386 lines
9.4 KiB
C
386 lines
9.4 KiB
C
/*
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* Copyright (c) 2017 comsuisse AG
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* Copyright (c) 2018 Justin Watson
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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 atmel_sam_afec
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/** @file
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* @brief Atmel SAM MCU family ADC (AFEC) driver.
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*
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* This is an implementation of the Zephyr ADC driver using the SAM Analog
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* Front-End Controller (AFEC) peripheral.
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*/
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#include <errno.h>
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#include <sys/__assert.h>
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#include <sys/util.h>
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#include <device.h>
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#include <init.h>
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#include <soc.h>
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#include <drivers/adc.h>
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#include <drivers/pinctrl.h>
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#define ADC_CONTEXT_USES_KERNEL_TIMER
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#include "adc_context.h"
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#define LOG_LEVEL CONFIG_ADC_LOG_LEVEL
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#include <logging/log.h>
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LOG_MODULE_REGISTER(adc_sam_afec);
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#define NUM_CHANNELS 12
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#define CONF_ADC_PRESCALER ((SOC_ATMEL_SAM_MCK_FREQ_HZ / 15000000) - 1)
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typedef void (*cfg_func_t)(const struct device *dev);
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struct adc_sam_data {
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struct adc_context ctx;
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const struct device *dev;
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/* Pointer to the buffer in the sequence. */
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uint16_t *buffer;
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/* Pointer to the beginning of a sample. Consider the number of
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* channels in the sequence: this buffer changes by that amount
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* so all the channels would get repeated.
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*/
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uint16_t *repeat_buffer;
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/* Bit mask of the channels to be sampled. */
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uint32_t channels;
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/* Index of the channel being sampled. */
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uint8_t channel_id;
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};
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struct adc_sam_cfg {
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Afec *regs;
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cfg_func_t cfg_func;
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uint32_t periph_id;
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const struct pinctrl_dev_config *pcfg;
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};
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static int adc_sam_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_sam_cfg * const cfg = dev->config;
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Afec *const afec = cfg->regs;
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uint8_t channel_id = channel_cfg->channel_id;
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/* Clear the gain bits for the channel. */
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afec->AFEC_CGR &= ~(3 << channel_id * 2U);
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switch (channel_cfg->gain) {
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case ADC_GAIN_1:
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/* A value of 0 in this register is a gain of 1. */
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break;
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case ADC_GAIN_1_2:
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afec->AFEC_CGR |= (1 << (channel_id * 2U));
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break;
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case ADC_GAIN_1_4:
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afec->AFEC_CGR |= (2 << (channel_id * 2U));
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break;
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default:
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LOG_ERR("Selected ADC gain is not valid");
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return -EINVAL;
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}
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if (channel_cfg->acquisition_time != ADC_ACQ_TIME_DEFAULT) {
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LOG_ERR("Selected ADC acquisition time is not valid");
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return -EINVAL;
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}
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if (channel_cfg->reference != ADC_REF_EXTERNAL0) {
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LOG_ERR("Selected reference is not valid");
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return -EINVAL;
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}
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if (channel_cfg->differential) {
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LOG_ERR("Differential input is not supported");
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return -EINVAL;
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}
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/* Set single ended channels to unsigned and differential channels
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* to signed conversions.
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*/
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afec->AFEC_EMR &= ~(AFEC_EMR_SIGNMODE(
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AFEC_EMR_SIGNMODE_SE_UNSG_DF_SIGN_Val));
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return 0;
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}
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static void adc_sam_start_conversion(const struct device *dev)
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{
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const struct adc_sam_cfg *const cfg = dev->config;
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struct adc_sam_data *data = dev->data;
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Afec *const afec = cfg->regs;
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data->channel_id = find_lsb_set(data->channels) - 1;
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LOG_DBG("Starting channel %d", data->channel_id);
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/* Disable all channels. */
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afec->AFEC_CHDR = 0xfff;
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afec->AFEC_IDR = 0xfff;
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/* Enable the ADC channel. This also enables/selects the channel pin as
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* an input to the AFEC (50.5.1 SAM E70 datasheet).
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*/
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afec->AFEC_CHER = (1 << data->channel_id);
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/* Enable the interrupt for the channel. */
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afec->AFEC_IER = (1 << data->channel_id);
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/* Start the conversions. */
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afec->AFEC_CR = AFEC_CR_START;
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}
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/**
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* This is only called once at the beginning of all the conversions,
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* all channels as a group.
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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_sam_data *data = CONTAINER_OF(ctx, struct adc_sam_data, ctx);
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data->channels = ctx->sequence.channels;
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adc_sam_start_conversion(data->dev);
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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_sam_data *data = CONTAINER_OF(ctx, struct adc_sam_data, ctx);
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if (repeat_sampling) {
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data->buffer = data->repeat_buffer;
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}
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}
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static int check_buffer_size(const struct adc_sequence *sequence,
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uint8_t active_channels)
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{
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size_t needed_buffer_size;
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needed_buffer_size = active_channels * sizeof(uint16_t);
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if (sequence->options) {
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needed_buffer_size *= (1 + sequence->options->extra_samplings);
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}
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if (sequence->buffer_size < needed_buffer_size) {
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LOG_ERR("Provided buffer is too small (%u/%u)",
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sequence->buffer_size, needed_buffer_size);
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return -ENOMEM;
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}
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return 0;
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}
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static int start_read(const struct device *dev,
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const struct adc_sequence *sequence)
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{
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struct adc_sam_data *data = dev->data;
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int error = 0;
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uint32_t channels = sequence->channels;
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data->channels = 0U;
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/* Signal an error if the channel selection is invalid (no channels or
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* a non-existing one is selected).
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*/
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if (channels == 0U ||
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(channels & (~0UL << NUM_CHANNELS))) {
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LOG_ERR("Invalid selection of channels");
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return -EINVAL;
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}
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if (sequence->oversampling != 0U) {
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LOG_ERR("Oversampling is not supported");
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return -EINVAL;
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}
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if (sequence->resolution != 12U) {
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/* TODO JKW: Support the Enhanced Resolution Mode 50.6.3 page
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* 1544.
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*/
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LOG_ERR("ADC resolution value %d is not valid",
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sequence->resolution);
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return -EINVAL;
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}
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uint8_t num_active_channels = 0U;
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uint8_t channel = 0U;
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while (channels > 0) {
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if (channels & 1) {
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++num_active_channels;
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}
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channels >>= 1;
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++channel;
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}
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error = check_buffer_size(sequence, num_active_channels);
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if (error) {
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return error;
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}
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/* In the context you have a pointer to the adc_sam_data structure
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* only.
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*/
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data->buffer = sequence->buffer;
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data->repeat_buffer = sequence->buffer;
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/* At this point we allow the scheduler to do other things while
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* we wait for the conversions to complete. This is provided by the
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* adc_context functions. However, the caller of this function is
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* blocked until the results are in.
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*/
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adc_context_start_read(&data->ctx, sequence);
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error = adc_context_wait_for_completion(&data->ctx);
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return error;
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}
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static int adc_sam_read(const struct device *dev,
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const struct adc_sequence *sequence)
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{
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struct adc_sam_data *data = dev->data;
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int error;
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adc_context_lock(&data->ctx, false, NULL);
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error = start_read(dev, sequence);
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adc_context_release(&data->ctx, error);
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return error;
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}
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static int adc_sam_init(const struct device *dev)
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{
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const struct adc_sam_cfg *const cfg = dev->config;
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struct adc_sam_data *data = dev->data;
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Afec *const afec = cfg->regs;
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int retval;
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/* Reset the AFEC. */
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afec->AFEC_CR = AFEC_CR_SWRST;
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afec->AFEC_MR = AFEC_MR_TRGEN_DIS
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| AFEC_MR_SLEEP_NORMAL
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| AFEC_MR_FWUP_OFF
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| AFEC_MR_FREERUN_OFF
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| AFEC_MR_PRESCAL(CONF_ADC_PRESCALER)
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| AFEC_MR_STARTUP_SUT96
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| AFEC_MR_ONE
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| AFEC_MR_USEQ_NUM_ORDER;
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/* Set all channels CM voltage to Vrefp/2 (512). */
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for (int i = 0; i < NUM_CHANNELS; i++) {
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afec->AFEC_CSELR = i;
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afec->AFEC_COCR = 512;
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}
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/* Enable PGA and Current Bias. */
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afec->AFEC_ACR = AFEC_ACR_PGA0EN
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| AFEC_ACR_PGA1EN
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| AFEC_ACR_IBCTL(1);
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soc_pmc_peripheral_enable(cfg->periph_id);
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/* Connect pins to the peripheral */
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retval = pinctrl_apply_state(cfg->pcfg, PINCTRL_STATE_DEFAULT);
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if (retval < 0) {
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return retval;
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}
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cfg->cfg_func(dev);
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data->dev = dev;
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adc_context_unlock_unconditionally(&data->ctx);
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return retval;
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}
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#ifdef CONFIG_ADC_ASYNC
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static int adc_sam_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_sam_data *data = dev->data;
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int error;
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adc_context_lock(&data->ctx, true, async);
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error = start_read(dev, sequence);
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adc_context_release(&data->ctx, error);
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return error;
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}
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#endif
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static const struct adc_driver_api adc_sam_api = {
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.channel_setup = adc_sam_channel_setup,
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.read = adc_sam_read,
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#ifdef CONFIG_ADC_ASYNC
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.read_async = adc_sam_read_async,
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#endif
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};
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static void adc_sam_isr(const struct device *dev)
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{
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struct adc_sam_data *data = dev->data;
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const struct adc_sam_cfg *const cfg = dev->config;
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Afec *const afec = cfg->regs;
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uint16_t result;
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afec->AFEC_CHDR |= BIT(data->channel_id);
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afec->AFEC_IDR |= BIT(data->channel_id);
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afec->AFEC_CSELR = AFEC_CSELR_CSEL(data->channel_id);
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result = (uint16_t)(afec->AFEC_CDR);
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*data->buffer++ = result;
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data->channels &= ~BIT(data->channel_id);
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if (data->channels) {
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adc_sam_start_conversion(dev);
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} else {
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/* Called once all conversions have completed.*/
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adc_context_on_sampling_done(&data->ctx, dev);
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}
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}
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#define ADC_SAM_INIT(n) \
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PINCTRL_DT_INST_DEFINE(n); \
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static void adc##n##_sam_cfg_func(const struct device *dev); \
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\
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static const struct adc_sam_cfg adc##n##_sam_cfg = { \
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.regs = (Afec *)DT_INST_REG_ADDR(n), \
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.cfg_func = adc##n##_sam_cfg_func, \
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.periph_id = DT_INST_PROP(n, peripheral_id), \
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.pcfg = PINCTRL_DT_INST_DEV_CONFIG_GET(n), \
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}; \
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\
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static struct adc_sam_data adc##n##_sam_data = { \
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ADC_CONTEXT_INIT_TIMER(adc##n##_sam_data, ctx), \
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ADC_CONTEXT_INIT_LOCK(adc##n##_sam_data, ctx), \
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ADC_CONTEXT_INIT_SYNC(adc##n##_sam_data, ctx), \
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}; \
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\
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DEVICE_DT_INST_DEFINE(n, adc_sam_init, NULL, \
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&adc##n##_sam_data, \
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&adc##n##_sam_cfg, POST_KERNEL, \
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CONFIG_ADC_INIT_PRIORITY, \
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&adc_sam_api); \
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\
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static void adc##n##_sam_cfg_func(const struct device *dev) \
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{ \
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IRQ_CONNECT(DT_INST_IRQN(n), DT_INST_IRQ(n, priority), \
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adc_sam_isr, \
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DEVICE_DT_INST_GET(n), 0); \
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irq_enable(DT_INST_IRQN(n)); \
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}
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DT_INST_FOREACH_STATUS_OKAY(ADC_SAM_INIT)
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