/* * Copyright (c) 2019-2025 Allwinner Technology Co., Ltd. ALL rights reserved. * * Allwinner is a trademark of Allwinner Technology Co.,Ltd., registered in * the the people's Republic of China and other countries. * All Allwinner Technology Co.,Ltd. trademarks are used with permission. * * DISCLAIMER * THIRD PARTY LICENCES MAY BE REQUIRED TO IMPLEMENT THE SOLUTION/PRODUCT. * IF YOU NEED TO INTEGRATE THIRD PARTY’S TECHNOLOGY (SONY, DTS, DOLBY, AVS OR MPEGLA, ETC.) * IN ALLWINNERS’SDK OR PRODUCTS, YOU SHALL BE SOLELY RESPONSIBLE TO OBTAIN * ALL APPROPRIATELY REQUIRED THIRD PARTY LICENCES. * ALLWINNER SHALL HAVE NO WARRANTY, INDEMNITY OR OTHER OBLIGATIONS WITH RESPECT TO MATTERS * COVERED UNDER ANY REQUIRED THIRD PARTY LICENSE. * YOU ARE SOLELY RESPONSIBLE FOR YOUR USAGE OF THIRD PARTY’S TECHNOLOGY. * * * THIS SOFTWARE IS PROVIDED BY ALLWINNER"AS IS" AND TO THE MAXIMUM EXTENT * PERMITTED BY LAW, ALLWINNER EXPRESSLY DISCLAIMS ALL WARRANTIES OF ANY KIND, * WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING WITHOUT LIMITATION REGARDING * THE TITLE, NON-INFRINGEMENT, ACCURACY, CONDITION, COMPLETENESS, PERFORMANCE * OR MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. * IN NO EVENT SHALL ALLWINNER BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS, OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include "sunxi-codec.h" #include "hal_clk.h" #include "hal_gpio.h" #include "sun8iw18-codec.h" #ifndef ARRAY_SIZE #define ARRAY_SIZE(x) (sizeof(x)/sizeof((x)[0])) #endif #define SUNXI_AUDIOCODEC_REG_DEBUG #ifdef SUNXI_AUDIOCODEC_REG_DEBUG struct snd_codec sun8iw18_codec; #define REG_LABEL(constant) {#constant, constant} #define REG_LABEL_END {NULL, 0} struct audiocodec_label { const char *name; const unsigned int address; /*int value;*/ } reg_labels[] = { REG_LABEL(SUNXI_DAC_DPC), REG_LABEL(SUNXI_DAC_FIFO_CTL), REG_LABEL(SUNXI_DAC_FIFO_STA), REG_LABEL(SUNXI_DAC_CNT), REG_LABEL(SUNXI_DAC_DG), REG_LABEL(SUNXI_ADC_FIFO_CTL), REG_LABEL(SUNXI_ADC_FIFO_STA), REG_LABEL(SUNXI_ADC_CNT), REG_LABEL(SUNXI_ADC_DG), REG_LABEL(SUNXI_DAC_DAP_CTL), REG_LABEL(SUNXI_ADC_DAP_CTL), REG_LABEL(SUNXI_HP_CTL), REG_LABEL(SUNXI_MIX_DAC_CTL), REG_LABEL(SUNXI_LINEOUT_CTL0), REG_LABEL(SUNXI_LINEOUT_CTL1), REG_LABEL(SUNXI_MIC1_CTL), REG_LABEL(SUNXI_MIC2_MIC3_CTL), REG_LABEL(SUNXI_LADCMIX_SRC), REG_LABEL(SUNXI_RADCMIX_SRC), REG_LABEL(SUNXI_XADCMIX_SRC), REG_LABEL(SUNXI_ADC_CTL), REG_LABEL(SUNXI_MBIAS_CTL), REG_LABEL(SUNXI_APT_REG), REG_LABEL(SUNXI_OP_BIAS_CTL0), REG_LABEL(SUNXI_OP_BIAS_CTL1), REG_LABEL(SUNXI_ZC_VOL_CTL), REG_LABEL(SUNXI_BIAS_CAL_CTRL), REG_LABEL_END, }; void sunxi_audiocodec_reg_dump(void) { struct snd_codec *codec = &sun8iw18_codec; int i = 0; while (reg_labels[i].name != NULL) { printf("%-20s[0x%03x]: 0x%-10x\n", reg_labels[i].name, reg_labels[i].address, snd_codec_read(codec, reg_labels[i].address)); i++; } return; } #else void sunxi_audiocodec_reg_dump(void) { return ; } #endif static int sunxi_spk_gpio_get_data(struct snd_kcontrol *kcontrol, struct snd_ctl_info *info) { struct snd_codec *codec = kcontrol->private_data; struct sunxi_codec_info *sunxi_codec = codec->private_data; if (sunxi_codec->param.gpio_spk > 0) { hal_gpio_get_data(sunxi_codec->param.gpio_spk, (gpio_data_t *)&info->value); snd_print("get spk value:%u\n", info->value); info->id = kcontrol->id; info->name = kcontrol->name; info->min = kcontrol->min; info->max = kcontrol->max; return 0; } return -1; } static int sunxi_spk_gpio_set_data(struct snd_kcontrol *kcontrol, unsigned long val) { struct snd_codec *codec = kcontrol->private_data; struct sunxi_codec_info *sunxi_codec = codec->private_data; if (val != GPIO_DATA_LOW && val != GPIO_DATA_HIGH) return -1; if (sunxi_codec->param.gpio_spk > 0) { hal_gpio_set_direction(sunxi_codec->param.gpio_spk, GPIO_DIRECTION_OUTPUT); hal_gpio_set_data(sunxi_codec->param.gpio_spk, (gpio_data_t)val); snd_print("set spk value:%u\n", val); return 0; } return -1; } static const char * const codec_format_function[] = { "hub_disable", "hub_enable"}; static struct snd_kcontrol sunxi_codec_controls[] = { SND_CTL_KCONTROL("digital volume", SUNXI_DAC_DPC, DVOL, 0x3F), SND_CTL_KCONTROL("MIC1 gain volume", SUNXI_MIC1_CTL, MIC1BOOST, 0x7), SND_CTL_KCONTROL("MIC2 gain volume", SUNXI_MIC2_MIC3_CTL, MIC2BOOST, 0x7), SND_CTL_KCONTROL("MIC3 gain volume", SUNXI_MIC2_MIC3_CTL, MIC3BOOST, 0x7), SND_CTL_KCONTROL("ADC gain volume", SUNXI_ADC_CTL, ADCG, 0x7), SND_CTL_KCONTROL("LINEOUT volume", SUNXI_LINEOUT_CTL1, LINEOUT_VOL, 0x1f), SND_CTL_KCONTROL_EXT("Spk PA Switch", 1, 0, sunxi_spk_gpio_get_data, sunxi_spk_gpio_set_data), SND_CTL_KCONTROL("Left Input Mixer DACL Switch", SUNXI_LADCMIX_SRC, LADC_DACL, 1), SND_CTL_KCONTROL("Left Input Mixer MIC1 Boost Switch", SUNXI_LADCMIX_SRC, LADC_MIC1_STAGE, 1), SND_CTL_KCONTROL("Left Input Mixer MIC2 Boost Switch", SUNXI_LADCMIX_SRC, LADC_MIC2_STAGE, 1), SND_CTL_KCONTROL("Left Input Mixer MIC3 Boost Switch", SUNXI_LADCMIX_SRC, LADC_MIC3_STAGE, 1), SND_CTL_KCONTROL("Right Input Mixer DACL Switch", SUNXI_RADCMIX_SRC, RADC_DACL, 1), SND_CTL_KCONTROL("Right Input Mixer MIC1 Boost Switch", SUNXI_RADCMIX_SRC, RADC_MIC1_STAGE, 1), SND_CTL_KCONTROL("Right Input Mixer MIC2 Boost Switch", SUNXI_RADCMIX_SRC, RADC_MIC2_STAGE, 1), SND_CTL_KCONTROL("Right Input Mixer MIC3 Boost Switch", SUNXI_RADCMIX_SRC, RADC_MIC3_STAGE, 1), SND_CTL_KCONTROL("Xadc Input Mixer DACL Switch", SUNXI_XADCMIX_SRC, XADC_DACL, 1), SND_CTL_KCONTROL("Xadc Input Mixer MIC1 Boost Switch", SUNXI_XADCMIX_SRC, XADC_MIC1_STAGE, 1), SND_CTL_KCONTROL("Xadc Input Mixer MIC2 Boost Switch", SUNXI_XADCMIX_SRC, XADC_MIC2_STAGE, 1), SND_CTL_KCONTROL("Xadc Input Mixer MIC3 Boost Switch", SUNXI_XADCMIX_SRC, XADC_MIC3_STAGE, 1), SND_CTL_KCONTROL("Left LINEOUT Mux", SUNXI_LINEOUT_CTL0, LINEOUTL_SRC, 1), SND_CTL_KCONTROL("Right LINEOUT Mux", SUNXI_LINEOUT_CTL0, LINEOUTR_SRC, 1), SND_CTL_ENUM("sunxi codec audio hub mode", ARRAY_SIZE(codec_format_function), codec_format_function, SUNXI_DAC_DPC, DAC_HUB_EN), SND_CTL_KCONTROL_USER("Soft Volume Master", 255, 0, 255), }; static void adchpf_config(struct snd_codec *codec) { snd_codec_write(codec, AC_ADC_DRC_HHPFC, (0xFFFAC1 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LHPFC, 0xFFE644 & 0xFFFF); } static void adchpf_enable(struct snd_codec *codec, bool on) { if (on) { snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_HPF0_EN | 0x1 << ADC_HPF1_EN), (0x1 << ADC_HPF0_EN | 0x1 << ADC_HPF1_EN)); snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_DAP0_EN | 0x1 << ADC_DAP1_EN), (0x1 << ADC_DAP0_EN | 0x1 << ADC_DAP1_EN)); } else { snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_HPF0_EN | 0x1 << ADC_HPF1_EN), (0x0 << ADC_HPF0_EN | 0x0 << ADC_HPF1_EN)); snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_DAP0_EN | 0x1 << ADC_DAP1_EN), (0x0 << ADC_DAP0_EN | 0x0 << ADC_DAP1_EN)); } } static void adcdrc_config(struct snd_codec *codec) { /* Left peak filter attack time */ snd_codec_write(codec, AC_ADC_DRC_LPFHAT, (0x000B77BF >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LPFLAT, 0x000B77BF & 0xFFFF); /* Right peak filter attack time */ snd_codec_write(codec, AC_ADC_DRC_RPFHAT, (0x000B77BF >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_RPFLAT, 0x000B77BF & 0xFFFF); /* Left peak filter release time */ snd_codec_write(codec, AC_ADC_DRC_LPFHRT, (0x00FFE1F8 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LPFLRT, 0x00FFE1F8 & 0xFFFF); /* Right peak filter release time */ snd_codec_write(codec, AC_ADC_DRC_RPFHRT, (0x00FFE1F8 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_RPFLRT, 0x00FFE1F8 & 0xFFFF); /* Left RMS filter attack time */ snd_codec_write(codec, AC_ADC_DRC_LPFHAT, (0x00012BAF >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LPFLAT, 0x00012BAF & 0xFFFF); /* Right RMS filter attack time */ snd_codec_write(codec, AC_ADC_DRC_RPFHAT, (0x00012BAF >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_RPFLAT, 0x00012BAF & 0xFFFF); /* smooth filter attack time */ snd_codec_write(codec, AC_ADC_DRC_SFHAT, (0x00025600 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_SFLAT, 0x00025600 & 0xFFFF); /* gain smooth filter release time */ snd_codec_write(codec, AC_ADC_DRC_SFHRT, (0x00000F04 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_SFLRT, 0x00000F04 & 0xFFFF); /* OPL */ snd_codec_write(codec, AC_ADC_DRC_HOPL, (0xFBD8FBA7 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LOPL, 0xFBD8FBA7 & 0xFFFF); /* OPC */ snd_codec_write(codec, AC_ADC_DRC_HOPC, (0xF95B2C3F >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LOPC, 0xF95B2C3F & 0xFFFF); /* OPE */ snd_codec_write(codec, AC_ADC_DRC_HOPE, (0xF45F8D6E >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LOPE, 0xF45F8D6E & 0xFFFF); /* LT */ snd_codec_write(codec, AC_ADC_DRC_HLT, (0x01A934F0 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LLT, 0x01A934F0 & 0xFFFF); /* CT */ snd_codec_write(codec, AC_ADC_DRC_HCT, (0x06A4D3C0 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LCT, 0x06A4D3C0 & 0xFFFF); /* ET */ snd_codec_write(codec, AC_ADC_DRC_HET, (0x0BA07291 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LET, 0x0BA07291 & 0xFFFF); /* Ki */ snd_codec_write(codec, AC_ADC_DRC_HKI, (0x00051EB8 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LKI, 0x00051EB8 & 0xFFFF); /* Kc */ snd_codec_write(codec, AC_ADC_DRC_HKC, (0x00800000 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LKC, 0x00800000 & 0xFFFF); /* Kn */ snd_codec_write(codec, AC_ADC_DRC_HKN, (0x01000000 >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LKN, 0x01000000 & 0xFFFF); /* Ke */ snd_codec_write(codec, AC_ADC_DRC_HKE, (0x0000F45F >> 16) & 0xFFFF); snd_codec_write(codec, AC_ADC_DRC_LKE, 0x0000F45F & 0xFFFF); } static void adcdrc_enable(struct snd_codec *codec, bool on) { if (on) { snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_DRC0_EN | 0x1 << ADC_DRC1_EN), (0x1 << ADC_DRC0_EN | 0x1 << ADC_DRC1_EN)); snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_DAP0_EN | 0x1 << ADC_DAP1_EN), (0x1 << ADC_DAP0_EN | 0x1 << ADC_DAP1_EN)); } else { snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_DAP0_EN | 0x1 << ADC_DAP1_EN), (0x0 << ADC_DAP0_EN | 0x0 << ADC_DAP1_EN)); snd_codec_update_bits(codec, SUNXI_ADC_DAP_CTL, (0x1 << ADC_DRC0_EN | 0x1 << ADC_DRC1_EN), (0x0 << ADC_DRC0_EN | 0x0 << ADC_DRC1_EN)); } } static void dachpf_config(struct snd_codec *codec) { /* HPF */ snd_codec_write(codec, AC_DAC_DRC_HHPFC, (0xFFFAC1 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LHPFC, 0xFFFAC1 & 0xFFFF); } static void dachpf_enable(struct snd_codec *codec, bool on) { if (on) { snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_HPF_EN), (0x1 << DDAP_HPF_EN)); snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_EN), (0x1 << DDAP_EN)); } else { snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_EN), (0x0 << DDAP_EN)); snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_HPF_EN), (0x0 << DDAP_HPF_EN)); } } static void dacdrc_config(struct snd_codec *codec) { /* Left peak filter attack time */ snd_codec_write(codec, AC_DAC_DRC_LPFHAT, (0x000B77BF >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LPFLAT, 0x000B77BF & 0xFFFF); /* Right peak filter attack time */ snd_codec_write(codec, AC_DAC_DRC_RPFHAT, (0x000B77BF >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_RPFLAT, 0x000B77BF & 0xFFFF); /* Left peak filter release time */ snd_codec_write(codec, AC_DAC_DRC_LPFHRT, (0x00FFE1F8 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LPFLRT, 0x00FFE1F8 & 0xFFFF); /* Right peak filter release time */ snd_codec_write(codec, AC_DAC_DRC_RPFHRT, (0x00FFE1F8 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_RPFLRT, 0x00FFE1F8 & 0xFFFF); /* Left RMS filter attack time */ snd_codec_write(codec, AC_DAC_DRC_LPFHAT, (0x00012BAF >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LPFLAT, 0x00012BAF & 0xFFFF); /* Right RMS filter attack time */ snd_codec_write(codec, AC_DAC_DRC_RPFHAT, (0x00012BAF >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_RPFLAT, 0x00012BAF & 0xFFFF); /* smooth filter attack time */ snd_codec_write(codec, AC_DAC_DRC_SFHAT, (0x00025600 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_SFLAT, 0x00025600 & 0xFFFF); /* gain smooth filter release time */ snd_codec_write(codec, AC_DAC_DRC_SFHRT, (0x00000F04 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_SFLRT, 0x00000F04 & 0xFFFF); /* OPL */ snd_codec_write(codec, AC_DAC_DRC_HOPL, (0xFBD8FBA7 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LOPL, 0xFBD8FBA7 & 0xFFFF); /* OPC */ snd_codec_write(codec, AC_DAC_DRC_HOPC, (0xF95B2C3F >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LOPC, 0xF95B2C3F & 0xFFFF); /* OPE */ snd_codec_write(codec, AC_DAC_DRC_HOPE, (0xF45F8D6E >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LOPE, 0xF45F8D6E & 0xFFFF); /* LT */ snd_codec_write(codec, AC_DAC_DRC_HLT, (0x01A934F0 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LLT, 0x01A934F0 & 0xFFFF); /* CT */ snd_codec_write(codec, AC_DAC_DRC_HCT, (0x06A4D3C0 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LCT, 0x06A4D3C0 & 0xFFFF); /* ET */ snd_codec_write(codec, AC_DAC_DRC_HET, (0x0BA07291 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LET, 0x0BA07291 & 0xFFFF); /* Ki */ snd_codec_write(codec, AC_DAC_DRC_HKI, (0x00051EB8 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LKI, 0x00051EB8 & 0xFFFF); /* Kc */ snd_codec_write(codec, AC_DAC_DRC_HKC, (0x00800000 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LKC, 0x00800000 & 0xFFFF); /* Kn */ snd_codec_write(codec, AC_DAC_DRC_HKN, (0x01000000 >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LKN, 0x01000000 & 0xFFFF); /* Ke */ snd_codec_write(codec, AC_DAC_DRC_HKE, (0x0000F45F >> 16) & 0xFFFF); snd_codec_write(codec, AC_DAC_DRC_LKE, 0x0000F45F & 0xFFFF); } static void dacdrc_enable(struct snd_codec *codec, bool on) { if (on) { /* detect noise when ET enable */ snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_CONTROL_DRC_EN), (0x1 << DAC_DRC_CTL_CONTROL_DRC_EN)); /* 0x0:RMS filter; 0x1:Peak filter */ snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_SIGNAL_FUN_SEL), (0x1 << DAC_DRC_CTL_SIGNAL_FUN_SEL)); /* delay function enable */ snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_DEL_FUN_EN), (0x0 << DAC_DRC_CTL_DEL_FUN_EN)); snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_DRC_LT_EN), (0x1 << DAC_DRC_CTL_DRC_LT_EN)); snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_DRC_ET_EN), (0x1 << DAC_DRC_CTL_DRC_ET_EN)); snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_DRC_EN), (0x1 << DDAP_DRC_EN)); snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_EN), (0x1 << DDAP_EN)); } else { snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_EN), (0x0 << DDAP_EN)); snd_codec_update_bits(codec, SUNXI_DAC_DAP_CTL, (0x1 << DDAP_DRC_EN), (0x0 << DDAP_DRC_EN)); /* detect noise when ET enable */ snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_CONTROL_DRC_EN), (0x0 << DAC_DRC_CTL_CONTROL_DRC_EN)); /* 0x0:RMS filter; 0x1:Peak filter */ snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_SIGNAL_FUN_SEL), (0x1 << DAC_DRC_CTL_SIGNAL_FUN_SEL)); /* delay function enable */ snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_DEL_FUN_EN), (0x0 << DAC_DRC_CTL_DEL_FUN_EN)); snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_DRC_LT_EN), (0x0 << DAC_DRC_CTL_DRC_LT_EN)); snd_codec_update_bits(codec, AC_DAC_DRC_CTL, (0x1 << DAC_DRC_CTL_DRC_ET_EN), (0x0 << DAC_DRC_CTL_DRC_ET_EN)); } } static int sunxi_codec_init(struct snd_codec *codec) { struct sunxi_codec_info *sunxi_codec = codec->private_data; struct sunxi_codec_param *param = &sunxi_codec->param; /* Disable DRC function for playback */ snd_codec_write(codec, SUNXI_DAC_DAP_CTL, 0); /* Disable HPF(high passed filter) */ snd_codec_update_bits(codec, SUNXI_DAC_DPC, (1 << HPF_EN), (0x0 << HPF_EN)); /* Enable ADCFDT to overcome niose at the beginning */ snd_codec_update_bits(codec, SUNXI_ADC_FIFO_CTL, (7 << ADCDFEN), (7 << ADCDFEN)); /* set digital volume */ snd_codec_update_bits(codec, SUNXI_DAC_DPC, (0x3f << DVOL), (param->digital_vol << DVOL)); /* set LINEOUT volume */ snd_codec_update_bits(codec, SUNXI_LINEOUT_CTL1, (0x1f << LINEOUT_VOL), (param->lineout_vol << LINEOUT_VOL)); /* set MIC2,3 Boost AMP disable */ snd_codec_write(codec, SUNXI_MIC2_MIC3_CTL, 0x44); /* set LADC Mixer mute */ snd_codec_write(codec, SUNXI_LADCMIX_SRC, 0x0); /* MIC1 AMP gain */ snd_codec_update_bits(codec, SUNXI_MIC1_CTL, 0x7 << MIC1BOOST, param->mic1gain << MIC1BOOST); /* MIC2,MIC3 AMP gain */ snd_codec_update_bits(codec, SUNXI_MIC2_MIC3_CTL, 0x7 << MIC2BOOST, param->mic2gain << MIC2BOOST); snd_codec_update_bits(codec, SUNXI_MIC2_MIC3_CTL, 0x7 << MIC3BOOST, param->mic3gain << MIC3BOOST); /* adc gain */ snd_codec_update_bits(codec, SUNXI_ADC_CTL, 0x1f << ADCG, param->adcgain << ADCG); /* LINEOUT Mux */ snd_codec_update_bits(codec, SUNXI_LINEOUT_CTL0, (0x1<adcdrc_cfg) { adcdrc_config(codec); adcdrc_enable(codec, 1); } if (param->adchpf_cfg) { adchpf_config(codec); adchpf_enable(codec, 1); } if (param->dacdrc_cfg) { dacdrc_config(codec); dacdrc_enable(codec, 1); } if (param->dachpf_cfg) { dachpf_config(codec); dachpf_enable(codec, 1); } return 0; } static int sun8iw18_codec_probe(struct snd_codec *codec) { struct sunxi_codec_info *sunxi_codec = NULL; struct sunxi_codec_param default_param = { .digital_vol = 0x0, .lineout_vol = 0x0a, .mic1gain = 0x4, .mic2gain = 0x4, .mic3gain = 0x0, .adcgain = 0x3, .gpio_spk = GPIOH(9), .gpio_spk_power = GPIOH(2), .pa_msleep_time = 50, .adcdrc_cfg = 0, .adchpf_cfg = 1, .dacdrc_cfg = 0, .dachpf_cfg = 0, }; if (!codec->codec_dai) return -1; sunxi_codec = snd_malloc(sizeof(struct sunxi_codec_info)); if (!sunxi_codec) { snd_err("no memory\n"); return -ENOMEM; } codec->private_data = (void *)sunxi_codec; snd_print("codec para init\n"); /* get codec para from board config? */ sunxi_codec->param = default_param; codec->codec_base_addr = (void *)SUNXI_CODEC_BASE_ADDR; codec->codec_dai->component = codec; sunxi_codec->pllclk = HAL_CLK_PLL_AUDIO; sunxi_codec->pllclkx4 = HAL_CLK_PLL_AUDIOX4; sunxi_codec->moduleclk = HAL_CLK_PERIPH_AUDIOCODEC_1X; hal_clk_set_parent(sunxi_codec->moduleclk, sunxi_codec->pllclkx4); hal_clock_enable(sunxi_codec->pllclk); hal_clock_enable(sunxi_codec->pllclkx4); hal_clock_enable(sunxi_codec->moduleclk); sunxi_codec_init(codec); return 0; } static int sun8iw18_codec_remove(struct snd_codec *codec) { struct sunxi_codec_info *sunxi_codec = codec->private_data; struct sunxi_codec_param *param = &sunxi_codec->param; if (param->adcdrc_cfg) adcdrc_enable(codec, 0); if (param->adchpf_cfg) adchpf_enable(codec, 0); if (param->dacdrc_cfg) dacdrc_enable(codec, 0); if (param->dachpf_cfg) dachpf_enable(codec, 0); hal_clock_disable(sunxi_codec->moduleclk); hal_clock_disable(sunxi_codec->pllclkx4); hal_clock_disable(sunxi_codec->pllclk); snd_free(sunxi_codec); codec->private_data = NULL; return 0; } static const struct sample_rate sample_rate_conv[] = { {44100, 0}, {48000, 0}, {8000, 5}, {32000, 1}, {22050, 2}, {24000, 2}, {16000, 3}, {11025, 4}, {12000, 4}, {192000, 6}, {96000, 7}, }; static int sunxi_codec_hw_params(struct snd_pcm_substream *substream, struct snd_pcm_hw_params *params, struct snd_dai *dai) { struct snd_codec *codec = dai->component; int i = 0; snd_print("\n"); switch (params_format(params)) { case SND_PCM_FORMAT_S16_LE: if (substream->stream == SNDRV_PCM_STREAM_PLAYBACK) { snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (3<stream == SNDRV_PCM_STREAM_PLAYBACK) { snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (3<stream == SNDRV_PCM_STREAM_PLAYBACK) { snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (0x7< 48000) return -EINVAL; snd_codec_update_bits(codec, SUNXI_ADC_FIFO_CTL, (0x7<stream == SNDRV_PCM_STREAM_PLAYBACK) { switch (params_channels(params)) { case 1: snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (1<component; struct sunxi_codec_info *sunxi_codec = codec->private_data; struct sunxi_codec_param *param = &sunxi_codec->param; if (substream->dapm_state == onoff) return 0; if (substream->stream == SNDRV_PCM_STREAM_PLAYBACK) { /* * Playback: * Playback --> DACL --> Left LINEOUT Mux --> LINEOUTL --> External Speaker * */ if (onoff) { /* Playback on */ /* analog DAC enable */ snd_codec_update_bits(codec, SUNXI_MIX_DAC_CTL, (0x1<gpio_spk > 0) { hal_gpio_set_direction(param->gpio_spk, GPIO_DIRECTION_OUTPUT); hal_gpio_set_data(param->gpio_spk, GPIO_DATA_HIGH); } if (param->gpio_spk_power > 0) { hal_gpio_set_direction(param->gpio_spk_power, GPIO_DIRECTION_OUTPUT); hal_gpio_set_data(param->gpio_spk_power, GPIO_DATA_HIGH); } /* delay to wait PA stable */ hal_msleep(param->pa_msleep_time); } else { /* Playback off */ if (param->gpio_spk > 0) { hal_gpio_set_direction(param->gpio_spk, GPIO_DIRECTION_OUTPUT); hal_gpio_set_data(param->gpio_spk, GPIO_DATA_LOW); } if (param->gpio_spk_power > 0) { hal_gpio_set_direction(param->gpio_spk_power, GPIO_DIRECTION_OUTPUT); hal_gpio_set_data(param->gpio_spk_power, GPIO_DATA_LOW); } hal_msleep(param->pa_msleep_time); /* LINEOUT */ snd_codec_update_bits(codec, SUNXI_LINEOUT_CTL0, (0x1<runtime->channels; snd_print("channels = %u\n", channels); if (onoff) { /* Capture on */ /* digital ADC enable */ #ifndef CONFIG_SND_MULTI_SOUNDCARD snd_codec_update_bits(codec, SUNXI_ADC_FIFO_CTL, (0x1<dapm_state = onoff; return 0; } static int sunxi_codec_startup(struct snd_pcm_substream *substream, struct snd_dai *dai) { snd_print("\n"); return 0; } static int sunxi_codec_trigger(struct snd_pcm_substream *substream, int cmd, struct snd_dai *dai) { struct snd_codec *codec = dai->component; snd_print("cmd=%d\n", cmd); switch (cmd) { case SNDRV_PCM_TRIGGER_START: case SNDRV_PCM_TRIGGER_RESUME: case SNDRV_PCM_TRIGGER_PAUSE_RELEASE: if (substream->stream == SNDRV_PCM_STREAM_PLAYBACK) snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (1<stream == SNDRV_PCM_STREAM_PLAYBACK) snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (1 << DAC_DRQ_EN), (0 << DAC_DRQ_EN)); else { #ifndef CONFIG_SND_MULTI_SOUNDCARD snd_codec_update_bits(codec, SUNXI_ADC_FIFO_CTL, (1 << ADC_DRQ_EN), (0 << ADC_DRQ_EN)); #endif } break; default: return -EINVAL; } return 0; } static int sunxi_codec_prepare(struct snd_pcm_substream *substream, struct snd_dai *dai) { struct snd_codec *codec = dai->component; snd_print("\n"); if (substream->stream == SNDRV_PCM_STREAM_PLAYBACK) { snd_codec_update_bits(codec, SUNXI_DAC_FIFO_CTL, (1<component; struct sunxi_codec_info *sunxi_codec = codec->private_data; snd_print("\n"); if (hal_clk_set_rate(sunxi_codec->pllclk, freq)) { snd_err("set pllclk rate %u failed\n", freq); return -EINVAL; } return 0; } static struct snd_dai_ops sun8iw18_codec_dai_ops = { .hw_params = sunxi_codec_hw_params, .shutdown = sunxi_codec_shutdown, .startup = sunxi_codec_startup, .trigger = sunxi_codec_trigger, .prepare = sunxi_codec_prepare, .set_sysclk = sunxi_codec_set_sysclk, .dapm_control = sunxi_codec_dapm_control, }; static struct snd_dai sun8iw18_codec_dai[] = { { .name = "AC-codecdai", .playback = { .stream_name = "Playback", .channels_min = 1, .channels_max = 2, .rates = SNDRV_PCM_RATE_8000_192000 | SNDRV_PCM_RATE_KNOT, .formats = SNDRV_PCM_FMTBIT_S16_LE | SNDRV_PCM_FMTBIT_S24_LE | SNDRV_PCM_FMTBIT_S32_LE, .rate_min = 8000, .rate_max = 192000, }, .capture = { .stream_name = "Capture", .channels_min = 1, .channels_max = 4, .rates = SNDRV_PCM_RATE_8000_48000 | SNDRV_PCM_RATE_KNOT, .formats = SNDRV_PCM_FMTBIT_S16_LE | SNDRV_PCM_FMTBIT_S24_LE, .rate_min = 8000, .rate_max = 48000, }, .ops = &sun8iw18_codec_dai_ops, }, }; struct snd_codec sun8iw18_codec = { .name = "audiocodec", .codec_dai = sun8iw18_codec_dai, .codec_dai_num = ARRAY_SIZE(sun8iw18_codec_dai), .private_data = NULL, .probe = sun8iw18_codec_probe, .remove = sun8iw18_codec_remove, .read = sunxi_codec_read, .write = sunxi_codec_write, .controls = sunxi_codec_controls, .num_controls = ARRAY_SIZE(sunxi_codec_controls), }; #if 0 extern struct snd_platform gAudioCodecPlatform; struct snd_card gAudioCodec = { .name = "AudioCodec", .codec = &sun8iw18_codec, .platform = &gAudioCodecPlatform, }; #endif