path: root/plugins/uriparser/UriCommon.c

/*
 * uriparser - RFC 3986 URI parsing library
 *
 * Copyright (C) 2007, Weijia Song <songweijia@gmail.com>
 * Copyright (C) 2007, Sebastian Pipping <webmaster@hartwork.org>
 * All rights reserved.
 *
 * Redistribution  and use in source and binary forms, with or without
 * modification,  are permitted provided that the following conditions
 * are met:
 *
 *     * Redistributions   of  source  code  must  retain  the   above
 *       copyright  notice, this list of conditions and the  following
 *       disclaimer.
 *
 *     * Redistributions  in  binary  form must  reproduce  the  above
 *       copyright  notice, this list of conditions and the  following
 *       disclaimer   in  the  documentation  and/or  other  materials
 *       provided with the distribution.
 *
 *     * Neither  the name of the <ORGANIZATION> nor the names of  its
 *       contributors  may  be  used to endorse  or  promote  products
 *       derived  from  this software without specific  prior  written
 *       permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS  IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT  NOT
 * LIMITED  TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND  FITNESS
 * FOR  A  PARTICULAR  PURPOSE ARE DISCLAIMED. IN NO EVENT  SHALL  THE
 * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL,    SPECIAL,   EXEMPLARY,   OR   CONSEQUENTIAL   DAMAGES
 * (INCLUDING,  BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 * SERVICES;  LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
 * STRICT  LIABILITY,  OR  TORT (INCLUDING  NEGLIGENCE  OR  OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
 * OF THE POSSIBILITY OF SUCH DAMAGE.
 */

/* What encodings are enabled? */
#include <uriparser/UriDefsConfig.h>
#if (!defined(URI_PASS_ANSI) && !defined(URI_PASS_UNICODE))
/* Include SELF twice */
# ifdef URI_ENABLE_ANSI
#  define URI_PASS_ANSI 1
#  include "UriCommon.c"
#  undef URI_PASS_ANSI
# endif
# ifdef URI_ENABLE_UNICODE
#  define URI_PASS_UNICODE 1
#  include "UriCommon.c"
#  undef URI_PASS_UNICODE
# endif
#else
# ifdef URI_PASS_ANSI
#  include <uriparser/UriDefsAnsi.h>
# else
#  include <uriparser/UriDefsUnicode.h>
#  include <wchar.h>
# endif



#ifndef URI_DOXYGEN
# include <uriparser/Uri.h>
# include "UriCommon.h"
#endif



/*extern*/ const URI_CHAR * const URI_FUNC(SafeToPointTo) = _UT("X");
/*extern*/ const URI_CHAR * const URI_FUNC(ConstPwd) = _UT(".");
/*extern*/ const URI_CHAR * const URI_FUNC(ConstParent) = _UT("..");



void URI_FUNC(ResetUri)(URI_TYPE(Uri) * uri) {
	memset(uri, 0, sizeof(URI_TYPE(Uri)));
}



/* Compares two text ranges for equal text content */
int URI_FUNC(CompareRange)(
		const URI_TYPE(TextRange) * a,
		const URI_TYPE(TextRange) * b) {
	int diff;

	/* NOTE: Both NULL means equal! */
	if ((a == NULL) || (b == NULL)) {
		return ((a == NULL) ? 0 : 1) - ((b == NULL) ? 0 : 1);
	}

	/* NOTE: Both NULL means equal! */
	if ((a->first == NULL) || (b->first == NULL)) {
		return ((a->first == NULL) ? 0 : 1) - ((b->first == NULL) ? 0 : 1);
	}

	diff = ((int)(a->afterLast - a->first) - (int)(b->afterLast - b->first));
	if (diff > 0) {
		return 1;
	} else if (diff < 0) {
		return -1;
	}

	diff = URI_STRNCMP(a->first, b->first, (a->afterLast - a->first));

	if (diff > 0) {
		return 1;
	} else if (diff < 0) {
		return -1;
	}

	return diff;
}



/* Properly removes "." and ".." path segments */
UriBool URI_FUNC(RemoveDotSegments)(URI_TYPE(Uri) * uri,
		UriBool relative) {
	if (uri == NULL) {
		return URI_TRUE;
	}
	return URI_FUNC(RemoveDotSegmentsEx)(uri, relative, uri->owner);
}



UriBool URI_FUNC(RemoveDotSegmentsEx)(URI_TYPE(Uri) * uri,
        UriBool relative, UriBool pathOwned) {
	URI_TYPE(PathSegment) * walker;
	if ((uri == NULL) || (uri->pathHead == NULL)) {
		return URI_TRUE;
	}

	walker = uri->pathHead;
	walker->reserved = NULL; /* Prev pointer */
	do {
		UriBool removeSegment = URI_FALSE;
		int len = (int)(walker->text.afterLast - walker->text.first);
		switch (len) {
		case 1:
			if ((walker->text.first)[0] == _UT('.')) {
				/* "." segment -> remove if not essential */
				URI_TYPE(PathSegment) * const prev = walker->reserved;
				URI_TYPE(PathSegment) * const nextBackup = walker->next;

				/* Is this dot segment essential? */
				removeSegment = URI_TRUE;
				if (relative && (walker == uri->pathHead) && (walker->next != NULL)) {
					const URI_CHAR * ch = walker->next->text.first;
					for (; ch < walker->next->text.afterLast; ch++) {
						if (*ch == _UT(':')) {
							removeSegment = URI_FALSE;
							break;
						}
					}
				}

				if (removeSegment) {
					/* Last segment? */
					if (walker->next != NULL) {
						/* Not last segment */
						walker->next->reserved = prev;

						if (prev == NULL) {
							/* First but not last segment */
							uri->pathHead = walker->next;
						} else {
							/* Middle segment */
							prev->next = walker->next;
						}

						if (pathOwned && (walker->text.first != walker->text.afterLast)) {
							free((URI_CHAR *)walker->text.first);
						}
						free(walker);
					} else {
						/* Last segment */
						if (pathOwned && (walker->text.first != walker->text.afterLast)) {
							free((URI_CHAR *)walker->text.first);
						}

						if (prev == NULL) {
							/* Last and first */
							if (URI_FUNC(IsHostSet)(uri)) {
								/* Replace "." with empty segment to represent trailing slash */
								walker->text.first = URI_FUNC(SafeToPointTo);
								walker->text.afterLast = URI_FUNC(SafeToPointTo);
							} else {
								free(walker);

								uri->pathHead = NULL;
								uri->pathTail = NULL;
							}
						} else {
							/* Last but not first, replace "." with empty segment to represent trailing slash */
							walker->text.first = URI_FUNC(SafeToPointTo);
							walker->text.afterLast = URI_FUNC(SafeToPointTo);
						}
					}

					walker = nextBackup;
				}
			}
			break;

		case 2:
			if (((walker->text.first)[0] == _UT('.'))
					&& ((walker->text.first)[1] == _UT('.'))) {
				/* Path ".." -> remove this and the previous segment */
				URI_TYPE(PathSegment) * const prev = walker->reserved;
				URI_TYPE(PathSegment) * prevPrev;
				URI_TYPE(PathSegment) * const nextBackup = walker->next;

				removeSegment = URI_TRUE;
				if (relative) {
					if (prev == NULL) {
						removeSegment = URI_FALSE;
					} else if ((prev != NULL)
							&& ((prev->text.afterLast - prev->text.first) == 2)
							&& ((prev->text.first)[0] == _UT('.'))
							&& ((prev->text.first)[1] == _UT('.'))) {
						removeSegment = URI_FALSE;
					}
				}

				if (removeSegment) {
					if (prev != NULL) {
						/* Not first segment */
						prevPrev = prev->reserved;
						if (prevPrev != NULL) {
							/* Not even prev is the first one */
							prevPrev->next = walker->next;
							if (walker->next != NULL) {
								walker->next->reserved = prevPrev;
							} else {
								/* Last segment -> insert "" segment to represent trailing slash, update tail */
								URI_TYPE(PathSegment) * const segment = malloc(1 * sizeof(URI_TYPE(PathSegment)));
								if (segment == NULL) {
									if (pathOwned && (walker->text.first != walker->text.afterLast)) {
										free((URI_CHAR *)walker->text.first);
									}
									free(walker);

									if (pathOwned && (prev->text.first != prev->text.afterLast)) {
										free((URI_CHAR *)prev->text.first);
									}
									free(prev);

									return URI_FALSE; /* Raises malloc error */
								}
								memset(segment, 0, sizeof(URI_TYPE(PathSegment)));
								segment->text.first = URI_FUNC(SafeToPointTo);
								segment->text.afterLast = URI_FUNC(SafeToPointTo);
								prevPrev->next = segment;
								uri->pathTail = segment;
							}

							if (pathOwned && (walker->text.first != walker->text.afterLast)) {
								free((URI_CHAR *)walker->text.first);
							}
							free(walker);

							if (pathOwned && (prev->text.first != prev->text.afterLast)) {
								free((URI_CHAR *)prev->text.first);
							}
							free(prev);

							walker = nextBackup;
						} else {
							/* Prev is the first segment */
							if (walker->next != NULL) {
								uri->pathHead = walker->next;
								walker->next->reserved = NULL;

								if (pathOwned && (walker->text.first != walker->text.afterLast)) {
									free((URI_CHAR *)walker->text.first);
								}
								free(walker);
							} else {
								/* Re-use segment for "" path segment to represent trailing slash, update tail */
								URI_TYPE(PathSegment) * const segment = walker;
								if (pathOwned && (segment->text.first != segment->text.afterLast)) {
									free((URI_CHAR *)segment->text.first);
								}
								segment->text.first = URI_FUNC(SafeToPointTo);
								segment->text.afterLast = URI_FUNC(SafeToPointTo);
								uri->pathHead = segment;
								uri->pathTail = segment;
							}

							if (pathOwned && (prev->text.first != prev->text.afterLast)) {
								free((URI_CHAR *)prev->text.first);
							}
							free(prev);

							walker = nextBackup;
						}
					} else {
						URI_TYPE(PathSegment) * const anotherNextBackup = walker->next;
						/* First segment -> update head pointer */
						uri->pathHead = walker->next;
						if (walker->next != NULL) {
							walker->next->reserved = NULL;
						} else {
							/* Last segment -> update tail */
							uri->pathTail = NULL;
						}

						if (pathOwned && (walker->text.first != walker->text.afterLast)) {
							free((URI_CHAR *)walker->text.first);
						}
						free(walker);

						walker = anotherNextBackup;
					}
				}
			}
			break;

		}

		if (!removeSegment) {
			if (walker->next != NULL) {
				walker->next->reserved = walker;
			} else {
				/* Last segment -> update tail */
				uri->pathTail = walker;
			}
			walker = walker->next;
		}
	} while (walker != NULL);

	return URI_TRUE;
}



/* Properly removes "." and ".." path segments */
UriBool URI_FUNC(RemoveDotSegmentsAbsolute)(URI_TYPE(Uri) * uri) {
	const UriBool ABSOLUTE = URI_FALSE;
	return URI_FUNC(RemoveDotSegments)(uri, ABSOLUTE);
}



unsigned char URI_FUNC(HexdigToInt)(URI_CHAR hexdig) {
	switch (hexdig) {
	case _UT('0'):
	case _UT('1'):
	case _UT('2'):
	case _UT('3'):
	case _UT('4'):
	case _UT('5'):
	case _UT('6'):
	case _UT('7'):
	case _UT('8'):
	case _UT('9'):
		return (unsigned char)(9 + hexdig - _UT('9'));

	case _UT('a'):
	case _UT('b'):
	case _UT('c'):
	case _UT('d'):
	case _UT('e'):
	case _UT('f'):
		return (unsigned char)(15 + hexdig - _UT('f'));

	case _UT('A'):
	case _UT('B'):
	case _UT('C'):
	case _UT('D'):
	case _UT('E'):
	case _UT('F'):
		return (unsigned char)(15 + hexdig - _UT('F'));

	default:
		return 0;
	}
}



URI_CHAR URI_FUNC(HexToLetter)(unsigned int value) {
	/* Uppercase recommended in section 2.1. of RFC 3986 *
	 * http://tools.ietf.org/html/rfc3986#section-2.1    */
	return URI_FUNC(HexToLetterEx)(value, URI_TRUE);
}



URI_CHAR URI_FUNC(HexToLetterEx)(unsigned int value, UriBool uppercase) {
	switch (value) {
	case  0: return _UT('0');
	case  1: return _UT('1');
	case  2: return _UT('2');
	case  3: return _UT('3');
	case  4: return _UT('4');
	case  5: return _UT('5');
	case  6: return _UT('6');
	case  7: return _UT('7');
	case  8: return _UT('8');
	case  9: return _UT('9');

	case 10: return (uppercase == URI_TRUE) ? _UT('A') : _UT('a');
	case 11: return (uppercase == URI_TRUE) ? _UT('B') : _UT('b');
	case 12: return (uppercase == URI_TRUE) ? _UT('C') : _UT('c');
	case 13: return (uppercase == URI_TRUE) ? _UT('D') : _UT('d');
	case 14: return (uppercase == URI_TRUE) ? _UT('E') : _UT('e');
	default: return (uppercase == URI_TRUE) ? _UT('F') : _UT('f');
	}
}



/* Checks if a URI has the host component set. */
UriBool URI_FUNC(IsHostSet)(const URI_TYPE(Uri) * uri) {
	return (uri != NULL)
			&& ((uri->hostText.first != NULL)
				|| (uri->hostData.ip4 != NULL)
				|| (uri->hostData.ip6 != NULL)
				|| (uri->hostData.ipFuture.first != NULL)
			);
}



/* Copies the path segment list from one URI to another. */
UriBool URI_FUNC(CopyPath)(URI_TYPE(Uri) * dest,
		const URI_TYPE(Uri) * source) {
	if (source->pathHead == NULL) {
		/* No path component */
		dest->pathHead = NULL;
		dest->pathTail = NULL;
	} else {
		/* Copy list but not the text contained */
		URI_TYPE(PathSegment) * sourceWalker = source->pathHead;
		URI_TYPE(PathSegment) * destPrev = NULL;
		do {
			URI_TYPE(PathSegment) * cur = malloc(sizeof(URI_TYPE(PathSegment)));
			if (cur == NULL) {
				/* Fix broken list */
				if (destPrev != NULL) {
					destPrev->next = NULL;
				}
				return URI_FALSE; /* Raises malloc error */
			}

			/* From this functions usage we know that *
			 * the dest URI cannot be uri->owner      */
			cur->text = sourceWalker->text;
			if (destPrev == NULL) {
				/* First segment ever */
				dest->pathHead = cur;
			} else {
				destPrev->next = cur;
			}
			destPrev = cur;
			sourceWalker = sourceWalker->next;
		} while (sourceWalker != NULL);
		dest->pathTail = destPrev;
		dest->pathTail->next = NULL;
	}

	dest->absolutePath = source->absolutePath;
	return URI_TRUE;
}



/* Copies the authority part of an URI over to another. */
UriBool URI_FUNC(CopyAuthority)(URI_TYPE(Uri) * dest,
		const URI_TYPE(Uri) * source) {
	/* From this functions usage we know that *
	 * the dest URI cannot be uri->owner      */

	/* Copy userInfo */
	dest->userInfo = source->userInfo;

	/* Copy hostText */
	dest->hostText = source->hostText;

	/* Copy hostData */
	if (source->hostData.ip4 != NULL) {
		dest->hostData.ip4 = malloc(sizeof(UriIp4));
		if (dest->hostData.ip4 == NULL) {
			return URI_FALSE; /* Raises malloc error */
		}
		*(dest->hostData.ip4) = *(source->hostData.ip4);
		dest->hostData.ip6 = NULL;
		dest->hostData.ipFuture.first = NULL;
		dest->hostData.ipFuture.afterLast = NULL;
	} else if (source->hostData.ip6 != NULL) {
		dest->hostData.ip4 = NULL;
		dest->hostData.ip6 = malloc(sizeof(UriIp6));
		if (dest->hostData.ip6 == NULL) {
			return URI_FALSE; /* Raises malloc error */
		}
		*(dest->hostData.ip6) = *(source->hostData.ip6);
		dest->hostData.ipFuture.first = NULL;
		dest->hostData.ipFuture.afterLast = NULL;
	} else {
		dest->hostData.ip4 = NULL;
		dest->hostData.ip6 = NULL;
		dest->hostData.ipFuture = source->hostData.ipFuture;
	}

	/* Copy portText */
	dest->portText = source->portText;

	return URI_TRUE;
}



UriBool URI_FUNC(FixAmbiguity)(URI_TYPE(Uri) * uri) {
	URI_TYPE(PathSegment) * segment;

	if (	/* Case 1: absolute path, empty first segment */
			(uri->absolutePath
			&& (uri->pathHead != NULL)
			&& (uri->pathHead->text.afterLast == uri->pathHead->text.first))

			/* Case 2: relative path, empty first and second segment */
			|| (!uri->absolutePath
			&& (uri->pathHead != NULL)
			&& (uri->pathHead->next != NULL)
			&& (uri->pathHead->text.afterLast == uri->pathHead->text.first)
			&& (uri->pathHead->next->text.afterLast == uri->pathHead->next->text.first))) {
		/* NOOP */
	} else {
		return URI_TRUE;
	}

	segment = malloc(1 * sizeof(URI_TYPE(PathSegment)));
	if (segment == NULL) {
		return URI_FALSE; /* Raises malloc error */
	}

	/* Insert "." segment in front */
	segment->next = uri->pathHead;
	segment->text.first = URI_FUNC(ConstPwd);
	segment->text.afterLast = URI_FUNC(ConstPwd) + 1;
	uri->pathHead = segment;
	return URI_TRUE;
}



void URI_FUNC(FixEmptyTrailSegment)(URI_TYPE(Uri) * uri) {
	/* Fix path if only one empty segment */
	if (!uri->absolutePath
			&& !URI_FUNC(IsHostSet)(uri)
			&& (uri->pathHead != NULL)
			&& (uri->pathHead->next == NULL)
			&& (uri->pathHead->text.first == uri->pathHead->text.afterLast)) {
		free(uri->pathHead);
		uri->pathHead = NULL;
		uri->pathTail = NULL;
	}
}



#endif