/* * Copyright (c) 2023 Centralp * * SPDX-License-Identifier: Apache-2.0 */ #define DT_DRV_COMPAT ti_tas6422dac #include #include #include #include #include "tas6422dac.h" #define LOG_LEVEL CONFIG_AUDIO_CODEC_LOG_LEVEL #include LOG_MODULE_REGISTER(tas6422dac); #define TAS6422DAC_MUTE_GPIO_SUPPORT DT_ANY_INST_HAS_PROP_STATUS_OKAY(mute_gpios) #define CODEC_OUTPUT_VOLUME_MAX (24 * 2) #define CODEC_OUTPUT_VOLUME_MIN (-100 * 2) struct codec_driver_config { struct i2c_dt_spec bus; #if TAS6422DAC_MUTE_GPIO_SUPPORT struct gpio_dt_spec mute_gpio; #endif /* TAS6422DAC_MUTE_GPIO_SUPPORT */ }; struct codec_driver_data { }; enum tas6422dac_channel_t { TAS6422DAC_CHANNEL_1, TAS6422DAC_CHANNEL_2, TAS6422DAC_CHANNEL_ALL, TAS6422DAC_CHANNEL_UNKNOWN, }; static enum tas6422dac_channel_t audio_to_tas6422dac_channel[] = { [AUDIO_CHANNEL_FRONT_LEFT] = TAS6422DAC_CHANNEL_1, [AUDIO_CHANNEL_FRONT_RIGHT] = TAS6422DAC_CHANNEL_2, [AUDIO_CHANNEL_LFE] = TAS6422DAC_CHANNEL_UNKNOWN, [AUDIO_CHANNEL_FRONT_CENTER] = TAS6422DAC_CHANNEL_UNKNOWN, [AUDIO_CHANNEL_REAR_LEFT] = TAS6422DAC_CHANNEL_1, [AUDIO_CHANNEL_REAR_RIGHT] = TAS6422DAC_CHANNEL_2, [AUDIO_CHANNEL_REAR_CENTER] = TAS6422DAC_CHANNEL_UNKNOWN, [AUDIO_CHANNEL_SIDE_LEFT] = TAS6422DAC_CHANNEL_1, [AUDIO_CHANNEL_SIDE_RIGHT] = TAS6422DAC_CHANNEL_2, [AUDIO_CHANNEL_ALL] = TAS6422DAC_CHANNEL_ALL, }; static void codec_mute_output(const struct device *dev, enum tas6422dac_channel_t channel); static void codec_unmute_output(const struct device *dev, enum tas6422dac_channel_t channel); static void codec_write_reg(const struct device *dev, uint8_t reg, uint8_t val); static void codec_read_reg(const struct device *dev, uint8_t reg, uint8_t *val); static void codec_soft_reset(const struct device *dev); static int codec_configure_dai(const struct device *dev, audio_dai_cfg_t *cfg); static void codec_configure_output(const struct device *dev); static int codec_set_output_volume(const struct device *dev, enum tas6422dac_channel_t channel, int vol); #if (LOG_LEVEL >= LOG_LEVEL_DEBUG) static void codec_read_all_regs(const struct device *dev); #define CODEC_DUMP_REGS(dev) codec_read_all_regs((dev)) #else #define CODEC_DUMP_REGS(dev) #endif static int codec_initialize(const struct device *dev) { const struct codec_driver_config *const dev_cfg = dev->config; if (!device_is_ready(dev_cfg->bus.bus)) { LOG_ERR("I2C device not ready"); return -ENODEV; } #if TAS6422DAC_MUTE_GPIO_SUPPORT if (!device_is_ready(dev_cfg->mute_gpio.port)) { LOG_ERR("GPIO device not ready"); return -ENODEV; } #endif /* TAS6422DAC_MUTE_GPIO_SUPPORT */ return 0; } static int codec_configure(const struct device *dev, struct audio_codec_cfg *cfg) { int ret; if (cfg->dai_type != AUDIO_DAI_TYPE_I2S) { LOG_ERR("dai_type must be AUDIO_DAI_TYPE_I2S"); return -EINVAL; } codec_soft_reset(dev); ret = codec_configure_dai(dev, &cfg->dai_cfg); codec_configure_output(dev); return ret; } static void codec_start_output(const struct device *dev) { codec_unmute_output(dev, TAS6422DAC_CHANNEL_ALL); CODEC_DUMP_REGS(dev); } static void codec_stop_output(const struct device *dev) { codec_mute_output(dev, TAS6422DAC_CHANNEL_ALL); } static void codec_mute_output(const struct device *dev, enum tas6422dac_channel_t channel) { uint8_t val; #if TAS6422DAC_MUTE_GPIO_SUPPORT const struct codec_driver_config *const dev_cfg = dev->config; if (channel == TAS6422DAC_CHANNEL_ALL) { gpio_pin_configure_dt(&dev_cfg->mute_gpio, GPIO_OUTPUT_ACTIVE); } #endif codec_read_reg(dev, CH_STATE_CTRL_ADDR, &val); switch (channel) { case TAS6422DAC_CHANNEL_1: val &= ~CH_STATE_CTRL_CH1_STATE_CTRL_MASK; val |= CH_STATE_CTRL_CH1_STATE_CTRL(CH_STATE_CTRL_MUTE); break; case TAS6422DAC_CHANNEL_2: val &= ~CH_STATE_CTRL_CH2_STATE_CTRL_MASK; val |= CH_STATE_CTRL_CH2_STATE_CTRL(CH_STATE_CTRL_MUTE); break; case TAS6422DAC_CHANNEL_ALL: val &= ~(CH_STATE_CTRL_CH1_STATE_CTRL_MASK | CH_STATE_CTRL_CH2_STATE_CTRL_MASK); val |= CH_STATE_CTRL_CH1_STATE_CTRL(CH_STATE_CTRL_MUTE) | CH_STATE_CTRL_CH2_STATE_CTRL(CH_STATE_CTRL_MUTE); break; case TAS6422DAC_CHANNEL_UNKNOWN: default: LOG_ERR("Invalid codec channel %u", channel); return; } codec_write_reg(dev, CH_STATE_CTRL_ADDR, val); } static void codec_unmute_output(const struct device *dev, enum tas6422dac_channel_t channel) { uint8_t val; #if TAS6422DAC_MUTE_GPIO_SUPPORT const struct codec_driver_config *const dev_cfg = dev->config; gpio_pin_configure_dt(&dev_cfg->mute_gpio, GPIO_OUTPUT_INACTIVE); #endif codec_read_reg(dev, CH_STATE_CTRL_ADDR, &val); switch (channel) { case TAS6422DAC_CHANNEL_1: val &= ~CH_STATE_CTRL_CH1_STATE_CTRL_MASK; val |= CH_STATE_CTRL_CH1_STATE_CTRL(CH_STATE_CTRL_PLAY); break; case TAS6422DAC_CHANNEL_2: val &= ~CH_STATE_CTRL_CH2_STATE_CTRL_MASK; val |= CH_STATE_CTRL_CH2_STATE_CTRL(CH_STATE_CTRL_PLAY); break; case TAS6422DAC_CHANNEL_ALL: val &= ~(CH_STATE_CTRL_CH1_STATE_CTRL_MASK | CH_STATE_CTRL_CH2_STATE_CTRL_MASK); val |= CH_STATE_CTRL_CH1_STATE_CTRL(CH_STATE_CTRL_PLAY) | CH_STATE_CTRL_CH2_STATE_CTRL(CH_STATE_CTRL_PLAY); break; case TAS6422DAC_CHANNEL_UNKNOWN: default: LOG_ERR("Invalid codec channel %u", channel); return; } codec_write_reg(dev, CH_STATE_CTRL_ADDR, val); } static int codec_set_property(const struct device *dev, audio_property_t property, audio_channel_t channel, audio_property_value_t val) { enum tas6422dac_channel_t codec_channel = audio_to_tas6422dac_channel[channel]; if (codec_channel == TAS6422DAC_CHANNEL_UNKNOWN) { LOG_ERR("Invalid channel %u", channel); return -EINVAL; } switch (property) { case AUDIO_PROPERTY_OUTPUT_VOLUME: return codec_set_output_volume(dev, codec_channel, val.vol); case AUDIO_PROPERTY_OUTPUT_MUTE: if (val.mute) { codec_mute_output(dev, codec_channel); } else { codec_unmute_output(dev, codec_channel); } return 0; default: break; } return -EINVAL; } static int codec_apply_properties(const struct device *dev) { /* nothing to do because there is nothing cached */ return 0; } static void codec_write_reg(const struct device *dev, uint8_t reg, uint8_t val) { const struct codec_driver_config *const dev_cfg = dev->config; i2c_reg_write_byte_dt(&dev_cfg->bus, reg, val); LOG_DBG("%s WR REG:0x%02x VAL:0x%02x", dev->name, reg, val); } static void codec_read_reg(const struct device *dev, uint8_t reg, uint8_t *val) { const struct codec_driver_config *const dev_cfg = dev->config; i2c_reg_read_byte_dt(&dev_cfg->bus, reg, val); LOG_DBG("%s RD REG:0x%02x VAL:0x%02x", dev->name, reg, *val); } static void codec_soft_reset(const struct device *dev) { uint8_t val; codec_read_reg(dev, MODE_CTRL_ADDR, &val); val |= MODE_CTRL_RESET; codec_write_reg(dev, MODE_CTRL_ADDR, val); } static int codec_configure_dai(const struct device *dev, audio_dai_cfg_t *cfg) { uint8_t val; codec_read_reg(dev, SAP_CTRL_ADDR, &val); /* I2S mode */ val &= ~SAP_CTRL_INPUT_FORMAT_MASK; val |= SAP_CTRL_INPUT_FORMAT(SAP_CTRL_INPUT_FORMAT_I2S); /* Input sampling rate */ val &= ~SAP_CTRL_INPUT_SAMPLING_RATE_MASK; switch (cfg->i2s.frame_clk_freq) { case AUDIO_PCM_RATE_44P1K: val |= SAP_CTRL_INPUT_SAMPLING_RATE(SAP_CTRL_INPUT_SAMPLING_RATE_44_1_KHZ); break; case AUDIO_PCM_RATE_48K: val |= SAP_CTRL_INPUT_SAMPLING_RATE(SAP_CTRL_INPUT_SAMPLING_RATE_48_KHZ); break; case AUDIO_PCM_RATE_96K: val |= SAP_CTRL_INPUT_SAMPLING_RATE(SAP_CTRL_INPUT_SAMPLING_RATE_96_KHZ); break; default: LOG_ERR("Invalid sampling rate %zu", cfg->i2s.frame_clk_freq); return -EINVAL; } codec_write_reg(dev, SAP_CTRL_ADDR, val); return 0; } static void codec_configure_output(const struct device *dev) { uint8_t val; /* Overcurrent level = 1 */ codec_read_reg(dev, MISC_CTRL_1_ADDR, &val); val &= ~MISC_CTRL_1_OC_CONTROL_MASK; codec_write_reg(dev, MISC_CTRL_1_ADDR, val); /* * PWM frequency = 10 fs * Reduce PWM frequency to prevent component overtemperature */ codec_read_reg(dev, MISC_CTRL_2_ADDR, &val); val &= ~MISC_CTRL_2_PWM_FREQUENCY_MASK; val |= MISC_CTRL_2_PWM_FREQUENCY(MISC_CTRL_2_PWM_FREQUENCY_10_FS); codec_write_reg(dev, MISC_CTRL_2_ADDR, val); } static int codec_set_output_volume(const struct device *dev, enum tas6422dac_channel_t channel, int vol) { uint8_t vol_val; if ((vol > CODEC_OUTPUT_VOLUME_MAX) || (vol < CODEC_OUTPUT_VOLUME_MIN)) { LOG_ERR("Invalid volume %d.%d dB", vol >> 1, ((uint32_t)vol & 1) ? 5 : 0); return -EINVAL; } vol_val = vol + 0xcf; switch (channel) { case TAS6422DAC_CHANNEL_1: codec_write_reg(dev, CH1_VOLUME_CTRL_ADDR, CH_VOLUME_CTRL_VOLUME(vol_val)); break; case TAS6422DAC_CHANNEL_2: codec_write_reg(dev, CH2_VOLUME_CTRL_ADDR, CH_VOLUME_CTRL_VOLUME(vol_val)); break; case TAS6422DAC_CHANNEL_ALL: codec_write_reg(dev, CH1_VOLUME_CTRL_ADDR, CH_VOLUME_CTRL_VOLUME(vol_val)); codec_write_reg(dev, CH2_VOLUME_CTRL_ADDR, CH_VOLUME_CTRL_VOLUME(vol_val)); break; case TAS6422DAC_CHANNEL_UNKNOWN: default: LOG_ERR("Invalid codec channel %u", channel); return -EINVAL; } return 0; } #if (LOG_LEVEL >= LOG_LEVEL_DEBUG) static void codec_read_all_regs(const struct device *dev) { uint8_t val; codec_read_reg(dev, MODE_CTRL_ADDR, &val); codec_read_reg(dev, MISC_CTRL_1_ADDR, &val); codec_read_reg(dev, MISC_CTRL_2_ADDR, &val); codec_read_reg(dev, SAP_CTRL_ADDR, &val); codec_read_reg(dev, CH_STATE_CTRL_ADDR, &val); codec_read_reg(dev, CH1_VOLUME_CTRL_ADDR, &val); codec_read_reg(dev, CH2_VOLUME_CTRL_ADDR, &val); codec_read_reg(dev, DC_LDG_CTRL_1_ADDR, &val); codec_read_reg(dev, DC_LDG_CTRL_2_ADDR, &val); codec_read_reg(dev, DC_LDG_REPORT_1_ADDR, &val); codec_read_reg(dev, DC_LDG_REPORT_3_ADDR, &val); codec_read_reg(dev, CH_FAULTS_ADDR, &val); codec_read_reg(dev, GLOBAL_FAULTS_1_ADDR, &val); codec_read_reg(dev, GLOBAL_FAULTS_2_ADDR, &val); codec_read_reg(dev, WARNINGS_ADDR, &val); codec_read_reg(dev, PIN_CTRL_ADDR, &val); codec_read_reg(dev, MISC_CTRL_3_ADDR, &val); codec_read_reg(dev, ILIMIT_STATUS_ADDR, &val); codec_read_reg(dev, MISC_CTRL_4_ADDR, &val); codec_read_reg(dev, MISC_CTRL_5_ADDR, &val); } #endif static const struct audio_codec_api codec_driver_api = { .configure = codec_configure, .start_output = codec_start_output, .stop_output = codec_stop_output, .set_property = codec_set_property, .apply_properties = codec_apply_properties, }; #if TAS6422DAC_MUTE_GPIO_SUPPORT #define TAS6422DAC_MUTE_GPIO_INIT(n) .mute_gpio = GPIO_DT_SPEC_INST_GET(n, mute_gpios) #else #define TAS6422DAC_MUTE_GPIO_INIT(n) #endif /* TAS6422DAC_MUTE_GPIO_SUPPORT */ #define TAS6422DAC_INIT(n) \ static struct codec_driver_data codec_device_data_##n; \ \ static struct codec_driver_config codec_device_config_##n = { \ .bus = I2C_DT_SPEC_INST_GET(n), TAS6422DAC_MUTE_GPIO_INIT(n)}; \ \ DEVICE_DT_INST_DEFINE(n, codec_initialize, NULL, &codec_device_data_##n, \ &codec_device_config_##n, POST_KERNEL, \ CONFIG_AUDIO_CODEC_INIT_PRIORITY, &codec_driver_api); DT_INST_FOREACH_STATUS_OKAY(TAS6422DAC_INIT)