2022-07-15 00:52:44 -04:00
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/*
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* SPDX-FileCopyrightText: 2019-2022 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <esp_types.h>
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#include <sys/lock.h>
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#include "sdkconfig.h"
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#include "stdatomic.h"
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#include "esp_log.h"
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#include "esp_check.h"
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#include "esp_heap_caps.h"
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#include "freertos/FreeRTOS.h"
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#include "driver/gpio.h"
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#include "driver/rtc_io.h"
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#include "esp_adc/adc_oneshot.h"
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#include "esp_private/adc_private.h"
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2022-07-20 23:47:09 -04:00
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#include "esp_private/adc_share_hw_ctrl.h"
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2023-01-09 04:10:04 -05:00
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#include "esp_private/sar_periph_ctrl.h"
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2022-07-15 00:52:44 -04:00
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#include "hal/adc_types.h"
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#include "hal/adc_oneshot_hal.h"
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#include "hal/adc_ll.h"
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#include "hal/adc_hal_conf.h"
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#include "soc/adc_periph.h"
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#if CONFIG_ADC_ONESHOT_CTRL_FUNC_IN_IRAM
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#define ADC_MEM_ALLOC_CAPS (MALLOC_CAP_INTERNAL | MALLOC_CAP_8BIT)
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#else
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#define ADC_MEM_ALLOC_CAPS MALLOC_CAP_DEFAULT
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#endif
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extern portMUX_TYPE rtc_spinlock;
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static const char *TAG = "adc_oneshot";
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typedef struct adc_oneshot_unit_ctx_t {
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adc_oneshot_hal_ctx_t hal;
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uint32_t unit_id;
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adc_ulp_mode_t ulp_mode;
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} adc_oneshot_unit_ctx_t;
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typedef struct adc_oneshot_ctx_t {
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_lock_t mutex;
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adc_oneshot_unit_ctx_t *units[SOC_ADC_PERIPH_NUM];
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int apb_periph_ref_cnts; //For the chips that ADC oneshot mode using APB_SARADC periph
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} adc_oneshot_ctx_t;
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static adc_oneshot_ctx_t s_ctx; //ADC oneshot mode context
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static atomic_bool s_adc_unit_claimed[SOC_ADC_PERIPH_NUM] = {ATOMIC_VAR_INIT(false),
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#if (SOC_ADC_PERIPH_NUM >= 2)
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ATOMIC_VAR_INIT(false)
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#endif
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};
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static bool s_adc_unit_claim(adc_unit_t unit);
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static bool s_adc_unit_free(adc_unit_t unit);
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static esp_err_t s_adc_io_init(adc_unit_t unit, adc_channel_t channel);
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esp_err_t adc_oneshot_io_to_channel(int io_num, adc_unit_t *unit_id, adc_channel_t *channel)
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{
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return adc_io_to_channel(io_num, unit_id, channel);
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}
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esp_err_t adc_oneshot_channel_to_io(adc_unit_t unit_id, adc_channel_t channel, int *io_num)
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{
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return adc_channel_to_io(unit_id, channel, io_num);
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}
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esp_err_t adc_oneshot_new_unit(const adc_oneshot_unit_init_cfg_t *init_config, adc_oneshot_unit_handle_t *ret_unit)
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{
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esp_err_t ret = ESP_OK;
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adc_oneshot_unit_ctx_t *unit = NULL;
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ESP_GOTO_ON_FALSE(init_config && ret_unit, ESP_ERR_INVALID_ARG, err, TAG, "invalid argument: null pointer");
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ESP_GOTO_ON_FALSE(init_config->unit_id < SOC_ADC_PERIPH_NUM, ESP_ERR_INVALID_ARG, err, TAG, "invalid unit");
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2022-12-11 22:01:22 -05:00
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#if CONFIG_IDF_TARGET_ESP32C3 && !CONFIG_ADC_ONESHOT_FORCE_USE_ADC2_ON_C3
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/**
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* We only check this on ESP32C3, because other adc units are no longer supported on later chips
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* If CONFIG_ADC_ONESHOT_FORCE_USE_ADC2_ON_C3 is enabled, we jump this check
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*/
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ESP_GOTO_ON_FALSE(SOC_ADC_DIG_SUPPORTED_UNIT(init_config->unit_id), ESP_ERR_INVALID_ARG, err, TAG, "adc unit not supported");
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#endif
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2022-07-15 00:52:44 -04:00
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unit = heap_caps_calloc(1, sizeof(adc_oneshot_unit_ctx_t), ADC_MEM_ALLOC_CAPS);
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ESP_GOTO_ON_FALSE(unit, ESP_ERR_NO_MEM, err, TAG, "no mem for unit");
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bool success_claim = s_adc_unit_claim(init_config->unit_id);
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ESP_GOTO_ON_FALSE(success_claim, ESP_ERR_NOT_FOUND, err, TAG, "adc%d is already in use", init_config->unit_id + 1);
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_lock_acquire(&s_ctx.mutex);
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s_ctx.units[init_config->unit_id] = unit;
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_lock_release(&s_ctx.mutex);
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unit->unit_id = init_config->unit_id;
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unit->ulp_mode = init_config->ulp_mode;
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adc_oneshot_hal_cfg_t config = {
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.unit = init_config->unit_id,
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.work_mode = (init_config->ulp_mode == ADC_ULP_MODE_FSM) ? ADC_HAL_ULP_FSM_MODE : ADC_HAL_SINGLE_READ_MODE,
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};
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adc_oneshot_hal_init(&(unit->hal), &config);
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#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
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//To enable the APB_SARADC periph if needed
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_lock_acquire(&s_ctx.mutex);
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s_ctx.apb_periph_ref_cnts++;
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if (s_ctx.apb_periph_ref_cnts == 1) {
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adc_apb_periph_claim();
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}
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_lock_release(&s_ctx.mutex);
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#endif
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2023-01-09 04:10:04 -05:00
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sar_periph_ctrl_adc_oneshot_power_acquire();
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2022-07-15 00:52:44 -04:00
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2022-08-25 23:28:01 -04:00
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ESP_LOGD(TAG, "new adc unit%"PRId32" is created", unit->unit_id);
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2022-07-15 00:52:44 -04:00
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*ret_unit = unit;
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return ESP_OK;
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err:
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if (unit) {
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free(unit);
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}
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return ret;
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}
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esp_err_t adc_oneshot_config_channel(adc_oneshot_unit_handle_t handle, adc_channel_t channel, const adc_oneshot_chan_cfg_t *config)
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{
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ESP_RETURN_ON_FALSE(handle && config, ESP_ERR_INVALID_ARG, TAG, "invalid argument: null pointer");
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ESP_RETURN_ON_FALSE(config->atten < SOC_ADC_ATTEN_NUM, ESP_ERR_INVALID_ARG, TAG, "invalid attenuation");
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ESP_RETURN_ON_FALSE(((config->bitwidth >= SOC_ADC_RTC_MIN_BITWIDTH && config->bitwidth <= SOC_ADC_RTC_MAX_BITWIDTH) || config->bitwidth == ADC_BITWIDTH_DEFAULT), ESP_ERR_INVALID_ARG, TAG, "invalid bitwidth");
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ESP_RETURN_ON_FALSE(channel < SOC_ADC_CHANNEL_NUM(handle->unit_id), ESP_ERR_INVALID_ARG, TAG, "invalid channel");
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s_adc_io_init(handle->unit_id, channel);
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adc_oneshot_hal_ctx_t *hal = &(handle->hal);
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adc_oneshot_hal_chan_cfg_t cfg = {
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.atten = config->atten,
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.bitwidth = (config->bitwidth == ADC_BITWIDTH_DEFAULT) ? SOC_ADC_RTC_MAX_BITWIDTH : config->bitwidth,
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};
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portENTER_CRITICAL(&rtc_spinlock);
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adc_oneshot_hal_channel_config(hal, &cfg, channel);
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if (handle->ulp_mode) {
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adc_oneshot_hal_setup(hal, channel);
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}
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portEXIT_CRITICAL(&rtc_spinlock);
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return ESP_OK;
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}
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esp_err_t adc_oneshot_read(adc_oneshot_unit_handle_t handle, adc_channel_t chan, int *out_raw)
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{
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ESP_RETURN_ON_FALSE(handle && out_raw, ESP_ERR_INVALID_ARG, TAG, "invalid argument: null pointer");
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ESP_RETURN_ON_FALSE(chan < SOC_ADC_CHANNEL_NUM(handle->unit_id), ESP_ERR_INVALID_ARG, TAG, "invalid channel");
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if (adc_lock_try_acquire(handle->unit_id) != ESP_OK) {
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return ESP_ERR_TIMEOUT;
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}
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portENTER_CRITICAL(&rtc_spinlock);
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adc_oneshot_hal_setup(&(handle->hal), chan);
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#if SOC_ADC_CALIBRATION_V1_SUPPORTED
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adc_atten_t atten = adc_ll_get_atten(handle->unit_id, chan);
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adc_hal_calibration_init(handle->unit_id);
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adc_set_hw_calibration_code(handle->unit_id, atten);
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#endif
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bool valid = false;
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valid = adc_oneshot_hal_convert(&(handle->hal), out_raw);
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portEXIT_CRITICAL(&rtc_spinlock);
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adc_lock_release(handle->unit_id);
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return valid ? ESP_OK : ESP_ERR_TIMEOUT;
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}
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esp_err_t adc_oneshot_read_isr(adc_oneshot_unit_handle_t handle, adc_channel_t chan, int *out_raw)
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{
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ESP_RETURN_ON_FALSE_ISR(handle && out_raw, ESP_ERR_INVALID_ARG, TAG, "invalid argument: null pointer");
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ESP_RETURN_ON_FALSE_ISR(out_raw, ESP_ERR_INVALID_ARG, TAG, "invalid argument: null pointer");
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ESP_RETURN_ON_FALSE_ISR(chan < SOC_ADC_CHANNEL_NUM(handle->unit_id), ESP_ERR_INVALID_ARG, TAG, "invalid channel");
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portENTER_CRITICAL_SAFE(&rtc_spinlock);
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adc_oneshot_hal_setup(&(handle->hal), chan);
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#if SOC_ADC_CALIBRATION_V1_SUPPORTED
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adc_atten_t atten = adc_ll_get_atten(handle->unit_id, chan);
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adc_hal_calibration_init(handle->unit_id);
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adc_set_hw_calibration_code(handle->unit_id, atten);
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#endif
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adc_oneshot_hal_convert(&(handle->hal), out_raw);
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portEXIT_CRITICAL_SAFE(&rtc_spinlock);
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return ESP_OK;
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}
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esp_err_t adc_oneshot_del_unit(adc_oneshot_unit_handle_t handle)
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{
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ESP_RETURN_ON_FALSE(handle, ESP_ERR_INVALID_ARG, TAG, "invalid argument: null pointer");
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bool success_free = s_adc_unit_free(handle->unit_id);
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2022-08-25 23:28:01 -04:00
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ESP_RETURN_ON_FALSE(success_free, ESP_ERR_NOT_FOUND, TAG, "adc%"PRId32" isn't in use", handle->unit_id + 1);
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2022-07-15 00:52:44 -04:00
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_lock_acquire(&s_ctx.mutex);
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s_ctx.units[handle->unit_id] = NULL;
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_lock_release(&s_ctx.mutex);
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2022-08-25 23:28:01 -04:00
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ESP_LOGD(TAG, "adc unit%"PRId32" is deleted", handle->unit_id);
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2022-07-15 00:52:44 -04:00
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free(handle);
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2023-01-09 04:10:04 -05:00
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sar_periph_ctrl_adc_oneshot_power_release();
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2022-07-15 00:52:44 -04:00
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#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
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//To free the APB_SARADC periph if needed
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_lock_acquire(&s_ctx.mutex);
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s_ctx.apb_periph_ref_cnts--;
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assert(s_ctx.apb_periph_ref_cnts >= 0);
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if (s_ctx.apb_periph_ref_cnts == 0) {
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adc_apb_periph_free();
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}
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_lock_release(&s_ctx.mutex);
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#endif
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return ESP_OK;
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}
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2023-01-16 02:24:43 -05:00
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esp_err_t adc_oneshot_get_calibrated_result(adc_oneshot_unit_handle_t handle, adc_cali_handle_t cali_handle, adc_channel_t chan, int *cali_result)
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{
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int raw = 0;
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ESP_RETURN_ON_ERROR(adc_oneshot_read(handle, chan, &raw), TAG, "adc oneshot read fail");
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ESP_LOGD(TAG, "raw: 0d%d", raw);
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ESP_RETURN_ON_ERROR(adc_cali_raw_to_voltage(cali_handle, raw, cali_result), TAG, "adc calibration fail");
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return ESP_OK;
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}
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2022-07-15 00:52:44 -04:00
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#define ADC_GET_IO_NUM(unit, channel) (adc_channel_io_map[unit][channel])
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static esp_err_t s_adc_io_init(adc_unit_t unit, adc_channel_t channel)
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{
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ESP_RETURN_ON_FALSE(channel < SOC_ADC_CHANNEL_NUM(unit), ESP_ERR_INVALID_ARG, TAG, "invalid channel");
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#if SOC_ADC_DIG_CTRL_SUPPORTED && !SOC_ADC_RTC_CTRL_SUPPORTED
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uint32_t io_num = ADC_GET_IO_NUM(unit, channel);
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gpio_config_t cfg = {
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.pin_bit_mask = BIT64(io_num),
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.mode = GPIO_MODE_DISABLE,
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.pull_up_en = GPIO_PULLUP_DISABLE,
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.pull_down_en = GPIO_PULLDOWN_DISABLE,
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.intr_type = GPIO_INTR_DISABLE,
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};
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ESP_RETURN_ON_ERROR(gpio_config(&cfg), TAG, "IO config fail");
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#else
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gpio_num_t io_num = ADC_GET_IO_NUM(unit, channel);
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ESP_RETURN_ON_ERROR(rtc_gpio_init(io_num), TAG, "IO config fail");
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ESP_RETURN_ON_ERROR(rtc_gpio_set_direction(io_num, RTC_GPIO_MODE_DISABLED), TAG, "IO config fail");
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ESP_RETURN_ON_ERROR(rtc_gpio_pulldown_dis(io_num), TAG, "IO config fail");
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ESP_RETURN_ON_ERROR(rtc_gpio_pullup_dis(io_num), TAG, "IO config fail");
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#endif
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return ESP_OK;
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}
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static bool s_adc_unit_claim(adc_unit_t unit)
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{
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bool false_var = false;
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return atomic_compare_exchange_strong(&s_adc_unit_claimed[unit], &false_var, true);
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}
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static bool s_adc_unit_free(adc_unit_t unit)
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{
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bool true_var = true;
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return atomic_compare_exchange_strong(&s_adc_unit_claimed[unit], &true_var, false);
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}
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