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tdepim/kioslaves/imap4/imapparser.cc

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/**********************************************************************
*
* imapparser.cc - IMAP4rev1 Parser
* Copyright (C) 2001-2002 Michael Haeckel <haeckel@kde.org>
* Copyright (C) 2000 s.carstens@gmx.de
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Send comments and bug fixes to s.carstens@gmx.de
*
*********************************************************************/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "rfcdecoder.h"
#include "imapparser.h"
#include "imapinfo.h"
#include "mailheader.h"
#include "mimeheader.h"
#include "mailaddress.h"
#include <sys/types.h>
#include <stdlib.h>
#include <unistd.h>
#ifdef HAVE_LIBSASL2
extern "C" {
#include <sasl/sasl.h>
}
#endif
#include <tqregexp.h>
#include <tqbuffer.h>
#include <tqstring.h>
#include <tqstringlist.h>
#include <kdebug.h>
#include <kmdcodec.h>
#include <kurl.h>
#include <kasciistricmp.h>
#include <kasciistringtools.h>
#ifdef HAVE_LIBSASL2
static sasl_callback_t callbacks[] = {
{ SASL_CB_ECHOPROMPT, NULL, NULL },
{ SASL_CB_NOECHOPROMPT, NULL, NULL },
{ SASL_CB_GETREALM, NULL, NULL },
{ SASL_CB_USER, NULL, NULL },
{ SASL_CB_AUTHNAME, NULL, NULL },
{ SASL_CB_PASS, NULL, NULL },
{ SASL_CB_CANON_USER, NULL, NULL },
{ SASL_CB_LIST_END, NULL, NULL }
};
#endif
imapParser::imapParser ()
{
sentQueue.setAutoDelete (false);
completeQueue.setAutoDelete (true);
currentState = ISTATE_NO;
commandCounter = 0;
lastHandled = 0;
}
imapParser::~imapParser ()
{
delete lastHandled;
lastHandled = 0;
}
imapCommand *
imapParser::doCommand (imapCommand * aCmd)
{
int pl = 0;
sendCommand (aCmd);
while (pl != -1 && !aCmd->isComplete ()) {
while ((pl = parseLoop ()) == 0)
;
}
return aCmd;
}
imapCommand *
imapParser::sendCommand (imapCommand * aCmd)
{
aCmd->setId (TQString::number(commandCounter++));
sentQueue.append (aCmd);
continuation.resize(0);
const TQString& command = aCmd->command();
if (command == "SELECT" || command == "EXAMINE")
{
// we need to know which box we are selecting
parseString p;
p.fromString(aCmd->parameter());
currentBox = parseOneWordC(p);
kdDebug(7116) << "imapParser::sendCommand - setting current box to " << currentBox << endl;
}
else if (command == "CLOSE")
{
// we no longer have a box open
currentBox = TQString();
}
else if (command.find ("SEARCH") != -1
|| command == "GETACL"
|| command == "LISTRIGHTS"
|| command == "MYRIGHTS"
|| command == "GETANNOTATION"
|| command == "NAMESPACE"
|| command == "GETQUOTAROOT"
|| command == "GETQUOTA"
|| command == "X-GET-OTHER-USERS"
|| command == "X-GET-DELEGATES"
|| command == "X-GET-OUT-OF-OFFICE")
{
lastResults.clear ();
}
else if (command == "LIST"
|| command == "LSUB")
{
listResponses.clear ();
}
parseWriteLine (aCmd->getStr ());
return aCmd;
}
bool
imapParser::clientLogin (const TQString & aUser, const TQString & aPass,
TQString & resultInfo)
{
imapCommand *cmd;
bool retVal = false;
cmd =
doCommand (new
imapCommand ("LOGIN", "\"" + rfcDecoder::quoteIMAP(aUser)
+ "\" \"" + rfcDecoder::quoteIMAP(aPass) + "\""));
if (cmd->result () == "OK")
{
currentState = ISTATE_LOGIN;
retVal = true;
}
resultInfo = cmd->resultInfo();
completeQueue.removeRef (cmd);
return retVal;
}
#ifdef HAVE_LIBSASL2
static bool sasl_interact( KIO::SlaveBase *slave, KIO::AuthInfo &ai, void *in )
{
kdDebug(7116) << "sasl_interact" << endl;
sasl_interact_t *interact = ( sasl_interact_t * ) in;
//some mechanisms do not require username && pass, so it doesn't need a popup
//window for getting this info
for ( ; interact->id != SASL_CB_LIST_END; interact++ ) {
if ( interact->id == SASL_CB_AUTHNAME ||
interact->id == SASL_CB_PASS ) {
if ( ai.username.isEmpty() || ai.password.isEmpty() ) {
if (!slave->openPassDlg(ai))
return false;
}
break;
}
}
interact = ( sasl_interact_t * ) in;
while( interact->id != SASL_CB_LIST_END ) {
kdDebug(7116) << "SASL_INTERACT id: " << interact->id << endl;
switch( interact->id ) {
case SASL_CB_USER:
case SASL_CB_AUTHNAME:
kdDebug(7116) << "SASL_CB_[USER|AUTHNAME]: '" << ai.username << "'" << endl;
interact->result = strdup( ai.username.utf8() );
interact->len = strlen( (const char *) interact->result );
break;
case SASL_CB_PASS:
kdDebug(7116) << "SASL_CB_PASS: [hidden] " << endl;
interact->result = strdup( ai.password.utf8() );
interact->len = strlen( (const char *) interact->result );
break;
default:
interact->result = 0;
interact->len = 0;
break;
}
interact++;
}
return true;
}
#endif
bool
imapParser::clientAuthenticate ( KIO::SlaveBase *slave, KIO::AuthInfo &ai,
const TQString & aFTQDN, const TQString & aAuth, bool isSSL, TQString & resultInfo)
{
bool retVal = false;
#ifdef HAVE_LIBSASL2
int result;
sasl_conn_t *conn = 0;
sasl_interact_t *client_interact = 0;
const char *out = 0;
uint outlen = 0;
const char *mechusing = 0;
TQByteArray tmp, challenge;
kdDebug(7116) << "aAuth: " << aAuth << " FTQDN: " << aFTQDN << " isSSL: " << isSSL << endl;
// see if server supports this authenticator
if (!hasCapability ("AUTH=" + aAuth))
return false;
// result = sasl_client_new( isSSL ? "imaps" : "imap",
result = sasl_client_new( "imap", /* FIXME: with cyrus-imapd, even imaps' digest-uri
must be 'imap'. I don't know if it's good or bad. */
aFTQDN.latin1(),
0, 0, callbacks, 0, &conn );
if ( result != SASL_OK ) {
kdDebug(7116) << "sasl_client_new failed with: " << result << endl;
resultInfo = TQString::fromUtf8( sasl_errdetail( conn ) );
return false;
}
do {
result = sasl_client_start(conn, aAuth.latin1(), &client_interact,
hasCapability("SASL-IR") ? &out : 0, &outlen, &mechusing);
if ( result == SASL_INTERACT ) {
if ( !sasl_interact( slave, ai, client_interact ) ) {
sasl_dispose( &conn );
return false;
}
}
} while ( result == SASL_INTERACT );
if ( result != SASL_CONTINUE && result != SASL_OK ) {
kdDebug(7116) << "sasl_client_start failed with: " << result << endl;
resultInfo = TQString::fromUtf8( sasl_errdetail( conn ) );
sasl_dispose( &conn );
return false;
}
imapCommand *cmd;
tmp.setRawData( out, outlen );
KCodecs::base64Encode( tmp, challenge );
tmp.resetRawData( out, outlen );
// then lets try it
TQString firstCommand = aAuth;
if ( !challenge.isEmpty() ) {
firstCommand += " ";
firstCommand += TQString::fromLatin1( challenge.data(), challenge.size() );
}
cmd = sendCommand (new imapCommand ("AUTHENTICATE", firstCommand.latin1()));
while ( true )
{
//read the next line
while (parseLoop() == 0) ;
if ( cmd->isComplete() ) break;
if (!continuation.isEmpty())
{
// kdDebug(7116) << "S: " << TQCString(continuation.data(),continuation.size()+1) << endl;
if ( continuation.size() > 4 ) {
tmp.setRawData( continuation.data() + 2, continuation.size() - 4 );
KCodecs::base64Decode( tmp, challenge );
// kdDebug(7116) << "S-1: " << TQCString(challenge.data(),challenge.size()+1) << endl;
tmp.resetRawData( continuation.data() + 2, continuation.size() - 4 );
}
do {
result = sasl_client_step(conn, challenge.isEmpty() ? 0 : challenge.data(),
challenge.size(),
&client_interact,
&out, &outlen);
if (result == SASL_INTERACT) {
if ( !sasl_interact( slave, ai, client_interact ) ) {
sasl_dispose( &conn );
return false;
}
}
} while ( result == SASL_INTERACT );
if ( result != SASL_CONTINUE && result != SASL_OK ) {
kdDebug(7116) << "sasl_client_step failed with: " << result << endl;
resultInfo = TQString::fromUtf8( sasl_errdetail( conn ) );
sasl_dispose( &conn );
return false;
}
tmp.setRawData( out, outlen );
// kdDebug(7116) << "C-1: " << TQCString(tmp.data(),tmp.size()+1) << endl;
KCodecs::base64Encode( tmp, challenge );
tmp.resetRawData( out, outlen );
// kdDebug(7116) << "C: " << TQCString(challenge.data(),challenge.size()+1) << endl;
parseWriteLine (challenge);
continuation.resize(0);
}
}
if (cmd->result () == "OK")
{
currentState = ISTATE_LOGIN;
retVal = true;
}
resultInfo = cmd->resultInfo();
completeQueue.removeRef (cmd);
sasl_dispose( &conn ); //we don't use sasl_en/decode(), so it's safe to dispose the connection.
#endif //HAVE_LIBSASL2
return retVal;
}
void
imapParser::parseUntagged (parseString & result)
{
//kdDebug(7116) << "imapParser::parseUntagged - '" << result.cstr() << "'" << endl;
parseOneWordC(result); // *
TQByteArray what = parseLiteral (result); // see whats coming next
switch (what[0])
{
//the status responses
case 'B': // BAD or BYE
if (tqstrncmp(what, "BAD", what.size()) == 0)
{
parseResult (what, result);
}
else if (tqstrncmp(what, "BYE", what.size()) == 0)
{
parseResult (what, result);
if ( sentQueue.count() ) {
// BYE that interrupts a command -> copy the reason for it
imapCommand *current = sentQueue.at (0);
current->setResultInfo(result.cstr());
}
currentState = ISTATE_NO;
}
break;
case 'N': // NO
if (what[1] == 'O' && what.size() == 2)
{
parseResult (what, result);
}
else if (tqstrncmp(what, "NAMESPACE", what.size()) == 0)
{
parseNamespace (result);
}
break;
case 'O': // OK
if (what[1] == 'K' && what.size() == 2)
{
parseResult (what, result);
} else if (tqstrncmp(what, "OTHER-USER", 10) == 0) { // X-GET-OTHER-USER
parseOtherUser (result);
} else if (tqstrncmp(what, "OUT-OF-OFFICE", 13) == 0) { // X-GET-OUT-OF-OFFICE
parseOutOfOffice (result);
}
break;
case 'D':
if (tqstrncmp(what, "DELEGATE", 8) == 0) { // X-GET-DELEGATES
parseDelegate (result);
}
break;
case 'P': // PREAUTH
if (tqstrncmp(what, "PREAUTH", what.size()) == 0)
{
parseResult (what, result);
currentState = ISTATE_LOGIN;
}
break;
// parse the other responses
case 'C': // CAPABILITY
if (tqstrncmp(what, "CAPABILITY", what.size()) == 0)
{
parseCapability (result);
}
break;
case 'F': // FLAGS
if (tqstrncmp(what, "FLAGS", what.size()) == 0)
{
parseFlags (result);
}
break;
case 'L': // LIST or LSUB or LISTRIGHTS
if (tqstrncmp(what, "LIST", what.size()) == 0)
{
parseList (result);
}
else if (tqstrncmp(what, "LSUB", what.size()) == 0)
{
parseLsub (result);
}
else if (tqstrncmp(what, "LISTRIGHTS", what.size()) == 0)
{
parseListRights (result);
}
break;
case 'M': // MYRIGHTS
if (tqstrncmp(what, "MYRIGHTS", what.size()) == 0)
{
parseMyRights (result);
}
break;
case 'S': // SEARCH or STATUS
if (tqstrncmp(what, "SEARCH", what.size()) == 0)
{
parseSearch (result);
}
else if (tqstrncmp(what, "STATUS", what.size()) == 0)
{
parsetStatus (result);
}
break;
case 'A': // ACL or ANNOTATION
if (tqstrncmp(what, "ACL", what.size()) == 0)
{
parseAcl (result);
}
else if (tqstrncmp(what, "ANNOTATION", what.size()) == 0)
{
parseAnnotation (result);
}
break;
case 'Q': // TQUOTA or TQUOTAROOT
if ( what.size() > 5 && tqstrncmp(what, "QUOTAROOT", what.size()) == 0)
{
parseQuotaRoot( result );
}
else if (tqstrncmp(what, "QUOTA", what.size()) == 0)
{
parseQuota( result );
}
break;
case 'X': // Custom command
{
parseCustom( result );
}
break;
default:
//better be a number
{
ulong number;
bool valid;
number = TQCString(what, what.size() + 1).toUInt(&valid);
if (valid)
{
what = parseLiteral (result);
switch (what[0])
{
case 'E':
if (tqstrncmp(what, "EXISTS", what.size()) == 0)
{
parseExists (number, result);
}
else if (tqstrncmp(what, "EXPUNGE", what.size()) == 0)
{
parseExpunge (number, result);
}
break;
case 'F':
if (tqstrncmp(what, "FETCH", what.size()) == 0)
{
seenUid = TQString();
parseFetch (number, result);
}
break;
case 'S':
if (tqstrncmp(what, "STORE", what.size()) == 0) // deprecated store
{
seenUid = TQString();
parseFetch (number, result);
}
break;
case 'R':
if (tqstrncmp(what, "RECENT", what.size()) == 0)
{
parseRecent (number, result);
}
break;
default:
break;
}
}
}
break;
} //switch
} //func
void
imapParser::parseResult (TQByteArray & result, parseString & rest,
const TQString & command)
{
if (command == "SELECT")
selectInfo.setReadWrite(true);
if (rest[0] == '[')
{
rest.pos++;
TQCString option = parseOneWordC(rest, TRUE);
switch (option[0])
{
case 'A': // ALERT
if (option == "ALERT")
{
rest.pos = rest.data.find(']', rest.pos) + 1;
// The alert text is after [ALERT].
// Is this correct or do we need to care about litterals?
selectInfo.setAlert( rest.cstr() );
}
break;
case 'N': // NEWNAME
if (option == "NEWNAME")
{
}
break;
case 'P': //PARSE or PERMANENTFLAGS
if (option == "PARSE")
{
}
else if (option == "PERMANENTFLAGS")
{
uint end = rest.data.find(']', rest.pos);
TQCString flags(rest.data.data() + rest.pos, end - rest.pos);
selectInfo.setPermanentFlags (flags);
rest.pos = end;
}
break;
case 'R': //READ-ONLY or READ-WRITE
if (option == "READ-ONLY")
{
selectInfo.setReadWrite (false);
}
else if (option == "READ-WRITE")
{
selectInfo.setReadWrite (true);
}
break;
case 'T': //TRYCREATE
if (option == "TRYCREATE")
{
}
break;
case 'U': //UIDVALIDITY or UNSEEN
if (option == "UIDVALIDITY")
{
ulong value;
if (parseOneNumber (rest, value))
selectInfo.setUidValidity (value);
}
else if (option == "UNSEEN")
{
ulong value;
if (parseOneNumber (rest, value))
selectInfo.setUnseen (value);
}
else if (option == "UIDNEXT")
{
ulong value;
if (parseOneNumber (rest, value))
selectInfo.setUidNext (value);
}
else
break;
}
if (rest[0] == ']')
rest.pos++; //tie off ]
skipWS (rest);
}
if (command.isEmpty())
{
// This happens when parsing an intermediate result line (those that start with '*').
// No state change involved, so we can stop here.
return;
}
switch (command[0].latin1 ())
{
case 'A':
if (command == "AUTHENTICATE")
if (tqstrncmp(result, "OK", result.size()) == 0)
currentState = ISTATE_LOGIN;
break;
case 'L':
if (command == "LOGIN")
if (tqstrncmp(result, "OK", result.size()) == 0)
currentState = ISTATE_LOGIN;
break;
case 'E':
if (command == "EXAMINE")
{
if (tqstrncmp(result, "OK", result.size()) == 0)
currentState = ISTATE_SELECT;
else
{
if (currentState == ISTATE_SELECT)
currentState = ISTATE_LOGIN;
currentBox = TQString();
}
kdDebug(7116) << "imapParser::parseResult - current box is now " << currentBox << endl;
}
break;
case 'S':
if (command == "SELECT")
{
if (tqstrncmp(result, "OK", result.size()) == 0)
currentState = ISTATE_SELECT;
else
{
if (currentState == ISTATE_SELECT)
currentState = ISTATE_LOGIN;
currentBox = TQString();
}
kdDebug(7116) << "imapParser::parseResult - current box is now " << currentBox << endl;
}
break;
default:
break;
}
}
void imapParser::parseCapability (parseString & result)
{
TQCString temp( result.cstr() );
imapCapabilities = TQStringList::split ( ' ', KPIM::kAsciiToLower( temp.data() ) );
}
void imapParser::parseFlags (parseString & result)
{
selectInfo.setFlags(result.cstr());
}
void imapParser::parseList (parseString & result)
{
imapList this_one;
if (result[0] != '(')
return; //not proper format for us
result.pos++; // tie off (
this_one.parseAttributes( result );
result.pos++; // tie off )
skipWS (result);
this_one.setHierarchyDelimiter(parseLiteralC(result));
this_one.setName (rfcDecoder::fromIMAP(parseLiteralC(result))); // decode modified UTF7
listResponses.append (this_one);
}
void imapParser::parseLsub (parseString & result)
{
imapList this_one (result.cstr(), *this);
listResponses.append (this_one);
}
void imapParser::parseListRights (parseString & result)
{
parseOneWordC (result); // skip mailbox name
parseOneWordC (result); // skip user id
int outlen = 1;
while ( outlen ) {
TQCString word = parseOneWordC (result, false, &outlen);
lastResults.append (word);
}
}
void imapParser::parseAcl (parseString & result)
{
parseOneWordC (result); // skip mailbox name
int outlen = 1;
// The result is user1 perm1 user2 perm2 etc. The caller will sort it out.
while ( outlen && !result.isEmpty() ) {
TQCString word = parseLiteralC (result, false, false, &outlen);
lastResults.append (word);
}
}
void imapParser::parseAnnotation (parseString & result)
{
parseOneWordC (result); // skip mailbox name
skipWS (result);
parseOneWordC (result); // skip entry name (we know it since we don't allow wildcards in it)
skipWS (result);
if (result.isEmpty() || result[0] != '(')
return;
result.pos++;
skipWS (result);
int outlen = 1;
// The result is name1 value1 name2 value2 etc. The caller will sort it out.
while ( outlen && !result.isEmpty() && result[0] != ')' ) {
TQCString word = parseLiteralC (result, false, false, &outlen);
lastResults.append (word);
}
}
void imapParser::parseQuota (parseString & result)
{
// quota_response ::= "QUOTA" SP astring SP quota_list
// quota_list ::= "(" #quota_resource ")"
// quota_resource ::= atom SP number SP number
TQCString root = parseOneWordC( result );
if ( root.isEmpty() ) {
lastResults.append( "" );
} else {
lastResults.append( root );
}
if (result.isEmpty() || result[0] != '(')
return;
result.pos++;
skipWS (result);
TQStringList triplet;
int outlen = 1;
while ( outlen && !result.isEmpty() && result[0] != ')' ) {
TQCString word = parseLiteralC (result, false, false, &outlen);
triplet.append(word);
}
lastResults.append( triplet.join(" ") );
}
void imapParser::parseQuotaRoot (parseString & result)
{
// quotaroot_response
// ::= "QUOTAROOT" SP astring *(SP astring)
parseOneWordC (result); // skip mailbox name
skipWS (result);
if ( result.isEmpty() )
return;
TQStringList roots;
int outlen = 1;
while ( outlen && !result.isEmpty() ) {
TQCString word = parseLiteralC (result, false, false, &outlen);
roots.append (word);
}
lastResults.append( roots.isEmpty()? "" : roots.join(" ") );
}
void imapParser::parseCustom (parseString & result)
{
int outlen = 1;
TQCString word = parseLiteralC (result, false, false, &outlen);
lastResults.append( word );
}
void imapParser::parseOtherUser (parseString & result)
{
lastResults.append( parseOneWordC( result ) );
}
void imapParser::parseDelegate (parseString & result)
{
const TQString email = parseOneWordC( result );
TQStringList rights;
int outlen = 1;
while ( outlen && !result.isEmpty() ) {
TQCString word = parseLiteralC( result, false, false, &outlen );
rights.append( word );
}
lastResults.append( email + ":" + rights.join( "," ) );
}
void imapParser::parseOutOfOffice (parseString & result)
{
const TQString state = parseOneWordC (result);
parseOneWordC (result); // skip encoding
int outlen = 1;
TQCString msg = parseLiteralC (result, false, false, &outlen);
lastResults.append( state + "^" + TQString::fromUtf8( msg ) );
}
void imapParser::parseMyRights (parseString & result)
{
parseOneWordC (result); // skip mailbox name
Q_ASSERT( lastResults.isEmpty() ); // we can only be called once
lastResults.append (parseOneWordC (result) );
}
void imapParser::parseSearch (parseString & result)
{
ulong value;
while (parseOneNumber (result, value))
{
lastResults.append (TQString::number(value));
}
}
void imapParser::parsetStatus (parseString & inWords)
{
lasStatus = imapInfo ();
parseLiteralC(inWords); // swallow the box
if (inWords.isEmpty() || inWords[0] != '(')
return;
inWords.pos++;
skipWS (inWords);
while (!inWords.isEmpty() && inWords[0] != ')')
{
ulong value;
TQCString label = parseOneWordC(inWords);
if (parseOneNumber (inWords, value))
{
if (label == "MESSAGES")
lasStatus.setCount (value);
else if (label == "RECENT")
lasStatus.setRecent (value);
else if (label == "UIDVALIDITY")
lasStatus.setUidValidity (value);
else if (label == "UNSEEN")
lasStatus.setUnseen (value);
else if (label == "UIDNEXT")
lasStatus.setUidNext (value);
}
}
if (inWords[0] == ')')
inWords.pos++;
skipWS (inWords);
}
void imapParser::parseExists (ulong value, parseString & result)
{
selectInfo.setCount (value);
result.pos = result.data.size();
}
void imapParser::parseExpunge (ulong value, parseString & result)
{
Q_UNUSED(value);
Q_UNUSED(result);
}
void imapParser::parseAddressList (parseString & inWords, TQPtrList<mailAddress>& list)
{
if (inWords.isEmpty())
return;
if (inWords[0] != '(')
{
parseOneWordC (inWords); // parse NIL
}
else
{
inWords.pos++;
skipWS (inWords);
while (!inWords.isEmpty () && inWords[0] != ')')
{
if (inWords[0] == '(') {
mailAddress *addr = new mailAddress;
parseAddress(inWords, *addr);
list.append(addr);
} else {
break;
}
}
if (!inWords.isEmpty() && inWords[0] == ')')
inWords.pos++;
skipWS (inWords);
}
}
const mailAddress& imapParser::parseAddress (parseString & inWords, mailAddress& retVal)
{
inWords.pos++;
skipWS (inWords);
retVal.setFullName(parseLiteralC(inWords));
retVal.setCommentRaw(parseLiteralC(inWords));
retVal.setUser(parseLiteralC(inWords));
retVal.setHost(parseLiteralC(inWords));
if (!inWords.isEmpty() && inWords[0] == ')')
inWords.pos++;
skipWS (inWords);
return retVal;
}
mailHeader * imapParser::parseEnvelope (parseString & inWords)
{
mailHeader *envelope = 0;
if (inWords[0] != '(')
return envelope;
inWords.pos++;
skipWS (inWords);
envelope = new mailHeader;
//date
envelope->setDate(parseLiteralC(inWords));
//subject
envelope->setSubject(parseLiteralC(inWords));
TQPtrList<mailAddress> list;
list.setAutoDelete(true);
//from
parseAddressList(inWords, list);
if (!list.isEmpty()) {
envelope->setFrom(*list.last());
list.clear();
}
//sender
parseAddressList(inWords, list);
if (!list.isEmpty()) {
envelope->setSender(*list.last());
list.clear();
}
//reply-to
parseAddressList(inWords, list);
if (!list.isEmpty()) {
envelope->setReplyTo(*list.last());
list.clear();
}
//to
parseAddressList (inWords, envelope->to());
//cc
parseAddressList (inWords, envelope->cc());
//bcc
parseAddressList (inWords, envelope->bcc());
//in-reply-to
envelope->setInReplyTo(parseLiteralC(inWords));
//message-id
envelope->setMessageId(parseLiteralC(inWords));
// see if we have more to come
while (!inWords.isEmpty () && inWords[0] != ')')
{
//eat the extensions to this part
if (inWords[0] == '(')
parseSentence (inWords);
else
parseLiteralC (inWords);
}
if (!inWords.isEmpty() && inWords[0] == ')')
inWords.pos++;
skipWS (inWords);
return envelope;
}
// parse parameter pairs into a dictionary
// caller must clean up the dictionary items
TQAsciiDict < TQString > imapParser::parseDisposition (parseString & inWords)
{
TQCString disposition;
TQAsciiDict < TQString > retVal (17, false);
// return value is a shallow copy
retVal.setAutoDelete (false);
if (inWords[0] != '(')
{
//disposition only
disposition = parseOneWordC (inWords);
}
else
{
inWords.pos++;
skipWS (inWords);
//disposition
disposition = parseOneWordC (inWords);
retVal = parseParameters (inWords);
if (inWords[0] != ')')
return retVal;
inWords.pos++;
skipWS (inWords);
}
if (!disposition.isEmpty ())
{
retVal.insert ("content-disposition", new TQString(disposition));
}
return retVal;
}
// parse parameter pairs into a dictionary
// caller must clean up the dictionary items
TQAsciiDict < TQString > imapParser::parseParameters (parseString & inWords)
{
TQAsciiDict < TQString > retVal (17, false);
// return value is a shallow copy
retVal.setAutoDelete (false);
if (inWords[0] != '(')
{
//better be NIL
parseOneWordC (inWords);
}
else
{
inWords.pos++;
skipWS (inWords);
while (!inWords.isEmpty () && inWords[0] != ')')
{
TQCString l1 = parseLiteralC(inWords);
TQCString l2 = parseLiteralC(inWords);
retVal.insert (l1, new TQString(l2));
}
if (inWords[0] != ')')
return retVal;
inWords.pos++;
skipWS (inWords);
}
return retVal;
}
mimeHeader * imapParser::parseSimplePart (parseString & inWords,
TQString & inSection, mimeHeader * localPart)
{
TQCString subtype;
TQCString typeStr;
TQAsciiDict < TQString > parameters (17, false);
ulong size;
parameters.setAutoDelete (true);
if (inWords[0] != '(')
return 0;
if (!localPart)
localPart = new mimeHeader;
localPart->setPartSpecifier (inSection);
inWords.pos++;
skipWS (inWords);
//body type
typeStr = parseLiteralC(inWords);
//body subtype
subtype = parseLiteralC(inWords);
localPart->setType (typeStr + "/" + subtype);
//body parameter parenthesized list
parameters = parseParameters (inWords);
{
TQAsciiDictIterator < TQString > it (parameters);
while (it.current ())
{
localPart->setTypeParm (it.currentKey (), *(it.current ()));
++it;
}
parameters.clear ();
}
//body id
localPart->setID (parseLiteralC(inWords));
//body description
localPart->setDescription (parseLiteralC(inWords));
//body encoding
localPart->setEncoding (parseLiteralC(inWords));
//body size
if (parseOneNumber (inWords, size))
localPart->setLength (size);
// type specific extensions
if (localPart->getType().upper() == "MESSAGE/RFC822")
{
//envelope structure
mailHeader *envelope = parseEnvelope (inWords);
//body structure
parseBodyStructure (inWords, inSection, envelope);
localPart->setNestedMessage (envelope);
//text lines
ulong lines;
parseOneNumber (inWords, lines);
}
else
{
if (typeStr == "TEXT")
{
//text lines
ulong lines;
parseOneNumber (inWords, lines);
}
// md5
parseLiteralC(inWords);
// body disposition
parameters = parseDisposition (inWords);
{
TQString *disposition = parameters["content-disposition"];
if (disposition)
localPart->setDisposition (disposition->ascii ());
parameters.remove ("content-disposition");
TQAsciiDictIterator < TQString > it (parameters);
while (it.current ())
{
localPart->setDispositionParm (it.currentKey (),
*(it.current ()));
++it;
}
parameters.clear ();
}
// body language
parseSentence (inWords);
}
// see if we have more to come
while (!inWords.isEmpty () && inWords[0] != ')')
{
//eat the extensions to this part
if (inWords[0] == '(')
parseSentence (inWords);
else
parseLiteralC(inWords);
}
if (inWords[0] == ')')
inWords.pos++;
skipWS (inWords);
return localPart;
}
mimeHeader * imapParser::parseBodyStructure (parseString & inWords,
TQString & inSection, mimeHeader * localPart)
{
bool init = false;
if (inSection.isEmpty())
{
// first run
init = true;
// assume one part
inSection = "1";
}
int section = 0;
if (inWords[0] != '(')
{
// skip ""
parseOneWordC (inWords);
return 0;
}
inWords.pos++;
skipWS (inWords);
if (inWords[0] == '(')
{
TQByteArray subtype;
TQAsciiDict < TQString > parameters (17, false);
TQString outSection;
parameters.setAutoDelete (true);
if (!localPart)
localPart = new mimeHeader;
else
{
// might be filled from an earlier run
localPart->clearNestedParts ();
localPart->clearTypeParameters ();
localPart->clearDispositionParameters ();
// an envelope was passed in so this is the multipart header
outSection = inSection + ".HEADER";
}
if (inWords[0] == '(' && init)
inSection = "0";
// set the section
if ( !outSection.isEmpty() ) {
localPart->setPartSpecifier(outSection);
} else {
localPart->setPartSpecifier(inSection);
}
// is multipart (otherwise its a simplepart and handled later)
while (inWords[0] == '(')
{
outSection = TQString::number(++section);
if (!init)
outSection = inSection + "." + outSection;
mimeHeader *subpart = parseBodyStructure (inWords, outSection, 0);
localPart->addNestedPart (subpart);
}
// fetch subtype
subtype = parseOneWordC (inWords);
localPart->setType ("MULTIPART/" + b2c(subtype));
// fetch parameters
parameters = parseParameters (inWords);
{
TQAsciiDictIterator < TQString > it (parameters);
while (it.current ())
{
localPart->setTypeParm (it.currentKey (), *(it.current ()));
++it;
}
parameters.clear ();
}
// body disposition
parameters = parseDisposition (inWords);
{
TQString *disposition = parameters["content-disposition"];
if (disposition)
localPart->setDisposition (disposition->ascii ());
parameters.remove ("content-disposition");
TQAsciiDictIterator < TQString > it (parameters);
while (it.current ())
{
localPart->setDispositionParm (it.currentKey (),
*(it.current ()));
++it;
}
parameters.clear ();
}
// body language
parseSentence (inWords);
}
else
{
// is simple part
inWords.pos--;
inWords.data[inWords.pos] = '('; //fake a sentence
if ( localPart )
inSection = inSection + ".1";
localPart = parseSimplePart (inWords, inSection, localPart);
inWords.pos--;
inWords.data[inWords.pos] = ')'; //remove fake
}
// see if we have more to come
while (!inWords.isEmpty () && inWords[0] != ')')
{
//eat the extensions to this part
if (inWords[0] == '(')
parseSentence (inWords);
else
parseLiteralC(inWords);
}
if (inWords[0] == ')')
inWords.pos++;
skipWS (inWords);
return localPart;
}
void imapParser::parseBody (parseString & inWords)
{
// see if we got a part specifier
if (inWords[0] == '[')
{
TQCString specifier;
TQCString label;
inWords.pos++;
specifier = parseOneWordC (inWords, TRUE);
if (inWords[0] == '(')
{
inWords.pos++;
while (!inWords.isEmpty () && inWords[0] != ')')
{
label = parseOneWordC (inWords);
}
if (inWords[0] == ')')
inWords.pos++;
}
if (inWords[0] == ']')
inWords.pos++;
skipWS (inWords);
// parse the header
if (specifier == "0")
{
mailHeader *envelope = 0;
if (lastHandled)
envelope = lastHandled->getHeader ();
if (!envelope || seenUid.isEmpty ())
{
kdDebug(7116) << "imapParser::parseBody - discarding " << envelope << " " << seenUid.ascii () << endl;
// don't know where to put it, throw it away
parseLiteralC(inWords, true);
}
else
{
kdDebug(7116) << "imapParser::parseBody - reading " << envelope << " " << seenUid.ascii () << endl;
// fill it up with data
TQString theHeader = parseLiteralC(inWords, true);
mimeIOTQString myIO;
myIO.setString (theHeader);
envelope->parseHeader (myIO);
}
}
else if (specifier == "HEADER.FIELDS")
{
// BODY[HEADER.FIELDS (References)] {n}
//kdDebug(7116) << "imapParser::parseBody - HEADER.FIELDS: "
// << TQCString(label.data(), label.size()+1) << endl;
if (label == "REFERENCES")
{
mailHeader *envelope = 0;
if (lastHandled)
envelope = lastHandled->getHeader ();
if (!envelope || seenUid.isEmpty ())
{
kdDebug(7116) << "imapParser::parseBody - discarding " << envelope << " " << seenUid.ascii () << endl;
// don't know where to put it, throw it away
parseLiteralC (inWords, true);
}
else
{
TQCString references = parseLiteralC(inWords, true);
int start = references.find ('<');
int end = references.findRev ('>');
if (start < end)
references = references.mid (start, end - start + 1);
envelope->setReferences(references.simplifyWhiteSpace());
}
}
else
{ // not a header we care about throw it away
parseLiteralC(inWords, true);
}
}
else
{
if (specifier.find(".MIME") != -1)
{
mailHeader *envelope = new mailHeader;
TQString theHeader = parseLiteralC(inWords, false);
mimeIOTQString myIO;
myIO.setString (theHeader);
envelope->parseHeader (myIO);
if (lastHandled)
lastHandled->setHeader (envelope);
return;
}
// throw it away
kdDebug(7116) << "imapParser::parseBody - discarding " << seenUid.ascii () << endl;
parseLiteralC(inWords, true);
}
}
else // no part specifier
{
mailHeader *envelope = 0;
if (lastHandled)
envelope = lastHandled->getHeader ();
if (!envelope || seenUid.isEmpty ())
{
kdDebug(7116) << "imapParser::parseBody - discarding " << envelope << " " << seenUid.ascii () << endl;
// don't know where to put it, throw it away
parseSentence (inWords);
}
else
{
kdDebug(7116) << "imapParser::parseBody - reading " << envelope << " " << seenUid.ascii () << endl;
// fill it up with data
TQString section;
mimeHeader *body = parseBodyStructure (inWords, section, envelope);
if (body != envelope)
delete body;
}
}
}
void imapParser::parseFetch (ulong /* value */, parseString & inWords)
{
if (inWords[0] != '(')
return;
inWords.pos++;
skipWS (inWords);
delete lastHandled;
lastHandled = 0;
while (!inWords.isEmpty () && inWords[0] != ')')
{
if (inWords[0] == '(')
parseSentence (inWords);
else
{
TQCString word = parseLiteralC(inWords, false, true);
switch (word[0])
{
case 'E':
if (word == "ENVELOPE")
{
mailHeader *envelope = 0;
if (lastHandled)
envelope = lastHandled->getHeader ();
else
lastHandled = new imapCache();
if (envelope && !envelope->getMessageId ().isEmpty ())
{
// we have seen this one already
// or don't know where to put it
parseSentence (inWords);
}
else
{
envelope = parseEnvelope (inWords);
if (envelope)
{
envelope->setPartSpecifier (seenUid + ".0");
lastHandled->setHeader (envelope);
lastHandled->setUid (seenUid.toULong ());
}
}
}
break;
case 'B':
if (word == "BODY")
{
parseBody (inWords);
}
else if (word == "BODY[]" )
{
// Do the same as with "RFC822"
parseLiteralC(inWords, true);
}
else if (word == "BODYSTRUCTURE")
{
mailHeader *envelope = 0;
if (lastHandled)
envelope = lastHandled->getHeader ();
// fill it up with data
TQString section;
mimeHeader *body =
parseBodyStructure (inWords, section, envelope);
TQByteArray data;
TQDataStream stream( data, IO_WriteOnly );
if (body) body->serialize(stream);
parseRelay(data);
delete body;
}
break;
case 'U':
if (word == "UID")
{
seenUid = parseOneWordC(inWords);
mailHeader *envelope = 0;
if (lastHandled)
envelope = lastHandled->getHeader ();
else
lastHandled = new imapCache();
if (seenUid.isEmpty ())
{
// unknown what to do
kdDebug(7116) << "imapParser::parseFetch - UID empty" << endl;
}
else
{
lastHandled->setUid (seenUid.toULong ());
}
if (envelope)
envelope->setPartSpecifier (seenUid);
}
break;
case 'R':
if (word == "RFC822.SIZE")
{
ulong size;
parseOneNumber (inWords, size);
if (!lastHandled) lastHandled = new imapCache();
lastHandled->setSize (size);
}
else if (word.find ("RFC822") == 0)
{
// might be RFC822 RFC822.TEXT RFC822.HEADER
parseLiteralC(inWords, true);
}
break;
case 'I':
if (word == "INTERNALDATE")
{
TQCString date = parseOneWordC(inWords);
if (!lastHandled) lastHandled = new imapCache();
lastHandled->setDate(date);
}
break;
case 'F':
if (word == "FLAGS")
{
//kdDebug(7116) << "GOT FLAGS " << inWords.cstr() << endl;
if (!lastHandled) lastHandled = new imapCache();
lastHandled->setFlags (imapInfo::_flags (inWords.cstr()));
}
break;
default:
parseLiteralC(inWords);
break;
}
}
}
// see if we have more to come
while (!inWords.isEmpty () && inWords[0] != ')')
{
//eat the extensions to this part
if (inWords[0] == '(')
parseSentence (inWords);
else
parseLiteralC(inWords);
}
if (inWords.isEmpty() || inWords[0] != ')')
return;
inWords.pos++;
skipWS (inWords);
}
// default parser
void imapParser::parseSentence (parseString & inWords)
{
bool first = true;
int stack = 0;
//find the first nesting parentheses
while (!inWords.isEmpty () && (stack != 0 || first))
{
first = false;
skipWS (inWords);
unsigned char ch = inWords[0];
switch (ch)
{
case '(':
inWords.pos++;
++stack;
break;
case ')':
inWords.pos++;
--stack;
break;
case '[':
inWords.pos++;
++stack;
break;
case ']':
inWords.pos++;
--stack;
break;
default:
parseLiteralC(inWords);
skipWS (inWords);
break;
}
}
skipWS (inWords);
}
void imapParser::parseRecent (ulong value, parseString & result)
{
selectInfo.setRecent (value);
result.pos = result.data.size();
}
void imapParser::parseNamespace (parseString & result)
{
if ( result[0] != '(' )
return;
TQString delimEmpty;
if ( namespaceToDelimiter.contains( TQString() ) )
delimEmpty = namespaceToDelimiter[TQString()];
namespaceToDelimiter.clear();
imapNamespaces.clear();
// remember what section we're in (user, other users, shared)
int ns = -1;
bool personalAvailable = false;
while ( !result.isEmpty() )
{
if ( result[0] == '(' )
{
result.pos++; // tie off (
if ( result[0] == '(' )
{
// new namespace section
result.pos++; // tie off (
++ns;
}
// namespace prefix
TQCString prefix = parseOneWordC( result );
// delimiter
TQCString delim = parseOneWordC( result );
kdDebug(7116) << "imapParser::parseNamespace ns='" << prefix <<
"',delim='" << delim << "'" << endl;
if ( ns == 0 )
{
// at least one personal ns
personalAvailable = true;
}
TQString nsentry = TQString::number( ns ) + "=" + TQString(prefix) +
"=" + TQString(delim);
imapNamespaces.append( nsentry );
if ( prefix.right( 1 ) == delim ) {
// strip delimiter to get a correct entry for comparisons
prefix.resize( prefix.length() );
}
namespaceToDelimiter[prefix] = delim;
result.pos++; // tie off )
skipWS( result );
} else if ( result[0] == ')' )
{
result.pos++; // tie off )
skipWS( result );
} else if ( result[0] == 'N' )
{
// drop NIL
++ns;
parseOneWordC( result );
} else {
// drop whatever it is
parseOneWordC( result );
}
}
if ( !delimEmpty.isEmpty() ) {
// remember default delimiter
namespaceToDelimiter[TQString()] = delimEmpty;
if ( !personalAvailable )
{
// at least one personal ns would be nice
kdDebug(7116) << "imapParser::parseNamespace - registering own personal ns" << endl;
TQString nsentry = "0==" + delimEmpty;
imapNamespaces.append( nsentry );
}
}
}
int imapParser::parseLoop ()
{
parseString result;
if (!parseReadLine(result.data)) return -1;
//kdDebug(7116) << result.cstr(); // includes \n
if (result.data.isEmpty())
return 0;
if (!sentQueue.count ())
{
// maybe greeting or BYE everything else SHOULD not happen, use NOOP or IDLE
kdDebug(7116) << "imapParser::parseLoop - unhandledResponse: \n" << result.cstr() << endl;
unhandled << result.cstr();
}
else
{
imapCommand *current = sentQueue.at (0);
switch (result[0])
{
case '*':
result.data.resize(result.data.size() - 2); // tie off CRLF
parseUntagged (result);
break;
case '+':
continuation.duplicate(result.data);
break;
default:
{
TQCString tag = parseLiteralC(result);
if (current->id() == tag.data())
{
result.data.resize(result.data.size() - 2); // tie off CRLF
TQByteArray resultCode = parseLiteral (result); //the result
current->setResult (resultCode);
current->setResultInfo(result.cstr());
current->setComplete ();
sentQueue.removeRef (current);
completeQueue.append (current);
if (result.length())
parseResult (resultCode, result, current->command());
}
else
{
kdDebug(7116) << "imapParser::parseLoop - unknown tag '" << tag << "'" << endl;
TQCString cstr = tag + " " + result.cstr();
result.data = cstr;
result.pos = 0;
result.data.resize(cstr.length());
}
}
break;
}
}
return 1;
}
void
imapParser::parseRelay (const TQByteArray & buffer)
{
Q_UNUSED(buffer);
qWarning
("imapParser::parseRelay - virtual function not reimplemented - data lost");
}
void
imapParser::parseRelay (ulong len)
{
Q_UNUSED(len);
qWarning
("imapParser::parseRelay - virtual function not reimplemented - announcement lost");
}
bool imapParser::parseRead (TQByteArray & buffer, ulong len, ulong relay)
{
Q_UNUSED(buffer);
Q_UNUSED(len);
Q_UNUSED(relay);
qWarning
("imapParser::parseRead - virtual function not reimplemented - no data read");
return FALSE;
}
bool imapParser::parseReadLine (TQByteArray & buffer, ulong relay)
{
Q_UNUSED(buffer);
Q_UNUSED(relay);
qWarning
("imapParser::parseReadLine - virtual function not reimplemented - no data read");
return FALSE;
}
void
imapParser::parseWriteLine (const TQString & str)
{
Q_UNUSED(str);
qWarning
("imapParser::parseWriteLine - virtual function not reimplemented - no data written");
}
void
imapParser::parseURL (const KURL & _url, TQString & _box, TQString & _section,
TQString & _type, TQString & _uid, TQString & _validity, TQString & _info)
{
TQStringList parameters;
_box = _url.path ();
kdDebug(7116) << "imapParser::parseURL " << _box << endl;
int paramStart = _box.find("/;");
if ( paramStart > -1 )
{
TQString paramString = _box.right( _box.length() - paramStart-2 );
parameters = TQStringList::split (';', paramString); //split parameters
_box.truncate( paramStart ); // strip parameters
}
// extract parameters
for (TQStringList::ConstIterator it (parameters.begin ());
it != parameters.end (); ++it)
{
TQString temp = (*it);
int pt = temp.find ('/');
if (pt > 0)
{
if (temp.findRev ('"', pt) == -1 || temp.find('"', pt) == -1)
{
// if we have non-quoted '/' separator we'll just nuke it
temp.truncate(pt);
}
}
if (temp.find ("section=", 0, false) == 0)
_section = temp.right (temp.length () - 8);
else if (temp.find ("type=", 0, false) == 0)
_type = temp.right (temp.length () - 5);
else if (temp.find ("uid=", 0, false) == 0)
_uid = temp.right (temp.length () - 4);
else if (temp.find ("uidvalidity=", 0, false) == 0)
_validity = temp.right (temp.length () - 12);
else if (temp.find ("info=", 0, false) == 0)
_info = temp.right (temp.length () - 5);
}
// kdDebug(7116) << "URL: section= " << _section << ", type= " << _type << ", uid= " << _uid << endl;
// kdDebug(7116) << "URL: user() " << _url.user() << endl;
// kdDebug(7116) << "URL: path() " << _url.path() << endl;
// kdDebug(7116) << "URL: encodedPathAndQuery() " << _url.encodedPathAndQuery() << endl;
if (!_box.isEmpty ())
{
// strip /
if (_box[0] == '/')
_box = _box.right (_box.length () - 1);
if (!_box.isEmpty () && _box[_box.length () - 1] == '/')
_box.truncate(_box.length() - 1);
}
kdDebug(7116) << "URL: box= " << _box << ", section= " << _section << ", type= "
<< _type << ", uid= " << _uid << ", validity= " << _validity << ", info= " << _info << endl;
}
TQCString imapParser::parseLiteralC(parseString & inWords, bool relay, bool stopAtBracket, int *outlen) {
if (!inWords.isEmpty() && inWords[0] == '{')
{
TQCString retVal;
ulong runLen = inWords.find ('}', 1);
if (runLen > 0)
{
bool proper;
ulong runLenSave = runLen + 1;
TQCString tmpstr(runLen);
inWords.takeMidNoResize(tmpstr, 1, runLen - 1);
runLen = tmpstr.toULong (&proper);
inWords.pos += runLenSave;
if (proper)
{
//now get the literal from the server
if (relay)
parseRelay (runLen);
TQByteArray rv;
parseRead (rv, runLen, relay ? runLen : 0);
rv.resize(TQMAX(runLen, rv.size())); // what's the point?
retVal = b2c(rv);
inWords.clear();
parseReadLine (inWords.data); // must get more
// no duplicate data transfers
relay = false;
}
else
{
kdDebug(7116) << "imapParser::parseLiteral - error parsing {} - " /*<< strLen*/ << endl;
}
}
else
{
inWords.clear();
kdDebug(7116) << "imapParser::parseLiteral - error parsing unmatched {" << endl;
}
if (outlen) {
*outlen = retVal.length(); // optimize me
}
skipWS (inWords);
return retVal;
}
return parseOneWordC(inWords, stopAtBracket, outlen);
}
// does not know about literals ( {7} literal )
TQCString imapParser::parseOneWordC (parseString & inWords, bool stopAtBracket, int *outLen)
{
uint retValSize = 0;
uint len = inWords.length();
if (len == 0) {
return TQCString();
}
if (len > 0 && inWords[0] == '"')
{
unsigned int i = 1;
bool quote = FALSE;
while (i < len && (inWords[i] != '"' || quote))
{
if (inWords[i] == '\\') quote = !quote;
else quote = FALSE;
i++;
}
if (i < len)
{
TQCString retVal(i);
inWords.pos++;
inWords.takeLeftNoResize(retVal, i - 1);
len = i - 1;
int offset = 0;
for (unsigned int j = 0; j <= len; j++) {
if (retVal[j] == '\\') {
offset++;
j++;
}
retVal[j - offset] = retVal[j];
}
retVal[len - offset] = 0;
retValSize = len - offset;
inWords.pos += i;
skipWS (inWords);
if (outLen) {
*outLen = retValSize;
}
return retVal;
}
else
{
kdDebug(7116) << "imapParser::parseOneWord - error parsing unmatched \"" << endl;
TQCString retVal = inWords.cstr();
retValSize = len;
inWords.clear();
if (outLen) {
*outLen = retValSize;
}
return retVal;
}
}
else
{
// not quoted
unsigned int i;
// search for end
for (i = 0; i < len; ++i) {
char ch = inWords[i];
if (ch <= ' ' || ch == '(' || ch == ')' ||
(stopAtBracket && (ch == '[' || ch == ']')))
break;
}
TQCString retVal(i+1);
inWords.takeLeftNoResize(retVal, i);
retValSize = i;
inWords.pos += i;
if (retVal == "NIL") {
retVal.truncate(0);
retValSize = 0;
}
skipWS (inWords);
if (outLen) {
*outLen = retValSize;
}
return retVal;
}
}
bool imapParser::parseOneNumber (parseString & inWords, ulong & num)
{
bool valid;
num = parseOneWordC(inWords, TRUE).toULong(&valid);
return valid;
}
bool imapParser::hasCapability (const TQString & cap)
{
TQString c = cap.lower();
// kdDebug(7116) << "imapParser::hasCapability - Looking for '" << cap << "'" << endl;
for (TQStringList::ConstIterator it = imapCapabilities.begin ();
it != imapCapabilities.end (); ++it)
{
// kdDebug(7116) << "imapParser::hasCapability - Examining '" << (*it) << "'" << endl;
if ( !(kasciistricmp(c.ascii(), (*it).ascii())) )
{
return true;
}
}
return false;
}
void imapParser::removeCapability (const TQString & cap)
{
imapCapabilities.remove(cap.lower());
}
TQString imapParser::namespaceForBox( const TQString & box )
{
kdDebug(7116) << "imapParse::namespaceForBox " << box << endl;
TQString myNamespace;
if ( !box.isEmpty() )
{
TQValueList<TQString> list = namespaceToDelimiter.keys();
TQString cleanPrefix;
for ( TQValueList<TQString>::Iterator it = list.begin(); it != list.end(); ++it )
{
if ( !(*it).isEmpty() && box.find( *it ) != -1 )
return (*it);
}
}
return myNamespace;
}