/* * libiio - Library for interfacing industrial I/O (IIO) devices * * Copyright (C) 2014 Analog Devices, Inc. * Author: Paul Cercueil * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * */ /** @file iio.h * @brief Public interface */ #ifndef __IIO_H__ #define __IIO_H__ #ifdef __cplusplus extern "C" { #endif #include #include #include #include #if (defined(_WIN32) || defined(__MBED__)) #ifndef _SSIZE_T_DEFINED typedef ptrdiff_t ssize_t; #define _SSIZE_T_DEFINED #endif #else #include #endif #if defined(_MSC_VER) && (_MSC_VER < 1800) && !defined(__BOOL_DEFINED) #undef bool #undef false #undef true #define bool char #define false 0 #define true 1 #else #include #endif #if defined(__GNUC__) && !defined(MATLAB_MEX_FILE) && !defined(MATLAB_LOADLIBRARY) #ifndef __cnst #define __cnst __attribute__((const)) #endif #ifndef __pure #define __pure __attribute__((pure)) #endif #define __notused __attribute__((unused)) #else #define __cnst #define __pure #define __notused #endif #ifdef _WIN32 # ifdef LIBIIO_EXPORTS # define __api __declspec(dllexport) # else # define __api __declspec(dllimport) # endif #elif __GNUC__ >= 4 && !defined(MATLAB_MEX_FILE) && !defined(MATLAB_LOADLIBRARY) # define __api __attribute__((visibility ("default"))) #else # define __api #endif struct iio_context; struct iio_device; struct iio_channel; struct iio_buffer; struct iio_context_info; struct iio_scan_context; /** * @enum iio_chan_type * @brief IIO channel type * * A IIO channel has a type specifying the type of data associated with the * channel. */ enum iio_chan_type { IIO_VOLTAGE, IIO_CURRENT, IIO_POWER, IIO_ACCEL, IIO_ANGL_VEL, IIO_MAGN, IIO_LIGHT, IIO_INTENSITY, IIO_PROXIMITY, IIO_TEMP, IIO_INCLI, IIO_ROT, IIO_ANGL, IIO_TIMESTAMP, IIO_CAPACITANCE, IIO_ALTVOLTAGE, IIO_CCT, IIO_PRESSURE, IIO_HUMIDITYRELATIVE, IIO_ACTIVITY, IIO_STEPS, IIO_ENERGY, IIO_DISTANCE, IIO_VELOCITY, IIO_CONCENTRATION, IIO_RESISTANCE, IIO_PH, IIO_UVINDEX, IIO_ELECTRICALCONDUCTIVITY, IIO_COUNT, IIO_INDEX, IIO_GRAVITY, IIO_CHAN_TYPE_UNKNOWN = INT_MAX }; /** * @enum iio_modifier * @brief IIO channel modifier * * In a addition to a type a IIO channel can optionally have a channel modifier * further specifying the data type of of the channel. */ enum iio_modifier { IIO_NO_MOD, IIO_MOD_X, IIO_MOD_Y, IIO_MOD_Z, IIO_MOD_X_AND_Y, IIO_MOD_X_AND_Z, IIO_MOD_Y_AND_Z, IIO_MOD_X_AND_Y_AND_Z, IIO_MOD_X_OR_Y, IIO_MOD_X_OR_Z, IIO_MOD_Y_OR_Z, IIO_MOD_X_OR_Y_OR_Z, IIO_MOD_LIGHT_BOTH, IIO_MOD_LIGHT_IR, IIO_MOD_ROOT_SUM_SQUARED_X_Y, IIO_MOD_SUM_SQUARED_X_Y_Z, IIO_MOD_LIGHT_CLEAR, IIO_MOD_LIGHT_RED, IIO_MOD_LIGHT_GREEN, IIO_MOD_LIGHT_BLUE, IIO_MOD_QUATERNION, IIO_MOD_TEMP_AMBIENT, IIO_MOD_TEMP_OBJECT, IIO_MOD_NORTH_MAGN, IIO_MOD_NORTH_TRUE, IIO_MOD_NORTH_MAGN_TILT_COMP, IIO_MOD_NORTH_TRUE_TILT_COMP, IIO_MOD_RUNNING, IIO_MOD_JOGGING, IIO_MOD_WALKING, IIO_MOD_STILL, IIO_MOD_ROOT_SUM_SQUARED_X_Y_Z, IIO_MOD_I, IIO_MOD_Q, IIO_MOD_CO2, IIO_MOD_VOC, IIO_MOD_LIGHT_UV, }; /* ---------------------------------------------------------------------------*/ /* ------------------------- Scan functions ----------------------------------*/ /** @defgroup Scan Functions for scanning available contexts * @{ * @struct iio_scan_context * @brief The scanning context * * @struct iio_context_info * @brief The information related to a discovered context */ /** @brief Create a scan context * @param backend A NULL-terminated string containing the backend to use for * scanning. If NULL, all the available backends are used. * @param flags Unused for now. Set to 0. * @return on success, a pointer to a iio_scan_context structure * @return On failure, NULL is returned and errno is set appropriately */ __api struct iio_scan_context * iio_create_scan_context( const char *backend, unsigned int flags); /** @brief Destroy the given scan context * @param ctx A pointer to an iio_scan_context structure * * NOTE: After that function, the iio_scan_context pointer shall be invalid. */ __api void iio_scan_context_destroy(struct iio_scan_context *ctx); /** @brief Enumerate available contexts * @param ctx A pointer to an iio_scan_context structure * @param info A pointer to a 'const struct iio_context_info **' typed variable. * The pointed variable will be initialized on success. * @returns On success, the number of contexts found. * @returns On failure, a negative error number. */ __api ssize_t iio_scan_context_get_info_list(struct iio_scan_context *ctx, struct iio_context_info ***info); /** @brief Free a context info list * @param info A pointer to a 'const struct iio_context_info *' typed variable */ __api void iio_context_info_list_free(struct iio_context_info **info); /** @brief Get a description of a discovered context * @param info A pointer to an iio_context_info structure * @return A pointer to a static NULL-terminated string */ __api __pure const char * iio_context_info_get_description( const struct iio_context_info *info); /** @brief Get the URI of a discovered context * @param info A pointer to an iio_context_info structure * @return A pointer to a static NULL-terminated string */ __api __pure const char * iio_context_info_get_uri( const struct iio_context_info *info); /** @} *//* ------------------------------------------------------------------*/ /* ------------------------- Top-level functions -----------------------------*/ /** @defgroup TopLevel Top-level functions * @{ */ /** @brief Get the version of the libiio library * @param major A pointer to an unsigned integer (NULL accepted) * @param minor A pointer to an unsigned integer (NULL accepted) * @param git_tag A pointer to a 8-characters buffer (NULL accepted) */ __api void iio_library_get_version(unsigned int *major, unsigned int *minor, char git_tag[8]); /** @brief Get a string description of an error code * @param err The error code * @param dst A pointer to the memory area where the NULL-terminated string * corresponding to the error message will be stored * @param len The available length of the memory area, in bytes */ __api void iio_strerror(int err, char *dst, size_t len); /** @brief Check if the specified backend is available * @param backend The name of the backend to query * @return True if the backend is available, false otherwise * * Introduced in version 0.9. */ __api __cnst bool iio_has_backend(const char *backend); /** @brief Get the number of available backends * @return The number of available backends * * Introduced in version 0.9. */ __api __cnst unsigned int iio_get_backends_count(void); /** @brief Retrieve the name of a given backend * @param index The index corresponding to the attribute * @return On success, a pointer to a static NULL-terminated string * @return If the index is invalid, NULL is returned * * Introduced in version 0.9. */ __api __cnst const char * iio_get_backend(unsigned int index); /** @} *//* ------------------------------------------------------------------*/ /* ------------------------- Context functions -------------------------------*/ /** @defgroup Context Context * @{ * @struct iio_context * @brief Contains the representation of an IIO context */ /** @brief Create a context from local or remote IIO devices * @return On success, A pointer to an iio_context structure * @return On failure, NULL is returned and errno is set appropriately * * NOTE: This function will create a network context if the IIOD_REMOTE * environment variable is set to the hostname where the IIOD server runs. If * set to an empty string, the server will be discovered using ZeroConf. * If the environment variable is not set, a local context will be created * instead. */ __api struct iio_context * iio_create_default_context(void); /** @brief Create a context from local IIO devices (Linux only) * @return On success, A pointer to an iio_context structure * @return On failure, NULL is returned and errno is set appropriately */ __api struct iio_context * iio_create_local_context(void); /** @brief Create a context from a XML file * @param xml_file Path to the XML file to open * @return On success, A pointer to an iio_context structure * @return On failure, NULL is returned and errno is set appropriately * * NOTE: The format of the XML must comply to the one returned by * iio_context_get_xml. */ __api struct iio_context * iio_create_xml_context(const char *xml_file); /** @brief Create a context from XML data in memory * @param xml Pointer to the XML data in memory * @param len Length of the XML string in memory (excluding the final \0) * @return On success, A pointer to an iio_context structure * @return On failure, NULL is returned and errno is set appropriately * * NOTE: The format of the XML must comply to the one returned by * iio_context_get_xml */ __api struct iio_context * iio_create_xml_context_mem( const char *xml, size_t len); /** @brief Create a context from the network * @param host Hostname, IPv4 or IPv6 address where the IIO Daemon is running * @return On success, a pointer to an iio_context structure * @return On failure, NULL is returned and errno is set appropriately */ __api struct iio_context * iio_create_network_context(const char *host); /** @brief Create a context from a URI description * @param uri A URI describing the context location * @return On success, a pointer to a iio_context structure * @return On failure, NULL is returned and errno is set appropriately */ __api struct iio_context * iio_create_context_from_uri(const char *uri); /** @brief Duplicate a pre-existing IIO context * @param ctx A pointer to an iio_context structure * @return On success, A pointer to an iio_context structure * @return On failure, NULL is returned and errno is set appropriately */ __api struct iio_context * iio_context_clone(const struct iio_context *ctx); /** @brief Destroy the given context * @param ctx A pointer to an iio_context structure * * NOTE: After that function, the iio_context pointer shall be invalid. */ __api void iio_context_destroy(struct iio_context *ctx); /** @brief Get the version of the backend in use * @param ctx A pointer to an iio_context structure * @param major A pointer to an unsigned integer (NULL accepted) * @param minor A pointer to an unsigned integer (NULL accepted) * @param git_tag A pointer to a 8-characters buffer (NULL accepted) * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_context_get_version(const struct iio_context *ctx, unsigned int *major, unsigned int *minor, char git_tag[8]); /** @brief Obtain a XML representation of the given context * @param ctx A pointer to an iio_context structure * @return A pointer to a static NULL-terminated string */ __api __pure const char * iio_context_get_xml(const struct iio_context *ctx); /** @brief Get the name of the given context * @param ctx A pointer to an iio_context structure * @return A pointer to a static NULL-terminated string * * NOTE:The returned string will be local, * xml or network when the context has been * created with the local, xml and network backends respectively.*/ __api __pure const char * iio_context_get_name(const struct iio_context *ctx); /** @brief Get a description of the given context * @param ctx A pointer to an iio_context structure * @return A pointer to a static NULL-terminated string * * NOTE:The returned string will contain human-readable information about * the current context. */ __api __pure const char * iio_context_get_description( const struct iio_context *ctx); /** @brief Get the number of context-specific attributes * @param ctx A pointer to an iio_context structure * @return The number of context-specific attributes * * Introduced in version 0.9. */ __api __pure unsigned int iio_context_get_attrs_count( const struct iio_context *ctx); /** @brief Retrieve the name and value of a context-specific attribute * @param ctx A pointer to an iio_context structure * @param index The index corresponding to the attribute * @param name A pointer to a const char * pointer (NULL accepted) * @param value A pointer to a const char * pointer (NULL accepted) * @return On success, 0 is returned * @return On error, a negative errno code is returned * * Introduced in version 0.9. */ __api int iio_context_get_attr( const struct iio_context *ctx, unsigned int index, const char **name, const char **value); /** @brief Retrieve the value of a context-specific attribute * @param ctx A pointer to an iio_context structure * @param name The name of the context attribute to read * @return On success, a pointer to a static NULL-terminated string * @return If the name does not correspond to any attribute, NULL is * returned * * Introduced in version 0.9. */ __api const char * iio_context_get_attr_value( const struct iio_context *ctx, const char *name); /** @brief Enumerate the devices found in the given context * @param ctx A pointer to an iio_context structure * @return The number of devices found */ __api __pure unsigned int iio_context_get_devices_count( const struct iio_context *ctx); /** @brief Get the device present at the given index * @param ctx A pointer to an iio_context structure * @param index The index corresponding to the device * @return On success, a pointer to an iio_device structure * @return If the index is invalid, NULL is returned */ __api __pure struct iio_device * iio_context_get_device( const struct iio_context *ctx, unsigned int index); /** @brief Try to find a device structure by its name of ID * @param ctx A pointer to an iio_context structure * @param name A NULL-terminated string corresponding to the name or the ID of * the device to search for * @return On success, a pointer to an iio_device structure * @return If the name or ID does not correspond to any known device, NULL is * returned */ __api __pure struct iio_device * iio_context_find_device( const struct iio_context *ctx, const char *name); /** @brief Set a timeout for I/O operations * @param ctx A pointer to an iio_context structure * @param timeout_ms A positive integer representing the time in milliseconds * after which a timeout occurs. A value of 0 is used to specify that no * timeout should occur. * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_context_set_timeout( struct iio_context *ctx, unsigned int timeout_ms); /** @} *//* ------------------------------------------------------------------*/ /* ------------------------- Device functions --------------------------------*/ /** @defgroup Device Device * @{ * @struct iio_device * @brief Represents a device in the IIO context */ /** @brief Retrieve a pointer to the iio_context structure * @param dev A pointer to an iio_device structure * @return A pointer to an iio_context structure */ __api __pure const struct iio_context * iio_device_get_context( const struct iio_device *dev); /** @brief Retrieve the device ID (e.g. iio:device0) * @param dev A pointer to an iio_device structure * @return A pointer to a static NULL-terminated string */ __api __pure const char * iio_device_get_id(const struct iio_device *dev); /** @brief Retrieve the device name (e.g. xadc) * @param dev A pointer to an iio_device structure * @return A pointer to a static NULL-terminated string * * NOTE: if the device has no name, NULL is returned. */ __api __pure const char * iio_device_get_name(const struct iio_device *dev); /** @brief Enumerate the channels of the given device * @param dev A pointer to an iio_device structure * @return The number of channels found */ __api __pure unsigned int iio_device_get_channels_count( const struct iio_device *dev); /** @brief Enumerate the device-specific attributes of the given device * @param dev A pointer to an iio_device structure * @return The number of device-specific attributes found */ __api __pure unsigned int iio_device_get_attrs_count( const struct iio_device *dev); /** @brief Enumerate the buffer-specific attributes of the given device * @param dev A pointer to an iio_device structure * @return The number of buffer-specific attributes found */ __api __pure unsigned int iio_device_get_buffer_attrs_count( const struct iio_device *dev); /** @brief Get the channel present at the given index * @param dev A pointer to an iio_device structure * @param index The index corresponding to the channel * @return On success, a pointer to an iio_channel structure * @return If the index is invalid, NULL is returned */ __api __pure struct iio_channel * iio_device_get_channel( const struct iio_device *dev, unsigned int index); /** @brief Get the device-specific attribute present at the given index * @param dev A pointer to an iio_device structure * @param index The index corresponding to the attribute * @return On success, a pointer to a static NULL-terminated string * @return If the index is invalid, NULL is returned */ __api __pure const char * iio_device_get_attr( const struct iio_device *dev, unsigned int index); /** @brief Get the buffer-specific attribute present at the given index * @param dev A pointer to an iio_device structure * @param index The index corresponding to the attribute * @return On success, a pointer to a static NULL-terminated string * @return If the index is invalid, NULL is returned */ __api __pure const char * iio_device_get_buffer_attr( const struct iio_device *dev, unsigned int index); /** @brief Try to find a channel structure by its name of ID * @param dev A pointer to an iio_device structure * @param name A NULL-terminated string corresponding to the name or the ID of * the channel to search for * @param output True if the searched channel is output, False otherwise * @return On success, a pointer to an iio_channel structure * @return If the name or ID does not correspond to any known channel of the * given device, NULL is returned */ __api __pure struct iio_channel * iio_device_find_channel( const struct iio_device *dev, const char *name, bool output); /** @brief Try to find a device-specific attribute by its name * @param dev A pointer to an iio_device structure * @param name A NULL-terminated string corresponding to the name of the * attribute * @return On success, a pointer to a static NULL-terminated string * @return If the name does not correspond to any known attribute of the given * device, NULL is returned * * NOTE: This function is useful to detect the presence of an attribute. * It can also be used to retrieve the name of an attribute as a pointer to a * static string from a dynamically allocated string. */ __api __pure const char * iio_device_find_attr( const struct iio_device *dev, const char *name); /** @brief Try to find a buffer-specific attribute by its name * @param dev A pointer to an iio_device structure * @param name A NULL-terminated string corresponding to the name of the * attribute * @return On success, a pointer to a static NULL-terminated string * @return If the name does not correspond to any known attribute of the given * device, NULL is returned * * NOTE: This function is useful to detect the presence of an attribute. * It can also be used to retrieve the name of an attribute as a pointer to a * static string from a dynamically allocated string. */ __api __pure const char * iio_device_find_buffer_attr( const struct iio_device *dev, const char *name); /** @brief Read the content of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param dst A pointer to the memory area where the NULL-terminated string * corresponding to the value read will be stored * @param len The available length of the memory area, in bytes * @return On success, the number of bytes written to the buffer * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to iio_device_attr_read, * it is now possible to read all of the attributes of a device. * * The buffer is filled with one block of data per attribute of the device, * by the order they appear in the iio_device structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, it corresponds to the errno code that were * returned when reading the attribute; if positive, it corresponds to the * length of the data read. In that case, the rest of the block contains * the data. */ __api ssize_t iio_device_attr_read(const struct iio_device *dev, const char *attr, char *dst, size_t len); /** @brief Read the content of all device-specific attributes * @param dev A pointer to an iio_device structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the device-specific attributes are read in one single * command. */ __api int iio_device_attr_read_all(struct iio_device *dev, int (*cb)(struct iio_device *dev, const char *attr, const char *value, size_t len, void *d), void *data); /** @brief Read the content of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a bool variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_attr_read_bool(const struct iio_device *dev, const char *attr, bool *val); /** @brief Read the content of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a long long variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_attr_read_longlong(const struct iio_device *dev, const char *attr, long long *val); /** @brief Read the content of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a double variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_attr_read_double(const struct iio_device *dev, const char *attr, double *val); /** @brief Set the value of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param src A NULL-terminated string to set the attribute to * @return On success, the number of bytes written * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to iio_device_attr_write, * it is now possible to write all of the attributes of a device. * * The buffer must contain one block of data per attribute of the device, * by the order they appear in the iio_device structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, the attribute is not written; if positive, * it corresponds to the length of the data to write. In that case, the rest * of the block must contain the data. */ __api ssize_t iio_device_attr_write(const struct iio_device *dev, const char *attr, const char *src); /** @brief Set the value of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param src A pointer to the data to be written * @param len The number of bytes that should be written * @return On success, the number of bytes written * @return On error, a negative errno code is returned */ __api ssize_t iio_device_attr_write_raw(const struct iio_device *dev, const char *attr, const void *src, size_t len); /** @brief Set the values of all device-specific attributes * @param dev A pointer to an iio_device structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the device-specific attributes are written in one single * command. */ __api int iio_device_attr_write_all(struct iio_device *dev, ssize_t (*cb)(struct iio_device *dev, const char *attr, void *buf, size_t len, void *d), void *data); /** @brief Set the value of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A bool value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_attr_write_bool(const struct iio_device *dev, const char *attr, bool val); /** @brief Set the value of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A long long value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_attr_write_longlong(const struct iio_device *dev, const char *attr, long long val); /** @brief Set the value of the given device-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A double value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_attr_write_double(const struct iio_device *dev, const char *attr, double val); /** @brief Read the content of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param dst A pointer to the memory area where the NULL-terminated string * corresponding to the value read will be stored * @param len The available length of the memory area, in bytes * @return On success, the number of bytes written to the buffer * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to * iio_device_buffer_attr_read, it is now possible to read all of the attributes * of a device. * * The buffer is filled with one block of data per attribute of the buffer, * by the order they appear in the iio_device structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, it corresponds to the errno code that were * returned when reading the attribute; if positive, it corresponds to the * length of the data read. In that case, the rest of the block contains * the data. */ __api ssize_t iio_device_buffer_attr_read(const struct iio_device *dev, const char *attr, char *dst, size_t len); /** @brief Read the content of all buffer-specific attributes * @param dev A pointer to an iio_device structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the buffer-specific attributes are read in one single * command. */ __api int iio_device_buffer_attr_read_all(struct iio_device *dev, int (*cb)(struct iio_device *dev, const char *attr, const char *value, size_t len, void *d), void *data); /** @brief Read the content of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a bool variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_buffer_attr_read_bool(const struct iio_device *dev, const char *attr, bool *val); /** @brief Read the content of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a long long variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_buffer_attr_read_longlong(const struct iio_device *dev, const char *attr, long long *val); /** @brief Read the content of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a double variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_buffer_attr_read_double(const struct iio_device *dev, const char *attr, double *val); /** @brief Set the value of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param src A NULL-terminated string to set the attribute to * @return On success, the number of bytes written * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to * iio_device_buffer_attr_write, it is now possible to write all of the * attributes of a device. * * The buffer must contain one block of data per attribute of the buffer, * by the order they appear in the iio_device structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, the attribute is not written; if positive, * it corresponds to the length of the data to write. In that case, the rest * of the block must contain the data. */ __api ssize_t iio_device_buffer_attr_write(const struct iio_device *dev, const char *attr, const char *src); /** @brief Set the value of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param src A pointer to the data to be written * @param len The number of bytes that should be written * @return On success, the number of bytes written * @return On error, a negative errno code is returned */ __api ssize_t iio_device_buffer_attr_write_raw(const struct iio_device *dev, const char *attr, const void *src, size_t len); /** @brief Set the values of all buffer-specific attributes * @param dev A pointer to an iio_device structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the buffer-specific attributes are written in one single * command. */ __api int iio_device_buffer_attr_write_all(struct iio_device *dev, ssize_t (*cb)(struct iio_device *dev, const char *attr, void *buf, size_t len, void *d), void *data); /** @brief Set the value of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A bool value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_buffer_attr_write_bool(const struct iio_device *dev, const char *attr, bool val); /** @brief Set the value of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A long long value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_buffer_attr_write_longlong(const struct iio_device *dev, const char *attr, long long val); /** @brief Set the value of the given buffer-specific attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A double value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_buffer_attr_write_double(const struct iio_device *dev, const char *attr, double val); /** @brief Associate a pointer to an iio_device structure * @param dev A pointer to an iio_device structure * @param data The pointer to be associated */ __api void iio_device_set_data(struct iio_device *dev, void *data); /** @brief Retrieve a previously associated pointer of an iio_device structure * @param dev A pointer to an iio_device structure * @return The pointer previously associated if present, or NULL */ __api void * iio_device_get_data(const struct iio_device *dev); /** @brief Retrieve the trigger of a given device * @param dev A pointer to an iio_device structure * @param trigger a pointer to a pointer of an iio_device structure. The pointed * pointer will be set to the address of the iio_device structure corresponding * to the associated trigger device. * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_get_trigger(const struct iio_device *dev, const struct iio_device **trigger); /** @brief Associate a trigger to a given device * @param dev A pointer to an iio_device structure * @param trigger a pointer to the iio_device structure corresponding to the * trigger that should be associated. * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_set_trigger(const struct iio_device *dev, const struct iio_device *trigger); /** @brief Return True if the given device is a trigger * @param dev A pointer to an iio_device structure * @return True if the device is a trigger, False otherwise */ __api __pure bool iio_device_is_trigger(const struct iio_device *dev); /** * @brief Configure the number of kernel buffers for a device * * This function allows to change the number of buffers on kernel side. * @param dev A pointer to an iio_device structure * @param nb_buffers The number of buffers * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_set_kernel_buffers_count(const struct iio_device *dev, unsigned int nb_buffers); /** @} *//* ------------------------------------------------------------------*/ /* ------------------------- Channel functions -------------------------------*/ /** @defgroup Channel Channel * @{ * @struct iio_channel * @brief Represents an input or output channel of a device */ /** @brief Retrieve a pointer to the iio_device structure * @param chn A pointer to an iio_channel structure * @return A pointer to an iio_device structure */ __api __pure const struct iio_device * iio_channel_get_device( const struct iio_channel *chn); /** @brief Retrieve the channel ID (e.g. voltage0) * @param chn A pointer to an iio_channel structure * @return A pointer to a static NULL-terminated string */ __api __pure const char * iio_channel_get_id(const struct iio_channel *chn); /** @brief Retrieve the channel name (e.g. vccint) * @param chn A pointer to an iio_channel structure * @return A pointer to a static NULL-terminated string * * NOTE: if the channel has no name, NULL is returned. */ __api __pure const char * iio_channel_get_name(const struct iio_channel *chn); /** @brief Return True if the given channel is an output channel * @param chn A pointer to an iio_channel structure * @return True if the channel is an output channel, False otherwise */ __api __pure bool iio_channel_is_output(const struct iio_channel *chn); /** @brief Return True if the given channel is a scan element * @param chn A pointer to an iio_channel structure * @return True if the channel is a scan element, False otherwise * * NOTE: a channel that is a scan element is a channel that can * generate samples (for an input channel) or receive samples (for an output * channel) after being enabled. */ __api __pure bool iio_channel_is_scan_element(const struct iio_channel *chn); /** @brief Enumerate the channel-specific attributes of the given channel * @param chn A pointer to an iio_channel structure * @return The number of channel-specific attributes found */ __api __pure unsigned int iio_channel_get_attrs_count( const struct iio_channel *chn); /** @brief Get the channel-specific attribute present at the given index * @param chn A pointer to an iio_channel structure * @param index The index corresponding to the attribute * @return On success, a pointer to a static NULL-terminated string * @return If the index is invalid, NULL is returned */ __api __pure const char * iio_channel_get_attr( const struct iio_channel *chn, unsigned int index); /** @brief Try to find a channel-specific attribute by its name * @param chn A pointer to an iio_channel structure * @param name A NULL-terminated string corresponding to the name of the * attribute * @return On success, a pointer to a static NULL-terminated string * @return If the name does not correspond to any known attribute of the given * channel, NULL is returned * * NOTE: This function is useful to detect the presence of an attribute. * It can also be used to retrieve the name of an attribute as a pointer to a * static string from a dynamically allocated string. */ __api __pure const char * iio_channel_find_attr( const struct iio_channel *chn, const char *name); /** @brief Retrieve the filename of an attribute * @param chn A pointer to an iio_channel structure * @param attr a NULL-terminated string corresponding to the name of the * attribute * @return On success, a pointer to a static NULL-terminated string * @return If the attribute name is unknown, NULL is returned */ __api __pure const char * iio_channel_attr_get_filename( const struct iio_channel *chn, const char *attr); /** @brief Read the content of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param dst A pointer to the memory area where the NULL-terminated string * corresponding to the value read will be stored * @param len The available length of the memory area, in bytes * @return On success, the number of bytes written to the buffer * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to iio_channel_attr_read, * it is now possible to read all of the attributes of a channel. * * The buffer is filled with one block of data per attribute of the channel, * by the order they appear in the iio_channel structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, it corresponds to the errno code that were * returned when reading the attribute; if positive, it corresponds to the * length of the data read. In that case, the rest of the block contains * the data. */ __api ssize_t iio_channel_attr_read(const struct iio_channel *chn, const char *attr, char *dst, size_t len); /** @brief Read the content of all channel-specific attributes * @param chn A pointer to an iio_channel structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the channel-specific attributes are read in one single * command. */ __api int iio_channel_attr_read_all(struct iio_channel *chn, int (*cb)(struct iio_channel *chn, const char *attr, const char *val, size_t len, void *d), void *data); /** @brief Read the content of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a bool variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_channel_attr_read_bool(const struct iio_channel *chn, const char *attr, bool *val); /** @brief Read the content of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a long long variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_channel_attr_read_longlong(const struct iio_channel *chn, const char *attr, long long *val); /** @brief Read the content of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A pointer to a double variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_channel_attr_read_double(const struct iio_channel *chn, const char *attr, double *val); /** @brief Set the value of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param src A NULL-terminated string to set the attribute to * @return On success, the number of bytes written * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to iio_channel_attr_write, * it is now possible to write all of the attributes of a channel. * * The buffer must contain one block of data per attribute of the channel, * by the order they appear in the iio_channel structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, the attribute is not written; if positive, * it corresponds to the length of the data to write. In that case, the rest * of the block must contain the data. */ __api ssize_t iio_channel_attr_write(const struct iio_channel *chn, const char *attr, const char *src); /** @brief Set the value of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param src A pointer to the data to be written * @param len The number of bytes that should be written * @return On success, the number of bytes written * @return On error, a negative errno code is returned */ __api ssize_t iio_channel_attr_write_raw(const struct iio_channel *chn, const char *attr, const void *src, size_t len); /** @brief Set the values of all channel-specific attributes * @param chn A pointer to an iio_channel structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the channel-specific attributes are written in one single * command. */ __api int iio_channel_attr_write_all(struct iio_channel *chn, ssize_t (*cb)(struct iio_channel *chn, const char *attr, void *buf, size_t len, void *d), void *data); /** @brief Set the value of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A bool value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_channel_attr_write_bool(const struct iio_channel *chn, const char *attr, bool val); /** @brief Set the value of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A long long value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_channel_attr_write_longlong(const struct iio_channel *chn, const char *attr, long long val); /** @brief Set the value of the given channel-specific attribute * @param chn A pointer to an iio_channel structure * @param attr A NULL-terminated string corresponding to the name of the * attribute * @param val A double value to set the attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_channel_attr_write_double(const struct iio_channel *chn, const char *attr, double val); /** @brief Enable the given channel * @param chn A pointer to an iio_channel structure * * NOTE:Before creating an iio_buffer structure with * iio_device_create_buffer, it is required to enable at least one channel of * the device to read from. */ __api void iio_channel_enable(struct iio_channel *chn); /** @brief Disable the given channel * @param chn A pointer to an iio_channel structure */ __api void iio_channel_disable(struct iio_channel *chn); /** @brief Returns True if the channel is enabled * @param chn A pointer to an iio_channel structure * @return True if the channel is enabled, False otherwise */ __api bool iio_channel_is_enabled(const struct iio_channel *chn); /** Demultiplex the samples of a given channel * @param chn A pointer to an iio_channel structure * @param buffer A pointer to an iio_buffer structure * @param dst A pointer to the memory area where the demultiplexed data will be * stored * @param len The available length of the memory area, in bytes * @return The size of the demultiplexed data, in bytes */ __api size_t iio_channel_read_raw(const struct iio_channel *chn, struct iio_buffer *buffer, void *dst, size_t len); /** Demultiplex and convert the samples of a given channel * @param chn A pointer to an iio_channel structure * @param buffer A pointer to an iio_buffer structure * @param dst A pointer to the memory area where the converted data will be * stored * @param len The available length of the memory area, in bytes * @return The size of the converted data, in bytes */ __api size_t iio_channel_read(const struct iio_channel *chn, struct iio_buffer *buffer, void *dst, size_t len); /** Multiplex the samples of a given channel * @param chn A pointer to an iio_channel structure * @param buffer A pointer to an iio_buffer structure * @param src A pointer to the memory area where the sequential data will * be read from * @param len The length of the memory area, in bytes * @return The number of bytes actually multiplexed */ __api size_t iio_channel_write_raw(const struct iio_channel *chn, struct iio_buffer *buffer, const void *src, size_t len); /** Convert and multiplex the samples of a given channel * @param chn A pointer to an iio_channel structure * @param buffer A pointer to an iio_buffer structure * @param src A pointer to the memory area where the sequential data will * be read from * @param len The length of the memory area, in bytes * @return The number of bytes actually converted and multiplexed */ __api size_t iio_channel_write(const struct iio_channel *chn, struct iio_buffer *buffer, const void *src, size_t len); /** @brief Associate a pointer to an iio_channel structure * @param chn A pointer to an iio_channel structure * @param data The pointer to be associated */ __api void iio_channel_set_data(struct iio_channel *chn, void *data); /** @brief Retrieve a previously associated pointer of an iio_channel structure * @param chn A pointer to an iio_channel structure * @return The pointer previously associated if present, or NULL */ __api void * iio_channel_get_data(const struct iio_channel *chn); /** @brief Get the type of the given channel * @param chn A pointer to an iio_channel structure * @return The type of the channel */ __api __pure enum iio_chan_type iio_channel_get_type( const struct iio_channel *chn); /** @brief Get the modifier type of the given channel * @param chn A pointer to an iio_channel structure * @return The modifier type of the channel */ __api __pure enum iio_modifier iio_channel_get_modifier( const struct iio_channel *chn); /** @} *//* ------------------------------------------------------------------*/ /* ------------------------- Buffer functions --------------------------------*/ /** @defgroup Buffer Buffer * @{ * @struct iio_buffer * @brief An input or output buffer, used to read or write samples */ /** @brief Retrieve a pointer to the iio_device structure * @param buf A pointer to an iio_buffer structure * @return A pointer to an iio_device structure */ __api __pure const struct iio_device * iio_buffer_get_device( const struct iio_buffer *buf); /** @brief Create an input or output buffer associated to the given device * @param dev A pointer to an iio_device structure * @param samples_count The number of samples that the buffer should contain * @param cyclic If True, enable cyclic mode * @return On success, a pointer to an iio_buffer structure * @return On error, NULL is returned, and errno is set to the error code * * NOTE: Channels that have to be written to / read from must be enabled * before creating the buffer. */ __api struct iio_buffer * iio_device_create_buffer(const struct iio_device *dev, size_t samples_count, bool cyclic); /** @brief Destroy the given buffer * @param buf A pointer to an iio_buffer structure * * NOTE: After that function, the iio_buffer pointer shall be invalid. */ __api void iio_buffer_destroy(struct iio_buffer *buf); /** @brief Get a pollable file descriptor * * Can be used to know when iio_buffer_refill() or iio_buffer_push() can be * called * @param buf A pointer to an iio_buffer structure * @return On success, valid file descriptor * @return On error, a negative errno code is returned */ __api int iio_buffer_get_poll_fd(struct iio_buffer *buf); /** @brief Make iio_buffer_refill() and iio_buffer_push() blocking or not * * After this function has been called with blocking == false, * iio_buffer_refill() and iio_buffer_push() will return -EAGAIN if no data is * ready. * A device is blocking by default. * @param buf A pointer to an iio_buffer structure * @param blocking true if the buffer API should be blocking, else false * @return On success, 0 * @return On error, a negative errno code is returned */ __api int iio_buffer_set_blocking_mode(struct iio_buffer *buf, bool blocking); /** @brief Fetch more samples from the hardware * @param buf A pointer to an iio_buffer structure * @return On success, the number of bytes read is returned * @return On error, a negative errno code is returned * * NOTE: Only valid for input buffers */ __api ssize_t iio_buffer_refill(struct iio_buffer *buf); /** @brief Send the samples to the hardware * @param buf A pointer to an iio_buffer structure * @return On success, the number of bytes written is returned * @return On error, a negative errno code is returned * * NOTE: Only valid for output buffers */ __api ssize_t iio_buffer_push(struct iio_buffer *buf); /** @brief Send a given number of samples to the hardware * @param buf A pointer to an iio_buffer structure * @param samples_count The number of samples to submit * @return On success, the number of bytes written is returned * @return On error, a negative errno code is returned * * NOTE: Only valid for output buffers */ __api ssize_t iio_buffer_push_partial(struct iio_buffer *buf, size_t samples_count); /** @brief Cancel all buffer operations * @param buf The buffer for which operations should be canceled * * This function cancels all outstanding buffer operations previously scheduled. * This means any pending iio_buffer_push() or iio_buffer_refill() operation * will abort and return immediately, any further invocations of these functions * on the same buffer will return immediately with an error. * * Usually iio_buffer_push() and iio_buffer_refill() will block until either all * data has been transferred or a timeout occurs. This can depending on the * configuration take a significant amount of time. iio_buffer_cancel() is * useful to bypass these conditions if the buffer operation is supposed to be * stopped in response to an external event (e.g. user input). * * To be able to capture additional data after calling this function the buffer * should be destroyed and then re-created. * * This function can be called multiple times for the same buffer, but all but * the first invocation will be without additional effect. * * This function is thread-safe, but not signal-safe, i.e. it must not be called * from a signal handler. */ __api void iio_buffer_cancel(struct iio_buffer *buf); /** @brief Get the start address of the buffer * @param buf A pointer to an iio_buffer structure * @return A pointer corresponding to the start address of the buffer */ __api void * iio_buffer_start(const struct iio_buffer *buf); /** @brief Find the first sample of a channel in a buffer * @param buf A pointer to an iio_buffer structure * @param chn A pointer to an iio_channel structure * @return A pointer to the first sample found, or to the end of the buffer if * no sample for the given channel is present in the buffer * * NOTE: This function, coupled with iio_buffer_step and iio_buffer_end, * can be used to iterate on all the samples of a given channel present in the * buffer, doing the following: * * @verbatim for (void *ptr = iio_buffer_first(buffer, chn); ptr < iio_buffer_end(buffer); ptr += iio_buffer_step(buffer)) { .... } @endverbatim */ __api void * iio_buffer_first(const struct iio_buffer *buf, const struct iio_channel *chn); /** @brief Get the step size between two samples of one channel * @param buf A pointer to an iio_buffer structure * @return the difference between the addresses of two consecutive samples of * one same channel */ __api ptrdiff_t iio_buffer_step(const struct iio_buffer *buf); /** @brief Get the address that follows the last sample in a buffer * @param buf A pointer to an iio_buffer structure * @return A pointer corresponding to the address that follows the last sample * present in the buffer */ __api void * iio_buffer_end(const struct iio_buffer *buf); /** @brief Call the supplied callback for each sample found in a buffer * @param buf A pointer to an iio_buffer structure * @param callback A pointer to a function to call for each sample found * @param data A user-specified pointer that will be passed to the callback * @return number of bytes processed. * * NOTE: The callback receives four arguments: * * A pointer to the iio_channel structure corresponding to the sample, * * A pointer to the sample itself, * * The length of the sample in bytes, * * The user-specified pointer passed to iio_buffer_foreach_sample. */ __api ssize_t iio_buffer_foreach_sample(struct iio_buffer *buf, ssize_t (*callback)(const struct iio_channel *chn, void *src, size_t bytes, void *d), void *data); /** @brief Associate a pointer to an iio_buffer structure * @param buf A pointer to an iio_buffer structure * @param data The pointer to be associated */ __api void iio_buffer_set_data(struct iio_buffer *buf, void *data); /** @brief Retrieve a previously associated pointer of an iio_buffer structure * @param buf A pointer to an iio_buffer structure * @return The pointer previously associated if present, or NULL */ __api void * iio_buffer_get_data(const struct iio_buffer *buf); /** @} *//* ------------------------------------------------------------------*/ /* ------------------------- Low-level functions -----------------------------*/ /** @defgroup Debug Debug and low-level functions * @{ * @struct iio_data_format * @brief Contains the format of a data sample. * * The different fields inform about the correct way to convert one sample from * its raw format (as read from / generated by the hardware) to its real-world * value. */ struct iio_data_format { /** @brief Total length of the sample, in bits */ unsigned int length; /** @brief Length of valuable data in the sample, in bits */ unsigned int bits; /** @brief Right-shift to apply when converting sample */ unsigned int shift; /** @brief Contains True if the sample is signed */ bool is_signed; /** @brief Contains True if the sample is fully defined, sign extended, etc. */ bool is_fully_defined; /** @brief Contains True if the sample is in big-endian format */ bool is_be; /** @brief Contains True if the sample should be scaled when converted */ bool with_scale; /** @brief Contains the scale to apply if with_scale is set */ double scale; /** @brief Number of times length repeats (added in v0.8) */ unsigned int repeat; }; /** @brief Get the current sample size * @param dev A pointer to an iio_device structure * @return On success, the sample size in bytes * @return On error, a negative errno code is returned * * NOTE: The sample size is not constant and will change when channels * get enabled or disabled. */ __api ssize_t iio_device_get_sample_size(const struct iio_device *dev); /** @brief Get the index of the given channel * @param chn A pointer to an iio_channel structure * @return On success, the index of the specified channel * @return On error, a negative errno code is returned */ __api __pure long iio_channel_get_index(const struct iio_channel *chn); /** @brief Get a pointer to a channel's data format structure * @param chn A pointer to an iio_channel structure * @return A pointer to the channel's iio_data_format structure */ __api __cnst const struct iio_data_format * iio_channel_get_data_format( const struct iio_channel *chn); /** @brief Convert the sample from hardware format to host format * @param chn A pointer to an iio_channel structure * @param dst A pointer to the destination buffer where the converted sample * should be written * @param src A pointer to the source buffer containing the sample */ __api void iio_channel_convert(const struct iio_channel *chn, void *dst, const void *src); /** @brief Convert the sample from host format to hardware format * @param chn A pointer to an iio_channel structure * @param dst A pointer to the destination buffer where the converted sample * should be written * @param src A pointer to the source buffer containing the sample */ __api void iio_channel_convert_inverse(const struct iio_channel *chn, void *dst, const void *src); /** @brief Enumerate the debug attributes of the given device * @param dev A pointer to an iio_device structure * @return The number of debug attributes found */ __api __pure unsigned int iio_device_get_debug_attrs_count( const struct iio_device *dev); /** @brief Get the debug attribute present at the given index * @param dev A pointer to an iio_device structure * @param index The index corresponding to the debug attribute * @return On success, a pointer to a static NULL-terminated string * @return If the index is invalid, NULL is returned */ __api __pure const char * iio_device_get_debug_attr( const struct iio_device *dev, unsigned int index); /** @brief Try to find a debug attribute by its name * @param dev A pointer to an iio_device structure * @param name A NULL-terminated string corresponding to the name of the * debug attribute * @return On success, a pointer to a static NULL-terminated string * @return If the name does not correspond to any known debug attribute of the * given device, NULL is returned * * NOTE: This function is useful to detect the presence of a debug * attribute. * It can also be used to retrieve the name of a debug attribute as a pointer * to a static string from a dynamically allocated string. */ __api __pure const char * iio_device_find_debug_attr( const struct iio_device *dev, const char *name); /** @brief Read the content of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param dst A pointer to the memory area where the NULL-terminated string * corresponding to the value read will be stored * @param len The available length of the memory area, in bytes * @return On success, the number of bytes written to the buffer * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to * iio_device_debug_attr_read, it is now possible to read all of the debug * attributes of a device. * * The buffer is filled with one block of data per debug attribute of the * device, by the order they appear in the iio_device structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, it corresponds to the errno code that were * returned when reading the debug attribute; if positive, it corresponds * to the length of the data read. In that case, the rest of the block contains * the data. */ __api ssize_t iio_device_debug_attr_read(const struct iio_device *dev, const char *attr, char *dst, size_t len); /** @brief Read the content of all debug attributes * @param dev A pointer to an iio_device structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the debug attributes are read in one single command. */ __api int iio_device_debug_attr_read_all(struct iio_device *dev, int (*cb)(struct iio_device *dev, const char *attr, const char *value, size_t len, void *d), void *data); /** @brief Set the value of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param src A NULL-terminated string to set the debug attribute to * @return On success, the number of bytes written * @return On error, a negative errno code is returned * * NOTE:By passing NULL as the "attr" argument to * iio_device_debug_attr_write, it is now possible to write all of the * debug attributes of a device. * * The buffer must contain one block of data per debug attribute of the device, * by the order they appear in the iio_device structure. * * The first four bytes of one block correspond to a 32-bit signed value in * network order. If negative, the debug attribute is not written; if positive, * it corresponds to the length of the data to write. In that case, the rest * of the block must contain the data. */ __api ssize_t iio_device_debug_attr_write(const struct iio_device *dev, const char *attr, const char *src); /** @brief Set the value of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param src A pointer to the data to be written * @param len The number of bytes that should be written * @return On success, the number of bytes written * @return On error, a negative errno code is returned */ __api ssize_t iio_device_debug_attr_write_raw(const struct iio_device *dev, const char *attr, const void *src, size_t len); /** @brief Set the values of all debug attributes * @param dev A pointer to an iio_device structure * @param cb A pointer to a callback function * @param data A pointer that will be passed to the callback function * @return On success, 0 is returned * @return On error, a negative errno code is returned * * NOTE: This function is especially useful when used with the network * backend, as all the debug attributes are written in one single command. */ __api int iio_device_debug_attr_write_all(struct iio_device *dev, ssize_t (*cb)(struct iio_device *dev, const char *attr, void *buf, size_t len, void *d), void *data); /** @brief Read the content of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param val A pointer to a bool variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_debug_attr_read_bool(const struct iio_device *dev, const char *attr, bool *val); /** @brief Read the content of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param val A pointer to a long long variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_debug_attr_read_longlong(const struct iio_device *dev, const char *attr, long long *val); /** @brief Read the content of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param val A pointer to a double variable where the value should be stored * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_debug_attr_read_double(const struct iio_device *dev, const char *attr, double *val); /** @brief Set the value of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param val A bool value to set the debug attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_debug_attr_write_bool(const struct iio_device *dev, const char *attr, bool val); /** @brief Set the value of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param val A long long value to set the debug attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_debug_attr_write_longlong(const struct iio_device *dev, const char *attr, long long val); /** @brief Set the value of the given debug attribute * @param dev A pointer to an iio_device structure * @param attr A NULL-terminated string corresponding to the name of the * debug attribute * @param val A double value to set the debug attribute to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_debug_attr_write_double(const struct iio_device *dev, const char *attr, double val); /** @brief Identify the channel or debug attribute corresponding to a filename * @param dev A pointer to an iio_device structure * @param filename A NULL-terminated string corresponding to the filename * @param chn A pointer to a pointer of an iio_channel structure. The pointed * pointer will be set to the address of the iio_channel structure if the * filename correspond to the attribute of a channel, or NULL otherwise. * @param attr A pointer to a NULL-terminated string. The pointer * pointer will be set to point to the name of the attribute corresponding to * the filename. * @return On success, 0 is returned, and *chn and *attr are modified. * @return On error, a negative errno code is returned. *chn and *attr are not * modified. */ __api int iio_device_identify_filename(const struct iio_device *dev, const char *filename, struct iio_channel **chn, const char **attr); /** @brief Set the value of a hardware register * @param dev A pointer to an iio_device structure * @param address The address of the register * @param value The value to set the register to * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_reg_write(struct iio_device *dev, uint32_t address, uint32_t value); /** @brief Get the value of a hardware register * @param dev A pointer to an iio_device structure * @param address The address of the register * @param value A pointer to the variable where the value will be written * @return On success, 0 is returned * @return On error, a negative errno code is returned */ __api int iio_device_reg_read(struct iio_device *dev, uint32_t address, uint32_t *value); /** @} */ #ifdef __cplusplus } #endif #undef __api #endif /* __IIO_H__ */