523 lines
14 KiB
C
523 lines
14 KiB
C
/*
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* Copyright (c) 2019 Intel Corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#define DT_DRV_COMPAT ti_tlv320dac
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#include <errno.h>
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#include <sys/util.h>
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#include <device.h>
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#include <drivers/i2c.h>
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#include <drivers/gpio.h>
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#include <audio/codec.h>
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#include "tlv320dac310x.h"
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#define LOG_LEVEL CONFIG_AUDIO_CODEC_LOG_LEVEL
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#include <logging/log.h>
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LOG_MODULE_REGISTER(tlv320dac310x);
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#define CODEC_OUTPUT_VOLUME_MAX 0
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#define CODEC_OUTPUT_VOLUME_MIN (-78 * 2)
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struct codec_driver_config {
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struct i2c_dt_spec bus;
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struct gpio_dt_spec reset_gpio;
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};
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struct codec_driver_data {
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struct reg_addr reg_addr_cache;
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};
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static struct codec_driver_config codec_device_config = {
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.bus = I2C_DT_SPEC_INST_GET(0),
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.reset_gpio = GPIO_DT_SPEC_INST_GET(0, reset_gpios),
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};
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static struct codec_driver_data codec_device_data;
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static void codec_write_reg(const struct device *dev, struct reg_addr reg,
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uint8_t val);
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static void codec_read_reg(const struct device *dev, struct reg_addr reg,
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uint8_t *val);
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static void codec_soft_reset(const struct device *dev);
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static int codec_configure_dai(const struct device *dev, audio_dai_cfg_t *cfg);
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static int codec_configure_clocks(const struct device *dev,
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struct audio_codec_cfg *cfg);
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static int codec_configure_filters(const struct device *dev,
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audio_dai_cfg_t *cfg);
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static enum osr_multiple codec_get_osr_multiple(audio_dai_cfg_t *cfg);
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static void codec_configure_output(const struct device *dev);
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static int codec_set_output_volume(const struct device *dev, int vol);
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#if (LOG_LEVEL >= LOG_LEVEL_DEBUG)
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static void codec_read_all_regs(const struct device *dev);
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#define CODEC_DUMP_REGS(dev) codec_read_all_regs((dev))
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#else
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#define CODEC_DUMP_REGS(dev)
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#endif
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static int codec_initialize(const struct device *dev)
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{
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const struct codec_driver_config *const dev_cfg = dev->config;
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if (!device_is_ready(dev_cfg->bus.bus)) {
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LOG_ERR("I2C device not ready");
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return -ENODEV;
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}
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if (!device_is_ready(dev_cfg->reset_gpio.port)) {
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LOG_ERR("GPIO device not ready");
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return -ENODEV;
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}
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return 0;
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}
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static int codec_configure(const struct device *dev,
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struct audio_codec_cfg *cfg)
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{
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const struct codec_driver_config *const dev_cfg = dev->config;
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int ret;
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if (cfg->dai_type != AUDIO_DAI_TYPE_I2S) {
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LOG_ERR("dai_type must be AUDIO_DAI_TYPE_I2S");
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return -EINVAL;
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}
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/* Configure reset GPIO, and set the line to inactive, which will also
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* de-assert the reset line and thus enable the codec.
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*/
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gpio_pin_configure_dt(&dev_cfg->reset_gpio, GPIO_OUTPUT_INACTIVE);
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codec_soft_reset(dev);
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ret = codec_configure_clocks(dev, cfg);
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if (ret == 0) {
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ret = codec_configure_dai(dev, &cfg->dai_cfg);
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}
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if (ret == 0) {
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ret = codec_configure_filters(dev, &cfg->dai_cfg);
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}
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codec_configure_output(dev);
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return ret;
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}
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static void codec_start_output(const struct device *dev)
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{
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/* powerup DAC channels */
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codec_write_reg(dev, DATA_PATH_SETUP_ADDR, DAC_LR_POWERUP_DEFAULT);
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/* unmute DAC channels */
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codec_write_reg(dev, VOL_CTRL_ADDR, VOL_CTRL_UNMUTE_DEFAULT);
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CODEC_DUMP_REGS(dev);
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}
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static void codec_stop_output(const struct device *dev)
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{
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/* mute DAC channels */
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codec_write_reg(dev, VOL_CTRL_ADDR, VOL_CTRL_MUTE_DEFAULT);
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/* powerdown DAC channels */
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codec_write_reg(dev, DATA_PATH_SETUP_ADDR, DAC_LR_POWERDN_DEFAULT);
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}
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static void codec_mute_output(const struct device *dev)
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{
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/* mute DAC channels */
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codec_write_reg(dev, VOL_CTRL_ADDR, VOL_CTRL_MUTE_DEFAULT);
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}
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static void codec_unmute_output(const struct device *dev)
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{
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/* unmute DAC channels */
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codec_write_reg(dev, VOL_CTRL_ADDR, VOL_CTRL_UNMUTE_DEFAULT);
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}
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static int codec_set_property(const struct device *dev,
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audio_property_t property,
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audio_channel_t channel,
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audio_property_value_t val)
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{
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/* individual channel control not currently supported */
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if (channel != AUDIO_CHANNEL_ALL) {
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LOG_ERR("channel %u invalid. must be AUDIO_CHANNEL_ALL",
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channel);
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return -EINVAL;
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}
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switch (property) {
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case AUDIO_PROPERTY_OUTPUT_VOLUME:
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return codec_set_output_volume(dev, val.vol);
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case AUDIO_PROPERTY_OUTPUT_MUTE:
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if (val.mute) {
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codec_mute_output(dev);
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} else {
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codec_unmute_output(dev);
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}
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return 0;
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default:
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break;
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}
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return -EINVAL;
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}
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static int codec_apply_properties(const struct device *dev)
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{
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/* nothing to do because there is nothing cached */
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return 0;
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}
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static void codec_write_reg(const struct device *dev, struct reg_addr reg,
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uint8_t val)
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{
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struct codec_driver_data *const dev_data = dev->data;
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const struct codec_driver_config *const dev_cfg = dev->config;
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/* set page if different */
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if (dev_data->reg_addr_cache.page != reg.page) {
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i2c_reg_write_byte_dt(&dev_cfg->bus, 0, reg.page);
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dev_data->reg_addr_cache.page = reg.page;
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}
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i2c_reg_write_byte_dt(&dev_cfg->bus, reg.reg_addr, val);
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LOG_DBG("WR PG:%u REG:%02u VAL:0x%02x",
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reg.page, reg.reg_addr, val);
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}
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static void codec_read_reg(const struct device *dev, struct reg_addr reg,
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uint8_t *val)
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{
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struct codec_driver_data *const dev_data = dev->data;
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const struct codec_driver_config *const dev_cfg = dev->config;
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/* set page if different */
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if (dev_data->reg_addr_cache.page != reg.page) {
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i2c_reg_write_byte_dt(&dev_cfg->bus, 0, reg.page);
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dev_data->reg_addr_cache.page = reg.page;
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}
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i2c_reg_read_byte_dt(&dev_cfg->bus, reg.reg_addr, val);
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LOG_DBG("RD PG:%u REG:%02u VAL:0x%02x",
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reg.page, reg.reg_addr, *val);
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}
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static void codec_soft_reset(const struct device *dev)
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{
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/* soft reset the DAC */
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codec_write_reg(dev, SOFT_RESET_ADDR, SOFT_RESET_ASSERT);
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}
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static int codec_configure_dai(const struct device *dev, audio_dai_cfg_t *cfg)
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{
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uint8_t val;
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/* configure I2S interface */
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val = IF_CTRL_IFTYPE(IF_CTRL_IFTYPE_I2S);
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if (cfg->i2s.options & I2S_OPT_BIT_CLK_MASTER) {
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val |= IF_CTRL_BCLK_OUT;
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}
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if (cfg->i2s.options & I2S_OPT_FRAME_CLK_MASTER) {
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val |= IF_CTRL_WCLK_OUT;
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}
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switch (cfg->i2s.word_size) {
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case AUDIO_PCM_WIDTH_16_BITS:
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val |= IF_CTRL_WLEN(IF_CTRL_WLEN_16);
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break;
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case AUDIO_PCM_WIDTH_20_BITS:
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val |= IF_CTRL_WLEN(IF_CTRL_WLEN_20);
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break;
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case AUDIO_PCM_WIDTH_24_BITS:
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val |= IF_CTRL_WLEN(IF_CTRL_WLEN_24);
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break;
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case AUDIO_PCM_WIDTH_32_BITS:
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val |= IF_CTRL_WLEN(IF_CTRL_WLEN_32);
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break;
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default:
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LOG_ERR("Unsupported PCM sample bit width %u",
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cfg->i2s.word_size);
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return -EINVAL;
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}
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codec_write_reg(dev, IF_CTRL1_ADDR, val);
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return 0;
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}
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static int codec_configure_clocks(const struct device *dev,
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struct audio_codec_cfg *cfg)
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{
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int dac_clk, mod_clk;
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struct i2s_config *i2s;
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int osr, osr_min, osr_max;
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enum osr_multiple osr_multiple;
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int mdac, ndac, bclk_div, mclk_div;
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i2s = &cfg->dai_cfg.i2s;
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LOG_DBG("MCLK %u Hz PCM Rate: %u Hz", cfg->mclk_freq,
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i2s->frame_clk_freq);
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if (cfg->mclk_freq <= DAC_PROC_CLK_FREQ_MAX) {
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/* use MCLK frequecy as the DAC processing clock */
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ndac = 1;
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} else {
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ndac = cfg->mclk_freq / DAC_PROC_CLK_FREQ_MAX;
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}
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dac_clk = cfg->mclk_freq / ndac;
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/* determine OSR Multiple based on PCM rate */
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osr_multiple = codec_get_osr_multiple(&cfg->dai_cfg);
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/*
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* calculate MOD clock such that it is an integer multiple of
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* cfg->i2s.frame_clk_freq and
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* DAC_MOD_CLK_FREQ_MIN <= MOD clock <= DAC_MOD_CLK_FREQ_MAX
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*/
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osr_min = (DAC_MOD_CLK_FREQ_MIN + i2s->frame_clk_freq - 1) /
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i2s->frame_clk_freq;
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osr_max = DAC_MOD_CLK_FREQ_MAX / i2s->frame_clk_freq;
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/* round mix and max values to the required multiple */
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osr_max = (osr_max / osr_multiple) * osr_multiple;
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osr_min = (osr_min + osr_multiple - 1) / osr_multiple;
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osr = osr_max;
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while (osr >= osr_min) {
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mod_clk = i2s->frame_clk_freq * osr;
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/* calculate mdac */
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mdac = dac_clk / mod_clk;
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/* check if mdac is an integer */
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if ((mdac * mod_clk) == dac_clk) {
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/* found suitable dividers */
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break;
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}
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osr -= osr_multiple;
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}
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/* check if suitable value was found */
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if (osr < osr_min) {
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LOG_ERR("Unable to find suitable mdac and osr values");
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return -EINVAL;
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}
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LOG_DBG("Processing freq: %u Hz Modulator freq: %u Hz",
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dac_clk, mod_clk);
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LOG_DBG("NDAC: %u MDAC: %u OSR: %u", ndac, mdac, osr);
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if (i2s->options & I2S_OPT_BIT_CLK_MASTER) {
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bclk_div = osr * mdac / (i2s->word_size * 2U); /* stereo */
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if ((bclk_div * i2s->word_size * 2) != (osr * mdac)) {
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LOG_ERR("Unable to generate BCLK %u from MCLK %u",
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i2s->frame_clk_freq * i2s->word_size * 2U,
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cfg->mclk_freq);
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return -EINVAL;
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}
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LOG_DBG("I2S Master BCLKDIV: %u", bclk_div);
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codec_write_reg(dev, BCLK_DIV_ADDR,
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BCLK_DIV_POWER_UP | BCLK_DIV(bclk_div));
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}
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/* set NDAC, then MDAC, followed by OSR */
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codec_write_reg(dev, NDAC_DIV_ADDR,
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(uint8_t)(NDAC_DIV(ndac) | NDAC_POWER_UP_MASK));
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codec_write_reg(dev, MDAC_DIV_ADDR,
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(uint8_t)(MDAC_DIV(mdac) | MDAC_POWER_UP_MASK));
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codec_write_reg(dev, OSR_MSB_ADDR, (uint8_t)((osr >> 8) & OSR_MSB_MASK));
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codec_write_reg(dev, OSR_LSB_ADDR, (uint8_t)(osr & OSR_LSB_MASK));
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if (i2s->options & I2S_OPT_BIT_CLK_MASTER) {
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codec_write_reg(dev, BCLK_DIV_ADDR,
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BCLK_DIV(bclk_div) | BCLK_DIV_POWER_UP);
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}
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/* calculate MCLK divider to get ~1MHz */
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mclk_div = (cfg->mclk_freq + 1000000 - 1) / 1000000U;
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/* setup timer clock to be MCLK divided */
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codec_write_reg(dev, TIMER_MCLK_DIV_ADDR,
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TIMER_MCLK_DIV_EN_EXT | TIMER_MCLK_DIV_VAL(mclk_div));
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LOG_DBG("Timer MCLK Divider: %u", mclk_div);
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return 0;
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}
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static int codec_configure_filters(const struct device *dev,
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audio_dai_cfg_t *cfg)
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{
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enum proc_block proc_blk;
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/* determine decimation filter type */
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if (cfg->i2s.frame_clk_freq >= AUDIO_PCM_RATE_192K) {
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proc_blk = PRB_P18_DECIMATION_C;
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LOG_INF("PCM Rate: %u Filter C PRB P18 selected",
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cfg->i2s.frame_clk_freq);
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} else if (cfg->i2s.frame_clk_freq >= AUDIO_PCM_RATE_96K) {
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proc_blk = PRB_P10_DECIMATION_B;
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LOG_INF("PCM Rate: %u Filter B PRB P10 selected",
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cfg->i2s.frame_clk_freq);
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} else {
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proc_blk = PRB_P25_DECIMATION_A;
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LOG_INF("PCM Rate: %u Filter A PRB P25 selected",
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cfg->i2s.frame_clk_freq);
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}
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codec_write_reg(dev, PROC_BLK_SEL_ADDR, PROC_BLK_SEL(proc_blk));
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return 0;
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}
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static enum osr_multiple codec_get_osr_multiple(audio_dai_cfg_t *cfg)
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{
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enum osr_multiple osr;
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if (cfg->i2s.frame_clk_freq >= AUDIO_PCM_RATE_192K) {
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osr = OSR_MULTIPLE_2;
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} else if (cfg->i2s.frame_clk_freq >= AUDIO_PCM_RATE_96K) {
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osr = OSR_MULTIPLE_4;
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} else {
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osr = OSR_MULTIPLE_8;
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}
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LOG_INF("PCM Rate: %u OSR Multiple: %u", cfg->i2s.frame_clk_freq,
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osr);
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return osr;
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}
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static void codec_configure_output(const struct device *dev)
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{
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uint8_t val;
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/*
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* set common mode voltage to 1.65V (half of AVDD)
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* AVDD is typically 3.3V
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*/
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codec_read_reg(dev, HEADPHONE_DRV_ADDR, &val);
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val &= ~HEADPHONE_DRV_CM_MASK;
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val |= HEADPHONE_DRV_CM(CM_VOLTAGE_1P65) | HEADPHONE_DRV_RESERVED;
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codec_write_reg(dev, HEADPHONE_DRV_ADDR, val);
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/* enable pop removal on power down/up */
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codec_read_reg(dev, HP_OUT_POP_RM_ADDR, &val);
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codec_write_reg(dev, HP_OUT_POP_RM_ADDR, val | HP_OUT_POP_RM_ENABLE);
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/* route DAC output to Headphone */
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val = OUTPUT_ROUTING_HPL | OUTPUT_ROUTING_HPR;
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codec_write_reg(dev, OUTPUT_ROUTING_ADDR, val);
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/* enable volume control on Headphone out */
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codec_write_reg(dev, HPL_ANA_VOL_CTRL_ADDR,
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HPX_ANA_VOL(HPX_ANA_VOL_DEFAULT));
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codec_write_reg(dev, HPR_ANA_VOL_CTRL_ADDR,
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HPX_ANA_VOL(HPX_ANA_VOL_DEFAULT));
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/* set headphone outputs as line-out */
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codec_write_reg(dev, HEADPHONE_DRV_CTRL_ADDR, HEADPHONE_DRV_LINEOUT);
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/* unmute headphone drivers */
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codec_write_reg(dev, HPL_DRV_GAIN_CTRL_ADDR, HPX_DRV_UNMUTE);
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codec_write_reg(dev, HPR_DRV_GAIN_CTRL_ADDR, HPX_DRV_UNMUTE);
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/* power up headphone drivers */
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codec_read_reg(dev, HEADPHONE_DRV_ADDR, &val);
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val |= HEADPHONE_DRV_POWERUP | HEADPHONE_DRV_RESERVED;
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codec_write_reg(dev, HEADPHONE_DRV_ADDR, val);
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}
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static int codec_set_output_volume(const struct device *dev, int vol)
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{
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uint8_t vol_val;
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int vol_index;
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uint8_t vol_array[] = {
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107, 108, 110, 113, 116, 120, 125, 128, 132, 138, 144
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};
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if ((vol > CODEC_OUTPUT_VOLUME_MAX) ||
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(vol < CODEC_OUTPUT_VOLUME_MIN)) {
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LOG_ERR("Invalid volume %d.%d dB",
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vol >> 1, ((uint32_t)vol & 1) ? 5 : 0);
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return -EINVAL;
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}
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/* remove sign */
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vol = -vol;
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/* if volume is near floor, set minimum */
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if (vol > HPX_ANA_VOL_FLOOR) {
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vol_val = HPX_ANA_VOL_FLOOR;
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} else if (vol > HPX_ANA_VOL_LOW_THRESH) {
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/* lookup low volume values */
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for (vol_index = 0; vol_index < ARRAY_SIZE(vol_array); vol_index++) {
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if (vol_array[vol_index] >= vol) {
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break;
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}
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}
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vol_val = HPX_ANA_VOL_LOW_THRESH + vol_index + 1;
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} else {
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vol_val = (uint8_t)vol;
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}
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codec_write_reg(dev, HPL_ANA_VOL_CTRL_ADDR, HPX_ANA_VOL(vol_val));
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codec_write_reg(dev, HPR_ANA_VOL_CTRL_ADDR, HPX_ANA_VOL(vol_val));
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return 0;
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}
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#if (LOG_LEVEL >= LOG_LEVEL_DEBUG)
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static void codec_read_all_regs(const struct device *dev)
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{
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uint8_t val;
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codec_read_reg(dev, SOFT_RESET_ADDR, &val);
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codec_read_reg(dev, NDAC_DIV_ADDR, &val);
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codec_read_reg(dev, MDAC_DIV_ADDR, &val);
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codec_read_reg(dev, OSR_MSB_ADDR, &val);
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codec_read_reg(dev, OSR_LSB_ADDR, &val);
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codec_read_reg(dev, IF_CTRL1_ADDR, &val);
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codec_read_reg(dev, BCLK_DIV_ADDR, &val);
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codec_read_reg(dev, OVF_FLAG_ADDR, &val);
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codec_read_reg(dev, PROC_BLK_SEL_ADDR, &val);
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codec_read_reg(dev, DATA_PATH_SETUP_ADDR, &val);
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codec_read_reg(dev, VOL_CTRL_ADDR, &val);
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codec_read_reg(dev, L_DIG_VOL_CTRL_ADDR, &val);
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codec_read_reg(dev, DRC_CTRL1_ADDR, &val);
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codec_read_reg(dev, L_BEEP_GEN_ADDR, &val);
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codec_read_reg(dev, R_BEEP_GEN_ADDR, &val);
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codec_read_reg(dev, BEEP_LEN_MSB_ADDR, &val);
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codec_read_reg(dev, BEEP_LEN_MIB_ADDR, &val);
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codec_read_reg(dev, BEEP_LEN_LSB_ADDR, &val);
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|
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codec_read_reg(dev, HEADPHONE_DRV_ADDR, &val);
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codec_read_reg(dev, HP_OUT_POP_RM_ADDR, &val);
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codec_read_reg(dev, OUTPUT_ROUTING_ADDR, &val);
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codec_read_reg(dev, HPL_ANA_VOL_CTRL_ADDR, &val);
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codec_read_reg(dev, HPR_ANA_VOL_CTRL_ADDR, &val);
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codec_read_reg(dev, HPL_DRV_GAIN_CTRL_ADDR, &val);
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codec_read_reg(dev, HPR_DRV_GAIN_CTRL_ADDR, &val);
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codec_read_reg(dev, HEADPHONE_DRV_CTRL_ADDR, &val);
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|
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codec_read_reg(dev, TIMER_MCLK_DIV_ADDR, &val);
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}
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#endif
|
|
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static const struct audio_codec_api codec_driver_api = {
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.configure = codec_configure,
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.start_output = codec_start_output,
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.stop_output = codec_stop_output,
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.set_property = codec_set_property,
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.apply_properties = codec_apply_properties,
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|
};
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|
|
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DEVICE_DT_INST_DEFINE(0, codec_initialize, NULL, &codec_device_data,
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&codec_device_config, POST_KERNEL,
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CONFIG_AUDIO_CODEC_INIT_PRIORITY, &codec_driver_api);
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