/* * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * (C) 2001 Dirk Mueller (mueller@kde.org) * (C) 2006 Alexey Proskuryakov (ap@webkit.org) * Copyright (C) 2004, 2005, 2006, 2007, 2008 Apple Inc. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "config.h" #include "KURL.h" #include "LinkHash.h" #include "PlatformString.h" #include <wtf/text/AtomicString.h> #include <wtf/text/StringHash.h> #include <wtf/text/StringImpl.h> namespace WebCore { static inline size_t findSlashDotDotSlash(const UChar* characters, size_t length, size_t position) { if (length < 4) return notFound; size_t loopLimit = length - 3; for (size_t i = position; i < loopLimit; ++i) { if (characters[i] == '/' && characters[i + 1] == '.' && characters[i + 2] == '.' && characters[i + 3] == '/') return i; } return notFound; } static inline size_t findSlashSlash(const UChar* characters, size_t length, size_t position) { if (length < 2) return notFound; size_t loopLimit = length - 1; for (size_t i = position; i < loopLimit; ++i) { if (characters[i] == '/' && characters[i + 1] == '/') return i; } return notFound; } static inline size_t findSlashDotSlash(const UChar* characters, size_t length, size_t position) { if (length < 3) return notFound; size_t loopLimit = length - 2; for (size_t i = position; i < loopLimit; ++i) { if (characters[i] == '/' && characters[i + 1] == '.' && characters[i + 2] == '/') return i; } return notFound; } static inline bool containsColonSlashSlash(const UChar* characters, unsigned length) { if (length < 3) return false; unsigned loopLimit = length - 2; for (unsigned i = 0; i < loopLimit; ++i) { if (characters[i] == ':' && characters[i + 1] == '/' && characters[i + 2] == '/') return true; } return false; } static inline void squeezeOutNullCharacters(Vector<UChar, 512>& string) { size_t size = string.size(); size_t i = 0; for (i = 0; i < size; ++i) { if (!string[i]) break; } if (i == size) return; size_t j = i; for (++i; i < size; ++i) { if (UChar character = string[i]) string[j++] = character; } ASSERT(j < size); string.shrink(j); } static void cleanSlashDotDotSlashes(Vector<UChar, 512>& path, size_t firstSlash) { size_t slash = firstSlash; do { size_t previousSlash = slash ? reverseFind(path.data(), path.size(), '/', slash - 1) : notFound; // Don't remove the host, i.e. http://foo.org/../foo.html if (previousSlash == notFound || (previousSlash > 3 && path[previousSlash - 2] == ':' && path[previousSlash - 1] == '/')) { path[slash] = 0; path[slash + 1] = 0; path[slash + 2] = 0; } else { for (size_t i = previousSlash; i < slash + 3; ++i) path[i] = 0; } slash += 3; } while ((slash = findSlashDotDotSlash(path.data(), path.size(), slash)) != notFound); squeezeOutNullCharacters(path); } static void mergeDoubleSlashes(Vector<UChar, 512>& path, size_t firstSlash) { size_t refPos = find(path.data(), path.size(), '#'); if (!refPos || refPos == notFound) refPos = path.size(); size_t slash = firstSlash; while (slash < refPos) { if (!slash || path[slash - 1] != ':') path[slash++] = 0; else slash += 2; if ((slash = findSlashSlash(path.data(), path.size(), slash)) == notFound) break; } squeezeOutNullCharacters(path); } static void cleanSlashDotSlashes(Vector<UChar, 512>& path, size_t firstSlash) { size_t slash = firstSlash; do { path[slash] = 0; path[slash + 1] = 0; slash += 2; } while ((slash = findSlashDotSlash(path.data(), path.size(), slash)) != notFound); squeezeOutNullCharacters(path); } static inline void cleanPath(Vector<UChar, 512>& path) { // FIXME: Should not do this in the query or anchor part of the URL. size_t firstSlash = findSlashDotDotSlash(path.data(), path.size(), 0); if (firstSlash != notFound) cleanSlashDotDotSlashes(path, firstSlash); // FIXME: Should not do this in the query part. firstSlash = findSlashSlash(path.data(), path.size(), 0); if (firstSlash != notFound) mergeDoubleSlashes(path, firstSlash); // FIXME: Should not do this in the query or anchor part. firstSlash = findSlashDotSlash(path.data(), path.size(), 0); if (firstSlash != notFound) cleanSlashDotSlashes(path, firstSlash); } static inline bool matchLetter(UChar c, UChar lowercaseLetter) { return (c | 0x20) == lowercaseLetter; } static inline bool needsTrailingSlash(const UChar* characters, unsigned length) { if (length < 6) return false; if (!matchLetter(characters[0], 'h') || !matchLetter(characters[1], 't') || !matchLetter(characters[2], 't') || !matchLetter(characters[3], 'p')) return false; if (!(characters[4] == ':' || (matchLetter(characters[4], 's') && characters[5] == ':'))) return false; unsigned pos = characters[4] == ':' ? 5 : 6; // Skip initial two slashes if present. if (pos + 1 < length && characters[pos] == '/' && characters[pos + 1] == '/') pos += 2; // Find next slash. while (pos < length && characters[pos] != '/') ++pos; return pos == length; } static ALWAYS_INLINE LinkHash visitedLinkHashInline(const UChar* url, unsigned length) { return AlreadyHashed::avoidDeletedValue(StringHasher::computeHash(url, length)); } LinkHash visitedLinkHash(const UChar* url, unsigned length) { return visitedLinkHashInline(url, length); } static ALWAYS_INLINE void visitedURLInline(const KURL& base, const AtomicString& attributeURL, Vector<UChar, 512>& buffer) { if (attributeURL.isNull()) return; const UChar* characters = attributeURL.characters(); unsigned length = attributeURL.length(); // This is a poor man's completeURL. Faster with less memory allocation. // FIXME: It's missing a lot of what completeURL does and a lot of what KURL does. // For example, it does not handle international domain names properly. // FIXME: It is wrong that we do not do further processing on strings that have "://" in them: // 1) The "://" could be in the query or anchor. // 2) The URL's path could have a "/./" or a "/../" or a "//" sequence in it. // FIXME: needsTrailingSlash does not properly return true for a URL that has no path, but does // have a query or anchor. bool hasColonSlashSlash = containsColonSlashSlash(characters, length); if (hasColonSlashSlash && !needsTrailingSlash(characters, length)) { buffer.append(attributeURL.characters(), attributeURL.length()); return; } if (hasColonSlashSlash) { // FIXME: This is incorrect for URLs that have a query or anchor; the "/" needs to go at the // end of the path, *before* the query or anchor. buffer.append(characters, length); buffer.append('/'); return; } if (!length) buffer.append(base.string().characters(), base.string().length()); else { switch (characters[0]) { case '/': buffer.append(base.string().characters(), base.pathStart()); break; case '#': buffer.append(base.string().characters(), base.pathEnd()); break; default: buffer.append(base.string().characters(), base.pathAfterLastSlash()); break; } } buffer.append(characters, length); cleanPath(buffer); if (needsTrailingSlash(buffer.data(), buffer.size())) { // FIXME: This is incorrect for URLs that have a query or anchor; the "/" needs to go at the // end of the path, *before* the query or anchor. buffer.append('/'); } return; } void visitedURL(const KURL& base, const AtomicString& attributeURL, Vector<UChar, 512>& buffer) { return visitedURLInline(base, attributeURL, buffer); } LinkHash visitedLinkHash(const KURL& base, const AtomicString& attributeURL) { Vector<UChar, 512> url; visitedURLInline(base, attributeURL, url); if (url.isEmpty()) return 0; return visitedLinkHashInline(url.data(), url.size()); } } // namespace WebCore