gpxe/src/core/uri.c - pub/scm/boot/syslinux/syslinux - Git at Google

 /*
  * Copyright (C) 2007 Michael Brown <mbrown@fensystems.co.uk>.
  *
  * This program is free software; you can redistribute it and/or
  * modify it under the terms of the GNU General Public License as
  * published by the Free Software Foundation; either version 2 of the
  * License, or any later version.
  *
  * This program 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
  * General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
  */

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

 #include <stdint.h>
 #include <stdlib.h>
 #include <string.h>
 #include <libgen.h>
 #include <ctype.h>
 #include <gpxe/vsprintf.h>
 #include <gpxe/uri.h>

 /**
  * Dump URI for debugging
  *
  * @v uri		URI
  */
 static void dump_uri ( struct uri *uri ) {
 	if ( ! uri )
 		return;
 	if ( uri->scheme )
 		DBG ( " scheme \"%s\"", uri->scheme );
 	if ( uri->opaque )
 		DBG ( " opaque \"%s\"", uri->opaque );
 	if ( uri->user )
 		DBG ( " user \"%s\"", uri->user );
 	if ( uri->password )
 		DBG ( " password \"%s\"", uri->password );
 	if ( uri->host )
 		DBG ( " host \"%s\"", uri->host );
 	if ( uri->port )
 		DBG ( " port \"%s\"", uri->port );
 	if ( uri->path )
 		DBG ( " path \"%s\"", uri->path );
 	if ( uri->query )
 		DBG ( " query \"%s\"", uri->query );
 	if ( uri->fragment )
 		DBG ( " fragment \"%s\"", uri->fragment );
 }

 /**
  * Parse URI
  *
  * @v uri_string	URI as a string
  * @ret uri		URI
  *
  * Splits a URI into its component parts.  The return URI structure is
  * dynamically allocated and must eventually be freed by calling
  * uri_put().
  */
 struct uri * parse_uri ( const char *uri_string ) {
 	struct uri *uri;
 	char *raw;
 	char *tmp;
 	char *path = NULL;
 	char *authority = NULL;
 	size_t raw_len;

 	/* Allocate space for URI struct and a copy of the string */
 	raw_len = ( strlen ( uri_string ) + 1 /* NUL */ );
 	uri = zalloc ( sizeof ( *uri ) + raw_len );
 	if ( ! uri )
 		return NULL;
 	raw = ( ( ( char * ) uri ) + sizeof ( *uri ) );

 	/* Zero URI struct and copy in the raw string */
 	memcpy ( raw, uri_string, raw_len );

 	/* Start by chopping off the fragment, if it exists */
 	if ( ( tmp = strchr ( raw, '#' ) ) ) {
 		*(tmp++) = '\0';
 		uri->fragment = tmp;
 	}

 	/* Identify absolute/relative URI.  We ignore schemes that are
 	 * apparently only a single character long, since otherwise we
 	 * misinterpret a DOS-style path name ("C:\path\to\file") as a
 	 * URI with scheme="C",opaque="\path\to\file".
 	 */
 	if ( ( tmp = strchr ( raw, ':' ) ) && ( tmp > ( raw + 1 ) ) ) {
 		/* Absolute URI: identify hierarchical/opaque */
 		uri->scheme = raw;
 		*(tmp++) = '\0';
 		if ( *tmp == '/' ) {
 			/* Absolute URI with hierarchical part */
 			path = tmp;
 		} else {
 			/* Absolute URI with opaque part */
 			uri->opaque = tmp;
 		}
 	} else {
 		/* Relative URI */
 		path = raw;
 	}

 	/* If we don't have a path (i.e. we have an absolute URI with
 	 * an opaque portion, we're already finished processing
 	 */
 	if ( ! path )
 		goto done;

 	/* Chop off the query, if it exists */
 	if ( ( tmp = strchr ( path, '?' ) ) ) {
 		*(tmp++) = '\0';
 		uri->query = tmp;
 	}

 	/* Identify net/absolute/relative path */
 	if ( strncmp ( path, "//", 2 ) == 0 ) {
 		/* Net path.  If this is terminated by the first '/'
 		 * of an absolute path, then we have no space for a
 		 * terminator after the authority field, so shuffle
 		 * the authority down by one byte, overwriting one of
 		 * the two slashes.
 		 */
 		authority = ( path + 2 );
 		if ( ( tmp = strchr ( authority, '/' ) ) ) {
 			/* Shuffle down */
 			uri->path = tmp;
 			memmove ( ( authority - 1 ), authority,
 				  ( tmp - authority ) );
 			authority--;
 			*(--tmp) = '\0';
 		}
 	} else {
 		/* Absolute/relative path */
 		uri->path = path;
 	}

 	/* Split authority into user[:password] and host[:port] portions */
 	if ( ( tmp = strchr ( authority, '@' ) ) ) {
 		/* Has user[:password] */
 		*(tmp++) = '\0';
 		uri->host = tmp;
 		uri->user = authority;
 		if ( ( tmp = strchr ( authority, ':' ) ) ) {
 			/* Has password */
 			*(tmp++) = '\0';
 			uri->password = tmp;
 		}
 	} else {
 		/* No user:password */
 		uri->host = authority;
 	}

 	/* Split host into host[:port] */
 	if ( ( tmp = strchr ( uri->host, ':' ) ) ) {
 		*(tmp++) = '\0';
 		uri->port = tmp;
 	}

  done:
 	DBG ( "URI \"%s\" split into", uri_string );
 	dump_uri ( uri );
 	DBG ( "\n" );

 	return uri;
 }

 /**
  * Get port from URI
  *
  * @v uri		URI, or NULL
  * @v default_port	Default port to use if none specified in URI
  * @ret port		Port
  */
 unsigned int uri_port ( struct uri *uri, unsigned int default_port ) {
 	if ( ( ! uri ) || ( ! uri->port ) )
 		return default_port;
 	return ( strtoul ( uri->port, NULL, 0 ) );
 }

 /**
  * Unparse URI
  *
  * @v buf		Buffer to fill with URI string
  * @v size		Size of buffer
  * @v uri		URI to write into buffer, or NULL
  * @ret len		Length of URI string
  */
 int unparse_uri ( char *buf, size_t size, struct uri *uri ) {
 	int used = 0;

 	DBG ( "URI unparsing" );
 	dump_uri ( uri );
 	DBG ( "\n" );

 	/* Special-case NULL URI */
 	if ( ! uri ) {
 		if ( size )
 			buf[0] = '\0';
 		return 0;
 	}

 	/* Special-case opaque URIs */
 	if ( uri->opaque ) {
 		return ssnprintf ( ( buf + used ), ( size - used ),
 				   "%s:%s", uri->scheme, uri->opaque );
 	}

 	/* scheme:// */
 	if ( uri->scheme ) {
 		used += ssnprintf ( ( buf + used ), ( size - used ),
 				    "%s://", uri->scheme );
 	}

 	/* [user[:password]@]host[:port] */
 	if ( uri->host ) {
 		if ( uri->user ) {
 			used += ssnprintf ( ( buf + used ), ( size - used ),
 					    "%s", uri->user );
 			if ( uri->password ) {
 				used += ssnprintf ( ( buf + used ),
 						    ( size - used ),
 						    ":%s", uri->password );
 			}
 			used += ssnprintf ( ( buf + used ), ( size - used ),
 					    "@" );
 		}
 		used += ssnprintf ( ( buf + used ), ( size - used ), "%s",
 				    uri->host );
 		if ( uri->port ) {
 			used += ssnprintf ( ( buf + used ), ( size - used ),
 					    ":%s", uri->port );
 		}
 	}

 	/* /path */
 	if ( uri->path ) {
 		used += ssnprintf ( ( buf + used ), ( size - used ),
 				    "%s", uri->path );
 	}

 	/* ?query */
 	if ( uri->query ) {
 		used += ssnprintf ( ( buf + used ), ( size - used ),
 				    "?%s", uri->query );
 	}

 	/* #fragment */
 	if ( uri->fragment ) {
 		used += ssnprintf ( ( buf + used ), ( size - used ),
 				    "#%s", uri->fragment );
 	}

 	return used;
 }

 /**
  * Duplicate URI
  *
  * @v uri		URI
  * @ret uri		Duplicate URI
  *
  * Creates a modifiable copy of a URI.
  */
 struct uri * uri_dup ( struct uri *uri ) {
 	size_t len = ( unparse_uri ( NULL, 0, uri ) + 1 );
 	char buf[len];

 	unparse_uri ( buf, len, uri );
 	return parse_uri ( buf );
 }

 /**
  * Resolve base+relative path
  *
  * @v base_uri		Base path
  * @v relative_uri	Relative path
  * @ret resolved_uri	Resolved path
  *
  * Takes a base path (e.g. "/var/lib/tftpboot/vmlinuz" and a relative
  * path (e.g. "initrd.gz") and produces a new path
  * (e.g. "/var/lib/tftpboot/initrd.gz").  Note that any non-directory
  * portion of the base path will automatically be stripped; this
  * matches the semantics used when resolving the path component of
  * URIs.
  */
 char * resolve_path ( const char *base_path,
 		      const char *relative_path ) {
 	size_t base_len = ( strlen ( base_path ) + 1 );
 	char base_path_copy[base_len];
 	char *base_tmp = base_path_copy;
 	char *resolved;

 	/* If relative path is absolute, just re-use it */
 	if ( relative_path[0] == '/' )
 		return strdup ( relative_path );

 	/* Create modifiable copy of path for dirname() */
 	memcpy ( base_tmp, base_path, base_len );
 	base_tmp = dirname ( base_tmp );

 	/* Process "./" and "../" elements */
 	while ( *relative_path == '.' ) {
 		relative_path++;
 		if ( *relative_path == 0 ) {
 			/* Do nothing */
 		} else if ( *relative_path == '/' ) {
 			relative_path++;
 		} else if ( *relative_path == '.' ) {
 			relative_path++;
 			if ( *relative_path == 0 ) {
 				base_tmp = dirname ( base_tmp );
 			} else if ( *relative_path == '/' ) {
 				base_tmp = dirname ( base_tmp );
 				relative_path++;
 			} else {
 				relative_path -= 2;
 				break;
 			}
 		} else {
 			relative_path--;
 			break;
 		}
 	}

 	/* Create and return new path */
 	if ( asprintf ( &resolved, "%s%s%s", base_tmp,
 			( ( base_tmp[ strlen ( base_tmp ) - 1 ] == '/' ) ?
 			  "" : "/" ), relative_path ) < 0 )
 		return NULL;

 	return resolved;
 }

 /**
  * Resolve base+relative URI
  *
  * @v base_uri		Base URI, or NULL
  * @v relative_uri	Relative URI
  * @ret resolved_uri	Resolved URI
  *
  * Takes a base URI (e.g. "http://etherboot.org/kernels/vmlinuz" and a
  * relative URI (e.g. "../initrds/initrd.gz") and produces a new URI
  * (e.g. "http://etherboot.org/initrds/initrd.gz").
  */
 struct uri * resolve_uri ( struct uri *base_uri,
 			   struct uri *relative_uri ) {
 	struct uri tmp_uri;
 	char *tmp_path = NULL;
 	struct uri *new_uri;

 	/* If relative URI is absolute, just re-use it */
 	if ( uri_is_absolute ( relative_uri ) || ( ! base_uri ) )
 		return uri_get ( relative_uri );

 	/* Mangle URI */
 	memcpy ( &tmp_uri, base_uri, sizeof ( tmp_uri ) );
 	if ( relative_uri->path ) {
 		tmp_path = resolve_path ( ( base_uri->path ?
 					    base_uri->path : "/" ),
 					  relative_uri->path );
 		tmp_uri.path = tmp_path;
 		tmp_uri.query = relative_uri->query;
 		tmp_uri.fragment = relative_uri->fragment;
 	} else if ( relative_uri->query ) {
 		tmp_uri.query = relative_uri->query;
 		tmp_uri.fragment = relative_uri->fragment;
 	} else if ( relative_uri->fragment ) {
 		tmp_uri.fragment = relative_uri->fragment;
 	}

 	/* Create demangled URI */
 	new_uri = uri_dup ( &tmp_uri );
 	free ( tmp_path );
 	return new_uri;
 }

 /**
  * Test for unreserved URI characters
  *
  * @v c			Character to test
  * @ret is_unreserved	Character is an unreserved character
  */
 static int is_unreserved_uri_char ( int c ) {
 	/* According to RFC3986, the unreserved character set is
 	 *
 	 * A-Z a-z 0-9 - _ . ~
 	 */
 	return ( isupper ( c ) || islower ( c ) || isdigit ( c ) ||
 		 ( c == '-' ) || ( c == '_' ) ||
 		 ( c == '.' ) || ( c == '~' ) );
 }

 /**
  * URI-encode string
  *
  * @v raw_string	String to be URI-encoded
  * @v buf		Buffer to contain encoded string
  * @v len		Length of buffer
  * @ret len		Length of encoded string (excluding NUL)
  */
 size_t uri_encode ( const char *raw_string, char *buf, size_t len ) {
 	ssize_t remaining = len;
 	size_t used;
 	unsigned char c;

 	if ( len )
 		buf[0] = '\0';

 	while ( ( c = *(raw_string++) ) ) {
 		if ( is_unreserved_uri_char ( c ) ) {
 			used = ssnprintf ( buf, remaining, "%c", c );
 		} else {
 			used = ssnprintf ( buf, remaining, "%%%02X", c );
 		}
 		buf += used;
 		remaining -= used;
 	}

 	return ( len - remaining );
 }

 /**
  * Decode URI-encoded string
  *
  * @v encoded_string	URI-encoded string
  * @v buf		Buffer to contain decoded string
  * @v len		Length of buffer
  * @ret len		Length of decoded string (excluding NUL)
  */
 size_t uri_decode ( const char *encoded_string, char *buf, size_t len ) {
 	ssize_t remaining = len;
 	char hexbuf[3];
 	char *hexbuf_end;
 	unsigned char c;

 	if ( len )
 		buf[0] = '\0';

 	while ( *encoded_string ) {
 		if ( *encoded_string == '%' ) {
 			encoded_string++;
 			snprintf ( hexbuf, sizeof ( hexbuf ), "%s",
 				   encoded_string );
 			c = strtoul ( hexbuf, &hexbuf_end, 16 );
 			encoded_string += ( hexbuf_end - hexbuf );
 		} else {
 			c = *(encoded_string++);
 		}
 		ssnprintf ( buf++, remaining--, "%c", c );
 	}
 	return ( len - remaining );
 }
	/*
	* Copyright (C) 2007 Michael Brown <mbrown@fensystems.co.uk>.
	*
	* This program is free software; you can redistribute it and/or
	* modify it under the terms of the GNU General Public License as
	* published by the Free Software Foundation; either version 2 of the
	* License, or any later version.
	*
	* This program 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
	* General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program; if not, write to the Free Software
	* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
	*/

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

	#include <stdint.h>
	#include <stdlib.h>
	#include <string.h>
	#include <libgen.h>
	#include <ctype.h>
	#include <gpxe/vsprintf.h>
	#include <gpxe/uri.h>

	/**
	* Dump URI for debugging
	*
	* @v uri URI
	*/
	static void dump_uri ( struct uri *uri ) {
	if ( ! uri )
	return;
	if ( uri->scheme )
	DBG ( " scheme \"%s\"", uri->scheme );
	if ( uri->opaque )
	DBG ( " opaque \"%s\"", uri->opaque );
	if ( uri->user )
	DBG ( " user \"%s\"", uri->user );
	if ( uri->password )
	DBG ( " password \"%s\"", uri->password );
	if ( uri->host )
	DBG ( " host \"%s\"", uri->host );
	if ( uri->port )
	DBG ( " port \"%s\"", uri->port );
	if ( uri->path )
	DBG ( " path \"%s\"", uri->path );
	if ( uri->query )
	DBG ( " query \"%s\"", uri->query );
	if ( uri->fragment )
	DBG ( " fragment \"%s\"", uri->fragment );
	}

	/**
	* Parse URI
	*
	* @v uri_string URI as a string
	* @ret uri URI
	*
	* Splits a URI into its component parts. The return URI structure is
	* dynamically allocated and must eventually be freed by calling
	* uri_put().
	*/
	struct uri * parse_uri ( const char *uri_string ) {
	struct uri *uri;
	char *raw;
	char *tmp;
	char *path = NULL;
	char *authority = NULL;
	size_t raw_len;

	/* Allocate space for URI struct and a copy of the string */
	raw_len = ( strlen ( uri_string ) + 1 /* NUL */ );
	uri = zalloc ( sizeof ( *uri ) + raw_len );
	if ( ! uri )
	return NULL;
	raw = ( ( ( char * ) uri ) + sizeof ( *uri ) );

	/* Zero URI struct and copy in the raw string */
	memcpy ( raw, uri_string, raw_len );

	/* Start by chopping off the fragment, if it exists */
	if ( ( tmp = strchr ( raw, '#' ) ) ) {
	*(tmp++) = '\0';
	uri->fragment = tmp;
	}

	/* Identify absolute/relative URI. We ignore schemes that are
	* apparently only a single character long, since otherwise we
	* misinterpret a DOS-style path name ("C:\path\to\file") as a
	* URI with scheme="C",opaque="\path\to\file".
	*/
	if ( ( tmp = strchr ( raw, ':' ) ) && ( tmp > ( raw + 1 ) ) ) {
	/* Absolute URI: identify hierarchical/opaque */
	uri->scheme = raw;
	*(tmp++) = '\0';
	if ( *tmp == '/' ) {
	/* Absolute URI with hierarchical part */
	path = tmp;
	} else {
	/* Absolute URI with opaque part */
	uri->opaque = tmp;
	}
	} else {
	/* Relative URI */
	path = raw;
	}

	/* If we don't have a path (i.e. we have an absolute URI with
	* an opaque portion, we're already finished processing
	*/
	if ( ! path )
	goto done;

	/* Chop off the query, if it exists */
	if ( ( tmp = strchr ( path, '?' ) ) ) {
	*(tmp++) = '\0';
	uri->query = tmp;
	}

	/* Identify net/absolute/relative path */
	if ( strncmp ( path, "//", 2 ) == 0 ) {
	/* Net path. If this is terminated by the first '/'
	* of an absolute path, then we have no space for a
	* terminator after the authority field, so shuffle
	* the authority down by one byte, overwriting one of
	* the two slashes.
	*/
	authority = ( path + 2 );
	if ( ( tmp = strchr ( authority, '/' ) ) ) {
	/* Shuffle down */
	uri->path = tmp;
	memmove ( ( authority - 1 ), authority,
	( tmp - authority ) );
	authority--;
	*(--tmp) = '\0';
	}
	} else {
	/* Absolute/relative path */
	uri->path = path;
	}

	/* Split authority into user[:password] and host[:port] portions */
	if ( ( tmp = strchr ( authority, '@' ) ) ) {
	/* Has user[:password] */
	*(tmp++) = '\0';
	uri->host = tmp;
	uri->user = authority;
	if ( ( tmp = strchr ( authority, ':' ) ) ) {
	/* Has password */
	*(tmp++) = '\0';
	uri->password = tmp;
	}
	} else {
	/* No user:password */
	uri->host = authority;
	}

	/* Split host into host[:port] */
	if ( ( tmp = strchr ( uri->host, ':' ) ) ) {
	*(tmp++) = '\0';
	uri->port = tmp;
	}

	done:
	DBG ( "URI \"%s\" split into", uri_string );
	dump_uri ( uri );
	DBG ( "\n" );

	return uri;
	}

	/**
	* Get port from URI
	*
	* @v uri URI, or NULL
	* @v default_port Default port to use if none specified in URI
	* @ret port Port
	*/
	unsigned int uri_port ( struct uri *uri, unsigned int default_port ) {
	if ( ( ! uri ) \|\| ( ! uri->port ) )
	return default_port;
	return ( strtoul ( uri->port, NULL, 0 ) );
	}

	/**
	* Unparse URI
	*
	* @v buf Buffer to fill with URI string
	* @v size Size of buffer
	* @v uri URI to write into buffer, or NULL
	* @ret len Length of URI string
	*/
	int unparse_uri ( char buf, size_t size, struct uri uri ) {
	int used = 0;

	DBG ( "URI unparsing" );
	dump_uri ( uri );
	DBG ( "\n" );

	/* Special-case NULL URI */
	if ( ! uri ) {
	if ( size )
	buf[0] = '\0';
	return 0;
	}

	/* Special-case opaque URIs */
	if ( uri->opaque ) {
	return ssnprintf ( ( buf + used ), ( size - used ),
	"%s:%s", uri->scheme, uri->opaque );
	}

	/* scheme:// */
	if ( uri->scheme ) {
	used += ssnprintf ( ( buf + used ), ( size - used ),
	"%s://", uri->scheme );
	}

	/* [user[:password]@]host[:port] */
	if ( uri->host ) {
	if ( uri->user ) {
	used += ssnprintf ( ( buf + used ), ( size - used ),
	"%s", uri->user );
	if ( uri->password ) {
	used += ssnprintf ( ( buf + used ),
	( size - used ),
	":%s", uri->password );
	}
	used += ssnprintf ( ( buf + used ), ( size - used ),
	"@" );
	}
	used += ssnprintf ( ( buf + used ), ( size - used ), "%s",
	uri->host );
	if ( uri->port ) {
	used += ssnprintf ( ( buf + used ), ( size - used ),
	":%s", uri->port );
	}
	}

	/* /path */
	if ( uri->path ) {
	used += ssnprintf ( ( buf + used ), ( size - used ),
	"%s", uri->path );
	}

	/* ?query */
	if ( uri->query ) {
	used += ssnprintf ( ( buf + used ), ( size - used ),
	"?%s", uri->query );
	}

	/* #fragment */
	if ( uri->fragment ) {
	used += ssnprintf ( ( buf + used ), ( size - used ),
	"#%s", uri->fragment );
	}

	return used;
	}

	/**
	* Duplicate URI
	*
	* @v uri URI
	* @ret uri Duplicate URI
	*
	* Creates a modifiable copy of a URI.
	*/
	struct uri * uri_dup ( struct uri *uri ) {
	size_t len = ( unparse_uri ( NULL, 0, uri ) + 1 );
	char buf[len];

	unparse_uri ( buf, len, uri );
	return parse_uri ( buf );
	}

	/**
	* Resolve base+relative path
	*
	* @v base_uri Base path
	* @v relative_uri Relative path
	* @ret resolved_uri Resolved path
	*
	* Takes a base path (e.g. "/var/lib/tftpboot/vmlinuz" and a relative
	* path (e.g. "initrd.gz") and produces a new path
	* (e.g. "/var/lib/tftpboot/initrd.gz"). Note that any non-directory
	* portion of the base path will automatically be stripped; this
	* matches the semantics used when resolving the path component of
	* URIs.
	*/
	char * resolve_path ( const char *base_path,
	const char *relative_path ) {
	size_t base_len = ( strlen ( base_path ) + 1 );
	char base_path_copy[base_len];
	char *base_tmp = base_path_copy;
	char *resolved;

	/* If relative path is absolute, just re-use it */
	if ( relative_path[0] == '/' )
	return strdup ( relative_path );

	/* Create modifiable copy of path for dirname() */
	memcpy ( base_tmp, base_path, base_len );
	base_tmp = dirname ( base_tmp );

	/* Process "./" and "../" elements */
	while ( *relative_path == '.' ) {
	relative_path++;
	if ( *relative_path == 0 ) {
	/* Do nothing */
	} else if ( *relative_path == '/' ) {
	relative_path++;
	} else if ( *relative_path == '.' ) {
	relative_path++;
	if ( *relative_path == 0 ) {
	base_tmp = dirname ( base_tmp );
	} else if ( *relative_path == '/' ) {
	base_tmp = dirname ( base_tmp );
	relative_path++;
	} else {
	relative_path -= 2;
	break;
	}
	} else {
	relative_path--;
	break;
	}
	}

	/* Create and return new path */
	if ( asprintf ( &resolved, "%s%s%s", base_tmp,
	( ( base_tmp[ strlen ( base_tmp ) - 1 ] == '/' ) ?
	"" : "/" ), relative_path ) < 0 )
	return NULL;

	return resolved;
	}

	/**
	* Resolve base+relative URI
	*
	* @v base_uri Base URI, or NULL
	* @v relative_uri Relative URI
	* @ret resolved_uri Resolved URI
	*
	* Takes a base URI (e.g. "http://etherboot.org/kernels/vmlinuz" and a
	* relative URI (e.g. "../initrds/initrd.gz") and produces a new URI
	* (e.g. "http://etherboot.org/initrds/initrd.gz").
	*/
	struct uri * resolve_uri ( struct uri *base_uri,
	struct uri *relative_uri ) {
	struct uri tmp_uri;
	char *tmp_path = NULL;
	struct uri *new_uri;

	/* If relative URI is absolute, just re-use it */
	if ( uri_is_absolute ( relative_uri ) \|\| ( ! base_uri ) )
	return uri_get ( relative_uri );

	/* Mangle URI */
	memcpy ( &tmp_uri, base_uri, sizeof ( tmp_uri ) );
	if ( relative_uri->path ) {
	tmp_path = resolve_path ( ( base_uri->path ?
	base_uri->path : "/" ),
	relative_uri->path );
	tmp_uri.path = tmp_path;
	tmp_uri.query = relative_uri->query;
	tmp_uri.fragment = relative_uri->fragment;
	} else if ( relative_uri->query ) {
	tmp_uri.query = relative_uri->query;
	tmp_uri.fragment = relative_uri->fragment;
	} else if ( relative_uri->fragment ) {
	tmp_uri.fragment = relative_uri->fragment;
	}

	/* Create demangled URI */
	new_uri = uri_dup ( &tmp_uri );
	free ( tmp_path );
	return new_uri;
	}

	/**
	* Test for unreserved URI characters
	*
	* @v c Character to test
	* @ret is_unreserved Character is an unreserved character
	*/
	static int is_unreserved_uri_char ( int c ) {
	/* According to RFC3986, the unreserved character set is
	*
	* A-Z a-z 0-9 - _ . ~
	*/
	return ( isupper ( c ) \|\| islower ( c ) \|\| isdigit ( c ) \|\|
	( c == '-' ) \|\| ( c == '_' ) \|\|
	( c == '.' ) \|\| ( c == '~' ) );
	}

	/**
	* URI-encode string
	*
	* @v raw_string String to be URI-encoded
	* @v buf Buffer to contain encoded string
	* @v len Length of buffer
	* @ret len Length of encoded string (excluding NUL)
	*/
	size_t uri_encode ( const char raw_string, char buf, size_t len ) {
	ssize_t remaining = len;
	size_t used;
	unsigned char c;

	if ( len )
	buf[0] = '\0';

	while ( ( c = *(raw_string++) ) ) {
	if ( is_unreserved_uri_char ( c ) ) {
	used = ssnprintf ( buf, remaining, "%c", c );
	} else {
	used = ssnprintf ( buf, remaining, "%%%02X", c );
	}
	buf += used;
	remaining -= used;
	}

	return ( len - remaining );
	}

	/**
	* Decode URI-encoded string
	*
	* @v encoded_string URI-encoded string
	* @v buf Buffer to contain decoded string
	* @v len Length of buffer
	* @ret len Length of decoded string (excluding NUL)
	*/
	size_t uri_decode ( const char encoded_string, char buf, size_t len ) {
	ssize_t remaining = len;
	char hexbuf[3];
	char *hexbuf_end;
	unsigned char c;

	if ( len )
	buf[0] = '\0';

	while ( *encoded_string ) {
	if ( *encoded_string == '%' ) {
	encoded_string++;
	snprintf ( hexbuf, sizeof ( hexbuf ), "%s",
	encoded_string );
	c = strtoul ( hexbuf, &hexbuf_end, 16 );
	encoded_string += ( hexbuf_end - hexbuf );
	} else {
	c = *(encoded_string++);
	}
	ssnprintf ( buf++, remaining--, "%c", c );
	}
	return ( len - remaining );
	}