drivers/dai/intel/dmic/dmic_nhlt.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2022 Intel Corporation.
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <stdint.h>
 #include <errno.h>
 #include <zephyr/spinlock.h>

 #define LOG_DOMAIN dai_intel_dmic_nhlt
 #include <zephyr/logging/log.h>
 LOG_MODULE_REGISTER(LOG_DOMAIN);

 #include <zephyr/drivers/dai.h>
 #include "dmic.h"

 extern struct dai_dmic_global_shared dai_dmic_global;

 /* Base addresses (in PDM scope) of 2ch PDM controllers and coefficient RAM. */
 static const uint32_t base[4] = {PDM0, PDM1, PDM2, PDM3};
 static const uint32_t coef_base_a[4] = {PDM0_COEFFICIENT_A, PDM1_COEFFICIENT_A,
 					PDM2_COEFFICIENT_A, PDM3_COEFFICIENT_A};
 static const uint32_t coef_base_b[4] = {PDM0_COEFFICIENT_B, PDM1_COEFFICIENT_B,
 					PDM2_COEFFICIENT_B, PDM3_COEFFICIENT_B};

 static inline void dai_dmic_write(const struct dai_intel_dmic *dmic,
 			   uint32_t reg, uint32_t val)
 {
 	sys_write32(val, dmic->reg_base + reg);
 }

 static int dai_ipm_source_to_enable(struct dai_intel_dmic *dmic,
 				    struct nhlt_pdm_ctrl_cfg **pdm_cfg,
 				    int *count, int pdm_count, int stereo,
 				    int source_pdm)
 {
 	int mic_swap;

 	if (source_pdm >= CONFIG_DAI_DMIC_HW_CONTROLLERS)
 		return -EINVAL;

 	if (*count < pdm_count) {
 		(*count)++;
 		mic_swap = MIC_CONTROL_PDM_CLK_EDGE_GET(pdm_cfg[source_pdm]->mic_control);
 		if (stereo)
 			dmic->enable[source_pdm] = 0x3; /* PDMi MIC A and B */
 		else
 			dmic->enable[source_pdm] = mic_swap ? 0x2 : 0x1; /* PDMi MIC B or MIC A */
 	}

 	return 0;
 }

 static int dai_nhlt_dmic_dai_params_get(struct dai_intel_dmic *dmic,
 				    int32_t *outcontrol,
 				    struct nhlt_pdm_ctrl_cfg **pdm_cfg,
 				    struct nhlt_pdm_ctrl_fir_cfg **fir_cfg)
 {
 	uint32_t outcontrol_val = outcontrol[dmic->dai_config_params.dai_index];
 	int num_pdm;
 	int source_pdm;
 	int ret;
 	int n;
 	bool stereo_pdm;

 	switch (OUTCONTROL0_OF_GET(outcontrol_val)) {
 	case 0:
 	case 1:
 		dmic->dai_config_params.format = DAI_DMIC_FRAME_S16_LE;
 		dmic->dai_config_params.word_size = 16;
 		break;
 	case 2:
 		dmic->dai_config_params.format = DAI_DMIC_FRAME_S32_LE;
 		dmic->dai_config_params.word_size = 32;
 		break;
 	default:
 		LOG_ERR("nhlt_dmic_dai_params_get(): Illegal OF bit field");
 		return -EINVAL;
 	}

 	num_pdm = OUTCONTROL0_IPM_GET(outcontrol_val);
 	if (num_pdm > CONFIG_DAI_DMIC_HW_CONTROLLERS) {
 		LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM PDM controllers count");
 		return -EINVAL;
 	}

 	stereo_pdm = 1;

 	dmic->dai_config_params.channels = (stereo_pdm + 1) * num_pdm;
 	for (n = 0; n < CONFIG_DAI_DMIC_HW_CONTROLLERS; n++)
 		dmic->enable[n] = 0;

 	n = 0;
 	source_pdm = OUTCONTROL0_IPM_SOURCE_1_GET(outcontrol_val);
 	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
 	if (ret) {
 		LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_1");
 		return -EINVAL;
 	}

 	source_pdm = OUTCONTROL0_IPM_SOURCE_2_GET(outcontrol_val);
 	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
 	if (ret) {
 		LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_2");
 		return -EINVAL;
 	}

 	source_pdm = OUTCONTROL0_IPM_SOURCE_3_GET(outcontrol_val);
 	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
 	if (ret) {
 		LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_3");
 		return -EINVAL;
 	}

 	source_pdm = OUTCONTROL0_IPM_SOURCE_4_GET(outcontrol_val);
 	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
 	if (ret) {
 		LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_4");
 		return -EINVAL;
 	}

 	return 0;
 }

 int dai_dmic_set_config_nhlt(struct dai_intel_dmic *dmic, const void *bespoke_cfg)
 {
 	struct nhlt_pdm_ctrl_cfg *pdm_cfg[DMIC_HW_CONTROLLERS_MAX];
 	struct nhlt_pdm_ctrl_fir_cfg *fir_cfg_a[DMIC_HW_CONTROLLERS_MAX];
 	struct nhlt_pdm_ctrl_fir_cfg *fir_cfg_b[DMIC_HW_CONTROLLERS_MAX];
 	struct nhlt_pdm_fir_coeffs *fir_a[DMIC_HW_CONTROLLERS_MAX] = {NULL};
 	struct nhlt_pdm_fir_coeffs *fir_b[DMIC_HW_CONTROLLERS_MAX];
 	uint32_t out_control[DMIC_HW_FIFOS_MAX] = {0};
 	uint32_t channel_ctrl_mask;
 	uint32_t fir_control;
 	uint32_t pdm_ctrl_mask;
 	uint32_t ref = 0;
 	uint32_t val;
 	const uint8_t *p = bespoke_cfg;
 	int num_fifos;
 	int num_pdm;
 	int fir_length_a;
 	int fir_length_b;
 	int n;
 	int i;
 	int rate_div;
 	int clk_div;
 	int comb_count;
 	int fir_decimation, fir_shift, fir_length;
 	int bf1, bf2, bf3, bf4, bf5, bf6, bf7, bf8;
 	int bf9, bf10, bf11, bf12, bf13;
 	int bfth;
 	int ret;
 	int p_mcic = 0;
 	int p_mfira = 0;
 	int p_mfirb = 0;
 	int p_clkdiv = 0;

 	if (dmic->dai_config_params.dai_index >= DMIC_HW_FIFOS_MAX) {
 		LOG_ERR("dmic_set_config_nhlt(): illegal DAI index %d",
 			 dmic->dai_config_params.dai_index);
 		return -EINVAL;
 	}

 	/* Skip not used headers */
 	p += sizeof(struct nhlt_dmic_gateway_attributes);
 	p += sizeof(struct nhlt_dmic_ts_group);
 	p += sizeof(struct nhlt_dmic_clock_on_delay);

 	/* Channel_ctlr_mask bits indicate the FIFOs enabled*/
 	channel_ctrl_mask = ((struct nhlt_dmic_channel_ctrl_mask *)p)->channel_ctrl_mask;
 	num_fifos = popcount(channel_ctrl_mask); /* Count set bits */
 	p += sizeof(struct nhlt_dmic_channel_ctrl_mask);
 	LOG_DBG("dmic_set_config_nhlt(): channel_ctrl_mask = %d", channel_ctrl_mask);

 	/* Get OUTCONTROLx configuration */
 	if (num_fifos < 1 || num_fifos > DMIC_HW_FIFOS_MAX) {
 		LOG_ERR("dmic_set_config_nhlt(): illegal number of FIFOs %d", num_fifos);
 		return -EINVAL;
 	}

 	for (n = 0; n < DMIC_HW_FIFOS_MAX; n++) {
 		if (!(channel_ctrl_mask & (1 << n)))
 			continue;

 		val = *(uint32_t *)p;
 		out_control[n] = val;
 		bf1 = OUTCONTROL0_TIE_GET(val);
 		bf2 = OUTCONTROL0_SIP_GET(val);
 		bf3 = OUTCONTROL0_FINIT_GET(val);
 		bf4 = OUTCONTROL0_FCI_GET(val);
 		bf5 = OUTCONTROL0_BFTH_GET(val);
 		bf6 = OUTCONTROL0_OF_GET(val);
 		bf7 = OUTCONTROL0_IPM_GET(val);
 		bf8 = OUTCONTROL0_TH_GET(val);
 		LOG_INF("dmic_set_config_nhlt(): OUTCONTROL%d = %08x", n, out_control[n]);
 		LOG_INF("  tie=%d, sip=%d, finit=%d, fci=%d", bf1, bf2, bf3, bf4);
 		LOG_INF("  bfth=%d, of=%d, ipm=%d, th=%d", bf5, bf6, bf7, bf8);
 		if (bf5 > OUTCONTROL0_BFTH_MAX) {
 			LOG_ERR("dmic_set_config_nhlt(): illegal BFTH value");
 			return -EINVAL;
 		}

 		bf9 = OUTCONTROL0_IPM_SOURCE_1_GET(val);
 		bf10 = OUTCONTROL0_IPM_SOURCE_2_GET(val);
 		bf11 = OUTCONTROL0_IPM_SOURCE_3_GET(val);
 		bf12 = OUTCONTROL0_IPM_SOURCE_4_GET(val);
 		bf13 = OUTCONTROL0_IPM_SOURCE_MODE_GET(val);
 		LOG_INF("  ipms1=%d, ipms2=%d, ipms3=%d, ipms4=%d", bf9, bf10, bf11, bf12);
 		LOG_INF("  ipms_mode=%d", bf13);
 		ref = OUTCONTROL0_TIE(bf1) | OUTCONTROL0_SIP(bf2) | OUTCONTROL0_FINIT(bf3) |
 			OUTCONTROL0_FCI(bf4) | OUTCONTROL0_BFTH(bf5) | OUTCONTROL0_OF(bf6) |
 			OUTCONTROL0_IPM(bf7) | OUTCONTROL0_IPM_SOURCE_1(bf9) |
 			OUTCONTROL0_IPM_SOURCE_2(bf10) | OUTCONTROL0_IPM_SOURCE_3(bf11) |
 			OUTCONTROL0_IPM_SOURCE_4(bf12) | OUTCONTROL0_TH(bf8) |
 			OUTCONTROL0_IPM_SOURCE_MODE(bf13);
 		if (ref != val) {
 			LOG_ERR("dmic_set_config_nhlt(): illegal OUTCONTROL%d = 0x%08x",
 				n, val);
 			return -EINVAL;
 		}

 		p += sizeof(uint32_t);
 	}

 	/* Write the FIFO control registers. The clear/set of bits is the same for
 	 * all DMIC_HW_VERSION
 	 */
 	/* Clear TIE, SIP, FCI, set FINIT, the rest of bits as such */
 	val = (out_control[dmic->dai_config_params.dai_index] &
 		~(OUTCONTROL0_TIE_BIT | OUTCONTROL0_SIP_BIT | OUTCONTROL0_FCI_BIT)) |
 		OUTCONTROL0_FINIT_BIT;
 	if (dmic->dai_config_params.dai_index == 0)
 		dai_dmic_write(dmic, OUTCONTROL0, val);
 	else
 		dai_dmic_write(dmic, OUTCONTROL1, val);

 	LOG_INF("dmic_set_config_nhlt(): OUTCONTROL%d = %08x",
 		 dmic->dai_config_params.dai_index, val);

 	/* Pass 2^BFTH to plat_data fifo depth. It will be used later in DMA
 	 * configuration
 	 */
 	bfth = OUTCONTROL0_BFTH_GET(val);
 	dmic->fifo.depth = 1 << bfth;

 	/* Get PDMx registers */
 	pdm_ctrl_mask = ((struct nhlt_pdm_ctrl_mask *)p)->pdm_ctrl_mask;
 	num_pdm = popcount(pdm_ctrl_mask); /* Count set bits */
 	p += sizeof(struct nhlt_pdm_ctrl_mask);
 	LOG_DBG("dmic_set_config_nhlt(): pdm_ctrl_mask = %d", pdm_ctrl_mask);
 	if (num_pdm < 1 || num_pdm > CONFIG_DAI_DMIC_HW_CONTROLLERS) {
 		LOG_ERR("dmic_set_config_nhlt(): illegal number of PDMs %d", num_pdm);
 		return -EINVAL;
 	}

 	for (n = 0; n < CONFIG_DAI_DMIC_HW_CONTROLLERS; n++) {
 		fir_cfg_a[n] = NULL;
 		fir_cfg_b[n] = NULL;
 		if (!(pdm_ctrl_mask & (1 << n)))
 			continue;

 		LOG_DBG("dmic_set_config_nhlt(): PDM%d", n);

 		/* Get CIC configuration */
 		pdm_cfg[n] = (struct nhlt_pdm_ctrl_cfg *)p;
 		p += sizeof(struct nhlt_pdm_ctrl_cfg);

 		comb_count = CIC_CONFIG_COMB_COUNT_GET(pdm_cfg[n]->cic_config);
 		p_mcic = comb_count + 1;
 		clk_div = MIC_CONTROL_PDM_CLKDIV_GET(pdm_cfg[n]->mic_control);
 		p_clkdiv = clk_div + 2;
 		if (dai_dmic_global.active_fifos_mask == 0) {
 			val = pdm_cfg[n]->cic_control;
 			bf1 = CIC_CONTROL_SOFT_RESET_GET(val);
 			bf2 = CIC_CONTROL_CIC_START_B_GET(val);
 			bf3 = CIC_CONTROL_CIC_START_A_GET(val);
 			bf4 = CIC_CONTROL_MIC_B_POLARITY_GET(val);
 			bf5 = CIC_CONTROL_MIC_A_POLARITY_GET(val);
 			bf6 = CIC_CONTROL_MIC_MUTE_GET(val);
 			bf7 = CIC_CONTROL_STEREO_MODE_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): CIC_CONTROL = %08x", val);
 			LOG_DBG("  soft_reset=%d, cic_start_b=%d, cic_start_a=%d",
 				bf1, bf2, bf3);
 			LOG_DBG("  mic_b_polarity=%d, mic_a_polarity=%d, mic_mute=%d",
 				bf4, bf5, bf6);
 			ref = CIC_CONTROL_SOFT_RESET(bf1) | CIC_CONTROL_CIC_START_B(bf2) |
 				CIC_CONTROL_CIC_START_A(bf3) | CIC_CONTROL_MIC_B_POLARITY(bf4) |
 				CIC_CONTROL_MIC_A_POLARITY(bf5) | CIC_CONTROL_MIC_MUTE(bf6) |
 				CIC_CONTROL_STEREO_MODE(bf7);
 			LOG_DBG("  stereo_mode=%d", bf7);
 			if (ref != val) {
 				LOG_ERR("dmic_set_config_nhlt(): illegal CIC_CONTROL = 0x%08x",
 					val);
 				return -EINVAL;
 			}

 			/* Clear CIC_START_A and CIC_START_B, set SOF_RESET and MIC_MUTE*/
 			val = (val & ~(CIC_CONTROL_CIC_START_A_BIT | CIC_CONTROL_CIC_START_A_BIT)) |
 				CIC_CONTROL_SOFT_RESET_BIT | CIC_CONTROL_MIC_MUTE_BIT;
 			dai_dmic_write(dmic, base[n] + CIC_CONTROL, val);
 			LOG_DBG("dmic_set_config_nhlt(): CIC_CONTROL = %08x", val);

 			val = pdm_cfg[n]->cic_config;
 			bf1 = CIC_CONFIG_CIC_SHIFT_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): CIC_CONFIG = %08x", val);
 			LOG_DBG("  cic_shift=%d, comb_count=%d", bf1, comb_count);

 			/* Use CIC_CONFIG as such */
 			dai_dmic_write(dmic, base[n] + CIC_CONFIG, val);
 			LOG_DBG("dmic_set_config_nhlt(): CIC_CONFIG = %08x", val);

 			val = pdm_cfg[n]->mic_control;
 			bf1 = MIC_CONTROL_PDM_SKEW_GET(val);
 			bf2 = MIC_CONTROL_PDM_CLK_EDGE_GET(val);
 			bf3 = MIC_CONTROL_PDM_EN_B_GET(val);
 			bf4 = MIC_CONTROL_PDM_EN_A_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): MIC_CONTROL = %08x", val);
 			LOG_DBG("  clkdiv=%d, skew=%d, clk_edge=%d", clk_div, bf1, bf2);
 			LOG_DBG("  en_b=%d, en_a=%d", bf3, bf4);

 			/* Clear PDM_EN_A and PDM_EN_B */
 			val &= ~(MIC_CONTROL_PDM_EN_A_BIT | MIC_CONTROL_PDM_EN_B_BIT);
 			dai_dmic_write(dmic, base[n] + MIC_CONTROL, val);
 			LOG_DBG("dmic_set_config_nhlt(): MIC_CONTROL = %08x", val);
 		}

 		/* FIR A */
 		fir_cfg_a[n] = (struct nhlt_pdm_ctrl_fir_cfg *)p;
 		p += sizeof(struct nhlt_pdm_ctrl_fir_cfg);
 		val = fir_cfg_a[n]->fir_config;
 		fir_length = FIR_CONFIG_A_FIR_LENGTH_GET(val);
 		fir_length_a = fir_length + 1; /* Need for parsing */
 		fir_decimation = FIR_CONFIG_A_FIR_DECIMATION_GET(val);
 		p_mfira = fir_decimation + 1;
 		if (dmic->dai_config_params.dai_index == 0) {
 			fir_shift = FIR_CONFIG_A_FIR_SHIFT_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): FIR_CONFIG_A = %08x", val);
 			LOG_DBG("  fir_decimation=%d, fir_shift=%d, fir_length=%d",
 				fir_decimation, fir_shift, fir_length);

 			/* Use FIR_CONFIG_A as such */
 			dai_dmic_write(dmic, base[n] + FIR_CONFIG_A, val);
 			LOG_DBG("configure_registers(), FIR_CONFIG_A = %08x", val);

 			val = fir_cfg_a[n]->fir_control;
 			bf1 = FIR_CONTROL_A_START_GET(val);
 			bf2 = FIR_CONTROL_A_ARRAY_START_EN_GET(val);
 			bf3 = FIR_CONTROL_A_DCCOMP_GET(val);
 			bf4 = FIR_CONTROL_A_MUTE_GET(val);
 			bf5 = FIR_CONTROL_A_STEREO_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_A = %08x", val);
 			LOG_DBG("  start=%d, array_start_en=%d, dccomp=%d", bf1, bf2, bf3);
 			LOG_DBG("  mute=%d, stereo=%d", bf4, bf5);
 			ref = FIR_CONTROL_A_START(bf1) | FIR_CONTROL_A_ARRAY_START_EN(bf2) |
 				FIR_CONTROL_A_DCCOMP(bf3) | FIR_CONTROL_A_MUTE(bf4) |
 				FIR_CONTROL_A_STEREO(bf5);

 			if (ref != val) {
 				LOG_ERR("dmic_set_config_nhlt(): illegal FIR_CONTROL = 0x%08x",
 					val);
 				return -EINVAL;
 			}

 			/* Clear START, set MUTE */
 			fir_control = (val & ~FIR_CONTROL_A_START_BIT) | FIR_CONTROL_A_MUTE_BIT;
 			dai_dmic_write(dmic, base[n] + FIR_CONTROL_A, fir_control);
 			LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_A = %08x", fir_control);

 			/* Use DC_OFFSET and GAIN as such */
 			val = fir_cfg_a[n]->dc_offset_left;
 			dai_dmic_write(dmic, base[n] + DC_OFFSET_LEFT_A, val);
 			LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_LEFT_A = %08x", val);

 			val = fir_cfg_a[n]->dc_offset_right;
 			dai_dmic_write(dmic, base[n] + DC_OFFSET_RIGHT_A, val);
 			LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_RIGHT_A = %08x", val);

 			val = fir_cfg_a[n]->out_gain_left;
 			dai_dmic_write(dmic, base[n] + OUT_GAIN_LEFT_A, val);
 			LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_LEFT_A = %08x", val);

 			val = fir_cfg_a[n]->out_gain_right;
 			dai_dmic_write(dmic, base[n] + OUT_GAIN_RIGHT_A, val);
 			LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_RIGHT_A = %08x", val);
 		}

 		/* FIR B */
 		fir_cfg_b[n] = (struct nhlt_pdm_ctrl_fir_cfg *)p;
 		p += sizeof(struct nhlt_pdm_ctrl_fir_cfg);
 		val = fir_cfg_b[n]->fir_config;
 		fir_length = FIR_CONFIG_B_FIR_LENGTH_GET(val);
 		fir_length_b = fir_length + 1; /* Need for parsing */
 		fir_decimation = FIR_CONFIG_B_FIR_DECIMATION_GET(val);
 		p_mfirb = fir_decimation + 1;
 		if (dmic->dai_config_params.dai_index == 1) {
 			fir_shift = FIR_CONFIG_B_FIR_SHIFT_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): FIR_CONFIG_B = %08x", val);
 			LOG_DBG("  fir_decimation=%d, fir_shift=%d, fir_length=%d",
 				fir_decimation, fir_shift, fir_length);

 			/* Use FIR_CONFIG_B as such */
 			dai_dmic_write(dmic, base[n] + FIR_CONFIG_B, val);
 			LOG_DBG("configure_registers(), FIR_CONFIG_B = %08x", val);

 			val = fir_cfg_b[n]->fir_control;
 			bf1 = FIR_CONTROL_B_START_GET(val);
 			bf2 = FIR_CONTROL_B_ARRAY_START_EN_GET(val);
 			bf3 = FIR_CONTROL_B_DCCOMP_GET(val);
 			bf5 = FIR_CONTROL_B_MUTE_GET(val);
 			bf6 = FIR_CONTROL_B_STEREO_GET(val);
 			LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_B = %08x", val);
 			LOG_DBG("  start=%d, array_start_en=%d, dccomp=%d", bf1, bf2, bf3);
 			LOG_DBG("  mute=%d, stereo=%d", bf5, bf6);

 			/* Clear START, set MUTE */
 			fir_control = (val & ~FIR_CONTROL_B_START_BIT) | FIR_CONTROL_B_MUTE_BIT;
 			dai_dmic_write(dmic, base[n] + FIR_CONTROL_B, fir_control);
 			LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_B = %08x", fir_control);

 			/* Use DC_OFFSET and GAIN as such */
 			val = fir_cfg_b[n]->dc_offset_left;
 			dai_dmic_write(dmic, base[n] + DC_OFFSET_LEFT_B, val);
 			LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_LEFT_B = %08x", val);

 			val = fir_cfg_b[n]->dc_offset_right;
 			dai_dmic_write(dmic, base[n] + DC_OFFSET_RIGHT_B, val);
 			LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_RIGHT_B = %08x", val);

 			val = fir_cfg_b[n]->out_gain_left;
 			dai_dmic_write(dmic, base[n] + OUT_GAIN_LEFT_B, val);
 			LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_LEFT_B = %08x", val);

 			val = fir_cfg_b[n]->out_gain_right;
 			dai_dmic_write(dmic, base[n] + OUT_GAIN_RIGHT_B, val);
 			LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_RIGHT_B = %08x", val);
 		}

 		/* Set up FIR coefficients RAM */
 		val = pdm_cfg[n]->reuse_fir_from_pdm;
 		if (val == 0) {
 			fir_a[n] = (struct nhlt_pdm_fir_coeffs *)p;
 			p += sizeof(int32_t) * fir_length_a;
 			fir_b[n] = (struct nhlt_pdm_fir_coeffs *)p;
 			p += sizeof(int32_t) * fir_length_b;
 		} else {
 			val--;
 			if (val >= n) {
 				LOG_ERR("dmic_set_config_nhlt(): Illegal FIR reuse 0x%x", val);
 				return -EINVAL;
 			}

 			if (!fir_a[val]) {
 				LOG_ERR("dmic_set_config_nhlt(): PDM%d FIR reuse from %d fail",
 					n, val);
 				return -EINVAL;
 			}

 			fir_a[n] = fir_a[val];
 			fir_b[n] = fir_b[val];
 		}

 		if (dmic->dai_config_params.dai_index == 0) {
 			LOG_INF(
 			  "dmic_set_config_nhlt(): clkdiv = %d, mcic = %d, mfir_a = %d, len = %d",
 			   p_clkdiv, p_mcic, p_mfira, fir_length_a);
 			for (i = 0; i < fir_length_a; i++)
 				dai_dmic_write(dmic,
 					       coef_base_a[n] + (i << 2), fir_a[n]->fir_coeffs[i]);
 		} else {
 			LOG_INF(
 			  "dmic_set_config_nhlt(): clkdiv = %d, mcic = %d, mfir_b = %d, len = %d",
 			  p_clkdiv, p_mcic, p_mfirb, fir_length_b);
 			for (i = 0; i < fir_length_b; i++)
 				dai_dmic_write(dmic,
 					       coef_base_b[n] + (i << 2), fir_b[n]->fir_coeffs[i]);
 		}
 	}

 	if (dmic->dai_config_params.dai_index == 0)
 		ret = dai_nhlt_dmic_dai_params_get(dmic, out_control, pdm_cfg, fir_cfg_a);
 	else
 		ret = dai_nhlt_dmic_dai_params_get(dmic, out_control, pdm_cfg, fir_cfg_b);

 	if (ret)
 		return ret;

 	if (dmic->dai_config_params.dai_index == 0)
 		rate_div = p_clkdiv * p_mcic * p_mfira;
 	else
 		rate_div = p_clkdiv * p_mcic * p_mfirb;

 	if (!rate_div) {
 		LOG_ERR("dmic_set_config_nhlt(): zero clock divide or decimation factor");
 		return -EINVAL;
 	}

 	dmic->dai_config_params.rate = CONFIG_DAI_DMIC_HW_IOCLK / rate_div;
 	LOG_INF("dmic_set_config_nhlt(): rate = %d, channels = %d, format = %d",
 		 dmic->dai_config_params.rate, dmic->dai_config_params.channels,
 		 dmic->dai_config_params.format);
 	return 0;
 }
	/*
	* Copyright (c) 2022 Intel Corporation.
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <stdint.h>
	#include <errno.h>
	#include <zephyr/spinlock.h>

	#define LOG_DOMAIN dai_intel_dmic_nhlt
	#include <zephyr/logging/log.h>
	LOG_MODULE_REGISTER(LOG_DOMAIN);

	#include <zephyr/drivers/dai.h>
	#include "dmic.h"

	extern struct dai_dmic_global_shared dai_dmic_global;

	/* Base addresses (in PDM scope) of 2ch PDM controllers and coefficient RAM. */
	static const uint32_t base[4] = {PDM0, PDM1, PDM2, PDM3};
	static const uint32_t coef_base_a[4] = {PDM0_COEFFICIENT_A, PDM1_COEFFICIENT_A,
	PDM2_COEFFICIENT_A, PDM3_COEFFICIENT_A};
	static const uint32_t coef_base_b[4] = {PDM0_COEFFICIENT_B, PDM1_COEFFICIENT_B,
	PDM2_COEFFICIENT_B, PDM3_COEFFICIENT_B};

	static inline void dai_dmic_write(const struct dai_intel_dmic *dmic,
	uint32_t reg, uint32_t val)
	{
	sys_write32(val, dmic->reg_base + reg);
	}

	static int dai_ipm_source_to_enable(struct dai_intel_dmic *dmic,
	struct nhlt_pdm_ctrl_cfg **pdm_cfg,
	int *count, int pdm_count, int stereo,
	int source_pdm)
	{
	int mic_swap;

	if (source_pdm >= CONFIG_DAI_DMIC_HW_CONTROLLERS)
	return -EINVAL;

	if (*count < pdm_count) {
	(*count)++;
	mic_swap = MIC_CONTROL_PDM_CLK_EDGE_GET(pdm_cfg[source_pdm]->mic_control);
	if (stereo)
	dmic->enable[source_pdm] = 0x3; /* PDMi MIC A and B */
	else
	dmic->enable[source_pdm] = mic_swap ? 0x2 : 0x1; /* PDMi MIC B or MIC A */
	}

	return 0;
	}

	static int dai_nhlt_dmic_dai_params_get(struct dai_intel_dmic *dmic,
	int32_t *outcontrol,
	struct nhlt_pdm_ctrl_cfg **pdm_cfg,
	struct nhlt_pdm_ctrl_fir_cfg **fir_cfg)
	{
	uint32_t outcontrol_val = outcontrol[dmic->dai_config_params.dai_index];
	int num_pdm;
	int source_pdm;
	int ret;
	int n;
	bool stereo_pdm;

	switch (OUTCONTROL0_OF_GET(outcontrol_val)) {
	case 0:
	case 1:
	dmic->dai_config_params.format = DAI_DMIC_FRAME_S16_LE;
	dmic->dai_config_params.word_size = 16;
	break;
	case 2:
	dmic->dai_config_params.format = DAI_DMIC_FRAME_S32_LE;
	dmic->dai_config_params.word_size = 32;
	break;
	default:
	LOG_ERR("nhlt_dmic_dai_params_get(): Illegal OF bit field");
	return -EINVAL;
	}

	num_pdm = OUTCONTROL0_IPM_GET(outcontrol_val);
	if (num_pdm > CONFIG_DAI_DMIC_HW_CONTROLLERS) {
	LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM PDM controllers count");
	return -EINVAL;
	}

	stereo_pdm = 1;

	dmic->dai_config_params.channels = (stereo_pdm + 1) * num_pdm;
	for (n = 0; n < CONFIG_DAI_DMIC_HW_CONTROLLERS; n++)
	dmic->enable[n] = 0;

	n = 0;
	source_pdm = OUTCONTROL0_IPM_SOURCE_1_GET(outcontrol_val);
	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
	if (ret) {
	LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_1");
	return -EINVAL;
	}

	source_pdm = OUTCONTROL0_IPM_SOURCE_2_GET(outcontrol_val);
	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
	if (ret) {
	LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_2");
	return -EINVAL;
	}

	source_pdm = OUTCONTROL0_IPM_SOURCE_3_GET(outcontrol_val);
	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
	if (ret) {
	LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_3");
	return -EINVAL;
	}

	source_pdm = OUTCONTROL0_IPM_SOURCE_4_GET(outcontrol_val);
	ret = dai_ipm_source_to_enable(dmic, pdm_cfg, &n, num_pdm, stereo_pdm, source_pdm);
	if (ret) {
	LOG_ERR("nhlt_dmic_dai_params_get(): Illegal IPM_SOURCE_4");
	return -EINVAL;
	}

	return 0;
	}

	int dai_dmic_set_config_nhlt(struct dai_intel_dmic dmic, const void bespoke_cfg)
	{
	struct nhlt_pdm_ctrl_cfg *pdm_cfg[DMIC_HW_CONTROLLERS_MAX];
	struct nhlt_pdm_ctrl_fir_cfg *fir_cfg_a[DMIC_HW_CONTROLLERS_MAX];
	struct nhlt_pdm_ctrl_fir_cfg *fir_cfg_b[DMIC_HW_CONTROLLERS_MAX];
	struct nhlt_pdm_fir_coeffs *fir_a[DMIC_HW_CONTROLLERS_MAX] = {NULL};
	struct nhlt_pdm_fir_coeffs *fir_b[DMIC_HW_CONTROLLERS_MAX];
	uint32_t out_control[DMIC_HW_FIFOS_MAX] = {0};
	uint32_t channel_ctrl_mask;
	uint32_t fir_control;
	uint32_t pdm_ctrl_mask;
	uint32_t ref = 0;
	uint32_t val;
	const uint8_t *p = bespoke_cfg;
	int num_fifos;
	int num_pdm;
	int fir_length_a;
	int fir_length_b;
	int n;
	int i;
	int rate_div;
	int clk_div;
	int comb_count;
	int fir_decimation, fir_shift, fir_length;
	int bf1, bf2, bf3, bf4, bf5, bf6, bf7, bf8;
	int bf9, bf10, bf11, bf12, bf13;
	int bfth;
	int ret;
	int p_mcic = 0;
	int p_mfira = 0;
	int p_mfirb = 0;
	int p_clkdiv = 0;

	if (dmic->dai_config_params.dai_index >= DMIC_HW_FIFOS_MAX) {
	LOG_ERR("dmic_set_config_nhlt(): illegal DAI index %d",
	dmic->dai_config_params.dai_index);
	return -EINVAL;
	}

	/* Skip not used headers */
	p += sizeof(struct nhlt_dmic_gateway_attributes);
	p += sizeof(struct nhlt_dmic_ts_group);
	p += sizeof(struct nhlt_dmic_clock_on_delay);

	/* Channel_ctlr_mask bits indicate the FIFOs enabled*/
	channel_ctrl_mask = ((struct nhlt_dmic_channel_ctrl_mask *)p)->channel_ctrl_mask;
	num_fifos = popcount(channel_ctrl_mask); /* Count set bits */
	p += sizeof(struct nhlt_dmic_channel_ctrl_mask);
	LOG_DBG("dmic_set_config_nhlt(): channel_ctrl_mask = %d", channel_ctrl_mask);

	/* Get OUTCONTROLx configuration */
	if (num_fifos < 1 \|\| num_fifos > DMIC_HW_FIFOS_MAX) {
	LOG_ERR("dmic_set_config_nhlt(): illegal number of FIFOs %d", num_fifos);
	return -EINVAL;
	}

	for (n = 0; n < DMIC_HW_FIFOS_MAX; n++) {
	if (!(channel_ctrl_mask & (1 << n)))
	continue;

	val = (uint32_t )p;
	out_control[n] = val;
	bf1 = OUTCONTROL0_TIE_GET(val);
	bf2 = OUTCONTROL0_SIP_GET(val);
	bf3 = OUTCONTROL0_FINIT_GET(val);
	bf4 = OUTCONTROL0_FCI_GET(val);
	bf5 = OUTCONTROL0_BFTH_GET(val);
	bf6 = OUTCONTROL0_OF_GET(val);
	bf7 = OUTCONTROL0_IPM_GET(val);
	bf8 = OUTCONTROL0_TH_GET(val);
	LOG_INF("dmic_set_config_nhlt(): OUTCONTROL%d = %08x", n, out_control[n]);
	LOG_INF(" tie=%d, sip=%d, finit=%d, fci=%d", bf1, bf2, bf3, bf4);
	LOG_INF(" bfth=%d, of=%d, ipm=%d, th=%d", bf5, bf6, bf7, bf8);
	if (bf5 > OUTCONTROL0_BFTH_MAX) {
	LOG_ERR("dmic_set_config_nhlt(): illegal BFTH value");
	return -EINVAL;
	}

	bf9 = OUTCONTROL0_IPM_SOURCE_1_GET(val);
	bf10 = OUTCONTROL0_IPM_SOURCE_2_GET(val);
	bf11 = OUTCONTROL0_IPM_SOURCE_3_GET(val);
	bf12 = OUTCONTROL0_IPM_SOURCE_4_GET(val);
	bf13 = OUTCONTROL0_IPM_SOURCE_MODE_GET(val);
	LOG_INF(" ipms1=%d, ipms2=%d, ipms3=%d, ipms4=%d", bf9, bf10, bf11, bf12);
	LOG_INF(" ipms_mode=%d", bf13);
	ref = OUTCONTROL0_TIE(bf1) \| OUTCONTROL0_SIP(bf2) \| OUTCONTROL0_FINIT(bf3) \|
	OUTCONTROL0_FCI(bf4) \| OUTCONTROL0_BFTH(bf5) \| OUTCONTROL0_OF(bf6) \|
	OUTCONTROL0_IPM(bf7) \| OUTCONTROL0_IPM_SOURCE_1(bf9) \|
	OUTCONTROL0_IPM_SOURCE_2(bf10) \| OUTCONTROL0_IPM_SOURCE_3(bf11) \|
	OUTCONTROL0_IPM_SOURCE_4(bf12) \| OUTCONTROL0_TH(bf8) \|
	OUTCONTROL0_IPM_SOURCE_MODE(bf13);
	if (ref != val) {
	LOG_ERR("dmic_set_config_nhlt(): illegal OUTCONTROL%d = 0x%08x",
	n, val);
	return -EINVAL;
	}

	p += sizeof(uint32_t);
	}

	/* Write the FIFO control registers. The clear/set of bits is the same for
	* all DMIC_HW_VERSION
	*/
	/* Clear TIE, SIP, FCI, set FINIT, the rest of bits as such */
	val = (out_control[dmic->dai_config_params.dai_index] &
	~(OUTCONTROL0_TIE_BIT \| OUTCONTROL0_SIP_BIT \| OUTCONTROL0_FCI_BIT)) \|
	OUTCONTROL0_FINIT_BIT;
	if (dmic->dai_config_params.dai_index == 0)
	dai_dmic_write(dmic, OUTCONTROL0, val);
	else
	dai_dmic_write(dmic, OUTCONTROL1, val);

	LOG_INF("dmic_set_config_nhlt(): OUTCONTROL%d = %08x",
	dmic->dai_config_params.dai_index, val);

	/* Pass 2^BFTH to plat_data fifo depth. It will be used later in DMA
	* configuration
	*/
	bfth = OUTCONTROL0_BFTH_GET(val);
	dmic->fifo.depth = 1 << bfth;

	/* Get PDMx registers */
	pdm_ctrl_mask = ((struct nhlt_pdm_ctrl_mask *)p)->pdm_ctrl_mask;
	num_pdm = popcount(pdm_ctrl_mask); /* Count set bits */
	p += sizeof(struct nhlt_pdm_ctrl_mask);
	LOG_DBG("dmic_set_config_nhlt(): pdm_ctrl_mask = %d", pdm_ctrl_mask);
	if (num_pdm < 1 \|\| num_pdm > CONFIG_DAI_DMIC_HW_CONTROLLERS) {
	LOG_ERR("dmic_set_config_nhlt(): illegal number of PDMs %d", num_pdm);
	return -EINVAL;
	}

	for (n = 0; n < CONFIG_DAI_DMIC_HW_CONTROLLERS; n++) {
	fir_cfg_a[n] = NULL;
	fir_cfg_b[n] = NULL;
	if (!(pdm_ctrl_mask & (1 << n)))
	continue;

	LOG_DBG("dmic_set_config_nhlt(): PDM%d", n);

	/* Get CIC configuration */
	pdm_cfg[n] = (struct nhlt_pdm_ctrl_cfg *)p;
	p += sizeof(struct nhlt_pdm_ctrl_cfg);

	comb_count = CIC_CONFIG_COMB_COUNT_GET(pdm_cfg[n]->cic_config);
	p_mcic = comb_count + 1;
	clk_div = MIC_CONTROL_PDM_CLKDIV_GET(pdm_cfg[n]->mic_control);
	p_clkdiv = clk_div + 2;
	if (dai_dmic_global.active_fifos_mask == 0) {
	val = pdm_cfg[n]->cic_control;
	bf1 = CIC_CONTROL_SOFT_RESET_GET(val);
	bf2 = CIC_CONTROL_CIC_START_B_GET(val);
	bf3 = CIC_CONTROL_CIC_START_A_GET(val);
	bf4 = CIC_CONTROL_MIC_B_POLARITY_GET(val);
	bf5 = CIC_CONTROL_MIC_A_POLARITY_GET(val);
	bf6 = CIC_CONTROL_MIC_MUTE_GET(val);
	bf7 = CIC_CONTROL_STEREO_MODE_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): CIC_CONTROL = %08x", val);
	LOG_DBG(" soft_reset=%d, cic_start_b=%d, cic_start_a=%d",
	bf1, bf2, bf3);
	LOG_DBG(" mic_b_polarity=%d, mic_a_polarity=%d, mic_mute=%d",
	bf4, bf5, bf6);
	ref = CIC_CONTROL_SOFT_RESET(bf1) \| CIC_CONTROL_CIC_START_B(bf2) \|
	CIC_CONTROL_CIC_START_A(bf3) \| CIC_CONTROL_MIC_B_POLARITY(bf4) \|
	CIC_CONTROL_MIC_A_POLARITY(bf5) \| CIC_CONTROL_MIC_MUTE(bf6) \|
	CIC_CONTROL_STEREO_MODE(bf7);
	LOG_DBG(" stereo_mode=%d", bf7);
	if (ref != val) {
	LOG_ERR("dmic_set_config_nhlt(): illegal CIC_CONTROL = 0x%08x",
	val);
	return -EINVAL;
	}

	/* Clear CIC_START_A and CIC_START_B, set SOF_RESET and MIC_MUTE*/
	val = (val & ~(CIC_CONTROL_CIC_START_A_BIT \| CIC_CONTROL_CIC_START_A_BIT)) \|
	CIC_CONTROL_SOFT_RESET_BIT \| CIC_CONTROL_MIC_MUTE_BIT;
	dai_dmic_write(dmic, base[n] + CIC_CONTROL, val);
	LOG_DBG("dmic_set_config_nhlt(): CIC_CONTROL = %08x", val);

	val = pdm_cfg[n]->cic_config;
	bf1 = CIC_CONFIG_CIC_SHIFT_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): CIC_CONFIG = %08x", val);
	LOG_DBG(" cic_shift=%d, comb_count=%d", bf1, comb_count);

	/* Use CIC_CONFIG as such */
	dai_dmic_write(dmic, base[n] + CIC_CONFIG, val);
	LOG_DBG("dmic_set_config_nhlt(): CIC_CONFIG = %08x", val);

	val = pdm_cfg[n]->mic_control;
	bf1 = MIC_CONTROL_PDM_SKEW_GET(val);
	bf2 = MIC_CONTROL_PDM_CLK_EDGE_GET(val);
	bf3 = MIC_CONTROL_PDM_EN_B_GET(val);
	bf4 = MIC_CONTROL_PDM_EN_A_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): MIC_CONTROL = %08x", val);
	LOG_DBG(" clkdiv=%d, skew=%d, clk_edge=%d", clk_div, bf1, bf2);
	LOG_DBG(" en_b=%d, en_a=%d", bf3, bf4);

	/* Clear PDM_EN_A and PDM_EN_B */
	val &= ~(MIC_CONTROL_PDM_EN_A_BIT \| MIC_CONTROL_PDM_EN_B_BIT);
	dai_dmic_write(dmic, base[n] + MIC_CONTROL, val);
	LOG_DBG("dmic_set_config_nhlt(): MIC_CONTROL = %08x", val);
	}

	/* FIR A */
	fir_cfg_a[n] = (struct nhlt_pdm_ctrl_fir_cfg *)p;
	p += sizeof(struct nhlt_pdm_ctrl_fir_cfg);
	val = fir_cfg_a[n]->fir_config;
	fir_length = FIR_CONFIG_A_FIR_LENGTH_GET(val);
	fir_length_a = fir_length + 1; /* Need for parsing */
	fir_decimation = FIR_CONFIG_A_FIR_DECIMATION_GET(val);
	p_mfira = fir_decimation + 1;
	if (dmic->dai_config_params.dai_index == 0) {
	fir_shift = FIR_CONFIG_A_FIR_SHIFT_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): FIR_CONFIG_A = %08x", val);
	LOG_DBG(" fir_decimation=%d, fir_shift=%d, fir_length=%d",
	fir_decimation, fir_shift, fir_length);

	/* Use FIR_CONFIG_A as such */
	dai_dmic_write(dmic, base[n] + FIR_CONFIG_A, val);
	LOG_DBG("configure_registers(), FIR_CONFIG_A = %08x", val);

	val = fir_cfg_a[n]->fir_control;
	bf1 = FIR_CONTROL_A_START_GET(val);
	bf2 = FIR_CONTROL_A_ARRAY_START_EN_GET(val);
	bf3 = FIR_CONTROL_A_DCCOMP_GET(val);
	bf4 = FIR_CONTROL_A_MUTE_GET(val);
	bf5 = FIR_CONTROL_A_STEREO_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_A = %08x", val);
	LOG_DBG(" start=%d, array_start_en=%d, dccomp=%d", bf1, bf2, bf3);
	LOG_DBG(" mute=%d, stereo=%d", bf4, bf5);
	ref = FIR_CONTROL_A_START(bf1) \| FIR_CONTROL_A_ARRAY_START_EN(bf2) \|
	FIR_CONTROL_A_DCCOMP(bf3) \| FIR_CONTROL_A_MUTE(bf4) \|
	FIR_CONTROL_A_STEREO(bf5);

	if (ref != val) {
	LOG_ERR("dmic_set_config_nhlt(): illegal FIR_CONTROL = 0x%08x",
	val);
	return -EINVAL;
	}

	/* Clear START, set MUTE */
	fir_control = (val & ~FIR_CONTROL_A_START_BIT) \| FIR_CONTROL_A_MUTE_BIT;
	dai_dmic_write(dmic, base[n] + FIR_CONTROL_A, fir_control);
	LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_A = %08x", fir_control);

	/* Use DC_OFFSET and GAIN as such */
	val = fir_cfg_a[n]->dc_offset_left;
	dai_dmic_write(dmic, base[n] + DC_OFFSET_LEFT_A, val);
	LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_LEFT_A = %08x", val);

	val = fir_cfg_a[n]->dc_offset_right;
	dai_dmic_write(dmic, base[n] + DC_OFFSET_RIGHT_A, val);
	LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_RIGHT_A = %08x", val);

	val = fir_cfg_a[n]->out_gain_left;
	dai_dmic_write(dmic, base[n] + OUT_GAIN_LEFT_A, val);
	LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_LEFT_A = %08x", val);

	val = fir_cfg_a[n]->out_gain_right;
	dai_dmic_write(dmic, base[n] + OUT_GAIN_RIGHT_A, val);
	LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_RIGHT_A = %08x", val);
	}

	/* FIR B */
	fir_cfg_b[n] = (struct nhlt_pdm_ctrl_fir_cfg *)p;
	p += sizeof(struct nhlt_pdm_ctrl_fir_cfg);
	val = fir_cfg_b[n]->fir_config;
	fir_length = FIR_CONFIG_B_FIR_LENGTH_GET(val);
	fir_length_b = fir_length + 1; /* Need for parsing */
	fir_decimation = FIR_CONFIG_B_FIR_DECIMATION_GET(val);
	p_mfirb = fir_decimation + 1;
	if (dmic->dai_config_params.dai_index == 1) {
	fir_shift = FIR_CONFIG_B_FIR_SHIFT_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): FIR_CONFIG_B = %08x", val);
	LOG_DBG(" fir_decimation=%d, fir_shift=%d, fir_length=%d",
	fir_decimation, fir_shift, fir_length);

	/* Use FIR_CONFIG_B as such */
	dai_dmic_write(dmic, base[n] + FIR_CONFIG_B, val);
	LOG_DBG("configure_registers(), FIR_CONFIG_B = %08x", val);

	val = fir_cfg_b[n]->fir_control;
	bf1 = FIR_CONTROL_B_START_GET(val);
	bf2 = FIR_CONTROL_B_ARRAY_START_EN_GET(val);
	bf3 = FIR_CONTROL_B_DCCOMP_GET(val);
	bf5 = FIR_CONTROL_B_MUTE_GET(val);
	bf6 = FIR_CONTROL_B_STEREO_GET(val);
	LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_B = %08x", val);
	LOG_DBG(" start=%d, array_start_en=%d, dccomp=%d", bf1, bf2, bf3);
	LOG_DBG(" mute=%d, stereo=%d", bf5, bf6);

	/* Clear START, set MUTE */
	fir_control = (val & ~FIR_CONTROL_B_START_BIT) \| FIR_CONTROL_B_MUTE_BIT;
	dai_dmic_write(dmic, base[n] + FIR_CONTROL_B, fir_control);
	LOG_DBG("dmic_set_config_nhlt(): FIR_CONTROL_B = %08x", fir_control);

	/* Use DC_OFFSET and GAIN as such */
	val = fir_cfg_b[n]->dc_offset_left;
	dai_dmic_write(dmic, base[n] + DC_OFFSET_LEFT_B, val);
	LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_LEFT_B = %08x", val);

	val = fir_cfg_b[n]->dc_offset_right;
	dai_dmic_write(dmic, base[n] + DC_OFFSET_RIGHT_B, val);
	LOG_DBG("dmic_set_config_nhlt(): DC_OFFSET_RIGHT_B = %08x", val);

	val = fir_cfg_b[n]->out_gain_left;
	dai_dmic_write(dmic, base[n] + OUT_GAIN_LEFT_B, val);
	LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_LEFT_B = %08x", val);

	val = fir_cfg_b[n]->out_gain_right;
	dai_dmic_write(dmic, base[n] + OUT_GAIN_RIGHT_B, val);
	LOG_DBG("dmic_set_config_nhlt(): OUT_GAIN_RIGHT_B = %08x", val);
	}

	/* Set up FIR coefficients RAM */
	val = pdm_cfg[n]->reuse_fir_from_pdm;
	if (val == 0) {
	fir_a[n] = (struct nhlt_pdm_fir_coeffs *)p;
	p += sizeof(int32_t) * fir_length_a;
	fir_b[n] = (struct nhlt_pdm_fir_coeffs *)p;
	p += sizeof(int32_t) * fir_length_b;
	} else {
	val--;
	if (val >= n) {
	LOG_ERR("dmic_set_config_nhlt(): Illegal FIR reuse 0x%x", val);
	return -EINVAL;
	}

	if (!fir_a[val]) {
	LOG_ERR("dmic_set_config_nhlt(): PDM%d FIR reuse from %d fail",
	n, val);
	return -EINVAL;
	}

	fir_a[n] = fir_a[val];
	fir_b[n] = fir_b[val];
	}

	if (dmic->dai_config_params.dai_index == 0) {
	LOG_INF(
	"dmic_set_config_nhlt(): clkdiv = %d, mcic = %d, mfir_a = %d, len = %d",
	p_clkdiv, p_mcic, p_mfira, fir_length_a);
	for (i = 0; i < fir_length_a; i++)
	dai_dmic_write(dmic,
	coef_base_a[n] + (i << 2), fir_a[n]->fir_coeffs[i]);
	} else {
	LOG_INF(
	"dmic_set_config_nhlt(): clkdiv = %d, mcic = %d, mfir_b = %d, len = %d",
	p_clkdiv, p_mcic, p_mfirb, fir_length_b);
	for (i = 0; i < fir_length_b; i++)
	dai_dmic_write(dmic,
	coef_base_b[n] + (i << 2), fir_b[n]->fir_coeffs[i]);
	}
	}

	if (dmic->dai_config_params.dai_index == 0)
	ret = dai_nhlt_dmic_dai_params_get(dmic, out_control, pdm_cfg, fir_cfg_a);
	else
	ret = dai_nhlt_dmic_dai_params_get(dmic, out_control, pdm_cfg, fir_cfg_b);

	if (ret)
	return ret;

	if (dmic->dai_config_params.dai_index == 0)
	rate_div = p_clkdiv * p_mcic * p_mfira;
	else
	rate_div = p_clkdiv * p_mcic * p_mfirb;

	if (!rate_div) {
	LOG_ERR("dmic_set_config_nhlt(): zero clock divide or decimation factor");
	return -EINVAL;
	}

	dmic->dai_config_params.rate = CONFIG_DAI_DMIC_HW_IOCLK / rate_div;
	LOG_INF("dmic_set_config_nhlt(): rate = %d, channels = %d, format = %d",
	dmic->dai_config_params.rate, dmic->dai_config_params.channels,
	dmic->dai_config_params.format);
	return 0;
	}