/* * Copyright (C) 2004, 2007, 2008 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. 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. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``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 APPLE COMPUTER, INC. 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. */ #include "config.h" #if !USE(GOOGLEURL) #include "KURL.h" #include "CString.h" #include "StringHash.h" #include "TextEncoding.h" #include <wtf/HashMap.h> #include <wtf/StdLibExtras.h> #if USE(ICU_UNICODE) #include <unicode/uidna.h> #elif USE(QT4_UNICODE) #include <QUrl> #elif USE(GLIB_UNICODE) #include <glib.h> #include <wtf/gtk/GOwnPtr.h> #endif #include <stdio.h> using namespace std; using namespace WTF; namespace WebCore { typedef Vector<char, 512> CharBuffer; typedef Vector<UChar, 512> UCharBuffer; // FIXME: This file makes too much use of the + operator on String. // We either have to optimize that operator so it doesn't involve // so many allocations, or change this to use Vector<UChar> instead. enum URLCharacterClasses { // alpha SchemeFirstChar = 1 << 0, // ( alpha | digit | "+" | "-" | "." ) SchemeChar = 1 << 1, // mark = "-" | "_" | "." | "!" | "~" | "*" | "'" | "(" | ")" // unreserved = alphanum | mark // ( unreserved | escaped | ";" | ":" | "&" | "=" | "+" | "$" | "," ) UserInfoChar = 1 << 2, // alnum | "." | "-" | "%" // The above is what the specification says, but we are lenient to // match existing practice and also allow: // "_" HostnameChar = 1 << 3, // hexdigit | ":" | "%" IPv6Char = 1 << 4, // "#" | "?" | "/" | nul PathSegmentEndChar = 1 << 5, // not allowed in path BadChar = 1 << 6 }; static const char hexDigits[17] = "0123456789ABCDEF"; static const unsigned char characterClassTable[256] = { /* 0 nul */ PathSegmentEndChar, /* 1 soh */ BadChar, /* 2 stx */ BadChar, /* 3 etx */ BadChar, /* 4 eot */ BadChar, /* 5 enq */ BadChar, /* 6 ack */ BadChar, /* 7 bel */ BadChar, /* 8 bs */ BadChar, /* 9 ht */ BadChar, /* 10 nl */ BadChar, /* 11 vt */ BadChar, /* 12 np */ BadChar, /* 13 cr */ BadChar, /* 14 so */ BadChar, /* 15 si */ BadChar, /* 16 dle */ BadChar, /* 17 dc1 */ BadChar, /* 18 dc2 */ BadChar, /* 19 dc3 */ BadChar, /* 20 dc4 */ BadChar, /* 21 nak */ BadChar, /* 22 syn */ BadChar, /* 23 etb */ BadChar, /* 24 can */ BadChar, /* 25 em */ BadChar, /* 26 sub */ BadChar, /* 27 esc */ BadChar, /* 28 fs */ BadChar, /* 29 gs */ BadChar, /* 30 rs */ BadChar, /* 31 us */ BadChar, /* 32 sp */ BadChar, /* 33 ! */ UserInfoChar, /* 34 " */ BadChar, /* 35 # */ PathSegmentEndChar | BadChar, /* 36 $ */ UserInfoChar, /* 37 % */ UserInfoChar | HostnameChar | IPv6Char | BadChar, /* 38 & */ UserInfoChar, /* 39 ' */ UserInfoChar, /* 40 ( */ UserInfoChar, /* 41 ) */ UserInfoChar, /* 42 * */ UserInfoChar, /* 43 + */ SchemeChar | UserInfoChar, /* 44 , */ UserInfoChar, /* 45 - */ SchemeChar | UserInfoChar | HostnameChar, /* 46 . */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 47 / */ PathSegmentEndChar, /* 48 0 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 49 1 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 50 2 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 51 3 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 52 4 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 53 5 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 54 6 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 55 7 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 56 8 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 57 9 */ SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 58 : */ UserInfoChar | IPv6Char, /* 59 ; */ UserInfoChar, /* 60 < */ BadChar, /* 61 = */ UserInfoChar, /* 62 > */ BadChar, /* 63 ? */ PathSegmentEndChar | BadChar, /* 64 @ */ 0, /* 65 A */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 66 B */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 67 C */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 68 D */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 69 E */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 70 F */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 71 G */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 72 H */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 73 I */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 74 J */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 75 K */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 76 L */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 77 M */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 78 N */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 79 O */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 80 P */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 81 Q */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 82 R */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 83 S */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 84 T */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 85 U */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 86 V */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 87 W */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 88 X */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 89 Y */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 90 Z */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 91 [ */ 0, /* 92 \ */ 0, /* 93 ] */ 0, /* 94 ^ */ 0, /* 95 _ */ UserInfoChar | HostnameChar, /* 96 ` */ 0, /* 97 a */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 98 b */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 99 c */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 100 d */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 101 e */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 102 f */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | IPv6Char, /* 103 g */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 104 h */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 105 i */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 106 j */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 107 k */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 108 l */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 109 m */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 110 n */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 111 o */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 112 p */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 113 q */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 114 r */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 115 s */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 116 t */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 117 u */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 118 v */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 119 w */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 120 x */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 121 y */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 122 z */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar, /* 123 { */ 0, /* 124 | */ 0, /* 125 } */ 0, /* 126 ~ */ UserInfoChar, /* 127 del */ BadChar, /* 128 */ BadChar, /* 129 */ BadChar, /* 130 */ BadChar, /* 131 */ BadChar, /* 132 */ BadChar, /* 133 */ BadChar, /* 134 */ BadChar, /* 135 */ BadChar, /* 136 */ BadChar, /* 137 */ BadChar, /* 138 */ BadChar, /* 139 */ BadChar, /* 140 */ BadChar, /* 141 */ BadChar, /* 142 */ BadChar, /* 143 */ BadChar, /* 144 */ BadChar, /* 145 */ BadChar, /* 146 */ BadChar, /* 147 */ BadChar, /* 148 */ BadChar, /* 149 */ BadChar, /* 150 */ BadChar, /* 151 */ BadChar, /* 152 */ BadChar, /* 153 */ BadChar, /* 154 */ BadChar, /* 155 */ BadChar, /* 156 */ BadChar, /* 157 */ BadChar, /* 158 */ BadChar, /* 159 */ BadChar, /* 160 */ BadChar, /* 161 */ BadChar, /* 162 */ BadChar, /* 163 */ BadChar, /* 164 */ BadChar, /* 165 */ BadChar, /* 166 */ BadChar, /* 167 */ BadChar, /* 168 */ BadChar, /* 169 */ BadChar, /* 170 */ BadChar, /* 171 */ BadChar, /* 172 */ BadChar, /* 173 */ BadChar, /* 174 */ BadChar, /* 175 */ BadChar, /* 176 */ BadChar, /* 177 */ BadChar, /* 178 */ BadChar, /* 179 */ BadChar, /* 180 */ BadChar, /* 181 */ BadChar, /* 182 */ BadChar, /* 183 */ BadChar, /* 184 */ BadChar, /* 185 */ BadChar, /* 186 */ BadChar, /* 187 */ BadChar, /* 188 */ BadChar, /* 189 */ BadChar, /* 190 */ BadChar, /* 191 */ BadChar, /* 192 */ BadChar, /* 193 */ BadChar, /* 194 */ BadChar, /* 195 */ BadChar, /* 196 */ BadChar, /* 197 */ BadChar, /* 198 */ BadChar, /* 199 */ BadChar, /* 200 */ BadChar, /* 201 */ BadChar, /* 202 */ BadChar, /* 203 */ BadChar, /* 204 */ BadChar, /* 205 */ BadChar, /* 206 */ BadChar, /* 207 */ BadChar, /* 208 */ BadChar, /* 209 */ BadChar, /* 210 */ BadChar, /* 211 */ BadChar, /* 212 */ BadChar, /* 213 */ BadChar, /* 214 */ BadChar, /* 215 */ BadChar, /* 216 */ BadChar, /* 217 */ BadChar, /* 218 */ BadChar, /* 219 */ BadChar, /* 220 */ BadChar, /* 221 */ BadChar, /* 222 */ BadChar, /* 223 */ BadChar, /* 224 */ BadChar, /* 225 */ BadChar, /* 226 */ BadChar, /* 227 */ BadChar, /* 228 */ BadChar, /* 229 */ BadChar, /* 230 */ BadChar, /* 231 */ BadChar, /* 232 */ BadChar, /* 233 */ BadChar, /* 234 */ BadChar, /* 235 */ BadChar, /* 236 */ BadChar, /* 237 */ BadChar, /* 238 */ BadChar, /* 239 */ BadChar, /* 240 */ BadChar, /* 241 */ BadChar, /* 242 */ BadChar, /* 243 */ BadChar, /* 244 */ BadChar, /* 245 */ BadChar, /* 246 */ BadChar, /* 247 */ BadChar, /* 248 */ BadChar, /* 249 */ BadChar, /* 250 */ BadChar, /* 251 */ BadChar, /* 252 */ BadChar, /* 253 */ BadChar, /* 254 */ BadChar, /* 255 */ BadChar }; static int copyPathRemovingDots(char* dst, const char* src, int srcStart, int srcEnd); static void encodeRelativeString(const String& rel, const TextEncoding&, CharBuffer& ouput); static String substituteBackslashes(const String&); static bool isValidProtocol(const String&); static inline bool isSchemeFirstChar(char c) { return characterClassTable[static_cast<unsigned char>(c)] & SchemeFirstChar; } static inline bool isSchemeFirstChar(UChar c) { return c <= 0xff && (characterClassTable[c] & SchemeFirstChar); } static inline bool isSchemeChar(char c) { return characterClassTable[static_cast<unsigned char>(c)] & SchemeChar; } static inline bool isSchemeChar(UChar c) { return c <= 0xff && (characterClassTable[c] & SchemeChar); } static inline bool isUserInfoChar(unsigned char c) { return characterClassTable[c] & UserInfoChar; } static inline bool isHostnameChar(unsigned char c) { return characterClassTable[c] & HostnameChar; } static inline bool isIPv6Char(unsigned char c) { return characterClassTable[c] & IPv6Char; } static inline bool isPathSegmentEndChar(char c) { return characterClassTable[static_cast<unsigned char>(c)] & PathSegmentEndChar; } static inline bool isPathSegmentEndChar(UChar c) { return c <= 0xff && (characterClassTable[c] & PathSegmentEndChar); } static inline bool isBadChar(unsigned char c) { return characterClassTable[c] & BadChar; } static inline int hexDigitValue(UChar c) { ASSERT(isASCIIHexDigit(c)); if (c < 'A') return c - '0'; return (c - 'A' + 10) & 0xF; // handle both upper and lower case without a branch } // Copies the source to the destination, assuming all the source characters are // ASCII. The destination buffer must be large enough. Null characters are allowed // in the source string, and no attempt is made to null-terminate the result. static void copyASCII(const UChar* src, int length, char* dest) { for (int i = 0; i < length; i++) dest[i] = static_cast<char>(src[i]); } static void appendASCII(const String& base, const char* rel, size_t len, CharBuffer& buffer) { buffer.resize(base.length() + len + 1); copyASCII(base.characters(), base.length(), buffer.data()); memcpy(buffer.data() + base.length(), rel, len); buffer[buffer.size() - 1] = '\0'; } // FIXME: Move to PlatformString.h eventually. // Returns the index of the first index in string |s| of any of the characters // in |toFind|. |toFind| should be a null-terminated string, all characters up // to the null will be searched. Returns int if not found. static int findFirstOf(const UChar* s, int sLen, int startPos, const char* toFind) { for (int i = startPos; i < sLen; i++) { const char* cur = toFind; while (*cur) { if (s[i] == *(cur++)) return i; } } return -1; } #ifndef NDEBUG static void checkEncodedString(const String& url) { for (unsigned i = 0; i < url.length(); ++i) ASSERT(!(url[i] & ~0x7F)); ASSERT(!url.length() || isSchemeFirstChar(url[0])); } #else static inline void checkEncodedString(const String&) { } #endif inline bool KURL::protocolIs(const String& string, const char* protocol) { return WebCore::protocolIs(string, protocol); } void KURL::invalidate() { m_isValid = false; m_protocolInHTTPFamily = false; m_schemeEnd = 0; m_userStart = 0; m_userEnd = 0; m_passwordEnd = 0; m_hostEnd = 0; m_portEnd = 0; m_pathEnd = 0; m_pathAfterLastSlash = 0; m_queryEnd = 0; m_fragmentEnd = 0; } KURL::KURL(ParsedURLStringTag, const char* url) { parse(url, 0); ASSERT(url == m_string); } KURL::KURL(ParsedURLStringTag, const String& url) { parse(url); ASSERT(url == m_string); } KURL::KURL(const KURL& base, const String& relative) { init(base, relative, UTF8Encoding()); } KURL::KURL(const KURL& base, const String& relative, const TextEncoding& encoding) { // For UTF-{7,16,32}, we want to use UTF-8 for the query part as // we do when submitting a form. A form with GET method // has its contents added to a URL as query params and it makes sense // to be consistent. init(base, relative, encoding.encodingForFormSubmission()); } void KURL::init(const KURL& base, const String& relative, const TextEncoding& encoding) { // Allow resolutions with a null or empty base URL, but not with any other invalid one. // FIXME: Is this a good rule? if (!base.m_isValid && !base.isEmpty()) { m_string = relative; invalidate(); return; } // For compatibility with Win IE, treat backslashes as if they were slashes, // as long as we're not dealing with javascript: or data: URLs. String rel = relative; if (rel.contains('\\') && !(protocolIsJavaScript(rel) || protocolIs(rel, "data"))) rel = substituteBackslashes(rel); String* originalString = &rel; bool allASCII = charactersAreAllASCII(rel.characters(), rel.length()); CharBuffer strBuffer; char* str; size_t len; if (allASCII) { len = rel.length(); strBuffer.resize(len + 1); copyASCII(rel.characters(), len, strBuffer.data()); strBuffer[len] = 0; str = strBuffer.data(); } else { originalString = 0; encodeRelativeString(rel, encoding, strBuffer); str = strBuffer.data(); len = strlen(str); } // Get rid of leading whitespace. while (*str == ' ') { originalString = 0; str++; --len; } // Get rid of trailing whitespace. while (len && str[len - 1] == ' ') { originalString = 0; str[--len] = '\0'; } // According to the RFC, the reference should be interpreted as an // absolute URI if possible, using the "leftmost, longest" // algorithm. If the URI reference is absolute it will have a // scheme, meaning that it will have a colon before the first // non-scheme element. bool absolute = false; char* p = str; if (isSchemeFirstChar(*p)) { ++p; while (isSchemeChar(*p)) { ++p; } if (*p == ':') { if (p[1] != '/' && equalIgnoringCase(base.protocol(), String(str, p - str)) && base.isHierarchical()) { str = p + 1; originalString = 0; } else absolute = true; } } CharBuffer parseBuffer; if (absolute) { parse(str, originalString); } else { // If the base is empty or opaque (e.g. data: or javascript:), then the URL is invalid // unless the relative URL is a single fragment. if (!base.isHierarchical()) { if (str[0] == '#') { appendASCII(base.m_string.left(base.m_queryEnd), str, len, parseBuffer); parse(parseBuffer.data(), 0); } else { m_string = relative; invalidate(); } return; } switch (str[0]) { case '\0': // The reference is empty, so this is a reference to the same document with any fragment identifier removed. *this = base; removeFragmentIdentifier(); break; case '#': { // must be fragment-only reference appendASCII(base.m_string.left(base.m_queryEnd), str, len, parseBuffer); parse(parseBuffer.data(), 0); break; } case '?': { // query-only reference, special case needed for non-URL results appendASCII(base.m_string.left(base.m_pathEnd), str, len, parseBuffer); parse(parseBuffer.data(), 0); break; } case '/': // must be net-path or absolute-path reference if (str[1] == '/') { // net-path appendASCII(base.m_string.left(base.m_schemeEnd + 1), str, len, parseBuffer); parse(parseBuffer.data(), 0); } else { // abs-path appendASCII(base.m_string.left(base.m_portEnd), str, len, parseBuffer); parse(parseBuffer.data(), 0); } break; default: { // must be relative-path reference // Base part plus relative part plus one possible slash added in between plus terminating \0 byte. parseBuffer.resize(base.m_pathEnd + 1 + len + 1); char* bufferPos = parseBuffer.data(); // first copy everything before the path from the base unsigned baseLength = base.m_string.length(); const UChar* baseCharacters = base.m_string.characters(); CharBuffer baseStringBuffer(baseLength); copyASCII(baseCharacters, baseLength, baseStringBuffer.data()); const char* baseString = baseStringBuffer.data(); const char* baseStringStart = baseString; const char* pathStart = baseStringStart + base.m_portEnd; while (baseStringStart < pathStart) *bufferPos++ = *baseStringStart++; char* bufferPathStart = bufferPos; // now copy the base path const char* baseStringEnd = baseString + base.m_pathEnd; // go back to the last slash while (baseStringEnd > baseStringStart && baseStringEnd[-1] != '/') baseStringEnd--; if (baseStringEnd == baseStringStart) { // no path in base, add a path separator if necessary if (base.m_schemeEnd + 1 != base.m_pathEnd && *str && *str != '?' && *str != '#') *bufferPos++ = '/'; } else { bufferPos += copyPathRemovingDots(bufferPos, baseStringStart, 0, baseStringEnd - baseStringStart); } const char* relStringStart = str; const char* relStringPos = relStringStart; while (*relStringPos && *relStringPos != '?' && *relStringPos != '#') { if (relStringPos[0] == '.' && bufferPos[-1] == '/') { if (isPathSegmentEndChar(relStringPos[1])) { // skip over "." segment relStringPos += 1; if (relStringPos[0] == '/') relStringPos++; continue; } else if (relStringPos[1] == '.' && isPathSegmentEndChar(relStringPos[2])) { // skip over ".." segment and rewind the last segment // the RFC leaves it up to the app to decide what to do with excess // ".." segments - we choose to drop them since some web content // relies on this. relStringPos += 2; if (relStringPos[0] == '/') relStringPos++; if (bufferPos > bufferPathStart + 1) bufferPos--; while (bufferPos > bufferPathStart + 1 && bufferPos[-1] != '/') bufferPos--; continue; } } *bufferPos = *relStringPos; relStringPos++; bufferPos++; } // all done with the path work, now copy any remainder // of the relative reference; this will also add a null terminator strcpy(bufferPos, relStringPos); parse(parseBuffer.data(), 0); ASSERT(strlen(parseBuffer.data()) + 1 <= parseBuffer.size()); break; } } } } KURL KURL::copy() const { KURL result = *this; result.m_string = result.m_string.crossThreadString(); return result; } bool KURL::hasPath() const { return m_pathEnd != m_portEnd; } String KURL::lastPathComponent() const { if (!hasPath()) return String(); int end = m_pathEnd - 1; if (m_string[end] == '/') --end; int start = m_string.reverseFind('/', end); if (start < m_portEnd) return String(); ++start; return m_string.substring(start, end - start + 1); } String KURL::protocol() const { return m_string.left(m_schemeEnd); } String KURL::host() const { int start = hostStart(); return decodeURLEscapeSequences(m_string.substring(start, m_hostEnd - start)); } unsigned short KURL::port() const { if (m_hostEnd == m_portEnd) return 0; int number = m_string.substring(m_hostEnd + 1, m_portEnd - m_hostEnd - 1).toInt(); if (number < 0 || number > 0xFFFF) return 0; return number; } String KURL::pass() const { if (m_passwordEnd == m_userEnd) return String(); return decodeURLEscapeSequences(m_string.substring(m_userEnd + 1, m_passwordEnd - m_userEnd - 1)); } String KURL::user() const { return decodeURLEscapeSequences(m_string.substring(m_userStart, m_userEnd - m_userStart)); } String KURL::fragmentIdentifier() const { if (m_fragmentEnd == m_queryEnd) return String(); return m_string.substring(m_queryEnd + 1, m_fragmentEnd - (m_queryEnd + 1)); } bool KURL::hasFragmentIdentifier() const { return m_fragmentEnd != m_queryEnd; } String KURL::baseAsString() const { return m_string.left(m_pathAfterLastSlash); } #ifdef NDEBUG static inline void assertProtocolIsGood(const char*) { } #else static void assertProtocolIsGood(const char* protocol) { const char* p = protocol; while (*p) { ASSERT(*p > ' ' && *p < 0x7F && !(*p >= 'A' && *p <= 'Z')); ++p; } } #endif bool KURL::protocolIs(const char* protocol) const { assertProtocolIsGood(protocol); // JavaScript URLs are "valid" and should be executed even if KURL decides they are invalid. // The free function protocolIsJavaScript() should be used instead. ASSERT(!equalIgnoringCase(protocol, String("javascript"))); if (!m_isValid) return false; // Do the comparison without making a new string object. for (int i = 0; i < m_schemeEnd; ++i) { if (!protocol[i] || toASCIILower(m_string[i]) != protocol[i]) return false; } return !protocol[m_schemeEnd]; // We should have consumed all characters in the argument. } String KURL::query() const { if (m_queryEnd == m_pathEnd) return String(); return m_string.substring(m_pathEnd + 1, m_queryEnd - (m_pathEnd + 1)); } String KURL::path() const { return decodeURLEscapeSequences(m_string.substring(m_portEnd, m_pathEnd - m_portEnd)); } bool KURL::setProtocol(const String& s) { // Firefox and IE remove everything after the first ':'. int separatorPosition = s.find(':'); String newProtocol = s.substring(0, separatorPosition); if (!isValidProtocol(newProtocol)) return false; if (!m_isValid) { parse(newProtocol + ":" + m_string); return true; } parse(newProtocol + m_string.substring(m_schemeEnd)); return true; } void KURL::setHost(const String& s) { if (!m_isValid) return; // FIXME: Non-ASCII characters must be encoded and escaped to match parse() expectations, // and to avoid changing more than just the host. bool slashSlashNeeded = m_userStart == m_schemeEnd + 1; parse(m_string.left(hostStart()) + (slashSlashNeeded ? "//" : "") + s + m_string.substring(m_hostEnd)); } void KURL::removePort() { if (m_hostEnd == m_portEnd) return; parse(m_string.left(m_hostEnd) + m_string.substring(m_portEnd)); } void KURL::setPort(unsigned short i) { if (!m_isValid) return; bool colonNeeded = m_portEnd == m_hostEnd; int portStart = (colonNeeded ? m_hostEnd : m_hostEnd + 1); parse(m_string.left(portStart) + (colonNeeded ? ":" : "") + String::number(i) + m_string.substring(m_portEnd)); } void KURL::setHostAndPort(const String& hostAndPort) { if (!m_isValid) return; // FIXME: Non-ASCII characters must be encoded and escaped to match parse() expectations, // and to avoid changing more than just host and port. bool slashSlashNeeded = m_userStart == m_schemeEnd + 1; parse(m_string.left(hostStart()) + (slashSlashNeeded ? "//" : "") + hostAndPort + m_string.substring(m_portEnd)); } void KURL::setUser(const String& user) { if (!m_isValid) return; // FIXME: Non-ASCII characters must be encoded and escaped to match parse() expectations, // and to avoid changing more than just the user login. String u; int end = m_userEnd; if (!user.isEmpty()) { u = user; if (m_userStart == m_schemeEnd + 1) u = "//" + u; // Add '@' if we didn't have one before. if (end == m_hostEnd || (end == m_passwordEnd && m_string[end] != '@')) u.append('@'); } else { // Remove '@' if we now have neither user nor password. if (m_userEnd == m_passwordEnd && end != m_hostEnd && m_string[end] == '@') end += 1; } parse(m_string.left(m_userStart) + u + m_string.substring(end)); } void KURL::setPass(const String& password) { if (!m_isValid) return; // FIXME: Non-ASCII characters must be encoded and escaped to match parse() expectations, // and to avoid changing more than just the user password. String p; int end = m_passwordEnd; if (!password.isEmpty()) { p = ":" + password + "@"; if (m_userEnd == m_schemeEnd + 1) p = "//" + p; // Eat the existing '@' since we are going to add our own. if (end != m_hostEnd && m_string[end] == '@') end += 1; } else { // Remove '@' if we now have neither user nor password. if (m_userStart == m_userEnd && end != m_hostEnd && m_string[end] == '@') end += 1; } parse(m_string.left(m_userEnd) + p + m_string.substring(end)); } void KURL::setFragmentIdentifier(const String& s) { if (!m_isValid) return; // FIXME: Non-ASCII characters must be encoded and escaped to match parse() expectations. parse(m_string.left(m_queryEnd) + "#" + s); } void KURL::removeFragmentIdentifier() { if (!m_isValid) return; parse(m_string.left(m_queryEnd)); } void KURL::setQuery(const String& query) { if (!m_isValid) return; // FIXME: '#' and non-ASCII characters must be encoded and escaped. // Usually, the query is encoded using document encoding, not UTF-8, but we don't have // access to the document in this function. if ((query.isEmpty() || query[0] != '?') && !query.isNull()) parse(m_string.left(m_pathEnd) + "?" + query + m_string.substring(m_queryEnd)); else parse(m_string.left(m_pathEnd) + query + m_string.substring(m_queryEnd)); } void KURL::setPath(const String& s) { if (!m_isValid) return; // FIXME: encodeWithURLEscapeSequences does not correctly escape '#' and '?', so fragment and query parts // may be inadvertently affected. parse(m_string.left(m_portEnd) + encodeWithURLEscapeSequences(s) + m_string.substring(m_pathEnd)); } String KURL::prettyURL() const { if (!m_isValid) return m_string; Vector<UChar> result; append(result, protocol()); result.append(':'); Vector<UChar> authority; if (m_hostEnd != m_passwordEnd) { if (m_userEnd != m_userStart) { append(authority, user()); authority.append('@'); } append(authority, host()); if (hasPort()) { authority.append(':'); append(authority, String::number(port())); } } if (!authority.isEmpty()) { result.append('/'); result.append('/'); result.append(authority); } else if (protocolIs("file")) { result.append('/'); result.append('/'); } append(result, path()); if (m_pathEnd != m_queryEnd) { result.append('?'); append(result, query()); } if (m_fragmentEnd != m_queryEnd) { result.append('#'); append(result, fragmentIdentifier()); } return String::adopt(result); } String decodeURLEscapeSequences(const String& str) { return decodeURLEscapeSequences(str, UTF8Encoding()); } String decodeURLEscapeSequences(const String& str, const TextEncoding& encoding) { Vector<UChar> result; CharBuffer buffer; int length = str.length(); int decodedPosition = 0; int searchPosition = 0; int encodedRunPosition; while ((encodedRunPosition = str.find('%', searchPosition)) >= 0) { // Find the sequence of %-escape codes. int encodedRunEnd = encodedRunPosition; while (length - encodedRunEnd >= 3 && str[encodedRunEnd] == '%' && isASCIIHexDigit(str[encodedRunEnd + 1]) && isASCIIHexDigit(str[encodedRunEnd + 2])) encodedRunEnd += 3; if (encodedRunEnd == encodedRunPosition) { ++searchPosition; continue; } searchPosition = encodedRunEnd; // Decode the %-escapes into bytes. unsigned runLength = (encodedRunEnd - encodedRunPosition) / 3; buffer.resize(runLength); char* p = buffer.data(); const UChar* q = str.characters() + encodedRunPosition; for (unsigned i = 0; i < runLength; ++i) { *p++ = (hexDigitValue(q[1]) << 4) | hexDigitValue(q[2]); q += 3; } // Decode the bytes into Unicode characters. String decoded = (encoding.isValid() ? encoding : UTF8Encoding()).decode(buffer.data(), p - buffer.data()); if (decoded.isEmpty()) continue; // Build up the string with what we just skipped and what we just decoded. result.append(str.characters() + decodedPosition, encodedRunPosition - decodedPosition); result.append(decoded.characters(), decoded.length()); decodedPosition = encodedRunEnd; } result.append(str.characters() + decodedPosition, length - decodedPosition); return String::adopt(result); } bool KURL::isLocalFile() const { // Including feed here might be a bad idea since drag and drop uses this check // and including feed would allow feeds to potentially let someone's blog // read the contents of the clipboard on a drag, even without a drop. // Likewise with using the FrameLoader::shouldTreatURLAsLocal() function. return protocolIs("file"); } static void appendEscapingBadChars(char*& buffer, const char* strStart, size_t length) { char* p = buffer; const char* str = strStart; const char* strEnd = strStart + length; while (str < strEnd) { unsigned char c = *str++; if (isBadChar(c)) { if (c == '%' || c == '?') { *p++ = c; } else if (c != 0x09 && c != 0x0a && c != 0x0d) { *p++ = '%'; *p++ = hexDigits[c >> 4]; *p++ = hexDigits[c & 0xF]; } } else { *p++ = c; } } buffer = p; } // copy a path, accounting for "." and ".." segments static int copyPathRemovingDots(char* dst, const char* src, int srcStart, int srcEnd) { char* bufferPathStart = dst; // empty path is a special case, and need not have a leading slash if (srcStart != srcEnd) { const char* baseStringStart = src + srcStart; const char* baseStringEnd = src + srcEnd; const char* baseStringPos = baseStringStart; // this code is unprepared for paths that do not begin with a // slash and we should always have one in the source string ASSERT(baseStringPos[0] == '/'); // copy the leading slash into the destination *dst = *baseStringPos; baseStringPos++; dst++; while (baseStringPos < baseStringEnd) { if (baseStringPos[0] == '.' && dst[-1] == '/') { if (baseStringPos[1] == '/' || baseStringPos + 1 == baseStringEnd) { // skip over "." segment baseStringPos += 2; continue; } else if (baseStringPos[1] == '.' && (baseStringPos[2] == '/' || baseStringPos + 2 == baseStringEnd)) { // skip over ".." segment and rewind the last segment // the RFC leaves it up to the app to decide what to do with excess // ".." segments - we choose to drop them since some web content // relies on this. baseStringPos += 3; if (dst > bufferPathStart + 1) dst--; // Note that these two while blocks differ subtly. // The first helps to remove multiple adjoining slashes as we rewind. // The +1 to bufferPathStart in the first while block prevents eating a leading slash while (dst > bufferPathStart + 1 && dst[-1] == '/') dst--; while (dst > bufferPathStart && dst[-1] != '/') dst--; continue; } } *dst = *baseStringPos; baseStringPos++; dst++; } } *dst = '\0'; return dst - bufferPathStart; } static inline bool hasSlashDotOrDotDot(const char* str) { const unsigned char* p = reinterpret_cast<const unsigned char*>(str); if (!*p) return false; unsigned char pc = *p; while (unsigned char c = *++p) { if (c == '.' && (pc == '/' || pc == '.')) return true; pc = c; } return false; } static inline bool matchLetter(char c, char lowercaseLetter) { return (c | 0x20) == lowercaseLetter; } void KURL::parse(const String& string) { checkEncodedString(string); CharBuffer buffer(string.length() + 1); copyASCII(string.characters(), string.length(), buffer.data()); buffer[string.length()] = '\0'; parse(buffer.data(), &string); } void KURL::parse(const char* url, const String* originalString) { if (!url || url[0] == '\0') { // valid URL must be non-empty m_string = originalString ? *originalString : url; invalidate(); return; } if (!isSchemeFirstChar(url[0])) { // scheme must start with an alphabetic character m_string = originalString ? *originalString : url; invalidate(); return; } int schemeEnd = 0; while (isSchemeChar(url[schemeEnd])) schemeEnd++; if (url[schemeEnd] != ':') { m_string = originalString ? *originalString : url; invalidate(); return; } int userStart = schemeEnd + 1; int userEnd; int passwordStart; int passwordEnd; int hostStart; int hostEnd; int portStart; int portEnd; bool hierarchical = url[schemeEnd + 1] == '/'; bool isFile = schemeEnd == 4 && matchLetter(url[0], 'f') && matchLetter(url[1], 'i') && matchLetter(url[2], 'l') && matchLetter(url[3], 'e'); m_protocolInHTTPFamily = matchLetter(url[0], 'h') && matchLetter(url[1], 't') && matchLetter(url[2], 't') && matchLetter(url[3], 'p') && (url[4] == ':' || (matchLetter(url[4], 's') && url[5] == ':')); if (hierarchical && url[schemeEnd + 2] == '/') { // The part after the scheme is either a net_path or an abs_path whose first path segment is empty. // Attempt to find an authority. // FIXME: Authority characters may be scanned twice, and it would be nice to be faster. userStart += 2; userEnd = userStart; int colonPos = 0; while (isUserInfoChar(url[userEnd])) { if (url[userEnd] == ':' && colonPos == 0) colonPos = userEnd; userEnd++; } if (url[userEnd] == '@') { // actual end of the userinfo, start on the host if (colonPos != 0) { passwordEnd = userEnd; userEnd = colonPos; passwordStart = colonPos + 1; } else passwordStart = passwordEnd = userEnd; hostStart = passwordEnd + 1; } else if (url[userEnd] == '[' || isPathSegmentEndChar(url[userEnd])) { // hit the end of the authority, must have been no user // or looks like an IPv6 hostname // either way, try to parse it as a hostname userEnd = userStart; passwordStart = passwordEnd = userEnd; hostStart = userStart; } else { // invalid character m_string = originalString ? *originalString : url; invalidate(); return; } hostEnd = hostStart; // IPV6 IP address if (url[hostEnd] == '[') { hostEnd++; while (isIPv6Char(url[hostEnd])) hostEnd++; if (url[hostEnd] == ']') hostEnd++; else { // invalid character m_string = originalString ? *originalString : url; invalidate(); return; } } else { while (isHostnameChar(url[hostEnd])) hostEnd++; } if (url[hostEnd] == ':') { portStart = portEnd = hostEnd + 1; // possible start of port portEnd = portStart; while (isASCIIDigit(url[portEnd])) portEnd++; } else portStart = portEnd = hostEnd; if (!isPathSegmentEndChar(url[portEnd])) { // invalid character m_string = originalString ? *originalString : url; invalidate(); return; } if (userStart == portEnd && !m_protocolInHTTPFamily && !isFile) { // No authority found, which means that this is not a net_path, but rather an abs_path whose first two // path segments are empty. For file, http and https only, an empty authority is allowed. userStart -= 2; userEnd = userStart; passwordStart = userEnd; passwordEnd = passwordStart; hostStart = passwordEnd; hostEnd = hostStart; portStart = hostEnd; portEnd = hostEnd; } } else { // the part after the scheme must be an opaque_part or an abs_path userEnd = userStart; passwordStart = passwordEnd = userEnd; hostStart = hostEnd = passwordEnd; portStart = portEnd = hostEnd; } int pathStart = portEnd; int pathEnd = pathStart; while (url[pathEnd] && url[pathEnd] != '?' && url[pathEnd] != '#') pathEnd++; int queryStart = pathEnd; int queryEnd = queryStart; if (url[queryStart] == '?') { while (url[queryEnd] && url[queryEnd] != '#') queryEnd++; } int fragmentStart = queryEnd; int fragmentEnd = fragmentStart; if (url[fragmentStart] == '#') { fragmentStart++; fragmentEnd = fragmentStart; while (url[fragmentEnd]) fragmentEnd++; } // assemble it all, remembering the real ranges Vector<char, 4096> buffer(fragmentEnd * 3 + 1); char *p = buffer.data(); const char *strPtr = url; // copy in the scheme const char *schemeEndPtr = url + schemeEnd; while (strPtr < schemeEndPtr) *p++ = *strPtr++; m_schemeEnd = p - buffer.data(); bool hostIsLocalHost = portEnd - userStart == 9 && matchLetter(url[userStart], 'l') && matchLetter(url[userStart+1], 'o') && matchLetter(url[userStart+2], 'c') && matchLetter(url[userStart+3], 'a') && matchLetter(url[userStart+4], 'l') && matchLetter(url[userStart+5], 'h') && matchLetter(url[userStart+6], 'o') && matchLetter(url[userStart+7], 's') && matchLetter(url[userStart+8], 't'); // File URLs need a host part unless it is just file:// or file://localhost bool degenFilePath = pathStart == pathEnd && (hostStart == hostEnd || hostIsLocalHost); bool haveNonHostAuthorityPart = userStart != userEnd || passwordStart != passwordEnd || portStart != portEnd; // add ":" after scheme *p++ = ':'; // if we have at least one authority part or a file URL - add "//" and authority if (isFile ? !degenFilePath : (haveNonHostAuthorityPart || hostStart != hostEnd)) { *p++ = '/'; *p++ = '/'; m_userStart = p - buffer.data(); // copy in the user strPtr = url + userStart; const char* userEndPtr = url + userEnd; while (strPtr < userEndPtr) *p++ = *strPtr++; m_userEnd = p - buffer.data(); // copy in the password if (passwordEnd != passwordStart) { *p++ = ':'; strPtr = url + passwordStart; const char* passwordEndPtr = url + passwordEnd; while (strPtr < passwordEndPtr) *p++ = *strPtr++; } m_passwordEnd = p - buffer.data(); // If we had any user info, add "@" if (p - buffer.data() != m_userStart) *p++ = '@'; // copy in the host, except in the case of a file URL with authority="localhost" if (!(isFile && hostIsLocalHost && !haveNonHostAuthorityPart)) { strPtr = url + hostStart; const char* hostEndPtr = url + hostEnd; while (strPtr < hostEndPtr) *p++ = *strPtr++; } m_hostEnd = p - buffer.data(); // copy in the port if (hostEnd != portStart) { *p++ = ':'; strPtr = url + portStart; const char *portEndPtr = url + portEnd; while (strPtr < portEndPtr) *p++ = *strPtr++; } m_portEnd = p - buffer.data(); } else m_userStart = m_userEnd = m_passwordEnd = m_hostEnd = m_portEnd = p - buffer.data(); // For canonicalization, ensure we have a '/' for no path. // Do this only for hierarchical URL with protocol http or https. if (m_protocolInHTTPFamily && hierarchical && pathEnd == pathStart) *p++ = '/'; // add path, escaping bad characters if (!hierarchical || !hasSlashDotOrDotDot(url)) appendEscapingBadChars(p, url + pathStart, pathEnd - pathStart); else { CharBuffer pathBuffer(pathEnd - pathStart + 1); size_t length = copyPathRemovingDots(pathBuffer.data(), url, pathStart, pathEnd); appendEscapingBadChars(p, pathBuffer.data(), length); } m_pathEnd = p - buffer.data(); // Find the position after the last slash in the path, or // the position before the path if there are no slashes in it. int i; for (i = m_pathEnd; i > m_portEnd; --i) { if (buffer[i - 1] == '/') break; } m_pathAfterLastSlash = i; // add query, escaping bad characters appendEscapingBadChars(p, url + queryStart, queryEnd - queryStart); m_queryEnd = p - buffer.data(); // add fragment, escaping bad characters if (fragmentEnd != queryEnd) { *p++ = '#'; appendEscapingBadChars(p, url + fragmentStart, fragmentEnd - fragmentStart); } m_fragmentEnd = p - buffer.data(); ASSERT(p - buffer.data() <= static_cast<int>(buffer.size())); // If we didn't end up actually changing the original string and // it was already in a String, reuse it to avoid extra allocation. if (originalString && originalString->length() == static_cast<unsigned>(m_fragmentEnd) && strncmp(buffer.data(), url, m_fragmentEnd) == 0) m_string = *originalString; else m_string = String(buffer.data(), m_fragmentEnd); m_isValid = true; } bool equalIgnoringFragmentIdentifier(const KURL& a, const KURL& b) { if (a.m_queryEnd != b.m_queryEnd) return false; unsigned queryLength = a.m_queryEnd; for (unsigned i = 0; i < queryLength; ++i) if (a.string()[i] != b.string()[i]) return false; return true; } bool protocolHostAndPortAreEqual(const KURL& a, const KURL& b) { if (a.m_schemeEnd != b.m_schemeEnd) return false; int hostStartA = a.hostStart(); int hostStartB = b.hostStart(); if (a.m_hostEnd - hostStartA != b.m_hostEnd - hostStartB) return false; // Check the scheme for (int i = 0; i < a.m_schemeEnd; ++i) if (a.string()[i] != b.string()[i]) return false; // And the host for (int i = hostStartA; i < a.m_hostEnd; ++i) if (a.string()[i] != b.string()[i]) return false; if (a.port() != b.port()) return false; return true; } String encodeWithURLEscapeSequences(const String& notEncodedString) { CString asUTF8 = notEncodedString.utf8(); CharBuffer buffer(asUTF8.length() * 3 + 1); char* p = buffer.data(); const char* str = asUTF8.data(); const char* strEnd = str + asUTF8.length(); while (str < strEnd) { unsigned char c = *str++; if (isBadChar(c)) { *p++ = '%'; *p++ = hexDigits[c >> 4]; *p++ = hexDigits[c & 0xF]; } else *p++ = c; } ASSERT(p - buffer.data() <= static_cast<int>(buffer.size())); return String(buffer.data(), p - buffer.data()); } // Appends the punycoded hostname identified by the given string and length to // the output buffer. The result will not be null terminated. static void appendEncodedHostname(UCharBuffer& buffer, const UChar* str, unsigned strLen) { // Needs to be big enough to hold an IDN-encoded name. // For host names bigger than this, we won't do IDN encoding, which is almost certainly OK. const unsigned hostnameBufferLength = 2048; if (strLen > hostnameBufferLength || charactersAreAllASCII(str, strLen)) { buffer.append(str, strLen); return; } #if USE(ICU_UNICODE) UChar hostnameBuffer[hostnameBufferLength]; UErrorCode error = U_ZERO_ERROR; int32_t numCharactersConverted = uidna_IDNToASCII(str, strLen, hostnameBuffer, hostnameBufferLength, UIDNA_ALLOW_UNASSIGNED, 0, &error); if (error == U_ZERO_ERROR) buffer.append(hostnameBuffer, numCharactersConverted); #elif USE(QT4_UNICODE) QByteArray result = QUrl::toAce(String(str, strLen)); buffer.append(result.constData(), result.length()); #elif USE(GLIB_UNICODE) GOwnPtr<gchar> utf8Hostname; GOwnPtr<GError> utf8Err; utf8Hostname.set(g_utf16_to_utf8(str, strLen, 0, 0, &utf8Err.outPtr())); if (utf8Err) return; GOwnPtr<gchar> encodedHostname; encodedHostname.set(g_hostname_to_ascii(utf8Hostname.get())); if (!encodedHostname) return; buffer.append(encodedHostname.get(), strlen(encodedHostname.get())); #endif } static void findHostnamesInMailToURL(const UChar* str, int strLen, Vector<pair<int, int> >& nameRanges) { // In a mailto: URL, host names come after a '@' character and end with a '>' or ',' or '?' or end of string character. // Skip quoted strings so that characters in them don't confuse us. // When we find a '?' character, we are past the part of the URL that contains host names. nameRanges.clear(); int p = 0; while (1) { // Find start of host name or of quoted string. int hostnameOrStringStart = findFirstOf(str, strLen, p, "\"@?"); if (hostnameOrStringStart == -1) return; UChar c = str[hostnameOrStringStart]; p = hostnameOrStringStart + 1; if (c == '?') return; if (c == '@') { // Find end of host name. int hostnameStart = p; int hostnameEnd = findFirstOf(str, strLen, p, ">,?"); bool done; if (hostnameEnd == -1) { hostnameEnd = strLen; done = true; } else { p = hostnameEnd; done = false; } nameRanges.append(make_pair(hostnameStart, hostnameEnd)); if (done) return; } else { // Skip quoted string. ASSERT(c == '"'); while (1) { int escapedCharacterOrStringEnd = findFirstOf(str, strLen, p, "\"\\"); if (escapedCharacterOrStringEnd == -1) return; c = str[escapedCharacterOrStringEnd]; p = escapedCharacterOrStringEnd + 1; // If we are the end of the string, then break from the string loop back to the host name loop. if (c == '"') break; // Skip escaped character. ASSERT(c == '\\'); if (p == strLen) return; ++p; } } } } static bool findHostnameInHierarchicalURL(const UChar* str, int strLen, int& startOffset, int& endOffset) { // Find the host name in a hierarchical URL. // It comes after a "://" sequence, with scheme characters preceding, and // this should be the first colon in the string. // It ends with the end of the string or a ":" or a path segment ending character. // If there is a "@" character, the host part is just the part after the "@". int separator = findFirstOf(str, strLen, 0, ":"); if (separator == -1 || separator + 2 >= strLen || str[separator + 1] != '/' || str[separator + 2] != '/') return false; // Check that all characters before the :// are valid scheme characters. if (!isSchemeFirstChar(str[0])) return false; for (int i = 1; i < separator; ++i) { if (!isSchemeChar(str[i])) return false; } // Start after the separator. int authorityStart = separator + 3; // Find terminating character. int hostnameEnd = strLen; for (int i = authorityStart; i < strLen; ++i) { UChar c = str[i]; if (c == ':' || (isPathSegmentEndChar(c) && c != 0)) { hostnameEnd = i; break; } } // Find "@" for the start of the host name. int userInfoTerminator = findFirstOf(str, strLen, authorityStart, "@"); int hostnameStart; if (userInfoTerminator == -1 || userInfoTerminator > hostnameEnd) hostnameStart = authorityStart; else hostnameStart = userInfoTerminator + 1; startOffset = hostnameStart; endOffset = hostnameEnd; return true; } // Converts all hostnames found in the given input to punycode, preserving the // rest of the URL unchanged. The output will NOT be null-terminated. static void encodeHostnames(const String& str, UCharBuffer& output) { output.clear(); if (protocolIs(str, "mailto")) { Vector<pair<int, int> > hostnameRanges; findHostnamesInMailToURL(str.characters(), str.length(), hostnameRanges); int n = hostnameRanges.size(); int p = 0; for (int i = 0; i < n; ++i) { const pair<int, int>& r = hostnameRanges[i]; output.append(&str.characters()[p], r.first - p); appendEncodedHostname(output, &str.characters()[r.first], r.second - r.first); p = r.second; } // This will copy either everything after the last hostname, or the // whole thing if there is no hostname. output.append(&str.characters()[p], str.length() - p); } else { int hostStart, hostEnd; if (findHostnameInHierarchicalURL(str.characters(), str.length(), hostStart, hostEnd)) { output.append(str.characters(), hostStart); // Before hostname. appendEncodedHostname(output, &str.characters()[hostStart], hostEnd - hostStart); output.append(&str.characters()[hostEnd], str.length() - hostEnd); // After hostname. } else { // No hostname to encode, return the input. output.append(str.characters(), str.length()); } } } static void encodeRelativeString(const String& rel, const TextEncoding& encoding, CharBuffer& output) { UCharBuffer s; encodeHostnames(rel, s); TextEncoding pathEncoding(UTF8Encoding()); // Path is always encoded as UTF-8; other parts may depend on the scheme. int pathEnd = -1; if (encoding != pathEncoding && encoding.isValid() && !protocolIs(rel, "mailto") && !protocolIs(rel, "data") && !protocolIsJavaScript(rel)) { // Find the first instance of either # or ?, keep pathEnd at -1 otherwise. pathEnd = findFirstOf(s.data(), s.size(), 0, "#?"); } if (pathEnd == -1) { CString decoded = pathEncoding.encode(s.data(), s.size(), URLEncodedEntitiesForUnencodables); output.resize(decoded.length()); memcpy(output.data(), decoded.data(), decoded.length()); } else { CString pathDecoded = pathEncoding.encode(s.data(), pathEnd, URLEncodedEntitiesForUnencodables); // Unencodable characters in URLs are represented by converting // them to XML entities and escaping non-alphanumeric characters. CString otherDecoded = encoding.encode(s.data() + pathEnd, s.size() - pathEnd, URLEncodedEntitiesForUnencodables); output.resize(pathDecoded.length() + otherDecoded.length()); memcpy(output.data(), pathDecoded.data(), pathDecoded.length()); memcpy(output.data() + pathDecoded.length(), otherDecoded.data(), otherDecoded.length()); } output.append('\0'); // null-terminate the output. } static String substituteBackslashes(const String& string) { int questionPos = string.find('?'); int hashPos = string.find('#'); int pathEnd; if (hashPos >= 0 && (questionPos < 0 || questionPos > hashPos)) pathEnd = hashPos; else if (questionPos >= 0) pathEnd = questionPos; else pathEnd = string.length(); return string.left(pathEnd).replace('\\','/') + string.substring(pathEnd); } bool KURL::isHierarchical() const { if (!m_isValid) return false; ASSERT(m_string[m_schemeEnd] == ':'); return m_string[m_schemeEnd + 1] == '/'; } void KURL::copyToBuffer(CharBuffer& buffer) const { // FIXME: This throws away the high bytes of all the characters in the string! // That's fine for a valid URL, which is all ASCII, but not for invalid URLs. buffer.resize(m_string.length()); copyASCII(m_string.characters(), m_string.length(), buffer.data()); } bool protocolIs(const String& url, const char* protocol) { // Do the comparison without making a new string object. assertProtocolIsGood(protocol); for (int i = 0; ; ++i) { if (!protocol[i]) return url[i] == ':'; if (toASCIILower(url[i]) != protocol[i]) return false; } } bool protocolIsJavaScript(const String& url) { return protocolIs(url, "javascript"); } bool isValidProtocol(const String& protocol) { // RFC3986: ALPHA *( ALPHA / DIGIT / "+" / "-" / "." ) if (protocol.isEmpty()) return false; if (!isSchemeFirstChar(protocol[0])) return false; unsigned protocolLength = protocol.length(); for (unsigned i = 1; i < protocolLength; i++) { if (!isSchemeChar(protocol[i])) return false; } return true; } bool isDefaultPortForProtocol(unsigned short port, const String& protocol) { if (protocol.isEmpty()) return false; typedef HashMap<String, unsigned, CaseFoldingHash> DefaultPortsMap; DEFINE_STATIC_LOCAL(DefaultPortsMap, defaultPorts, ()); if (defaultPorts.isEmpty()) { defaultPorts.set("http", 80); defaultPorts.set("https", 443); defaultPorts.set("ftp", 21); defaultPorts.set("ftps", 990); } return defaultPorts.get(protocol) == port; } bool portAllowed(const KURL& url) { unsigned short port = url.port(); // Since most URLs don't have a port, return early for the "no port" case. if (!port) return true; // This blocked port list matches the port blocking that Mozilla implements. // See http://www.mozilla.org/projects/netlib/PortBanning.html for more information. static const unsigned short blockedPortList[] = { 1, // tcpmux 7, // echo 9, // discard 11, // systat 13, // daytime 15, // netstat 17, // qotd 19, // chargen 20, // FTP-data 21, // FTP-control 22, // SSH 23, // telnet 25, // SMTP 37, // time 42, // name 43, // nicname 53, // domain 77, // priv-rjs 79, // finger 87, // ttylink 95, // supdup 101, // hostriame 102, // iso-tsap 103, // gppitnp 104, // acr-nema 109, // POP2 110, // POP3 111, // sunrpc 113, // auth 115, // SFTP 117, // uucp-path 119, // nntp 123, // NTP 135, // loc-srv / epmap 139, // netbios 143, // IMAP2 179, // BGP 389, // LDAP 465, // SMTP+SSL 512, // print / exec 513, // login 514, // shell 515, // printer 526, // tempo 530, // courier 531, // Chat 532, // netnews 540, // UUCP 556, // remotefs 563, // NNTP+SSL 587, // ESMTP 601, // syslog-conn 636, // LDAP+SSL 993, // IMAP+SSL 995, // POP3+SSL 2049, // NFS 3659, // apple-sasl / PasswordServer [Apple addition] 4045, // lockd 6000, // X11 6665, // Alternate IRC [Apple addition] 6666, // Alternate IRC [Apple addition] 6667, // Standard IRC [Apple addition] 6668, // Alternate IRC [Apple addition] 6669, // Alternate IRC [Apple addition] }; const unsigned short* const blockedPortListEnd = blockedPortList + sizeof(blockedPortList) / sizeof(blockedPortList[0]); #ifndef NDEBUG // The port list must be sorted for binary_search to work. static bool checkedPortList = false; if (!checkedPortList) { for (const unsigned short* p = blockedPortList; p != blockedPortListEnd - 1; ++p) ASSERT(*p < *(p + 1)); checkedPortList = true; } #endif // If the port is not in the blocked port list, allow it. if (!binary_search(blockedPortList, blockedPortListEnd, port)) return true; // Allow ports 21 and 22 for FTP URLs, as Mozilla does. if ((port == 21 || port == 22) && url.protocolIs("ftp")) return true; // Allow any port number in a file URL, since the port number is ignored. if (url.protocolIs("file")) return true; return false; } String mimeTypeFromDataURL(const String& url) { ASSERT(protocolIs(url, "data")); int index = url.find(';'); if (index == -1) index = url.find(','); if (index != -1) { int len = index - 5; if (len > 0) return url.substring(5, len); return "text/plain"; // Data URLs with no MIME type are considered text/plain. } return ""; } const KURL& blankURL() { DEFINE_STATIC_LOCAL(KURL, staticBlankURL, (ParsedURLString, "about:blank")); return staticBlankURL; } #ifndef NDEBUG void KURL::print() const { printf("%s\n", m_string.utf8().data()); } #endif } #endif // !USE(GOOGLEURL)