mirror of
https://github.com/alsa-project/alsa-utils
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dfe1c7143a
We need to support older compilers than GCC 11.
Link: https://github.com/alsa-project/alsa-utils/issues/233
Fixes: 153d185
("topology: fix the verbose compilation warnings for latest gcc")
Signed-off-by: Jaroslav Kysela <perex@perex.cz>
523 lines
16 KiB
C
523 lines
16 KiB
C
// SPDX-License-Identifier: BSD-3-Clause
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//
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// Copyright(c) 2021 Intel Corporation. All rights reserved.
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//
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// Author: Jaska Uimonen <jaska.uimonen@linux.intel.com>
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#include "aconfig.h"
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#include <stdint.h>
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#include <errno.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <alsa/global.h>
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#include <alsa/input.h>
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#include <alsa/output.h>
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#include <alsa/conf.h>
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#include <alsa/error.h>
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#include "dmic-nhlt.h"
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#include "dmic/dmic-process.h"
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static int set_dmic_data(struct intel_nhlt_params *nhlt, snd_config_t *dai_cfg, snd_config_t *top)
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{
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long unmute_ramp_time_ms = 0;
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long fifo_word_length = 0;
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long driver_version = 0;
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long num_pdm_active = 0;
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long sample_rate = 0;
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long dai_index_t = 0;
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long duty_min = 0;
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long duty_max = 0;
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long clk_min = 0;
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long clk_max = 0;
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long io_clk = 0;
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int ret;
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struct dai_values dmic_data[] = {
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{ "driver_version", SND_CONFIG_TYPE_INTEGER, NULL, &driver_version, NULL},
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{ "io_clk", SND_CONFIG_TYPE_INTEGER, NULL, &io_clk, NULL},
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{ "dai_index", SND_CONFIG_TYPE_INTEGER, NULL, &dai_index_t, NULL},
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{ "num_pdm_active", SND_CONFIG_TYPE_INTEGER, NULL, &num_pdm_active, NULL},
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{ "fifo_word_length", SND_CONFIG_TYPE_INTEGER, NULL, &fifo_word_length, NULL},
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{ "clk_min", SND_CONFIG_TYPE_INTEGER, NULL, &clk_min, NULL},
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{ "clk_max", SND_CONFIG_TYPE_INTEGER, NULL, &clk_max, NULL},
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{ "duty_min", SND_CONFIG_TYPE_INTEGER, NULL, &duty_min, NULL},
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{ "duty_max", SND_CONFIG_TYPE_INTEGER, NULL, &duty_max, NULL},
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{ "sample_rate", SND_CONFIG_TYPE_INTEGER, NULL, &sample_rate, NULL},
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{ "unmute_ramp_time_ms", SND_CONFIG_TYPE_INTEGER, NULL, &unmute_ramp_time_ms, NULL},
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};
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ret = find_set_values(&dmic_data[0], ARRAY_SIZE(dmic_data), dai_cfg, top, "Class.Dai.DMIC");
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if (ret < 0)
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return ret;
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return dmic_set_params(nhlt, dai_index_t, driver_version, io_clk, num_pdm_active,
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fifo_word_length, clk_min, clk_max, duty_min, duty_max, sample_rate,
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unmute_ramp_time_ms);
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}
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static int set_pdm_data(struct intel_nhlt_params *nhlt, snd_config_t *cfg, snd_config_t *top)
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{
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long mic_a_enable = 0;
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long mic_b_enable = 0;
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long polarity_a = 0;
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long polarity_b = 0;
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long clk_edge = 0;
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long ctrl_id = 0;
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long skew = 0;
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int ret;
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struct dai_values dmic_pdm_data[] = {
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{ "mic_a_enable", SND_CONFIG_TYPE_INTEGER, NULL, &mic_a_enable, NULL},
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{ "mic_b_enable", SND_CONFIG_TYPE_INTEGER, NULL, &mic_b_enable, NULL},
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{ "polarity_a", SND_CONFIG_TYPE_INTEGER, NULL, &polarity_a, NULL},
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{ "polarity_b", SND_CONFIG_TYPE_INTEGER, NULL, &polarity_b, NULL},
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{ "clk_edge", SND_CONFIG_TYPE_INTEGER, NULL, &clk_edge, NULL},
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{ "ctrl_id", SND_CONFIG_TYPE_INTEGER, NULL, &ctrl_id, NULL},
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{ "skew", SND_CONFIG_TYPE_INTEGER, NULL, &skew, NULL},
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};
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ret = find_set_values(&dmic_pdm_data[0], ARRAY_SIZE(dmic_pdm_data), cfg, top,
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"Class.Base.pdm_config");
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if (ret < 0)
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return ret;
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return dmic_set_pdm_params(nhlt, ctrl_id, mic_a_enable, mic_b_enable, polarity_a,
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polarity_b, clk_edge, skew);
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}
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static int set_mic_data(struct intel_nhlt_params *nhlt, snd_config_t *cfg, snd_config_t *top)
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{
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long sensitivity = 0;
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long snr = 0;
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int ret;
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struct dai_values dmic_mic_data[] = {
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{ "snr", SND_CONFIG_TYPE_INTEGER, NULL, &snr, NULL},
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{ "sensitivity", SND_CONFIG_TYPE_INTEGER, NULL, &snr, NULL},
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};
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ret = find_set_values(&dmic_mic_data[0], ARRAY_SIZE(dmic_mic_data), cfg, top,
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"Class.Base.mic_extension");
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if (ret < 0)
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return ret;
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return dmic_set_ext_params(nhlt, snr, sensitivity);
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}
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static int set_vendor_mic_data(struct intel_nhlt_params *nhlt, snd_config_t *cfg, snd_config_t *top)
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{
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long speaker_position_distance = 0;
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long horizontal_angle_begin = 0;
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long horizontal_angle_end = 0;
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long vertical_angle_begin = 0;
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long vertical_angle_end = 0;
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long frequency_high_band = 0;
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long frequency_low_band = 0;
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long horizontal_offset = 0;
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long vertical_offset = 0;
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long direction_angle = 0;
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long elevation_angle = 0;
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long mic_type = 0;
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long location = 0;
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long mic_id = 0;
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int ret;
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struct dai_values dmic_vendor_data[] = {
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{ "mic_id", SND_CONFIG_TYPE_INTEGER, NULL, &mic_id, NULL},
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{ "mic_type", SND_CONFIG_TYPE_INTEGER, NULL, &mic_type, NULL},
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{ "location", SND_CONFIG_TYPE_INTEGER, NULL, &location, NULL},
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{ "speaker_position_distance", SND_CONFIG_TYPE_INTEGER, NULL,
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&speaker_position_distance, NULL},
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{ "horizontal_offset", SND_CONFIG_TYPE_INTEGER, NULL, &horizontal_offset, NULL},
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{ "vertical_offset", SND_CONFIG_TYPE_INTEGER, NULL, &vertical_offset, NULL},
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{ "frequency_low_band", SND_CONFIG_TYPE_INTEGER, NULL, &frequency_low_band, NULL},
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{ "frequency_high_band", SND_CONFIG_TYPE_INTEGER, NULL, &frequency_high_band, NULL},
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{ "direction_angle", SND_CONFIG_TYPE_INTEGER, NULL, &direction_angle, NULL},
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{ "elevation_angle", SND_CONFIG_TYPE_INTEGER, NULL, &elevation_angle, NULL},
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{ "vertical_angle_begin", SND_CONFIG_TYPE_INTEGER, NULL, &vertical_angle_begin,
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NULL},
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{ "vertical_angle_end", SND_CONFIG_TYPE_INTEGER, NULL, &vertical_angle_end, NULL},
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{ "horizontal_angle_begin", SND_CONFIG_TYPE_INTEGER, NULL, &horizontal_angle_begin,
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NULL},
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{ "horizontal_angle_end", SND_CONFIG_TYPE_INTEGER, NULL, &horizontal_angle_end,
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NULL},
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};
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ret = find_set_values(&dmic_vendor_data[0], ARRAY_SIZE(dmic_vendor_data), cfg, top,
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"Class.Base.vendor_mic_config");
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if (ret < 0)
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return ret;
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return dmic_set_mic_params(nhlt, mic_id, mic_type, location, speaker_position_distance,
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horizontal_offset, vertical_offset, frequency_low_band,
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frequency_high_band, direction_angle, elevation_angle,
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vertical_angle_begin, vertical_angle_end, horizontal_angle_begin,
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horizontal_angle_end);
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}
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static int set_bytes_data(struct intel_nhlt_params *nhlt ATTRIBUTE_UNUSED, snd_config_t *cfg)
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{
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snd_config_iterator_t i, next;
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snd_config_t *n;
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const char *bytes;
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const char *id;
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if (snd_config_get_id(cfg, &id) < 0)
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return -EINVAL;
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if (strcmp(id, "fir_coeffs"))
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return 0;
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snd_config_for_each(i, next, cfg) {
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n = snd_config_iterator_entry(i);
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if (snd_config_get_string(n, &bytes))
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return -EINVAL;
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}
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return 0;
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}
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/* init dmic parameters, should be called before parsing dais */
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int nhlt_dmic_init_params(struct intel_nhlt_params *nhlt)
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{
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return dmic_init_params(nhlt);
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}
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/* get dmic endpoint count */
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int nhlt_dmic_get_ep_count(struct intel_nhlt_params *nhlt)
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{
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return dmic_get_vendor_blob_count(nhlt);
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}
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int nhlt_dmic_get_ep(struct intel_nhlt_params *nhlt, struct endpoint_descriptor **eps,
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int index)
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{
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struct endpoint_descriptor ep;
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struct mic_array_device_specific_config mic_s_conf;
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struct mic_array_device_specific_vendor_config mic_v_conf;
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struct mic_snr_sensitivity_extension mic_ext;
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struct mic_vendor_config mic_conf;
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struct formats_config f_conf;
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struct format_config f_conf1;
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uint8_t *ep_target;
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size_t blob_size;
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int ret;
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int i;
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size_t mic_config_size;
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uint32_t sample_rate;
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uint16_t channel_count;
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uint32_t bits_per_sample;
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uint8_t array_type;
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uint8_t extension;
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uint8_t num_mics;
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uint32_t snr;
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uint32_t sensitivity;
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uint8_t type;
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uint8_t panel;
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uint32_t speaker_position_distance;
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uint32_t horizontal_offset;
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uint32_t vertical_offset;
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uint8_t frequency_low_band;
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uint8_t frequency_high_band;
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uint16_t direction_angle;
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uint16_t elevation_angle;
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uint16_t vertical_angle_begin;
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uint16_t vertical_angle_end;
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uint16_t horizontal_angle_begin;
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uint16_t horizontal_angle_end;
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/*
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* nhlt dmic structure:
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*
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* endpoint_descriptor, sizeof(struct endpoint_descriptor)
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*
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* device_specific_config (mic), sizeof(mic_array_device_specific_config)
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* or
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* device_specific_config (mic), sizeof(mic_array_device_specific_vendor_config)
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*
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* formats_config (formats_count), sizeof(struct formats_config)
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* format_config (waveex), sizeof(struct format_config)
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* vendor_blob sizeof(vendor_blob)
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*/
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/* dmic ep */
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ep.link_type = NHLT_LINK_TYPE_PDM;
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ep.instance_id = 0;
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ep.vendor_id = NHLT_VENDOR_ID_INTEL;
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ep.device_id = NHLT_DEVICE_ID_INTEL_PDM_DMIC;
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ep.revision_id = 0;
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ep.subsystem_id = 0;
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ep.device_type = 0;
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ep.direction = NHLT_ENDPOINT_DIRECTION_CAPTURE;
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ep.virtualbus_id = index;
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ret = dmic_get_params(nhlt, index, &sample_rate, &channel_count, &bits_per_sample,
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&array_type, &num_mics, &extension, &snr, &sensitivity);
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if (ret) {
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fprintf(stderr, "nhlt_dmic_get_ep: dmic_get_params failed\n");
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return ret;
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}
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if (array_type == NHLT_MIC_ARRAY_TYPE_VENDOR_DEFINED) {
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mic_v_conf.config.capabilities_size = 4 + num_mics *
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sizeof(struct mic_vendor_config);
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mic_v_conf.device_config.virtual_slot = 0; /* always 0 for dmic */
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mic_v_conf.device_config.config_type = NHLT_DEVICE_CONFIG_TYPE_MICARRAY;
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mic_v_conf.number_of_microphones = num_mics;
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mic_v_conf.array_type_ex = array_type;
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/* precense of extension struct is coded into lower 4 bits of array_type */
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if (extension) {
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mic_v_conf.array_type_ex = (array_type & ~0x0F) | (0x01 & 0x0F);
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mic_v_conf.config.capabilities_size +=
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sizeof(struct mic_snr_sensitivity_extension);
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}
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} else {
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mic_s_conf.config.capabilities_size = 3;
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mic_s_conf.device_config.virtual_slot = 0; /* always 0 for dmic */
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mic_s_conf.device_config.config_type = NHLT_DEVICE_CONFIG_TYPE_MICARRAY;
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mic_s_conf.array_type_ex = array_type;
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/* presense of extension struct coded into lower 4 bits of array_type */
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if (extension) {
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mic_s_conf.array_type_ex = (array_type & ~0x0F) | (0x01 & 0x0F);
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mic_s_conf.config.capabilities_size +=
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sizeof(struct mic_snr_sensitivity_extension);
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}
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}
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/* formats_config */
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f_conf.formats_count = 1;
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/* fill in wave format extensible types */
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f_conf1.format.wFormatTag = 0xFFFE;
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f_conf1.format.nSamplesPerSec = sample_rate;
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f_conf1.format.nChannels = channel_count;
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f_conf1.format.wBitsPerSample = bits_per_sample;
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f_conf1.format.nBlockAlign = channel_count * bits_per_sample / 8;
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f_conf1.format.nAvgBytesPerSec = f_conf1.format.nSamplesPerSec * f_conf1.format.nBlockAlign;
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/* bytes after this value in this struct */
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f_conf1.format.cbSize = 22;
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/* actual bits in container */
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f_conf1.format.wValidBitsPerSample = bits_per_sample;
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/* channel map not used at this time */
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f_conf1.format.dwChannelMask = 0;
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/* WAVE_FORMAT_PCM guid (0x0001) ? */
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f_conf1.format.SubFormat[0] = 0;
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f_conf1.format.SubFormat[1] = 0;
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f_conf1.format.SubFormat[2] = 0;
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f_conf1.format.SubFormat[3] = 0;
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ret = dmic_get_vendor_blob_size(nhlt, &blob_size);
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if (ret) {
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fprintf(stderr, "nhlt_dmic_get_ep: dmic_get_vendor_blob_size failed\n");
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return ret;
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}
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f_conf1.vendor_blob.capabilities_size = blob_size;
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if (array_type == NHLT_MIC_ARRAY_TYPE_VENDOR_DEFINED)
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mic_config_size = sizeof(struct mic_array_device_specific_vendor_config) +
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num_mics * sizeof(struct mic_vendor_config);
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else
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mic_config_size = sizeof(struct mic_array_device_specific_config);
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if (extension)
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mic_config_size = sizeof(struct mic_snr_sensitivity_extension);
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ep.length = sizeof(struct endpoint_descriptor) +
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mic_config_size +
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sizeof(struct formats_config) +
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sizeof(struct format_config) +
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blob_size;
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/* allocate the final variable length ep struct */
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ep_target = calloc(ep.length, sizeof(uint8_t));
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if (!ep_target)
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return -ENOMEM;
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*eps = (struct endpoint_descriptor *)ep_target;
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/* copy all parsed sub arrays into the top level array */
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memcpy(ep_target, &ep, sizeof(struct endpoint_descriptor));
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ep_target += sizeof(struct endpoint_descriptor);
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if (array_type == NHLT_MIC_ARRAY_TYPE_VENDOR_DEFINED) {
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memcpy(ep_target, &mic_v_conf,
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sizeof(struct mic_array_device_specific_vendor_config));
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ep_target += sizeof(struct mic_array_device_specific_vendor_config);
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for (i = 0; i < num_mics; i++) {
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ret = dmic_get_mic_params(nhlt, i, &type,
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&panel, &speaker_position_distance,
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&horizontal_offset, &vertical_offset,
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&frequency_low_band, &frequency_high_band,
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&direction_angle, &elevation_angle,
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&vertical_angle_begin, &vertical_angle_end,
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&horizontal_angle_begin, &horizontal_angle_end);
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if (ret) {
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fprintf(stderr, "nhlt_dmic_get_ep: dmic_get_mic_params failed\n");
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return ret;
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}
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mic_conf.type = type;
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mic_conf.panel = panel;
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mic_conf.speaker_position_distance = speaker_position_distance;
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mic_conf.horizontal_offset = horizontal_offset;
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mic_conf.vertical_offset = vertical_offset;
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mic_conf.frequency_low_band = frequency_low_band;
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mic_conf.frequency_high_band = frequency_high_band;
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mic_conf.direction_angle = direction_angle;
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mic_conf.elevation_angle = elevation_angle;
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mic_conf.vertical_angle_begin = vertical_angle_begin;
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mic_conf.vertical_angle_end = vertical_angle_end;
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mic_conf.horizontal_angle_begin = horizontal_angle_begin;
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mic_conf.horizontal_angle_end = horizontal_angle_end;
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memcpy(ep_target, &mic_conf, sizeof(struct mic_vendor_config));
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ep_target += sizeof(struct mic_vendor_config);
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}
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} else {
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memcpy(ep_target, &mic_s_conf, sizeof(struct mic_array_device_specific_config));
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ep_target += sizeof(struct mic_array_device_specific_config);
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}
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if (extension) {
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mic_ext.snr = snr;
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mic_ext.sensitivity = sensitivity;
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memcpy(ep_target, &mic_ext, sizeof(struct mic_snr_sensitivity_extension));
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ep_target += sizeof(struct mic_snr_sensitivity_extension);
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}
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memcpy(ep_target, &f_conf, sizeof(struct formats_config));
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ep_target += sizeof(struct formats_config);
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memcpy(ep_target, &f_conf1, sizeof(struct format_config));
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ep_target += sizeof(struct format_config);
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ret = dmic_get_vendor_blob(nhlt, ep_target);
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if (ret) {
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fprintf(stderr, "nhlt_dmic_get_ep: dmic_get_vendor_blob failed\n");
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return ret;
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}
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return 0;
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}
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/*
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* Set dmic parameters from topology for dmic coefficient calculation.
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*
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* Coefficients are recalculated in case of multiple DAIs in topology and might affect each other.
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*
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* You can see an example of topology v2 config of dmic below. In this example the default
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* object parameters are spelled out for clarity. General parameters like clk_min are parsed with
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* set_dmic_data and pdm object data with set_pdm_data. Number of pdm's can vary from 1 to 2. Values
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* are saved into intermediate structs and the vendor specific blob is calculated at the end of
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* parsing with dmic_calculate.
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*
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* DMIC."0" {
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* name NoCodec-6
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* id 6
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* index 0
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* driver_version 1
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* io_clk 38400000
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* clk_min 500000
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* clk_max 4800000
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* duty_min 40
|
|
* duty_max 60
|
|
* sample_rate 48000
|
|
* fifo_word_length 16
|
|
* unmute_ramp_time_ms 200
|
|
* num_pdm_active 2
|
|
*
|
|
* # PDM controller config
|
|
* Object.Base.pdm_config."0" {
|
|
* ctrl_id 0
|
|
* mic_a_enable 1
|
|
* mic_b_enable 1
|
|
* polarity_a 0
|
|
* polarity_b 0
|
|
* clk_edge 0
|
|
* skew 0
|
|
* }
|
|
* }
|
|
*/
|
|
int nhlt_dmic_set_params(struct intel_nhlt_params *nhlt, snd_config_t *cfg, snd_config_t *top)
|
|
{
|
|
snd_config_t *items;
|
|
int ret;
|
|
snd_config_iterator_t i, next;
|
|
snd_config_t *n;
|
|
const char *id;
|
|
|
|
/* set basic dmic data */
|
|
ret = set_dmic_data(nhlt, cfg, top);
|
|
if (ret < 0)
|
|
return ret;
|
|
|
|
/* we need to have at least one pdm object */
|
|
ret = snd_config_search(cfg, "Object.Base.pdm_config", &items);
|
|
if (ret < 0)
|
|
return ret;
|
|
|
|
snd_config_for_each(i, next, items) {
|
|
n = snd_config_iterator_entry(i);
|
|
|
|
if (snd_config_get_id(n, &id) < 0)
|
|
continue;
|
|
|
|
ret = set_pdm_data(nhlt, n, top);
|
|
if (ret < 0)
|
|
return ret;
|
|
}
|
|
|
|
/* check for microphone parameter configuration */
|
|
ret = snd_config_search(cfg, "Object.Base.mic_extension", &items);
|
|
if (!ret) {
|
|
snd_config_for_each(i, next, items) {
|
|
n = snd_config_iterator_entry(i);
|
|
|
|
if (snd_config_get_id(n, &id) < 0)
|
|
continue;
|
|
|
|
ret = set_mic_data(nhlt, n, top);
|
|
if (ret < 0)
|
|
return ret;
|
|
}
|
|
}
|
|
|
|
/* check for microphone parameter configuration */
|
|
ret = snd_config_search(cfg, "Object.Base.vendor_mic_config", &items);
|
|
if (!ret) {
|
|
snd_config_for_each(i, next, items) {
|
|
n = snd_config_iterator_entry(i);
|
|
|
|
if (snd_config_get_id(n, &id) < 0)
|
|
continue;
|
|
|
|
set_vendor_mic_data(nhlt, n, top);
|
|
}
|
|
}
|
|
|
|
/* check for optional filter coeffs */
|
|
ret = snd_config_search(cfg, "Object.Base.data", &items);
|
|
if (!ret) {
|
|
snd_config_for_each(i, next, items) {
|
|
n = snd_config_iterator_entry(i);
|
|
|
|
if (snd_config_get_id(n, &id) < 0)
|
|
continue;
|
|
|
|
set_bytes_data(nhlt, n);
|
|
}
|
|
}
|
|
|
|
ret = dmic_calculate(nhlt);
|
|
|
|
return ret;
|
|
}
|