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tdepim/kmail/kmmessage.cpp

4521 lines
133 KiB

// -*- mode: C++; c-file-style: "gnu" -*-
// kmmessage.cpp
// if you do not want GUI elements in here then set ALLOW_GUI to 0.
#include <config.h>
// needed temporarily until KMime is replacing the partNode helper class:
#include "partNode.h"
#define ALLOW_GUI 1
#include "kmkernel.h"
#include "kmmessage.h"
#include "mailinglist-magic.h"
#include "messageproperty.h"
using KMail::MessageProperty;
#include "objecttreeparser.h"
using KMail::ObjectTreeParser;
#include "kmfolderindex.h"
#include "undostack.h"
#include "kmversion.h"
#include "headerstrategy.h"
#include "globalsettings.h"
using KMail::HeaderStrategy;
#include "kmaddrbook.h"
#include "kcursorsaver.h"
#include "templateparser.h"
#include <libkpimidentities/identity.h>
#include <libkpimidentities/identitymanager.h>
#include <libemailfunctions/email.h>
#include <kasciistringtools.h>
#include <kpgpblock.h>
#include <kaddrbook.h>
#include <kapplication.h>
#include <kglobalsettings.h>
#include <kdebug.h>
#include <kconfig.h>
#include <khtml_part.h>
#include <kuser.h>
#include <kidna.h>
#include <kasciistricmp.h>
#include <tqcursor.h>
#include <tqtextcodec.h>
#include <tqmessagebox.h>
#include <kmime_util.h>
#include <kmime_charfreq.h>
#include <kmime_header_parsing.h>
using KMime::HeaderParsing::parseAddressList;
using namespace KMime::Types;
#include <mimelib/body.h>
#include <mimelib/field.h>
#include <mimelib/mimepp.h>
#include <mimelib/string.h>
#include <assert.h>
#include <sys/time.h>
#include <time.h>
#include <klocale.h>
#include <stdlib.h>
#include <unistd.h>
#include "util.h"
#if ALLOW_GUI
#include <kmessagebox.h>
#endif
using namespace KMime;
static DwString emptyString("");
// Values that are set from the config file with KMMessage::readConfig()
static TQString sReplyLanguage, sReplyStr, sReplyAllStr, sIndentPrefixStr;
static bool sSmartQuote,
sWordWrap;
static int sWrapCol;
static TQStringList sPrefCharsets;
TQString KMMessage::sForwardStr;
const HeaderStrategy * KMMessage::sHeaderStrategy = HeaderStrategy::rich();
//helper
static void applyHeadersToMessagePart( DwHeaders& headers, KMMessagePart* aPart );
TQValueList<KMMessage*> KMMessage::sPendingDeletes;
//-----------------------------------------------------------------------------
KMMessage::KMMessage(DwMessage* aMsg)
: KMMsgBase()
{
init( aMsg );
// aMsg might need assembly
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
KMMessage::KMMessage(KMFolder* tqparent): KMMsgBase(tqparent)
{
init();
}
//-----------------------------------------------------------------------------
KMMessage::KMMessage(KMMsgInfo& msgInfo): KMMsgBase()
{
init();
// now overwrite a few from the msgInfo
mMsgSize = msgInfo.msgSize();
mFolderOffset = msgInfo.folderOffset();
mtqStatus = msgInfo.status();
mEncryptionState = msgInfo.encryptionState();
mSignatureState = msgInfo.signatureState();
mMDNSentState = msgInfo.mdnSentState();
mDate = msgInfo.date();
mFileName = msgInfo.fileName();
KMMsgBase::assign(&msgInfo);
}
//-----------------------------------------------------------------------------
KMMessage::KMMessage(const KMMessage& other) :
KMMsgBase( other ),
ISubject(),
mMsg(0)
{
init(); // to be safe
assign( other );
}
void KMMessage::init( DwMessage* aMsg )
{
mNeedsAssembly = false;
if ( aMsg ) {
mMsg = aMsg;
} else {
mMsg = new DwMessage;
}
mOverrideCodec = 0;
mDecodeHTML = false;
mComplete = true;
mReadyToShow = true;
mMsgSize = 0;
mMsgLength = 0;
mFolderOffset = 0;
mtqStatus = KMMsgStatusNew;
mEncryptionState = KMMsgEncryptionStateUnknown;
mSignatureState = KMMsgSignatureStateUnknown;
mMDNSentState = KMMsgMDNStateUnknown;
mDate = 0;
mUnencryptedMsg = 0;
mLastUpdated = 0;
mCursorPos = 0;
mMsgInfo = 0;
mIsParsed = false;
}
void KMMessage::assign( const KMMessage& other )
{
MessageProperty::forget( this );
delete mMsg;
delete mUnencryptedMsg;
mNeedsAssembly = true;//other.mNeedsAssembly;
if( other.mMsg )
mMsg = new DwMessage( *(other.mMsg) );
else
mMsg = 0;
mOverrideCodec = other.mOverrideCodec;
mDecodeHTML = other.mDecodeHTML;
mMsgSize = other.mMsgSize;
mMsgLength = other.mMsgLength;
mFolderOffset = other.mFolderOffset;
mtqStatus = other.mtqStatus;
mEncryptionState = other.mEncryptionState;
mSignatureState = other.mSignatureState;
mMDNSentState = other.mMDNSentState;
mIsParsed = other.mIsParsed;
mDate = other.mDate;
if( other.hasUnencryptedMsg() )
mUnencryptedMsg = new KMMessage( *other.unencryptedMsg() );
else
mUnencryptedMsg = 0;
setDrafts( other.drafts() );
setTemplates( other.templates() );
//mFileName = ""; // we might not want to copy the other messages filename (?)
//KMMsgBase::assign( &other );
}
//-----------------------------------------------------------------------------
KMMessage::~KMMessage()
{
delete mMsgInfo;
delete mMsg;
kmkernel->undoStack()->msgDestroyed( this );
}
//-----------------------------------------------------------------------------
void KMMessage::setReferences(const TQCString& aStr)
{
if (aStr.isNull()) return;
mMsg->Headers().References().FromString(aStr);
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::id() const
{
DwHeaders& header = mMsg->Headers();
if (header.HasMessageId())
return KMail::Util::CString( header.MessageId().AsString() );
else
return "";
}
//-----------------------------------------------------------------------------
//WARNING: This method updates the memory resident cache of serial numbers
//WARNING: held in MessageProperty, but it does not update the persistent
//WARNING: store of serial numbers on the file system that is managed by
//WARNING: KMMsgDict
void KMMessage::setMsgSerNum(unsigned long newMsgSerNum)
{
MessageProperty::setSerialCache( this, newMsgSerNum );
}
//-----------------------------------------------------------------------------
bool KMMessage::isMessage() const
{
return true;
}
//-----------------------------------------------------------------------------
bool KMMessage::transferInProgress() const
{
return MessageProperty::transferInProgress( getMsgSerNum() );
}
//-----------------------------------------------------------------------------
void KMMessage::setTransferInProgress(bool value, bool force)
{
MessageProperty::setTransferInProgress( getMsgSerNum(), value, force );
if ( !transferInProgress() && sPendingDeletes.tqcontains( this ) ) {
sPendingDeletes.remove( this );
if ( tqparent() ) {
int idx = tqparent()->tqfind( this );
if ( idx > 0 ) {
tqparent()->removeMsg( idx );
}
}
}
}
bool KMMessage::isUrgent() const {
return headerField( "Priority" ).tqcontains( "urgent", false )
|| headerField( "X-Priority" ).startsWith( "2" );
}
//-----------------------------------------------------------------------------
void KMMessage::setUnencryptedMsg( KMMessage* unencrypted )
{
delete mUnencryptedMsg;
mUnencryptedMsg = unencrypted;
}
//-----------------------------------------------------------------------------
//FIXME: move to libemailfunctions
KPIM::EmailParseResult KMMessage::isValidEmailAddressList( const TQString& aStr,
TQString& brokenAddress )
{
if ( aStr.isEmpty() ) {
return KPIM::AddressEmpty;
}
TQStringList list = KPIM::splitEmailAddrList( aStr );
for( TQStringList::const_iterator it = list.begin(); it != list.end(); ++it ) {
KPIM::EmailParseResult errorCode = KPIM::isValidEmailAddress( *it );
if ( errorCode != KPIM::AddressOk ) {
brokenAddress = ( *it );
return errorCode;
}
}
return KPIM::AddressOk;
}
//-----------------------------------------------------------------------------
const DwString& KMMessage::asDwString() const
{
if (mNeedsAssembly)
{
mNeedsAssembly = false;
mMsg->Assemble();
}
return mMsg->AsString();
}
//-----------------------------------------------------------------------------
const DwMessage* KMMessage::asDwMessage()
{
if (mNeedsAssembly)
{
mNeedsAssembly = false;
mMsg->Assemble();
}
return mMsg;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::asString() const {
return KMail::Util::CString( asDwString() );
}
TQByteArray KMMessage::asSendableString() const
{
KMMessage msg( new DwMessage( *this->mMsg ) );
msg.removePrivateHeaderFields();
msg.removeHeaderField("Bcc");
return KMail::Util::ByteArray( msg.asDwString() ); // and another copy again!
}
TQCString KMMessage::headerAsSendableString() const
{
KMMessage msg( new DwMessage( *this->mMsg ) );
msg.removePrivateHeaderFields();
msg.removeHeaderField("Bcc");
return msg.headerAsString().latin1();
}
void KMMessage::removePrivateHeaderFields() {
removeHeaderField("tqStatus");
removeHeaderField("X-tqStatus");
removeHeaderField("X-KMail-EncryptionState");
removeHeaderField("X-KMail-SignatureState");
removeHeaderField("X-KMail-MDN-Sent");
removeHeaderField("X-KMail-Transport");
removeHeaderField("X-KMail-Identity");
removeHeaderField("X-KMail-Fcc");
removeHeaderField("X-KMail-Redirect-From");
removeHeaderField("X-KMail-Link-Message");
removeHeaderField("X-KMail-Link-Type");
removeHeaderField( "X-KMail-Markup" );
}
//-----------------------------------------------------------------------------
void KMMessage::seStatusFields()
{
char str[2] = { 0, 0 };
setHeaderField("tqStatus", status() & KMMsgStatusNew ? "R" : "RO");
setHeaderField("X-tqStatus", statusToStr(status()));
str[0] = (char)encryptionState();
setHeaderField("X-KMail-EncryptionState", str);
str[0] = (char)signatureState();
//kdDebug(5006) << "Setting SignatureState header field to " << str[0] << endl;
setHeaderField("X-KMail-SignatureState", str);
str[0] = static_cast<char>( mdnSentState() );
setHeaderField("X-KMail-MDN-Sent", str);
// We better do the assembling ourselves now to prevent the
// mimelib from changing the message *body*. (khz, 10.8.2002)
mNeedsAssembly = false;
mMsg->Headers().Assemble();
mMsg->Assemble( mMsg->Headers(),
mMsg->Body() );
}
//----------------------------------------------------------------------------
TQString KMMessage::headerAsString() const
{
DwHeaders& header = mMsg->Headers();
header.Assemble();
if ( header.AsString().empty() )
return TQString();
return TQString::tqfromLatin1( header.AsString().c_str() );
}
//-----------------------------------------------------------------------------
DwMediaType& KMMessage::dwContentType()
{
return mMsg->Headers().ContentType();
}
void KMMessage::fromByteArray( const TQByteArray & ba, bool setqStatus ) {
return fromDwString( DwString( ba.data(), ba.size() ), setqStatus );
}
void KMMessage::fromString( const TQCString & str, bool aSetqStatus ) {
return fromDwString( KMail::Util::dwString( str ), aSetqStatus );
}
void KMMessage::fromDwString(const DwString& str, bool aSetqStatus)
{
delete mMsg;
mMsg = new DwMessage;
mMsg->FromString( str );
mMsg->Parse();
if (aSetqStatus) {
setqStatus(headerField("tqStatus").latin1(), headerField("X-tqStatus").latin1());
setEncryptionStateChar( headerField("X-KMail-EncryptionState").at(0) );
setSignatureStateChar( headerField("X-KMail-SignatureState").at(0) );
setMDNSentState( static_cast<KMMsgMDNSentState>( headerField("X-KMail-MDN-Sent").tqat(0).latin1() ) );
}
if ( invitationState() == KMMsgInvitationUnknown && readyToShow() )
updateInvitationState();
if ( attachmentState() == KMMsgAttachmentUnknown && readyToShow() )
updateAttachmentState();
mNeedsAssembly = false;
mDate = date();
}
//-----------------------------------------------------------------------------
TQString KMMessage::formatString(const TQString& aStr) const
{
TQString result, str;
TQChar ch;
uint j;
if (aStr.isEmpty())
return aStr;
unsigned int strLength(aStr.length());
for (uint i=0; i<strLength;) {
ch = aStr[i++];
if (ch == '%') {
ch = aStr[i++];
switch ((char)ch) {
case 'D':
/* I'm not too sure about this change. Is it not possible
to have a long form of the date used? I don't
like this change to a short XX/XX/YY date format.
At least not for the default. -sanders */
result += KMime::DateFormatter::formatDate( KMime::DateFormatter::Localized,
date(), sReplyLanguage, false );
break;
case 'e':
result += from();
break;
case 'F':
result += fromStrip();
break;
case 'f':
{
str = fromStrip();
for (j=0; str[j]>' '; j++)
;
unsigned int strLength(str.length());
for (; j < strLength && str[j] <= ' '; j++)
;
result += str[0];
if (str[j]>' ')
result += str[j];
else
if (str[1]>' ')
result += str[1];
}
break;
case 'T':
result += toStrip();
break;
case 't':
result += to();
break;
case 'C':
result += ccStrip();
break;
case 'c':
result += cc();
break;
case 'S':
result += subject();
break;
case '_':
result += ' ';
break;
case 'L':
result += "\n";
break;
case '%':
result += '%';
break;
default:
result += '%';
result += ch;
break;
}
} else
result += ch;
}
return result;
}
static void removeTrailingSpace( TQString &line )
{
int i = line.length()-1;
while( (i >= 0) && ((line[i] == ' ') || (line[i] == '\t')))
i--;
line.truncate( i+1);
}
static TQString splitLine( TQString &line)
{
removeTrailingSpace( line );
int i = 0;
int j = -1;
int l = line.length();
// TODO: Replace tabs with spaces first.
while(i < l)
{
TQChar c = line[i];
if ((c == '>') || (c == ':') || (c == '|'))
j = i+1;
else if ((c != ' ') && (c != '\t'))
break;
i++;
}
if ( j <= 0 )
{
return "";
}
if ( i == l )
{
TQString result = line.left(j);
line = TQString();
return result;
}
TQString result = line.left(j);
line = line.mid(j);
return result;
}
static TQString flowText(TQString &text, const TQString& indent, int maxLength)
{
maxLength--;
if (text.isEmpty())
{
return indent+"<NULL>\n";
}
TQString result;
while (1)
{
int i;
if ((int) text.length() > maxLength)
{
i = maxLength;
while( (i >= 0) && (text[i] != ' '))
i--;
if (i <= 0)
{
// Couldn't break before maxLength.
i = maxLength;
// while( (i < (int) text.length()) && (text[i] != ' '))
// i++;
}
}
else
{
i = text.length();
}
TQString line = text.left(i);
if (i < (int) text.length())
text = text.mid(i);
else
text = TQString();
result += indent + line + '\n';
if (text.isEmpty())
return result;
}
}
static bool flushPart(TQString &msg, TQStringList &part,
const TQString &indent, int maxLength)
{
maxLength -= indent.length();
if (maxLength < 20) maxLength = 20;
// Remove empty lines at end of quote
while ((part.begin() != part.end()) && part.last().isEmpty())
{
part.remove(part.fromLast());
}
TQString text;
for(TQStringList::Iterator it2 = part.begin();
it2 != part.end();
it2++)
{
TQString line = (*it2);
if (line.isEmpty())
{
if (!text.isEmpty())
msg += flowText(text, indent, maxLength);
msg += indent + '\n';
}
else
{
if (text.isEmpty())
text = line;
else
text += ' '+line.stripWhiteSpace();
if (((int) text.length() < maxLength) || ((int) line.length() < (maxLength-10)))
msg += flowText(text, indent, maxLength);
}
}
if (!text.isEmpty())
msg += flowText(text, indent, maxLength);
bool appendEmptyLine = true;
if (!part.count())
appendEmptyLine = false;
part.clear();
return appendEmptyLine;
}
static TQString stripSignature( const TQString & msg, bool clearSigned ) {
if ( clearSigned )
return msg.left( msg.tqfindRev( TQRegExp( "\n--\\s?\n" ) ) );
else
return msg.left( msg.tqfindRev( "\n-- \n" ) );
}
TQString KMMessage::smartQuote( const TQString & msg, int maxLineLength )
{
TQStringList part;
TQString oldIndent;
bool firstPart = true;
const TQStringList lines = TQStringList::split('\n', msg, true);
TQString result;
for(TQStringList::const_iterator it = lines.begin();
it != lines.end();
++it)
{
TQString line = *it;
const TQString indent = splitLine( line );
if ( line.isEmpty())
{
if (!firstPart)
part.append(TQString());
continue;
};
if (firstPart)
{
oldIndent = indent;
firstPart = false;
}
if (oldIndent != indent)
{
TQString fromLine;
// Search if the last non-blank line could be "From" line
if (part.count() && (oldIndent.length() < indent.length()))
{
TQStringList::Iterator it2 = part.fromLast();
while( (it2 != part.end()) && (*it2).isEmpty())
--it2;
if ((it2 != part.end()) && ((*it2).endsWith(":")))
{
fromLine = oldIndent + (*it2) + '\n';
part.remove(it2);
}
}
if (flushPart( result, part, oldIndent, maxLineLength))
{
if (oldIndent.length() > indent.length())
result += indent + '\n';
else
result += oldIndent + '\n';
}
if (!fromLine.isEmpty())
{
result += fromLine;
}
oldIndent = indent;
}
part.append(line);
}
flushPart( result, part, oldIndent, maxLineLength);
return result;
}
//-----------------------------------------------------------------------------
void KMMessage::parseTextStringFromDwPart( partNode * root,
TQCString& parsedString,
const TQTextCodec*& codec,
bool& isHTML ) const
{
if ( !root ) return;
isHTML = false;
partNode * curNode = root->findType( DwMime::kTypeText,
DwMime::kSubtypeUnknown,
true,
false );
kdDebug(5006) << "\n\n======= KMMessage::parseTextStringFromDwPart() - "
<< ( curNode ? "text part found!\n" : "sorry, no text node!\n" ) << endl;
if( curNode ) {
isHTML = DwMime::kSubtypeHtml == curNode->subType();
// now parse the TEXT message part we want to quote
ObjectTreeParser otp( 0, 0, true, false, true );
otp.parseObjectTree( curNode );
parsedString = otp.rawReplyString();
codec = curNode->msgPart().codec();
}
}
//-----------------------------------------------------------------------------
TQString KMMessage::asPlainTextFromObjectTree( partNode *root, bool aStripSignature,
bool allowDecryption ) const
{
Q_ASSERT( root );
Q_ASSERT( root->processed() );
TQCString parsedString;
bool isHTML = false;
const TQTextCodec * codec = 0;
if ( !root ) return TQString();
parseTextStringFromDwPart( root, parsedString, codec, isHTML );
if ( mOverrideCodec || !codec )
codec = this->codec();
if ( parsedString.isEmpty() )
return TQString();
bool clearSigned = false;
TQString result;
// decrypt
if ( allowDecryption ) {
TQPtrList<Kpgp::Block> pgpBlocks;
TQStrList nonPgpBlocks;
if ( Kpgp::Module::prepareMessageForDecryption( parsedString,
pgpBlocks,
nonPgpBlocks ) ) {
// Only decrypt/strip off the signature if there is only one OpenPGP
// block in the message
if ( pgpBlocks.count() == 1 ) {
Kpgp::Block * block = pgpBlocks.first();
if ( block->type() == Kpgp::PgpMessageBlock ||
block->type() == Kpgp::ClearsignedBlock ) {
if ( block->type() == Kpgp::PgpMessageBlock ) {
// try to decrypt this OpenPGP block
block->decrypt();
} else {
// strip off the signature
block->verify();
clearSigned = true;
}
result = codec->toUnicode( nonPgpBlocks.first() )
+ codec->toUnicode( block->text() )
+ codec->toUnicode( nonPgpBlocks.last() );
}
}
}
}
if ( result.isEmpty() ) {
result = codec->toUnicode( parsedString );
if ( result.isEmpty() )
return result;
}
// html -> plaintext conversion, if necessary:
if ( isHTML && mDecodeHTML ) {
KHTMLPart htmlPart;
htmlPart.setOnlyLocalReferences( true );
htmlPart.setMetaRefreshEnabled( false );
htmlPart.setPluginsEnabled( false );
htmlPart.setJScriptEnabled( false );
htmlPart.setJavaEnabled( false );
htmlPart.begin();
htmlPart.write( result );
htmlPart.end();
htmlPart.selectAll();
result = htmlPart.selectedText();
}
// strip the signature (footer):
if ( aStripSignature )
return stripSignature( result, clearSigned );
else
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::asPlainText( bool aStripSignature, bool allowDecryption ) const
{
partNode *root = partNode::fromMessage( this );
if ( !root )
return TQString();
ObjectTreeParser otp;
otp.parseObjectTree( root );
TQString result = asPlainTextFromObjectTree( root, aStripSignature, allowDecryption );
delete root;
return result;
}
TQString KMMessage::asQuotedString( const TQString& aHeaderStr,
const TQString& aIndentStr,
const TQString& selection /* = TQString() */,
bool aStripSignature /* = true */,
bool allowDecryption /* = true */) const
{
TQString content = selection.isEmpty() ?
asPlainText( aStripSignature, allowDecryption ) : selection ;
// Remove blank lines at the beginning:
const int firstNonWS = content.tqfind( TQRegExp( "\\S" ) );
const int lineStart = content.tqfindRev( '\n', firstNonWS );
if ( lineStart >= 0 )
content.remove( 0, static_cast<unsigned int>( lineStart ) );
const TQString indentStr = formatString( aIndentStr );
content.tqreplace( '\n', '\n' + indentStr );
content.prepend( indentStr );
content += '\n';
const TQString headerStr = formatString( aHeaderStr );
if ( sSmartQuote && sWordWrap )
return headerStr + smartQuote( content, sWrapCol );
return headerStr + content;
}
//-----------------------------------------------------------------------------
KMMessage* KMMessage::createReply( KMail::ReplyStrategy replyStrategy,
TQString selection /* = TQString() */,
bool noQuote /* = false */,
bool allowDecryption /* = true */,
const TQString &tmpl /* = TQString() */ )
{
KMMessage* msg = new KMMessage;
TQString mailingListStr, replyToStr, toStr;
TQStringList mailingListAddresses;
TQCString refStr, headerName;
bool replyAll = true;
msg->initFromMessage(this);
MailingList::name(this, headerName, mailingListStr);
replyToStr = replyTo();
msg->setCharset("utf-8");
// determine the mailing list posting address
if ( tqparent() && tqparent()->isMailingListEnabled() &&
!tqparent()->mailingListPostAddress().isEmpty() ) {
mailingListAddresses << tqparent()->mailingListPostAddress();
}
if ( headerField("List-Post").tqfind( "mailto:", 0, false ) != -1 ) {
TQString listPost = headerField("List-Post");
TQRegExp rx( "<mailto:([^@>]+)@([^>]+)>", false );
if ( rx.search( listPost, 0 ) != -1 ) // matched
mailingListAddresses << rx.cap(1) + '@' + rx.cap(2);
}
// use the "On ... Joe User wrote:" header by default
switch( replyStrategy ) {
case KMail::ReplySmart : {
if ( !headerField( "Mail-Followup-To" ).isEmpty() ) {
toStr = headerField( "Mail-Followup-To" );
}
else if ( !replyToStr.isEmpty() ) {
// assume a Reply-To header mangling mailing list
toStr = replyToStr;
}
else if ( !mailingListAddresses.isEmpty() ) {
toStr = mailingListAddresses[0];
}
else {
// doesn't seem to be a mailing list, reply to From: address
toStr = from();
//replyStr = sReplyStr; // reply to author, so use "On ... you wrote:"
replyAll = false;
}
// strip all my addresses from the list of recipients
TQStringList recipients = KPIM::splitEmailAddrList( toStr );
toStr = stripMyAddressesFromAddressList( recipients ).join(", ");
// ... unless the list contains only my addresses (reply to self)
if ( toStr.isEmpty() && !recipients.isEmpty() )
toStr = recipients[0];
break;
}
case KMail::ReplyList : {
if ( !headerField( "Mail-Followup-To" ).isEmpty() ) {
toStr = headerField( "Mail-Followup-To" );
}
else if ( !mailingListAddresses.isEmpty() ) {
toStr = mailingListAddresses[0];
}
else if ( !replyToStr.isEmpty() ) {
// assume a Reply-To header mangling mailing list
toStr = replyToStr;
}
// strip all my addresses from the list of recipients
TQStringList recipients = KPIM::splitEmailAddrList( toStr );
toStr = stripMyAddressesFromAddressList( recipients ).join(", ");
break;
}
case KMail::ReplyAll : {
TQStringList recipients;
TQStringList ccRecipients;
// add addresses from the Reply-To header to the list of recipients
if( !replyToStr.isEmpty() ) {
recipients += KPIM::splitEmailAddrList( replyToStr );
// strip all possible mailing list addresses from the list of Reply-To
// addresses
for ( TQStringList::const_iterator it = mailingListAddresses.begin();
it != mailingListAddresses.end();
++it ) {
recipients = stripAddressFromAddressList( *it, recipients );
}
}
if ( !mailingListAddresses.isEmpty() ) {
// this is a mailing list message
if ( recipients.isEmpty() && !from().isEmpty() ) {
// The sender didn't set a Reply-to address, so we add the From
// address to the list of CC recipients.
ccRecipients += from();
kdDebug(5006) << "Added " << from() << " to the list of CC recipients"
<< endl;
}
// if it is a mailing list, add the posting address
recipients.prepend( mailingListAddresses[0] );
}
else {
// this is a normal message
if ( recipients.isEmpty() && !from().isEmpty() ) {
// in case of replying to a normal message only then add the From
// address to the list of recipients if there was no Reply-to address
recipients += from();
kdDebug(5006) << "Added " << from() << " to the list of recipients"
<< endl;
}
}
// strip all my addresses from the list of recipients
toStr = stripMyAddressesFromAddressList( recipients ).join(", ");
// merge To header and CC header into a list of CC recipients
if( !cc().isEmpty() || !to().isEmpty() ) {
TQStringList list;
if (!to().isEmpty())
list += KPIM::splitEmailAddrList(to());
if (!cc().isEmpty())
list += KPIM::splitEmailAddrList(cc());
for( TQStringList::Iterator it = list.begin(); it != list.end(); ++it ) {
if( !addressIsInAddressList( *it, recipients )
&& !addressIsInAddressList( *it, ccRecipients ) ) {
ccRecipients += *it;
kdDebug(5006) << "Added " << *it << " to the list of CC recipients"
<< endl;
}
}
}
if ( !ccRecipients.isEmpty() ) {
// strip all my addresses from the list of CC recipients
ccRecipients = stripMyAddressesFromAddressList( ccRecipients );
// in case of a reply to self toStr might be empty. if that's the case
// then propagate a cc recipient to To: (if there is any).
if ( toStr.isEmpty() && !ccRecipients.isEmpty() ) {
toStr = ccRecipients[0];
ccRecipients.pop_front();
}
msg->setCc( ccRecipients.join(", ") );
}
if ( toStr.isEmpty() && !recipients.isEmpty() ) {
// reply to self without other recipients
toStr = recipients[0];
}
break;
}
case KMail::ReplyAuthor : {
if ( !replyToStr.isEmpty() ) {
TQStringList recipients = KPIM::splitEmailAddrList( replyToStr );
// strip the mailing list post address from the list of Reply-To
// addresses since we want to reply in private
for ( TQStringList::const_iterator it = mailingListAddresses.begin();
it != mailingListAddresses.end();
++it ) {
recipients = stripAddressFromAddressList( *it, recipients );
}
if ( !recipients.isEmpty() ) {
toStr = recipients.join(", ");
}
else {
// there was only the mailing list post address in the Reply-To header,
// so use the From address instead
toStr = from();
}
}
else if ( !from().isEmpty() ) {
toStr = from();
}
replyAll = false;
break;
}
case KMail::ReplyNone : {
// the addressees will be set by the caller
}
}
msg->setTo(toStr);
refStr = getRefStr();
if (!refStr.isEmpty())
msg->setReferences(refStr);
//In-Reply-To = original msg-id
msg->setReplyToId(msgId());
// if (!noQuote) {
// if( selectionIsBody ){
// TQCString cStr = selection.latin1();
// msg->setBody( cStr );
// }else{
// msg->setBody(asQuotedString(replyStr + "\n", sIndentPrefixStr, selection,
// sSmartQuote, allowDecryption).utf8());
// }
// }
msg->setSubject( replySubject() );
msg->setHeaderField( "X-KMail-QuotePrefix",
formatString( GlobalSettings::self()->quoteString() ) );
if( !noQuote ) {
TemplateParser parser( msg, ( replyAll ? TemplateParser::ReplyAll : TemplateParser::Reply ) );
parser.setAllowDecryption( allowDecryption );
if ( GlobalSettings::quoteSelectionOnly() ) {
parser.setSelection( selection );
}
if ( !tmpl.isEmpty() ) {
parser.process( tmpl, this );
} else {
parser.process( this );
}
}
// setqStatus(KMMsgStatusReplied);
msg->link(this, KMMsgStatusReplied);
if ( tqparent() && tqparent()->putRepliesInSameFolder() )
msg->setFcc( tqparent()->idString() );
// replies to an encrypted message should be encrypted as well
if ( encryptionState() == KMMsgPartiallyEncrypted ||
encryptionState() == KMMsgFullyEncrypted ) {
msg->setEncryptionState( KMMsgFullyEncrypted );
}
return msg;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::getRefStr() const
{
TQCString firstRef, lastRef, refStr, retRefStr;
int i, j;
refStr = headerField("References").stripWhiteSpace().latin1();
if (refStr.isEmpty())
return headerField("Message-Id").latin1();
i = refStr.tqfind('<');
j = refStr.tqfind('>');
firstRef = refStr.mid(i, j-i+1);
if (!firstRef.isEmpty())
retRefStr = firstRef + ' ';
i = refStr.tqfindRev('<');
j = refStr.tqfindRev('>');
lastRef = refStr.mid(i, j-i+1);
if (!lastRef.isEmpty() && lastRef != firstRef)
retRefStr += lastRef + ' ';
retRefStr += headerField("Message-Id").latin1();
return retRefStr;
}
KMMessage* KMMessage::createRedirect( const TQString &toStr )
{
// copy the message 1:1
KMMessage* msg = new KMMessage( new DwMessage( *this->mMsg ) );
KMMessagePart msgPart;
uint id = 0;
TQString strId = msg->headerField( "X-KMail-Identity" ).stripWhiteSpace();
if ( !strId.isEmpty())
id = strId.toUInt();
const KPIM::Identity & ident =
kmkernel->identityManager()->identityForUoidOrDefault( id );
// X-KMail-Redirect-From: content
TQString strByWayOf = TQString("%1 (by way of %2 <%3>)")
.tqarg( from() )
.tqarg( ident.fullName() )
.tqarg( ident.primaryEmailAddress() );
// Resent-From: content
TQString strFrom = TQString("%1 <%2>")
.tqarg( ident.fullName() )
.tqarg( ident.primaryEmailAddress() );
// format the current date to be used in Resent-Date:
TQString origDate = msg->headerField( "Date" );
msg->setDateToday();
TQString newDate = msg->headerField( "Date" );
// make sure the Date: header is valid
if ( origDate.isEmpty() )
msg->removeHeaderField( "Date" );
else
msg->setHeaderField( "Date", origDate );
// prepend Resent-*: headers (c.f. RFC2822 3.6.6)
msg->setHeaderField( "Resent-Message-ID", generateMessageId( msg->sender() ),
Structured, true);
msg->setHeaderField( "Resent-Date", newDate, Structured, true );
msg->setHeaderField( "Resent-To", toStr, Address, true );
msg->setHeaderField( "Resent-From", strFrom, Address, true );
msg->setHeaderField( "X-KMail-Redirect-From", strByWayOf );
msg->setHeaderField( "X-KMail-Recipients", toStr, Address );
msg->link(this, KMMsgStatusForwarded);
return msg;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::createForwardBody()
{
TQString s;
TQCString str;
if (sHeaderStrategy == HeaderStrategy::all()) {
s = "\n\n---------- " + sForwardStr + " ----------\n\n";
s += headerAsString();
str = asQuotedString(s, "", TQString(), false, false).utf8();
str += "\n-------------------------------------------------------\n";
} else {
s = "\n\n---------- " + sForwardStr + " ----------\n\n";
s += "Subject: " + subject() + "\n";
s += "Date: "
+ KMime::DateFormatter::formatDate( KMime::DateFormatter::Localized,
date(), sReplyLanguage, false )
+ "\n";
s += "From: " + from() + "\n";
s += "To: " + to() + "\n";
if (!cc().isEmpty()) s += "Cc: " + cc() + "\n";
s += "\n";
str = asQuotedString(s, "", TQString(), false, false).utf8();
str += "\n-------------------------------------------------------\n";
}
return str;
}
void KMMessage::sanitizeHeaders( const TQStringList& whiteList )
{
// Strip out all headers apart from the content description and other
// whitelisted ones, because we don't want to inherit them.
DwHeaders& header = mMsg->Headers();
DwField* field = header.FirstField();
DwField* nextField;
while (field)
{
nextField = field->Next();
if ( field->FieldNameStr().tqfind( "ontent" ) == DwString::npos
&& !whiteList.tqcontains( TQString::tqfromLatin1( field->FieldNameStr().c_str() ) ) )
header.RemoveField(field);
field = nextField;
}
mMsg->Assemble();
}
//-----------------------------------------------------------------------------
KMMessage* KMMessage::createForward( const TQString &tmpl /* = TQString() */ )
{
KMMessage* msg = new KMMessage();
// If this is a multipart mail or if the main part is only the text part,
// Make an identical copy of the mail, minus headers, so attachments are
// preserved
if ( type() == DwMime::kTypeMultipart ||
( type() == DwMime::kTypeText && subtype() == DwMime::kSubtypePlain ) ) {
// ## slow, we could probably use: delete msg->mMsg; msg->mMsg = new DwMessage( this->mMsg );
msg->fromDwString( this->asDwString() );
// remember the type and subtype, initFromMessage sets the contents type to
// text/plain, via initHeader, for unclear reasons
DwMediaType oldContentType = msg->mMsg->Headers().ContentType();
msg->sanitizeHeaders();
// strip blacklisted parts
TQStringList blacklist = GlobalSettings::self()->mimetypesToStripWhenInlineForwarding();
for ( TQStringList::Iterator it = blacklist.begin(); it != blacklist.end(); ++it ) {
TQString entry = (*it);
int sep = entry.tqfind( '/' );
TQCString type = entry.left( sep ).latin1();
TQCString subtype = entry.mid( sep+1 ).latin1();
kdDebug( 5006 ) << "Looking for blacklisted type: " << type << "/" << subtype << endl;
while ( DwBodyPart * part = msg->findDwBodyPart( type, subtype ) ) {
msg->mMsg->Body().RemoveBodyPart( part );
}
}
msg->mMsg->Assemble();
msg->initFromMessage( this );
//restore type
msg->mMsg->Headers().ContentType().FromString( oldContentType.AsString() );
msg->mMsg->Headers().ContentType().Parse();
msg->mMsg->Assemble();
}
else if( type() == DwMime::kTypeText && subtype() == DwMime::kSubtypeHtml ) {
// This is non-multipart html mail. Let`s make it text/plain and allow
// template parser do the hard job.
msg->initFromMessage( this );
msg->setType( DwMime::kTypeText );
msg->setSubtype( DwMime::kSubtypeHtml );
msg->mNeedsAssembly = true;
msg->cleanupHeader();
}
else {
// This is a non-multipart, non-text mail (e.g. text/calendar). Construct
// a multipart/mixed mail and add the original body as an attachment.
msg->initFromMessage( this );
msg->removeHeaderField("Content-Type");
msg->removeHeaderField("Content-Transfer-Encoding");
// Modify the ContentType directly (replaces setAutomaticFields(true))
DwHeaders & header = msg->mMsg->Headers();
header.MimeVersion().FromString("1.0");
DwMediaType & contentType = msg->dwContentType();
contentType.SetType( DwMime::kTypeMultipart );
contentType.SetSubtype( DwMime::kSubtypeMixed );
contentType.CreateBoundary(0);
contentType.Assemble();
// empty text part
KMMessagePart msgPart;
bodyPart( 0, &msgPart );
msg->addBodyPart(&msgPart);
// the old contents of the mail
KMMessagePart secondPart;
secondPart.setType( type() );
secondPart.setSubtype( subtype() );
secondPart.setBody( mMsg->Body().AsString() );
// use the headers of the original mail
applyHeadersToMessagePart( mMsg->Headers(), &secondPart );
msg->addBodyPart(&secondPart);
msg->mNeedsAssembly = true;
msg->cleanupHeader();
}
// TQString st = TQString::fromUtf8(createForwardBody());
msg->setSubject( forwardSubject() );
TemplateParser parser( msg, TemplateParser::Forward );
if ( !tmpl.isEmpty() ) {
parser.process( tmpl, this );
} else {
parser.process( this );
}
// TQCString encoding = autoDetectCharset(charset(), sPrefCharsets, msg->body());
// if (encoding.isEmpty()) encoding = "utf-8";
// msg->setCharset(encoding);
// force utf-8
// msg->setCharset( "utf-8" );
msg->link(this, KMMsgStatusForwarded);
return msg;
}
static const struct {
const char * dontAskAgainID;
bool canDeny;
const char * text;
} mdnMessageBoxes[] = {
{ "mdnNormalAsk", true,
I18N_NOOP("This message contains a request to return a notification "
"about your reception of the message.\n"
"You can either ignore the request or let KMail send a "
"\"denied\" or normal response.") },
{ "mdnUnknownOption", false,
I18N_NOOP("This message contains a request to send a notification "
"about your reception of the message.\n"
"It contains a processing instruction that is marked as "
"\"required\", but which is unknown to KMail.\n"
"You can either ignore the request or let KMail send a "
"\"failed\" response.") },
{ "mdnMultipleAddressesInReceiptTo", true,
I18N_NOOP("This message contains a request to send a notification "
"about your reception of the message,\n"
"but it is requested to send the notification to more "
"than one address.\n"
"You can either ignore the request or let KMail send a "
"\"denied\" or normal response.") },
{ "mdnReturnPathEmpty", true,
I18N_NOOP("This message contains a request to send a notification "
"about your reception of the message,\n"
"but there is no return-path set.\n"
"You can either ignore the request or let KMail send a "
"\"denied\" or normal response.") },
{ "mdnReturnPathNotInReceiptTo", true,
I18N_NOOP("This message contains a request to send a notification "
"about your reception of the message,\n"
"but the return-path address differs from the address "
"the notification was requested to be sent to.\n"
"You can either ignore the request or let KMail send a "
"\"denied\" or normal response.") },
};
static const int numMdnMessageBoxes
= sizeof mdnMessageBoxes / sizeof *mdnMessageBoxes;
static int requestAdviceOnMDN( const char * what ) {
for ( int i = 0 ; i < numMdnMessageBoxes ; ++i ) {
if ( !qstrcmp( what, mdnMessageBoxes[i].dontAskAgainID ) ) {
if ( mdnMessageBoxes[i].canDeny ) {
const KCursorSaver saver( TQCursor::ArrowCursor );
int answer = TQMessageBox::information( 0,
i18n("Message Disposition Notification Request"),
i18n( mdnMessageBoxes[i].text ),
i18n("&Ignore"), i18n("Send \"&denied\""), i18n("&Send") );
return answer ? answer + 1 : 0 ; // map to "mode" in createMDN
} else {
const KCursorSaver saver( TQCursor::ArrowCursor );
int answer = TQMessageBox::information( 0,
i18n("Message Disposition Notification Request"),
i18n( mdnMessageBoxes[i].text ),
i18n("&Ignore"), i18n("&Send") );
return answer ? answer + 2 : 0 ; // map to "mode" in createMDN
}
}
}
kdWarning(5006) << "didn't find data for message box \""
<< what << "\"" << endl;
return 0;
}
KMMessage* KMMessage::createMDN( MDN::ActionMode a,
MDN::DispositionType d,
bool allowGUI,
TQValueList<MDN::DispositionModifier> m )
{
// RFC 2298: At most one MDN may be issued on behalf of each
// particular recipient by their user agent. That is, once an MDN
// has been issued on behalf of a recipient, no further MDNs may be
// issued on behalf of that recipient, even if another disposition
// is performed on the message.
//#define MDN_DEBUG 1
#ifndef MDN_DEBUG
if ( mdnSentState() != KMMsgMDNStateUnknown &&
mdnSentState() != KMMsgMDNNone )
return 0;
#else
char st[2]; st[0] = (char)mdnSentState(); st[1] = 0;
kdDebug(5006) << "mdnSentState() == '" << st << "'" << endl;
#endif
// RFC 2298: An MDN MUST NOT be generated in response to an MDN.
if ( findDwBodyPart( DwMime::kTypeMessage,
DwMime::kSubtypeDispositionNotification ) ) {
setMDNSentState( KMMsgMDNIgnore );
return 0;
}
// extract where to send to:
TQString receiptTo = headerField("Disposition-Notification-To");
if ( receiptTo.stripWhiteSpace().isEmpty() ) return 0;
receiptTo.remove( '\n' );
MDN::SendingMode s = MDN::SentAutomatically; // set to manual if asked user
TQString special; // fill in case of error, warning or failure
KConfigGroup mdnConfig( KMKernel::config(), "MDN" );
// default:
int mode = mdnConfig.readNumEntry( "default-policy", 0 );
if ( !mode || mode < 0 || mode > 3 ) {
// early out for ignore:
setMDNSentState( KMMsgMDNIgnore );
return 0;
}
// RFC 2298: An importance of "required" indicates that
// interpretation of the parameter is necessary for proper
// generation of an MDN in response to this request. If a UA does
// not understand the meaning of the parameter, it MUST NOT generate
// an MDN with any disposition type other than "failed" in response
// to the request.
TQString notificationOptions = headerField("Disposition-Notification-Options");
if ( notificationOptions.tqcontains( "required", false ) ) {
// ### hacky; should parse...
// There is a required option that we don't understand. We need to
// ask the user what we should do:
if ( !allowGUI ) return 0; // don't setMDNSentState here!
mode = requestAdviceOnMDN( "mdnUnknownOption" );
s = MDN::SentManually;
special = i18n("Header \"Disposition-Notification-Options\" contained "
"required, but unknown parameter");
d = MDN::Failed;
m.clear(); // clear modifiers
}
// RFC 2298: [ Confirmation from the user SHOULD be obtained (or no
// MDN sent) ] if there is more than one distinct address in the
// Disposition-Notification-To header.
kdDebug(5006) << "KPIM::splitEmailAddrList(receiptTo): "
<< KPIM::splitEmailAddrList(receiptTo).join("\n") << endl;
if ( KPIM::splitEmailAddrList(receiptTo).count() > 1 ) {
if ( !allowGUI ) return 0; // don't setMDNSentState here!
mode = requestAdviceOnMDN( "mdnMultipleAddressesInReceiptTo" );
s = MDN::SentManually;
}
// RFC 2298: MDNs SHOULD NOT be sent automatically if the address in
// the Disposition-Notification-To header differs from the address
// in the Return-Path header. [...] Confirmation from the user
// SHOULD be obtained (or no MDN sent) if there is no Return-Path
// header in the message [...]
AddrSpecList returnPathList = extractAddrSpecs("Return-Path");
TQString returnPath = returnPathList.isEmpty() ? TQString()
: returnPathList.front().localPart + '@' + returnPathList.front().domain ;
kdDebug(5006) << "clean return path: " << returnPath << endl;
if ( returnPath.isEmpty() || !receiptTo.tqcontains( returnPath, false ) ) {
if ( !allowGUI ) return 0; // don't setMDNSentState here!
mode = requestAdviceOnMDN( returnPath.isEmpty() ?
"mdnReturnPathEmpty" :
"mdnReturnPathNotInReceiptTo" );
s = MDN::SentManually;
}
if ( a != KMime::MDN::AutomaticAction ) {
//TODO: only ingore user settings for AutomaticAction if requested
if ( mode == 1 ) { // ask
if ( !allowGUI ) return 0; // don't setMDNSentState here!
mode = requestAdviceOnMDN( "mdnNormalAsk" );
s = MDN::SentManually; // asked user
}
switch ( mode ) {
case 0: // ignore:
setMDNSentState( KMMsgMDNIgnore );
return 0;
default:
case 1:
kdFatal(5006) << "KMMessage::createMDN(): The \"ask\" mode should "
<< "never appear here!" << endl;
break;
case 2: // deny
d = MDN::Denied;
m.clear();
break;
case 3:
break;
}
}
// extract where to send from:
TQString finalRecipient = kmkernel->identityManager()
->identityForUoidOrDefault( identityUoid() ).fullEmailAddr();
//
// Generate message:
//
KMMessage * receipt = new KMMessage();
receipt->initFromMessage( this );
receipt->removeHeaderField("Content-Type");
receipt->removeHeaderField("Content-Transfer-Encoding");
// Modify the ContentType directly (replaces setAutomaticFields(true))
DwHeaders & header = receipt->mMsg->Headers();
header.MimeVersion().FromString("1.0");
DwMediaType & contentType = receipt->dwContentType();
contentType.SetType( DwMime::kTypeMultipart );
contentType.SetSubtype( DwMime::kSubtypeReport );
contentType.CreateBoundary(0);
receipt->mNeedsAssembly = true;
receipt->setContentTypeParam( "report-type", "disposition-notification" );
TQString description = replaceHeadersInString( MDN::descriptionFor( d, m ) );
// text/plain part:
KMMessagePart firstMsgPart;
firstMsgPart.setTypeStr( "text" );
firstMsgPart.setSubtypeStr( "plain" );
firstMsgPart.setBodyFromUnicode( description );
receipt->addBodyPart( &firstMsgPart );
// message/disposition-notification part:
KMMessagePart secondMsgPart;
secondMsgPart.setType( DwMime::kTypeMessage );
secondMsgPart.setSubtype( DwMime::kSubtypeDispositionNotification );
//secondMsgPart.setCharset( "us-ascii" );
//secondMsgPart.setCteStr( "7bit" );
secondMsgPart.setBodyEncoded( MDN::dispositionNotificationBodyContent(
finalRecipient,
rawHeaderField("Original-Recipient"),
id(), /* Message-ID */
d, a, s, m, special ) );
receipt->addBodyPart( &secondMsgPart );
// message/rfc822 or text/rfc822-headers body part:
int num = mdnConfig.readNumEntry( "quote-message", 0 );
if ( num < 0 || num > 2 ) num = 0;
MDN::ReturnContent returnContent = static_cast<MDN::ReturnContent>( num );
KMMessagePart thirdMsgPart;
switch ( returnContent ) {
case MDN::All:
thirdMsgPart.setTypeStr( "message" );
thirdMsgPart.setSubtypeStr( "rfc822" );
thirdMsgPart.setBody( asSendableString() );
receipt->addBodyPart( &thirdMsgPart );
break;
case MDN::HeadersOnly:
thirdMsgPart.setTypeStr( "text" );
thirdMsgPart.setSubtypeStr( "rfc822-headers" );
thirdMsgPart.setBody( headerAsSendableString() );
receipt->addBodyPart( &thirdMsgPart );
break;
case MDN::Nothing:
default:
break;
};
receipt->setTo( receiptTo );
receipt->setSubject( "Message Disposition Notification" );
receipt->setReplyToId( msgId() );
receipt->setReferences( getRefStr() );
receipt->cleanupHeader();
kdDebug(5006) << "final message:\n" + receipt->asString() << endl;
//
// Set "MDN sent" status:
//
KMMsgMDNSentState state = KMMsgMDNStateUnknown;
switch ( d ) {
case MDN::Displayed: state = KMMsgMDNDisplayed; break;
case MDN::Deleted: state = KMMsgMDNDeleted; break;
case MDN::Dispatched: state = KMMsgMDNDispatched; break;
case MDN::Processed: state = KMMsgMDNProcessed; break;
case MDN::Denied: state = KMMsgMDNDenied; break;
case MDN::Failed: state = KMMsgMDNFailed; break;
};
setMDNSentState( state );
return receipt;
}
TQString KMMessage::replaceHeadersInString( const TQString & s ) const {
TQString result = s;
TQRegExp rx( "\\$\\{([a-z0-9-]+)\\}", false );
Q_ASSERT( rx.isValid() );
TQRegExp rxDate( "\\$\\{date\\}" );
Q_ASSERT( rxDate.isValid() );
TQString sDate = KMime::DateFormatter::formatDate(
KMime::DateFormatter::Localized, date() );
int idx = 0;
if( ( idx = rxDate.search( result, idx ) ) != -1 ) {
result.tqreplace( idx, rxDate.matchedLength(), sDate );
}
idx = 0;
while ( ( idx = rx.search( result, idx ) ) != -1 ) {
TQString replacement = headerField( TQString(rx.cap(1)).latin1() );
result.tqreplace( idx, rx.matchedLength(), replacement );
idx += replacement.length();
}
return result;
}
KMMessage* KMMessage::createDeliveryReceipt() const
{
TQString str, receiptTo;
KMMessage *receipt;
receiptTo = headerField("Disposition-Notification-To");
if ( receiptTo.stripWhiteSpace().isEmpty() ) return 0;
receiptTo.remove( '\n' );
receipt = new KMMessage;
receipt->initFromMessage(this);
receipt->setTo(receiptTo);
receipt->setSubject(i18n("Receipt: ") + subject());
str = "Your message was successfully delivered.";
str += "\n\n---------- Message header follows ----------\n";
str += headerAsString();
str += "--------------------------------------------\n";
// Conversion to latin1 is correct here as Mail headers should contain
// ascii only
receipt->setBody(str.latin1());
receipt->setAutomaticFields();
return receipt;
}
void KMMessage::applyIdentity( uint id )
{
const KPIM::Identity & ident =
kmkernel->identityManager()->identityForUoidOrDefault( id );
if(ident.fullEmailAddr().isEmpty())
setFrom("");
else
setFrom(ident.fullEmailAddr());
if(ident.replyToAddr().isEmpty())
setReplyTo("");
else
setReplyTo(ident.replyToAddr());
if(ident.bcc().isEmpty())
setBcc("");
else
setBcc(ident.bcc());
if (ident.organization().isEmpty())
removeHeaderField("Organization");
else
setHeaderField("Organization", ident.organization());
if (ident.isDefault())
removeHeaderField("X-KMail-Identity");
else
setHeaderField("X-KMail-Identity", TQString::number( ident.uoid() ));
if ( ident.transport().isEmpty() )
removeHeaderField( "X-KMail-Transport" );
else
setHeaderField( "X-KMail-Transport", ident.transport() );
if ( ident.fcc().isEmpty() )
setFcc( TQString() );
else
setFcc( ident.fcc() );
if ( ident.drafts().isEmpty() )
setDrafts( TQString() );
else
setDrafts( ident.drafts() );
if ( ident.templates().isEmpty() )
setTemplates( TQString() );
else
setTemplates( ident.templates() );
}
//-----------------------------------------------------------------------------
void KMMessage::initHeader( uint id )
{
applyIdentity( id );
setTo("");
setSubject("");
setDateToday();
setHeaderField("User-Agent", "KMail/" KMAIL_VERSION );
// This will allow to change Content-Type:
setHeaderField("Content-Type","text/plain");
}
uint KMMessage::identityUoid() const {
TQString idString = headerField("X-KMail-Identity").stripWhiteSpace();
bool ok = false;
int id = idString.toUInt( &ok );
if ( !ok || id == 0 )
id = kmkernel->identityManager()->identityForAddress( to() + ", " + cc() ).uoid();
if ( id == 0 && tqparent() )
id = tqparent()->identity();
return id;
}
//-----------------------------------------------------------------------------
void KMMessage::initFromMessage(const KMMessage *msg, bool idHeaders)
{
uint id = msg->identityUoid();
if ( idHeaders ) initHeader(id);
else setHeaderField("X-KMail-Identity", TQString::number(id));
if (!msg->headerField("X-KMail-Transport").isEmpty())
setHeaderField("X-KMail-Transport", msg->headerField("X-KMail-Transport"));
}
//-----------------------------------------------------------------------------
void KMMessage::cleanupHeader()
{
DwHeaders& header = mMsg->Headers();
DwField* field = header.FirstField();
DwField* nextField;
if (mNeedsAssembly) mMsg->Assemble();
mNeedsAssembly = false;
while (field)
{
nextField = field->Next();
if (field->FieldBody()->AsString().empty())
{
header.RemoveField(field);
mNeedsAssembly = true;
}
field = nextField;
}
}
//-----------------------------------------------------------------------------
void KMMessage::setAutomaticFields(bool aIsMulti)
{
DwHeaders& header = mMsg->Headers();
header.MimeVersion().FromString("1.0");
if (aIsMulti || numBodyParts() > 1)
{
// Set the type to 'Multipart' and the subtype to 'Mixed'
DwMediaType& contentType = dwContentType();
contentType.SetType( DwMime::kTypeMultipart);
contentType.SetSubtype(DwMime::kSubtypeMixed );
// Create a random printable string and set it as the boundary parameter
contentType.CreateBoundary(0);
}
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
TQString KMMessage::dateStr() const
{
KConfigGroup general( KMKernel::config(), "General" );
DwHeaders& header = mMsg->Headers();
time_t unixTime;
if (!header.HasDate()) return "";
unixTime = header.Date().AsUnixTime();
//kdDebug(5006)<<"#### Date = "<<header.Date().AsString().c_str()<<endl;
return KMime::DateFormatter::formatDate(
static_cast<KMime::DateFormatter::FormatType>(general.readNumEntry( "dateFormat", KMime::DateFormatter::Fancy )),
unixTime, general.readEntry( "customDateFormat" ));
}
//-----------------------------------------------------------------------------
TQCString KMMessage::dateShortStr() const
{
DwHeaders& header = mMsg->Headers();
time_t unixTime;
if (!header.HasDate()) return "";
unixTime = header.Date().AsUnixTime();
TQCString result = ctime(&unixTime);
int len = result.length();
if (result[len-1]=='\n')
result.truncate(len-1);
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::dateIsoStr() const
{
DwHeaders& header = mMsg->Headers();
time_t unixTime;
if (!header.HasDate()) return "";
unixTime = header.Date().AsUnixTime();
char cstr[64];
strftime(cstr, 63, "%Y-%m-%d %H:%M:%S", localtime(&unixTime));
return TQString(cstr);
}
//-----------------------------------------------------------------------------
time_t KMMessage::date() const
{
time_t res = ( time_t )-1;
DwHeaders& header = mMsg->Headers();
if (header.HasDate())
res = header.Date().AsUnixTime();
return res;
}
//-----------------------------------------------------------------------------
void KMMessage::setDateToday()
{
struct timeval tval;
gettimeofday(&tval, 0);
setDate((time_t)tval.tv_sec);
}
//-----------------------------------------------------------------------------
void KMMessage::setDate(time_t aDate)
{
mDate = aDate;
mMsg->Headers().Date().FromCalendarTime(aDate);
mMsg->Headers().Date().Assemble();
mNeedsAssembly = true;
mDirty = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setDate(const TQCString& aStr)
{
DwHeaders& header = mMsg->Headers();
header.Date().FromString(aStr);
header.Date().Parse();
mNeedsAssembly = true;
mDirty = true;
if (header.HasDate())
mDate = header.Date().AsUnixTime();
}
//-----------------------------------------------------------------------------
TQString KMMessage::to() const
{
// handle To same as Cc below, bug 80747
TQValueList<TQCString> rawHeaders = rawHeaderFields( "To" );
TQStringList headers;
for ( TQValueList<TQCString>::Iterator it = rawHeaders.begin(); it != rawHeaders.end(); ++it ) {
headers << *it;
}
return KPIM::normalizeAddressesAndDecodeIDNs( headers.join( ", " ) );
}
//-----------------------------------------------------------------------------
void KMMessage::setTo(const TQString& aStr)
{
setHeaderField( "To", aStr, Address );
}
//-----------------------------------------------------------------------------
TQString KMMessage::toStrip() const
{
return stripEmailAddr( to() );
}
//-----------------------------------------------------------------------------
TQString KMMessage::replyTo() const
{
return KPIM::normalizeAddressesAndDecodeIDNs( rawHeaderField("Reply-To") );
}
//-----------------------------------------------------------------------------
void KMMessage::setReplyTo(const TQString& aStr)
{
setHeaderField( "Reply-To", aStr, Address );
}
//-----------------------------------------------------------------------------
void KMMessage::setReplyTo(KMMessage* aMsg)
{
setHeaderField( "Reply-To", aMsg->from(), Address );
}
//-----------------------------------------------------------------------------
TQString KMMessage::cc() const
{
// get the combined contents of all Cc headers (as workaround for invalid
// messages with multiple Cc headers)
TQValueList<TQCString> rawHeaders = rawHeaderFields( "Cc" );
TQStringList headers;
for ( TQValueList<TQCString>::Iterator it = rawHeaders.begin(); it != rawHeaders.end(); ++it ) {
headers << *it;
}
return KPIM::normalizeAddressesAndDecodeIDNs( headers.join( ", " ) );
}
//-----------------------------------------------------------------------------
void KMMessage::setCc(const TQString& aStr)
{
setHeaderField( "Cc", aStr, Address );
}
//-----------------------------------------------------------------------------
TQString KMMessage::ccStrip() const
{
return stripEmailAddr( cc() );
}
//-----------------------------------------------------------------------------
TQString KMMessage::bcc() const
{
return KPIM::normalizeAddressesAndDecodeIDNs( rawHeaderField("Bcc") );
}
//-----------------------------------------------------------------------------
void KMMessage::setBcc(const TQString& aStr)
{
setHeaderField( "Bcc", aStr, Address );
}
//-----------------------------------------------------------------------------
TQString KMMessage::fcc() const
{
return headerField( "X-KMail-Fcc" );
}
//-----------------------------------------------------------------------------
void KMMessage::setFcc( const TQString &aStr )
{
setHeaderField( "X-KMail-Fcc", aStr );
}
//-----------------------------------------------------------------------------
void KMMessage::setDrafts( const TQString &aStr )
{
mDrafts = aStr;
}
//-----------------------------------------------------------------------------
void KMMessage::setTemplates( const TQString &aStr )
{
mTemplates = aStr;
}
//-----------------------------------------------------------------------------
TQString KMMessage::who() const
{
if (mParent)
return KPIM::normalizeAddressesAndDecodeIDNs( rawHeaderField(mParent->whoField().utf8()) );
return from();
}
//-----------------------------------------------------------------------------
TQString KMMessage::from() const
{
return KPIM::normalizeAddressesAndDecodeIDNs( rawHeaderField("From") );
}
//-----------------------------------------------------------------------------
void KMMessage::setFrom(const TQString& bStr)
{
TQString aStr = bStr;
if (aStr.isNull())
aStr = "";
setHeaderField( "From", aStr, Address );
mDirty = true;
}
//-----------------------------------------------------------------------------
TQString KMMessage::fromStrip() const
{
return stripEmailAddr( from() );
}
//-----------------------------------------------------------------------------
TQString KMMessage::sender() const {
AddrSpecList asl = extractAddrSpecs( "Sender" );
if ( asl.empty() )
asl = extractAddrSpecs( "From" );
if ( asl.empty() )
return TQString();
return asl.front().asString();
}
//-----------------------------------------------------------------------------
TQString KMMessage::subject() const
{
return headerField("Subject");
}
//-----------------------------------------------------------------------------
void KMMessage::setSubject(const TQString& aStr)
{
setHeaderField("Subject",aStr);
mDirty = true;
}
//-----------------------------------------------------------------------------
TQString KMMessage::xmark() const
{
return headerField("X-KMail-Mark");
}
//-----------------------------------------------------------------------------
void KMMessage::setXMark(const TQString& aStr)
{
setHeaderField("X-KMail-Mark", aStr);
mDirty = true;
}
//-----------------------------------------------------------------------------
TQString KMMessage::replyToId() const
{
int leftAngle, rightAngle;
TQString replyTo, references;
replyTo = headerField("In-Reply-To");
// search the end of the (first) message id in the In-Reply-To header
rightAngle = replyTo.tqfind( '>' );
if (rightAngle != -1)
replyTo.truncate( rightAngle + 1 );
// now search the start of the message id
leftAngle = replyTo.tqfindRev( '<' );
if (leftAngle != -1)
replyTo = replyTo.mid( leftAngle );
// if we have found a good message id we can return immediately
// We ignore mangled In-Reply-To headers which are created by a
// misconfigured Mutt. They look like this <"from foo"@bar.baz>, i.e.
// they contain double quotes and spaces. We only check for '"'.
if (!replyTo.isEmpty() && (replyTo[0] == '<') &&
( -1 == replyTo.tqfind( '"' ) ) )
return replyTo;
references = headerField("References");
leftAngle = references.tqfindRev( '<' );
if (leftAngle != -1)
references = references.mid( leftAngle );
rightAngle = references.tqfind( '>' );
if (rightAngle != -1)
references.truncate( rightAngle + 1 );
// if we found a good message id in the References header return it
if (!references.isEmpty() && references[0] == '<')
return references;
// else return the broken message id we found in the In-Reply-To header
else
return replyTo;
}
//-----------------------------------------------------------------------------
TQString KMMessage::replyToIdMD5() const {
return base64EncodedMD5( replyToId() );
}
//-----------------------------------------------------------------------------
TQString KMMessage::references() const
{
int leftAngle, rightAngle;
TQString references = headerField( "References" );
// keep the last two entries for threading
leftAngle = references.tqfindRev( '<' );
leftAngle = references.tqfindRev( '<', leftAngle - 1 );
if( leftAngle != -1 )
references = references.mid( leftAngle );
rightAngle = references.tqfindRev( '>' );
if( rightAngle != -1 )
references.truncate( rightAngle + 1 );
if( !references.isEmpty() && references[0] == '<' )
return references;
else
return TQString();
}
//-----------------------------------------------------------------------------
TQString KMMessage::replyToAuxIdMD5() const
{
TQString result = references();
// references contains two items, use the first one
// (the second to last reference)
const int rightAngle = result.tqfind( '>' );
if( rightAngle != -1 )
result.truncate( rightAngle + 1 );
return base64EncodedMD5( result );
}
//-----------------------------------------------------------------------------
TQString KMMessage::strippedSubjectMD5() const {
return base64EncodedMD5( stripOffPrefixes( subject() ), true /*utf8*/ );
}
//-----------------------------------------------------------------------------
TQString KMMessage::subjectMD5() const {
return base64EncodedMD5( subject(), true /*utf8*/ );
}
//-----------------------------------------------------------------------------
bool KMMessage::subjectIsPrefixed() const {
return subjectMD5() != strippedSubjectMD5();
}
//-----------------------------------------------------------------------------
void KMMessage::setReplyToId(const TQString& aStr)
{
setHeaderField("In-Reply-To", aStr);
mDirty = true;
}
//-----------------------------------------------------------------------------
TQString KMMessage::msgId() const
{
TQString msgId = headerField("Message-Id");
// search the end of the message id
const int rightAngle = msgId.tqfind( '>' );
if (rightAngle != -1)
msgId.truncate( rightAngle + 1 );
// now search the start of the message id
const int leftAngle = msgId.tqfindRev( '<' );
if (leftAngle != -1)
msgId = msgId.mid( leftAngle );
return msgId;
}
//-----------------------------------------------------------------------------
TQString KMMessage::msgIdMD5() const {
return base64EncodedMD5( msgId() );
}
//-----------------------------------------------------------------------------
void KMMessage::setMsgId(const TQString& aStr)
{
setHeaderField("Message-Id", aStr);
mDirty = true;
}
//-----------------------------------------------------------------------------
size_t KMMessage::msgSizeServer() const {
return headerField( "X-Length" ).toULong();
}
//-----------------------------------------------------------------------------
void KMMessage::setMsgSizeServer(size_t size)
{
setHeaderField("X-Length", TQCString().setNum(size));
mDirty = true;
}
//-----------------------------------------------------------------------------
ulong KMMessage::UID() const {
return headerField( "X-UID" ).toULong();
}
//-----------------------------------------------------------------------------
void KMMessage::setUID(ulong uid)
{
setHeaderField("X-UID", TQCString().setNum(uid));
mDirty = true;
}
//-----------------------------------------------------------------------------
AddressList KMMessage::splitAddrField( const TQCString & str )
{
AddressList result;
const char * scursor = str.begin();
if ( !scursor )
return AddressList();
const char * const send = str.begin() + str.length();
if ( !parseAddressList( scursor, send, result ) )
kdDebug(5006) << "Error in address splitting: parseAddressList returned false!"
<< endl;
return result;
}
AddressList KMMessage::headerAddrField( const TQCString & aName ) const {
return KMMessage::splitAddrField( rawHeaderField( aName ) );
}
AddrSpecList KMMessage::extractAddrSpecs( const TQCString & header ) const {
AddressList al = headerAddrField( header );
AddrSpecList result;
for ( AddressList::const_iterator ait = al.begin() ; ait != al.end() ; ++ait )
for ( MailboxList::const_iterator mit = (*ait).mailboxList.begin() ; mit != (*ait).mailboxList.end() ; ++mit )
result.push_back( (*mit).addrSpec );
return result;
}
TQCString KMMessage::rawHeaderField( const TQCString & name ) const {
if ( name.isEmpty() ) return TQCString();
DwHeaders & header = mMsg->Headers();
DwField * field = header.FindField( name );
if ( !field ) return TQCString();
return header.FieldBody( name.data() ).AsString().c_str();
}
TQValueList<TQCString> KMMessage::rawHeaderFields( const TQCString& field ) const
{
if ( field.isEmpty() || !mMsg->Headers().FindField( field ) )
return TQValueList<TQCString>();
std::vector<DwFieldBody*> v = mMsg->Headers().AllFieldBodies( field.data() );
TQValueList<TQCString> headerFields;
for ( uint i = 0; i < v.size(); ++i ) {
headerFields.append( v[i]->AsString().c_str() );
}
return headerFields;
}
TQString KMMessage::headerField(const TQCString& aName) const
{
if ( aName.isEmpty() )
return TQString();
if ( !mMsg->Headers().FindField( aName ) )
return TQString();
return decodeRFC2047String( mMsg->Headers().FieldBody( aName.data() ).AsString().c_str(),
charset() );
}
TQStringList KMMessage::headerFields( const TQCString& field ) const
{
if ( field.isEmpty() || !mMsg->Headers().FindField( field ) )
return TQStringList();
std::vector<DwFieldBody*> v = mMsg->Headers().AllFieldBodies( field.data() );
TQStringList headerFields;
for ( uint i = 0; i < v.size(); ++i ) {
headerFields.append( decodeRFC2047String( v[i]->AsString().c_str(), charset() ) );
}
return headerFields;
}
//-----------------------------------------------------------------------------
void KMMessage::removeHeaderField(const TQCString& aName)
{
DwHeaders & header = mMsg->Headers();
DwField * field = header.FindField(aName);
if (!field) return;
header.RemoveField(field);
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::removeHeaderFields(const TQCString& aName)
{
DwHeaders & header = mMsg->Headers();
while ( DwField * field = header.FindField(aName) ) {
header.RemoveField(field);
mNeedsAssembly = true;
}
}
//-----------------------------------------------------------------------------
void KMMessage::setHeaderField( const TQCString& aName, const TQString& bValue,
HeaderFieldType type, bool prepend )
{
#if 0
if ( type != Unstructured )
kdDebug(5006) << "KMMessage::setHeaderField( \"" << aName << "\", \""
<< bValue << "\", " << type << " )" << endl;
#endif
if (aName.isEmpty()) return;
DwHeaders& header = mMsg->Headers();
DwString str;
DwField* field;
TQCString aValue;
if (!bValue.isEmpty())
{
TQString value = bValue;
if ( type == Address )
value = KPIM::normalizeAddressesAndEncodeIDNs( value );
#if 0
if ( type != Unstructured )
kdDebug(5006) << "value: \"" << value << "\"" << endl;
#endif
TQCString encoding = autoDetectCharset( charset(), sPrefCharsets, value );
if (encoding.isEmpty())
encoding = "utf-8";
aValue = encodeRFC2047String( value, encoding );
#if 0
if ( type != Unstructured )
kdDebug(5006) << "aValue: \"" << aValue << "\"" << endl;
#endif
}
str = aName.data();
if (str[str.length()-1] != ':') str += ": ";
else str += ' ';
if ( !aValue.isEmpty() )
str += aValue.data();
if (str[str.length()-1] != '\n') str += '\n';
field = new DwField(str, mMsg);
field->Parse();
if ( prepend )
header.AddFieldAt( 1, field );
else
header.AddOrReplaceField( field );
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::typeStr() const
{
DwHeaders& header = mMsg->Headers();
if (header.HasContentType()) return header.ContentType().TypeStr().c_str();
else return "";
}
//-----------------------------------------------------------------------------
int KMMessage::type() const
{
DwHeaders& header = mMsg->Headers();
if (header.HasContentType()) return header.ContentType().Type();
else return DwMime::kTypeNull;
}
//-----------------------------------------------------------------------------
void KMMessage::setTypeStr(const TQCString& aStr)
{
dwContentType().SetTypeStr(DwString(aStr));
dwContentType().Parse();
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setType(int aType)
{
dwContentType().SetType(aType);
dwContentType().Assemble();
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::subtypeStr() const
{
DwHeaders& header = mMsg->Headers();
if (header.HasContentType()) return header.ContentType().SubtypeStr().c_str();
else return "";
}
//-----------------------------------------------------------------------------
int KMMessage::subtype() const
{
DwHeaders& header = mMsg->Headers();
if (header.HasContentType()) return header.ContentType().Subtype();
else return DwMime::kSubtypeNull;
}
//-----------------------------------------------------------------------------
void KMMessage::setSubtypeStr(const TQCString& aStr)
{
dwContentType().SetSubtypeStr(DwString(aStr));
dwContentType().Parse();
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setSubtype(int aSubtype)
{
dwContentType().SetSubtype(aSubtype);
dwContentType().Assemble();
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setDwMediaTypeParam( DwMediaType &mType,
const TQCString& attr,
const TQCString& val )
{
mType.Parse();
DwParameter *param = mType.FirstParameter();
while(param) {
if (!kasciistricmp(param->Attribute().c_str(), attr))
break;
else
param = param->Next();
}
if (!param){
param = new DwParameter;
param->SetAttribute(DwString( attr ));
mType.AddParameter( param );
}
else
mType.SetModified();
param->SetValue(DwString( val ));
mType.Assemble();
}
//-----------------------------------------------------------------------------
void KMMessage::setContentTypeParam(const TQCString& attr, const TQCString& val)
{
if (mNeedsAssembly) mMsg->Assemble();
mNeedsAssembly = false;
setDwMediaTypeParam( dwContentType(), attr, val );
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::contentTransferEncodingStr() const
{
DwHeaders& header = mMsg->Headers();
if (header.HasContentTransferEncoding())
return header.ContentTransferEncoding().AsString().c_str();
else return "";
}
//-----------------------------------------------------------------------------
int KMMessage::contentTransferEncoding( DwEntity *entity ) const
{
if ( !entity )
entity = mMsg;
DwHeaders& header = entity->Headers();
if ( header.HasContentTransferEncoding() )
return header.ContentTransferEncoding().AsEnum();
else return DwMime::kCteNull;
}
//-----------------------------------------------------------------------------
void KMMessage::setContentTransferEncodingStr( const TQCString& cteString,
DwEntity *entity )
{
if ( !entity )
entity = mMsg;
entity->Headers().ContentTransferEncoding().FromString( cteString );
entity->Headers().ContentTransferEncoding().Parse();
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setContentTransferEncoding( int cte, DwEntity *entity )
{
if ( !entity )
entity = mMsg;
entity->Headers().ContentTransferEncoding().FromEnum( cte );
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
DwHeaders& KMMessage::headers() const
{
return mMsg->Headers();
}
//-----------------------------------------------------------------------------
void KMMessage::setNeedsAssembly()
{
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::assembleIfNeeded()
{
Q_ASSERT( mMsg );
if ( mNeedsAssembly ) {
mMsg->Assemble();
mNeedsAssembly = false;
}
}
//-----------------------------------------------------------------------------
TQCString KMMessage::body() const
{
const DwString& body = mMsg->Body().AsString();
TQCString str = KMail::Util::CString( body );
// Calls length() -> slow
//kdWarning( str.length() != body.length(), 5006 )
// << "KMMessage::body(): body is binary but used as text!" << endl;
return str;
}
//-----------------------------------------------------------------------------
TQByteArray KMMessage::bodyDecodedBinary() const
{
DwString dwstr;
const DwString& dwsrc = mMsg->Body().AsString();
switch (cte())
{
case DwMime::kCteBase64:
DwDecodeBase64(dwsrc, dwstr);
break;
case DwMime::kCteQuotedPrintable:
DwDecodeQuotedPrintable(dwsrc, dwstr);
break;
default:
dwstr = dwsrc;
break;
}
int len = dwstr.size();
TQByteArray ba(len);
memcpy(ba.data(),dwstr.data(),len);
return ba;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::bodyDecoded() const
{
DwString dwstr;
DwString dwsrc = mMsg->Body().AsString();
switch (cte())
{
case DwMime::kCteBase64:
DwDecodeBase64(dwsrc, dwstr);
break;
case DwMime::kCteQuotedPrintable:
DwDecodeQuotedPrintable(dwsrc, dwstr);
break;
default:
dwstr = dwsrc;
break;
}
return KMail::Util::CString( dwstr );
// Calling TQCString::length() is slow
//TQCString result = KMail::Util::CString( dwstr );
//kdWarning(result.length() != len, 5006)
// << "KMMessage::bodyDecoded(): body is binary but used as text!" << endl;
//return result;
}
//-----------------------------------------------------------------------------
TQValueList<int> KMMessage::determineAllowedCtes( const CharFreq& cf,
bool allow8Bit,
bool willBeSigned )
{
TQValueList<int> allowedCtes;
switch ( cf.type() ) {
case CharFreq::SevenBitText:
allowedCtes << DwMime::kCte7bit;
case CharFreq::EightBitText:
if ( allow8Bit )
allowedCtes << DwMime::kCte8bit;
case CharFreq::SevenBitData:
if ( cf.printableRatio() > 5.0/6.0 ) {
// let n the length of data and p the number of printable chars.
// Then base64 \approx 4n/3; qp \approx p + 3(n-p)
// => qp < base64 iff p > 5n/6.
allowedCtes << DwMime::kCteQp;
allowedCtes << DwMime::kCteBase64;
} else {
allowedCtes << DwMime::kCteBase64;
allowedCtes << DwMime::kCteQp;
}
break;
case CharFreq::EightBitData:
allowedCtes << DwMime::kCteBase64;
break;
case CharFreq::None:
default:
// just nothing (avoid compiler warning)
;
}
// In the following cases only QP and Base64 are allowed:
// - the buffer will be OpenPGP/MIME signed and it contains trailing
// whitespace (cf. RFC 3156)
// - a line starts with "From "
if ( ( willBeSigned && cf.hasTrailingWhitespace() ) ||
cf.hasLeadingFrom() ) {
allowedCtes.remove( DwMime::kCte8bit );
allowedCtes.remove( DwMime::kCte7bit );
}
return allowedCtes;
}
//-----------------------------------------------------------------------------
void KMMessage::setBodyAndGuessCte( const TQByteArray& aBuf,
TQValueList<int> & allowedCte,
bool allow8Bit,
bool willBeSigned,
DwEntity *entity )
{
if ( !entity )
entity = mMsg;
CharFreq cf( aBuf ); // it's safe to pass null arrays
allowedCte = determineAllowedCtes( cf, allow8Bit, willBeSigned );
setCte( allowedCte[0], entity ); // choose best fitting
setBodyEncodedBinary( aBuf, entity );
}
//-----------------------------------------------------------------------------
void KMMessage::setBodyAndGuessCte( const TQCString& aBuf,
TQValueList<int> & allowedCte,
bool allow8Bit,
bool willBeSigned,
DwEntity *entity )
{
if ( !entity )
entity = mMsg;
CharFreq cf( aBuf.data(), aBuf.size()-1 ); // it's safe to pass null strings
allowedCte = determineAllowedCtes( cf, allow8Bit, willBeSigned );
setCte( allowedCte[0], entity ); // choose best fitting
setBodyEncoded( aBuf, entity );
}
//-----------------------------------------------------------------------------
void KMMessage::setBodyEncoded(const TQCString& aStr, DwEntity *entity )
{
if ( !entity )
entity = mMsg;
DwString dwSrc(aStr.data(), aStr.size()-1 /* not the trailing NUL */);
DwString dwResult;
switch (cte( entity ))
{
case DwMime::kCteBase64:
DwEncodeBase64(dwSrc, dwResult);
break;
case DwMime::kCteQuotedPrintable:
DwEncodeQuotedPrintable(dwSrc, dwResult);
break;
default:
dwResult = dwSrc;
break;
}
entity->Body().FromString(dwResult);
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setBodyEncodedBinary( const TQByteArray& aStr, DwEntity *entity )
{
if ( !entity )
entity = mMsg;
DwString dwSrc(aStr.data(), aStr.size());
DwString dwResult;
switch ( cte( entity ) )
{
case DwMime::kCteBase64:
DwEncodeBase64( dwSrc, dwResult );
break;
case DwMime::kCteQuotedPrintable:
DwEncodeQuotedPrintable( dwSrc, dwResult );
break;
default:
dwResult = dwSrc;
break;
}
entity->Body().FromString( dwResult );
entity->Body().Parse();
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setBody(const TQCString& aStr)
{
mMsg->Body().FromString(KMail::Util::dwString(aStr));
mNeedsAssembly = true;
}
void KMMessage::setBody(const DwString& aStr)
{
mMsg->Body().FromString(aStr);
mNeedsAssembly = true;
}
void KMMessage::setBody(const char* aStr)
{
mMsg->Body().FromString(aStr);
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::setMultiPartBody( const TQCString & aStr ) {
setBody( aStr );
mMsg->Body().Parse();
mNeedsAssembly = true;
}
// Patched by Daniel Moisset <dmoisset@grulic.org.ar>
// modified numbodyparts, bodypart to take nested body parts as
// a linear sequence.
// third revision, Sep 26 2000
// this is support structure for traversing tree without recursion
//-----------------------------------------------------------------------------
int KMMessage::numBodyParts() const
{
int count = 0;
DwBodyPart* part = getFirstDwBodyPart();
TQPtrList< DwBodyPart > parts;
while (part)
{
//dive into multipart messages
while ( part
&& part->hasHeaders()
&& part->Headers().HasContentType()
&& part->Body().FirstBodyPart()
&& (DwMime::kTypeMultipart == part->Headers().ContentType().Type()) )
{
parts.append( part );
part = part->Body().FirstBodyPart();
}
// this is where currPart->msgPart contains a leaf message part
count++;
// go up in the tree until reaching a node with next
// (or the last top-level node)
while (part && !(part->Next()) && !(parts.isEmpty()))
{
part = parts.getLast();
parts.removeLast();
}
if (part && part->Body().Message() &&
part->Body().Message()->Body().FirstBodyPart())
{
part = part->Body().Message()->Body().FirstBodyPart();
} else if (part) {
part = part->Next();
}
}
return count;
}
//-----------------------------------------------------------------------------
DwBodyPart * KMMessage::getFirstDwBodyPart() const
{
return mMsg->Body().FirstBodyPart();
}
//-----------------------------------------------------------------------------
int KMMessage::partNumber( DwBodyPart * aDwBodyPart ) const
{
DwBodyPart *curpart;
TQPtrList< DwBodyPart > parts;
int curIdx = 0;
int idx = 0;
// Get the DwBodyPart for this index
curpart = getFirstDwBodyPart();
while (curpart && !idx) {
//dive into multipart messages
while( curpart
&& curpart->hasHeaders()
&& curpart->Headers().HasContentType()
&& curpart->Body().FirstBodyPart()
&& (DwMime::kTypeMultipart == curpart->Headers().ContentType().Type()) )
{
parts.append( curpart );
curpart = curpart->Body().FirstBodyPart();
}
// this is where currPart->msgPart contains a leaf message part
if (curpart == aDwBodyPart)
idx = curIdx;
curIdx++;
// go up in the tree until reaching a node with next
// (or the last top-level node)
while (curpart && !(curpart->Next()) && !(parts.isEmpty()))
{
curpart = parts.getLast();
parts.removeLast();
} ;
if (curpart)
curpart = curpart->Next();
}
return idx;
}
//-----------------------------------------------------------------------------
DwBodyPart * KMMessage::dwBodyPart( int aIdx ) const
{
DwBodyPart *part, *curpart;
TQPtrList< DwBodyPart > parts;
int curIdx = 0;
// Get the DwBodyPart for this index
curpart = getFirstDwBodyPart();
part = 0;
while (curpart && !part) {
//dive into multipart messages
while( curpart
&& curpart->hasHeaders()
&& curpart->Headers().HasContentType()
&& curpart->Body().FirstBodyPart()
&& (DwMime::kTypeMultipart == curpart->Headers().ContentType().Type()) )
{
parts.append( curpart );
curpart = curpart->Body().FirstBodyPart();
}
// this is where currPart->msgPart contains a leaf message part
if (curIdx==aIdx)
part = curpart;
curIdx++;
// go up in the tree until reaching a node with next
// (or the last top-level node)
while (curpart && !(curpart->Next()) && !(parts.isEmpty()))
{
curpart = parts.getLast();
parts.removeLast();
}
if (curpart)
curpart = curpart->Next();
}
return part;
}
//-----------------------------------------------------------------------------
DwBodyPart * KMMessage::findDwBodyPart( int type, int subtype ) const
{
DwBodyPart *part, *curpart;
TQPtrList< DwBodyPart > parts;
// Get the DwBodyPart for this index
curpart = getFirstDwBodyPart();
part = 0;
while (curpart && !part) {
//dive into multipart messages
while(curpart
&& curpart->hasHeaders()
&& curpart->Headers().HasContentType()
&& curpart->Body().FirstBodyPart()
&& (DwMime::kTypeMultipart == curpart->Headers().ContentType().Type()) ) {
parts.append( curpart );
curpart = curpart->Body().FirstBodyPart();
}
// this is where curPart->msgPart contains a leaf message part
// pending(khz): Find out WHY this look does not travel down *into* an
// embedded "Message/RfF822" message containing a "Multipart/Mixed"
if ( curpart && curpart->hasHeaders() && curpart->Headers().HasContentType() ) {
kdDebug(5006) << curpart->Headers().ContentType().TypeStr().c_str()
<< " " << curpart->Headers().ContentType().SubtypeStr().c_str() << endl;
}
if (curpart &&
curpart->hasHeaders() &&
curpart->Headers().HasContentType() &&
curpart->Headers().ContentType().Type() == type &&
curpart->Headers().ContentType().Subtype() == subtype) {
part = curpart;
} else {
// go up in the tree until reaching a node with next
// (or the last top-level node)
while (curpart && !(curpart->Next()) && !(parts.isEmpty())) {
curpart = parts.getLast();
parts.removeLast();
} ;
if (curpart)
curpart = curpart->Next();
}
}
return part;
}
//-----------------------------------------------------------------------------
DwBodyPart * KMMessage::findDwBodyPart( const TQCString& type, const TQCString& subtype ) const
{
DwBodyPart *part, *curpart;
TQPtrList< DwBodyPart > parts;
// Get the DwBodyPart for this index
curpart = getFirstDwBodyPart();
part = 0;
while (curpart && !part) {
//dive into multipart messages
while(curpart
&& curpart->hasHeaders()
&& curpart->Headers().HasContentType()
&& curpart->Body().FirstBodyPart()
&& (DwMime::kTypeMultipart == curpart->Headers().ContentType().Type()) ) {
parts.append( curpart );
curpart = curpart->Body().FirstBodyPart();
}
// this is where curPart->msgPart contains a leaf message part
// pending(khz): Find out WHY this look does not travel down *into* an
// embedded "Message/RfF822" message containing a "Multipart/Mixed"
if (curpart && curpart->hasHeaders() && curpart->Headers().HasContentType() ) {
kdDebug(5006) << curpart->Headers().ContentType().TypeStr().c_str()
<< " " << curpart->Headers().ContentType().SubtypeStr().c_str() << endl;
}
if (curpart &&
curpart->hasHeaders() &&
curpart->Headers().HasContentType() &&
curpart->Headers().ContentType().TypeStr().c_str() == type &&
curpart->Headers().ContentType().SubtypeStr().c_str() == subtype) {
part = curpart;
} else {
// go up in the tree until reaching a node with next
// (or the last top-level node)
while (curpart && !(curpart->Next()) && !(parts.isEmpty())) {
curpart = parts.getLast();
parts.removeLast();
} ;
if (curpart)
curpart = curpart->Next();
}
}
return part;
}
void applyHeadersToMessagePart( DwHeaders& headers, KMMessagePart* aPart )
{
// TODO: Instead of manually implementing RFC2231 header encoding (i.e.
// possibly multiple values given as paramname*0=..; parmaname*1=..;...
// or par as paramname*0*=..; parmaname*1*=..;..., which should be
// concatenated), use a generic method to decode the header, using RFC
// 2047 or 2231, or whatever future RFC might be appropriate!
// Right now, some fields are decoded, while others are not. E.g.
// Content-Disposition is not decoded here, rather only on demand in
// KMMsgPart::fileName; Name however is decoded here and stored as a
// decoded String in KMMsgPart...
// Content-type
TQCString additionalCTypeParams;
if (headers.HasContentType())
{
DwMediaType& ct = headers.ContentType();
aPart->setOriginalContentTypeStr( ct.AsString().c_str() );
aPart->setTypeStr(ct.TypeStr().c_str());
aPart->setSubtypeStr(ct.SubtypeStr().c_str());
DwParameter *param = ct.FirstParameter();
while(param)
{
if (!qstricmp(param->Attribute().c_str(), "charset"))
aPart->setCharset(TQCString(param->Value().c_str()).lower());
else if (!qstrnicmp(param->Attribute().c_str(), "name*", 5))
aPart->setName(KMMsgBase::decodeRFC2231String(KMMsgBase::extractRFC2231HeaderField( param->Value().c_str(), "name" )));
else {
additionalCTypeParams += ';';
additionalCTypeParams += param->AsString().c_str();
}
param=param->Next();
}
}
else
{
aPart->setTypeStr("text"); // Set to defaults
aPart->setSubtypeStr("plain");
}
aPart->setAdditionalCTypeParamStr( additionalCTypeParams );
// Modification by Markus
if (aPart->name().isEmpty())
{
if (headers.HasContentType() && !headers.ContentType().Name().empty()) {
aPart->setName(KMMsgBase::decodeRFC2047String(headers.
ContentType().Name().c_str()) );
} else if (headers.HasSubject() && !headers.Subject().AsString().empty()) {
aPart->setName( KMMsgBase::decodeRFC2047String(headers.
Subject().AsString().c_str()) );
}
}
// Content-transfer-encoding
if (headers.HasContentTransferEncoding())
aPart->setCteStr(headers.ContentTransferEncoding().AsString().c_str());
else
aPart->setCteStr("7bit");
// Content-description
if (headers.HasContentDescription())
aPart->setContentDescription( KMMsgBase::decodeRFC2047String(
headers.ContentDescription().AsString().c_str() ) );
else
aPart->setContentDescription("");
// Content-disposition
if (headers.HasContentDisposition())
aPart->setContentDisposition(headers.ContentDisposition().AsString().c_str());
else
aPart->setContentDisposition("");
}
//-----------------------------------------------------------------------------
void KMMessage::bodyPart(DwBodyPart* aDwBodyPart, KMMessagePart* aPart,
bool withBody)
{
if ( !aPart )
return;
aPart->clear();
if( aDwBodyPart && aDwBodyPart->hasHeaders() ) {
// This must not be an empty string, because we'll get a
// spurious empty Subject: line in some of the parts.
//aPart->setName(" ");
// partSpecifier
TQString partId( aDwBodyPart->partId() );
aPart->setPartSpecifier( partId );
DwHeaders& headers = aDwBodyPart->Headers();
applyHeadersToMessagePart( headers, aPart );
// Body
if (withBody)
aPart->setBody( aDwBodyPart->Body().AsString() );
else
aPart->setBody( TQCString("") );
// Content-id
if ( headers.HasContentId() ) {
const TQCString contentId = headers.ContentId().AsString().c_str();
// ignore leading '<' and trailing '>'
aPart->setContentId( contentId.mid( 1, contentId.length() - 2 ) );
}
}
// If no valid body part was given,
// set all MultipartBodyPart attributes to empty values.
else
{
aPart->setTypeStr("");
aPart->setSubtypeStr("");
aPart->setCteStr("");
// This must not be an empty string, because we'll get a
// spurious empty Subject: line in some of the parts.
//aPart->setName(" ");
aPart->setContentDescription("");
aPart->setContentDisposition("");
aPart->setBody(TQCString(""));
aPart->setContentId("");
}
}
//-----------------------------------------------------------------------------
void KMMessage::bodyPart(int aIdx, KMMessagePart* aPart) const
{
if ( !aPart )
return;
// If the DwBodyPart was found get the header fields and body
if ( DwBodyPart *part = dwBodyPart( aIdx ) ) {
KMMessage::bodyPart(part, aPart);
if( aPart->name().isEmpty() )
aPart->setName( i18n("Attachment: %1").tqarg( aIdx ) );
}
}
//-----------------------------------------------------------------------------
void KMMessage::deleteBodyParts()
{
mMsg->Body().DeleteBodyParts();
}
//-----------------------------------------------------------------------------
bool KMMessage::deleteBodyPart( int partIndex )
{
KMMessagePart part;
DwBodyPart *dwpart = findPart( partIndex );
if ( !dwpart )
return false;
KMMessage::bodyPart( dwpart, &part, true );
if ( !part.isComplete() )
return false;
DwBody *tqparentNode = dynamic_cast<DwBody*>( dwpart->Parent() );
if ( !tqparentNode )
return false;
tqparentNode->RemoveBodyPart( dwpart );
// add dummy part to show that a attachment has been deleted
KMMessagePart dummyPart;
dummyPart.duplicate( part );
TQString comment = i18n("This attachment has been deleted.");
if ( !part.fileName().isEmpty() )
comment = i18n( "The attachment '%1' has been deleted." ).tqarg( part.fileName() );
dummyPart.setContentDescription( comment );
dummyPart.setBodyEncodedBinary( TQByteArray() );
TQCString cd = dummyPart.contentDisposition();
if ( cd.tqfind( "inline", 0, false ) == 0 ) {
cd.tqreplace( 0, 10, "attachment" );
dummyPart.setContentDisposition( cd );
} else if ( cd.isEmpty() ) {
dummyPart.setContentDisposition( "attachment" );
}
DwBodyPart* newDwPart = createDWBodyPart( &dummyPart );
tqparentNode->AddBodyPart( newDwPart );
getTopLevelPart()->Assemble();
return true;
}
//-----------------------------------------------------------------------------
DwBodyPart* KMMessage::createDWBodyPart(const KMMessagePart* aPart)
{
DwBodyPart* part = DwBodyPart::NewBodyPart(emptyString, 0);
if ( !aPart )
return part;
TQCString charset = aPart->charset();
TQCString type = aPart->typeStr();
TQCString subtype = aPart->subtypeStr();
TQCString cte = aPart->cteStr();
TQCString contDesc = aPart->contentDescriptionEncoded();
TQCString contDisp = aPart->contentDisposition();
TQCString name = KMMsgBase::encodeRFC2231StringAutoDetectCharset( aPart->name(), charset );
bool RFC2231encoded = aPart->name() != TQString(name);
TQCString paramAttr = aPart->parameterAttribute();
DwHeaders& headers = part->Headers();
DwMediaType& ct = headers.ContentType();
if (!type.isEmpty() && !subtype.isEmpty())
{
ct.SetTypeStr(type.data());
ct.SetSubtypeStr(subtype.data());
if (!charset.isEmpty()){
DwParameter *param;
param=new DwParameter;
param->SetAttribute("charset");
param->SetValue(charset.data());
ct.AddParameter(param);
}
}
TQCString additionalParam = aPart->additionalCTypeParamStr();
if( !additionalParam.isEmpty() )
{
TQCString parAV;
DwString parA, parV;
int iL, i1, i2, iM;
iL = additionalParam.length();
i1 = 0;
i2 = additionalParam.tqfind(';', i1, false);
while ( i1 < iL )
{
if( -1 == i2 )
i2 = iL;
if( i1+1 < i2 ) {
parAV = additionalParam.mid( i1, (i2-i1) );
iM = parAV.tqfind('=');
if( -1 < iM )
{
parA = parAV.left( iM ).data();
parV = parAV.right( parAV.length() - iM - 1 ).data();
if( ('"' == parV.at(0)) && ('"' == parV.at(parV.length()-1)) )
{
parV.erase( 0, 1);
parV.erase( parV.length()-1 );
}
}
else
{
parA = parAV.data();
parV = "";
}
DwParameter *param;
param = new DwParameter;
param->SetAttribute( parA );
param->SetValue( parV );
ct.AddParameter( param );
}
i1 = i2+1;
i2 = additionalParam.tqfind(';', i1, false);
}
}
if ( !name.isEmpty() ) {
if (RFC2231encoded)
{
DwParameter *nameParam;
nameParam = new DwParameter;
nameParam->SetAttribute("name*");
nameParam->SetValue(name.data(),true);
ct.AddParameter(nameParam);
} else {
ct.SetName(name.data());
}
}
if (!paramAttr.isEmpty())
{
TQCString paramValue;
paramValue = KMMsgBase::encodeRFC2231StringAutoDetectCharset( aPart->parameterValue(), charset );
DwParameter *param = new DwParameter;
if (aPart->parameterValue() != TQString(paramValue))
{
param->SetAttribute((paramAttr + '*').data());
param->SetValue(paramValue.data(),true);
} else {
param->SetAttribute(paramAttr.data());
param->SetValue(paramValue.data());
}
ct.AddParameter(param);
}
if (!cte.isEmpty())
headers.Cte().FromString(cte);
if (!contDesc.isEmpty())
headers.ContentDescription().FromString(contDesc);
if (!contDisp.isEmpty())
headers.ContentDisposition().FromString(contDisp);
const DwString bodyStr = aPart->dwBody();
if (!bodyStr.empty())
part->Body().FromString(bodyStr);
else
part->Body().FromString("");
if (!aPart->partSpecifier().isNull())
part->SetPartId( aPart->partSpecifier().latin1() );
if (aPart->decodedSize() > 0)
part->SetBodySize( aPart->decodedSize() );
return part;
}
//-----------------------------------------------------------------------------
void KMMessage::addDwBodyPart(DwBodyPart * aDwPart)
{
mMsg->Body().AddBodyPart( aDwPart );
mNeedsAssembly = true;
}
//-----------------------------------------------------------------------------
void KMMessage::addBodyPart(const KMMessagePart* aPart)
{
DwBodyPart* part = createDWBodyPart( aPart );
addDwBodyPart( part );
}
//-----------------------------------------------------------------------------
TQString KMMessage::generateMessageId( const TQString& addr )
{
TQDateTime datetime = TQDateTime::tqcurrentDateTime();
TQString msgIdStr;
msgIdStr = '<' + datetime.toString( "yyyyMMddhhmm.sszzz" );
TQString msgIdSuffix;
KConfigGroup general( KMKernel::config(), "General" );
if( general.readBoolEntry( "useCustomMessageIdSuffix", false ) )
msgIdSuffix = general.readEntry( "myMessageIdSuffix" );
if( !msgIdSuffix.isEmpty() )
msgIdStr += '@' + msgIdSuffix;
else
msgIdStr += '.' + KPIM::encodeIDN( addr );
msgIdStr += '>';
return msgIdStr;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::html2source( const TQCString & src )
{
TQCString result( 1 + 6*(src.size()-1) ); // maximal possible length
TQCString::ConstIterator s = src.begin();
TQCString::Iterator d = result.begin();
while ( *s ) {
switch ( *s ) {
case '<': {
*d++ = '&';
*d++ = 'l';
*d++ = 't';
*d++ = ';';
++s;
}
break;
case '\r': {
++s;
}
break;
case '\n': {
*d++ = '<';
*d++ = 'b';
*d++ = 'r';
*d++ = '>';
++s;
}
break;
case '>': {
*d++ = '&';
*d++ = 'g';
*d++ = 't';
*d++ = ';';
++s;
}
break;
case '&': {
*d++ = '&';
*d++ = 'a';
*d++ = 'm';
*d++ = 'p';
*d++ = ';';
++s;
}
break;
case '"': {
*d++ = '&';
*d++ = 'q';
*d++ = 'u';
*d++ = 'o';
*d++ = 't';
*d++ = ';';
++s;
}
break;
case '\'': {
*d++ = '&';
*d++ = 'a';
*d++ = 'p';
*d++ = 's';
*d++ = ';';
++s;
}
break;
default:
*d++ = *s++;
}
}
result.truncate( d - result.begin() ); // adds trailing NUL
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::encodeMailtoUrl( const TQString& str )
{
TQString result;
result = TQString::tqfromLatin1( KMMsgBase::encodeRFC2047String( str,
"utf-8" ) );
result = KURL::encode_string( result );
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::decodeMailtoUrl( const TQString& url )
{
TQString result;
result = KURL::decode_string( url );
result = KMMsgBase::decodeRFC2047String( result.latin1() );
return result;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::stripEmailAddr( const TQCString& aStr )
{
//kdDebug(5006) << "KMMessage::stripEmailAddr( " << aStr << " )" << endl;
if ( aStr.isEmpty() )
return TQCString();
TQCString result;
// The following is a primitive parser for a mailbox-list (cf. RFC 2822).
// The purpose is to extract a displayable string from the mailboxes.
// Comments in the addr-spec are not handled. No error checking is done.
TQCString name;
TQCString comment;
TQCString angleAddress;
enum { TopLevel, InComment, InAngleAddress } context = TopLevel;
bool inQuotedString = false;
int commentLevel = 0;
for ( const char* p = aStr.data(); *p; ++p ) {
switch ( context ) {
case TopLevel : {
switch ( *p ) {
case '"' : inQuotedString = !inQuotedString;
break;
case '(' : if ( !inQuotedString ) {
context = InComment;
commentLevel = 1;
}
else
name += *p;
break;
case '<' : if ( !inQuotedString ) {
context = InAngleAddress;
}
else
name += *p;
break;
case '\\' : // quoted character
++p; // skip the '\'
if ( *p )
name += *p;
break;
case ',' : if ( !inQuotedString ) {
// next email address
if ( !result.isEmpty() )
result += ", ";
name = name.stripWhiteSpace();
comment = comment.stripWhiteSpace();
angleAddress = angleAddress.stripWhiteSpace();
/*
kdDebug(5006) << "Name : \"" << name
<< "\"" << endl;
kdDebug(5006) << "Comment : \"" << comment
<< "\"" << endl;
kdDebug(5006) << "Address : \"" << angleAddress
<< "\"" << endl;
*/
if ( angleAddress.isEmpty() && !comment.isEmpty() ) {
// handle Outlook-style addresses like
// john.doe@invalid (John Doe)
result += comment;
}
else if ( !name.isEmpty() ) {
result += name;
}
else if ( !comment.isEmpty() ) {
result += comment;
}
else if ( !angleAddress.isEmpty() ) {
result += angleAddress;
}
name = TQCString();
comment = TQCString();
angleAddress = TQCString();
}
else
name += *p;
break;
default : name += *p;
}
break;
}
case InComment : {
switch ( *p ) {
case '(' : ++commentLevel;
comment += *p;
break;
case ')' : --commentLevel;
if ( commentLevel == 0 ) {
context = TopLevel;
comment += ' '; // separate the text of several comments
}
else
comment += *p;
break;
case '\\' : // quoted character
++p; // skip the '\'
if ( *p )
comment += *p;
break;
default : comment += *p;
}
break;
}
case InAngleAddress : {
switch ( *p ) {
case '"' : inQuotedString = !inQuotedString;
angleAddress += *p;
break;
case '>' : if ( !inQuotedString ) {
context = TopLevel;
}
else
angleAddress += *p;
break;
case '\\' : // quoted character
++p; // skip the '\'
if ( *p )
angleAddress += *p;
break;
default : angleAddress += *p;
}
break;
}
} // switch ( context )
}
if ( !result.isEmpty() )
result += ", ";
name = name.stripWhiteSpace();
comment = comment.stripWhiteSpace();
angleAddress = angleAddress.stripWhiteSpace();
/*
kdDebug(5006) << "Name : \"" << name << "\"" << endl;
kdDebug(5006) << "Comment : \"" << comment << "\"" << endl;
kdDebug(5006) << "Address : \"" << angleAddress << "\"" << endl;
*/
if ( angleAddress.isEmpty() && !comment.isEmpty() ) {
// handle Outlook-style addresses like
// john.doe@invalid (John Doe)
result += comment;
}
else if ( !name.isEmpty() ) {
result += name;
}
else if ( !comment.isEmpty() ) {
result += comment;
}
else if ( !angleAddress.isEmpty() ) {
result += angleAddress;
}
//kdDebug(5006) << "KMMessage::stripEmailAddr(...) returns \"" << result
// << "\"" << endl;
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::stripEmailAddr( const TQString& aStr )
{
//kdDebug(5006) << "KMMessage::stripEmailAddr( " << aStr << " )" << endl;
if ( aStr.isEmpty() )
return TQString();
TQString result;
// The following is a primitive parser for a mailbox-list (cf. RFC 2822).
// The purpose is to extract a displayable string from the mailboxes.
// Comments in the addr-spec are not handled. No error checking is done.
TQString name;
TQString comment;
TQString angleAddress;
enum { TopLevel, InComment, InAngleAddress } context = TopLevel;
bool inQuotedString = false;
int commentLevel = 0;
TQChar ch;
unsigned int strLength(aStr.length());
for ( uint index = 0; index < strLength; ++index ) {
ch = aStr[index];
switch ( context ) {
case TopLevel : {
switch ( ch.latin1() ) {
case '"' : inQuotedString = !inQuotedString;
break;
case '(' : if ( !inQuotedString ) {
context = InComment;
commentLevel = 1;
}
else
name += ch;
break;
case '<' : if ( !inQuotedString ) {
context = InAngleAddress;
}
else
name += ch;
break;
case '\\' : // quoted character
++index; // skip the '\'
if ( index < aStr.length() )
name += aStr[index];
break;
case ',' : if ( !inQuotedString ) {
// next email address
if ( !result.isEmpty() )
result += ", ";
name = name.stripWhiteSpace();
comment = comment.stripWhiteSpace();
angleAddress = angleAddress.stripWhiteSpace();
/*
kdDebug(5006) << "Name : \"" << name
<< "\"" << endl;
kdDebug(5006) << "Comment : \"" << comment
<< "\"" << endl;
kdDebug(5006) << "Address : \"" << angleAddress
<< "\"" << endl;
*/
if ( angleAddress.isEmpty() && !comment.isEmpty() ) {
// handle Outlook-style addresses like
// john.doe@invalid (John Doe)
result += comment;
}
else if ( !name.isEmpty() ) {
result += name;
}
else if ( !comment.isEmpty() ) {
result += comment;
}
else if ( !angleAddress.isEmpty() ) {
result += angleAddress;
}
name = TQString();
comment = TQString();
angleAddress = TQString();
}
else
name += ch;
break;
default : name += ch;
}
break;
}
case InComment : {
switch ( ch.latin1() ) {
case '(' : ++commentLevel;
comment += ch;
break;
case ')' : --commentLevel;
if ( commentLevel == 0 ) {
context = TopLevel;
comment += ' '; // separate the text of several comments
}
else
comment += ch;
break;
case '\\' : // quoted character
++index; // skip the '\'
if ( index < aStr.length() )
comment += aStr[index];
break;
default : comment += ch;
}
break;
}
case InAngleAddress : {
switch ( ch.latin1() ) {
case '"' : inQuotedString = !inQuotedString;
angleAddress += ch;
break;
case '>' : if ( !inQuotedString ) {
context = TopLevel;
}
else
angleAddress += ch;
break;
case '\\' : // quoted character
++index; // skip the '\'
if ( index < aStr.length() )
angleAddress += aStr[index];
break;
default : angleAddress += ch;
}
break;
}
} // switch ( context )
}
if ( !result.isEmpty() )
result += ", ";
name = name.stripWhiteSpace();
comment = comment.stripWhiteSpace();
angleAddress = angleAddress.stripWhiteSpace();
/*
kdDebug(5006) << "Name : \"" << name << "\"" << endl;
kdDebug(5006) << "Comment : \"" << comment << "\"" << endl;
kdDebug(5006) << "Address : \"" << angleAddress << "\"" << endl;
*/
if ( angleAddress.isEmpty() && !comment.isEmpty() ) {
// handle Outlook-style addresses like
// john.doe@invalid (John Doe)
result += comment;
}
else if ( !name.isEmpty() ) {
result += name;
}
else if ( !comment.isEmpty() ) {
result += comment;
}
else if ( !angleAddress.isEmpty() ) {
result += angleAddress;
}
//kdDebug(5006) << "KMMessage::stripEmailAddr(...) returns \"" << result
// << "\"" << endl;
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::quoteHtmlChars( const TQString& str, bool removeLineBreaks )
{
TQString result;
unsigned int strLength(str.length());
result.reserve( 6*strLength ); // maximal possible length
for( unsigned int i = 0; i < strLength; ++i )
switch ( str[i].latin1() ) {
case '<':
result += "&lt;";
break;
case '>':
result += "&gt;";
break;
case '&':
result += "&amp;";
break;
case '"':
result += "&quot;";
break;
case '\n':
if ( !removeLineBreaks )
result += "<br>";
break;
case '\r':
// ignore CR
break;
default:
result += str[i];
}
result.squeeze();
return result;
}
//-----------------------------------------------------------------------------
TQString KMMessage::emailAddrAsAnchor(const TQString& aEmail, bool stripped, const TQString& cssStyle, bool aLink)
{
if( aEmail.isEmpty() )
return aEmail;
TQStringList addressList = KPIM::splitEmailAddrList( aEmail );
TQString result;
for( TQStringList::ConstIterator it = addressList.begin();
( it != addressList.end() );
++it ) {
if( !(*it).isEmpty() ) {
// Extract the name, mail and some pretty versions out of the mail address
TQString name, mail;
KPIM::getNameAndMail( *it, name, mail );
TQString pretty;
TQString prettyStripped;
if ( name.stripWhiteSpace().isEmpty() ) {
pretty = mail;
prettyStripped = mail;
} else {
pretty = KPIM::quoteNameIfNecessary( name ) + " <" + mail + ">";
prettyStripped = name;
}
if(aLink) {
result += "<a href=\"mailto:"
+ KMMessage::encodeMailtoUrl( pretty )
+ "\" "+cssStyle+">";
}
if ( stripped ) {
result += KMMessage::quoteHtmlChars( prettyStripped, true );
}
else {
result += KMMessage::quoteHtmlChars( pretty, true );
}
if(aLink)
result += "</a>, ";
}
}
// cut of the trailing ", "
if(aLink)
result.truncate( result.length() - 2 );
//kdDebug(5006) << "KMMessage::emailAddrAsAnchor('" << aEmail
// << "') returns:\n-->" << result << "<--" << endl;
return result;
}
//-----------------------------------------------------------------------------
//static
TQStringList KMMessage::stripAddressFromAddressList( const TQString& address,
const TQStringList& list )
{
TQStringList addresses( list );
TQString addrSpec( KPIM::getEmailAddress( address ) );
for ( TQStringList::Iterator it = addresses.begin();
it != addresses.end(); ) {
if ( kasciistricmp( addrSpec.utf8().data(),
KPIM::getEmailAddress( *it ).utf8().data() ) == 0 ) {
kdDebug(5006) << "Removing " << *it << " from the address list"
<< endl;
it = addresses.remove( it );
}
else
++it;
}
return addresses;
}
//-----------------------------------------------------------------------------
//static
TQStringList KMMessage::stripMyAddressesFromAddressList( const TQStringList& list )
{
TQStringList addresses = list;
for( TQStringList::Iterator it = addresses.begin();
it != addresses.end(); ) {
kdDebug(5006) << "Check whether " << *it << " is one of my addresses"
<< endl;
if( kmkernel->identityManager()->thatIsMe( KPIM::getEmailAddress( *it ) ) ) {
kdDebug(5006) << "Removing " << *it << " from the address list"
<< endl;
it = addresses.remove( it );
}
else
++it;
}
return addresses;
}
//-----------------------------------------------------------------------------
//static
bool KMMessage::addressIsInAddressList( const TQString& address,
const TQStringList& addresses )
{
TQString addrSpec = KPIM::getEmailAddress( address );
for( TQStringList::ConstIterator it = addresses.begin();
it != addresses.end(); ++it ) {
if ( kasciistricmp( addrSpec.utf8().data(),
KPIM::getEmailAddress( *it ).utf8().data() ) == 0 )
return true;
}
return false;
}
//-----------------------------------------------------------------------------
//static
TQString KMMessage::expandAliases( const TQString& recipients )
{
if ( recipients.isEmpty() )
return TQString();
TQStringList recipientList = KPIM::splitEmailAddrList( recipients );
TQString expandedRecipients;
for ( TQStringList::Iterator it = recipientList.begin();
it != recipientList.end(); ++it ) {
if ( !expandedRecipients.isEmpty() )
expandedRecipients += ", ";
TQString receiver = (*it).stripWhiteSpace();
// try to expand distribution list
TQString expandedList = KAddrBookExternal::expandDistributionList( receiver );
if ( !expandedList.isEmpty() ) {
expandedRecipients += expandedList;
continue;
}
// try to expand nick name
TQString expandedNickName = KabcBridge::expandNickName( receiver );
if ( !expandedNickName.isEmpty() ) {
expandedRecipients += expandedNickName;
continue;
}
// check whether the address is missing the domain part
// FIXME: looking for '@' might be wrong
if ( receiver.tqfind('@') == -1 ) {
KConfigGroup general( KMKernel::config(), "General" );
TQString defaultdomain = general.readEntry( "Default domain" );
if( !defaultdomain.isEmpty() ) {
expandedRecipients += receiver + "@" + defaultdomain;
}
else {
expandedRecipients += guessEmailAddressFromLoginName( receiver );
}
}
else
expandedRecipients += receiver;
}
return expandedRecipients;
}
//-----------------------------------------------------------------------------
//static
TQString KMMessage::guessEmailAddressFromLoginName( const TQString& loginName )
{
if ( loginName.isEmpty() )
return TQString();
char hostnameC[256];
// null terminate this C string
hostnameC[255] = '\0';
// set the string to 0 length if gethostname fails
if ( gethostname( hostnameC, 255 ) )
hostnameC[0] = '\0';
TQString address = loginName;
address += '@';
address += TQString::fromLocal8Bit( hostnameC );
// try to determine the real name
const KUser user( loginName );
if ( user.isValid() ) {
TQString fullName = user.fullName();
if ( fullName.tqfind( TQRegExp( "[^ 0-9A-Za-z\\x0080-\\xFFFF]" ) ) != -1 )
address = '"' + fullName.tqreplace( '\\', "\\" ).tqreplace( '"', "\\" )
+ "\" <" + address + '>';
else
address = fullName + " <" + address + '>';
}
return address;
}
//-----------------------------------------------------------------------------
void KMMessage::readConfig()
{
KMMsgBase::readConfig();
KConfig *config=KMKernel::config();
KConfigGroupSaver saver(config, "General");
config->setGroup("General");
int languageNr = config->readNumEntry("reply-current-language",0);
{ // area for config group "KMMessage #n"
KConfigGroupSaver saver(config, TQString("KMMessage #%1").tqarg(languageNr));
sReplyLanguage = config->readEntry("language",KGlobal::locale()->language());
sReplyStr = config->readEntry("phrase-reply",
i18n("On %D, you wrote:"));
sReplyAllStr = config->readEntry("phrase-reply-all",
i18n("On %D, %F wrote:"));
sForwardStr = config->readEntry("phrase-forward",
i18n("Forwarded Message"));
sIndentPrefixStr = config->readEntry("indent-prefix",">%_");
}
{ // area for config group "Composer"
KConfigGroupSaver saver(config, "Composer");
sSmartQuote = GlobalSettings::self()->smartQuote();
sWordWrap = GlobalSettings::self()->wordWrap();
sWrapCol = GlobalSettings::self()->lineWrapWidth();
if ((sWrapCol == 0) || (sWrapCol > 78))
sWrapCol = 78;
if (sWrapCol < 30)
sWrapCol = 30;
sPrefCharsets = config->readListEntry("pref-charsets");
}
{ // area for config group "Reader"
KConfigGroupSaver saver(config, "Reader");
sHeaderStrategy = HeaderStrategy::create( config->readEntry( "header-set-displayed", "rich" ) );
}
}
TQCString KMMessage::defaultCharset()
{
TQCString retval;
if (!sPrefCharsets.isEmpty())
retval = sPrefCharsets[0].latin1();
if (retval.isEmpty() || (retval == "locale")) {
retval = TQCString(kmkernel->networkCodec()->mimeName());
KPIM::kAsciiToLower( retval.data() );
}
if (retval == "jisx0208.1983-0") retval = "iso-2022-jp";
else if (retval == "ksc5601.1987-0") retval = "euc-kr";
return retval;
}
const TQStringList &KMMessage::preferredCharsets()
{
return sPrefCharsets;
}
//-----------------------------------------------------------------------------
TQCString KMMessage::charset() const
{
if ( mMsg->Headers().HasContentType() ) {
DwMediaType &mType=mMsg->Headers().ContentType();
mType.Parse();
DwParameter *param=mType.FirstParameter();
while(param){
if (!kasciistricmp(param->Attribute().c_str(), "charset"))
return param->Value().c_str();
else param=param->Next();
}
}
return ""; // us-ascii, but we don't have to specify it
}
//-----------------------------------------------------------------------------
void KMMessage::setCharset( const TQCString &charset, DwEntity *entity )
{
kdWarning( type() != DwMime::kTypeText )
<< "KMMessage::setCharset(): trying to set a charset for a non-textual mimetype." << endl
<< "Fix this caller:" << endl
<< "====================================================================" << endl
<< kdBacktrace( 5 ) << endl
<< "====================================================================" << endl;
if ( !entity )
entity = mMsg;
DwMediaType &mType = entity->Headers().ContentType();
mType.Parse();
DwParameter *param = mType.FirstParameter();
while( param ) {
// FIXME use the mimelib functions here for comparison.
if ( !kasciistricmp( param->Attribute().c_str(), "charset" ) )
break;
param = param->Next();
}
if ( !param ) {
param = new DwParameter;
param->SetAttribute( "charset" );
mType.AddParameter( param );
}
else
mType.SetModified();
TQCString lowerCharset = charset;
KPIM::kAsciiToLower( lowerCharset.data() );
param->SetValue( DwString( lowerCharset ) );
mType.Assemble();
}
//-----------------------------------------------------------------------------
void KMMessage::setqStatus(const KMMsgtqStatus atqStatus, int idx)
{
if (mtqStatus == atqStatus)
return;
KMMsgBase::setqStatus(atqStatus, idx);
}
void KMMessage::setEncryptionState(const KMMsgEncryptionState s, int idx)
{
if( mEncryptionState == s )
return;
mEncryptionState = s;
mDirty = true;
KMMsgBase::setEncryptionState(s, idx);
}
void KMMessage::setSignatureState(KMMsgSignatureState s, int idx)
{
if( mSignatureState == s )
return;
mSignatureState = s;
mDirty = true;
KMMsgBase::setSignatureState(s, idx);
}
void KMMessage::setMDNSentState( KMMsgMDNSentState status, int idx )
{
if ( mMDNSentState == status )
return;
if ( status == 0 )
status = KMMsgMDNStateUnknown;
mMDNSentState = status;
mDirty = true;
KMMsgBase::setMDNSentState( status, idx );
}
//-----------------------------------------------------------------------------
void KMMessage::link( const KMMessage *aMsg, KMMsgtqStatus atqStatus )
{
Q_ASSERT( atqStatus == KMMsgStatusReplied
|| atqStatus == KMMsgStatusForwarded
|| atqStatus == KMMsgStatusDeleted );
TQString message = headerField( "X-KMail-Link-Message" );
if ( !message.isEmpty() )
message += ',';
TQString type = headerField( "X-KMail-Link-Type" );
if ( !type.isEmpty() )
type += ',';
message += TQString::number( aMsg->getMsgSerNum() );
if ( atqStatus == KMMsgStatusReplied )
type += "reply";
else if ( atqStatus == KMMsgStatusForwarded )
type += "forward";
else if ( atqStatus == KMMsgStatusDeleted )
type += "deleted";
setHeaderField( "X-KMail-Link-Message", message );
setHeaderField( "X-KMail-Link-Type", type );
}
//-----------------------------------------------------------------------------
void KMMessage::getLink(int n, ulong *retMsgSerNum, KMMsgtqStatus *retqStatus) const
{
*retMsgSerNum = 0;
*retqStatus = KMMsgStatusUnknown;
TQString message = headerField("X-KMail-Link-Message");
TQString type = headerField("X-KMail-Link-Type");
message = message.section(',', n, n);
type = type.section(',', n, n);
if ( !message.isEmpty() && !type.isEmpty() ) {
*retMsgSerNum = message.toULong();
if ( type == "reply" )
*retqStatus = KMMsgStatusReplied;
else if ( type == "forward" )
*retqStatus = KMMsgStatusForwarded;
else if ( type == "deleted" )
*retqStatus = KMMsgStatusDeleted;
}
}
//-----------------------------------------------------------------------------
DwBodyPart* KMMessage::findDwBodyPart( DwBodyPart* part, const TQString & partSpecifier )
{
if ( !part ) return 0;
DwBodyPart* current;
if ( part->partId() == partSpecifier )
return part;
// multipart
if ( part->hasHeaders() &&
part->Headers().HasContentType() &&
part->Body().FirstBodyPart() &&
(DwMime::kTypeMultipart == part->Headers().ContentType().Type() ) &&
(current = findDwBodyPart( part->Body().FirstBodyPart(), partSpecifier )) )
{
return current;
}
// encapsulated message
if ( part->Body().Message() &&
part->Body().Message()->Body().FirstBodyPart() &&
(current = findDwBodyPart( part->Body().Message()->Body().FirstBodyPart(),
partSpecifier )) )
{
return current;
}
// next part
return findDwBodyPart( part->Next(), partSpecifier );
}
//-----------------------------------------------------------------------------
void KMMessage::updateBodyPart(const TQString partSpecifier, const TQByteArray & data)
{
if ( !data.data() || !data.size() )
return;
DwString content( data.data(), data.size() );
if ( numBodyParts() > 0 &&
partSpecifier != "0" &&
partSpecifier != "TEXT" )
{
TQString specifier = partSpecifier;
if ( partSpecifier.endsWith(".HEADER") ||
partSpecifier.endsWith(".MIME") ) {
// get the tqparent bodypart
specifier = partSpecifier.section( '.', 0, -2 );
}
// search for the bodypart
mLastUpdated = findDwBodyPart( getFirstDwBodyPart(), specifier );
kdDebug(5006) << "KMMessage::updateBodyPart " << specifier << endl;
if (!mLastUpdated)
{
kdWarning(5006) << "KMMessage::updateBodyPart - can not find part "
<< specifier << endl;
return;
}
if ( partSpecifier.endsWith(".MIME") )
{
// update headers
// get rid of EOL
content.resize( TQMAX( content.length(), 2 ) - 2 );
// we have to delete the fields first as they might have been created by
// an earlier call to DwHeaders::FieldBody
mLastUpdated->Headers().DeleteAllFields();
mLastUpdated->Headers().FromString( content );
mLastUpdated->Headers().Parse();
} else if ( partSpecifier.endsWith(".HEADER") )
{
// update header of embedded message
mLastUpdated->Body().Message()->Headers().FromString( content );
mLastUpdated->Body().Message()->Headers().Parse();
} else {
// update body
mLastUpdated->Body().FromString( content );
TQString tqparentSpec = partSpecifier.section( '.', 0, -2 );
if ( !tqparentSpec.isEmpty() )
{
DwBodyPart* tqparent = findDwBodyPart( getFirstDwBodyPart(), tqparentSpec );
if ( tqparent && tqparent->hasHeaders() && tqparent->Headers().HasContentType() )
{
const DwMediaType& contentType = tqparent->Headers().ContentType();
if ( contentType.Type() == DwMime::kTypeMessage &&
contentType.Subtype() == DwMime::kSubtypeRfc822 )
{
// an embedded message that is not multipart
// update this directly
tqparent->Body().Message()->Body().FromString( content );
}
}
}
}
} else
{
// update text-only messages
if ( partSpecifier == "TEXT" )
deleteBodyParts(); // delete empty parts first
mMsg->Body().FromString( content );
mMsg->Body().Parse();
}
mNeedsAssembly = true;
if (! partSpecifier.endsWith(".HEADER") )
{
// notify observers
notify();
}
}
void KMMessage::updateInvitationState()
{
if ( mMsg && mMsg->hasHeaders() && mMsg->Headers().HasContentType() ) {
TQString cntType = mMsg->Headers().ContentType().TypeStr().c_str();
cntType += '/';
cntType += mMsg->Headers().ContentType().SubtypeStr().c_str();
if ( cntType.lower() == "text/calendar" ) {
setqStatus( KMMsgStatusHasInvitation );
return;
}
}
setqStatus( KMMsgStatusHasNoInvitation );
return;
}
//-----------------------------------------------------------------------------
void KMMessage::updateAttachmentState( DwBodyPart* part )
{
if ( !part )
part = getFirstDwBodyPart();
if ( !part )
{
// kdDebug(5006) << "updateAttachmentState - no part!" << endl;
setqStatus( KMMsgStatusHasNoAttach );
return;
}
bool filenameEmpty = true;
if ( part->hasHeaders() ) {
if ( part->Headers().HasContentDisposition() ) {
DwDispositionType cd = part->Headers().ContentDisposition();
filenameEmpty = cd.Filename().empty();
if ( filenameEmpty ) {
// let's try if it is rfc 2231 encoded which mimelib can't handle
filenameEmpty = KMMsgBase::decodeRFC2231String( KMMsgBase::extractRFC2231HeaderField( cd.AsString().c_str(), "filename" ) ).isEmpty();
}
}
// Filename still empty? Check if the content-type has a "name" parameter and try to use that as
// the attachment name
if ( filenameEmpty && part->Headers().HasContentType() ) {
DwMediaType contentType = part->Headers().ContentType();
filenameEmpty = contentType.Name().empty();
if ( filenameEmpty ) {
// let's try if it is rfc 2231 encoded which mimelib can't handle
filenameEmpty = KMMsgBase::decodeRFC2231String( KMMsgBase::extractRFC2231HeaderField(
contentType.AsString().c_str(), "name" ) ).isEmpty();
}
}
}
if ( part->hasHeaders() &&
( ( part->Headers().HasContentDisposition() &&
!part->Headers().ContentDisposition().Filename().empty() ) ||
( part->Headers().HasContentType() &&
!filenameEmpty ) ) )
{
// now blacklist certain ContentTypes
if ( !part->Headers().HasContentType() ||
( part->Headers().HasContentType() &&
part->Headers().ContentType().Subtype() != DwMime::kSubtypePgpSignature &&
part->Headers().ContentType().Subtype() != DwMime::kSubtypePkcs7Signature ) )
{
setqStatus( KMMsgStatusHasAttach );
}
return;
}
// multipart
if ( part->hasHeaders() &&
part->Headers().HasContentType() &&
part->Body().FirstBodyPart() &&
(DwMime::kTypeMultipart == part->Headers().ContentType().Type() ) )
{
updateAttachmentState( part->Body().FirstBodyPart() );
}
// encapsulated message
if ( part->Body().Message() &&
part->Body().Message()->Body().FirstBodyPart() )
{
updateAttachmentState( part->Body().Message()->Body().FirstBodyPart() );
}
// next part
if ( part->Next() )
updateAttachmentState( part->Next() );
else if ( attachmentState() == KMMsgAttachmentUnknown )
setqStatus( KMMsgStatusHasNoAttach );
}
void KMMessage::setBodyFromUnicode( const TQString &str, DwEntity *entity )
{
TQCString encoding = KMMsgBase::autoDetectCharset( charset(), KMMessage::preferredCharsets(), str );
if ( encoding.isEmpty() )
encoding = "utf-8";
const TQTextCodec * codec = KMMsgBase::codecForName( encoding );
assert( codec );
TQValueList<int> dummy;
setCharset( encoding, entity );
setBodyAndGuessCte( codec->fromUnicode( str ), dummy, false /* no 8bit */,
false, entity );
}
const TQTextCodec * KMMessage::codec() const {
const TQTextCodec * c = mOverrideCodec;
if ( !c )
// no override-codec set for this message, try the CT charset parameter:
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 KMMessage::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() );
}
//-----------------------------------------------------------------------------
TQCString KMMessage::mboxMessageSeparator()
{
TQCString str( KPIM::getFirstEmailAddress( rawHeaderField("From") ) );
if ( str.isEmpty() )
str = "unknown@unknown.invalid";
TQCString dateStr( dateShortStr() );
if ( dateStr.isEmpty() ) {
time_t t = ::time( 0 );
dateStr = ctime( &t );
const int len = dateStr.length();
if ( dateStr[len-1] == '\n' )
dateStr.truncate( len - 1 );
}
return "From " + str + " " + dateStr + "\n";
}
void KMMessage::deleteWhenUnused()
{
sPendingDeletes << this;
}
DwBodyPart* KMMessage::findPart( int index )
{
int accu = 0;
return findPartInternal( getTopLevelPart(), index, accu );
}
DwBodyPart* KMMessage::findPartInternal(DwEntity * root, int index, int & accu)
{
accu++;
if ( index < accu ) // should not happen
return 0;
DwBodyPart *current = dynamic_cast<DwBodyPart*>( root );
if ( index == accu )
return current;
DwBodyPart *rv = 0;
if ( root->Body().FirstBodyPart() )
rv = findPartInternal( root->Body().FirstBodyPart(), index, accu );
if ( !rv && current && current->Next() )
rv = findPartInternal( current->Next(), index, accu );
if ( !rv && root->Body().Message() )
rv = findPartInternal( root->Body().Message(), index, accu );
return rv;
}