580 lines
14 KiB
C
580 lines
14 KiB
C
/**
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* @file
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*
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* @brief Emulated ADC driver
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*/
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/*
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* Copyright 2021 Google LLC
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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 zephyr_adc_emul
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#include <zephyr/drivers/adc.h>
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#include <zephyr/drivers/adc/adc_emul.h>
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#include <zephyr/kernel.h>
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#include <zephyr/logging/log.h>
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#include <zephyr/sys/byteorder.h>
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#include <zephyr/sys/util.h>
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LOG_MODULE_REGISTER(adc_emul, CONFIG_ADC_LOG_LEVEL);
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#define ADC_CONTEXT_USES_KERNEL_TIMER
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#include "adc_context.h"
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#define ADC_EMUL_MAX_RESOLUTION 16
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typedef uint16_t adc_emul_res_t;
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enum adc_emul_input_source {
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ADC_EMUL_CONST_VALUE,
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ADC_EMUL_CUSTOM_FUNC,
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};
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/**
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* @brief Channel of emulated ADC config
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*
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* This structure contains configuration of one channel of emulated ADC.
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*/
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struct adc_emul_chan_cfg {
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/** Pointer to function used to obtain input mV */
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adc_emul_value_func func;
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/** Pointer to data that are passed to @a func on call */
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void *func_data;
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/** Constant mV input value */
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uint32_t const_value;
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/** Gain used on output value */
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enum adc_gain gain;
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/** Reference source */
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enum adc_reference ref;
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/** Input source which is used to obtain input value */
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enum adc_emul_input_source input;
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};
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/**
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* @brief Emulated ADC config
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*
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* This structure contains constant data for given instance of emulated ADC.
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*/
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struct adc_emul_config {
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/** Number of supported channels */
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uint8_t num_channels;
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};
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/**
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* @brief Emulated ADC data
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*
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* This structure contains data structures used by a emulated ADC.
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*/
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struct adc_emul_data {
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/** Structure that handle state of ongoing read operation */
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struct adc_context ctx;
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/** Pointer to ADC emulator own device structure */
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const struct device *dev;
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/** Pointer to memory where next sample will be written */
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uint16_t *buf;
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/** Pointer to where will be data stored in case of repeated sampling */
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uint16_t *repeat_buf;
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/** Mask with channels that will be sampled */
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uint32_t channels;
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/** Mask created from requested resolution in read operation */
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uint16_t res_mask;
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/** Reference voltage for ADC_REF_VDD_1 source */
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uint16_t ref_vdd;
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/** Reference voltage for ADC_REF_EXTERNAL0 source */
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uint16_t ref_ext0;
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/** Reference voltage for ADC_REF_EXTERNAL1 source */
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uint16_t ref_ext1;
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/** Reference voltage for ADC_REF_INTERNAL source */
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uint16_t ref_int;
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/** Array of each channel configuration */
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struct adc_emul_chan_cfg *chan_cfg;
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/** Structure used for acquisition thread */
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struct k_thread thread;
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/** Semaphore used to control acquisition thread */
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struct k_sem sem;
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/** Mutex used to control access to channels config and ref voltages */
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struct k_mutex cfg_mtx;
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/** Stack for acquisition thread */
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K_KERNEL_STACK_MEMBER(stack,
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CONFIG_ADC_EMUL_ACQUISITION_THREAD_STACK_SIZE);
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};
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int adc_emul_const_value_set(const struct device *dev, unsigned int chan,
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uint32_t value)
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{
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const struct adc_emul_config *config = dev->config;
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struct adc_emul_data *data = dev->data;
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struct adc_emul_chan_cfg *chan_cfg;
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if (chan >= config->num_channels) {
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LOG_ERR("unsupported channel %d", chan);
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return -EINVAL;
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}
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chan_cfg = &data->chan_cfg[chan];
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k_mutex_lock(&data->cfg_mtx, K_FOREVER);
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chan_cfg->input = ADC_EMUL_CONST_VALUE;
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chan_cfg->const_value = value;
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k_mutex_unlock(&data->cfg_mtx);
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return 0;
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}
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int adc_emul_value_func_set(const struct device *dev, unsigned int chan,
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adc_emul_value_func func, void *func_data)
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{
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const struct adc_emul_config *config = dev->config;
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struct adc_emul_data *data = dev->data;
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struct adc_emul_chan_cfg *chan_cfg;
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if (chan >= config->num_channels) {
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LOG_ERR("unsupported channel %d", chan);
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return -EINVAL;
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}
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chan_cfg = &data->chan_cfg[chan];
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k_mutex_lock(&data->cfg_mtx, K_FOREVER);
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chan_cfg->func = func;
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chan_cfg->func_data = func_data;
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chan_cfg->input = ADC_EMUL_CUSTOM_FUNC;
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k_mutex_unlock(&data->cfg_mtx);
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return 0;
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}
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int adc_emul_ref_voltage_set(const struct device *dev, enum adc_reference ref,
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uint16_t value)
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{
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struct adc_driver_api *api = (struct adc_driver_api *)dev->api;
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struct adc_emul_data *data = dev->data;
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int err = 0;
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k_mutex_lock(&data->cfg_mtx, K_FOREVER);
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switch (ref) {
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case ADC_REF_VDD_1:
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data->ref_vdd = value;
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break;
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case ADC_REF_INTERNAL:
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data->ref_int = value;
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api->ref_internal = value;
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break;
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case ADC_REF_EXTERNAL0:
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data->ref_ext0 = value;
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break;
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case ADC_REF_EXTERNAL1:
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data->ref_ext1 = value;
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break;
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default:
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err = -EINVAL;
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}
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k_mutex_unlock(&data->cfg_mtx);
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return err;
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}
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/**
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* @brief Convert @p ref to reference voltage value in mV
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*
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* @param data Internal data of ADC emulator
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* @param ref Select which reference source should be used
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*
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* @return Reference voltage in mV
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* @return 0 on error
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*/
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static uint16_t adc_emul_get_ref_voltage(struct adc_emul_data *data,
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enum adc_reference ref)
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{
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uint16_t voltage;
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k_mutex_lock(&data->cfg_mtx, K_FOREVER);
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switch (ref) {
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case ADC_REF_VDD_1:
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voltage = data->ref_vdd;
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break;
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case ADC_REF_VDD_1_2:
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voltage = data->ref_vdd / 2;
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break;
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case ADC_REF_VDD_1_3:
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voltage = data->ref_vdd / 3;
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break;
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case ADC_REF_VDD_1_4:
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voltage = data->ref_vdd / 4;
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break;
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case ADC_REF_INTERNAL:
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voltage = data->ref_int;
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break;
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case ADC_REF_EXTERNAL0:
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voltage = data->ref_ext0;
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break;
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case ADC_REF_EXTERNAL1:
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voltage = data->ref_ext1;
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break;
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default:
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voltage = 0;
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}
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k_mutex_unlock(&data->cfg_mtx);
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return voltage;
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}
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static int adc_emul_channel_setup(const struct device *dev,
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const struct adc_channel_cfg *channel_cfg)
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{
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const struct adc_emul_config *config = dev->config;
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struct adc_emul_chan_cfg *emul_chan_cfg;
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struct adc_emul_data *data = dev->data;
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if (channel_cfg->channel_id >= config->num_channels) {
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LOG_ERR("unsupported channel id '%d'", channel_cfg->channel_id);
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return -ENOTSUP;
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}
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if (adc_emul_get_ref_voltage(data, channel_cfg->reference) == 0) {
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LOG_ERR("unsupported channel reference '%d'",
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channel_cfg->reference);
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return -ENOTSUP;
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}
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if (channel_cfg->differential) {
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LOG_ERR("unsupported differential mode");
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return -ENOTSUP;
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}
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emul_chan_cfg = &data->chan_cfg[channel_cfg->channel_id];
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k_mutex_lock(&data->cfg_mtx, K_FOREVER);
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emul_chan_cfg->gain = channel_cfg->gain;
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emul_chan_cfg->ref = channel_cfg->reference;
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k_mutex_unlock(&data->cfg_mtx);
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return 0;
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}
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/**
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* @brief Check if buffer in @p sequence is big enough to hold all ADC samples
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*
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* @param dev ADC emulator device
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* @param sequence ADC sequence description
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*
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* @return 0 on success
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* @return -ENOMEM if buffer is not big enough
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*/
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static int adc_emul_check_buffer_size(const struct device *dev,
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const struct adc_sequence *sequence)
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{
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const struct adc_emul_config *config = dev->config;
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uint8_t channels = 0;
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size_t needed;
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uint32_t mask;
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for (mask = BIT(config->num_channels - 1); mask != 0; mask >>= 1) {
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if (mask & sequence->channels) {
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channels++;
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}
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}
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needed = channels * sizeof(adc_emul_res_t);
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if (sequence->options) {
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needed *= (1 + sequence->options->extra_samplings);
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}
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if (sequence->buffer_size < needed) {
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return -ENOMEM;
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}
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return 0;
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}
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/**
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* @brief Start processing read request
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*
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* @param dev ADC emulator device
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* @param sequence ADC sequence description
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*
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* @return 0 on success
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* @return -ENOTSUP if requested resolution or channel is out side of supported
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* range
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* @return -ENOMEM if buffer is not big enough
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* (see @ref adc_emul_check_buffer_size)
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* @return other error code returned by adc_context_wait_for_completion
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*/
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static int adc_emul_start_read(const struct device *dev,
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const struct adc_sequence *sequence)
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{
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const struct adc_emul_config *config = dev->config;
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struct adc_emul_data *data = dev->data;
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int err;
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if (sequence->resolution > ADC_EMUL_MAX_RESOLUTION ||
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sequence->resolution == 0) {
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LOG_ERR("unsupported resolution %d", sequence->resolution);
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return -ENOTSUP;
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}
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if (find_msb_set(sequence->channels) > config->num_channels) {
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LOG_ERR("unsupported channels in mask: 0x%08x",
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sequence->channels);
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return -ENOTSUP;
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}
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err = adc_emul_check_buffer_size(dev, sequence);
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if (err) {
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LOG_ERR("buffer size too small");
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return err;
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}
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data->res_mask = BIT_MASK(sequence->resolution);
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data->buf = sequence->buffer;
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adc_context_start_read(&data->ctx, sequence);
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return adc_context_wait_for_completion(&data->ctx);
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}
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static int adc_emul_read_async(const struct device *dev,
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const struct adc_sequence *sequence,
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struct k_poll_signal *async)
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{
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struct adc_emul_data *data = dev->data;
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int err;
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adc_context_lock(&data->ctx, async ? true : false, async);
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err = adc_emul_start_read(dev, sequence);
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adc_context_release(&data->ctx, err);
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return err;
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}
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static int adc_emul_read(const struct device *dev,
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const struct adc_sequence *sequence)
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{
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return adc_emul_read_async(dev, sequence, NULL);
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}
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static void adc_context_start_sampling(struct adc_context *ctx)
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{
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struct adc_emul_data *data = CONTAINER_OF(ctx, struct adc_emul_data,
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ctx);
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data->channels = ctx->sequence.channels;
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data->repeat_buf = data->buf;
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k_sem_give(&data->sem);
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}
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static void adc_context_update_buffer_pointer(struct adc_context *ctx,
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bool repeat_sampling)
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{
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struct adc_emul_data *data = CONTAINER_OF(ctx, struct adc_emul_data,
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ctx);
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if (repeat_sampling) {
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data->buf = data->repeat_buf;
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}
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}
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/**
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* @brief Convert input voltage of ADC @p chan to raw output value
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*
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* @param data Internal data of ADC emulator
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* @param chan ADC channel to sample
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* @param result Raw output value
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*
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* @return 0 on success
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* @return -EINVAL if failed to get reference voltage or unknown input is
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* selected
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* @return other error code returned by custom function
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*/
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static int adc_emul_get_chan_value(struct adc_emul_data *data,
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unsigned int chan,
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adc_emul_res_t *result)
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{
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struct adc_emul_chan_cfg *chan_cfg = &data->chan_cfg[chan];
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uint32_t input_mV;
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uint32_t ref_v;
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uint64_t temp; /* Temporary 64 bit value prevent overflows */
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int err = 0;
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k_mutex_lock(&data->cfg_mtx, K_FOREVER);
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/* Get input voltage */
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switch (chan_cfg->input) {
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case ADC_EMUL_CONST_VALUE:
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input_mV = chan_cfg->const_value;
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break;
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case ADC_EMUL_CUSTOM_FUNC:
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err = chan_cfg->func(data->dev, chan, chan_cfg->func_data,
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&input_mV);
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if (err) {
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LOG_ERR("failed to read channel %d (err %d)",
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chan, err);
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goto out;
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}
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break;
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default:
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LOG_ERR("unknown input source %d", chan_cfg->input);
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err = -EINVAL;
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goto out;
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}
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/* Get reference voltage and apply inverted gain */
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ref_v = adc_emul_get_ref_voltage(data, chan_cfg->ref);
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err = adc_gain_invert(chan_cfg->gain, &ref_v);
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if (ref_v == 0 || err) {
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LOG_ERR("failed to get ref voltage (channel %d)", chan);
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err = -EINVAL;
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goto out;
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}
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/* Calculate output value */
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temp = (uint64_t)input_mV * data->res_mask / ref_v;
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/* If output value is greater than resolution, it has to be trimmed */
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if (temp > data->res_mask) {
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temp = data->res_mask;
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}
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*result = temp;
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out:
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k_mutex_unlock(&data->cfg_mtx);
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return err;
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}
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/**
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* @brief Main function of thread which is used to collect samples from
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* emulated ADC. When adc_context_start_sampling give semaphore,
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* for each requested channel value function is called. Returned
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* mV value is converted to output using reference voltage, gain
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* and requested resolution.
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*
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* @param data Internal data of ADC emulator
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*
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* @return This thread should not end
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*/
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static void adc_emul_acquisition_thread(struct adc_emul_data *data)
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{
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int err;
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while (true) {
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k_sem_take(&data->sem, K_FOREVER);
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err = 0;
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while (data->channels) {
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adc_emul_res_t result = 0;
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unsigned int chan = find_lsb_set(data->channels) - 1;
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LOG_DBG("reading channel %d", chan);
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err = adc_emul_get_chan_value(data, chan, &result);
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if (err) {
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adc_context_complete(&data->ctx, err);
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break;
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}
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LOG_DBG("read channel %d, result = %d", chan, result);
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*data->buf++ = result;
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WRITE_BIT(data->channels, chan, 0);
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}
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if (!err) {
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adc_context_on_sampling_done(&data->ctx, data->dev);
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}
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}
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}
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/**
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* @brief Function called on init for each ADC emulator device. It setups all
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* channels to return constant 0 mV and create acquisition thread.
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*
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* @param dev ADC emulator device
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*
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* @return 0 on success
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*/
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static int adc_emul_init(const struct device *dev)
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{
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const struct adc_emul_config *config = dev->config;
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struct adc_emul_data *data = dev->data;
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int chan;
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data->dev = dev;
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k_sem_init(&data->sem, 0, 1);
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k_mutex_init(&data->cfg_mtx);
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for (chan = 0; chan < config->num_channels; chan++) {
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struct adc_emul_chan_cfg *chan_cfg = &data->chan_cfg[chan];
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chan_cfg->func = NULL;
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chan_cfg->func_data = NULL;
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chan_cfg->input = ADC_EMUL_CONST_VALUE;
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chan_cfg->const_value = 0;
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}
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k_thread_create(&data->thread, data->stack,
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CONFIG_ADC_EMUL_ACQUISITION_THREAD_STACK_SIZE,
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(k_thread_entry_t)adc_emul_acquisition_thread,
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data, NULL, NULL,
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CONFIG_ADC_EMUL_ACQUISITION_THREAD_PRIO,
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0, K_NO_WAIT);
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adc_context_unlock_unconditionally(&data->ctx);
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return 0;
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}
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#define ADC_EMUL_INIT(_num) \
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static struct adc_driver_api adc_emul_api_##_num = { \
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.channel_setup = adc_emul_channel_setup, \
|
|
.read = adc_emul_read, \
|
|
.ref_internal = DT_INST_PROP(_num, ref_internal_mv), \
|
|
IF_ENABLED(CONFIG_ADC_ASYNC, \
|
|
(.read_async = adc_emul_read_async,)) \
|
|
}; \
|
|
\
|
|
static struct adc_emul_chan_cfg \
|
|
adc_emul_ch_cfg_##_num[DT_INST_PROP(_num, nchannels)]; \
|
|
\
|
|
static const struct adc_emul_config adc_emul_config_##_num = { \
|
|
.num_channels = DT_INST_PROP(_num, nchannels), \
|
|
}; \
|
|
\
|
|
static struct adc_emul_data adc_emul_data_##_num = { \
|
|
ADC_CONTEXT_INIT_TIMER(adc_emul_data_##_num, ctx), \
|
|
ADC_CONTEXT_INIT_LOCK(adc_emul_data_##_num, ctx), \
|
|
ADC_CONTEXT_INIT_SYNC(adc_emul_data_##_num, ctx), \
|
|
.chan_cfg = adc_emul_ch_cfg_##_num, \
|
|
.ref_vdd = DT_INST_PROP(_num, ref_vdd_mv), \
|
|
.ref_ext0 = DT_INST_PROP(_num, ref_external0_mv), \
|
|
.ref_ext1 = DT_INST_PROP(_num, ref_external1_mv), \
|
|
.ref_int = DT_INST_PROP(_num, ref_internal_mv), \
|
|
}; \
|
|
\
|
|
DEVICE_DT_INST_DEFINE(_num, adc_emul_init, NULL, \
|
|
&adc_emul_data_##_num, \
|
|
&adc_emul_config_##_num, POST_KERNEL, \
|
|
CONFIG_ADC_INIT_PRIORITY, \
|
|
&adc_emul_api_##_num)
|
|
|
|
DT_INST_FOREACH_STATUS_OKAY(ADC_EMUL_INIT);
|