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/*
* Copyright (C) 2004, 2007, 2008, 2009 Apple Inc. All rights reserved.
* Copyright (C) 2008, 2009, 2011 Google 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:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#if USE(GOOGLEURL)
#include "KURL.h"
#ifndef NDEBUG
#include <stdio.h>
#endif
#include <algorithm>
#include "NotImplemented.h"
#include "TextEncoding.h"
#include <wtf/HashMap.h>
#include <wtf/Vector.h>
#include <wtf/StdLibExtras.h>
#include <wtf/text/CString.h>
#include <wtf/text/StringHash.h>
#include <googleurl/src/url_util.h>
using WTF::isASCIILower;
using WTF::toASCIILower;
using std::binary_search;
namespace WebCore {
static const int maximumValidPortNumber = 0xFFFE;
static const int invalidPortNumber = 0xFFFF;
// Wraps WebCore's text encoding in a character set converter for the
// canonicalizer.
class KURLCharsetConverter : public url_canon::CharsetConverter {
public:
// The encoding parameter may be 0, but in this case the object must not be called.
KURLCharsetConverter(const TextEncoding* encoding)
: m_encoding(encoding)
{
}
virtual void ConvertFromUTF16(const url_parse::UTF16Char* input, int inputLength,
url_canon::CanonOutput* output)
{
CString encoded = m_encoding->encode(input, inputLength, URLEncodedEntitiesForUnencodables);
output->Append(encoded.data(), static_cast<int>(encoded.length()));
}
private:
const TextEncoding* m_encoding;
};
// Note that this function must be named differently than the one in KURL.cpp
// since our unit tests evilly include both files, and their local definition
// will be ambiguous.
static inline void assertProtocolIsGood(const char* protocol)
{
#ifndef NDEBUG
const char* p = protocol;
while (*p) {
ASSERT(*p > ' ' && *p < 0x7F && !(*p >= 'A' && *p <= 'Z'));
++p;
}
#endif
}
// Returns the characters for the given string, or a pointer to a static empty
// string if the input string is null. This will always ensure we have a non-
// null character pointer since ReplaceComponents has special meaning for null.
static inline const url_parse::UTF16Char* CharactersOrEmpty(const String& str)
{
static const url_parse::UTF16Char zero = 0;
return str.characters() ?
reinterpret_cast<const url_parse::UTF16Char*>(str.characters()) :
&zero;
}
static inline bool isUnicodeEncoding(const TextEncoding* encoding)
{
return encoding->encodingForFormSubmission() == UTF8Encoding();
}
static bool lowerCaseEqualsASCII(const char* begin, const char* end, const char* str)
{
while (begin != end && *str) {
ASSERT(toASCIILower(*str) == *str);
if (toASCIILower(*begin++) != *str++)
return false;
}
// Both strings are equal (ignoring case) if and only if all of the characters were equal,
// and the end of both has been reached.
return begin == end && !*str;
}
static inline bool isSchemeFirstChar(char c)
{
return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z');
}
static inline bool isSchemeChar(char c)
{
return isSchemeFirstChar(c) || (c >= '0' && c <= '9') || c == '.' || c == '-' || c == '*';
}
bool isValidProtocol(const String& protocol)
{
// NOTE This is a copy of the function in KURL.cpp.
// 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;
}
// KURLGooglePrivate -----------------------------------------------------------
KURLGooglePrivate::KURLGooglePrivate()
: m_isValid(false)
, m_protocolInHTTPFamily(false)
, m_utf8IsASCII(true)
, m_stringIsValid(false)
{
}
KURLGooglePrivate::KURLGooglePrivate(const url_parse::Parsed& parsed, bool isValid)
: m_isValid(isValid)
, m_protocolInHTTPFamily(false)
, m_parsed(parsed)
, m_utf8IsASCII(true)
, m_stringIsValid(false)
{
}
KURLGooglePrivate::KURLGooglePrivate(WTF::HashTableDeletedValueType)
: m_string(WTF::HashTableDeletedValue)
{
}
// Setters for the data. Using the ASCII version when you know the
// data is ASCII will be slightly more efficient. The UTF-8 version
// will always be correct if the caller is unsure.
void KURLGooglePrivate::setUtf8(const CString& str)
{
const char* data = str.data();
unsigned dataLength = str.length();
// The m_utf8IsASCII must always be correct since the DeprecatedString
// getter must create it with the proper constructor. This test can be
// removed when DeprecatedString is gone, but it still might be a
// performance win.
m_utf8IsASCII = true;
for (unsigned i = 0; i < dataLength; i++) {
if (static_cast<unsigned char>(data[i]) >= 0x80) {
m_utf8IsASCII = false;
break;
}
}
m_utf8 = str;
m_stringIsValid = false;
initProtocolInHTTPFamily();
}
void KURLGooglePrivate::setAscii(const CString& str)
{
m_utf8 = str;
m_utf8IsASCII = true;
m_stringIsValid = false;
initProtocolInHTTPFamily();
}
void KURLGooglePrivate::init(const KURL& base,
const String& relative,
const TextEncoding* queryEncoding)
{
init(base, relative.characters(), relative.length(), queryEncoding);
}
template <typename CHAR>
void KURLGooglePrivate::init(const KURL& base, const CHAR* rel, int relLength,
const TextEncoding* queryEncoding)
{
// As a performance optimization, we do not use the charset converter
// if encoding is UTF-8 or other Unicode encodings. Note that this is
// per HTML5 2.5.3 (resolving URL). The URL canonicalizer will be more
// efficient with no charset converter object because it can do UTF-8
// internally with no extra copies.
// We feel free to make the charset converter object every time since it's
// just a wrapper around a reference.
KURLCharsetConverter charsetConverterObject(queryEncoding);
KURLCharsetConverter* charsetConverter =
(!queryEncoding || isUnicodeEncoding(queryEncoding)) ? 0 :
&charsetConverterObject;
url_canon::RawCanonOutputT<char> output;
const CString& baseStr = base.m_url.utf8String();
m_isValid = url_util::ResolveRelative(baseStr.data(), baseStr.length(),
base.m_url.m_parsed, rel, relLength,
charsetConverter,
&output, &m_parsed);
// See FIXME in KURLGooglePrivate in the header. If canonicalization has not
// changed the string, we can avoid an extra allocation by using assignment.
//
// When KURL encounters an error such that the URL is invalid and empty
// (for example, resolving a relative URL on a non-hierarchical base), it
// will produce an isNull URL, and calling setUtf8 will produce an empty
// non-null URL. This is unlikely to affect anything, but we preserve this
// just in case.
if (m_isValid || output.length()) {
// Without ref, the whole url is guaranteed to be ASCII-only.
if (m_parsed.ref.is_nonempty())
setUtf8(CString(output.data(), output.length()));
else
setAscii(CString(output.data(), output.length()));
} else {
// WebCore expects resolved URLs to be empty rather than null.
setUtf8(CString("", 0));
}
}
void KURLGooglePrivate::initProtocolInHTTPFamily()
{
if (!m_isValid) {
m_protocolInHTTPFamily = false;
return;
}
const char* scheme = m_utf8.data() + m_parsed.scheme.begin;
if (m_parsed.scheme.len == 4)
m_protocolInHTTPFamily = lowerCaseEqualsASCII(scheme, scheme + 4, "http");
else if (m_parsed.scheme.len == 5)
m_protocolInHTTPFamily = lowerCaseEqualsASCII(scheme, scheme + 5, "https");
else
m_protocolInHTTPFamily = false;
}
void KURLGooglePrivate::copyTo(KURLGooglePrivate* dest) const
{
dest->m_isValid = m_isValid;
dest->m_protocolInHTTPFamily = m_protocolInHTTPFamily;
dest->m_parsed = m_parsed;
// Don't copy the 16-bit string since that will be regenerated as needed.
dest->m_utf8 = CString(m_utf8.data(), m_utf8.length());
dest->m_utf8IsASCII = m_utf8IsASCII;
dest->m_stringIsValid = false;
}
String KURLGooglePrivate::componentString(const url_parse::Component& comp) const
{
if (!m_isValid || comp.len <= 0) {
// KURL returns a null string if the URL is itself a null string, and an
// empty string for other nonexistent entities.
if (utf8String().isNull())
return String();
return String("", 0);
}
// begin and len are in terms of bytes which do not match
// if string() is UTF-16 and input contains non-ASCII characters.
// However, the only part in urlString that can contain non-ASCII
// characters is 'ref' at the end of the string. In that case,
// begin will always match the actual value and len (in terms of
// byte) will be longer than what's needed by 'mid'. However, mid
// truncates len to avoid go past the end of a string so that we can
// get away withtout doing anything here.
return string().substring(comp.begin, comp.len);
}
void KURLGooglePrivate::replaceComponents(const Replacements& replacements)
{
url_canon::RawCanonOutputT<char> output;
url_parse::Parsed newParsed;
m_isValid = url_util::ReplaceComponents(utf8String().data(),
utf8String().length(), m_parsed, replacements, 0, &output, &newParsed);
m_parsed = newParsed;
if (m_parsed.ref.is_nonempty())
setUtf8(CString(output.data(), output.length()));
else
setAscii(CString(output.data(), output.length()));
}
const String& KURLGooglePrivate::string() const
{
if (!m_stringIsValid) {
// Handle the null case separately. Otherwise, constructing
// the string like we do below would generate the empty string,
// not the null string.
if (m_utf8.isNull())
m_string = String();
else if (m_utf8IsASCII)
m_string = String(m_utf8.data(), m_utf8.length());
else
m_string = String::fromUTF8(m_utf8.data(), m_utf8.length());
m_stringIsValid = true;
}
return m_string;
}
// KURL ------------------------------------------------------------------------
// Creates with null-terminated string input representing an absolute URL.
// WebCore generally calls this only with hardcoded strings, so the input is
// ASCII. We treat it as UTF-8 just in case.
KURL::KURL(ParsedURLStringTag, const char *url)
{
// FIXME The Mac code checks for beginning with a slash and converts it to
// file: URL. We will want to add this as well once we can compile on a
// system like that.
m_url.init(KURL(), url, strlen(url), 0);
// The one-argument constructors should never generate a null string.
// This is a funny quirk of KURL.cpp (probably a bug) which we preserve.
if (m_url.utf8String().isNull())
m_url.setAscii(CString("", 0));
}
// Initializes with a string representing an absolute URL. No encoding
// information is specified. This generally happens when a KURL is converted
// to a string and then converted back. In this case, the URL is already
// canonical and in proper escaped form so needs no encoding. We treat it as
// UTF-8 just in case.
KURL::KURL(ParsedURLStringTag, const String& url)
{
if (!url.isNull())
m_url.init(KURL(), url, 0);
else {
// WebCore expects us to preserve the nullness of strings when this
// constructor is used. In all other cases, it expects a non-null
// empty string, which is what init() will create.
m_url.m_isValid = false;
m_url.m_protocolInHTTPFamily = false;
}
}
// Constructs a new URL given a base URL and a possibly relative input URL.
// This assumes UTF-8 encoding.
KURL::KURL(const KURL& base, const String& relative)
{
m_url.init(base, relative, 0);
}
// Constructs a new URL given a base URL and a possibly relative input URL.
// Any query portion of the relative URL will be encoded in the given encoding.
KURL::KURL(const KURL& base,
const String& relative,
const TextEncoding& encoding)
{
m_url.init(base, relative, &encoding.encodingForFormSubmission());
}
KURL::KURL(const CString& canonicalSpec,
const url_parse::Parsed& parsed, bool isValid)
: m_url(parsed, isValid)
{
// We know the reference fragment is the only part that can be UTF-8, so
// we know it's ASCII when there is no ref.
if (parsed.ref.is_nonempty())
m_url.setUtf8(canonicalSpec);
else
m_url.setAscii(canonicalSpec);
}
#if USE(CF)
KURL::KURL(CFURLRef)
{
notImplemented();
invalidate();
}
CFURLRef KURL::createCFURL() const
{
notImplemented();
return 0;
}
#endif
KURL KURL::copy() const
{
KURL result = *this;
m_url.copyTo(&result.m_url);
return result;
}
bool KURL::isNull() const
{
return m_url.utf8String().isNull();
}
bool KURL::isEmpty() const
{
return !m_url.utf8String().length();
}
bool KURL::isValid() const
{
return m_url.m_isValid;
}
bool KURL::hasPort() const
{
return hostEnd() < pathStart();
}
bool KURL::protocolInHTTPFamily() const
{
return m_url.m_protocolInHTTPFamily;
}
bool KURL::hasPath() const
{
// Note that http://www.google.com/" has a path, the path is "/". This can
// return false only for invalid or nonstandard URLs.
return m_url.m_parsed.path.len >= 0;
}
// We handle "parameters" separated by a semicolon, while KURL.cpp does not,
// which can lead to different results in some cases.
String KURL::lastPathComponent() const
{
// When the output ends in a slash, WebCore has different expectations than
// the GoogleURL library. For "/foo/bar/" the library will return the empty
// string, but WebCore wants "bar".
url_parse::Component path = m_url.m_parsed.path;
if (path.len > 0 && m_url.utf8String().data()[path.end() - 1] == '/')
path.len--;
url_parse::Component file;
url_parse::ExtractFileName(m_url.utf8String().data(), path, &file);
// Bug: https://bugs.webkit.org/show_bug.cgi?id=21015 this function returns
// a null string when the path is empty, which we duplicate here.
if (!file.is_nonempty())
return String();
return m_url.componentString(file);
}
String KURL::protocol() const
{
return m_url.componentString(m_url.m_parsed.scheme);
}
String KURL::host() const
{
// Note: KURL.cpp unescapes here.
return m_url.componentString(m_url.m_parsed.host);
}
// Returns 0 when there is no port.
//
// We treat URL's with out-of-range port numbers as invalid URLs, and they will
// be rejected by the canonicalizer. KURL.cpp will allow them in parsing, but
// return invalidPortNumber from this port() function, so we mirror that behavior here.
unsigned short KURL::port() const
{
if (!m_url.m_isValid || m_url.m_parsed.port.len <= 0)
return 0;
int port = url_parse::ParsePort(m_url.utf8String().data(), m_url.m_parsed.port);
ASSERT(port != url_parse::PORT_UNSPECIFIED); // Checked port.len <= 0 before.
if (port == url_parse::PORT_INVALID || port > maximumValidPortNumber) // Mimic KURL::port()
port = invalidPortNumber;
return static_cast<unsigned short>(port);
}
// Returns the empty string if there is no password.
String KURL::pass() const
{
// Bug: https://bugs.webkit.org/show_bug.cgi?id=21015 this function returns
// a null string when the password is empty, which we duplicate here.
if (!m_url.m_parsed.password.is_nonempty())
return String();
// Note: KURL.cpp unescapes here.
return m_url.componentString(m_url.m_parsed.password);
}
// Returns the empty string if there is no username.
String KURL::user() const
{
// Note: KURL.cpp unescapes here.
return m_url.componentString(m_url.m_parsed.username);
}
String KURL::fragmentIdentifier() const
{
// Empty but present refs ("foo.com/bar#") should result in the empty
// string, which m_url.componentString will produce. Nonexistent refs
// should be the null string.
if (!m_url.m_parsed.ref.is_valid())
return String();
// Note: KURL.cpp unescapes here.
return m_url.componentString(m_url.m_parsed.ref);
}
bool KURL::hasFragmentIdentifier() const
{
// Note: KURL.cpp unescapes here.
// FIXME determine if KURL.cpp agrees about an empty ref
return m_url.m_parsed.ref.len >= 0;
}
void KURL::copyParsedQueryTo(ParsedURLParameters& parameters) const
{
String query = m_url.componentString(m_url.m_parsed.query);
const UChar* pos = query.characters();
const UChar* end = query.characters() + query.length();
while (pos < end) {
const UChar* parameterStart = pos;
while (pos < end && *pos != '&')
++pos;
const UChar* parameterEnd = pos;
if (pos < end) {
ASSERT(*pos == '&');
++pos;
}
if (parameterStart == parameterEnd)
continue;
const UChar* nameStart = parameterStart;
const UChar* equalSign = parameterStart;
while (equalSign < parameterEnd && *equalSign != '=')
++equalSign;
if (equalSign == nameStart)
continue;
String name(nameStart, equalSign - nameStart);
String value = equalSign == parameterEnd ? String() : String(equalSign + 1, parameterEnd - equalSign - 1);
parameters.set(name, value);
}
}
String KURL::baseAsString() const
{
// FIXME: There is probably a more efficient way to do this?
return string().left(pathAfterLastSlash());
}
String KURL::query() const
{
if (m_url.m_parsed.query.len >= 0)
return m_url.componentString(m_url.m_parsed.query);
// Bug: https://bugs.webkit.org/show_bug.cgi?id=21015 this function returns
// an empty string when the query is empty rather than a null (not sure
// which is right).
// Returns a null if the query is not specified, instead of empty.
if (m_url.m_parsed.query.is_valid())
return String("", 0);
return String();
}
String KURL::path() const
{
return m_url.componentString(m_url.m_parsed.path);
}
bool KURL::setProtocol(const String& protocol)
{
// Firefox and IE remove everything after the first ':'.
int separatorPosition = protocol.find(':');
String newProtocol = protocol.substring(0, separatorPosition);
// If KURL is given an invalid scheme, it returns failure without modifying
// the URL at all. This is in contrast to most other setters which modify
// the URL and set "m_isValid."
url_canon::RawCanonOutputT<char> canonProtocol;
url_parse::Component protocolComponent;
if (!url_canon::CanonicalizeScheme(newProtocol.characters(),
url_parse::Component(0, newProtocol.length()),
&canonProtocol, &protocolComponent)
|| !protocolComponent.is_nonempty())
return false;
KURLGooglePrivate::Replacements replacements;
replacements.SetScheme(CharactersOrEmpty(newProtocol),
url_parse::Component(0, newProtocol.length()));
m_url.replaceComponents(replacements);
// isValid could be false but we still return true here. This is because
// WebCore or JS scripts can build up a URL by setting individual
// components, and a JS exception is based on the return value of this
// function. We want to throw the exception and stop the script only when
// its trying to set a bad protocol, and not when it maybe just hasn't
// finished building up its final scheme.
return true;
}
void KURL::setHost(const String& host)
{
KURLGooglePrivate::Replacements replacements;
replacements.SetHost(CharactersOrEmpty(host),
url_parse::Component(0, host.length()));
m_url.replaceComponents(replacements);
}
void KURL::setHostAndPort(const String& s)
{
String host = s;
String port;
int hostEnd = s.find(":");
if (hostEnd != -1) {
host = s.left(hostEnd);
port = s.substring(hostEnd + 1);
}
KURLGooglePrivate::Replacements replacements;
// Host can't be removed, so we always set.
replacements.SetHost(CharactersOrEmpty(host),
url_parse::Component(0, host.length()));
if (port.isEmpty()) // Port may be removed, so we support clearing.
replacements.ClearPort();
else
replacements.SetPort(CharactersOrEmpty(port), url_parse::Component(0, port.length()));
m_url.replaceComponents(replacements);
}
void KURL::removePort()
{
if (hasPort()) {
String urlWithoutPort = m_url.string().left(hostEnd()) + m_url.string().substring(pathStart());
m_url.setUtf8(urlWithoutPort.utf8());
}
}
void KURL::setPort(unsigned short i)
{
KURLGooglePrivate::Replacements replacements;
String portStr;
portStr = String::number(i);
replacements.SetPort(
reinterpret_cast<const url_parse::UTF16Char*>(portStr.characters()),
url_parse::Component(0, portStr.length()));
m_url.replaceComponents(replacements);
}
void KURL::setUser(const String& user)
{
// This function is commonly called to clear the username, which we
// normally don't have, so we optimize this case.
if (user.isEmpty() && !m_url.m_parsed.username.is_valid())
return;
// The canonicalizer will clear any usernames that are empty, so we
// don't have to explicitly call ClearUsername() here.
KURLGooglePrivate::Replacements replacements;
replacements.SetUsername(CharactersOrEmpty(user),
url_parse::Component(0, user.length()));
m_url.replaceComponents(replacements);
}
void KURL::setPass(const String& pass)
{
// This function is commonly called to clear the password, which we
// normally don't have, so we optimize this case.
if (pass.isEmpty() && !m_url.m_parsed.password.is_valid())
return;
// The canonicalizer will clear any passwords that are empty, so we
// don't have to explicitly call ClearUsername() here.
KURLGooglePrivate::Replacements replacements;
replacements.SetPassword(CharactersOrEmpty(pass),
url_parse::Component(0, pass.length()));
m_url.replaceComponents(replacements);
}
void KURL::setFragmentIdentifier(const String& s)
{
// This function is commonly called to clear the ref, which we
// normally don't have, so we optimize this case.
if (s.isNull() && !m_url.m_parsed.ref.is_valid())
return;
KURLGooglePrivate::Replacements replacements;
if (s.isNull())
replacements.ClearRef();
else
replacements.SetRef(CharactersOrEmpty(s), url_parse::Component(0, s.length()));
m_url.replaceComponents(replacements);
}
void KURL::removeFragmentIdentifier()
{
KURLGooglePrivate::Replacements replacements;
replacements.ClearRef();
m_url.replaceComponents(replacements);
}
void KURL::setQuery(const String& query)
{
KURLGooglePrivate::Replacements replacements;
if (query.isNull()) {
// KURL.cpp sets to null to clear any query.
replacements.ClearQuery();
} else if (query.length() > 0 && query[0] == '?') {
// WebCore expects the query string to begin with a question mark, but
// GoogleURL doesn't. So we trim off the question mark when setting.
replacements.SetQuery(CharactersOrEmpty(query),
url_parse::Component(1, query.length() - 1));
} else {
// When set with the empty string or something that doesn't begin with
// a question mark, KURL.cpp will add a question mark for you. The only
// way this isn't compatible is if you call this function with an empty
// string. KURL.cpp will leave a '?' with nothing following it in the
// URL, whereas we'll clear it.
// FIXME We should eliminate this difference.
replacements.SetQuery(CharactersOrEmpty(query),
url_parse::Component(0, query.length()));
}
m_url.replaceComponents(replacements);
}
void KURL::setPath(const String& path)
{
// Empty paths will be canonicalized to "/", so we don't have to worry
// about calling ClearPath().
KURLGooglePrivate::Replacements replacements;
replacements.SetPath(CharactersOrEmpty(path),
url_parse::Component(0, path.length()));
m_url.replaceComponents(replacements);
}
// On Mac, this just seems to return the same URL, but with "/foo/bar" for
// file: URLs instead of file:///foo/bar. We don't bother with any of this,
// at least for now.
String KURL::deprecatedString() const
{
if (!m_url.m_isValid)
return String();
return m_url.string();
}
String decodeURLEscapeSequences(const String& str)
{
return decodeURLEscapeSequences(str, UTF8Encoding());
}
// In KURL.cpp's implementation, this is called by every component getter.
// It will unescape every character, including '\0'. This is scary, and may
// cause security holes. We never call this function for components, and
// just return the ASCII versions instead.
//
// This function is also used to decode javascript: URLs and as a general
// purpose unescaping function.
//
// FIXME These should be merged to the KURL.cpp implementation.
String decodeURLEscapeSequences(const String& str, const TextEncoding& encoding)
{
// FIXME We can probably use KURL.cpp's version of this function
// without modification. However, I'm concerned about
// https://bugs.webkit.org/show_bug.cgi?id=20559 so am keeping this old
// custom code for now. Using their version will also fix the bug that
// we ignore the encoding.
//
// FIXME b/1350291: This does not get called very often. We just convert
// first to 8-bit UTF-8, then unescape, then back to 16-bit. This kind of
// sucks, and we don't use the encoding properly, which will make some
// obscure anchor navigations fail.
CString cstr = str.utf8();
const char* input = cstr.data();
int inputLength = cstr.length();
url_canon::RawCanonOutputT<url_parse::UTF16Char> unescaped;
url_util::DecodeURLEscapeSequences(input, inputLength, &unescaped);
return String(reinterpret_cast<UChar*>(unescaped.data()),
unescaped.length());
}
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.
// FIXME: Chromium code needs to be fixed for this assert to be enabled. ASSERT(strcmp(protocol, "javascript"));
if (m_url.m_parsed.scheme.len <= 0)
return !protocol;
return lowerCaseEqualsASCII(
m_url.utf8String().data() + m_url.m_parsed.scheme.begin,
m_url.utf8String().data() + m_url.m_parsed.scheme.end(),
protocol);
}
// This is called to escape a URL string. It is only used externally when
// constructing mailto: links to set the query section. Since our query setter
// will automatically do the correct escaping, this function does not have to
// do any work.
//
// There is a possibility that a future caller may use this function in other
// ways, and may expect to get a valid URL string. The dangerous thing we want
// to protect against here is accidentally getting '\0' characters in a string
// that is not supposed to have them. Therefore, we escape these characters.
String encodeWithURLEscapeSequences(const String& notEncodedString)
{
CString utf8 = UTF8Encoding().encode(
reinterpret_cast<const UChar*>(notEncodedString.characters()),
notEncodedString.length(),
URLEncodedEntitiesForUnencodables);
const char* input = utf8.data();
int inputLength = utf8.length();
Vector<char, 2048> buffer;
for (int i = 0; i < inputLength; i++) {
if (!input[i])
buffer.append("%00", 3);
else
buffer.append(input[i]);
}
return String(buffer.data(), buffer.size());
}
bool KURL::isHierarchical() const
{
if (!m_url.m_parsed.scheme.is_nonempty())
return false;
return url_util::IsStandard(
&m_url.utf8String().data()[m_url.m_parsed.scheme.begin],
m_url.m_parsed.scheme);
}
#ifndef NDEBUG
void KURL::print() const
{
printf("%s\n", m_url.utf8String().data());
}
#endif
void KURL::invalidate()
{
// This is only called from the constructor so resetting the (automatically
// initialized) string and parsed structure would be a waste of time.
m_url.m_isValid = false;
m_url.m_protocolInHTTPFamily = false;
}
// Equal up to reference fragments, if any.
bool equalIgnoringFragmentIdentifier(const KURL& a, const KURL& b)
{
// Compute the length of each URL without its ref. Note that the reference
// begin (if it exists) points to the character *after* the '#', so we need
// to subtract one.
int aLength = a.m_url.utf8String().length();
if (a.m_url.m_parsed.ref.len >= 0)
aLength = a.m_url.m_parsed.ref.begin - 1;
int bLength = b.m_url.utf8String().length();
if (b.m_url.m_parsed.ref.len >= 0)
bLength = b.m_url.m_parsed.ref.begin - 1;
return aLength == bLength
&& !strncmp(a.m_url.utf8String().data(), b.m_url.utf8String().data(), aLength);
}
unsigned KURL::hostStart() const
{
return m_url.m_parsed.CountCharactersBefore(url_parse::Parsed::HOST, false);
}
unsigned KURL::hostEnd() const
{
return m_url.m_parsed.CountCharactersBefore(url_parse::Parsed::PORT, true);
}
unsigned KURL::pathStart() const
{
return m_url.m_parsed.CountCharactersBefore(url_parse::Parsed::PATH, false);
}
unsigned KURL::pathEnd() const
{
return m_url.m_parsed.CountCharactersBefore(url_parse::Parsed::QUERY, true);
}
unsigned KURL::pathAfterLastSlash() const
{
// When there's no path, ask for what would be the beginning of it.
if (!m_url.m_parsed.path.is_valid())
return m_url.m_parsed.CountCharactersBefore(url_parse::Parsed::PATH, false);
url_parse::Component filename;
url_parse::ExtractFileName(m_url.utf8String().data(), m_url.m_parsed.path,
&filename);
return filename.begin;
}
bool protocolIs(const String& url, const char* protocol)
{
// Do the comparison without making a new string object.
assertProtocolIsGood(protocol);
// Check the scheme like GURL does.
return url_util::FindAndCompareScheme(url.characters(), url.length(),
protocol, 0);
}
inline bool KURL::protocolIs(const String& string, const char* protocol)
{
return WebCore::protocolIs(string, protocol);
}
bool protocolHostAndPortAreEqual(const KURL& a, const KURL& b)
{
if (a.parsed().scheme.end() != b.parsed().scheme.end())
return false;
int hostStartA = a.hostStart();
int hostLengthA = a.hostEnd() - hostStartA;
int hostStartB = b.hostStart();
int hostLengthB = b.hostEnd() - b.hostStart();
if (hostLengthA != hostLengthB)
return false;
// Check the scheme
for (int i = 0; i < a.parsed().scheme.end(); ++i)
if (a.string()[i] != b.string()[i])
return false;
// And the host
for (int i = 0; i < hostLengthA; ++i)
if (a.string()[hostStartA + i] != b.string()[hostStartB + i])
return false;
if (a.port() != b.port())
return false;
return true;
}
} // namespace WebCore
#endif // USE(GOOGLEURL)
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