path: root/libcoopgamma.h

/* See LICENSE file for copyright and license details. */
#ifndef LIBCOOPGAMMA_H
#define LIBCOOPGAMMA_H

#include <limits.h>
#include <stddef.h>
#include <stdint.h>


#if defined(__clang__)
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wdocumentation"
#endif

#if defined(__GNUC__) && !defined(__clang__)
# define LIBCOOPGAMMA_GCC_ONLY(...) __VA_ARGS__
#else
# define LIBCOOPGAMMA_GCC_ONLY(...) /* ignore */
#endif



/**
 * Unmarshal was successful
 * 
 * This value will always be zero
 */
#define LIBCOOPGAMMA_SUCCESS  0

/**
 * Unmarshal failed: the marshalled data was created
 * with a older version of libcoopgamma that does not
 * marshall the data in a compatible way
 * 
 * This value will always be positive
 */
#define LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE  1

/**
 * Unmarshal failed: the marshalled data was created with
 * a newer version libcoopgamma that does not marshall
 * the data in a compatible way
 * 
 * This value will always be positive
 */
#define LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE  2

/**
 * Unmarshal failed because of an error, `errno` has been set
 * 
 * This value will always be -1 and will be the
 * only negative value in this category of constants
 */
#define LIBCOOPGAMMA_ERRNO_SET  -1



/**
 * Number used to identify implementation
 * version of `libcoopgamma_support_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_SUPPORT_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_depth_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_DEPTH_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_lifespan_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_LIFESPAN_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_colourspace_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_COLOURSPACE_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_ramps*_t`, if they
 * are ever modified, this number is increased
 */
#define LIBCOOPGAMMA_RAMPS_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_filter_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_FILTER_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_ctrc_info_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_CRTC_INFO_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_filter_query_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_FILTER_QUERY_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_queried_filter_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_QUERIED_FILTER_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_filter_table_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_FILTER_TABLE_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_error_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_ERROR_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_context_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_CONTEXT_VERSION  0

/**
 * Number used to identify implementation
 * version of `libcoopgamma_async_context_t`, if it
 * is ever modified, this number is increased
 */
#define LIBCOOPGAMMA_ASYNC_CONTEXT_VERSION  0



/**
 * Values used to indicate the support
 * for gamma adjustments
 */
typedef enum libcoopgamma_support {
	/**
	 * Gamma adjustments are not supported
	 * 
	 * This value will always be 0
	 */
	LIBCOOPGAMMA_NO = 0,

	/**
	 * Don't know whether gamma
	 * adjustments are supported
	 * 
	 * This value will always be 1
	 */
	LIBCOOPGAMMA_MAYBE = 1,

	/**
	 * Gamma adjustments are supported
	 * 
	 * This value will always be 2
	 */
	LIBCOOPGAMMA_YES = 2

} libcoopgamma_support_t;


/**
 * Values used to tell which datatype
 * is used for the gamma ramp stops
 * 
 * The values will always be the number
 * of bits for integral types, and
 * negative for floating-point types
 */
typedef enum libcoopgamma_depth {
	/**
	 * `uint8_t`
	 */
	LIBCOOPGAMMA_UINT8 = 8,

	/**
	 * `uint16_t`
	 */
	LIBCOOPGAMMA_UINT16 = 16,

	/**
	 * `uint32_t`
	 */
	LIBCOOPGAMMA_UINT32 = 32,

	/**
	 * `uint64_t`
	 */
	LIBCOOPGAMMA_UINT64 = 64,

	/**
	 * `float`
	 */
	LIBCOOPGAMMA_FLOAT = -1,

	/**
	 * `double`
	 */
	LIBCOOPGAMMA_DOUBLE = -2

} libcoopgamma_depth_t;


/**
 * Values used to tell when a filter
 * should be removed
 */
typedef enum libcoopgamma_lifespan {
	/**
	 * Remove the filter now
	 * 
	 * This value will always be 0
	 */
	LIBCOOPGAMMA_REMOVE = 0,

	/**
	 * Remove the filter when disconnecting
	 * from the coopgamma server
	 */
	LIBCOOPGAMMA_UNTIL_DEATH = 1,

	/**
	 * Only remove the filter when it
	 * is explicitly requested
	 */
	LIBCOOPGAMMA_UNTIL_REMOVAL = 2

} libcoopgamma_lifespan_t;


/**
 * Colourspaces
 */
typedef enum libcoopgamma_colourspace {
	/**
	 * The colourspace is unknown
	 * 
	 * This value will always be 0
	 */
	LIBCOOPGAMMA_UNKNOWN = 0,

	/**
	 * sRGB (Standard RGB)
	 */
	LIBCOOPGAMMA_SRGB = 1,

	/**
	 * RGB other than sRGB
	 */
	LIBCOOPGAMMA_RGB = 2,

	/**
	 * Non-RGB multicolour
	 */
	LIBCOOPGAMMA_NON_RGB = 3,

	/**
	 * Monochrome, greyscale, or some
	 * other singlecolour scale
	 */
	LIBCOOPGAMMA_GREY = 4

} libcoopgamma_colourspace_t;


/**
 * Define a gamma ramp structure
 * 
 * @param  suffix:identifier  The end of the name of the `struct`
 * @param  type:scalar-type   The datatype of the stops
 */
#define LIBCOOPGAMMA_RAMPS__(suffix, type)\
typedef struct libcoopgamma_ramps##suffix {\
	/**
	 * The number of stops in the red ramp
	 */\
	size_t red_size;\
	\
	/**
	 * The number of stops in the green ramp
	 */\
	size_t green_size;\
	\
	/**
	 * The number of stops in the blue ramp
	 */\
	size_t blue_size;\
	\
	/**
	 * The red ramp
	 */\
	type *red;\
	\
	/**
	 * The green ramp
	 */\
	type *green;\
	\
	/**
	 * The blue ramp
	 */\
	type *blue;\
	\
} libcoopgamma_ramps##suffix##_t

/**
 * `typedef struct libcoopgamma_ramps8 libcoopgamma_ramps8_t`
 * 
 * Gamma ramp structure with `uint8_t` stops
 */
LIBCOOPGAMMA_RAMPS__(8, uint8_t);

/**
 * `typedef struct libcoopgamma_ramps16 libcoopgamma_ramps16_t`
 * 
 * Gamma ramp structure with `uint16_t` stops
 */
LIBCOOPGAMMA_RAMPS__(16, uint16_t);

/**
 * `typedef struct libcoopgamma_ramps32 libcoopgamma_ramps32_t`
 * 
 * Gamma ramp structure with `uint32_t` stops
 */
LIBCOOPGAMMA_RAMPS__(32, uint32_t);

/**
 * `typedef struct libcoopgamma_ramps64 libcoopgamma_ramps64_t`
 * 
 * Gamma ramp structure with `uint64_t` stops
 */
LIBCOOPGAMMA_RAMPS__(64, uint64_t);

/**
 * `typedef struct libcoopgamma_rampsf libcoopgamma_rampsf_t`
 * 
 * Gamma ramp structure with `float` stops
 */
LIBCOOPGAMMA_RAMPS__(f, float);

/**
 * `typedef struct libcoopgamma_rampsd libcoopgamma_rampsd_t`
 * 
 * Gamma ramp structure with `double` stops
 */
LIBCOOPGAMMA_RAMPS__(d, double);


/**
 * Union with all ramp types.
 */
typedef union libcoopgamma_ramps {
	/**
	 * 8-bit version
	 */
	libcoopgamma_ramps8_t u8;

	/**
	 * 16-bit version
	 */
	libcoopgamma_ramps16_t u16;

	/**
	 * 32-bit version
	 */
	libcoopgamma_ramps32_t u32;

	/**
	 * 64-bit version
	 */
	libcoopgamma_ramps64_t u64;

	/**
	 * Single precision floating-point version
	 */
	libcoopgamma_rampsf_t f;

	/**
	 * Double precision floating-point version
	 */
	libcoopgamma_rampsd_t d;

} libcoopgamma_ramps_t;


/**
 * Data set to the coopgamma server to apply,
 * update, or remove a filter.
 */
typedef struct libcoopgamma_filter {
	/**
	 * The priority of the filter, higher priority
	 * is applied first. The gamma correction should
	 * have priority 0.
	 */
	int64_t priority;

	/**
	 * The CRTC for which this filter shall be applied
	 */
	char *crtc;

	/**
	 * Identifier for the filter
	 * 
	 * The syntax must be "${PACKAGE_NAME}::${COMMAND_NAME}::${RULE}"
	 */
	char *class;

	/**
	 * When shall the filter be removed?
	 * 
	 * If this member's value is `LIBCOOPGAMMA_REMOVE`,
	 * only `.crtc` and `.class` need also be defined
	 */
	libcoopgamma_lifespan_t lifespan;

	/**
	 * The data type and bit-depth of the ramp stops
	 */
	libcoopgamma_depth_t depth;

	/**
	 * The gamma ramp adjustments of the filter
	 */
	libcoopgamma_ramps_t ramps;

} libcoopgamma_filter_t;


/**
 * Gamma ramp meta information for a CRTC
 */
typedef struct libcoopgamma_crtc_info {
	/**
	 * Is cooperative gamma server running?
	 */
	int cooperative;

	/**
	 * The data type and bit-depth of the ramp stops
	 */
	libcoopgamma_depth_t depth;

	/**
	 * Is gamma adjustments supported on the CRTC?
	 * If not, `.depth`, `.red_size`, `.green_size`,
	 * and `.blue_size` are undefined
	 */
	libcoopgamma_support_t supported;

#if INT_MAX != LONG_MAX
	int padding__;
#endif

	/**
	 * The number of stops in the red ramp
	 */
	size_t red_size;

	/**
	 * The number of stops in the green ramp
	 */
	size_t green_size;

	/**
	 * The number of stops in the blue ramp
	 */
	size_t blue_size;

	/**
	 * The monitor's colourspace
	 */
	libcoopgamma_colourspace_t colourspace;

	/**
	 * Whether `.red_x`, `.red_y`, `.green_x`,
	 * `.green_y`, `.blue_x`, `.blue_y`,
	 * `.white_x`, and `.white_y` are set.
	 * 
	 * If this is true, but the colourspace
	 * is not RGB (or sRGB), there is something
	 * wrong. Please also check the colourspace.
	 */
	int have_gamut;

	/**
	 * The x-value (CIE xyY) of the monitor's
	 * red colour, multiplied by 1024
	 */
	unsigned red_x;

	/**
	 * The y-value (CIE xyY) of the monitor's
	 * red colour, multiplied by 1024
	 */
	unsigned red_y;

	/**
	 * The x-value (CIE xyY) of the monitor's
	 * green colour, multiplied by 1024
	 */
	unsigned green_x;

	/**
	 * The y-value (CIE xyY) of the monitor's
	 * green colour, multiplied by 1024
	 */
	unsigned green_y;

	/**
	 * The x-value (CIE xyY) of the monitor's
	 * blue colour, multiplied by 1024
	 */
	unsigned blue_x;

	/**
	 * The y-value (CIE xyY) of the monitor's
	 * blue colour, multiplied by 1024
	 */
	unsigned blue_y;

	/**
	 * The x-value (CIE xyY) of the monitor's
	 * default white point, multiplied by 1024
	 */
	unsigned white_x;

	/**
	 * The y-value (CIE xyY) of the monitor's
	 * default white point, multiplied by 1024
	 */
	unsigned white_y;

} libcoopgamma_crtc_info_t;


/**
 * Data sent to the coopgamma server
 * when requestng the current filter
 * table
 */
typedef struct libcoopgamma_filter_query {
	/**
	 * Do no return filters with higher
	 * priority than this value
	 */
	int64_t high_priority;

	/**
	 * Do no return filters with lower
	 * priority than this value
	 */
	int64_t low_priority;

	/**
	 * The CRTC for which the the current
	 * filters shall returned
	 */
	char *crtc;

	/**
	 * Whether to coalesce all filters
	 * into one gamma ramp triplet
	 */
	int coalesce;

#if INT_MAX != LONG_MAX
	int padding__;
#endif

} libcoopgamma_filter_query_t;


/**
 * Stripped down version of `libcoopgamma_filter`
 * which only contains the information returned
 * in response to "Command: get-gamma"
 */
typedef struct libcoopgamma_queried_filter {
	/**
	 * The filter's priority
	 */
	int64_t priority;

	/**
	 * The filter's class
	 */
	char *class;

	/**
	 * The gamma ramp adjustments of the filter
	 */
	libcoopgamma_ramps_t ramps;

} libcoopgamma_queried_filter_t;


/**
 * Response type for "Command: get-gamma": a
 * list of applied filters and meta-information
 * that was necessary for decoding the response
 */
typedef struct libcoopgamma_filter_table {
	/**
	 * The number of stops in the red ramp
	 */
	size_t red_size;

	/**
	 * The number of stops in the green ramp
	 */
	size_t green_size;

	/**
	 * The number of stops in the blue ramp
	 */
	size_t blue_size;

	/**
	 * The number of filters
	 */
	size_t filter_count;

	/**
	 * The filters, should be ordered by priority
	 * in descending order, lest there is something
	 * wrong with the coopgamma server
	 * 
	 * If filter coalition was requested, there will
	 * be exactly one filter (`.filter_count == 1`)
	 * and `.filters->class == NULL` and
	 * `.filters->priority` is undefined.
	 */
	libcoopgamma_queried_filter_t *filters;

	/**
	 * The data type and bit-depth of the ramp stops
	 */
	libcoopgamma_depth_t depth;

#if INT_MAX != LONG_MAX
	int padding__;
#endif

} libcoopgamma_filter_table_t;


/**
 * Error message from coopgamma server
 */
typedef struct libcoopgamma_error {
	/**
	 * Error code
	 * 
	 * If `.custom` is false, 0 indicates
	 * success, otherwise, 0 indicates that
	 * no error code has been assigned
	 */
	uint64_t number;

	/**
	 * Is this a custom error?
	 */
	int custom;

	/**
	 * Did the error occur on the server-side?
	 */
	int server_side;

	/**
	 * Error message, can be `NULL` if
	 * `.custom` is false
	 */
	char *description;

} libcoopgamma_error_t;


/**
 * Library state
 * 
 * Use of this structure is not thread-safe,
 * create one instance per thread that uses
 * this structure
 */
typedef struct libcoopgamma_context {
	/**
	 * The error of the last failed function call
	 * 
	 * This member is undefined after successful function call
	 */
	libcoopgamma_error_t error;

	/**
	 * File descriptor for the socket
	 */
	int fd;

	/* The members below are internal. */

	/**
	 * Whether `libcoopgamma_synchronise` have
	 * read the empty end-of-headers line
	 */
	int have_all_headers;

	/**
	 * Whether `libcoopgamma_synchronise` is reading
	 * a corrupt but recoverable message
	 */
	int bad_message;

	/**
	 * Is communication blocking?
	 */
	int blocking;

	/**
	 * Message ID of the next message
	 */
	uint32_t message_id;

	/**
	 * The ID of outbound message to which the inbound
	 * message being read by `libcoopgamma_synchronise`
	 * is a response
	 */
	uint32_t in_response_to;

	/**
	 * Buffer with the outbound message
	 */
	char *outbound;

	/**
	 * The write head for `outbound`
	 */
	size_t outbound_head;

	/**
	 * The read head for `outbound`
	 */
	size_t outbound_tail;

	/**
	 * The allocation size of `outbound`
	 */
	size_t outbound_size;

	/**
	 * Buffer with the inbound message
	 */
	char *inbound;

	/**
	 * The write head for `inbound`
	 */
	size_t inbound_head;

	/**
	 * The read head for `inbound`
	 */
	size_t inbound_tail;

	/**
	 * The allocation size of `inbound`
	 */
	size_t inbound_size;

	/**
	 * The value of 'Length' header in
	 * the inbound message
	 */
	size_t length;

	/**
	 * The beginning of the current line that
	 * is being read by `libcoopgamma_synchronise`
	 */
	size_t curline;

} libcoopgamma_context_t;


/**
 * Information necessary to identify and
 * parse a response from the server
 */
typedef struct libcoopgamma_async_context {
	/* All members are internal. */

	/**
	 * The value of the 'In response to' header
	 * in the waited message
	 */
	uint32_t message_id;

	/**
	 * Whether to coalesce all filters
	 * into one gamma ramp triplet
	 */
	int coalesce;

} libcoopgamma_async_context_t;



/**
 * Initialise a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`,
 * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t`
 * 
 * `this->red_size`, `this->green_size`, and `this->blue_size` must already be set
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
#define libcoopgamma_ramps_initialise(this)\
	(libcoopgamma_ramps_initialise_((this), sizeof(*((this)->red))))

/**
 * Marshal a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`,
 * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
#define libcoopgamma_ramps_marshal(this, buf)\
	(libcoopgamma_ramps_marshal_((this), (buf), sizeof(*((this)->red))))

/**
 * Unmarshal a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`,
 * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
#define libcoopgamma_ramps_unmarshal(this, buf, n)\
	(libcoopgamma_ramps_unmarshal_((this), (buf), (n), sizeof(*((this)->red))))


/**
 * Initialise a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`,
 * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t`
 * 
 * `this->red_size`, `this->green_size`, and `this->blue_size` must already be set
 * 
 * @param   this   The record to initialise
 * @param   width  The `sizeof(*(this->red))`
 * @return         Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_ramps_initialise_(void *restrict, size_t);

/**
 * Release all resources allocated to  a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`,
 * `libcoopgamma_ramps32_t`, `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`,
 * `libcoopgamma_rampsd_t`, or `libcoopgamma_ramps_t`, the allocation of the record
 * itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_ramps_initialise`
 * or failed call to `libcoopgamma_ramps_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
void libcoopgamma_ramps_destroy(void *restrict);

/**
 * Marshal a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`,
 * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` into a buffer
 * 
 * @param   this   The record to marshal
 * @param   buf    The output buffer, `NULL` to only measure
 *                 how large this buffer has to be
 * @param   width  The `sizeof(*(this->red))`
 * @return         The number of marshalled bytes, or if `buf == NULL`,
 *                 how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1), __leaf__)))
size_t libcoopgamma_ramps_marshal_(const void *restrict, void *restrict, size_t);

/**
 * Unmarshal a `libcoopgamma_ramps8_t`, `libcoopgamma_ramps16_t`, `libcoopgamma_ramps32_t`,
 * `libcoopgamma_ramps64_t`, `libcoopgamma_rampsf_t`, or `libcoopgamma_rampsd_t` from a buffer
 * 
 * @param   this   The output parameter for unmarshalled record
 * @param   buf    The buffer with the marshalled record
 * @param   n      Output parameter for the number of unmarshalled bytes, undefined on failure
 * @param   width  The `sizeof(*(this->red))`
 * @return         `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                 `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_ramps_unmarshal_(void *restrict, const void *restrict, size_t *restrict, size_t);


/**
 * Initialise a `libcoopgamma_filter_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_filter_initialise(libcoopgamma_filter_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_filter_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_filter_initialise`
 * or failed call to `libcoopgamma_filter_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
void libcoopgamma_filter_destroy(libcoopgamma_filter_t *restrict);

/**
 * Marshal a `libcoopgamma_filter_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1))))
size_t libcoopgamma_filter_marshal(const libcoopgamma_filter_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_filter_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_filter_unmarshal(libcoopgamma_filter_t *restrict, const void *restrict, size_t *restrict);


/**
 * Initialise a `libcoopgamma_crtc_info_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_crtc_info_initialise(libcoopgamma_crtc_info_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_crtc_info_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_crtc_info_initialise`
 * or failed call to `libcoopgamma_crtc_info_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
void libcoopgamma_crtc_info_destroy(libcoopgamma_crtc_info_t *restrict);

/**
 * Marshal a `libcoopgamma_crtc_info_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1), __leaf__)))
size_t libcoopgamma_crtc_info_marshal(const libcoopgamma_crtc_info_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_crtc_info_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_crtc_info_unmarshal(libcoopgamma_crtc_info_t *restrict, const void *restrict, size_t *restrict);


/**
 * Initialise a `libcoopgamma_filter_query_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_filter_query_initialise(libcoopgamma_filter_query_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_filter_query_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_filter_query_initialise`
 * or failed call to `libcoopgamma_filter_query_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
void libcoopgamma_filter_query_destroy(libcoopgamma_filter_query_t *restrict);

/**
 * Marshal a `libcoopgamma_filter_query_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1), __leaf__)))
size_t libcoopgamma_filter_query_marshal(const libcoopgamma_filter_query_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_filter_query_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_filter_query_unmarshal(libcoopgamma_filter_query_t *restrict, const void *restrict, size_t *restrict);


/**
 * Initialise a `libcoopgamma_queried_filter_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_queried_filter_initialise(libcoopgamma_queried_filter_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_queried_filter_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_queried_filter_initialise`
 * or failed call to `libcoopgamma_queried_filter_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
void libcoopgamma_queried_filter_destroy(libcoopgamma_queried_filter_t *restrict);

/**
 * Marshal a `libcoopgamma_queried_filter_t` into a buffer
 * 
 * @param   this   The record to marshal
 * @param   buf    The output buffer, `NULL` to only measure
 *                 how large this buffer has to be
 * @param   depth  The type used of ramp stops
 * @return         The number of marshalled bytes, or if `buf == NULL`,
 *                 how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1))))
size_t libcoopgamma_queried_filter_marshal(const libcoopgamma_queried_filter_t *restrict, void *restrict, libcoopgamma_depth_t);

/**
 * Unmarshal a `libcoopgamma_queried_filter_t` from a buffer
 * 
 * @param   this   The output parameter for unmarshalled record
 * @param   buf    The buffer with the marshalled record
 * @param   n      Output parameter for the number of unmarshalled bytes, undefined on failure
 * @param   depth  The type used of ramp stops
 * @return         `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                 `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_queried_filter_unmarshal(libcoopgamma_queried_filter_t *restrict, const void *restrict,
                                          size_t *restrict, libcoopgamma_depth_t);


/**
 * Initialise a `libcoopgamma_filter_table_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_filter_table_initialise(libcoopgamma_filter_table_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_filter_table_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_filter_table_initialise`
 * or failed call to `libcoopgamma_filter_table_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
void libcoopgamma_filter_table_destroy(libcoopgamma_filter_table_t *restrict);

/**
 * Marshal a `libcoopgamma_filter_table_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1))))
size_t libcoopgamma_filter_table_marshal(const libcoopgamma_filter_table_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_filter_table_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_filter_table_unmarshal(libcoopgamma_filter_table_t *restrict, const void *restrict, size_t *restrict);


/**
 * Initialise a `libcoopgamma_error_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_error_initialise(libcoopgamma_error_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_error_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_error_initialise`
 * or failed call to `libcoopgamma_error_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
void libcoopgamma_error_destroy(libcoopgamma_error_t *restrict);

/**
 * Marshal a `libcoopgamma_error_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1), __leaf__)))
size_t libcoopgamma_error_marshal(const libcoopgamma_error_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_error_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_error_unmarshal(libcoopgamma_error_t *restrict, const void *restrict, size_t *restrict);


/**
 * Initialise a `libcoopgamma_context_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_context_initialise(libcoopgamma_context_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_context_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_context_initialise`
 * or failed call to `libcoopgamma_context_unmarshal`
 * 
 * @param  this        The record to destroy
 * @param  disconnect  Disconnect from the server?
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
void libcoopgamma_context_destroy(libcoopgamma_context_t *restrict, int);

/**
 * Marshal a `libcoopgamma_context_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1))))
size_t libcoopgamma_context_marshal(const libcoopgamma_context_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_context_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_context_unmarshal(libcoopgamma_context_t *restrict, const void *restrict, size_t *restrict);


/**
 * Initialise a `libcoopgamma_async_context_t`
 * 
 * @param   this  The record to initialise
 * @return        Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_async_context_initialise(libcoopgamma_async_context_t *restrict);

/**
 * Release all resources allocated to  a `libcoopgamma_async_context_t`,
 * the allocation of the record itself is not freed
 * 
 * Always call this function after failed call to `libcoopgamma_async_context_initialise`
 * or failed call to `libcoopgamma_async_context_unmarshal`
 * 
 * @param  this  The record to destroy
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
void libcoopgamma_async_context_destroy(libcoopgamma_async_context_t *restrict);

/**
 * Marshal a `libcoopgamma_async_context_t` into a buffer
 * 
 * @param   this  The record to marshal
 * @param   buf   The output buffer, `NULL` to only measure
 *                how large this buffer has to be
 * @return        The number of marshalled bytes, or if `buf == NULL`,
 *                how many bytes would be marshalled if `buf != NULL`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1), __leaf__)))
size_t libcoopgamma_async_context_marshal(const libcoopgamma_async_context_t *restrict, void *restrict);

/**
 * Unmarshal a `libcoopgamma_async_context_t` from a buffer
 * 
 * @param   this  The output parameter for unmarshalled record
 * @param   buf   The buffer with the marshalled record
 * @param   n     Output parameter for the number of unmarshalled bytes, undefined on failure
 * @return        `LIBCOOPGAMMA_SUCCESS` (0), `LIBCOOPGAMMA_INCOMPATIBLE_DOWNGRADE`,
 *                `LIBCOOPGAMMA_INCOMPATIBLE_UPGRADE`, or `LIBCOOPGAMMA_ERRNO_SET`
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_async_context_unmarshal(libcoopgamma_async_context_t *restrict, const void *restrict, size_t *restrict);


/**
 * List all recognised adjustment method
 * 
 * SIGCHLD must not be ignored or blocked
 * 
 * @return  A `NULL`-terminated list of names. You should only free
 *          the outer pointer, inner pointers are subpointers of the
 *          outer pointer and cannot be freed. `NULL` on error.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__malloc__)))
char **libcoopgamma_get_methods(void);

/**
 * Get the adjustment method and site
 * 
 * SIGCHLD must not be ignored or blocked
 * 
 * @param   method   The adjustment method, `NULL` for automatic
 * @param   site     The site, `NULL` for automatic
 * @param   methodp  Output pointer for the selected adjustment method,
 *                   which cannot be `NULL`. It is safe to call
 *                   this function with this parameter set to `NULL`.
 * @param   sitep    Output pointer for the selected site, which will
 *                   be `NULL` the method only supports one site or if
 *                   `site == NULL` and no site can be selected
 *                   automatically. It is safe to call this function
 *                   with this parameter set to `NULL`.
 * @return           Zero on success, -1 on error
 */
int libcoopgamma_get_method_and_site(const char *restrict, const char *restrict, char **restrict, char **restrict);

/**
 * Get the PID file of the coopgamma server
 * 
 * SIGCHLD must not be ignored or blocked
 * 
 * @param   method   The adjustment method, `NULL` for automatic
 * @param   site     The site, `NULL` for automatic
 * @return           The pathname of the server's PID file, `NULL` on error
 *                   or if there server does not use PID files. The later
 *                   case is detected by checking that `errno` is set to 0.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__malloc__)))
char *libcoopgamma_get_pid_file(const char *restrict, const char *restrict);

/**
 * Get the socket file of the coopgamma server
 * 
 * SIGCHLD must not be ignored or blocked
 * 
 * @param   method   The adjustment method, `NULL` for automatic
 * @param   site     The site, `NULL` for automatic
 * @return           The pathname of the server's socket, `NULL` on error
 *                   or if there server does have its own socket. The later
 *                   case is detected by checking that `errno` is set to 0,
 *                   and is the case when communicating with a server in a
 *                   multi-server display server like mds.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__malloc__)))
char *libcoopgamma_get_socket_file(const char *restrict, const char *restrict);


/**
 * Connect to a coopgamma server, and start it if necessary
 * 
 * Use `libcoopgamma_context_destroy` to disconnect
 * 
 * SIGCHLD must not be ignored or blocked
 * 
 * @param   method  The adjustment method, `NULL` for automatic
 * @param   site    The site, `NULL` for automatic
 * @param   ctx     The state of the library, must be initialised
 * @return          Zero on success, -1 on error. On error, `errno` is set
 *                  to 0 if the server could not be initialised.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(3))))
int libcoopgamma_connect(const char *restrict, const char *restrict, libcoopgamma_context_t *restrict);

/**
 * By default communication is blocking, this function
 * can be used to switch between blocking and nonblocking
 * 
 * After setting the communication to nonblocking,
 * `libcoopgamma_flush`, `libcoopgamma_synchronise` and
 * and request-sending functions can fail with EAGAIN and
 * EWOULDBLOCK. It is safe to continue with `libcoopgamma_flush`
 * (for `libcoopgamma_flush` it selfand equest-sending functions)
 * or `libcoopgamma_synchronise` just like EINTR failure.
 * 
 * @param   ctx          The state of the library, must be connected
 * @param   nonblocking  Nonblocking mode?
 * @return               Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_set_nonblocking(libcoopgamma_context_t *restrict, int);

/**
 * Send all pending outbound data
 * 
 * If this function or another function that sends a request
 * to the server fails with EINTR, call this function to
 * complete the transfer. The `async` parameter will always
 * be in a properly configured state if a function fails
 * with EINTR.
 * 
 * @param   ctx  The state of the library, must be connected
 * @return       Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__, __leaf__)))
int libcoopgamma_flush(libcoopgamma_context_t *restrict);

/**
 * Wait for the next message to be received
 * 
 * @param   ctx       The state of the library, must be connected
 * @param   pending   Information for each pending request
 * @param   n         The number of elements in `pending`
 * @param   selected  The index of the element in `pending` which corresponds
 *                    to the first inbound message, note that this only means
 *                    that the message is not for any of the other request,
 *                    if the message is corrupt any of the listed requests can
 *                    be selected even if it is not for any of the requests.
 *                    Functions that parse the message will detect such corruption.
 * @return            Zero on success, -1 on error. If the the message is ignored,
 *                    which happens if corresponding `libcoopgamma_async_context_t`
 *                    is not listed, -1 is returned and `errno` is set to 0. If -1
 *                    is returned, `errno` is set to `ENOTRECOVERABLE` you have
 *                    received a corrupt message and the context has been tainted
 *                    beyond recover.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__(1, 4), __leaf__)))
int libcoopgamma_synchronise(libcoopgamma_context_t *restrict, libcoopgamma_async_context_t *restrict, size_t, size_t *restrict);

/**
 * Tell the library that you will not be parsing a receive message
 * 
 * @param  ctx  The state of the library, must be connected
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
void libcoopgamma_skip_message(libcoopgamma_context_t *restrict);


/**
 * List all available CRTC:s, send request part
 * 
 * Cannot be used before connecting to the server
 * 
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request, that is needed to
 *                 identify and parse the response, is stored here
 * @return         Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_crtcs_send(libcoopgamma_context_t *restrict, libcoopgamma_async_context_t *restrict);

/**
 * List all available CRTC:s, receive response part
 * 
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request
 * @return         A `NULL`-terminated list of names. You should only free
 *                 the outer pointer, inner pointers are subpointers of the
 *                 outer pointer and cannot be freed. `NULL` on error, in
 *                 which case `ctx->error` (rather than `errno`) is read
 *                 for information about the error.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__malloc__, __nonnull__)))
char **libcoopgamma_get_crtcs_recv(libcoopgamma_context_t *restrict, libcoopgamma_async_context_t *restrict);

/**
 * List all available CRTC:s, synchronous version
 * 
 * This is a synchronous request function, as such,
 * you have to ensure that communication is blocking
 * (default), and that there are not asynchronous
 * requests waiting, it also means that EINTR:s are
 * silently ignored and there no wait to cancel the
 * operation without disconnection from the server
 * 
 * @param   ctx  The state of the library, must be connected
 * @return       A `NULL`-terminated list of names. You should only free
 *               the outer pointer, inner pointers are subpointers of the
 *               outer pointer and cannot be freed. `NULL` on error, in
 *               which case `ctx->error` (rather than `errno`) is read
 *               for information about the error.
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__malloc__, __nonnull__)))
char **libcoopgamma_get_crtcs_sync(libcoopgamma_context_t *restrict);


/**
 * Retrieve information about a CRTC:s gamma ramps, send request part
 * 
 * Cannot be used before connecting to the server
 * 
 * @param   crtc   The name of the CRTC
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request, that is needed to
 *                 identify and parse the response, is stored here
 * @return         Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_gamma_info_send(const char *restrict, libcoopgamma_context_t *restrict, libcoopgamma_async_context_t *restrict);

/**
 * Retrieve information about a CRTC:s gamma ramps, receive response part
 * 
 * @param   info   Output parameter for the information, must be initialised
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request
 * @return         Zero on success, -1 on error, in which case `ctx->error`
 *                 (rather than `errno`) is read for information about the error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_gamma_info_recv(libcoopgamma_crtc_info_t *restrict, libcoopgamma_context_t *restrict,
                                     libcoopgamma_async_context_t *restrict);

/**
 * Retrieve information about a CRTC:s gamma ramps, synchronous version
 * 
 * This is a synchronous request function, as such,
 * you have to ensure that communication is blocking
 * (default), and that there are not asynchronous
 * requests waiting, it also means that EINTR:s are
 * silently ignored and there no wait to cancel the
 * operation without disconnection from the server
 * 
 * @param   crtc   The name of the CRTC
 * @param   info   Output parameter for the information, must be initialised
 * @param   ctx    The state of the library, must be connected
 * @return         Zero on success, -1 on error, in which case `ctx->error`
 *                 (rather than `errno`) is read for information about the error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_gamma_info_sync(const char *restrict, libcoopgamma_crtc_info_t *restrict, libcoopgamma_context_t *restrict);


/**
 * Retrieve the current gamma ramp adjustments, send request part
 * 
 * Cannot be used before connecting to the server
 * 
 * @param   query  The query to send
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request, that is needed to
 *                 identify and parse the response, is stored here
 * @return         Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_gamma_send(const libcoopgamma_filter_query_t *restrict, libcoopgamma_context_t *restrict,
                                libcoopgamma_async_context_t *restrict);

/**
 * Retrieve the current gamma ramp adjustments, receive response part
 * 
 * @param   table  Output for the response, must be initialised
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request
 * @return         Zero on success, -1 on error, in which case `ctx->error`
 *                 (rather than `errno`) is read for information about the error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_gamma_recv(libcoopgamma_filter_table_t *restrict, libcoopgamma_context_t *restrict,
                                libcoopgamma_async_context_t *restrict);

/**
 * Retrieve the current gamma ramp adjustments, synchronous version
 * 
 * This is a synchronous request function, as such,
 * you have to ensure that communication is blocking
 * (default), and that there are not asynchronous
 * requests waiting, it also means that EINTR:s are
 * silently ignored and there no wait to cancel the
 * operation without disconnection from the server
 * 
 * @param   query  The query to send
 * @param   table  Output for the response, must be initialised
 * @param   ctx    The state of the library, must be connected
 * @return         Zero on success, -1 on error, in which case `ctx->error`
 *                 (rather than `errno`) is read for information about the error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_get_gamma_sync(const libcoopgamma_filter_query_t *restrict,
                                libcoopgamma_filter_table_t *restrict,
                                libcoopgamma_context_t *restrict);


/**
 * Apply, update, or remove a gamma ramp adjustment, send request part
 * 
 * Cannot be used before connecting to the server
 * 
 * @param   filter  The filter to apply, update, or remove, gamma ramp meta-data must match the CRTC's
 * @param   ctx     The state of the library, must be connected
 * @param   async   Information about the request, that is needed to
 *                  identify and parse the response, is stored here
 * @return          Zero on success, -1 on error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_set_gamma_send(const libcoopgamma_filter_t *restrict, libcoopgamma_context_t *restrict,
                                libcoopgamma_async_context_t *restrict);

/**
 * Apply, update, or remove a gamma ramp adjustment, receive response part
 * 
 * @param   ctx    The state of the library, must be connected
 * @param   async  Information about the request
 * @return         Zero on success, -1 on error, in which case `ctx->error`
 *                 (rather than `errno`) is read for information about the error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_set_gamma_recv(libcoopgamma_context_t *restrict, libcoopgamma_async_context_t *restrict);

/**
 * Apply, update, or remove a gamma ramp adjustment, synchronous version
 * 
 * This is a synchronous request function, as such,
 * you have to ensure that communication is blocking
 * (default), and that there are not asynchronous
 * requests waiting, it also means that EINTR:s are
 * silently ignored and there no wait to cancel the
 * operation without disconnection from the server
 * 
 * @param   filter  The filter to apply, update, or remove, gamma ramp meta-data must match the CRTC's
 * @param   ctx     The state of the library, must be connected
 * @return          Zero on success, -1 on error, in which case `ctx->error`
 *                  (rather than `errno`) is read for information about the error
 */
LIBCOOPGAMMA_GCC_ONLY(__attribute__((__nonnull__)))
int libcoopgamma_set_gamma_sync(const libcoopgamma_filter_t *restrict, libcoopgamma_context_t *restrict);



#if defined(__clang__)
# pragma GCC diagnostic pop
#endif

#undef LIBCOOPGAMMA_GCC_ONLY

#endif