/*************************************************************************** * * Copyright 2015-2019 BES. * All rights reserved. All unpublished rights reserved. * * No part of this work may be used or reproduced in any form or by any * means, or stored in a database or retrieval system, without prior written * permission of BES. * * Use of this work is governed by a license granted by BES. * This work contains confidential and proprietary information of * BES. which is protected by copyright, trade secret, * trademark and other intellectual property rights. * ****************************************************************************/ /******************************************************************************* ** namer : Audio Process ** description : Manage auido process algorithms, include :hw iir eq, sw iir eq, ** hw fir eq, drc... ** version : V1.0 ** author : Yunjie Huo ** modify : 2018.12.4 ** todo : NULL ** MIPS : NO PROCESS: 34M(TWS, one ear, Mono, AAC, 48k) ** DRC1: 36M(3 bands) ** DRC2: 12M *******************************************************************************/ /* Audio Flow: DECODE --> SW IIR EQ --> DRC --> LIMTER --> VOLUME --> HW IIR EQ --> SPK +-----------------------------+ | DAC | | | +--------+ +-----------+ +-----+ +--------+ | +--------+ +-----------+ | +-----+ | | PCM | | | | | | | | | | | | | | | DECODE +---->+ SW IIR EQ +--->+ DRC +--->+ LIMTER +--->+ VOLUME +--->+ HW IIR EQ +--->+ SPK | | | | | | | | | | | | | | | | | +--------+ +-----------+ +-----+ +--------+ | +--------+ +-----------+ | +-----+ +-----------------------------+ | ------------ | ------------------------- | -------- | ----------- | | Algorithm | description | MIPS(M) | RAM(kB) | | ------------ | ------------------------- | -------- | ----------- | | DRC | Dynamic Range Compression | 12M/band | 13 | | Limiter/DRC2 | Limiter | 12M | 5 | | EQ | Equalizer | 1M/band | Almost zero | */ #include "hal_timer.h" #include "hal_trace.h" #include "hal_cmu.h" #include "string.h" #include "audio_process.h" #include "stdbool.h" #include "hal_location.h" #include "hw_codec_iir_process.h" #include "hw_iir_process.h" #include "tgt_hardware.h" #include "drc.h" #include "limiter.h" #include "audio_cfg.h" #if defined(USB_EQ_TUNING) #if !defined(__HW_DAC_IIR_EQ_PROCESS__) && !defined(__SW_IIR_EQ_PROCESS__) #error "Either HW_DAC_IIR_EQ_PROCESS or SW_IIR_EQ_PROCESS should be defined when enabling USB_EQ_TUNING" #endif #endif #if defined(__PC_CMD_UART__) || defined(USB_EQ_TUNING) #include "hal_cmd.h" #if defined(__SW_IIR_EQ_PROCESS__) #define AUDIO_EQ_SW_IIR_UPDATE_CFG #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) #define AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG #endif #if defined(__HW_IIR_EQ_PROCESS__) #define AUDIO_EQ_HW_IIR_UPDATE_CFG #endif #ifdef __HW_FIR_EQ_PROCESS__ #define AUDIO_EQ_HW_FIR_UPDATE_CFG #endif #ifdef __AUDIO_DRC__ #define AUDIO_DRC_UPDATE_CFG #endif #ifdef __AUDIO_DRC2__ #define AUDIO_DRC2_UPDATE_CFG #endif #endif #if defined(__SW_IIR_EQ_PROCESS__) extern const IIR_CFG_T * const audio_eq_sw_iir_cfg_list[EQ_SW_IIR_LIST_NUM]; #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) extern const IIR_CFG_T * const POSSIBLY_UNUSED audio_eq_hw_dac_iir_cfg_list[EQ_HW_DAC_IIR_LIST_NUM]; #endif #if defined(__HW_IIR_EQ_PROCESS__) extern const IIR_CFG_T * const POSSIBLY_UNUSED audio_eq_hw_iir_cfg_list[EQ_HW_IIR_LIST_NUM]; #endif #ifdef __HW_FIR_EQ_PROCESS__ extern const FIR_CFG_T * const audio_eq_hw_fir_cfg_list[EQ_HW_FIR_LIST_NUM]; #endif #ifdef __AUDIO_DRC__ extern const DrcConfig audio_drc_cfg; #endif #ifdef __AUDIO_DRC2__ extern const LimiterConfig audio_drc2_cfg; #endif #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) || defined(AUDIO_EQ_HW_FIR_UPDATE_CFG)|| defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG)|| defined(AUDIO_EQ_HW_IIR_UPDATE_CFG) || defined(AUDIO_DRC_UPDATE_CFG) || defined(AUDIO_DRC2_UPDATE_CFG) #define AUDIO_UPDATE_CFG #endif #ifdef __AUDIO_DRC__ #define AUDIO_DRC_NEEDED_SIZE (1024*13) #else #define AUDIO_DRC_NEEDED_SIZE (0) #endif #ifdef __AUDIO_DRC2__ #define AUDIO_DRC2_NEEDED_SIZE (1024*5) #else #define AUDIO_DRC2_NEEDED_SIZE (0) #endif #define AUDIO_MEMORY_SIZE (AUDIO_DRC_NEEDED_SIZE + AUDIO_DRC2_NEEDED_SIZE) #if AUDIO_MEMORY_SIZE > 0 #include "audio_memory.h" #endif #ifndef CODEC_OUTPUT_DEV #define CODEC_OUTPUT_DEV CFG_HW_AUD_OUTPUT_PATH_SPEAKER_DEV #endif typedef signed int pcm_24bits_t; typedef signed short int pcm_16bits_t; typedef struct{ enum AUD_BITS_T sample_bits; enum AUD_SAMPRATE_T sample_rate; enum AUD_CHANNEL_NUM_T sw_ch_num; enum AUD_CHANNEL_NUM_T hw_ch_num; #if defined(__SW_IIR_EQ_PROCESS__) bool sw_iir_enable; #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) bool hw_dac_iir_enable; #endif #if defined(__HW_IIR_EQ_PROCESS__) bool hw_iir_enable; #endif #if defined(__HW_FIR_EQ_PROCESS__) bool hw_fir_enable; #endif #if AUDIO_MEMORY_SIZE > 0 uint8_t *audio_heap; #endif #ifdef __AUDIO_DRC__ DrcState *drc_st; #endif #ifdef __AUDIO_DRC2__ LimiterState *drc2_st; #endif #ifdef AUDIO_UPDATE_CFG bool update_cfg; #endif #ifdef USB_EQ_TUNING bool eq_updated_cfg; #endif #ifdef AUDIO_EQ_SW_IIR_UPDATE_CFG IIR_CFG_T sw_iir_cfg; #endif #ifdef AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG IIR_CFG_T hw_dac_iir_cfg; #endif #ifdef AUDIO_EQ_HW_IIR_UPDATE_CFG IIR_CFG_T hw_iir_cfg; #endif #ifdef AUDIO_EQ_HW_FIR_UPDATE_CFG FIR_CFG_T hw_fir_cfg; #endif #ifdef AUDIO_DRC_UPDATE_CFG bool drc_update; DrcConfig drc_cfg; #endif #ifdef AUDIO_DRC2_UPDATE_CFG bool drc2_update; LimiterConfig drc2_cfg; #endif } AUDIO_PROCESS_T; static AUDIO_PROCESS_T audio_process = { .sample_bits = AUD_BITS_NULL, .sample_rate = AUD_SAMPRATE_NULL, .sw_ch_num = AUD_CHANNEL_NUM_NULL, .hw_ch_num = AUD_CHANNEL_NUM_NULL, #if defined(__SW_IIR_EQ_PROCESS__) .sw_iir_enable = false, #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) .hw_dac_iir_enable = false, #endif #if defined(__HW_IIR_EQ_PROCESS__) .hw_iir_enable = false, #endif #if defined(__HW_FIR_EQ_PROCESS__) .hw_fir_enable = false, #endif #ifdef AUDIO_UPDATE_CFG .update_cfg = false, #endif #ifdef AUDIO_EQ_SW_IIR_UPDATE_CFG .sw_iir_cfg = {.num = 0}, #endif #ifdef AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG .hw_dac_iir_cfg = {.num = 0}, #endif #ifdef AUDIO_EQ_HW_IIR_UPDATE_CFG .hw_iir_cfg = {.num = 0}, #endif #ifdef AUDIO_EQ_HW_FIR_UPDATE_CFG .hw_fir_cfg = {.len = 0}, #endif #ifdef AUDIO_DRC_UPDATE_CFG .drc_update = false, .drc_cfg = { .knee = 0, .filter_type = {-1, -1}, .band_num = 1, .look_ahead_time = 0, .band_settings = { {0, 0, 1, 1, 1, 1}, {0, 0, 1, 1, 1, 1}, } }, #endif #ifdef AUDIO_DRC2_UPDATE_CFG .drc2_update = false, .drc2_cfg = { .knee = 0, .look_ahead_time = 0, .threshold = 0, .makeup_gain = 0, .ratio = 1000, .attack_time = 1, .release_time = 1, }, #endif }; int audio_eq_set_cfg(const FIR_CFG_T *fir_cfg, const IIR_CFG_T *iir_cfg, AUDIO_EQ_TYPE_T audio_eq_type) { #if defined(__SW_IIR_EQ_PROCESS__) || defined(__HW_FIR_EQ_PROCESS__)|| defined(__HW_DAC_IIR_EQ_PROCESS__)|| defined(__HW_IIR_EQ_PROCESS__) switch (audio_eq_type) { #if defined(__SW_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_SW_IIR: { if(iir_cfg) { audio_process.sw_iir_enable = false; #ifdef USB_EQ_TUNING if (audio_process.eq_updated_cfg) { iir_set_cfg(&audio_process.sw_iir_cfg); } else #endif { iir_set_cfg(iir_cfg); } audio_process.sw_iir_enable = true; } else { audio_process.sw_iir_enable = false; } } break; #endif #if defined(__HW_FIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_FIR: { if(fir_cfg) { audio_process.hw_fir_enable = false; fir_set_cfg(fir_cfg); audio_process.hw_fir_enable = true; } else { audio_process.hw_fir_enable = false; } } break; #endif #if defined(__HW_DAC_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_DAC_IIR: { if(iir_cfg) { HW_CODEC_IIR_CFG_T *hw_iir_cfg_dac=NULL; enum AUD_SAMPRATE_T sample_rate_hw_dac_iir; #ifdef __AUDIO_RESAMPLE__ int i; for(i=1;i<129;i++) { if(audio_process.sample_rate==AUD_SAMPRATE_7350*i)break; if(audio_process.sample_rate==AUD_SAMPRATE_8000*i)break; } TRACE(1,"audio_process.sample_rate i:%d",i); if(i==129) i=6; //set default eq parameter; sample_rate_hw_dac_iir=i*8463.541666f;//AUD_SAMPRATE_8463 #else sample_rate_hw_dac_iir=audio_process.sample_rate; #endif audio_process.hw_dac_iir_enable = false; #ifdef USB_EQ_TUNING if (audio_process.eq_updated_cfg) { hw_iir_cfg_dac = hw_codec_iir_get_cfg(sample_rate_hw_dac_iir, &audio_process.hw_dac_iir_cfg); } else #endif { hw_iir_cfg_dac = hw_codec_iir_get_cfg(sample_rate_hw_dac_iir,iir_cfg); } ASSERT(hw_iir_cfg_dac != NULL, "[%s] codec IIR parameter error!", __func__); hw_codec_iir_set_cfg(hw_iir_cfg_dac, sample_rate_hw_dac_iir, HW_CODEC_IIR_DAC); audio_process.hw_dac_iir_enable = true; } else { audio_process.hw_dac_iir_enable = false; } } break; #endif #if defined(__HW_IIR_EQ_PROCESS__) case AUDIO_EQ_TYPE_HW_IIR: { if(iir_cfg) { HW_IIR_CFG_T *hw_iir_cfg=NULL; audio_process.hw_iir_enable = false; hw_iir_cfg = hw_iir_get_cfg(audio_process.sample_rate,iir_cfg); ASSERT(hw_iir_cfg != NULL,"[%s] 0x%x codec IIR parameter error!", __func__, (unsigned int)hw_iir_cfg); hw_iir_set_cfg(hw_iir_cfg); audio_process.hw_iir_enable = true; } else { audio_process.hw_iir_enable = false; } } break; #endif default: { ASSERT(false,"[%s]Error eq type!",__func__); } } #endif return 0; } int SRAM_TEXT_LOC audio_process_run(uint8_t *buf, uint32_t len) { int POSSIBLY_UNUSED pcm_len = 0; if(audio_process.sample_bits == AUD_BITS_16) { pcm_len = len / sizeof(pcm_16bits_t); } else if(audio_process.sample_bits == AUD_BITS_24) { pcm_len = len / sizeof(pcm_24bits_t); } else { ASSERT(0, "[%s] bits(%d) is invalid", __func__, audio_process.sample_bits); } if (audio_process.sw_ch_num == audio_process.hw_ch_num) { // do nothing } else if (audio_process.sw_ch_num == AUD_CHANNEL_NUM_1 && audio_process.hw_ch_num == AUD_CHANNEL_NUM_2) { if (audio_process.sample_bits == AUD_BITS_16) { int16_t *pcm_buf = (int16_t *)buf; for (uint32_t i = 0, j = 0; i < pcm_len; i += 2, j++) { pcm_buf[j] = pcm_buf[i]; } } else { int32_t *pcm_buf = (int32_t *)buf; for (uint32_t i = 0, j = 0; i < pcm_len; i += 2, j++) { pcm_buf[j] = pcm_buf[i]; } } pcm_len /= 2; } else { ASSERT(0, "[%s] sw_ch_num(%d) or hw_ch_num(%d) is invalid", __FUNCTION__, audio_process.sw_ch_num, audio_process.hw_ch_num); } #ifdef AUDIO_PROCESS_DUMP int *buf32 = (int *)buf; for(int i=0;i<1024;i++) dump_buf[i] = buf32[2 * i]>>8; audio_dump_clear_up(); audio_dump_add_channel_data(0, dump_buf, 1024); #endif //int32_t s_time,e_time; //s_time = hal_fast_sys_timer_get(); #ifdef __SW_IIR_EQ_PROCESS__ if(audio_process.sw_iir_enable) { iir_run(buf, pcm_len); } #endif #ifdef __HW_FIR_EQ_PROCESS__ if(audio_process.hw_fir_enable) { fir_run(buf, pcm_len); } #endif #ifdef __AUDIO_DRC__ #ifdef AUDIO_DRC_UPDATE_CFG if(audio_process.drc_update) { drc_set_config(audio_process.drc_st, &audio_process.drc_cfg); audio_process.drc_update =false; } #endif drc_process(audio_process.drc_st, buf, pcm_len); #endif //int32_t m_time = hal_fast_sys_timer_get(); #ifdef __AUDIO_DRC2__ #ifdef AUDIO_DRC2_UPDATE_CFG if(audio_process.drc2_update) { limiter_set_config(audio_process.drc2_st, &audio_process.drc2_cfg); audio_process.drc2_update =false; } #endif limiter_process(audio_process.drc2_st, buf, pcm_len); #endif #ifdef __HW_IIR_EQ_PROCESS__ if(audio_process.hw_iir_enable) { hw_iir_run(buf, pcm_len); } #endif if (audio_process.sw_ch_num == audio_process.hw_ch_num) { // do nothing } else if (audio_process.sw_ch_num == AUD_CHANNEL_NUM_1 && audio_process.hw_ch_num == AUD_CHANNEL_NUM_2) { if (audio_process.sample_bits == AUD_BITS_16) { int16_t *pcm_buf = (int16_t *)buf; for (int32_t i = pcm_len - 1, j = 2 * pcm_len - 1; i >= 0; i--, j -= 2) { pcm_buf[j + 1] = pcm_buf[i]; pcm_buf[j + 0] = pcm_buf[i]; } } else { int32_t *pcm_buf = (int32_t *)buf; for (int32_t i = pcm_len - 1, j = 2 * pcm_len - 2; i >= 0; i--, j -= 2) { pcm_buf[j + 1] = pcm_buf[i]; pcm_buf[j + 0] = pcm_buf[i]; } } pcm_len *= 2; } else { ASSERT(0, "[%s] sw_ch_num(%d) or hw_ch_num(%d) is invalid", __FUNCTION__, audio_process.sw_ch_num, audio_process.hw_ch_num); } #ifdef AUDIO_PROCESS_DUMP //for(int i=0;i<1024;i++) // dump_buf[i] = buf32[2 * i+0]>>8; //audio_dump_add_channel_data(1, dump_buf, 1024); audio_dump_run(); #endif //e_time = hal_fast_sys_timer_get(); //TRACE(4,"[%s] Sample len = %d, drc1 %d us, drc2 %d us", // __func__, pcm_len, FAST_TICKS_TO_US(m_time - s_time), FAST_TICKS_TO_US(e_time - m_time)); return 0; } /* * frame_size stands for samples per channel */ int audio_process_open(enum AUD_SAMPRATE_T sample_rate, enum AUD_BITS_T sample_bits, enum AUD_CHANNEL_NUM_T sw_ch_num, enum AUD_CHANNEL_NUM_T hw_ch_num, int32_t frame_size, void *eq_buf, uint32_t len) { TRACE(5,"[%s] sample_rate = %d, sample_bits = %d, sw_ch_num = %d, hw_ch_num = %d", __func__, sample_rate, sample_bits, sw_ch_num, hw_ch_num); #ifdef AUDIO_PROCESS_DUMP audio_dump_init(1024, sizeof(short), 2); #endif audio_process.sample_rate = sample_rate; audio_process.sample_bits = sample_bits; audio_process.sw_ch_num = sw_ch_num; audio_process.hw_ch_num = hw_ch_num; #if defined(__HW_FIR_EQ_PROCESS__) && defined(__HW_IIR_EQ_PROCESS__) void *fir_eq_buf = eq_buf; uint32_t fir_len = len/2; void *iir_eq_buf = (uint8_t *)eq_buf+fir_len; uint32_t iir_len = len/2; #elif defined(__HW_FIR_EQ_PROCESS__) && !defined(__HW_IIR_EQ_PROCESS__) void *fir_eq_buf = eq_buf; uint32_t fir_len = len; #elif !defined(__HW_FIR_EQ_PROCESS__) && defined(__HW_IIR_EQ_PROCESS__) void *iir_eq_buf = eq_buf; uint32_t iir_len = len; #endif #ifdef __SW_IIR_EQ_PROCESS__ iir_open(sample_rate, sample_bits,sw_ch_num); #ifdef AUDIO_EQ_SW_IIR_UPDATE_CFG audio_eq_set_cfg(NULL, &audio_process.sw_iir_cfg, AUDIO_EQ_TYPE_SW_IIR); #endif #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ enum AUD_SAMPRATE_T sample_rate_hw_dac_iir; #ifdef __AUDIO_RESAMPLE__ int i; for(i=1;i<129;i++) { if(audio_process.sample_rate==AUD_SAMPRATE_7350*i)break; if(audio_process.sample_rate==AUD_SAMPRATE_8000*i)break; } TRACE(1,"sample_rate i:%d",i); if(i==129) i=6; //set default eq parameter; sample_rate_hw_dac_iir=i*8463.541666f;//AUD_SAMPRATE_8463 #else sample_rate_hw_dac_iir = audio_process.sample_rate; #endif hw_codec_iir_open(sample_rate_hw_dac_iir, HW_CODEC_IIR_DAC, CODEC_OUTPUT_DEV); #ifdef AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG audio_eq_set_cfg(NULL, &audio_process.hw_dac_iir_cfg, AUDIO_EQ_TYPE_HW_DAC_IIR); #endif #endif #ifdef __HW_IIR_EQ_PROCESS__ hw_iir_open(sample_rate, sample_bits, sw_ch_num, iir_eq_buf, iir_len); #ifdef AUDIO_EQ_HW_IIR_UPDATE_CFG audio_eq_set_cfg(NULL, &audio_process.hw_iir_cfg, AUDIO_EQ_TYPE_HW_IIR); #endif #endif #ifdef __HW_FIR_EQ_PROCESS__ #if defined(CHIP_BEST1000) && defined(FIR_HIGHSPEED) hal_cmu_fir_high_speed_enable(HAL_CMU_FIR_USER_EQ); #endif fir_open(sample_rate, sample_bits, sw_ch_num, fir_eq_buf, fir_len); #ifdef AUDIO_EQ_HW_FIR_UPDATE_CFG audio_eq_set_cfg(&audio_process.hw_fir_cfg, NULL, AUDIO_EQ_TYPE_HW_FIR); #endif #endif #if AUDIO_MEMORY_SIZE > 0 syspool_get_buff(&audio_process.audio_heap, AUDIO_MEMORY_SIZE); audio_heap_init(audio_process.audio_heap, AUDIO_MEMORY_SIZE); #endif #ifdef __AUDIO_DRC__ audio_process.drc_st = drc_create(sample_rate, frame_size, sample_bits, sw_ch_num, #ifdef AUDIO_DRC_UPDATE_CFG &audio_process.drc_cfg #else &audio_drc_cfg #endif ); #ifdef AUDIO_DRC_UPDATE_CFG audio_process.drc_update = false; #endif #endif #ifdef __AUDIO_DRC2__ audio_process.drc2_st = limiter_create(sample_rate, frame_size, sample_bits, sw_ch_num, #ifdef AUDIO_DRC2_UPDATE_CFG &audio_process.drc2_cfg #else &audio_drc2_cfg #endif ); #ifdef AUDIO_DRC2_UPDATE_CFG audio_process.drc2_update = false; #endif #endif #if defined(__PC_CMD_UART__) && defined(USB_AUDIO_APP) hal_cmd_open(); #endif return 0; } int audio_process_close(void) { #ifdef __SW_IIR_EQ_PROCESS__ audio_process.sw_iir_enable = false; iir_close(); #endif #ifdef __HW_DAC_IIR_EQ_PROCESS__ audio_process.hw_dac_iir_enable = false; hw_codec_iir_close(HW_CODEC_IIR_DAC); #endif #ifdef __HW_IIR_EQ_PROCESS__ audio_process.hw_iir_enable = false; hw_iir_close(); #endif #ifdef __HW_FIR_EQ_PROCESS__ audio_process.hw_fir_enable = false; fir_close(); #if defined(CHIP_BEST1000) && defined(FIR_HIGHSPEED) hal_cmu_fir_high_speed_disable(HAL_CMU_FIR_USER_EQ); #endif #endif #ifdef __AUDIO_DRC__ #ifdef AUDIO_DRC_UPDATE_CFG audio_process.drc_update = false; #endif drc_destroy(audio_process.drc_st); audio_process.drc_st = NULL; #endif #ifdef __AUDIO_DRC2__ #ifdef AUDIO_DRC2_UPDATE_CFG audio_process.drc2_update = false; #endif limiter_destroy(audio_process.drc2_st); audio_process.drc2_st = NULL; #endif #if AUDIO_MEMORY_SIZE > 0 size_t total = 0, used = 0, max_used = 0; audio_memory_info(&total, &used, &max_used); TRACE(3,"AUDIO MALLOC MEM: total - %d, used - %d, max_used - %d.", total, used, max_used); ASSERT(used == 0, "[%s] used != 0", __func__); #endif #if defined(__PC_CMD_UART__) && defined(USB_AUDIO_APP) hal_cmd_close(); #endif return 0; } #if defined(__PC_CMD_UART__) || defined(USB_EQ_TUNING) int audio_ping_callback(uint8_t *buf, uint32_t len) { //TRACE(0,""); return 0; } #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) && !defined(USB_EQ_TUNING) #ifndef USB_AUDIO_APP int audio_eq_sw_iir_callback(uint8_t *buf, uint32_t len) { TRACE(3,"[%s] len = %d, sizeof(struct) = %d", __func__, len, sizeof(IIR_CFG_T)); if (len != sizeof(IIR_CFG_T)) { return 1; } memcpy(&audio_process.sw_iir_cfg, buf, sizeof(IIR_CFG_T)); TRACE(3,"band num:%d gain0:%d, gain1:%d", (int32_t)audio_process.sw_iir_cfg.num, (int32_t)(audio_process.sw_iir_cfg.gain0*10), (int32_t)(audio_process.sw_iir_cfg.gain1*10)); for (uint8_t i = 0; igain0, rx_iir_cfg->gain1); // for(int i=0; inum; i++) // { // TRACE(5,"[%s] iir[%d] gain = %f, f = %f, Q = %f", __func__, i, rx_iir_cfg->param[i].gain, rx_iir_cfg->param[i].fc, rx_iir_cfg->param[i].Q); // } // audio_eq_set_cfg(NULL,(const IIR_CFG_T *)rx_iir_cfg,AUDIO_EQ_TYPE_SW_IIR); iir_update_cfg_tbl(buf, len); return 0; } #endif #endif #ifdef AUDIO_EQ_HW_FIR_UPDATE_CFG int audio_eq_hw_fir_callback(uint8_t *buf, uint32_t len) { TRACE(3,"[%s] len = %d, sizeof(struct) = %d", __func__, len, sizeof(FIR_CFG_T)); if (len != sizeof(FIR_CFG_T)) { return 1; } FIR_CFG_T *rx_fir_cfg = NULL; rx_fir_cfg = (FIR_CFG_T *)buf; TRACE(3,"[%s] left gain = %d, right gain = %d", __func__, rx_fir_cfg->gain0, rx_fir_cfg->gain1); TRACE(6,"[%s] len = %d, coef: %d, %d......%d, %d", __func__, rx_fir_cfg->len, rx_fir_cfg->coef[0], rx_fir_cfg->coef[1], rx_fir_cfg->coef[rx_fir_cfg->len-2], rx_fir_cfg->coef[rx_fir_cfg->len-1]); rx_fir_cfg->gain0 = 6; rx_fir_cfg->gain1 = 6; if(rx_fir_cfg) { memcpy(&audio_process.fir_cfg, rx_fir_cfg, sizeof(audio_process.fir_cfg)); audio_process.fir_enable = true; fir_set_cfg(&audio_process.fir_cfg); } else { audio_process.fir_enable = false; } return 0; } #endif #ifdef AUDIO_DRC_UPDATE_CFG int audio_drc_callback(uint8_t *buf, uint32_t len) { TRACE(3,"[%s] len = %d, sizeof(struct) = %d", __func__, len, sizeof(DrcConfig)); if (len != sizeof(DrcConfig)) { TRACE(1,"[%s] WARNING: Length is different", __func__); return 1; } if (audio_process.drc_st == NULL) { TRACE(1,"[%s] WARNING: audio_process.drc2_st = NULL", __func__); TRACE(1,"[%s] WARNING: Please Play music, then tuning Limiter", __func__); return 2; } memcpy(&audio_process.drc_cfg, buf, sizeof(DrcConfig)); audio_process.drc_update = true; return 0; } #endif #ifdef AUDIO_DRC2_UPDATE_CFG int audio_drc2_callback(uint8_t *buf, uint32_t len) { TRACE(3,"[%s] len = %d, sizeof(struct) = %d", __func__, len, sizeof(LimiterConfig)); if (len != sizeof(LimiterConfig)) { TRACE(1,"[%s] WARNING: Length is different", __func__); return 1; } if (audio_process.drc2_st == NULL) { TRACE(1,"[%s] WARNING: audio_process.drc2_st = NULL", __func__); TRACE(1,"[%s] WARNING: Please Play music, then tuning Limiter", __func__); return 2; } memcpy(&audio_process.drc2_cfg, buf, sizeof(LimiterConfig)); audio_process.drc2_update = true; return 0; } #endif #if defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG) && !defined(USB_EQ_TUNING) int audio_eq_hw_dac_iir_callback(uint8_t *buf, uint32_t len) { TRACE(3,"[%s] len = %d, sizeof(struct) = %d", __func__, len, sizeof(IIR_CFG_T)); if (len != sizeof(IIR_CFG_T)) { return 1; } memcpy(&audio_process.hw_dac_iir_cfg, buf, sizeof(IIR_CFG_T)); TRACE(3,"band num:%d gain0:%d, gain1:%d", (int32_t)audio_process.hw_dac_iir_cfg.num, (int32_t)(audio_process.hw_dac_iir_cfg.gain0*10), (int32_t)(audio_process.hw_dac_iir_cfg.gain1*10)); for (uint8_t i = 0; i sample_rate[%d], num[%d]", /*cur_cfg->samplerate,*/ audio_process.sample_rate, cur_cfg->num); #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) audio_process.sw_iir_cfg.gain0 = cur_cfg->gain0; audio_process.sw_iir_cfg.gain1 = cur_cfg->gain1; #endif #if defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG) #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) audio_process.hw_dac_iir_cfg.gain0 = 0; audio_process.hw_dac_iir_cfg.gain1 = 0; #else audio_process.hw_dac_iir_cfg.gain0 = cur_cfg->gain0; audio_process.hw_dac_iir_cfg.gain1 = cur_cfg->gain1; #endif #endif #if defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG) if (cur_cfg->num > AUD_DAC_IIR_NUM_EQ) { audio_process.hw_dac_iir_cfg.num = AUD_DAC_IIR_NUM_EQ; } else { audio_process.hw_dac_iir_cfg.num = cur_cfg->num; } TRACE(1,"-> hw_dac_iir_num[%d]", audio_process.hw_dac_iir_cfg.num); #endif #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) audio_process.sw_iir_cfg.num = cur_cfg->num - audio_process.hw_dac_iir_cfg.num; TRACE(1,"-> sw_iir_num[%d]", audio_process.sw_iir_cfg.num); #endif //TRACE(2,"-> iir_num[%d - %d]", audio_process.hw_dac_iir_cfg.num, audio_process.sw_iir_cfg.num); #if defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG) if (audio_process.hw_dac_iir_cfg.num) { memcpy((void*)(&audio_process.hw_dac_iir_cfg.param[0]), (void*)(&cur_cfg->param[0]), audio_process.hw_dac_iir_cfg.num*sizeof(IIR_PARAM_T)); } #endif #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) if (audio_process.sw_iir_cfg.num) { memcpy((void*)(&audio_process.sw_iir_cfg.param[0]), (void*)(&cur_cfg->param[audio_process.hw_dac_iir_cfg.num]), audio_process.sw_iir_cfg.num * sizeof(IIR_PARAM_T)); } else { // set a default filter audio_process.sw_iir_cfg.num = 1; audio_process.sw_iir_cfg.param[0].fc = 1000.0; audio_process.sw_iir_cfg.param[0].gain = 0.0; audio_process.sw_iir_cfg.param[0].type = IIR_TYPE_PEAK; audio_process.sw_iir_cfg.param[0].Q = 1.0; } #endif if (audio_process.sample_rate) { audio_process.update_cfg = true; } audio_process.eq_updated_cfg = true; return 0; } void audio_eq_usb_eq_update (void) { if (audio_process.update_cfg) { #if defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG) HW_CODEC_IIR_CFG_T *hw_iir_cfg_dac = NULL; if (audio_process.hw_dac_iir_cfg.num) { enum AUD_SAMPRATE_T sample_rate_hw_dac_iir; #ifdef __AUDIO_RESAMPLE__ int i; for(i=1;i<129;i++) { if(audio_process.sample_rate==AUD_SAMPRATE_7350*i)break; if(audio_process.sample_rate==AUD_SAMPRATE_8000*i)break; } TRACE(1,"audio_process.sample_rate i:%d",i); if(i==129) i=6; //set default eq parameter; sample_rate_hw_dac_iir=i*8463.541666f;//AUD_SAMPRATE_8463 #else sample_rate_hw_dac_iir = audio_process.sample_rate; #endif hw_iir_cfg_dac = hw_codec_iir_get_cfg(sample_rate_hw_dac_iir, &audio_process.hw_dac_iir_cfg); hw_codec_iir_set_cfg(hw_iir_cfg_dac, sample_rate_hw_dac_iir, HW_CODEC_IIR_DAC); audio_process.hw_dac_iir_enable = true; } else { audio_process.hw_dac_iir_enable = false; } #endif #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) iir_set_cfg(&audio_process.sw_iir_cfg); audio_process.sw_iir_enable = true; #endif audio_process.update_cfg = false; /* TRACE(4,"USB EQ Update: en[%d-%d], num[%d-%d]", audio_process.hw_dac_iir_enable, audio_process.sw_iir_enable, audio_process.hw_dac_iir_cfg.num, audio_process.sw_iir_cfg.num); */ } } #endif // USB_EQ_TUNING typedef struct { uint8_t type; uint8_t maxEqBandNum; uint16_t sample_rate_num; uint8_t sample_rate[50]; } query_eq_info_t; extern int getMaxEqBand(void); extern int getSampleArray(uint8_t* buf, uint16_t *num); extern void hal_cmd_set_res_playload(uint8_t* data, int len); #define CMD_TYPE_QUERY_DUT_EQ_INFO 0x00 int audio_cmd_callback(uint8_t *buf, uint32_t len) { uint8_t type; //uint32_t* sample_rate; //uint8_t* p; query_eq_info_t info; type = buf[0]; //p = buf + 1; TRACE(2,"%s type: %d", __func__, type); switch (type) { case CMD_TYPE_QUERY_DUT_EQ_INFO: info.type = CMD_TYPE_QUERY_DUT_EQ_INFO; info.maxEqBandNum = getMaxEqBand(); getSampleArray(info.sample_rate, &info.sample_rate_num); hal_cmd_set_res_playload((uint8_t*)&info, 4 + info.sample_rate_num * 4); break; default: break; } return 0; } #ifdef AUDIO_SECTION_ENABLE int audio_cfg_burn_callback(uint8_t *buf, uint32_t len) { TRACE(3,"[%s] len = %d, sizeof(struct) = %d", __func__, len, sizeof_audio_cfg()); if (len != sizeof_audio_cfg()) { return 1; } int res = 0; res = store_audio_cfg_into_audio_section((AUDIO_CFG_T *)buf); if(res) { TRACE(2,"[%s] ERROR: res = %d", __func__, res); res += 100; } else { TRACE(1,"[%s] Store audio cfg into audio section!!!", __func__); } return res; } #endif int audio_process_init(void) { #ifdef __PC_CMD_UART__ hal_cmd_init(); #ifdef AUDIO_EQ_SW_IIR_UPDATE_CFG hal_cmd_register("iir_eq", audio_eq_sw_iir_callback); // Will be removed hal_cmd_register("sw_iir_eq", audio_eq_sw_iir_callback); #endif #ifdef AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG hal_cmd_register("iir_eq", audio_eq_hw_dac_iir_callback); // Will be removed hal_cmd_register("dac_iir_eq", audio_eq_hw_dac_iir_callback); #endif #ifdef AUDIO_EQ_HW_IIR_UPDATE_CFG hal_cmd_register("iir_eq", audio_eq_hw_iir_callback); // Will be removed hal_cmd_register("hw_iir_eq", audio_eq_hw_iir_callback); #endif #ifdef AUDIO_EQ_HW_FIR_UPDATE_CFG hal_cmd_register("fir_eq", audio_eq_hw_fir_callback); #endif #ifdef AUDIO_DRC_UPDATE_CFG hal_cmd_register("drc", audio_drc_callback); #endif #ifdef AUDIO_DRC2_UPDATE_CFG hal_cmd_register("limiter", audio_drc2_callback); #endif #ifdef AUDIO_SECTION_ENABLE hal_cmd_register("burn", audio_cfg_burn_callback); hal_cmd_register("audio_burn", audio_cfg_burn_callback); #endif hal_cmd_register("cmd", audio_cmd_callback); hal_cmd_register("ping", audio_ping_callback); #endif #ifdef USB_EQ_TUNING hal_cmd_init(); #if defined(AUDIO_EQ_SW_IIR_UPDATE_CFG) || defined(AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG) hal_cmd_register("iir_eq", audio_eq_usb_iir_callback); #endif hal_cmd_register("cmd", audio_cmd_callback); hal_cmd_register("ping", audio_ping_callback); #endif // load default cfg #ifdef AUDIO_EQ_SW_IIR_UPDATE_CFG memcpy(&audio_process.sw_iir_cfg, audio_eq_sw_iir_cfg_list[0], sizeof(IIR_CFG_T)); #endif #ifdef AUDIO_EQ_HW_DAC_IIR_UPDATE_CFG memcpy(&audio_process.hw_dac_iir_cfg, audio_eq_hw_dac_iir_cfg_list[0], sizeof(IIR_CFG_T)); #endif #ifdef AUDIO_EQ_HW_IIR_UPDATE_CFG memcpy(&audio_process.hw_iir_cfg, audio_eq_hw_iir_cfg_list[0], sizeof(IIR_CFG_T)); #endif #ifdef AUDIO_EQ_HW_FIR_UPDATE_CFG memcpy(&audio_process.hw_fir_cfg, audio_eq_hw_fir_cfg_list[0], sizeof(FIR_CFG_T)); #endif #ifdef AUDIO_DRC_UPDATE_CFG memcpy(&audio_process.drc_cfg, &audio_drc_cfg, sizeof(DrcConfig)); #endif #ifdef AUDIO_DRC2_UPDATE_CFG memcpy(&audio_process.drc2_cfg, &audio_drc2_cfg, sizeof(LimiterConfig)); #endif return 0; }