/* Copyright (C) 1999 Torben Weis This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* * The currently active RFC for URL/URIs is RFC3986 * Previous (and now deprecated) RFCs are RFC1738 and RFC2396 */ #include "kurl.h" // KDE_QT_ONLY is first used for dcop/client (e.g. marshalling) #ifndef KDE_QT_ONLY #include #include #include #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_WS_WIN # define KURL_ROOTDIR_PATH "C:/" #else # define KURL_ROOTDIR_PATH "/" #endif static const TQString fileProt = "file"; static TQTextCodec * codecForHint( int encoding_hint /* not 0 ! */ ) { return TQTextCodec::codecForMib( encoding_hint ); } // encoding_offset: // 0 encode both @ and / // 1 encode @ but not / // 2 encode neither @ or / static TQString encode( const TQString& segment, int encoding_offset, int encoding_hint, bool isRawURI = false ) { const char *encode_string = "/@<>#\"&?={}|^~[]\'`\\:+%"; encode_string += encoding_offset; TQCString local; if (encoding_hint==0) local = segment.local8Bit(); else { TQTextCodec * textCodec = codecForHint( encoding_hint ); if (!textCodec) local = segment.local8Bit(); else local = textCodec->fromUnicode( segment ); } int old_length = isRawURI ? local.size() - 1 : local.length(); if ( old_length < 1 ) return segment.isNull() ? TQString::null : TQString(""); // differentiate null and empty // a worst case approximation TQChar *new_segment = new TQChar[ old_length * 3 + 1 ]; int new_length = 0; for ( int i = 0; i < old_length; i++ ) { // 'unsave' and 'reserved' characters // according to RFC 1738, // 2.2. URL Character Encoding Issues (pp. 3-4) // WABA: Added non-ascii unsigned char character = local[i]; if ( (character <= 32) || (character >= 127) || strchr(encode_string, character) ) { new_segment[ new_length++ ] = '%'; unsigned int c = character / 16; c += (c > 9) ? ('A' - 10) : '0'; new_segment[ new_length++ ] = c; c = character % 16; c += (c > 9) ? ('A' - 10) : '0'; new_segment[ new_length++ ] = c; } else new_segment[ new_length++ ] = (TQChar)local[i]; } TQString result = TQString(new_segment, new_length); delete [] new_segment; return result; } static TQString encodeHost( const TQString& segment, bool encode_slash, int encoding_hint ) { // Hostnames are encoded differently // we use the IDNA transformation instead // Note: when merging qt-addon, use QResolver::domainToAscii here #ifndef KDE_QT_ONLY Q_UNUSED( encode_slash ); Q_UNUSED( encoding_hint ); TQString host = KIDNA::toAscii(segment); if (host.isEmpty()) return segment; return host; #else return encode(segment, encode_slash ? 0 : 1, encoding_hint); #endif } static int hex2int( unsigned int _char ) { if ( _char >= 'A' && _char <='F') return _char - 'A' + 10; if ( _char >= 'a' && _char <='f') return _char - 'a' + 10; if ( _char >= '0' && _char <='9') return _char - '0'; return -1; } // WABA: The result of lazy_encode isn't usable for a URL which // needs to satisfies RFC requirements. However, the following // operation will make it usable again: // encode(decode(...)) // // As a result one can see that url.prettyURL() does not result in // a RFC compliant URL but that the following sequence does: // KURL(url.prettyURL()).url() static TQString lazy_encode( const TQString& segment, bool encodeAt=true ) { int old_length = segment.length(); if ( !old_length ) return TQString::null; // a worst case approximation TQChar *new_segment = new TQChar[ old_length * 3 + 1 ]; int new_length = 0; for ( int i = 0; i < old_length; i++ ) { unsigned int character = segment[i].unicode(); // Don't use latin1() // It returns 0 for non-latin1 values // Small set of really ambiguous chars if ((character < 32) || // Low ASCII ((character == '%') && // The escape character itself (i+2 < old_length) && // But only if part of a valid escape sequence! (hex2int(segment[i+1].unicode())!= -1) && (hex2int(segment[i+2].unicode())!= -1)) || (character == '?') || // Start of query delimiter ((character == '@') && encodeAt) || // Username delimiter (character == '#') || // Start of reference delimiter ((character == 32) && (i+1 == old_length || segment[i+1] == (TQChar)' '))) // A trailing space { new_segment[ new_length++ ] = '%'; unsigned int c = character / 16; c += (c > 9) ? ('A' - 10) : '0'; new_segment[ new_length++ ] = c; c = character % 16; c += (c > 9) ? ('A' - 10) : '0'; new_segment[ new_length++ ] = c; } else new_segment[ new_length++ ] = segment[i]; } TQString result = TQString(new_segment, new_length); delete [] new_segment; return result; } static void decode( const TQString& segment, TQString &decoded, TQString &encoded, int encoding_hint=0, bool updateDecoded = true, bool isRawURI = false ) { decoded = TQString::null; encoded = segment; int old_length = segment.length(); if ( !old_length ) return; TQTextCodec *textCodec = 0; if (encoding_hint) textCodec = codecForHint( encoding_hint ); if (!textCodec) textCodec = TQTextCodec::codecForLocale(); TQCString csegment = textCodec->fromUnicode(segment); // Check if everything went ok if (textCodec->toUnicode(csegment) != segment) { // Uh oh textCodec = codecForHint( 106 ); // Fall back to utf-8 csegment = textCodec->fromUnicode(segment); } old_length = csegment.length(); int new_length = 0; int new_length2 = 0; // make a copy of the old one char *new_segment = new char[ old_length + 1 ]; TQChar *new_usegment = new TQChar[ old_length * 3 + 1 ]; int i = 0; while( i < old_length ) { bool bReencode = false; unsigned char character = csegment[ i++ ]; if ((character <= ' ') || (character > 127)) bReencode = true; new_usegment [ new_length2++ ] = character; if (character == '%' ) { int a = i+1 < old_length ? hex2int( csegment[i] ) : -1; int b = i+1 < old_length ? hex2int( csegment[i+1] ) : -1; if ((a == -1) || (b == -1)) // Only replace if sequence is valid { // Contains stray %, make sure to re-encode! bReencode = true; } else { // Valid %xx sequence character = a * 16 + b; // Replace with value of %dd if (!isRawURI && !character && updateDecoded) break; // Stop at %00 new_usegment [ new_length2++ ] = (unsigned char) csegment[i++]; new_usegment [ new_length2++ ] = (unsigned char) csegment[i++]; } } if (bReencode) { new_length2--; new_usegment [ new_length2++ ] = '%'; unsigned int c = character / 16; c += (c > 9) ? ('A' - 10) : '0'; new_usegment[ new_length2++ ] = c; c = character % 16; c += (c > 9) ? ('A' - 10) : '0'; new_usegment[ new_length2++ ] = c; } new_segment [ new_length++ ] = character; } new_segment [ new_length ] = 0; encoded = TQString( new_usegment, new_length2); // Encoding specified if (updateDecoded) { decoded = textCodec->toUnicode( new_segment ); if ( isRawURI ) { int length = tqstrlen( new_segment ); while ( length < new_length ) { decoded += TQChar::null; length += 1; decoded += textCodec->toUnicode( new_segment + length ); length += tqstrlen( new_segment + length ); } } TQCString validate = textCodec->fromUnicode(decoded); if (strcmp(validate.data(), new_segment) != 0) { decoded = TQString::fromLocal8Bit(new_segment, new_length); } } delete [] new_segment; delete [] new_usegment; } static TQString decode(const TQString &segment, int encoding_hint = 0, bool isRawURI = false) { TQString result; TQString tmp; decode(segment, result, tmp, encoding_hint, true, isRawURI); return result; } static TQString cleanpath(const TQString &_path, bool cleanDirSeparator, bool decodeDots) { if (_path.isEmpty()) return TQString::null; if (TQDir::isRelativePath(_path)) return _path; // Don't mangle mailto-style URLs TQString path = _path; int len = path.length(); if (decodeDots) { #ifndef KDE_QT_ONLY static const TQString &encodedDot = TDEGlobal::staticQString("%2e"); #else TQString encodedDot("%2e"); #endif if (path.find(encodedDot, 0, false) != -1) { #ifndef KDE_QT_ONLY static const TQString &encodedDOT = TDEGlobal::staticQString("%2E"); // Uppercase! #else TQString encodedDOT("%2E"); #endif path.replace(encodedDot, "."); path.replace(encodedDOT, "."); len = path.length(); } } bool slash = (len && path[len-1] == '/') || (len > 1 && path[len-2] == '/' && path[len-1] == '.'); // The following code cleans up directory path much like // TQDir::cleanDirPath() except it can be made to ignore multiple // directory separators by setting the flag to false. That fixes // bug# 15044, mail.altavista.com and other similar brain-dead server // implementations that do not follow what has been specified in // RFC 2396!! (dA) TQString result; int cdUp, orig_pos, pos; cdUp = 0; pos = orig_pos = len; while ( pos && (pos = path.findRev('/',--pos)) != -1 ) { len = orig_pos - pos - 1; if ( len == 2 && path[pos+1] == '.' && path[pos+2] == '.' ) cdUp++; else { // Ignore any occurrences of '.' // This includes entries that simply do not make sense like /..../ if ( (len || !cleanDirSeparator) && (len != 1 || path[pos+1] != '.' ) ) { if ( !cdUp ) result.prepend(path.mid(pos, len+1)); else cdUp--; } } orig_pos = pos; } #ifdef Q_WS_WIN // prepend drive letter if exists (js) if (orig_pos >= 2 && isalpha(path[0].latin1()) && path[1]==':') { result.prepend(TQString(path[0])+":"); } #endif if ( result.isEmpty() ) result = KURL_ROOTDIR_PATH; else if ( slash && result[result.length()-1] != '/' ) result.append('/'); return result; } class KURLPrivate { public: TQString m_strInternalReferenceURL; }; bool KURL::isRelativeURL(const TQString &_url) { int len = _url.length(); if (!len) return true; // Very short relative URL. const TQChar *str = _url.unicode(); // Absolute URL must start with alpha-character if (!isalpha(str[0].latin1())) return true; // Relative URL for(int i = 1; i < len; i++) { char c = str[i].latin1(); // Note: non-latin1 chars return 0! if (c == ':') return false; // Absolute URL // Protocol part may only contain alpha, digit, + or - if (!isalpha(c) && !isdigit(c) && (c != '+') && (c != '-')) return true; // Relative URL } // URL did not contain ':' return true; // Relative URL } KURL::List::List(const KURL &url) { append( url ); } KURL::List::List(const TQStringList &list) { for (TQStringList::ConstIterator it = list.begin(); it != list.end(); it++) { append( KURL(*it) ); } } TQStringList KURL::List::toStringList() const { TQStringList lst; for( KURL::List::ConstIterator it = begin(); it != end(); it++) { lst.append( (*it).url() ); } return lst; } KURL::KURL() { d = new KURLPrivate(); reset(); } KURL::~KURL() { if (d) { delete d; } } KURL::KURL( const TQString &url, int encoding_hint ) { d = new KURLPrivate(); reset(); parse( url, encoding_hint ); } KURL::KURL( const char * url, int encoding_hint ) { d = new KURLPrivate(); reset(); parse( TQString::fromLatin1(url), encoding_hint ); } KURL::KURL( const TQCString& url, int encoding_hint ) { d = new KURLPrivate(); reset(); parse( TQString::fromLatin1(url), encoding_hint ); } KURL::KURL( const KURL& _u ) { d = new KURLPrivate(); *this = _u; d->m_strInternalReferenceURL = _u.d->m_strInternalReferenceURL; } TQDataStream & operator<< (TQDataStream & s, const KURL & a) { TQString QueryForWire=a.m_strQuery_encoded; if (!a.m_strQuery_encoded.isNull()) QueryForWire.prepend("?"); s << a.m_strProtocol << a.m_strUser << a.m_strPass << a.m_strHost << a.m_strPath << a.m_strPath_encoded << QueryForWire << a.m_strRef_encoded << TQ_INT8(a.m_bIsMalformed ? 1 : 0) << a.m_iPort; return s; } TQDataStream & operator>> (TQDataStream & s, KURL & a) { TQ_INT8 malf; TQString QueryFromWire; s >> a.m_strProtocol >> a.m_strUser >> a.m_strPass >> a.m_strHost >> a.m_strPath >> a.m_strPath_encoded >> QueryFromWire >> a.m_strRef_encoded >> malf >> a.m_iPort; a.m_bIsMalformed = (malf != 0); if ( QueryFromWire.isNull() ) a.m_strQuery_encoded = TQString::null; else if ( QueryFromWire.length() == 1 ) // empty query a.m_strQuery_encoded = ""; else a.m_strQuery_encoded = QueryFromWire.mid(1); a.m_iUriMode = KURL::uriModeForProtocol( a.m_strProtocol ); return s; } #ifndef TQT_NO_NETWORKPROTOCOL KURL::KURL( const TQUrl &u ) { d = new KURLPrivate(); *this = u; } #endif KURL::KURL( const KURL& _u, const TQString& _rel_url, int encoding_hint ) { d = new KURLPrivate(); d->m_strInternalReferenceURL = _u.d->m_strInternalReferenceURL; if (_u.hasSubURL()) // Operate on the last suburl, not the first { KURL::List lst = split( _u ); KURL u(lst.last(), _rel_url, encoding_hint); lst.remove( lst.last() ); lst.append( u ); *this = join( lst ); d->m_strInternalReferenceURL = _u.d->m_strInternalReferenceURL; return; } // WORKAROUND THE RFC 1606 LOOPHOLE THAT ALLOWS // http:/index.html AS A VALID SYNTAX FOR RELATIVE // URLS. ( RFC 2396 section 5.2 item # 3 ) TQString rUrl = _rel_url; int len = _u.m_strProtocol.length(); if ( !_u.m_strHost.isEmpty() && !rUrl.isEmpty() && rUrl.find( _u.m_strProtocol, 0, false ) == 0 && rUrl[len] == ':' && (rUrl[len+1] != '/' || (rUrl[len+1] == '/' && rUrl[len+2] != '/')) ) { rUrl.remove( 0, rUrl.find( ':' ) + 1 ); } if ( rUrl.isEmpty() ) { *this = _u; } else if ( rUrl[0] == '#' ) { *this = _u; m_strRef_encoded = rUrl.mid(1); if ( m_strRef_encoded.isNull() ) m_strRef_encoded = ""; // we know there was an (empty) html ref, we saw the '#' } else if ( isRelativeURL( rUrl) ) { *this = _u; m_strQuery_encoded = TQString::null; m_strRef_encoded = TQString::null; if ( rUrl[0] == '/') { if ((rUrl.length() > 1) && (rUrl[1] == '/')) { m_strHost = TQString::null; // File protocol returns file:/// without host, strip // from rUrl if (_u.m_strProtocol == fileProt) rUrl.remove(0, 2); } m_strPath = TQString::null; m_strPath_encoded = TQString::null; } else if ( rUrl[0] != '?' ) { int pos = m_strPath.findRev( '/' ); if (pos >= 0) m_strPath.truncate(pos); m_strPath += '/'; if (!m_strPath_encoded.isEmpty()) { pos = m_strPath_encoded.findRev( '/' ); if (pos >= 0) m_strPath_encoded.truncate(pos); m_strPath_encoded += '/'; } } else { if ( m_strPath.isEmpty() ) m_strPath = '/'; } KURL tmp( url() + rUrl, encoding_hint); *this = tmp; cleanPath(false); } else { KURL tmp( rUrl, encoding_hint); *this = tmp; // Preserve userinfo if applicable. if (!_u.m_strUser.isEmpty() && m_strUser.isEmpty() && (_u.m_strHost == m_strHost) && (_u.m_strProtocol == m_strProtocol)) { m_strUser = _u.m_strUser; m_strPass = _u.m_strPass; } cleanPath(false); } } void KURL::reset() { m_strProtocol = TQString::null; m_strUser = TQString::null; m_strPass = TQString::null; m_strHost = TQString::null; m_strPath = TQString::null; m_strPath_encoded = TQString::null; m_strQuery_encoded = TQString::null; m_strRef_encoded = TQString::null; m_bIsMalformed = true; m_iPort = 0; m_iUriMode = Auto; } bool KURL::isEmpty() const { return (m_strPath.isEmpty() && m_strProtocol.isEmpty()); } void KURL::parse( const TQString& _url, int encoding_hint ) { if ( _url.isEmpty() || m_iUriMode == Invalid ) { m_strProtocol = _url; m_iUriMode = Invalid; return; } const TQChar* buf = _url.unicode(); const TQChar* orig = buf; uint len = _url.length(); uint pos = 0; // Node 1: Accept alpha or slash TQChar x = buf[pos++]; #ifdef Q_WS_WIN /* win32: accept : or :/ or :\ */ const bool alpha = isalpha((int)x); if (alpha && len<2) goto NodeErr; if (alpha && buf[pos]==':' && (len==2 || (len>2 && (buf[pos+1]=='/' || buf[pos+1]=='\\')))) #else if ( x == (TQChar)'/' ) #endif { // A slash means we immediately proceed to parse it as a file URL. m_iUriMode = URL; m_strProtocol = fileProt; parseURL( _url, encoding_hint ); return; } if ( !isalpha( (int)x ) ) goto NodeErr; // Node 2: Accept any amount of (alpha|digit|'+'|'-') // '.' is not currently accepted, because current KURL may be confused. // Proceed with :// :/ or : while( pos < len && (isalpha((int)buf[pos]) || isdigit((int)buf[pos]) || buf[pos] == (TQChar)'+' || buf[pos] == (TQChar)'-')) pos++; if (pos < len && buf[pos] == (TQChar)':' ) { m_strProtocol = TQString( orig, pos ).lower(); if ( m_iUriMode == Auto ) m_iUriMode = uriModeForProtocol( m_strProtocol ); // Proceed to correct parse function. switch ( m_iUriMode ) { case RawURI: parseRawURI( _url ); return; case Mailto: parseMailto( _url ); return; case URL: parseURL( _url, encoding_hint ); return; default: // Unknown URI mode results in an invalid URI. break; } } NodeErr: reset(); m_strProtocol = _url; m_iUriMode = Invalid; } void KURL::parseRawURI( const TQString& _url, int encoding_hint ) { uint len = _url.length(); const TQChar* buf = _url.unicode(); uint pos = 0; // Accept any amount of (alpha|digit|'+'|'-') // '.' is not currently accepted, because current KURL may be confused. // Proceed with : while( pos < len && (isalpha((int)buf[pos]) || isdigit((int)buf[pos]) || buf[pos] == (TQChar)'+' || buf[pos] == (TQChar)'-')) pos++; // Note that m_strProtocol is already set here, so we just skip over the protocol. if (pos < len && buf[pos] == (TQChar)':' ) pos++; else { // can't happen, the caller checked all this already reset(); m_strProtocol = _url; m_iUriMode = Invalid; return; } if ( pos == len ) // can't happen, the caller checked this already m_strPath = TQString::null; else m_strPath = decode( TQString( buf + pos, len - pos ), encoding_hint, true ); m_bIsMalformed = false; return; } void KURL::parseMailto( const TQString& _url, int encoding_hint ) { parseURL( _url, encoding_hint); if ( m_bIsMalformed ) return; TQRegExp mailre("(.+@)(.+)"); if ( mailre.exactMatch( m_strPath ) ) { #ifndef KDE_QT_ONLY TQString host = KIDNA::toUnicode( mailre.cap( 2 ) ); if (host.isEmpty()) host = TQString(mailre.cap( 2 )).lower(); #else TQString host = TQString(mailre.cap( 2 )).lower(); #endif m_strPath = mailre.cap( 1 ) + host; } } void KURL::parseURL( const TQString& _url, int encoding_hint ) { TQString port; bool badHostName = false; int start = 0; uint len = _url.length(); const TQChar* buf = _url.unicode(); TQChar delim; TQString tmp; uint pos = 0; // Node 1: Accept alpha or slash TQChar x = buf[pos++]; #ifdef Q_WS_WIN /* win32: accept : or :/ or :\ */ const bool alpha = isalpha((int)x); if (alpha && len<2) goto NodeErr; if (alpha && buf[pos]==(TQChar)':' && (len==2 || (len>2 && (buf[pos+1]==(TQChar)'/' || buf[pos+1]==(TQChar)'\\')))) #else if ( x == (TQChar)'/' ) #endif goto Node9; if ( !isalpha( (int)x ) ) goto NodeErr; // Node 2: Accept any amount of (alpha|digit|'+'|'-') // '.' is not currently accepted, because current KURL may be confused. // Proceed with :// :/ or : while( pos < len && (isalpha((int)buf[pos]) || isdigit((int)buf[pos]) || buf[pos] == (TQChar)'+' || buf[pos] == (TQChar)'-')) pos++; // Note that m_strProtocol is already set here, so we just skip over the protocol. if ( pos+2 < len && buf[pos] == (TQChar)':' && buf[pos+1] == (TQChar)'/' && buf[pos+2] == (TQChar)'/' ) { pos += 3; } else if (pos+1 < len && buf[pos] == (TQChar)':' ) // Need to always compare length()-1 otherwise KURL passes "http:" as legal!! { pos++; start = pos; goto Node9; } else goto NodeErr; //Node 3: We need at least one character here if ( pos == len ) goto NodeErr; start = pos; // Node 4: Accept any amount of characters. if (buf[pos] == (TQChar)'[') // An IPv6 host follows. goto Node8; // Terminate on / or @ or ? or # or " or ; or < x = buf[pos]; while( (x != (TQChar)':') && (x != (TQChar)'@') && (x != (TQChar)'/') && (x != (TQChar)'?') && (x != (TQChar)'#') ) { if ((x == (TQChar)'\"') || (x == (TQChar)';') || (x == (TQChar)'<')) badHostName = true; if (++pos == len) break; x = buf[pos]; } if ( pos == len ) { if (badHostName) goto NodeErr; setHost(decode(TQString( buf + start, pos - start ), encoding_hint)); goto NodeOk; } if ( x == (TQChar)'@' ) { m_strUser = decode(TQString( buf + start, pos - start ), encoding_hint); pos++; goto Node7; } else if ( (x == (TQChar)'/') || (x == (TQChar)'?') || (x == (TQChar)'#')) { if (badHostName) goto NodeErr; setHost(decode(TQString( buf + start, pos - start ), encoding_hint)); start = pos; goto Node9; } else if ( x != (TQChar)':' ) goto NodeErr; m_strUser = decode(TQString( buf + start, pos - start ), encoding_hint); pos++; // Node 5: We need at least one character if ( pos == len ) goto NodeErr; start = pos++; // Node 6: Read everything until @, /, ? or # while( (pos < len) && (buf[pos] != (TQChar)'@') && (buf[pos] != (TQChar)'/') && (buf[pos] != (TQChar)'?') && (buf[pos] != (TQChar)'#')) pos++; // If we now have a '@' the ':' seperates user and password. // Otherwise it seperates host and port. if ( (pos == len) || (buf[pos] != (TQChar)'@') ) { // Ok the : was used to separate host and port if (badHostName) goto NodeErr; setHost(m_strUser); m_strUser = TQString::null; TQString tmp( buf + start, pos - start ); char *endptr; m_iPort = (unsigned short int)strtol(tmp.ascii(), &endptr, 10); if ((pos == len) && (strlen(endptr) == 0)) goto NodeOk; // there is more after the digits pos -= strlen(endptr); if ((buf[pos] != (TQChar)'@') && (buf[pos] != (TQChar)'/') && (buf[pos] != (TQChar)'?') && (buf[pos] != (TQChar)'#')) goto NodeErr; start = pos; goto Node9; } m_strPass = decode(TQString( buf + start, pos - start), encoding_hint); pos++; // Node 7: We need at least one character Node7: if ( pos == len ) goto NodeErr; Node8: if (buf[pos] == (TQChar)'[') { // IPv6 address start = ++pos; // Skip '[' if (pos == len) { badHostName = true; goto NodeErr; } // Node 8a: Read everything until ] or terminate badHostName = false; x = buf[pos]; while( (x != (TQChar)']') ) { if ((x == (TQChar)'\"') || (x == (TQChar)';') || (x == (TQChar)'<')) badHostName = true; if (++pos == len) { badHostName = true; break; } x = buf[pos]; } if (badHostName) goto NodeErr; setHost(decode(TQString( buf + start, pos - start ), encoding_hint)); if (pos < len) pos++; // Skip ']' if (pos == len) goto NodeOk; } else { // Non IPv6 address, with a user start = pos; // Node 8b: Read everything until / : or terminate badHostName = false; x = buf[pos]; while( (x != (TQChar)':') && (x != (TQChar)'@') && (x != (TQChar)'/') && (x != (TQChar)'?') && (x != (TQChar)'#') ) { if ((x == (TQChar)'\"') || (x == (TQChar)';') || (x == (TQChar)'<')) badHostName = true; if (++pos == len) break; x = buf[pos]; } if (badHostName) goto NodeErr; if ( pos == len ) { setHost(decode(TQString( buf + start, pos - start ), encoding_hint)); goto NodeOk; } setHost(decode(TQString( buf + start, pos - start ), encoding_hint)); } x = buf[pos]; if ( x == (TQChar)'/' || x == (TQChar)'#' || x == (TQChar)'?' ) { start = pos; goto Node9; } else if ( x != (TQChar)':' ) goto NodeErr; pos++; // Node 8c: Accept at least one digit if ( pos == len ) goto NodeErr; start = pos; if ( !isdigit( buf[pos++] ) ) goto NodeErr; // Node 8d: Accept any amount of digits while( pos < len && isdigit( buf[pos] ) ) pos++; port = TQString( buf + start, pos - start ); m_iPort = port.toUShort(); if ( pos == len ) goto NodeOk; start = pos; Node9: // parse path until query or reference reached while( pos < len && buf[pos] != (TQChar)'#' && buf[pos]!=(TQChar)'?' ) pos++; tmp = TQString( buf + start, pos - start ); //kdDebug(126)<<" setting encoded path to:"<m_strInternalReferenceURL = _u.d->m_strInternalReferenceURL; return *this; } bool KURL::operator<( const KURL& _u) const { int i; if (!_u.isValid()) { if (!isValid()) { i = m_strProtocol.compare(_u.m_strProtocol); return (i < 0); } return false; } if (!isValid()) return true; i = m_strProtocol.compare(_u.m_strProtocol); if (i) return (i < 0); i = m_strHost.compare(_u.m_strHost); if (i) return (i < 0); if (m_iPort != _u.m_iPort) return (m_iPort < _u.m_iPort); i = m_strPath.compare(_u.m_strPath); if (i) return (i < 0); i = m_strQuery_encoded.compare(_u.m_strQuery_encoded); if (i) return (i < 0); i = m_strRef_encoded.compare(_u.m_strRef_encoded); if (i) return (i < 0); i = m_strUser.compare(_u.m_strUser); if (i) return (i < 0); i = m_strPass.compare(_u.m_strPass); if (i) return (i < 0); i = d->m_strInternalReferenceURL.compare(_u.d->m_strInternalReferenceURL); if (i) return (i < 0); return false; } bool KURL::operator==( const KURL& _u ) const { if ( !isValid() || !_u.isValid() ) return false; if ( m_strProtocol == _u.m_strProtocol && m_strUser == _u.m_strUser && m_strPass == _u.m_strPass && m_strHost == _u.m_strHost && m_strPath == _u.m_strPath && // The encoded path may be null, but the URLs are still equal (David) ( m_strPath_encoded.isNull() || _u.m_strPath_encoded.isNull() || m_strPath_encoded == _u.m_strPath_encoded ) && m_strQuery_encoded == _u.m_strQuery_encoded && m_strRef_encoded == _u.m_strRef_encoded && m_iPort == _u.m_iPort && d->m_strInternalReferenceURL == _u.d->m_strInternalReferenceURL ) { return true; } return false; } bool KURL::operator==( const TQString& _u ) const { KURL u( _u ); return ( *this == u ); } bool KURL::cmp( const KURL &u, bool ignore_trailing ) const { return equals( u, ignore_trailing ); } bool KURL::equals( const KURL &_u, bool ignore_trailing ) const { return equals(_u, ignore_trailing, false); } bool KURL::equals( const KURL &_u, bool ignore_trailing, bool ignore_internalReferenceURLS ) const { if ( !isValid() || !_u.isValid() ) return false; if ( ignore_trailing ) { TQString path1 = path(1); TQString path2 = _u.path(1); if ( path1 != path2 ) return false; if ( m_strProtocol == _u.m_strProtocol && m_strUser == _u.m_strUser && m_strPass == _u.m_strPass && m_strHost == _u.m_strHost && m_strQuery_encoded == _u.m_strQuery_encoded && m_strRef_encoded == _u.m_strRef_encoded && m_iPort == _u.m_iPort && ((ignore_internalReferenceURLS) || (d->m_strInternalReferenceURL == _u.d->m_strInternalReferenceURL)) ) return true; return false; } return ( *this == _u ); } bool KURL::isParentOf( const KURL& _u ) const { if ( !isValid() || !_u.isValid() ) return false; if ( m_strProtocol == _u.m_strProtocol && m_strUser == _u.m_strUser && m_strPass == _u.m_strPass && m_strHost == _u.m_strHost && m_strQuery_encoded == _u.m_strQuery_encoded && m_strRef_encoded == _u.m_strRef_encoded && m_iPort == _u.m_iPort ) { if ( path().isEmpty() || _u.path().isEmpty() ) return false; // can't work with implicit paths TQString p1( cleanpath( path(), true, false ) ); if ( p1[p1.length()-1] != '/' ) p1 += '/'; TQString p2( cleanpath( _u.path(), true, false ) ); if ( p2[p2.length()-1] != '/' ) p2 += '/'; //kdDebug(126) << "p1=" << p1 << endl; //kdDebug(126) << "p2=" << p2 << endl; //kdDebug(126) << "p1.length()=" << p1.length() << endl; //kdDebug(126) << "p2.left(!$)=" << p2.left( p1.length() ) << endl; return p2.startsWith( p1 ); } return false; } void KURL::setFileName( const TQString& _txt ) { m_strRef_encoded = TQString::null; int i = 0; while( _txt[i] == (TQChar)'/' ) ++i; TQString tmp; if ( i ) tmp = _txt.mid( i ); else tmp = _txt; TQString path = m_strPath_encoded.isEmpty() ? m_strPath : m_strPath_encoded; if ( path.isEmpty() ) path = "/"; else { int lastSlash = path.findRev( '/' ); if ( lastSlash == -1) { // The first character is not a '/' ??? // This looks strange ... path = "/"; } else if ( path.right(1) != "/" ) path.truncate( lastSlash+1 ); // keep the "/" } if (m_strPath_encoded.isEmpty()) { path += tmp; setPath( path ); } else { path += encode_string(tmp); setEncodedPath( path ); } cleanPath(); } void KURL::cleanPath( bool cleanDirSeparator ) // taken from the old KURL { if (m_iUriMode != URL) return; m_strPath = cleanpath(m_strPath, cleanDirSeparator, false); // WABA: Is this safe when "/../" is encoded with %? m_strPath_encoded = cleanpath(m_strPath_encoded, cleanDirSeparator, true); } static TQString trailingSlash( int _trailing, const TQString &path ) { TQString result = path; if ( _trailing == 0 ) return result; else if ( _trailing == 1 ) { int len = result.length(); if ( (len == 0) || (result[ len - 1 ] != (TQChar)'/') ) result += "/"; return result; } else if ( _trailing == -1 ) { if ( result == "/" ) return result; int len = result.length(); while (len > 1 && result[ len - 1 ] == (TQChar)'/') { len--; } result.truncate( len ); return result; } else { assert( 0 ); return TQString::null; } } void KURL::adjustPath( int _trailing ) { if (!m_strPath_encoded.isEmpty()) { m_strPath_encoded = trailingSlash( _trailing, m_strPath_encoded ); } m_strPath = trailingSlash( _trailing, m_strPath ); } TQString KURL::encodedPathAndQuery( int _trailing, bool _no_empty_path, int encoding_hint ) const { TQString tmp; if (!m_strPath_encoded.isEmpty() && encoding_hint == 0) { tmp = trailingSlash( _trailing, m_strPath_encoded ); } else { tmp = path( _trailing ); if ( _no_empty_path && tmp.isEmpty() ) tmp = "/"; if (m_iUriMode == Mailto) { tmp = encode( tmp, 2, encoding_hint ); } else { tmp = encode( tmp, 1, encoding_hint ); } } // TODO apply encoding_hint to the query if (!m_strQuery_encoded.isNull()) tmp += '?' + m_strQuery_encoded; return tmp; } void KURL::setEncodedPath( const TQString& _txt, int encoding_hint ) { m_strPath_encoded = _txt; decode( m_strPath_encoded, m_strPath, m_strPath_encoded, encoding_hint ); // Throw away encoding for local files, makes file-operations faster. if (m_strProtocol == fileProt) m_strPath_encoded = TQString::null; if ( m_iUriMode == Auto ) m_iUriMode = URL; } void KURL::setEncodedPathAndQuery( const TQString& _txt, int encoding_hint ) { int pos = _txt.find( '?' ); if ( pos == -1 ) { setEncodedPath(_txt, encoding_hint); m_strQuery_encoded = TQString::null; } else { setEncodedPath(_txt.left( pos ), encoding_hint); _setQuery(_txt.right(_txt.length() - pos - 1), encoding_hint); } } TQString KURL::path( int _trailing ) const { return trailingSlash( _trailing, path() ); } bool KURL::isLocalFile() const { if ( (m_strProtocol != fileProt ) || hasSubURL() ) return false; if (m_strHost.isEmpty() || (m_strHost == "localhost")) return true; char hostname[ 256 ]; hostname[ 0 ] = '\0'; if (!gethostname( hostname, 255 )) hostname[sizeof(hostname)-1] = '\0'; for(char *p = hostname; *p; p++) *p = tolower(*p); return (m_strHost == hostname); } void KURL::setFileEncoding(const TQString &encoding) { if (!isLocalFile()) return; TQString q = query(); if (!q.isEmpty() && (q[0] == '?')) q = q.mid(1); TQStringList args = TQStringList::split('&', q); for(TQStringList::Iterator it = args.begin(); it != args.end();) { TQString s = decode_string(*it); if (s.startsWith("charset=")) it = args.erase(it); else ++it; } if (!encoding.isEmpty()) args.append("charset="+encode_string(encoding)); if (args.isEmpty()) _setQuery(TQString::null); else _setQuery(args.join("&")); } TQString KURL::fileEncoding() const { if (!isLocalFile()) return TQString::null; TQString q = query(); if (q.isEmpty()) return TQString::null; if (q[0] == '?') q = q.mid(1); TQStringList args = TQStringList::split('&', q); for(TQStringList::ConstIterator it = args.begin(); it != args.end(); ++it) { TQString s = decode_string(*it); if (s.startsWith("charset=")) return s.mid(8); } return TQString::null; } bool KURL::hasSubURL() const { if ( m_strProtocol.isEmpty() || m_bIsMalformed ) return false; if (m_strRef_encoded.isEmpty()) return false; if (m_strRef_encoded.startsWith("gzip:")) return true; if (m_strRef_encoded.startsWith("bzip:")) return true; if (m_strRef_encoded.startsWith("bzip2:")) return true; if (m_strRef_encoded.startsWith("tar:")) return true; if (m_strRef_encoded.startsWith("ar:")) return true; if (m_strRef_encoded.startsWith("zip:")) return true; if (m_strRef_encoded.startsWith("lzma:")) return true; if (m_strRef_encoded.startsWith("xz:")) return true; if ( m_strProtocol == "error" ) // anything that starts with error: has suburls return true; return false; } TQString KURL::url( int _trailing, int encoding_hint ) const { if( m_bIsMalformed ) { // Return the whole url even when the url is // malformed. Under such conditions the url // is stored in m_strProtocol. return m_strProtocol; } TQString u = m_strProtocol; if (!u.isEmpty()) u += ":"; if ( hasHost() || (m_strProtocol == fileProt) ) { u += "//"; if ( hasUser() ) { u += encode(m_strUser, 0, encoding_hint); if ( hasPass() ) { u += ":"; u += encode(m_strPass, 0, encoding_hint); } u += "@"; } if ( m_iUriMode == URL ) { bool IPv6 = (m_strHost.find(':') != -1); if (IPv6) u += '[' + m_strHost + ']'; else u += encodeHost(m_strHost, true, encoding_hint); if ( m_iPort != 0 ) { TQString buffer; buffer.sprintf( ":%u", m_iPort ); u += buffer; } } else { u += m_strHost; } } if ( m_iUriMode == URL || m_iUriMode == Mailto ) u += encodedPathAndQuery( _trailing, false, encoding_hint ); else u += encode( m_strPath, 21, encoding_hint, true ); if ( hasRef() ) { u += "#"; u += m_strRef_encoded; } return u; } TQString KURL::prettyURL( int _trailing ) const { if( m_bIsMalformed ) { // Return the whole url even when the url is // malformed. Under such conditions the url // is stored in m_strProtocol. return m_strProtocol; } TQString u = m_strProtocol; if (!u.isEmpty()) u += ":"; if ( hasHost() || (m_strProtocol == fileProt) ) { u += "//"; if ( hasUser() ) { u += encode(m_strUser, 0, 0); // Don't show password! u += "@"; } if ( m_iUriMode == URL ) { bool IPv6 = (m_strHost.find(':') != -1); if (IPv6) { u += '[' + m_strHost + ']'; } else { u += lazy_encode(m_strHost); } } else { u += lazy_encode(m_strHost); } if ( m_iPort != 0 ) { TQString buffer; buffer.sprintf( ":%u", m_iPort ); u += buffer; } } if (m_iUriMode == Mailto) { u += lazy_encode( m_strPath, false ); } else { u += trailingSlash( _trailing, lazy_encode( m_strPath ) ); } if (!m_strQuery_encoded.isNull()) u += '?' + m_strQuery_encoded; if ( hasRef() ) { u += "#"; u += m_strRef_encoded; } return u; } TQString KURL::prettyURL( int _trailing, AdjustementFlags _flags) const { TQString u = prettyURL(_trailing); if (_flags & StripFileProtocol && u.startsWith("file://")) { u.remove(0, 7); #ifdef Q_WS_WIN return TQDir::convertSeparators(u); #endif } return u; } TQString KURL::pathOrURL() const { if ( isLocalFile() && m_strRef_encoded.isNull() && m_strQuery_encoded.isNull() ) { return path(); } else { return prettyURL(); } } TQString KURL::htmlURL() const { return TQStyleSheet::escape(prettyURL()); } KURL::List KURL::split( const KURL& _url ) { TQString ref; KURL::List lst; KURL url = _url; while(true) { KURL u = url; u.m_strRef_encoded = TQString::null; lst.append(u); if (url.hasSubURL()) { url = KURL(url.m_strRef_encoded); } else { ref = url.m_strRef_encoded; break; } } // Set HTML ref in all URLs. KURL::List::Iterator it; for( it = lst.begin() ; it != lst.end(); ++it ) { (*it).m_strRef_encoded = ref; } return lst; } KURL::List KURL::split( const TQString& _url ) { return split(KURL(_url)); } KURL KURL::join( const KURL::List & lst ) { if (lst.isEmpty()) return KURL(); KURL tmp; KURL::List::ConstIterator first = lst.fromLast(); for( KURL::List::ConstIterator it = first; it != lst.end(); --it ) { KURL u(*it); if (it != first) { if (!u.m_strRef_encoded) u.m_strRef_encoded = tmp.url(); else u.m_strRef_encoded += "#" + tmp.url(); // Support more than one suburl thingy } tmp = u; } return tmp; } TQString KURL::fileName( bool _strip_trailing_slash ) const { TQString fname; if (hasSubURL()) { // If we have a suburl, then return the filename from there KURL::List list = KURL::split(*this); KURL::List::Iterator it = list.fromLast(); return (*it).fileName(_strip_trailing_slash); } const TQString &path = m_strPath; int len = path.length(); if ( len == 0 ) return fname; if ( _strip_trailing_slash ) { while ( len >= 1 && path[ len - 1 ] == TQChar('/') ) len--; } else if ( path[ len - 1 ] == TQChar('/') ) return fname; // Does the path only consist of '/' characters ? if ( len == 1 && path[ 0 ] == TQChar('/') ) return fname; // Skip last n slashes int n = 1; if (!m_strPath_encoded.isEmpty()) { // This is hairy, we need the last unencoded slash. // Count in the encoded string how many encoded slashes follow the last // unencoded one. int i = m_strPath_encoded.findRev( TQChar('/'), len - 1 ); TQString fileName_encoded = m_strPath_encoded.mid(i+1); n += fileName_encoded.contains("%2f", false); } int i = len; do { i = path.findRev( TQChar('/'), i - 1 ); } while (--n && (i > 0)); // If ( i == -1 ) => the first character is not a '/' // So it's some URL like file:blah.tgz, return the whole path if ( i == -1 ) { if ( len == (int)path.length() ) fname = path; else // Might get here if _strip_trailing_slash is true fname = path.left( len ); } else { fname = path.mid( i + 1, len - i - 1 ); // TO CHECK } return fname; } void KURL::addPath( const TQString& _txt ) { if (hasSubURL()) { KURL::List lst = split( *this ); KURL &u = lst.last(); u.addPath(_txt); *this = join( lst ); return; } m_strPath_encoded = TQString::null; if ( _txt.isEmpty() ) return; int i = 0; int len = m_strPath.length(); // Add the trailing '/' if it is missing if ( _txt[0] != (TQChar)'/' && ( len == 0 || m_strPath[ len - 1 ] != (TQChar)'/' ) ) m_strPath += "/"; // No double '/' characters i = 0; if ( len != 0 && m_strPath[ len - 1 ] == (TQChar)'/' ) { while( _txt[i] == (TQChar)'/' ) ++i; } m_strPath += _txt.mid( i ); } TQString KURL::directory( bool _strip_trailing_slash_from_result, bool _ignore_trailing_slash_in_path ) const { TQString result = m_strPath_encoded.isEmpty() ? m_strPath : m_strPath_encoded; if ( _ignore_trailing_slash_in_path ) result = trailingSlash( -1, result ); if ( result.isEmpty() || result == "/" ) return result; int i = result.findRev( "/" ); // If ( i == -1 ) => the first character is not a '/' // So it's some URL like file:blah.tgz, with no path if ( i == -1 ) return TQString::null; if ( i == 0 ) { result = "/"; return result; } if ( _strip_trailing_slash_from_result ) result = result.left( i ); else result = result.left( i + 1 ); if (!m_strPath_encoded.isEmpty()) result = decode(result); return result; } bool KURL::cd( const TQString& _dir ) { if ( _dir.isEmpty() || m_bIsMalformed ) return false; if (hasSubURL()) { KURL::List lst = split( *this ); KURL &u = lst.last(); u.cd(_dir); *this = join( lst ); return true; } // absolute path ? if ( _dir[0] == (TQChar)'/' ) { m_strPath_encoded = TQString::null; m_strPath = _dir; setHTMLRef( TQString::null ); m_strQuery_encoded = TQString::null; return true; } // Users home directory on the local disk ? if ( ( _dir[0] == (TQChar)'~' ) && ( m_strProtocol == fileProt )) { m_strPath_encoded = TQString::null; m_strPath = TQDir::homeDirPath(); m_strPath += "/"; m_strPath += _dir.right(m_strPath.length() - 1); setHTMLRef( TQString::null ); m_strQuery_encoded = TQString::null; return true; } // relative path // we always work on the past of the first url. // Sub URLs are not touched. // append '/' if necessary TQString p = path(1); p += _dir; p = cleanpath( p, true, false ); setPath( p ); setHTMLRef( TQString::null ); m_strQuery_encoded = TQString::null; return true; } KURL KURL::upURL( ) const { if (!query().isEmpty()) { KURL u(*this); u._setQuery(TQString::null); return u; }; if (!hasSubURL()) { KURL u(*this); u.cd("../"); return u; } // We have a subURL. KURL::List lst = split( *this ); if (lst.isEmpty()) return KURL(); // Huh? while (true) { KURL &u = lst.last(); TQString old = u.path(); u.cd("../"); if (u.path() != old) break; // Finshed. if (lst.count() == 1) break; // Finished. lst.remove(lst.fromLast()); } return join( lst ); } TQString KURL::htmlRef() const { if ( !hasSubURL() ) { return decode( ref() ); } List lst = split( *this ); return decode( (*lst.begin()).ref() ); } TQString KURL::encodedHtmlRef() const { if ( !hasSubURL() ) { return ref(); } List lst = split( *this ); return (*lst.begin()).ref(); } void KURL::setHTMLRef( const TQString& _ref ) { if ( !hasSubURL() ) { m_strRef_encoded = encode( _ref, 0, 0 /*?*/); return; } List lst = split( *this ); (*lst.begin()).setRef( encode( _ref, 0, 0 /*?*/) ); *this = join( lst ); } bool KURL::hasHTMLRef() const { if ( !hasSubURL() ) { return hasRef(); } List lst = split( *this ); return (*lst.begin()).hasRef(); } void KURL::setProtocol( const TQString& _txt ) { m_strProtocol = _txt; if ( m_iUriMode == Auto ) m_iUriMode = uriModeForProtocol( m_strProtocol ); m_bIsMalformed = false; } void KURL::setUser( const TQString& _txt ) { if ( _txt.isEmpty() ) m_strUser = TQString::null; else m_strUser = _txt; } void KURL::setPass( const TQString& _txt ) { if ( _txt.isEmpty() ) m_strPass = TQString::null; else m_strPass = _txt; } void KURL::setHost( const TQString& _txt ) { if ( m_iUriMode == Auto ) m_iUriMode = URL; switch ( m_iUriMode ) { case URL: #ifndef KDE_QT_ONLY m_strHost = KIDNA::toUnicode(_txt); if (m_strHost.isEmpty()) m_strHost = _txt.lower(); // Probably an invalid hostname, but... #else m_strHost = _txt.lower(); #endif break; default: m_strHost = _txt; break; } } void KURL::setPort( unsigned short int _p ) { m_iPort = _p; } void KURL::setPath( const TQString & path ) { if (isEmpty()) m_bIsMalformed = false; if (m_strProtocol.isEmpty()) { m_strProtocol = fileProt; } m_strPath = path; m_strPath_encoded = TQString::null; if ( m_iUriMode == Auto ) m_iUriMode = URL; } void KURL::setDirectory( const TQString &dir) { if ( dir.endsWith("/")) setPath(dir); else setPath(dir+"/"); } void KURL::setQuery( const TQString &_txt, int encoding_hint) { if (_txt[0] == (TQChar)'?') _setQuery( _txt.length() > 1 ? _txt.mid(1) : "" /*empty, not null*/, encoding_hint ); else _setQuery( _txt, encoding_hint ); } // This is a private function that expects a query without '?' void KURL::_setQuery( const TQString &_txt, int encoding_hint) { m_strQuery_encoded = _txt; if (!_txt.length()) return; int l = m_strQuery_encoded.length(); int i = 0; TQString result; while (i < l) { int s = i; // Re-encode. Break encoded string up according to the reserved // characters '&:;=/?' and re-encode part by part. while(i < l) { char c = m_strQuery_encoded[i].latin1(); if ((c == '&') || (c == ':') || (c == ';') || (c == '=') || (c == '/') || (c == '?')) break; i++; } if (i > s) { TQString tmp = m_strQuery_encoded.mid(s, i-s); TQString newTmp; decode( tmp, newTmp, tmp, encoding_hint, false ); result += tmp; } if (i < l) { result += m_strQuery_encoded[i]; i++; } } m_strQuery_encoded = result; } TQString KURL::query() const { if (m_strQuery_encoded.isNull()) return TQString::null; return '?'+m_strQuery_encoded; } TQString KURL::decode_string(const TQString &str, int encoding_hint) { return decode(str, encoding_hint); } TQString KURL::encode_string(const TQString &str, int encoding_hint) { return encode(str, 1, encoding_hint); } TQString KURL::encode_string_no_slash(const TQString &str, int encoding_hint) { return encode(str, 0, encoding_hint); } bool urlcmp( const TQString& _url1, const TQString& _url2 ) { // Both empty ? if ( _url1.isEmpty() && _url2.isEmpty() ) return true; // Only one empty ? if ( _url1.isEmpty() || _url2.isEmpty() ) return false; KURL::List list1 = KURL::split( _url1 ); KURL::List list2 = KURL::split( _url2 ); // Malformed ? if ( list1.isEmpty() || list2.isEmpty() ) return false; return ( list1 == list2 ); } bool urlcmp( const TQString& _url1, const TQString& _url2, bool _ignore_trailing, bool _ignore_ref ) { // Both empty ? if ( _url1.isEmpty() && _url2.isEmpty() ) return true; // Only one empty ? if ( _url1.isEmpty() || _url2.isEmpty() ) return false; KURL::List list1 = KURL::split( _url1 ); KURL::List list2 = KURL::split( _url2 ); // Malformed ? if ( list1.isEmpty() || list2.isEmpty() ) return false; unsigned int size = list1.count(); if ( list2.count() != size ) return false; if ( _ignore_ref ) { (*list1.begin()).setRef(TQString::null); (*list2.begin()).setRef(TQString::null); } KURL::List::Iterator it1 = list1.begin(); KURL::List::Iterator it2 = list2.begin(); for( ; it1 != list1.end() ; ++it1, ++it2 ) if ( !(*it1).equals( *it2, _ignore_trailing ) ) return false; return true; } TQMap< TQString, TQString > KURL::queryItems( int options ) const { return queryItems(options, 0); } TQMap< TQString, TQString > KURL::queryItems( int options, int encoding_hint ) const { if ( m_strQuery_encoded.isEmpty() ) return TQMap(); TQMap< TQString, TQString > result; TQStringList items = TQStringList::split( '&', m_strQuery_encoded ); for ( TQStringList::const_iterator it = items.begin() ; it != items.end() ; ++it ) { int equal_pos = (*it).find( '=' ); if ( equal_pos > 0 ) { // = is not the first char... TQString name = (*it).left( equal_pos ); if ( options & CaseInsensitiveKeys ) name = name.lower(); TQString value = (*it).mid( equal_pos + 1 ); if ( value.isEmpty() ) result.insert( name, TQString::fromLatin1("") ); else { // ### why is decoding name not necessary? value.replace( '+', ' ' ); // + in queries means space result.insert( name, decode_string( value, encoding_hint ) ); } } else if ( equal_pos < 0 ) { // no = TQString name = (*it); if ( options & CaseInsensitiveKeys ) name = name.lower(); result.insert( name, TQString::null ); } } return result; } TQString KURL::queryItem( const TQString& _item ) const { return queryItem( _item, 0 ); } TQString KURL::queryItem( const TQString& _item, int encoding_hint ) const { TQString item = _item + '='; if ( m_strQuery_encoded.length() <= 1 ) return TQString::null; TQStringList items = TQStringList::split( '&', m_strQuery_encoded ); unsigned int _len = item.length(); for ( TQStringList::ConstIterator it = items.begin(); it != items.end(); ++it ) { if ( (*it).startsWith( item ) ) { if ( (*it).length() > _len ) { TQString str = (*it).mid( _len ); str.replace( '+', ' ' ); // + in queries means space. return decode_string( str, encoding_hint ); } else // empty value return TQString::fromLatin1(""); } } return TQString::null; } void KURL::removeQueryItem( const TQString& _item ) { TQString item = _item + '='; if ( m_strQuery_encoded.length() <= 1 ) return; TQStringList items = TQStringList::split( '&', m_strQuery_encoded ); for ( TQStringList::Iterator it = items.begin(); it != items.end(); ) { if ( (*it).startsWith( item ) || (*it == _item) ) { TQStringList::Iterator deleteIt = it; ++it; items.remove(deleteIt); } else { ++it; } } m_strQuery_encoded = items.join( "&" ); } void KURL::addQueryItem( const TQString& _item, const TQString& _value, int encoding_hint ) { TQString item = _item + '='; TQString value = encode( _value, 0, encoding_hint ); if (!m_strQuery_encoded.isEmpty()) m_strQuery_encoded += '&'; m_strQuery_encoded += item + value; } // static KURL KURL::fromPathOrURL( const TQString& text ) { if ( text.isEmpty() ) return KURL(); KURL url; if (!TQDir::isRelativePath(text)) url.setPath( text ); else url = text; return url; } static TQString _relativePath(const TQString &base_dir, const TQString &path, bool &isParent) { TQString _base_dir(TQDir::cleanDirPath(base_dir)); TQString _path(TQDir::cleanDirPath(path.isEmpty() || (path[0] != (TQChar)'/') ? _base_dir+"/"+path : path)); if (_base_dir.isEmpty()) return _path; if (_base_dir[_base_dir.length()-1] != '/') _base_dir.append('/'); TQStringList list1 = TQStringList::split('/', _base_dir); TQStringList list2 = TQStringList::split('/', _path); // Find where they meet uint level = 0; uint maxLevel = TQMIN(list1.count(), list2.count()); while((level < maxLevel) && (list1[level] == list2[level])) level++; TQString result; // Need to go down out of the first path to the common branch. for(uint i = level; i < list1.count(); i++) result.append("../"); // Now up up from the common branch to the second path. for(uint i = level; i < list2.count(); i++) result.append(list2[i]).append("/"); if ((level < list2.count()) && (path[path.length()-1] != (TQChar)'/')) result.truncate(result.length()-1); isParent = (level == list1.count()); return result; } TQString KURL::relativePath(const TQString &base_dir, const TQString &path, bool *isParent) { bool parent = false; TQString result = _relativePath(base_dir, path, parent); if (parent) result.prepend("./"); if (isParent) *isParent = parent; return result; } void KURL::setInternalReferenceURL( const TQString& url ) { d->m_strInternalReferenceURL = url; } TQString KURL::internalReferenceURL( void ) const { return d->m_strInternalReferenceURL; } TQString KURL::relativeURL(const KURL &base_url, const KURL &url, int encoding_hint) { if ((url.protocol() != base_url.protocol()) || (url.host() != base_url.host()) || (url.port() && url.port() != base_url.port()) || (url.hasUser() && url.user() != base_url.user()) || (url.hasPass() && url.pass() != base_url.pass())) { return url.url(0, encoding_hint); } TQString relURL; if ((base_url.path() != url.path()) || (base_url.query() != url.query())) { bool dummy; TQString basePath = base_url.directory(false, false); relURL = encode( _relativePath(basePath, url.path(), dummy), 1, encoding_hint); relURL += url.query(); } if ( url.hasRef() ) { relURL += "#"; relURL += url.ref(); } if ( relURL.isEmpty() ) return "./"; return relURL; } int KURL::uriMode() const { return m_iUriMode; } KURL::URIMode KURL::uriModeForProtocol(const TQString& protocol) { KURL::URIMode mode = Auto; #ifndef KDE_QT_ONLY if (protocol == fileProt) return URL; if (TDEGlobal::_instance) mode = KProtocolInfo::uriParseMode(protocol); #endif if (mode == Auto ) { if ( protocol == "ed2k" || protocol == "sig2dat" || protocol == "slsk" || protocol == "data" ) mode = RawURI; else if ( protocol == "mailto" ) mode = Mailto; else mode = URL; } return mode; }