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tdepim/libkmime/kmime_parsers.cpp

467 lines
13 KiB

/*
kmime_parsers.cpp
KMime, the KDE internet mail/usenet news message library.
Copyright (c) 2001 the KMime authors.
See file AUTHORS for details
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation,
Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, US
*/
#include "kmime_parsers.h"
#include <tqregexp.h>
using namespace KMime::Parser;
namespace KMime {
namespace Parser {
MultiPart::MultiPart(const TQCString &src, const TQCString &boundary)
{
s_rc=src;
b_oundary=boundary;
}
bool MultiPart::parse()
{
TQCString b="--"+b_oundary, part;
int pos1=0, pos2=0, blen=b.length();
p_arts.clear();
//find the first valid boundary
while(1) {
if( (pos1=s_rc.find(b, pos1))==-1 || pos1==0 || s_rc[pos1-1]=='\n' ) //valid boundary found or no boundary at all
break;
pos1+=blen; //boundary found but not valid => skip it;
}
if(pos1>-1) {
pos1+=blen;
if(s_rc[pos1]=='-' && s_rc[pos1+1]=='-') // the only valid boundary is the end-boundary - this message is *really* broken
pos1=-1; //we give up
else if( (pos1-blen)>1 ) //preamble present
p_reamble=s_rc.left(pos1-blen);
}
while(pos1>-1 && pos2>-1) {
//skip the rest of the line for the first boundary - the message-part starts here
if( (pos1=s_rc.find('\n', pos1))>-1 ) { //now search the next linebreak
//now find the next valid boundary
pos2=++pos1; //pos1 and pos2 point now to the beginning of the next line after the boundary
while(1) {
if( (pos2=s_rc.find(b, pos2))==-1 || s_rc[pos2-1]=='\n' ) //valid boundary or no more boundaries found
break;
pos2+=blen; //boundary is invalid => skip it;
}
if(pos2==-1) { // no more boundaries found
part=s_rc.mid(pos1, s_rc.length()-pos1); //take the rest of the string
p_arts.append(part);
pos1=-1;
pos2=-1; //break;
}
else {
part=s_rc.mid(pos1, pos2-pos1 - 1 ); // pos2 - 1 (\n) is part of the boundary (see RFC 2046, section 5.1.1)
p_arts.append(part);
pos2+=blen; //pos2 points now to the first charakter after the boundary
if(s_rc[pos2]=='-' && s_rc[pos2+1]=='-') { //end-boundary
pos1=pos2+2; //pos1 points now to the character directly after the end-boundary
if( (pos1=s_rc.find('\n', pos1))>-1 ) //skipt the rest of this line
e_pilouge=s_rc.mid(pos1+1, s_rc.length()-pos1-1); //everything after the end-boundary is considered as the epilouge
pos1=-1;
pos2=-1; //break
}
else {
pos1=pos2; //the search continues ...
}
}
}
}
return (!p_arts.isEmpty());
}
//============================================================================================
NonMimeParser::NonMimeParser(const TQCString &src) :
s_rc(src), p_artNr(-1), t_otalNr(-1)
{}
/**
* try to guess the mimetype from the file-extension
*/
TQCString NonMimeParser::guessMimeType(const TQCString& fileName)
{
TQCString tmp, mimeType;
int pos;
if(!fileName.isEmpty()) {
pos=fileName.findRev('.');
if(pos++ != -1) {
tmp=fileName.mid(pos, fileName.length()-pos).upper();
if(tmp=="JPG" || tmp=="JPEG") mimeType="image/jpeg";
else if(tmp=="GIF") mimeType="image/gif";
else if(tmp=="PNG") mimeType="image/png";
else if(tmp=="TIFF" || tmp=="TIF") mimeType="image/tiff";
else if(tmp=="XPM") mimeType="image/x-xpm";
else if(tmp=="XBM") mimeType="image/x-xbm";
else if(tmp=="BMP") mimeType="image/x-bmp";
else if(tmp=="TXT" ||
tmp=="ASC" ||
tmp=="H" ||
tmp=="C" ||
tmp=="CC" ||
tmp=="CPP") mimeType="text/plain";
else if(tmp=="HTML" || tmp=="HTM") mimeType="text/html";
else mimeType="application/octet-stream";
}
else mimeType="application/octet-stream";
}
else mimeType="application/octet-stream";
return mimeType;
}
//============================================================================================
UUEncoded::UUEncoded(const TQCString &src, const TQCString &subject) :
NonMimeParser(src), s_ubject(subject)
{}
bool UUEncoded::parse()
{
int currentPos=0;
bool success=true, firstIteration=true;
while (success) {
int beginPos=currentPos, uuStart=currentPos, endPos=0, lineCount=0, MCount=0, pos=0, len=0;
bool tqcontainsBegin=false, tqcontainsEnd=false;
TQCString tmp,fileName;
if( (beginPos=s_rc.find(TQRegExp("begin [0-9][0-9][0-9]"),currentPos))>-1 && (beginPos==0 || s_rc.at(beginPos-1)=='\n') ) {
tqcontainsBegin=true;
uuStart=s_rc.find('\n', beginPos);
if(uuStart==-1) {//no more line breaks found, we give up
success = false;
break;
} else
uuStart++; //points now at the beginning of the next line
}
else beginPos=currentPos;
if ( (endPos=s_rc.find("\nend",(uuStart>0)? uuStart-1:0))==-1 )
endPos=s_rc.length(); //no end found
else
tqcontainsEnd=true;
if ((tqcontainsBegin && tqcontainsEnd) || firstIteration) {
//printf("beginPos=%d , uuStart=%d , endPos=%d\n", beginPos, uuStart, endPos);
//all lines in a uuencoded text start with 'M'
for(int idx=uuStart; idx<endPos; idx++)
if(s_rc[idx]=='\n') {
lineCount++;
if(idx+1<endPos && s_rc[idx+1]=='M') {
idx++;
MCount++;
}
}
//printf("lineCount=%d , MCount=%d\n", lineCount, MCount);
if( MCount==0 || (lineCount-MCount)>10 ||
((!tqcontainsBegin || !tqcontainsEnd) && (MCount<15)) ) { // harder check for splitted-articles
success = false;
break; //too many "non-M-Lines" found, we give up
}
if( (!tqcontainsBegin || !tqcontainsEnd) && s_ubject) { // message may be split up => parse subject
TQRegExp rx("[0-9]+/[0-9]+");
pos=rx.search(TQString(s_ubject), 0);
len=rx.matchedLength();
if(pos!=-1) {
tmp=s_ubject.mid(pos, len);
pos=tmp.find('/');
p_artNr=tmp.left(pos).toInt();
t_otalNr=tmp.right(tmp.length()-pos-1).toInt();
} else {
success = false;
break; //no "part-numbers" found in the subject, we give up
}
}
//everything before "begin" is text
if(beginPos>0)
t_ext.append(s_rc.mid(currentPos,beginPos-currentPos));
if(tqcontainsBegin)
fileName = s_rc.mid(beginPos+10, uuStart-beginPos-11); //everything between "begin ### " and the next LF is considered as the filename
else
fileName = "";
f_ilenames.append(fileName);
b_ins.append(s_rc.mid(uuStart, endPos-uuStart+1)); //everything beetween "begin" and "end" is uuencoded
m_imeTypes.append(guessMimeType(fileName));
firstIteration=false;
int next = s_rc.find('\n', endPos+1);
if(next==-1) { //no more line breaks found, we give up
success = false;
break;
} else
next++; //points now at the beginning of the next line
currentPos = next;
} else {
success = false;
}
}
// append trailing text part of the article
t_ext.append(s_rc.right(s_rc.length()-currentPos));
return ((b_ins.count()>0) || isPartial());
}
//============================================================================================
YENCEncoded::YENCEncoded(const TQCString &src) :
NonMimeParser(src)
{}
bool YENCEncoded::yencMeta(TQCString& src, const TQCString& name, int* value)
{
bool found = false;
TQCString sought=name + "=";
int iPos=src.find( sought);
if (iPos>-1) {
int pos1=src.find(' ', iPos);
int pos2=src.find('\r', iPos);
int pos3=src.find('\t', iPos);
int pos4=src.find('\n', iPos);
if (pos2>=0 && (pos1<0 || pos1>pos2))
pos1=pos2;
if (pos3>=0 && (pos1<0 || pos1>pos3))
pos1=pos3;
if (pos4>=0 && (pos1<0 || pos1>pos4))
pos1=pos4;
iPos=src.findRev( '=', pos1)+1;
if (iPos<pos1) {
char c=src.at( iPos);
if ( c>='0' && c<='9') {
found=true;
*value=src.mid( iPos, pos1-iPos).toInt();
}
}
}
return found;
}
bool YENCEncoded::parse()
{
int currentPos=0;
bool success=true;
while (success) {
int beginPos=currentPos, yencStart=currentPos;
bool tqcontainsPart=false;
TQCString fileName,mimeType;
if ((beginPos=s_rc.find("=ybegin ", currentPos))>-1 && ( beginPos==0 || s_rc.at( beginPos-1)=='\n') ) {
yencStart=s_rc.find( '\n', beginPos);
if (yencStart==-1) { // no more line breaks found, give up
success = false;
break;
} else {
yencStart++;
if (s_rc.find("=ypart", yencStart)==yencStart) {
tqcontainsPart=true;
yencStart=s_rc.find( '\n', yencStart);
if ( yencStart== -1) {
success=false;
break;
}
yencStart++;
}
}
// Try to identify yenc meta data
// Filenames can contain any embedded chars until end of line
TQCString meta=s_rc.mid(beginPos, yencStart-beginPos);
int namePos=meta.find("name=");
if (namePos== -1) {
success=false;
break;
}
int eolPos=meta.find('\r', namePos);
if (eolPos== -1)
eolPos=meta.find('\n', namePos);
if (eolPos== -1) {
success=false;
break;
}
fileName=meta.mid(namePos+5, eolPos-(namePos+5));
// Other metadata is integer
int yencLine;
if (!yencMeta(meta, "line", &yencLine)) {
success=false;
break;
}
int yencSize;
if (!yencMeta( meta, "size", &yencSize)) {
success=false;
break;
}
int partBegin, partEnd;
if (tqcontainsPart) {
if (!yencMeta(meta, "part", &p_artNr)) {
success=false;
break;
}
if (!yencMeta(meta, "begin", &partBegin) || !
yencMeta(meta, "end", &partEnd)) {
success=false;
break;
}
if (!yencMeta(meta, "total", &t_otalNr))
t_otalNr=p_artNr+1;
if (yencSize==partEnd-partBegin+1)
t_otalNr=1; else
yencSize=partEnd-partBegin+1;
}
// We have a valid yenc header; now we extract the binary data
int totalSize=0;
int pos=yencStart;
int len=s_rc.length();
bool lineStart=true;
int lineLength=0;
bool tqcontainsEnd=false;
TQByteArray binary = TQByteArray(yencSize);
while (pos<len) {
int ch=s_rc.at(pos);
if (ch<0)
ch+=256;
if (ch=='\r')
{
if (lineLength!=yencLine && totalSize!=yencSize)
break;
pos++;
}
else if (ch=='\n')
{
lineStart=true;
lineLength=0;
pos++;
}
else
{
if (ch=='=')
{
if (pos+1<len)
{
ch=s_rc.at( pos+1);
if (lineStart && ch=='y')
{
tqcontainsEnd=true;
break;
}
pos+=2;
ch-=64+42;
if (ch<0)
ch+=256;
if (totalSize>=yencSize)
break;
binary.at(totalSize++)=ch;
lineLength++;
}
else
break;
}
else
{
ch-=42;
if (ch<0)
ch+=256;
if (totalSize>=yencSize)
break;
binary.at(totalSize++)=ch;
lineLength++;
pos++;
}
lineStart=false;
}
}
if (!tqcontainsEnd)
{
success=false;
break;
}
if (totalSize!=yencSize)
{
success=false;
break;
}
// pos now points to =yend; get end data
eolPos=s_rc.find('\n', pos);
if (eolPos== -1)
{
success=false;
break;
}
meta=s_rc.mid(pos, eolPos-pos);
if (!yencMeta(meta, "size", &totalSize))
{
success=false;
break;
}
if (totalSize!=yencSize)
{
success=false;
break;
}
f_ilenames.append(fileName);
m_imeTypes.append(guessMimeType( fileName));
b_ins.append(binary);
//everything before "begin" is text
if(beginPos>0)
t_ext.append(s_rc.mid(currentPos,beginPos-currentPos));
currentPos = eolPos+1;
} else {
success = false;
}
}
// append trailing text part of the article
t_ext.append(s_rc.right(s_rc.length()-currentPos));
return b_ins.count()>0;
}
} // namespace Parser
} // namespace KMime