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340 lines
12 KiB
340 lines
12 KiB
// dataprotocol.cpp
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// ==================
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//
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// Implementation of the data protocol (rfc 2397)
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//
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// Author: Leo Savernik
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// Email: l.savernik@aon.at
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// (C) 2002, 2003 by Leo Savernik
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// Created: Sam Dez 28 14:11:18 CET 2002
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/***************************************************************************
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU Lesser General Public License as *
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* published by the Free Software Foundation; version 2. *
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* *
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***************************************************************************/
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#include "dataprotocol.h"
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#include <kdebug.h>
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#include <kmdcodec.h>
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#include <kurl.h>
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#include <tdeio/global.h>
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#include <tqcstring.h>
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#include <tqstring.h>
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#include <tqstringlist.h>
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#include <tqtextcodec.h>
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#ifdef DATAKIOSLAVE
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# include <kinstance.h>
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# include <stdlib.h>
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#endif
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#ifdef TESTKIO
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# include <iostream.h>
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#endif
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#if !defined(DATAKIOSLAVE) && !defined(TESTKIO)
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# define DISPATCH(f) dispatch_##f
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#else
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# define DISPATCH(f) f
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#endif
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using namespace TDEIO;
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#ifdef DATAKIOSLAVE
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extern "C" {
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int kdemain( int argc, char **argv ) {
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TDEInstance instance( "tdeio_data" );
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kdDebug(7101) << "*** Starting tdeio_data " << endl;
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if (argc != 4) {
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kdDebug(7101) << "Usage: tdeio_data protocol domain-socket1 domain-socket2" << endl;
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exit(-1);
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}
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DataProtocol slave(argv[2], argv[3]);
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slave.dispatchLoop();
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kdDebug(7101) << "*** tdeio_data Done" << endl;
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return 0;
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}
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}
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#endif
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/** structure containing header information */
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struct DataHeader {
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TQString mime_type; // mime type of content (lowercase)
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MetaData attributes; // attribute/value pairs (attribute lowercase,
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// value unchanged)
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bool is_base64; // true if data is base64 encoded
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TQString url; // reference to decoded url
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int data_offset; // zero-indexed position within url
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// where the real data begins. May point beyond
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// the end to indicate that there is no data
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TQString *charset; // shortcut to charset (it always exists)
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};
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// constant string data
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const TQChar text_plain_str[] = { 't','e','x','t','/','p','l','a','i','n' };
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const TQChar charset_str[] = { 'c','h','a','r','s','e','t' };
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const TQChar us_ascii_str[] = { 'u','s','-','a','s','c','i','i' };
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const TQChar base64_str[] = { 'b','a','s','e','6','4' };
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/** returns the position of the first occurrence of any of the given characters
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* @p c1 to @p c3 or buf.length() if none is contained.
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* @param buf buffer where to look for c
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* @param begin zero-indexed starting position
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* @param c1 character to find
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* @param c2 alternative character to find or '\0' to ignore
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* @param c3 alternative character to find or '\0' to ignore
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*/
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static int find(const TQString &buf, int begin, TQChar c1, TQChar c2 = '\0',
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TQChar c3 = '\0') {
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int pos = begin;
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int size = (int)buf.length();
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while (pos < size) {
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TQChar ch = buf[pos];
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if (ch == c1
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|| (c2 != '\0' && ch == c2)
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|| (c3 != '\0' && ch == c3))
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break;
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pos++;
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}/*wend*/
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return pos;
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}
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/** extracts the string between the current position @p pos and the first
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* occurrence of either @p c1 to @p c3 exclusively and updates @p pos
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* to point at the found delimiter or at the end of the buffer if
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* neither character occurred.
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* @param buf buffer where to look for
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* @param pos zero-indexed position within buffer
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* @param c1 character to find
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* @param c2 alternative character to find or 0 to ignore
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* @param c3 alternative character to find or 0 to ignore
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*/
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inline TQString extract(const TQString &buf, int &pos, TQChar c1,
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TQChar c2 = '\0', TQChar c3 = '\0') {
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int oldpos = pos;
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pos = find(buf,oldpos,c1,c2,c3);
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return TQString(buf.unicode() + oldpos, pos - oldpos);
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}
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/** ignores all whitespaces
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* @param buf buffer to operate on
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* @param pos position to shift to first non-whitespace character
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* Upon return @p pos will either point to the first non-whitespace
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* character or to the end of the buffer.
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*/
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inline void ignoreWS(const TQString &buf, int &pos) {
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int size = (int)buf.length();
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TQChar ch = buf[pos];
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while (pos < size && (ch == ' ' || ch == '\t' || ch == '\n'
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|| ch == '\r'))
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ch = buf[++pos];
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}
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/** parses a quoted string as per rfc 822.
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*
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* If trailing quote is missing, the whole rest of the buffer is returned.
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* @param buf buffer to operate on
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* @param pos position pointing to the leading quote
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* @return the extracted string. @p pos will be updated to point to the
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* character following the trailing quote.
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*/
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static TQString parseQuotedString(const TQString &buf, int &pos) {
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int size = (int)buf.length();
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TQString res;
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pos++; // jump over leading quote
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bool escaped = false; // if true means next character is literal
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bool parsing = true; // true as long as end quote not found
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while (parsing && pos < size) {
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TQChar ch = buf[pos++];
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if (escaped) {
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res += ch;
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escaped = false;
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} else {
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switch (ch) {
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case '"': parsing = false; break;
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case '\\': escaped = true; break;
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default: res += ch; break;
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}/*end switch*/
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}/*end if*/
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}/*wend*/
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return res;
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}
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/** parses the header of a data url
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* @param url the data url
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* @param header_info fills the given DataHeader structure with the header
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* information
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*/
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static void parseDataHeader(const KURL &url, DataHeader &header_info) {
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TQConstString text_plain(text_plain_str,sizeof text_plain_str/sizeof text_plain_str[0]);
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TQConstString charset(charset_str,sizeof charset_str/sizeof charset_str[0]);
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TQConstString us_ascii(us_ascii_str,sizeof us_ascii_str/sizeof us_ascii_str[0]);
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TQConstString base64(base64_str,sizeof base64_str/sizeof base64_str[0]);
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// initialize header info members
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header_info.mime_type = text_plain.string();
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header_info.charset = &header_info.attributes.insert(
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charset.string(),us_ascii.string())
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.data();
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header_info.is_base64 = false;
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// decode url and save it
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TQString &raw_url = header_info.url = TQString::fromLatin1("data:") + url.path();
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int raw_url_len = (int)raw_url.length();
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// jump over scheme part (must be "data:", we don't even check that)
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header_info.data_offset = raw_url.find(':');
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header_info.data_offset++; // jump over colon or to begin if scheme was missing
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// read mime type
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if (header_info.data_offset >= raw_url_len) return;
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TQString mime_type = extract(raw_url,header_info.data_offset,';',',')
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.stripWhiteSpace();
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if (!mime_type.isEmpty()) header_info.mime_type = mime_type;
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if (header_info.data_offset >= raw_url_len) return;
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// jump over delimiter token and return if data reached
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if (raw_url[header_info.data_offset++] == ',') return;
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// read all attributes and store them
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bool data_begin_reached = false;
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while (!data_begin_reached && header_info.data_offset < raw_url_len) {
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// read attribute
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TQString attribute = extract(raw_url,header_info.data_offset,'=',';',',')
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.stripWhiteSpace();
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if (header_info.data_offset >= raw_url_len
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|| raw_url[header_info.data_offset] != '=') {
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// no assigment, must be base64 option
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if (attribute == base64.string())
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header_info.is_base64 = true;
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} else {
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header_info.data_offset++; // jump over '=' token
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// read value
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ignoreWS(raw_url,header_info.data_offset);
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if (header_info.data_offset >= raw_url_len) return;
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TQString value;
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if (raw_url[header_info.data_offset] == '"') {
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value = parseQuotedString(raw_url,header_info.data_offset);
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ignoreWS(raw_url,header_info.data_offset);
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} else
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value = extract(raw_url,header_info.data_offset,';',',')
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.stripWhiteSpace();
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// add attribute to map
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header_info.attributes[attribute.lower()] = value;
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}/*end if*/
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if (header_info.data_offset < raw_url_len
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&& raw_url[header_info.data_offset] == ',')
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data_begin_reached = true;
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header_info.data_offset++; // jump over separator token
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}/*wend*/
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}
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#ifdef DATAKIOSLAVE
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DataProtocol::DataProtocol(const TQCString &pool_socket, const TQCString &app_socket)
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: SlaveBase("tdeio_data", pool_socket, app_socket) {
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#else
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DataProtocol::DataProtocol() {
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#endif
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kdDebug() << "DataProtocol::DataProtocol()" << endl;
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}
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/* --------------------------------------------------------------------- */
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DataProtocol::~DataProtocol() {
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kdDebug() << "DataProtocol::~DataProtocol()" << endl;
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}
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/* --------------------------------------------------------------------- */
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void DataProtocol::get(const KURL& url) {
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ref();
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//kdDebug() << "===============================================================================================================================================================================" << endl;
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kdDebug() << "tdeio_data@"<<this<<"::get(const KURL& url)" << endl ;
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DataHeader hdr;
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parseDataHeader(url,hdr);
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int size = (int)hdr.url.length();
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int data_ofs = TQMIN(hdr.data_offset,size);
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// FIXME: string is copied, would be nice if we could have a reference only
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TQString url_data = hdr.url.mid(data_ofs);
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TQCString outData;
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#ifdef TESTKIO
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// cout << "current charset: \"" << *hdr.charset << "\"" << endl;
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#endif
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if (hdr.is_base64) {
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// base64 stuff is expected to contain the correct charset, so we just
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// decode it and pass it to the receiver
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KCodecs::base64Decode(url_data.local8Bit(),outData);
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} else {
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// FIXME: This is all flawed, must be reworked thoroughly
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// non encoded data must be converted to the given charset
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TQTextCodec *codec = TQTextCodec::codecForName(hdr.charset->latin1());
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if (codec != 0) {
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outData = codec->fromUnicode(url_data);
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} else {
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// if there is no approprate codec, just use local encoding. This
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// should work for >90% of all cases.
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outData = url_data.local8Bit();
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}/*end if*/
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}/*end if*/
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//kdDebug() << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++" << endl;
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//kdDebug() << "emit mimeType@"<<this << endl ;
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mimeType(hdr.mime_type);
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//kdDebug() << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++" << endl;
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//kdDebug() << "emit totalSize@"<<this << endl ;
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totalSize(outData.size());
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//kdDebug() << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++" << endl;
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//kdDebug() << "emit setMetaData@"<<this << endl ;
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#if defined(TESTKIO) || defined(DATAKIOSLAVE)
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MetaData::ConstIterator it;
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for (it = hdr.attributes.begin(); it != hdr.attributes.end(); ++it) {
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setMetaData(it.key(),it.data());
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}/*next it*/
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#else
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setAllMetaData(hdr.attributes);
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#endif
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//kdDebug() << "+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++" << endl;
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//kdDebug() << "emit sendMetaData@"<<this << endl ;
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sendMetaData();
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//kdDebug() << "^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C^[[C" << endl;
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// kdDebug() << "(1) queue size " << dispatchQueue.size() << endl;
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// empiric studies have shown that this shouldn't be queued & dispatched
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/*DISPATCH*/(data(outData));
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// kdDebug() << "(2) queue size " << dispatchQueue.size() << endl;
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DISPATCH(data(TQByteArray()));
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// kdDebug() << "(3) queue size " << dispatchQueue.size() << endl;
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DISPATCH(finished());
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// kdDebug() << "(4) queue size " << dispatchQueue.size() << endl;
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deref();
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}
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/* --------------------------------------------------------------------- */
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void DataProtocol::mimetype(const KURL &url) {
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ref();
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DataHeader hdr;
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parseDataHeader(url,hdr);
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mimeType(hdr.mime_type);
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finished();
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deref();
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}
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/* --------------------------------------------------------------------- */
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