// kmmsgpart.cpp #include #include #include #include #include #include "kmmsgpart.h" #include "kmkernel.h" #include "kmmessage.h" #include "globalsettings.h" #include "util.h" #include #include #include #include #include #include #include #include #include using namespace KMime; //----------------------------------------------------------------------------- KMMessagePart::KMMessagePart() : mType("text"), mSubtype("plain"), mCte("7bit"), mBodyDecodedSize(0), mParent(0), mLoadHeaders(false), mLoadPart(false) { } //----------------------------------------------------------------------------- KMMessagePart::KMMessagePart( TQDataStream & stream ) : mParent(0), mLoadHeaders(false), mLoadPart(false) { unsigned long size; stream >> mOriginalContentTypeStr >> mName >> mContentDescription >> mContentDisposition >> mCte >> size >> mPartSpecifier; kasciitolower( mContentDisposition.data() ); kasciitoupper( mOriginalContentTypeStr.data() ); // set the type int sep = mOriginalContentTypeStr.find('/'); mType = mOriginalContentTypeStr.left(sep); mSubtype = mOriginalContentTypeStr.mid(sep+1); mBodyDecodedSize = size; } //----------------------------------------------------------------------------- KMMessagePart::~KMMessagePart() { } //----------------------------------------------------------------------------- void KMMessagePart::clear() { mOriginalContentTypeStr = TQCString(); mType = "text"; mSubtype = "plain"; mCte = "7bit"; mContentDescription = TQCString(); mContentDisposition = TQCString(); mBody.truncate( 0 ); mAdditionalCTypeParamStr = TQCString(); mName = TQString(); mParameterAttribute = TQCString(); mParameterValue = TQString(); mCharset = TQCString(); mPartSpecifier = TQString(); mBodyDecodedSize = 0; mParent = 0; mLoadHeaders = false; mLoadPart = false; } //----------------------------------------------------------------------------- void KMMessagePart::duplicate( const KMMessagePart & msgPart ) { // copy the data of msgPart *this = msgPart; // detach the explicitely shared TQByteArray mBody.detach(); } //----------------------------------------------------------------------------- int KMMessagePart::decodedSize(void) const { if (mBodyDecodedSize < 0) mBodyDecodedSize = bodyDecodedBinary().size(); return mBodyDecodedSize; } //----------------------------------------------------------------------------- void KMMessagePart::setBody(const TQCString &aStr) { KMail::Util::setFromTQCString( mBody, aStr ); int enc = cte(); if (enc == DwMime::kCte7bit || enc == DwMime::kCte8bit || enc == DwMime::kCteBinary) mBodyDecodedSize = mBody.size(); else mBodyDecodedSize = -1; // Can't know the decoded size } void KMMessagePart::setBody(const DwString &aStr) { mBody.duplicate( aStr.c_str(), aStr.length() ); int enc = cte(); if (enc == DwMime::kCte7bit || enc == DwMime::kCte8bit || enc == DwMime::kCteBinary) mBodyDecodedSize = mBody.size(); else mBodyDecodedSize = -1; // Can't know the decoded size } void KMMessagePart::setBody(const TQByteArray &aStr) { mBody = aStr; int enc = cte(); if (enc == DwMime::kCte7bit || enc == DwMime::kCte8bit || enc == DwMime::kCteBinary) mBodyDecodedSize = mBody.size(); else mBodyDecodedSize = -1; // Can't know the decoded size } void KMMessagePart::setBodyFromUnicode( const TQString & str ) { TQCString encoding = KMMsgBase::autoDetectCharset( charset(), KMMessage::preferredCharsets(), str ); if ( encoding.isEmpty() ) encoding = "utf-8"; const TQTextCodec * codec = KMMsgBase::codecForName( encoding ); assert( codec ); TQValueList dummy; setCharset( encoding ); setBodyAndGuessCte( codec->fromUnicode( str ), dummy, false /* no 8bit */ ); } const TQTextCodec * KMMessagePart::codec() const { const TQTextCodec * c = KMMsgBase::codecForName( charset() ); if ( !c ) { // Ok, no override and nothing in the message, let's use the fallback // the user configured c = KMMsgBase::codecForName( GlobalSettings::self()->fallbackCharacterEncoding().latin1() ); } if ( !c ) // no charset means us-ascii (RFC 2045), so using local encoding should // be okay c = kmkernel->networkCodec(); assert( c ); return c; } TQString KMMessagePart::bodyToUnicode(const TQTextCodec* codec) const { if ( !codec ) // No codec was given, so try the charset in the mail codec = this->codec(); assert( codec ); return codec->toUnicode( bodyDecoded() ); } void KMMessagePart::setCharset( const TQCString & c ) { if ( type() != DwMime::kTypeText ) kdWarning() << "KMMessagePart::setCharset(): trying to set a charset for a non-textual mimetype." << endl << "Fix this caller:" << endl << "====================================================================" << endl << kdBacktrace( 5 ) << endl << "====================================================================" << endl; mCharset = c; } //----------------------------------------------------------------------------- void KMMessagePart::setBodyEncoded(const TQCString& aStr) { mBodyDecodedSize = aStr.size() - 1; // same as aStr.length() but faster - assuming no embedded nuls switch (cte()) { case DwMime::kCteQuotedPrintable: case DwMime::kCteBase64: { Codec * codec = Codec::codecForName( cteStr() ); assert( codec ); // we can't use the convenience function here, since aStr is not // a TQByteArray...: mBody.resize( codec->maxEncodedSizeFor( mBodyDecodedSize ) ); TQCString::ConstIterator iit = aStr.data(); TQCString::ConstIterator iend = aStr.data() + mBodyDecodedSize; TQByteArray::Iterator oit = mBody.begin(); TQByteArray::ConstIterator oend = mBody.end(); if ( !codec->encode( iit, iend, oit, oend ) ) kdWarning(5006) << codec->name() << " codec lies about it's maxEncodedSizeFor( " << mBodyDecodedSize << " ). Result truncated!" << endl; mBody.truncate( oit - mBody.begin() ); break; } default: kdWarning(5006) << "setBodyEncoded: unknown encoding '" << cteStr() << "'. Assuming binary." << endl; // fall through case DwMime::kCte7bit: case DwMime::kCte8bit: case DwMime::kCteBinary: // This is slow and memory hungry - consider using setBodyEncodedBinary instead! mBody.duplicate( aStr.data(), mBodyDecodedSize ); break; } } void KMMessagePart::setBodyAndGuessCte(const TQByteArray& aBuf, TQValueList & allowedCte, bool allow8Bit, bool willBeSigned ) { mBodyDecodedSize = aBuf.size(); CharFreq cf( aBuf ); // save to pass null arrays... allowedCte = KMMessage::determineAllowedCtes( cf, allow8Bit, willBeSigned ); #ifndef NDEBUG DwString dwCte; DwCteEnumToStr(allowedCte[0], dwCte); kdDebug(5006) << "CharFreq returned " << cf.type() << "/" << cf.printableRatio() << " and I chose " << dwCte.c_str() << endl; #endif setCte( allowedCte[0] ); // choose best fitting setBodyEncodedBinary( aBuf ); } void KMMessagePart::setBodyAndGuessCte(const TQCString& aBuf, TQValueList & allowedCte, bool allow8Bit, bool willBeSigned ) { mBodyDecodedSize = aBuf.size() - 1; // same as aStr.length() but faster - assuming no embedded nuls CharFreq cf( aBuf.data(), mBodyDecodedSize ); // save to pass null strings allowedCte = KMMessage::determineAllowedCtes( cf, allow8Bit, willBeSigned ); #ifndef NDEBUG DwString dwCte; DwCteEnumToStr(allowedCte[0], dwCte); kdDebug(5006) << "CharFreq returned " << cf.type() << "/" << cf.printableRatio() << " and I chose " << dwCte.c_str() << endl; #endif setCte( allowedCte[0] ); // choose best fitting setBodyEncoded( aBuf ); } //----------------------------------------------------------------------------- void KMMessagePart::setBodyEncodedBinary(const TQByteArray& aStr) { mBodyDecodedSize = aStr.size(); if (aStr.isEmpty()) { mBody.resize(0); return; } switch (cte()) { case DwMime::kCteQuotedPrintable: case DwMime::kCteBase64: { Codec * codec = Codec::codecForName( cteStr() ); assert( codec ); // Nice: We can use the convenience function :-) mBody = codec->encode( aStr ); // QP encoding does CRLF -> LF conversion, which can change the size after decoding again // and a size mismatch triggers an assert in various other methods mBodyDecodedSize = -1; break; } default: kdWarning(5006) << "setBodyEncodedBinary: unknown encoding '" << cteStr() << "'. Assuming binary." << endl; // fall through case DwMime::kCte7bit: case DwMime::kCte8bit: case DwMime::kCteBinary: //mBody.duplicate( aStr ); mBody = aStr; // Caller has to detach before it modifies aStr! break; } } void KMMessagePart::setMessageBody( const TQByteArray& aBuf ) { CharFreq cf( aBuf ); // it's safe to pass null arrays mBodyDecodedSize = aBuf.size(); int cte; switch ( cf.type() ) { case CharFreq::SevenBitText: case CharFreq::SevenBitData: cte = DwMime::kCte7bit; break; case CharFreq::EightBitText: case CharFreq::EightBitData: cte = DwMime::kCte8bit; break; default: kdWarning(5006) << "Calling " << k_funcinfo << " with something containing neither 7 nor 8 bit text!" << " Fix this caller: " << kdBacktrace() << endl; } setCte( cte ); setBodyEncodedBinary( aBuf ); } //----------------------------------------------------------------------------- TQByteArray KMMessagePart::bodyDecodedBinary() const { if (mBody.isEmpty()) return TQByteArray(); TQByteArray result; switch (cte()) { case DwMime::kCte7bit: case DwMime::kCte8bit: case DwMime::kCteBinary: result.duplicate(mBody); break; default: if ( const Codec * codec = Codec::codecForName( cteStr() ) ) // Nice: we can use the convenience function :-) result = codec->decode( mBody ); else { kdWarning(5006) << "bodyDecodedBinary: unknown encoding '" << cteStr() << "'. Assuming binary." << endl; result.duplicate(mBody); } } assert( mBodyDecodedSize < 0 || (unsigned int)mBodyDecodedSize == result.size() ); if ( mBodyDecodedSize < 0 ) mBodyDecodedSize = result.size(); // cache the decoded size. return result; } TQCString KMMessagePart::bodyDecoded(void) const { if (mBody.isEmpty()) return TQCString(""); bool decodeBinary = false; TQCString result; int len; switch (cte()) { case DwMime::kCte7bit: case DwMime::kCte8bit: case DwMime::kCteBinary: { decodeBinary = true; break; } default: if ( const Codec * codec = Codec::codecForName( cteStr() ) ) { // We can't use the codec convenience functions, since we must // return a TQCString, not a TQByteArray: int bufSize = codec->maxDecodedSizeFor( mBody.size() ) + 1; // trailing NUL result.resize( bufSize ); TQByteArray::ConstIterator iit = mBody.begin(); TQCString::Iterator oit = result.begin(); TQCString::ConstIterator oend = result.begin() + bufSize; if ( !codec->decode( iit, mBody.end(), oit, oend ) ) kdWarning(5006) << codec->name() << " lies about it's maxDecodedSizeFor( " << mBody.size() << " ). Result truncated!" << endl; len = oit - result.begin(); result.truncate( len ); // adds trailing NUL } else { kdWarning(5006) << "bodyDecoded: unknown encoding '" << cteStr() << "'. Assuming binary." << endl; decodeBinary = true; } } if ( decodeBinary ) { len = mBody.size(); KMail::Util::setFromByteArray( result, mBody ); } // Calls length -> slow //kdWarning( result.length() != (unsigned int)len, 5006 ) // << "KMMessagePart::bodyDecoded(): body is binary but used as text!" << endl; result = result.replace( "\r\n", "\n" ); // CRLF -> LF conversion assert( mBodyDecodedSize < 0 || mBodyDecodedSize == len ); if ( mBodyDecodedSize < 0 ) mBodyDecodedSize = len; // cache decoded size return result; } //----------------------------------------------------------------------------- void KMMessagePart::magicSetType(bool aAutoDecode) { KMimeMagic::self()->setFollowLinks( true ); // is it necessary ? const TQByteArray body = ( aAutoDecode ) ? bodyDecodedBinary() : mBody ; KMimeMagicResult * result = KMimeMagic::self()->findBufferType( body ); TQString mimetype = result->mimeType(); const int sep = mimetype.find('/'); mType = mimetype.left(sep).latin1(); mSubtype = mimetype.mid(sep+1).latin1(); } //----------------------------------------------------------------------------- TQString KMMessagePart::iconName( int size ) const { TQCString mimeType( mType + "/" + mSubtype ); kasciitolower( mimeType.data() ); TQString fileName = KMimeType::mimeType( mimeType )->icon( TQString(), false ); if ( fileName.isEmpty() ) { fileName = this->fileName(); if ( fileName.isEmpty() ) fileName = this->name(); if ( !fileName.isEmpty() ) { fileName = KMimeType::findByPath( "/tmp/"+fileName, 0, true )->icon( TQString(), true ); } } fileName = TDEGlobal::instance()->iconLoader()->iconPath( fileName, size ); return fileName; } //----------------------------------------------------------------------------- int KMMessagePart::type() const { return DwTypeStrToEnum(DwString(mType)); } //----------------------------------------------------------------------------- void KMMessagePart::setType(int aType) { DwString dwType; DwTypeEnumToStr(aType, dwType); mType = dwType.c_str(); } //----------------------------------------------------------------------------- int KMMessagePart::subtype() const { return DwSubtypeStrToEnum(DwString(mSubtype)); } //----------------------------------------------------------------------------- void KMMessagePart::setSubtype(int aSubtype) { DwString dwSubtype; DwSubtypeEnumToStr(aSubtype, dwSubtype); mSubtype = dwSubtype.c_str(); } //----------------------------------------------------------------------------- TQCString KMMessagePart::parameterAttribute(void) const { return mParameterAttribute; } //----------------------------------------------------------------------------- TQString KMMessagePart::parameterValue(void) const { return mParameterValue; } //----------------------------------------------------------------------------- void KMMessagePart::setParameter(const TQCString &attribute, const TQString &value) { mParameterAttribute = attribute; mParameterValue = value; } //----------------------------------------------------------------------------- TQCString KMMessagePart::contentTransferEncodingStr(void) const { return mCte; } //----------------------------------------------------------------------------- int KMMessagePart::contentTransferEncoding(void) const { return DwCteStrToEnum(DwString(mCte)); } //----------------------------------------------------------------------------- void KMMessagePart::setContentTransferEncodingStr(const TQCString &aStr) { mCte = aStr; } //----------------------------------------------------------------------------- void KMMessagePart::setContentTransferEncoding(int aCte) { DwString dwCte; DwCteEnumToStr(aCte, dwCte); mCte = dwCte.c_str(); } //----------------------------------------------------------------------------- TQString KMMessagePart::contentDescription(void) const { return KMMsgBase::decodeRFC2047String(mContentDescription, charset()); } //----------------------------------------------------------------------------- void KMMessagePart::setContentDescription(const TQString &aStr) { TQCString encoding = KMMsgBase::autoDetectCharset(charset(), KMMessage::preferredCharsets(), aStr); if (encoding.isEmpty()) encoding = "utf-8"; mContentDescription = KMMsgBase::encodeRFC2047String(aStr, encoding); } //----------------------------------------------------------------------------- TQString KMMessagePart::fileName(void) const { TQCString str; // Allow for multiple filname*0, filename*1, ... params (defined by RFC 2231) // in the Content-Disposision if ( mContentDisposition.contains( "filename*", false ) ) { // It's RFC 2231 encoded, so extract the file name with the 2231 method str = KMMsgBase::extractRFC2231HeaderField( mContentDisposition, "filename" ); return KMMsgBase::decodeRFC2231String(str); } else { // Standard RFC 2047-encoded // search the start of the filename int startOfFilename = mContentDisposition.find("filename=", 0, false); if (startOfFilename < 0) return TQString(); startOfFilename += 9; // search the end of the filename int endOfFilename; if ( '"' == mContentDisposition[startOfFilename] ) { startOfFilename++; // the double quote isn't part of the filename endOfFilename = mContentDisposition.find('"', startOfFilename) - 1; } else { endOfFilename = mContentDisposition.find(';', startOfFilename) - 1; } if (endOfFilename < 0) endOfFilename = 32767; const TQCString str = mContentDisposition.mid(startOfFilename, endOfFilename-startOfFilename+1) .stripWhiteSpace(); return KMMsgBase::decodeRFC2047String(str); } return TQString(); } TQCString KMMessagePart::body() const { return TQCString( mBody.data(), mBody.size() + 1 ); // space for trailing NUL } DwString KMMessagePart::dwBody() const { return KMail::Util::dwString( mBody ); }