include/drivers/adc.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /**
  * @file
  * @brief ADC public API header file.
  */

 /*
  * Copyright (c) 2018 Nordic Semiconductor ASA
  * Copyright (c) 2015 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_INCLUDE_DRIVERS_ADC_H_
 #define ZEPHYR_INCLUDE_DRIVERS_ADC_H_

 #include <device.h>
 #include <dt-bindings/adc/adc.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * @brief ADC driver APIs
  * @defgroup adc_interface ADC driver APIs
  * @ingroup io_interfaces
  * @{
  */

 /** @brief ADC channel gain factors. */
 enum adc_gain {
 	ADC_GAIN_1_6, /**< x 1/6. */
 	ADC_GAIN_1_5, /**< x 1/5. */
 	ADC_GAIN_1_4, /**< x 1/4. */
 	ADC_GAIN_1_3, /**< x 1/3. */
 	ADC_GAIN_1_2, /**< x 1/2. */
 	ADC_GAIN_2_3, /**< x 2/3. */
 	ADC_GAIN_1,   /**< x 1. */
 	ADC_GAIN_2,   /**< x 2. */
 	ADC_GAIN_3,   /**< x 3. */
 	ADC_GAIN_4,   /**< x 4. */
 	ADC_GAIN_6,   /**< x 6. */
 	ADC_GAIN_8,   /**< x 8. */
 	ADC_GAIN_12,  /**< x 12. */
 	ADC_GAIN_16,  /**< x 16. */
 	ADC_GAIN_24,  /**< x 24. */
 	ADC_GAIN_32,  /**< x 32. */
 	ADC_GAIN_64,  /**< x 64. */
 	ADC_GAIN_128, /**< x 128. */
 };

 /**
  * @brief Invert the application of gain to a measurement value.
  *
  * For example, if the gain passed in is ADC_GAIN_1_6 and the
  * referenced value is 10, the value after the function returns is 60.
  *
  * @param gain the gain used to amplify the input signal.
  *
  * @param value a pointer to a value that initially has the effect of
  * the applied gain but has that effect removed when this function
  * successfully returns.  If the gain cannot be reversed the value
  * remains unchanged.
  *
  * @retval 0 if the gain was successfully reversed
  * @retval -EINVAL if the gain could not be interpreted
  */
 int adc_gain_invert(enum adc_gain gain,
 		    int32_t *value);

 /** @brief ADC references. */
 enum adc_reference {
 	ADC_REF_VDD_1,     /**< VDD. */
 	ADC_REF_VDD_1_2,   /**< VDD/2. */
 	ADC_REF_VDD_1_3,   /**< VDD/3. */
 	ADC_REF_VDD_1_4,   /**< VDD/4. */
 	ADC_REF_INTERNAL,  /**< Internal. */
 	ADC_REF_EXTERNAL0, /**< External, input 0. */
 	ADC_REF_EXTERNAL1, /**< External, input 1. */
 };

 /**
  * @brief Structure for specifying the configuration of an ADC channel.
  */
 struct adc_channel_cfg {
 	/** Gain selection. */
 	enum adc_gain gain;

 	/** Reference selection. */
 	enum adc_reference reference;

 	/**
 	 * Acquisition time.
 	 * Use the ADC_ACQ_TIME macro to compose the value for this field or
 	 * pass ADC_ACQ_TIME_DEFAULT to use the default setting for a given
 	 * hardware (e.g. when the hardware does not allow to configure the
 	 * acquisition time).
 	 * Particular drivers do not necessarily support all the possible units.
 	 * Value range is 0-16383 for a given unit.
 	 */
 	uint16_t acquisition_time;

 	/**
 	 * Channel identifier.
 	 * This value primarily identifies the channel within the ADC API - when
 	 * a read request is done, the corresponding bit in the "channels" field
 	 * of the "adc_sequence" structure must be set to include this channel
 	 * in the sampling.
 	 * For hardware that does not allow selection of analog inputs for given
 	 * channels, but rather have dedicated ones, this value also selects the
 	 * physical ADC input to be used in the sampling. Otherwise, when it is
 	 * needed to explicitly select an analog input for the channel, or two
 	 * inputs when the channel is a differential one, the selection is done
 	 * in "input_positive" and "input_negative" fields.
 	 * Particular drivers indicate which one of the above two cases they
 	 * support by selecting or not a special hidden Kconfig option named
 	 * ADC_CONFIGURABLE_INPUTS. If this option is not selected, the macro
 	 * CONFIG_ADC_CONFIGURABLE_INPUTS is not defined and consequently the
 	 * mentioned two fields are not present in this structure.
 	 * While this API allows identifiers from range 0-31, particular drivers
 	 * may support only a limited number of channel identifiers (dependent
 	 * on the underlying hardware capabilities or configured via a dedicated
 	 * Kconfig option).
 	 */
 	uint8_t channel_id   : 5;

 	/** Channel type: single-ended or differential. */
 	uint8_t differential : 1;

 #ifdef CONFIG_ADC_CONFIGURABLE_INPUTS
 	/**
 	 * Positive ADC input.
 	 * This is a driver dependent value that identifies an ADC input to be
 	 * associated with the channel.
 	 */
 	uint8_t input_positive;

 	/**
 	 * Negative ADC input (used only for differential channels).
 	 * This is a driver dependent value that identifies an ADC input to be
 	 * associated with the channel.
 	 */
 	uint8_t input_negative;
 #endif /* CONFIG_ADC_CONFIGURABLE_INPUTS */
 };

 /**
  * @brief Convert a raw ADC value to millivolts.
  *
  * This function performs the necessary conversion to transform a raw
  * ADC measurement to a voltage in millivolts.
  *
  * @param ref_mv the reference voltage used for the measurement, in
  * millivolts.  This may be from adc_ref_internal() or a known
  * external reference.
  *
  * @param gain the ADC gain configuration used to sample the input
  *
  * @param resolution the number of bits in the absolute value of the
  * sample.  For differential sampling this may be one less than the
  * resolution in struct adc_sequence.
  *
  * @param valp pointer to the raw measurement value on input, and the
  * corresponding millivolt value on successful conversion.  If
  * conversion fails the stored value is left unchanged.
  *
  * @retval 0 on successful conversion
  * @retval -EINVAL if the gain is not reversible
  */
 static inline int adc_raw_to_millivolts(int32_t ref_mv,
 					enum adc_gain gain,
 					uint8_t resolution,
 					int32_t *valp)
 {
 	int32_t adc_mv = *valp * ref_mv;
 	int ret = adc_gain_invert(gain, &adc_mv);

 	if (ret == 0) {
 		*valp = (adc_mv >> resolution);
 	}

 	return ret;
 }

 /* Forward declaration of the adc_sequence structure. */
 struct adc_sequence;

 /**
  * @brief Action to be performed after a sampling is done.
  */
 enum adc_action {
 	/** The sequence should be continued normally. */
 	ADC_ACTION_CONTINUE = 0,

 	/**
 	 * The sampling should be repeated. New samples or sample should be
 	 * read from the ADC and written in the same place as the recent ones.
 	 */
 	ADC_ACTION_REPEAT,

 	/** The sequence should be finished immediately. */
 	ADC_ACTION_FINISH,
 };

 /**
  * @brief Type definition of the optional callback function to be called after
  *        a requested sampling is done.
  *
  * @param dev             Pointer to the device structure for the driver
  *                        instance.
  * @param sequence        Pointer to the sequence structure that triggered
  *                        the sampling. This parameter points to a copy of
  *                        the structure that was supplied to the call that
  *                        started the sampling sequence, thus it cannot be
  *                        used with the CONTAINER_OF() macro to retrieve
  *                        some other data associated with the sequence.
  *                        Instead, the adc_sequence_options::user_data field
  *                        should be used for such purpose.
  *
  * @param sampling_index  Index (0-65535) of the sampling done.
  *
  * @returns Action to be performed by the driver. See @ref adc_action.
  */
 typedef enum adc_action (*adc_sequence_callback)(const struct device *dev,
 						 const struct adc_sequence *sequence,
 						 uint16_t sampling_index);

 /**
  * @brief Structure defining additional options for an ADC sampling sequence.
  */
 struct adc_sequence_options {
 	/**
 	 * Interval between consecutive samplings (in microseconds), 0 means
 	 * sample as fast as possible, without involving any timer.
 	 * The accuracy of this interval is dependent on the implementation of
 	 * a given driver. The default routine that handles the intervals uses
 	 * a kernel timer for this purpose, thus, it has the accuracy of the
 	 * kernel's system clock. Particular drivers may use some dedicated
 	 * hardware timers and achieve a better precision.
 	 */
 	uint32_t interval_us;

 	/**
 	 * Callback function to be called after each sampling is done.
 	 * Optional - set to NULL if it is not needed.
 	 */
 	adc_sequence_callback callback;

 	/**
 	 * Pointer to user data. It can be used to associate the sequence
 	 * with any other data that is needed in the callback function.
 	 */
 	void *user_data;

 	/**
 	 * Number of extra samplings to perform (the total number of samplings
 	 * is 1 + extra_samplings).
 	 */
 	uint16_t extra_samplings;
 };

 /**
  * @brief Structure defining an ADC sampling sequence.
  */
 struct adc_sequence {
 	/**
 	 * Pointer to a structure defining additional options for the sequence.
 	 * If NULL, the sequence consists of a single sampling.
 	 */
 	const struct adc_sequence_options *options;

 	/**
 	 * Bit-mask indicating the channels to be included in each sampling
 	 * of this sequence.
 	 * All selected channels must be configured with adc_channel_setup()
 	 * before they are used in a sequence.
 	 */
 	uint32_t channels;

 	/**
 	 * Pointer to a buffer where the samples are to be written. Samples
 	 * from subsequent samplings are written sequentially in the buffer.
 	 * The number of samples written for each sampling is determined by
 	 * the number of channels selected in the "channels" field.
 	 * The buffer must be of an appropriate size, taking into account
 	 * the number of selected channels and the ADC resolution used,
 	 * as well as the number of samplings contained in the sequence.
 	 */
 	void *buffer;

 	/**
 	 * Specifies the actual size of the buffer pointed by the "buffer"
 	 * field (in bytes). The driver must ensure that samples are not
 	 * written beyond the limit and it must return an error if the buffer
 	 * turns out to be not large enough to hold all the requested samples.
 	 */
 	size_t buffer_size;

 	/**
 	 * ADC resolution.
 	 * For single-ended channels the sample values are from range:
 	 *   0 .. 2^resolution - 1,
 	 * for differential ones:
 	 *   - 2^(resolution-1) .. 2^(resolution-1) - 1.
 	 */
 	uint8_t resolution;

 	/**
 	 * Oversampling setting.
 	 * Each sample is averaged from 2^oversampling conversion results.
 	 * This feature may be unsupported by a given ADC hardware, or in
 	 * a specific mode (e.g. when sampling multiple channels).
 	 */
 	uint8_t oversampling;

 	/**
 	 * Perform calibration before the reading is taken if requested.
 	 *
 	 * The impact of channel configuration on the calibration
 	 * process is specific to the underlying hardware.  ADC
 	 * implementations that do not support calibration should
 	 * ignore this flag.
 	 */
 	bool calibrate;
 };


 /**
  * @brief Type definition of ADC API function for configuring a channel.
  * See adc_channel_setup() for argument descriptions.
  */
 typedef int (*adc_api_channel_setup)(const struct device *dev,
 				     const struct adc_channel_cfg *channel_cfg);

 /**
  * @brief Type definition of ADC API function for setting a read request.
  * See adc_read() for argument descriptions.
  */
 typedef int (*adc_api_read)(const struct device *dev,
 			    const struct adc_sequence *sequence);

 /**
  * @brief Type definition of ADC API function for setting an asynchronous
  *        read request.
  * See adc_read_async() for argument descriptions.
  */
 typedef int (*adc_api_read_async)(const struct device *dev,
 				  const struct adc_sequence *sequence,
 				  struct k_poll_signal *async);

 /**
  * @brief ADC driver API
  *
  * This is the mandatory API any ADC driver needs to expose.
  */
 __subsystem struct adc_driver_api {
 	adc_api_channel_setup channel_setup;
 	adc_api_read          read;
 #ifdef CONFIG_ADC_ASYNC
 	adc_api_read_async    read_async;
 #endif
 	uint16_t ref_internal;	/* mV */
 };

 /**
  * @brief Configure an ADC channel.
  *
  * It is required to call this function and configure each channel before it is
  * selected for a read request.
  *
  * @param dev          Pointer to the device structure for the driver instance.
  * @param channel_cfg  Channel configuration.
  *
  * @retval 0       On success.
  * @retval -EINVAL If a parameter with an invalid value has been provided.
  */
 __syscall int adc_channel_setup(const struct device *dev,
 				const struct adc_channel_cfg *channel_cfg);

 static inline int z_impl_adc_channel_setup(const struct device *dev,
 					   const struct adc_channel_cfg *channel_cfg)
 {
 	const struct adc_driver_api *api =
 				(const struct adc_driver_api *)dev->api;

 	return api->channel_setup(dev, channel_cfg);
 }

 /**
  * @brief Set a read request.
  *
  * @param dev       Pointer to the device structure for the driver instance.
  * @param sequence  Structure specifying requested sequence of samplings.
  *
  * If invoked from user mode, any sequence struct options for callback must
  * be NULL.
  *
  * @retval 0        On success.
  * @retval -EINVAL  If a parameter with an invalid value has been provided.
  * @retval -ENOMEM  If the provided buffer is to small to hold the results
  *                  of all requested samplings.
  * @retval -ENOTSUP If the requested mode of operation is not supported.
  * @retval -EBUSY   If another sampling was triggered while the previous one
  *                  was still in progress. This may occur only when samplings
  *                  are done with intervals, and it indicates that the selected
  *                  interval was too small. All requested samples are written
  *                  in the buffer, but at least some of them were taken with
  *                  an extra delay compared to what was scheduled.
  */
 __syscall int adc_read(const struct device *dev,
 		       const struct adc_sequence *sequence);

 static inline int z_impl_adc_read(const struct device *dev,
 				  const struct adc_sequence *sequence)
 {
 	const struct adc_driver_api *api =
 				(const struct adc_driver_api *)dev->api;

 	return api->read(dev, sequence);
 }

 /**
  * @brief Set an asynchronous read request.
  *
  * @note This function is available only if @kconfig{CONFIG_ADC_ASYNC}
  * is selected.
  *
  * If invoked from user mode, any sequence struct options for callback must
  * be NULL.
  *
  * @param dev       Pointer to the device structure for the driver instance.
  * @param sequence  Structure specifying requested sequence of samplings.
  * @param async     Pointer to a valid and ready to be signaled struct
  *                  k_poll_signal. (Note: if NULL this function will not notify
  *                  the end of the transaction, and whether it went successfully
  *                  or not).
  *
  * @returns 0 on success, negative error code otherwise.
  *          See adc_read() for a list of possible error codes.
  *
  */
 __syscall int adc_read_async(const struct device *dev,
 			     const struct adc_sequence *sequence,
 			     struct k_poll_signal *async);


 #ifdef CONFIG_ADC_ASYNC
 static inline int z_impl_adc_read_async(const struct device *dev,
 					const struct adc_sequence *sequence,
 					struct k_poll_signal *async)
 {
 	const struct adc_driver_api *api =
 				(const struct adc_driver_api *)dev->api;

 	return api->read_async(dev, sequence, async);
 }
 #endif /* CONFIG_ADC_ASYNC */

 /**
  * @brief Get the internal reference voltage.
  *
  * Returns the voltage corresponding to @ref ADC_REF_INTERNAL,
  * measured in millivolts.
  *
  * @return a positive value is the reference voltage value.  Returns
  * zero if reference voltage information is not available.
  */
 static inline uint16_t adc_ref_internal(const struct device *dev)
 {
 	const struct adc_driver_api *api =
 				(const struct adc_driver_api *)dev->api;

 	return api->ref_internal;
 }

 /**
  * @}
  */

 #ifdef __cplusplus
 }
 #endif

 #include <syscalls/adc.h>

 #endif  /* ZEPHYR_INCLUDE_DRIVERS_ADC_H_ */
	/**
	* @file
	* @brief ADC public API header file.
	*/

	/*
	* Copyright (c) 2018 Nordic Semiconductor ASA
	* Copyright (c) 2015 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_INCLUDE_DRIVERS_ADC_H_
	#define ZEPHYR_INCLUDE_DRIVERS_ADC_H_

	#include <device.h>
	#include <dt-bindings/adc/adc.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @brief ADC driver APIs
	* @defgroup adc_interface ADC driver APIs
	* @ingroup io_interfaces
	* @{
	*/

	/** @brief ADC channel gain factors. */
	enum adc_gain {
	ADC_GAIN_1_6, /*< x 1/6. /
	ADC_GAIN_1_5, /*< x 1/5. /
	ADC_GAIN_1_4, /*< x 1/4. /
	ADC_GAIN_1_3, /*< x 1/3. /
	ADC_GAIN_1_2, /*< x 1/2. /
	ADC_GAIN_2_3, /*< x 2/3. /
	ADC_GAIN_1, /*< x 1. /
	ADC_GAIN_2, /*< x 2. /
	ADC_GAIN_3, /*< x 3. /
	ADC_GAIN_4, /*< x 4. /
	ADC_GAIN_6, /*< x 6. /
	ADC_GAIN_8, /*< x 8. /
	ADC_GAIN_12, /*< x 12. /
	ADC_GAIN_16, /*< x 16. /
	ADC_GAIN_24, /*< x 24. /
	ADC_GAIN_32, /*< x 32. /
	ADC_GAIN_64, /*< x 64. /
	ADC_GAIN_128, /*< x 128. /
	};

	/**
	* @brief Invert the application of gain to a measurement value.
	*
	* For example, if the gain passed in is ADC_GAIN_1_6 and the
	* referenced value is 10, the value after the function returns is 60.
	*
	* @param gain the gain used to amplify the input signal.
	*
	* @param value a pointer to a value that initially has the effect of
	* the applied gain but has that effect removed when this function
	* successfully returns. If the gain cannot be reversed the value
	* remains unchanged.
	*
	* @retval 0 if the gain was successfully reversed
	* @retval -EINVAL if the gain could not be interpreted
	*/
	int adc_gain_invert(enum adc_gain gain,
	int32_t *value);

	/** @brief ADC references. */
	enum adc_reference {
	ADC_REF_VDD_1, /*< VDD. /
	ADC_REF_VDD_1_2, /*< VDD/2. /
	ADC_REF_VDD_1_3, /*< VDD/3. /
	ADC_REF_VDD_1_4, /*< VDD/4. /
	ADC_REF_INTERNAL, /*< Internal. /
	ADC_REF_EXTERNAL0, /*< External, input 0. /
	ADC_REF_EXTERNAL1, /*< External, input 1. /
	};

	/**
	* @brief Structure for specifying the configuration of an ADC channel.
	*/
	struct adc_channel_cfg {
	/** Gain selection. */
	enum adc_gain gain;

	/** Reference selection. */
	enum adc_reference reference;

	/**
	* Acquisition time.
	* Use the ADC_ACQ_TIME macro to compose the value for this field or
	* pass ADC_ACQ_TIME_DEFAULT to use the default setting for a given
	* hardware (e.g. when the hardware does not allow to configure the
	* acquisition time).
	* Particular drivers do not necessarily support all the possible units.
	* Value range is 0-16383 for a given unit.
	*/
	uint16_t acquisition_time;

	/**
	* Channel identifier.
	* This value primarily identifies the channel within the ADC API - when
	* a read request is done, the corresponding bit in the "channels" field
	* of the "adc_sequence" structure must be set to include this channel
	* in the sampling.
	* For hardware that does not allow selection of analog inputs for given
	* channels, but rather have dedicated ones, this value also selects the
	* physical ADC input to be used in the sampling. Otherwise, when it is
	* needed to explicitly select an analog input for the channel, or two
	* inputs when the channel is a differential one, the selection is done
	* in "input_positive" and "input_negative" fields.
	* Particular drivers indicate which one of the above two cases they
	* support by selecting or not a special hidden Kconfig option named
	* ADC_CONFIGURABLE_INPUTS. If this option is not selected, the macro
	* CONFIG_ADC_CONFIGURABLE_INPUTS is not defined and consequently the
	* mentioned two fields are not present in this structure.
	* While this API allows identifiers from range 0-31, particular drivers
	* may support only a limited number of channel identifiers (dependent
	* on the underlying hardware capabilities or configured via a dedicated
	* Kconfig option).
	*/
	uint8_t channel_id : 5;

	/** Channel type: single-ended or differential. */
	uint8_t differential : 1;

	#ifdef CONFIG_ADC_CONFIGURABLE_INPUTS
	/**
	* Positive ADC input.
	* This is a driver dependent value that identifies an ADC input to be
	* associated with the channel.
	*/
	uint8_t input_positive;

	/**
	* Negative ADC input (used only for differential channels).
	* This is a driver dependent value that identifies an ADC input to be
	* associated with the channel.
	*/
	uint8_t input_negative;
	#endif /* CONFIG_ADC_CONFIGURABLE_INPUTS */
	};

	/**
	* @brief Convert a raw ADC value to millivolts.
	*
	* This function performs the necessary conversion to transform a raw
	* ADC measurement to a voltage in millivolts.
	*
	* @param ref_mv the reference voltage used for the measurement, in
	* millivolts. This may be from adc_ref_internal() or a known
	* external reference.
	*
	* @param gain the ADC gain configuration used to sample the input
	*
	* @param resolution the number of bits in the absolute value of the
	* sample. For differential sampling this may be one less than the
	* resolution in struct adc_sequence.
	*
	* @param valp pointer to the raw measurement value on input, and the
	* corresponding millivolt value on successful conversion. If
	* conversion fails the stored value is left unchanged.
	*
	* @retval 0 on successful conversion
	* @retval -EINVAL if the gain is not reversible
	*/
	static inline int adc_raw_to_millivolts(int32_t ref_mv,
	enum adc_gain gain,
	uint8_t resolution,
	int32_t *valp)
	{
	int32_t adc_mv = valp ref_mv;
	int ret = adc_gain_invert(gain, &adc_mv);

	if (ret == 0) {
	*valp = (adc_mv >> resolution);
	}

	return ret;
	}

	/* Forward declaration of the adc_sequence structure. */
	struct adc_sequence;

	/**
	* @brief Action to be performed after a sampling is done.
	*/
	enum adc_action {
	/** The sequence should be continued normally. */
	ADC_ACTION_CONTINUE = 0,

	/**
	* The sampling should be repeated. New samples or sample should be
	* read from the ADC and written in the same place as the recent ones.
	*/
	ADC_ACTION_REPEAT,

	/** The sequence should be finished immediately. */
	ADC_ACTION_FINISH,
	};

	/**
	* @brief Type definition of the optional callback function to be called after
	* a requested sampling is done.
	*
	* @param dev Pointer to the device structure for the driver
	* instance.
	* @param sequence Pointer to the sequence structure that triggered
	* the sampling. This parameter points to a copy of
	* the structure that was supplied to the call that
	* started the sampling sequence, thus it cannot be
	* used with the CONTAINER_OF() macro to retrieve
	* some other data associated with the sequence.
	* Instead, the adc_sequence_options::user_data field
	* should be used for such purpose.
	*
	* @param sampling_index Index (0-65535) of the sampling done.
	*
	* @returns Action to be performed by the driver. See @ref adc_action.
	*/
	typedef enum adc_action (adc_sequence_callback)(const struct device dev,
	const struct adc_sequence *sequence,
	uint16_t sampling_index);

	/**
	* @brief Structure defining additional options for an ADC sampling sequence.
	*/
	struct adc_sequence_options {
	/**
	* Interval between consecutive samplings (in microseconds), 0 means
	* sample as fast as possible, without involving any timer.
	* The accuracy of this interval is dependent on the implementation of
	* a given driver. The default routine that handles the intervals uses
	* a kernel timer for this purpose, thus, it has the accuracy of the
	* kernel's system clock. Particular drivers may use some dedicated
	* hardware timers and achieve a better precision.
	*/
	uint32_t interval_us;

	/**
	* Callback function to be called after each sampling is done.
	* Optional - set to NULL if it is not needed.
	*/
	adc_sequence_callback callback;

	/**
	* Pointer to user data. It can be used to associate the sequence
	* with any other data that is needed in the callback function.
	*/
	void *user_data;

	/**
	* Number of extra samplings to perform (the total number of samplings
	* is 1 + extra_samplings).
	*/
	uint16_t extra_samplings;
	};

	/**
	* @brief Structure defining an ADC sampling sequence.
	*/
	struct adc_sequence {
	/**
	* Pointer to a structure defining additional options for the sequence.
	* If NULL, the sequence consists of a single sampling.
	*/
	const struct adc_sequence_options *options;

	/**
	* Bit-mask indicating the channels to be included in each sampling
	* of this sequence.
	* All selected channels must be configured with adc_channel_setup()
	* before they are used in a sequence.
	*/
	uint32_t channels;

	/**
	* Pointer to a buffer where the samples are to be written. Samples
	* from subsequent samplings are written sequentially in the buffer.
	* The number of samples written for each sampling is determined by
	* the number of channels selected in the "channels" field.
	* The buffer must be of an appropriate size, taking into account
	* the number of selected channels and the ADC resolution used,
	* as well as the number of samplings contained in the sequence.
	*/
	void *buffer;

	/**
	* Specifies the actual size of the buffer pointed by the "buffer"
	* field (in bytes). The driver must ensure that samples are not
	* written beyond the limit and it must return an error if the buffer
	* turns out to be not large enough to hold all the requested samples.
	*/
	size_t buffer_size;

	/**
	* ADC resolution.
	* For single-ended channels the sample values are from range:
	* 0 .. 2^resolution - 1,
	* for differential ones:
	* - 2^(resolution-1) .. 2^(resolution-1) - 1.
	*/
	uint8_t resolution;

	/**
	* Oversampling setting.
	* Each sample is averaged from 2^oversampling conversion results.
	* This feature may be unsupported by a given ADC hardware, or in
	* a specific mode (e.g. when sampling multiple channels).
	*/
	uint8_t oversampling;

	/**
	* Perform calibration before the reading is taken if requested.
	*
	* The impact of channel configuration on the calibration
	* process is specific to the underlying hardware. ADC
	* implementations that do not support calibration should
	* ignore this flag.
	*/
	bool calibrate;
	};


	/**
	* @brief Type definition of ADC API function for configuring a channel.
	* See adc_channel_setup() for argument descriptions.
	*/
	typedef int (adc_api_channel_setup)(const struct device dev,
	const struct adc_channel_cfg *channel_cfg);

	/**
	* @brief Type definition of ADC API function for setting a read request.
	* See adc_read() for argument descriptions.
	*/
	typedef int (adc_api_read)(const struct device dev,
	const struct adc_sequence *sequence);

	/**
	* @brief Type definition of ADC API function for setting an asynchronous
	* read request.
	* See adc_read_async() for argument descriptions.
	*/
	typedef int (adc_api_read_async)(const struct device dev,
	const struct adc_sequence *sequence,
	struct k_poll_signal *async);

	/**
	* @brief ADC driver API
	*
	* This is the mandatory API any ADC driver needs to expose.
	*/
	__subsystem struct adc_driver_api {
	adc_api_channel_setup channel_setup;
	adc_api_read read;
	#ifdef CONFIG_ADC_ASYNC
	adc_api_read_async read_async;
	#endif
	uint16_t ref_internal; /* mV */
	};

	/**
	* @brief Configure an ADC channel.
	*
	* It is required to call this function and configure each channel before it is
	* selected for a read request.
	*
	* @param dev Pointer to the device structure for the driver instance.
	* @param channel_cfg Channel configuration.
	*
	* @retval 0 On success.
	* @retval -EINVAL If a parameter with an invalid value has been provided.
	*/
	__syscall int adc_channel_setup(const struct device *dev,
	const struct adc_channel_cfg *channel_cfg);

	static inline int z_impl_adc_channel_setup(const struct device *dev,
	const struct adc_channel_cfg *channel_cfg)
	{
	const struct adc_driver_api *api =
	(const struct adc_driver_api *)dev->api;

	return api->channel_setup(dev, channel_cfg);
	}

	/**
	* @brief Set a read request.
	*
	* @param dev Pointer to the device structure for the driver instance.
	* @param sequence Structure specifying requested sequence of samplings.
	*
	* If invoked from user mode, any sequence struct options for callback must
	* be NULL.
	*
	* @retval 0 On success.
	* @retval -EINVAL If a parameter with an invalid value has been provided.
	* @retval -ENOMEM If the provided buffer is to small to hold the results
	* of all requested samplings.
	* @retval -ENOTSUP If the requested mode of operation is not supported.
	* @retval -EBUSY If another sampling was triggered while the previous one
	* was still in progress. This may occur only when samplings
	* are done with intervals, and it indicates that the selected
	* interval was too small. All requested samples are written
	* in the buffer, but at least some of them were taken with
	* an extra delay compared to what was scheduled.
	*/
	__syscall int adc_read(const struct device *dev,
	const struct adc_sequence *sequence);

	static inline int z_impl_adc_read(const struct device *dev,
	const struct adc_sequence *sequence)
	{
	const struct adc_driver_api *api =
	(const struct adc_driver_api *)dev->api;

	return api->read(dev, sequence);
	}

	/**
	* @brief Set an asynchronous read request.
	*
	* @note This function is available only if @kconfig{CONFIG_ADC_ASYNC}
	* is selected.
	*
	* If invoked from user mode, any sequence struct options for callback must
	* be NULL.
	*
	* @param dev Pointer to the device structure for the driver instance.
	* @param sequence Structure specifying requested sequence of samplings.
	* @param async Pointer to a valid and ready to be signaled struct
	* k_poll_signal. (Note: if NULL this function will not notify
	* the end of the transaction, and whether it went successfully
	* or not).
	*
	* @returns 0 on success, negative error code otherwise.
	* See adc_read() for a list of possible error codes.
	*
	*/
	__syscall int adc_read_async(const struct device *dev,
	const struct adc_sequence *sequence,
	struct k_poll_signal *async);


	#ifdef CONFIG_ADC_ASYNC
	static inline int z_impl_adc_read_async(const struct device *dev,
	const struct adc_sequence *sequence,
	struct k_poll_signal *async)
	{
	const struct adc_driver_api *api =
	(const struct adc_driver_api *)dev->api;

	return api->read_async(dev, sequence, async);
	}
	#endif /* CONFIG_ADC_ASYNC */

	/**
	* @brief Get the internal reference voltage.
	*
	* Returns the voltage corresponding to @ref ADC_REF_INTERNAL,
	* measured in millivolts.
	*
	* @return a positive value is the reference voltage value. Returns
	* zero if reference voltage information is not available.
	*/
	static inline uint16_t adc_ref_internal(const struct device *dev)
	{
	const struct adc_driver_api *api =
	(const struct adc_driver_api *)dev->api;

	return api->ref_internal;
	}

	/**
	* @}
	*/

	#ifdef __cplusplus
	}
	#endif

	#include <syscalls/adc.h>

	#endif /* ZEPHYR_INCLUDE_DRIVERS_ADC_H_ */