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webkit / WebKit / refs/heads/Safari-3-2-branch / . / WebCore / platform / KURL.cpp
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/*
* 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"
#include "KURL.h"
#include "CString.h"
#include "PlatformString.h"
#include "RegularExpression.h"
#include "TextEncoding.h"
#include <wtf/Vector.h>
#if USE(ICU_UNICODE)
#include <unicode/uidna.h>
#elif USE(QT4_UNICODE)
#include <QUrl>
#endif
using namespace std;
using namespace WTF;
namespace WebCore {
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,
// digit | "A" | "B" | "C" | "D" | "E" | "F" | "a" | "b" | "c" | "d" | "e" | "f"
HexDigitChar = 1 << 6,
// not allowed in path
BadChar = 1 << 7
};
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,
/* 47 / */ PathSegmentEndChar,
/* 48 0 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 49 1 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 50 2 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 51 3 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 52 4 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 53 5 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 54 6 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 55 7 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 56 8 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 57 9 */ SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 58 : */ UserInfoChar | IPv6Char, /* 59 ; */ UserInfoChar,
/* 60 < */ BadChar, /* 61 = */ UserInfoChar,
/* 62 > */ BadChar, /* 63 ? */ PathSegmentEndChar | BadChar,
/* 64 @ */ 0,
/* 65 A */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 66 B */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 67 C */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 68 D */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 69 E */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 70 F */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | 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 | HexDigitChar | IPv6Char,
/* 98 b */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 99 c */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 100 d */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 101 e */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | IPv6Char,
/* 102 f */ SchemeFirstChar | SchemeChar | UserInfoChar | HostnameChar | HexDigitChar | 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 char* encodeRelativeString(const KURL &base, const DeprecatedString& rel, const TextEncoding&);
static DeprecatedString substituteBackslashes(const DeprecatedString &string);
static inline bool isSchemeFirstChar(unsigned char c) { return characterClassTable[c] & SchemeFirstChar; }
static inline bool isSchemeChar(unsigned char c) { return 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(unsigned char c) { return characterClassTable[c] & PathSegmentEndChar; }
static inline bool isBadChar(unsigned char c) { return characterClassTable[c] & BadChar; }
static inline bool isHexDigit(unsigned char c) { return characterClassTable[c] & HexDigitChar; }
static inline int hexDigitValue(unsigned char c)
{
ASSERT(isHexDigit(c));
if (c < 'A')
return c - '0';
return (c - 'A' + 10) & 0xF; // handle both upper and lower case without a branch
}
// KURL
KURL::KURL() : m_isValid(false)
{
}
KURL::KURL(const char *url)
{
if (url && url[0] == '/') {
// 5 for "file:", 1 for terminator
size_t urlLength = strlen(url) + 1;
Vector<char, 2048> buffer(urlLength + 5);
buffer[0] = 'f';
buffer[1] = 'i';
buffer[2] = 'l';
buffer[3] = 'e';
buffer[4] = ':';
memcpy(&buffer[5], url, urlLength);
parse(buffer.data(), 0);
} else
parse(url, 0);
}
KURL::KURL(const DeprecatedString &url)
{
if (!url.isEmpty() && url[0] == '/') {
// 5 for "file:", 1 for terminator
Vector<char, 2048> buffer(url.length() + 6);
buffer[0] = 'f';
buffer[1] = 'i';
buffer[2] = 'l';
buffer[3] = 'e';
buffer[4] = ':';
url.copyLatin1(&buffer[5]);
parse(buffer.data(), 0);
} else
parse(url.ascii(), &url);
}
KURL::KURL(const KURL& base, const DeprecatedString& relative)
{
init(base, relative, UTF8Encoding());
}
KURL::KURL(const KURL& base, const DeprecatedString& relative, const TextEncoding& encoding)
{
init(base, relative, encoding);
}
void KURL::init(const KURL &base, const DeprecatedString &relative, const TextEncoding& encoding)
{
// Allow at least absolute URLs to resolve against an empty URL.
if (!base.m_isValid && !base.isEmpty()) {
m_isValid = false;
return;
}
bool absolute = false;
// for compatibility with Win IE, we must treat backslashes as if they were slashes, as long as we're not dealing with the javascript: schema
DeprecatedString substitutedRelative;
bool shouldSubstituteBackslashes = relative.contains('\\') && !(relative.startsWith("javascript:", false) || relative.startsWith("data:", false));
if (shouldSubstituteBackslashes)
substitutedRelative = substituteBackslashes(relative);
const DeprecatedString &rel = shouldSubstituteBackslashes ? substitutedRelative : relative;
bool allASCII = rel.isAllASCII();
char *strBuffer;
const char *str;
if (allASCII) {
strBuffer = 0;
str = rel.ascii();
} else {
strBuffer = encodeRelativeString(base, rel, encoding);
str = strBuffer;
}
// workaround for sites that put leading whitespace whitespace on
// URL references
bool strippedStart = false;
while (*str == ' ') {
str++;
strippedStart = true;
}
// workaround for trailing whitespace - a bit more complicated cause we have to copy
// it would be even better to replace null-termination with a length parameter
int len = strlen(str);
int charsToChopOffEnd = 0;
for (int pos = len - 1; pos >= 0 && str[pos] == ' '; pos--) {
charsToChopOffEnd++;
}
if (charsToChopOffEnd > 0) {
char *newStrBuffer = (char *)fastMalloc((len + 1) - charsToChopOffEnd);
strncpy(newStrBuffer, str, len - charsToChopOffEnd);
newStrBuffer[len - charsToChopOffEnd] = '\0';
fastFree(strBuffer);
strBuffer = newStrBuffer;
str = strBuffer;
}
// 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.
const char *p = str;
if (isSchemeFirstChar(*p)) {
++p;
while (isSchemeChar(*p)) {
++p;
}
if (*p == ':') {
if (p[1] != '/' && base.protocol().lower() == DeprecatedString(str, p - str).lower() && base.isHierarchical())
str = p + 1;
else
absolute = true;
}
}
if (absolute) {
parse(str, (allASCII && !strippedStart && (charsToChopOffEnd == 0)) ? &rel : 0);
} 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] == '#') {
DeprecatedString newURL = base.urlString.left(base.queryEndPos) + str;
parse(newURL.ascii(), &newURL);
} else
m_isValid = false;
if (strBuffer)
fastFree(strBuffer);
return;
}
switch(str[0]) {
case '\0':
// the reference must be empty - the RFC says this is a
// reference to the same document
{
*this = base;
break;
}
case '#':
// must be fragment-only reference
{
DeprecatedString newURL = base.urlString.left(base.queryEndPos) + str;
parse(newURL.ascii(), &newURL);
break;
}
case '?':
// query-only reference, special case needed for non-URL results
{
DeprecatedString newURL = base.urlString.left(base.pathEndPos) + str;
parse(newURL.ascii(), &newURL);
break;
}
case '/':
// must be net-path or absolute-path reference
{
if (str[1] == '/') {
// net-path
DeprecatedString newURL = base.urlString.left(base.schemeEndPos + 1) + str;
parse(newURL.ascii(), &newURL);
} else {
// abs-path
DeprecatedString newURL = base.urlString.left(base.portEndPos) + str;
parse(newURL.ascii(), &newURL);
}
break;
}
default:
{
// must be relative-path reference
// Base part plus relative part plus one possible slash added in between plus terminating \0 byte.
Vector<char, 2048> buffer(base.pathEndPos + 1 + strlen(str) + 1);
char *bufferPos = buffer.data();
// first copy everything before the path from the base
const char *baseString = base.urlString.ascii();
const char *baseStringStart = baseString;
const char *pathStart = baseStringStart + base.portEndPos;
while (baseStringStart < pathStart) {
*bufferPos++ = *baseStringStart++;
}
char *bufferPathStart = bufferPos;
// now copy the base path
const char *baseStringEnd = baseString + base.pathEndPos;
// 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.schemeEndPos + 1 != base.pathEndPos && *str != '\0' && *str != '?' && *str != '#') {
*bufferPos++ = '/';
}
} else {
bufferPos += copyPathRemovingDots(bufferPos, baseStringStart, 0, baseStringEnd - baseStringStart);
}
const char *relStringStart = str;
const char *relStringPos = relStringStart;
while (*relStringPos != '\0' && *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(buffer.data(), 0);
ASSERT(strlen(buffer.data()) + 1 <= buffer.size());
break;
}
}
}
if (strBuffer) {
fastFree(strBuffer);
}
}
bool KURL::hasPath() const
{
return m_isValid && pathEndPos != portEndPos;
}
DeprecatedString KURL::lastPathComponent() const
{
if (!hasPath())
return DeprecatedString();
int end = pathEndPos - 1;
if (urlString[end] == '/')
--end;
int start = urlString.findRev('/', end);
if (start < portEndPos)
return DeprecatedString();
++start;
return urlString.mid(start, end - start + 1);
}
DeprecatedString KURL::protocol() const
{
if (!m_isValid) {
return DeprecatedString();
}
return urlString.left(schemeEndPos);
}
DeprecatedString KURL::host() const
{
if (!m_isValid) {
return DeprecatedString();
}
int start = (passwordEndPos == userStartPos) ? passwordEndPos : passwordEndPos + 1;
return decode_string(urlString.mid(start, hostEndPos - start));
}
unsigned short int KURL::port() const
{
if (!m_isValid) {
return 0;
}
if (hostEndPos != portEndPos) {
bool ok;
unsigned short result = urlString.mid(hostEndPos + 1, portEndPos - hostEndPos - 1).toUShort(&ok);
if (!ok) {
result = 0;
}
return result;
}
return 0;
}
DeprecatedString KURL::pass() const
{
if (!m_isValid) {
return DeprecatedString();
}
if (passwordEndPos == userEndPos) {
return DeprecatedString();
}
return decode_string(urlString.mid(userEndPos + 1, passwordEndPos - userEndPos - 1));
}
DeprecatedString KURL::user() const
{
if (!m_isValid) {
return DeprecatedString();
}
return decode_string(urlString.mid(userStartPos, userEndPos - userStartPos));
}
DeprecatedString KURL::ref() const
{
if (!m_isValid || fragmentEndPos == queryEndPos) {
return DeprecatedString();
}
return urlString.mid(queryEndPos + 1, fragmentEndPos - (queryEndPos + 1));
}
bool KURL::hasRef() const
{
return m_isValid && fragmentEndPos != queryEndPos;
}
DeprecatedString KURL::query() const
{
if (!m_isValid) {
return DeprecatedString();
}
return urlString.mid(pathEndPos, queryEndPos - pathEndPos);
}
DeprecatedString KURL::path() const
{
if (!m_isValid) {
return DeprecatedString();
}
return decode_string(urlString.mid(portEndPos, pathEndPos - portEndPos));
}
void KURL::setProtocol(const DeprecatedString &s)
{
if (!m_isValid) {
DeprecatedString newURL = s + ":" + urlString;
parse(newURL.ascii(), &newURL);
return;
}
DeprecatedString newURL = s + urlString.mid(schemeEndPos);
parse(newURL.ascii(), &newURL);
}
void KURL::setHost(const DeprecatedString &s)
{
if (m_isValid) {
bool slashSlashNeeded = userStartPos == schemeEndPos + 1;
int hostStart = (passwordEndPos == userStartPos) ? passwordEndPos : passwordEndPos + 1;
DeprecatedString newURL = urlString.left(hostStart) + (slashSlashNeeded ? "//" : DeprecatedString()) + s + urlString.mid(hostEndPos);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setPort(unsigned short i)
{
if (m_isValid) {
bool colonNeeded = portEndPos == hostEndPos;
int portStart = (colonNeeded ? hostEndPos : hostEndPos + 1);
DeprecatedString newURL = urlString.left(portStart) + (colonNeeded ? ":" : DeprecatedString()) + DeprecatedString::number(i) + urlString.mid(portEndPos);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setHostAndPort(const DeprecatedString& hostAndPort)
{
if (m_isValid) {
bool slashSlashNeeded = userStartPos == schemeEndPos + 1;
int hostStart = (passwordEndPos == userStartPos) ? passwordEndPos : passwordEndPos + 1;
DeprecatedString newURL = urlString.left(hostStart) + (slashSlashNeeded ? "//" : DeprecatedString()) + hostAndPort + urlString.mid(portEndPos);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setUser(const DeprecatedString &user)
{
if (m_isValid) {
DeprecatedString u;
int end = userEndPos;
if (!user.isEmpty()) {
u = user;
if (userStartPos == schemeEndPos + 1)
u = "//" + u;
// Add '@' if we didn't have one before.
if (end == hostEndPos || (end == passwordEndPos && urlString[end] != '@'))
u += '@';
} else {
// Remove '@' if we now have neither user nor password.
if (userEndPos == passwordEndPos && end != hostEndPos && urlString[end] == '@')
end += 1;
}
const DeprecatedString newURL = urlString.left(userStartPos) + u + urlString.mid(end);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setPass(const DeprecatedString &password)
{
if (m_isValid) {
DeprecatedString p;
int end = passwordEndPos;
if (!password.isEmpty()) {
p = ':' + password + '@';
if (userEndPos == schemeEndPos + 1)
p = "//" + p;
// Eat the existing '@' since we are going to add our own.
if (end != hostEndPos && urlString[end] == '@')
end += 1;
} else {
// Remove '@' if we now have neither user nor password.
if (userStartPos == userEndPos && end != hostEndPos && urlString[end] == '@')
end += 1;
}
const DeprecatedString newURL = urlString.left(userEndPos) + p + urlString.mid(end);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setRef(const DeprecatedString &s)
{
if (m_isValid) {
DeprecatedString newURL = urlString.left(queryEndPos) + (s.isEmpty() ? DeprecatedString() : "#" + s);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setQuery(const DeprecatedString &query)
{
if (m_isValid) {
DeprecatedString q;
if (!query.isNull() && (query.isEmpty() || query[0] != '?')) {
q = "?" + query;
} else {
q = query;
}
DeprecatedString newURL = urlString.left(pathEndPos) + q + urlString.mid(queryEndPos);
parse(newURL.ascii(), &newURL);
}
}
void KURL::setPath(const DeprecatedString &s)
{
if (m_isValid) {
DeprecatedString newURL = urlString.left(portEndPos) + encode_string(s) + urlString.mid(pathEndPos);
parse(newURL.ascii(), &newURL);
}
}
DeprecatedString KURL::prettyURL() const
{
if (!m_isValid) {
return urlString;
}
DeprecatedString result = protocol() + ":";
DeprecatedString authority;
if (hostEndPos != passwordEndPos) {
if (userEndPos != userStartPos) {
authority += user();
authority += "@";
}
authority += host();
if (port() != 0) {
authority += ":";
authority += DeprecatedString::number(port());
}
}
if (!authority.isEmpty())
result += "//" + authority;
else if (protocol() == "file")
result += "//";
result += path();
result += query();
if (fragmentEndPos != queryEndPos) {
result += "#" + ref();
}
return result;
}
DeprecatedString KURL::decode_string(const DeprecatedString& urlString)
{
return decode_string(urlString, UTF8Encoding());
}
DeprecatedString KURL::decode_string(const DeprecatedString& urlString, const TextEncoding& encoding)
{
DeprecatedString result("");
Vector<char, 2048> buffer(0);
int length = urlString.length();
int decodedPosition = 0;
int searchPosition = 0;
int encodedRunPosition;
while ((encodedRunPosition = urlString.find('%', searchPosition)) >= 0) {
// Find the sequence of %-escape codes.
int encodedRunEnd = encodedRunPosition;
while (length - encodedRunEnd >= 3
&& urlString[encodedRunEnd] == '%'
&& isHexDigit(urlString[encodedRunEnd + 1].latin1())
&& isHexDigit(urlString[encodedRunEnd + 2].latin1()))
encodedRunEnd += 3;
if (encodedRunEnd == encodedRunPosition) {
++searchPosition;
continue;
}
searchPosition = encodedRunEnd;
// Copy the entire %-escape sequence into an 8-bit buffer.
int encodedRunLength = encodedRunEnd - encodedRunPosition;
buffer.clear();
buffer.grow(encodedRunLength + 1);
urlString.copyLatin1(buffer.data(), encodedRunPosition, encodedRunLength);
// Decode the %-escapes into bytes.
char *p = buffer.data();
const char *q = buffer.data();
while (*q) {
*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(urlString.mid(decodedPosition, encodedRunPosition - decodedPosition));
result.append(reinterpret_cast<const DeprecatedChar*>(decoded.characters()), decoded.length());
decodedPosition = encodedRunEnd;
}
result.append(urlString.mid(decodedPosition, length - decodedPosition));
return 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 equalIgnoringCase(protocol(), "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 char *url, const DeprecatedString *originalString)
{
m_isValid = true;
if (!url || url[0] == '\0') {
// valid URL must be non-empty
m_isValid = false;
urlString = url;
return;
}
if (!isSchemeFirstChar(url[0])) {
// scheme must start with an alphabetic character
m_isValid = false;
urlString = url;
return;
}
int schemeEnd = 0;
while (isSchemeChar(url[schemeEnd])) {
schemeEnd++;
}
if (url[schemeEnd] != ':') {
m_isValid = false;
urlString = url;
return;
}
int userStart = schemeEnd + 1;
int userEnd;
int passwordStart;
int passwordEnd;
int hostStart;
int hostEnd;
int portStart;
int portEnd;
bool hierarchical = url[schemeEnd + 1] == '/';
if (hierarchical && url[schemeEnd + 2] == '/') {
// part after the scheme must be a net_path, parse the authority section
// FIXME: authority characters may be scanned twice
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_isValid = false;
urlString = url;
return;
}
hostEnd = hostStart;
// IPV6 IP address
if (url[hostEnd] == '[') {
hostEnd++;
while (isIPv6Char(url[hostEnd])) {
hostEnd++;
}
if (url[hostEnd] == ']') {
hostEnd++;
} else {
// invalid character
m_isValid = false;
urlString = url;
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_isValid = false;
urlString = url;
return;
}
} 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;
int queryStart;
int queryEnd;
int fragmentStart;
int fragmentEnd;
if (!hierarchical) {
while (url[pathEnd] != '\0' && url[pathEnd] != '?' && url[pathEnd] != '#')
pathEnd++;
queryStart = pathEnd;
queryEnd = queryStart;
if (url[queryStart] == '?') {
while (url[queryEnd] != '\0' && url[queryEnd] != '#')
queryEnd++;
}
fragmentStart = queryEnd;
fragmentEnd = fragmentStart;
if (url[fragmentStart] == '#') {
fragmentStart++;
fragmentEnd = fragmentStart;
while (url[fragmentEnd] != '\0')
fragmentEnd++;
}
}
else {
while (url[pathEnd] != '\0' && url[pathEnd] != '?' && url[pathEnd] != '#') {
pathEnd++;
}
queryStart = pathEnd;
queryEnd = queryStart;
if (url[queryStart] == '?') {
while (url[queryEnd] != '\0' && url[queryEnd] != '#') {
queryEnd++;
}
}
fragmentStart = queryEnd;
fragmentEnd = fragmentStart;
if (url[fragmentStart] == '#') {
fragmentStart++;
fragmentEnd = fragmentStart;
while (url[fragmentEnd] != '\0') {
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++;
}
schemeEndPos = p - buffer.data();
// Check if we're http or https.
bool isHTTPorHTTPS = matchLetter(url[0], 'h')
&& matchLetter(url[1], 't')
&& matchLetter(url[2], 't')
&& matchLetter(url[3], 'p')
&& (url[4] == ':'
|| (matchLetter(url[4], 's') && url[5] == ':'));
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');
bool isFile = matchLetter(url[0], 'f')
&& matchLetter(url[1], 'i')
&& matchLetter(url[2], 'l')
&& matchLetter(url[3], 'e')
&& url[4] == ':';
// 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)) {
//if ((isFile && !degenFilePath) || haveNonHostAuthorityPart || hostStart != hostEnd) {
// still adds // for file://localhost, file://
//if (!(isFile && degenFilePath) && (haveNonHostAuthorityPart || hostStart != hostEnd)) {
//doesn't add // for things like file:///foo
*p++ = '/';
*p++ = '/';
userStartPos = p - buffer.data();
// copy in the user
strPtr = url + userStart;
const char *userEndPtr = url + userEnd;
while (strPtr < userEndPtr) {
*p++ = *strPtr++;
}
userEndPos = p - buffer.data();
// copy in the password
if (passwordEnd != passwordStart) {
*p++ = ':';
strPtr = url + passwordStart;
const char *passwordEndPtr = url + passwordEnd;
while (strPtr < passwordEndPtr) {
*p++ = *strPtr++;
}
}
passwordEndPos = p - buffer.data();
// If we had any user info, add "@"
if (p - buffer.data() != userStartPos) {
*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++;
}
}
hostEndPos = p - buffer.data();
// copy in the port
if (hostEnd != portStart) {
*p++ = ':';
strPtr = url + portStart;
const char *portEndPtr = url + portEnd;
while (strPtr < portEndPtr) {
*p++ = *strPtr++;
}
}
portEndPos = p - buffer.data();
} else {
userStartPos = userEndPos = passwordEndPos = hostEndPos = portEndPos = p - buffer.data();
}
// For canonicalization, ensure we have a '/' for no path.
// Only do this for http and https.
if (isHTTPorHTTPS && pathEnd - pathStart == 0) {
*p++ = '/';
}
// add path, escaping bad characters
if (hierarchical && hasSlashDotOrDotDot(url)) {
Vector<char, 4096> path_buffer(pathEnd - pathStart + 1);
copyPathRemovingDots(path_buffer.data(), url, pathStart, pathEnd);
appendEscapingBadChars(p, path_buffer.data(), strlen(path_buffer.data()));
} else
appendEscapingBadChars(p, url + pathStart, pathEnd - pathStart);
pathEndPos = p - buffer.data();
// add query, escaping bad characters
appendEscapingBadChars(p, url + queryStart, queryEnd - queryStart);
queryEndPos = p - buffer.data();
// add fragment, escaping bad characters
if (fragmentEnd != queryEnd) {
*p++ = '#';
appendEscapingBadChars(p, url + fragmentStart, fragmentEnd - fragmentStart);
}
fragmentEndPos = p - buffer.data();
// If we didn't end up actually changing the original string and
// it started as a DeprecatedString, just reuse it, to avoid extra
// allocation.
if (originalString && strncmp(buffer.data(), url, fragmentEndPos) == 0) {
urlString = *originalString;
} else
urlString = DeprecatedString(buffer.data(), fragmentEndPos);
ASSERT(p - buffer.data() <= (int)buffer.size());
}
bool operator==(const KURL &a, const KURL &b)
{
return a.urlString == b.urlString;
}
bool equalIgnoringRef(const KURL& a, const KURL& b)
{
return a.urlString.left(a.queryEndPos) == b.urlString.left(b.queryEndPos);
}
DeprecatedString KURL::encode_string(const DeprecatedString& notEncodedString)
{
DeprecatedCString asUTF8 = notEncodedString.utf8();
Vector<char, 4096> buffer(asUTF8.length() * 3 + 1);
char *p = buffer.data();
const char *str = asUTF8;
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;
}
DeprecatedString result(buffer.data(), p - buffer.data());
ASSERT(p - buffer.data() <= (int)buffer.size());
return result;
}
static DeprecatedString encodeHostname(const DeprecatedString &s)
{
// 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 (s.isAllASCII() || s.length() > hostnameBufferLength)
return s;
#if USE(ICU_UNICODE)
UChar buffer[hostnameBufferLength];
UErrorCode error = U_ZERO_ERROR;
int32_t numCharactersConverted = uidna_IDNToASCII
(reinterpret_cast<const UChar *>(s.unicode()), s.length(), buffer, hostnameBufferLength, UIDNA_ALLOW_UNASSIGNED, 0, &error);
if (error != U_ZERO_ERROR) {
return s;
}
return DeprecatedString(reinterpret_cast<DeprecatedChar *>(buffer), numCharactersConverted);
#elif USE(QT4_UNICODE)
QByteArray result = QUrl::toAce(s);
return DeprecatedString(result.constData(), result.length());
#endif
}
static Vector<pair<int, int> > findHostnamesInMailToURL(const DeprecatedString &s)
{
// 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.
Vector<pair<int, int> > a;
int p = 0;
while (1) {
// Find start of host name or of quoted string.
int hostnameOrStringStart = s.find(RegularExpression("[\"@?]"), p);
if (hostnameOrStringStart == -1) {
return a;
}
DeprecatedChar c = s[hostnameOrStringStart];
p = hostnameOrStringStart + 1;
if (c == '?') {
return a;
}
if (c == '@') {
// Find end of host name.
int hostnameStart = p;
int hostnameEnd = s.find(RegularExpression("[>,?]"), p);
bool done;
if (hostnameEnd == -1) {
hostnameEnd = s.length();
done = true;
} else {
p = hostnameEnd;
done = false;
}
a.append(make_pair(hostnameStart, hostnameEnd));
if (done)
return a;
} else {
// Skip quoted string.
ASSERT(c == '"');
while (1) {
int escapedCharacterOrStringEnd = s.find(RegularExpression("[\"\\]"), p);
if (escapedCharacterOrStringEnd == -1)
return a;
c = s[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 == static_cast<int>(s.length()))
return a;
++p;
}
}
}
}
static bool findHostnameInHierarchicalURL(const DeprecatedString &s, int &startOffset, int &endOffset)
{
// Find the host name in a hierarchical URL.
// It comes after a "://" sequence, with scheme characters preceding.
// If 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 = s.find("://");
if (separator <= 0) {
return false;
}
// Check that all characters before the :// are valid scheme characters.
if (!isSchemeFirstChar(s[0].latin1())) {
return false;
}
for (int i = 1; i < separator; ++i) {
if (!isSchemeChar(s[i].latin1())) {
return false;
}
}
// Start after the separator.
int authorityStart = separator + 3;
// Find terminating character.
int length = s.length();
int hostnameEnd = length;
for (int i = authorityStart; i < length; ++i) {
char c = s[i].latin1();
if (c == ':' || (isPathSegmentEndChar(c) && c != '\0')) {
hostnameEnd = i;
break;
}
}
// Find "@" for the start of the host name.
int userInfoTerminator = s.find('@', authorityStart);
int hostnameStart;
if (userInfoTerminator == -1 || userInfoTerminator > hostnameEnd) {
hostnameStart = authorityStart;
} else {
hostnameStart = userInfoTerminator + 1;
}
startOffset = hostnameStart;
endOffset = hostnameEnd;
return true;
}
static DeprecatedString encodeHostnames(const DeprecatedString &s)
{
if (s.startsWith("mailto:", false)) {
const Vector<pair<int, int> > hostnameRanges = findHostnamesInMailToURL(s);
int n = hostnameRanges.size();
if (n != 0) {
DeprecatedString result;
unsigned p = 0;
for (int i = 0; i < n; ++i) {
const pair<int, int> &r = hostnameRanges[i];
result += s.mid(p, r.first);
result += encodeHostname(s.mid(r.first, r.second - r.first));
p = r.second;
}
result += s.mid(p);
return result;
}
} else {
int hostStart, hostEnd;
if (findHostnameInHierarchicalURL(s, hostStart, hostEnd)) {
return s.left(hostStart) + encodeHostname(s.mid(hostStart, hostEnd - hostStart)) + s.mid(hostEnd);
}
}
return s;
}
static char *encodeRelativeString(const KURL &base, const DeprecatedString &rel, const TextEncoding& encoding)
{
DeprecatedString s = encodeHostnames(rel);
char *strBuffer;
TextEncoding pathEncoding(UTF8Encoding());
TextEncoding otherEncoding = (encoding.isValid() && !rel.startsWith("mailto:", false)) ? encoding : UTF8Encoding();
int pathEnd = -1;
if (pathEncoding != otherEncoding) {
pathEnd = s.find(RegularExpression("[?#]"));
}
if (pathEnd == -1) {
CString decoded = pathEncoding.encode(reinterpret_cast<const UChar*>(s.unicode()), s.length());
int decodedLength = decoded.length();
strBuffer = static_cast<char *>(fastMalloc(decodedLength + 1));
memcpy(strBuffer, decoded.data(), decodedLength);
strBuffer[decodedLength] = 0;
} else {
int length = s.length();
CString pathDecoded = pathEncoding.encode(reinterpret_cast<const UChar*>(s.unicode()), pathEnd);
CString otherDecoded = otherEncoding.encode(reinterpret_cast<const UChar*>(s.unicode()) + pathEnd, length - pathEnd);
int pathDecodedLength = pathDecoded.length();
int otherDecodedLength = otherDecoded.length();
strBuffer = static_cast<char *>(fastMalloc(pathDecodedLength + otherDecodedLength + 1));
memcpy(strBuffer, pathDecoded.data(), pathDecodedLength);
memcpy(strBuffer + pathDecodedLength, otherDecoded.data(), otherDecodedLength);
strBuffer[pathDecodedLength + otherDecodedLength] = 0;
}
return strBuffer;
}
static DeprecatedString substituteBackslashes(const DeprecatedString &string)
{
int questionPos = string.find('?');
int hashPos = string.find('#');
unsigned 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.mid(pathEnd);
}
bool KURL::isHierarchical() const
{
if (!m_isValid)
return false;
ASSERT(urlString[schemeEndPos] == ':');
return urlString[schemeEndPos + 1] == '/';
}
#ifndef NDEBUG
void KURL::print() const
{
printf("%s\n", urlString.ascii());
}
#endif
}