gpxe/src/include/gpxe/uri.h - platform/external/syslinux - Git at Google

 #ifndef _GPXE_URI_H
 #define _GPXE_URI_H

 /** @file
  *
  * Uniform Resource Identifiers
  *
  */

 FILE_LICENCE ( GPL2_OR_LATER );

 #include <stddef.h>
 #include <stdlib.h>
 #include <gpxe/refcnt.h>

 /** A Uniform Resource Identifier
  *
  * Terminology for this data structure is as per uri(7), except that
  * "path" is defined to include the leading '/' for an absolute path.
  *
  * Note that all fields within a URI are optional and may be NULL.
  *
  * The pointers to the various fields are packed together so they can
  * be accessed in array fashion in some places in uri.c where doing so
  * saves significant code size.
  *
  * Some examples are probably helpful:
  *
  *   http://www.etherboot.org/wiki :
  *
  *   scheme = "http", host = "www.etherboot.org", path = "/wiki"
  *
  *   /var/lib/tftpboot :
  *
  *   path = "/var/lib/tftpboot"
  *
  *   mailto:bob@nowhere.com :
  *
  *   scheme = "mailto", opaque = "bob@nowhere.com"
  *
  *   ftp://joe:secret@insecure.org:8081/hidden/path/to?what=is#this
  *
  *   scheme = "ftp", user = "joe", password = "secret",
  *   host = "insecure.org", port = "8081", path = "/hidden/path/to",
  *   query = "what=is", fragment = "this"
  */
 struct uri {
 	/** Reference count */
 	struct refcnt refcnt;
 	/** Scheme */
 	const char *scheme;
 	/** Opaque part */
 	const char *opaque;
 	/** User name */
 	const char *user;
 	/** Password */
 	const char *password;
 	/** Host name */
 	const char *host;
 	/** Port number */
 	const char *port;
 	/** Path */
 	const char *path;
 	/** Query */
 	const char *query;
 	/** Fragment */
 	const char *fragment;
 } __attribute__ (( packed ));

 /** A field in a URI
  *
  * The order of the indices in this enumeration must match the order
  * of the fields in the URI structure.
  */
 enum {
 	URI_SCHEME = 0,		URI_SCHEME_BIT = ( 1 << URI_SCHEME ),
 	URI_OPAQUE = 1,		URI_OPAQUE_BIT = ( 1 << URI_OPAQUE ),
 	URI_USER = 2,		URI_USER_BIT = ( 1 << URI_USER ),
 	URI_PASSWORD = 3,	URI_PASSWORD_BIT = ( 1 << URI_PASSWORD ),
 	URI_HOST = 4,		URI_HOST_BIT = ( 1 << URI_HOST ),
 	URI_PORT = 5,		URI_PORT_BIT = ( 1 << URI_PORT ),
 	URI_PATH = 6,		URI_PATH_BIT = ( 1 << URI_PATH ),
 	URI_QUERY = 7,		URI_QUERY_BIT = ( 1 << URI_QUERY ),
 	URI_FRAGMENT = 8,	URI_FRAGMENT_BIT = ( 1 << URI_FRAGMENT ),

 	URI_FIRST_FIELD = URI_SCHEME,
 	URI_LAST_FIELD = URI_FRAGMENT,
 };

 /** Extract field from URI */
 #define uri_get_field( uri, field )	(&uri->scheme)[field]

 /** All URI fields */
 #define URI_ALL		( URI_SCHEME_BIT | URI_OPAQUE_BIT | URI_USER_BIT | \
 			  URI_PASSWORD_BIT | URI_HOST_BIT | URI_PORT_BIT | \
 			  URI_PATH_BIT | URI_QUERY_BIT | URI_FRAGMENT_BIT )

 /** URI fields that should be decoded on storage */
 #define URI_ENCODED	( URI_USER_BIT | URI_PASSWORD_BIT | URI_HOST_BIT | \
 			  URI_PATH_BIT | URI_QUERY_BIT | URI_FRAGMENT_BIT )

 /**
  * URI is an absolute URI
  *
  * @v uri			URI
  * @ret is_absolute		URI is absolute
  *
  * An absolute URI begins with a scheme, e.g. "http:" or "mailto:".
  * Note that this is a separate concept from a URI with an absolute
  * path.
  */
 static inline int uri_is_absolute ( struct uri *uri ) {
 	return ( uri->scheme != NULL );
 }

 /**
  * URI has an absolute path
  *
  * @v uri			URI
  * @ret has_absolute_path	URI has an absolute path
  *
  * An absolute path begins with a '/'.  Note that this is a separate
  * concept from an absolute URI.  Note also that a URI may not have a
  * path at all.
  */
 static inline int uri_has_absolute_path ( struct uri *uri ) {
 	return ( uri->path && ( uri->path[0] == '/' ) );
 }

 /**
  * URI has a relative path
  *
  * @v uri			URI
  * @ret has_relative_path	URI has a relative path
  *
  * A relative path begins with something other than a '/'.  Note that
  * this is a separate concept from a relative URI.  Note also that a
  * URI may not have a path at all.
  */
 static inline int uri_has_relative_path ( struct uri *uri ) {
 	return ( uri->path && ( uri->path[0] != '/' ) );
 }

 /**
  * Increment URI reference count
  *
  * @v uri		URI, or NULL
  * @ret uri		URI as passed in
  */
 static inline __attribute__ (( always_inline )) struct uri *
 uri_get ( struct uri *uri ) {
 	ref_get ( &uri->refcnt );
 	return uri;
 }

 /**
  * Decrement URI reference count
  *
  * @v uri		URI, or NULL
  */
 static inline __attribute__ (( always_inline )) void
 uri_put ( struct uri *uri ) {
 	ref_put ( &uri->refcnt );
 }

 extern struct uri *cwuri;

 extern struct uri * parse_uri ( const char *uri_string );
 extern unsigned int uri_port ( struct uri *uri, unsigned int default_port );
 extern int unparse_uri ( char *buf, size_t size, struct uri *uri,
 			 unsigned int fields );
 extern struct uri * uri_dup ( struct uri *uri );
 extern char * resolve_path ( const char *base_path,
 			     const char *relative_path );
 extern struct uri * resolve_uri ( struct uri *base_uri,
 				  struct uri *relative_uri );
 extern void churi ( struct uri *uri );
 extern size_t uri_encode ( const char *raw_string, char *buf, ssize_t len,
 			   int field );
 extern size_t uri_decode ( const char *encoded_string, char *buf, ssize_t len );

 #endif /* _GPXE_URI_H */
	#ifndef _GPXE_URI_H
	#define _GPXE_URI_H

	/** @file
	*
	* Uniform Resource Identifiers
	*
	*/

	FILE_LICENCE ( GPL2_OR_LATER );

	#include <stddef.h>
	#include <stdlib.h>
	#include <gpxe/refcnt.h>

	/** A Uniform Resource Identifier
	*
	* Terminology for this data structure is as per uri(7), except that
	* "path" is defined to include the leading '/' for an absolute path.
	*
	* Note that all fields within a URI are optional and may be NULL.
	*
	* The pointers to the various fields are packed together so they can
	* be accessed in array fashion in some places in uri.c where doing so
	* saves significant code size.
	*
	* Some examples are probably helpful:
	*
	* http://www.etherboot.org/wiki :
	*
	* scheme = "http", host = "www.etherboot.org", path = "/wiki"
	*
	* /var/lib/tftpboot :
	*
	* path = "/var/lib/tftpboot"
	*
	* mailto:bob@nowhere.com :
	*
	* scheme = "mailto", opaque = "bob@nowhere.com"
	*
	* ftp://joe:secret@insecure.org:8081/hidden/path/to?what=is#this
	*
	* scheme = "ftp", user = "joe", password = "secret",
	* host = "insecure.org", port = "8081", path = "/hidden/path/to",
	* query = "what=is", fragment = "this"
	*/
	struct uri {
	/** Reference count */
	struct refcnt refcnt;
	/** Scheme */
	const char *scheme;
	/** Opaque part */
	const char *opaque;
	/** User name */
	const char *user;
	/** Password */
	const char *password;
	/** Host name */
	const char *host;
	/** Port number */
	const char *port;
	/** Path */
	const char *path;
	/** Query */
	const char *query;
	/** Fragment */
	const char *fragment;
	} __attribute__ (( packed ));

	/** A field in a URI
	*
	* The order of the indices in this enumeration must match the order
	* of the fields in the URI structure.
	*/
	enum {
	URI_SCHEME = 0, URI_SCHEME_BIT = ( 1 << URI_SCHEME ),
	URI_OPAQUE = 1, URI_OPAQUE_BIT = ( 1 << URI_OPAQUE ),
	URI_USER = 2, URI_USER_BIT = ( 1 << URI_USER ),
	URI_PASSWORD = 3, URI_PASSWORD_BIT = ( 1 << URI_PASSWORD ),
	URI_HOST = 4, URI_HOST_BIT = ( 1 << URI_HOST ),
	URI_PORT = 5, URI_PORT_BIT = ( 1 << URI_PORT ),
	URI_PATH = 6, URI_PATH_BIT = ( 1 << URI_PATH ),
	URI_QUERY = 7, URI_QUERY_BIT = ( 1 << URI_QUERY ),
	URI_FRAGMENT = 8, URI_FRAGMENT_BIT = ( 1 << URI_FRAGMENT ),

	URI_FIRST_FIELD = URI_SCHEME,
	URI_LAST_FIELD = URI_FRAGMENT,
	};

	/** Extract field from URI */
	#define uri_get_field( uri, field ) (&uri->scheme)[field]

	/** All URI fields */
	#define URI_ALL ( URI_SCHEME_BIT \| URI_OPAQUE_BIT \| URI_USER_BIT \| \
	URI_PASSWORD_BIT \| URI_HOST_BIT \| URI_PORT_BIT \| \
	URI_PATH_BIT \| URI_QUERY_BIT \| URI_FRAGMENT_BIT )

	/** URI fields that should be decoded on storage */
	#define URI_ENCODED ( URI_USER_BIT \| URI_PASSWORD_BIT \| URI_HOST_BIT \| \
	URI_PATH_BIT \| URI_QUERY_BIT \| URI_FRAGMENT_BIT )

	/**
	* URI is an absolute URI
	*
	* @v uri URI
	* @ret is_absolute URI is absolute
	*
	* An absolute URI begins with a scheme, e.g. "http:" or "mailto:".
	* Note that this is a separate concept from a URI with an absolute
	* path.
	*/
	static inline int uri_is_absolute ( struct uri *uri ) {
	return ( uri->scheme != NULL );
	}

	/**
	* URI has an absolute path
	*
	* @v uri URI
	* @ret has_absolute_path URI has an absolute path
	*
	* An absolute path begins with a '/'. Note that this is a separate
	* concept from an absolute URI. Note also that a URI may not have a
	* path at all.
	*/
	static inline int uri_has_absolute_path ( struct uri *uri ) {
	return ( uri->path && ( uri->path[0] == '/' ) );
	}

	/**
	* URI has a relative path
	*
	* @v uri URI
	* @ret has_relative_path URI has a relative path
	*
	* A relative path begins with something other than a '/'. Note that
	* this is a separate concept from a relative URI. Note also that a
	* URI may not have a path at all.
	*/
	static inline int uri_has_relative_path ( struct uri *uri ) {
	return ( uri->path && ( uri->path[0] != '/' ) );
	}

	/**
	* Increment URI reference count
	*
	* @v uri URI, or NULL
	* @ret uri URI as passed in
	*/
	static inline __attribute__ (( always_inline )) struct uri *
	uri_get ( struct uri *uri ) {
	ref_get ( &uri->refcnt );
	return uri;
	}

	/**
	* Decrement URI reference count
	*
	* @v uri URI, or NULL
	*/
	static inline __attribute__ (( always_inline )) void
	uri_put ( struct uri *uri ) {
	ref_put ( &uri->refcnt );
	}

	extern struct uri *cwuri;

	extern struct uri * parse_uri ( const char *uri_string );
	extern unsigned int uri_port ( struct uri *uri, unsigned int default_port );
	extern int unparse_uri ( char buf, size_t size, struct uri uri,
	unsigned int fields );
	extern struct uri * uri_dup ( struct uri *uri );
	extern char * resolve_path ( const char *base_path,
	const char *relative_path );
	extern struct uri * resolve_uri ( struct uri *base_uri,
	struct uri *relative_uri );
	extern void churi ( struct uri *uri );
	extern size_t uri_encode ( const char raw_string, char buf, ssize_t len,
	int field );
	extern size_t uri_decode ( const char encoded_string, char buf, ssize_t len );

	#endif /* _GPXE_URI_H */