_param->AGC_NDT_fade_out_step = 0.9f; aec_param->AGC_DT_fade_in_step = 1.3f; aec_param->AGC_DT_fade_out_step = 0.9f; aec_param->AGC_NDT_max_gain = 12.f; aec_param->AGC_NDT_min_gain = 0.f; aec_param->AGC_NDT_speech_thr = -50.f; aec_param->AGC_DT_max_gain = 12.f; aec_param->AGC_DT_min_gain = 0.f; aec_param->AGC_DT_speech_thr = -40.f; aec_param->AGC_echo_look_ahead = 0; aec_param->AGC_echo_present_thr = -70.f; aec_param->AGC_echo_hold = 400; /*AEC*/ aec_param->AEC_DT_AggressiveFactor = 1.f; /*范围:1~5,越大追踪越好,但会不稳定,如破音*/ aec_param->AEC_RefEngThr = -70.f; /*范围:-90 ~ -60 dB*/ /*ES*/ aec_param->ES_AggressFactor = -3.0f; /*范围:-1 ~ -5*/ aec_param->ES_MinSuppress = 4.f; /*范围:0 ~ 10*/ aec_param->ES_Unconverge_OverDrive = aec_param->ES_MinSuppress; /*ANS*/ aec_param->ANS_mode = CONST_ANS_MODE; aec_param->ANS_AggressFactor = 1.25f; /*范围:1~2,动态调整,越大越强(1.25f)*/ aec_param->ANS_MinSuppress = 0.04f; /*范围:0~1,静态定死最小调整,越小越强(0.09f)*/ aec_param->ANS_NoiseLevel = 2.2e4f; aec_param->wn_en = 0; aec_param->aec_tail_length = AEC_TAIL_LENGTH; aec_param->wn_gain = 331; aec_param->SimplexTail = AEC_SIMPLEX_TAIL; aec_param->SimplexThr = AEC_SIMPLEX_THR; #if ((AUDIO_OUTPUT_WAY == AUDIO_OUTPUT_WAY_FM) || (TCFG_AEC_SIMPLEX)) aec_param->dly_est = 1; #else aec_param->dly_est = 0; #endif aec_param->dst_delay = 50; aec_param->aec_probe = audio_aec_probe; aec_param->aec_post = audio_aec_post; aec_param->output_handle = audio_aec_output; aec_param->ref_sr = usb_mic_is_running(); if (aec_param->ref_sr == 0) { aec_param->ref_sr = sample_rate; } audio_aec_param_read_config(aec_param); if (enablebit >= 0) { aec_param->EnableBit = enablebit; } if (out_hdl) { aec_param->output_handle = out_hdl; } #if TCFG_AEC_SIMPLEX aec_param->wn_en = 1; aec_param->EnableBit = AEC_MODE_SIMPLEX; if (sample_rate == 8000) { aec_param->wideband = 0; aec_param->hw_delay_offset = 75; aec_param->SimplexTail = aec_param->SimplexTail / 2; clock_add(AEC8K_SPX_CLK); } else { aec_param->wideband = 1; aec_param->hw_delay_offset = 50; clock_add(AEC16K_SPX_CLK); } if (aec_param->dly_est == 0) { aec_param->dst_delay = 30; } //printf("aec SimplexMode\n"); #else if (sample_rate == 16000) { aec_param->wideband = 1; aec_param->hw_delay_offset = 50; if (aec_param->EnableBit == AEC_MODE_ADVANCE) { clock_add(AEC16K_ADV_CLK); } else { clock_add(AEC16K_CLK); } } else { aec_param->wideband = 0; aec_param->hw_delay_offset = 75; if (aec_param->EnableBit == AEC_MODE_ADVANCE) { clock_add(AEC8K_ADV_CLK); } else { clock_add(AEC8K_CLK); } } #endif/*TCFG_AEC_SIMPLEX*/ #if AEC_UL_EQ_EN if (aec_param->ul_eq_en) { u8 mode = 2; if (sample_rate == 8000) { mode = 3; } struct audio_eq_param ul_eq_param = {0}; ul_eq_param.sr = sample_rate; ul_eq_param.channels = 1; ul_eq_param.max_nsection = phone_mode[mode].eq_parm.seg_num; ul_eq_param.nsection = phone_mode[mode].eq_parm.seg_num; ul_eq_param.seg = phone_mode[mode].eq_parm.seg; ul_eq_param.global_gain = phone_mode[mode].eq_parm.global_gain; ul_eq_param.cb = eq_get_filter_info; ul_eq_param.eq_name = AEID_ESCO_UL_EQ; aec_hdl->ul_eq = audio_dec_eq_open(&ul_eq_param); } #endif/*AEC_UL_EQ_EN*/ #if AEC_DCCS_EN if (adc_data.mic_capless) { struct audio_eq_param dccs_eq_param = {0}; dccs_eq_param.sr = sample_rate; dccs_eq_param.channels = 1; dccs_eq_param.max_nsection = 1; dccs_eq_param.cb = aec_dccs_eq_filter; aec_hdl->dccs_eq = audio_dec_eq_open(&dccs_eq_param); } #endif/*AEC_DCCS_EN*/ //aec_param->toggle = 1; //aec_param->EnableBit = AEC_MODULE_BIT; //aec_param_dump(aec_param); #if AEC_TOGGLE aec_open(aec_param); #endif mem_stats(); printf("audio_aec_open succ\n"); return 0; } /* ********************************************************************* * Audio AEC Init * Description: 初始化AEC模块 * Arguments : sr 采样率(8000/16000) * Return : 0 成功 其他 失败 * Note(s) : None. ********************************************************************* */ int audio_aec_init(u16 sample_rate) { return audio_aec_open(sample_rate, -1, NULL); } /* ********************************************************************* * Audio AEC Close * Description: 关闭AEC模块 * Arguments : None. * Return : None. * Note(s) : None. ********************************************************************* */ void audio_aec_close(void) { printf("audio_aec_close\n"); struct aec_s_attr *aec_param; if (aec_hdl) { aec_hdl->start = 0; aec_param = &aec_hdl->attr; #if TCFG_AEC_SIMPLEX if (aec_param->wideband) { clock_remove(AEC16K_SPX_CLK); } else { clock_remove(AEC8K_SPX_CLK); } #else if (aec_param->wideband) { if (aec_param->EnableBit == AEC_MODE_ADVANCE) { clock_remove(AEC16K_ADV_CLK); } else { clock_remove(AEC16K_CLK); } } else { if (aec_param->EnableBit == AEC_MODE_ADVANCE) { clock_remove(AEC8K_ADV_CLK); } else { clock_remove(AEC8K_CLK); } } #endif/*TCFG_AEC_SIMPLEX*/ #if AEC_TOGGLE aec_close(); #endif/*AEC_TOGGLE*/ #if AEC_DCCS_EN if (aec_hdl->dccs_eq) { audio_dec_eq_close(aec_hdl->dccs_eq); } #endif/*AEC_DCCS_EN*/ #if AEC_UL_EQ_EN if (aec_hdl->ul_eq) { audio_dec_eq_close(aec_hdl->ul_eq); } #endif/*AEC_UL_EQ_EN*/ local_irq_disable(); #if AEC_USER_MALLOC_ENABLE free(aec_hdl); #endif/*AEC_USER_MALLOC_ENABLE*/ aec_hdl = NULL; local_irq_enable(); } printf("audio_aec_close ok\n"); } /* ********************************************************************* * Audio AEC Input * Description: AEC源数据输入 * Arguments : buf 输入源数据地址 * len 输入源数据长度 * Return : None. * Note(s) : 输入一帧数据,唤醒一次运行任务处理数据,默认帧长256点 ********************************************************************* */ void audio_aec_inbuf(s16 *buf, u16 len) { if (aec_hdl && aec_hdl->start) { #if AEC_TOGGLE if (aec_hdl->inbuf_clear_cnt) { aec_hdl->inbuf_clear_cnt--; memset(buf, 0, len); } int ret = aec_in_data(buf, len); if (ret == -1) { #if (AUDIO_OUTPUT_WAY == AUDIO_OUTPUT_WAY_DAC) /* log_info("fill dac data\n"); u8 tmp_buf[64] = {0}; for (u8 i = 0; i < 512 / sizeof(tmp_buf); i++) { app_audio_output_write(tmp_buf, sizeof(tmp_buf)); } */ #endif } else if (ret == -2) { log_error("aec inbuf full\n"); } #else audio_aec_output(buf, len); #endif/*AEC_TOGGLE*/ } } /* ********************************************************************* * Audio AEC Reference * Description: AEC模块参考数据输入 * Arguments : buf 输入参考数据地址 * len 输入参考数据长度 * Return : None. * Note(s) : 声卡设备是DAC,默认不用外部提供参考数据 ********************************************************************* */ void audio_aec_refbuf(s16 *buf, u16 len) { if (aec_hdl && aec_hdl->start) { #if AEC_TOGGLE aec_ref_data(buf, len); #endif/*AEC_TOGGLE*/ } } /* void aec_estimate_dump(int DlyEst) { printf("DlyEst:%d\n",DlyEst); } */