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tdebase/kioslave/pop3/pop3.cc

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/*
* Copyright (c) 1999-2001 Alex Zepeda
* Copyright (c) 2001-2002 Michael Haeckel <haeckel@kde.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/time.h>
#ifdef HAVE_SYS_SELECT_H
#include <sys/select.h>
#endif
#include <errno.h>
#include <stdio.h>
#ifdef HAVE_LIBSASL2
extern "C" {
#include <sasl/sasl.h>
}
#endif
#include <tqcstring.h>
#include <tqglobal.h>
#include <tqregexp.h>
#include <kdebug.h>
#include <kinstance.h>
#include <klocale.h>
#include <kmdcodec.h>
#include <kprotocolmanager.h>
#include <ksock.h>
#include <kio/connection.h>
#include <kio/slaveinterface.h>
#include <kio/passdlg.h>
#include "pop3.h"
#define GREETING_BUF_LEN 1024
#define MAX_RESPONSE_LEN 512
#define MAX_COMMANDS 10
#define POP3_DEBUG kdDebug(7105)
extern "C" {
int KDE_EXPORT kdemain(int argc, char **argv);
}
using namespace KIO;
#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
int kdemain(int argc, char **argv)
{
if (argc != 4) {
POP3_DEBUG << "Usage: kio_pop3 protocol domain-socket1 domain-socket2"
<< endl;
return -1;
}
#ifdef HAVE_LIBSASL2
if ( sasl_client_init( NULL ) != SASL_OK ) {
fprintf(stderr, "SASL library initialization failed!\n");
return -1;
}
#endif
KInstance instance("kio_pop3");
POP3Protocol *slave;
// Are we looking to use SSL?
if (strcasecmp(argv[1], "pop3s") == 0) {
slave = new POP3Protocol(argv[2], argv[3], true);
} else {
slave = new POP3Protocol(argv[2], argv[3], false);
}
slave->dispatchLoop();
delete slave;
#ifdef HAVE_LIBSASL2
sasl_done();
#endif
return 0;
}
POP3Protocol::POP3Protocol(const TQCString & pool, const TQCString & app,
bool isSSL)
: TCPSlaveBase((isSSL ? 995 : 110), (isSSL ? "pop3s" : "pop3"), pool, app,
isSSL)
{
POP3_DEBUG << "POP3Protocol::POP3Protocol()" << endl;
m_bIsSSL = isSSL;
m_cmd = CMD_NONE;
m_iOldPort = 0;
m_tTimeout.tv_sec = 10;
m_tTimeout.tv_usec = 0;
supports_apop = false;
m_try_apop = true;
m_try_sasl = true;
opened = false;
readBufferLen = 0;
}
POP3Protocol::~POP3Protocol()
{
POP3_DEBUG << "POP3Protocol::~POP3Protocol()" << endl;
closeConnection();
}
void POP3Protocol::setHost(const TQString & _host, int _port,
const TQString & _user, const TQString & _pass)
{
m_sServer = _host;
m_iPort = _port;
m_sUser = _user;
m_sPass = _pass;
}
ssize_t POP3Protocol::myRead(void *data, ssize_t len)
{
if (readBufferLen) {
ssize_t copyLen = (len < readBufferLen) ? len : readBufferLen;
memcpy(data, readBuffer, copyLen);
readBufferLen -= copyLen;
if (readBufferLen)
memmove(readBuffer, &readBuffer[copyLen], readBufferLen);
return copyLen;
}
waitForResponse(600);
return read(data, len);
}
ssize_t POP3Protocol::myReadLine(char *data, ssize_t len)
{
ssize_t copyLen = 0, readLen = 0;
while (true) {
while (copyLen < readBufferLen && readBuffer[copyLen] != '\n')
copyLen++;
if (copyLen < readBufferLen || copyLen == len) {
copyLen++;
memcpy(data, readBuffer, copyLen);
data[copyLen] = '\0';
readBufferLen -= copyLen;
if (readBufferLen)
memmove(readBuffer, &readBuffer[copyLen], readBufferLen);
return copyLen;
}
waitForResponse(600);
readLen = read(&readBuffer[readBufferLen], len - readBufferLen);
readBufferLen += readLen;
if (readLen <= 0) {
data[0] = '\0';
return 0;
}
}
}
POP3Protocol::Resp POP3Protocol::getResponse(char *r_buf, unsigned int r_len,
const char *cmd)
{
char *buf = 0;
unsigned int recv_len = 0;
// fd_set FDs;
// Give the buffer the appropriate size
r_len = r_len ? r_len : MAX_RESPONSE_LEN;
buf = new char[r_len];
// Clear out the buffer
memset(buf, 0, r_len);
myReadLine(buf, r_len - 1);
// This is really a funky crash waiting to happen if something isn't
// null terminated.
recv_len = strlen(buf);
/*
* From rfc1939:
*
* Responses in the POP3 consist of a status indicator and a keyword
* possibly followed by additional information. All responses are
* terminated by a CRLF pair. Responses may be up to 512 characters
* long, including the terminating CRLF. There are currently two status
* indicators: positive ("+OK") and negative ("-ERR"). Servers MUST
* send the "+OK" and "-ERR" in upper case.
*/
if (strncmp(buf, "+OK", 3) == 0) {
if (r_buf && r_len) {
memcpy(r_buf, (buf[3] == ' ' ? buf + 4 : buf + 3),
QMIN(r_len, (buf[3] == ' ' ? recv_len - 4 : recv_len - 3)));
}
delete[]buf;
return Ok;
} else if (strncmp(buf, "-ERR", 4) == 0) {
if (r_buf && r_len) {
memcpy(r_buf, (buf[4] == ' ' ? buf + 5 : buf + 4),
QMIN(r_len, (buf[4] == ' ' ? recv_len - 5 : recv_len - 4)));
}
TQString command = TQString::fromLatin1(cmd);
TQString serverMsg = TQString::fromLatin1(buf).mid(5).stripWhiteSpace();
if (command.left(4) == "PASS") {
command = i18n("PASS <your password>");
}
m_sError = i18n("The server said: \"%1\"").arg(serverMsg);
delete[]buf;
return Err;
} else if (strncmp(buf, "+ ", 2) == 0) {
if (r_buf && r_len) {
memcpy(r_buf, buf + 2, QMIN(r_len, recv_len - 4));
r_buf[QMIN(r_len - 1, recv_len - 4)] = '\0';
}
delete[]buf;
return Cont;
} else {
POP3_DEBUG << "Invalid POP3 response received!" << endl;
if (r_buf && r_len) {
memcpy(r_buf, buf, QMIN(r_len, recv_len));
}
if (!buf || !*buf) {
m_sError = i18n("The server terminated the connection.");
} else {
m_sError = i18n("Invalid response from server:\n\"%1\"").arg(buf);
}
delete[]buf;
return Invalid;
}
}
bool POP3Protocol::sendCommand(const char *cmd)
{
/*
* From rfc1939:
*
* Commands in the POP3 consist of a case-insensitive keyword, possibly
* followed by one or more arguments. All commands are terminated by a
* CRLF pair. Keywords and arguments consist of printable ASCII
* characters. Keywords and arguments are each separated by a single
* SPACE character. Keywords are three or four characters long. Each
* argument may be up to 40 characters long.
*/
if (!isConnectionValid()) return false;
char *cmdrn = new char[strlen(cmd) + 3];
sprintf(cmdrn, "%s\r\n", (cmd) ? cmd : "");
if (write(cmdrn, strlen(cmdrn)) != static_cast < ssize_t >
(strlen(cmdrn))) {
m_sError = i18n("Could not send to server.\n");
delete[]cmdrn;
return false;
}
delete[]cmdrn;
return true;
}
POP3Protocol::Resp POP3Protocol::command(const char *cmd, char *recv_buf,
unsigned int len)
{
sendCommand(cmd);
return getResponse(recv_buf, len, cmd);
}
void POP3Protocol::openConnection()
{
m_try_apop = !hasMetaData("auth") || metaData("auth") == "APOP";
m_try_sasl = !hasMetaData("auth") || metaData("auth") == "SASL";
if (!pop3_open()) {
POP3_DEBUG << "pop3_open failed" << endl;
} else {
connected();
}
}
void POP3Protocol::closeConnection()
{
// If the file pointer exists, we can assume the socket is valid,
// and to make sure that the server doesn't magically undo any of
// our deletions and so-on, we should send a QUIT and wait for a
// response. We don't care if it's positive or negative. Also
// flush out any semblance of a persistant connection, i.e.: the
// old username and password are now invalid.
if (!opened) {
return;
}
command("QUIT");
closeDescriptor();
readBufferLen = 0;
m_sOldUser = m_sOldPass = m_sOldServer = "";
opened = false;
}
int POP3Protocol::loginAPOP( char *challenge, KIO::AuthInfo &ai )
{
char buf[512];
TQString apop_string = TQString::fromLatin1("APOP ");
if (m_sUser.isEmpty() || m_sPass.isEmpty()) {
// Prompt for usernames
if (!openPassDlg(ai)) {
error(ERR_ABORTED, i18n("No authentication details supplied."));
closeConnection();
return -1;
} else {
m_sUser = ai.username;
m_sPass = ai.password;
}
}
m_sOldUser = m_sUser;
m_sOldPass = m_sPass;
apop_string.append(m_sUser);
memset(buf, 0, sizeof(buf));
KMD5 ctx;
POP3_DEBUG << "APOP challenge: " << challenge << endl;
// Generate digest
ctx.update(challenge, strlen(challenge));
ctx.update(m_sPass.latin1() );
// Genenerate APOP command
apop_string.append(" ");
apop_string.append(ctx.hexDigest());
if (command(apop_string.local8Bit(), buf, sizeof(buf)) == Ok) {
return 0;
}
POP3_DEBUG << "Couldn't login via APOP. Falling back to USER/PASS" <<
endl;
closeConnection();
if (metaData("auth") == "APOP") {
error(ERR_COULD_NOT_LOGIN,
i18n
("Login via APOP failed. The server %1 may not support APOP, although it claims to support it, or the password may be wrong.\n\n%2").
arg(m_sServer).
arg(m_sError));
return -1;
}
return 1;
}
bool POP3Protocol::saslInteract( void *in, AuthInfo &ai )
{
#ifdef HAVE_LIBSASL2
POP3_DEBUG << "sasl_interact" << endl;
sasl_interact_t *interact = ( sasl_interact_t * ) in;
//some mechanisms do not require username && pass, so don'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 (m_sUser.isEmpty() || m_sPass.isEmpty()) {
if (!openPassDlg(ai)) {
error(ERR_ABORTED, i18n("No authentication details supplied."));
return false;
}
m_sUser = ai.username;
m_sPass = ai.password;
}
break;
}
}
interact = ( sasl_interact_t * ) in;
while( interact->id != SASL_CB_LIST_END ) {
POP3_DEBUG << "SASL_INTERACT id: " << interact->id << endl;
switch( interact->id ) {
case SASL_CB_USER:
case SASL_CB_AUTHNAME:
POP3_DEBUG << "SASL_CB_[USER|AUTHNAME]: " << m_sUser << endl;
interact->result = strdup( m_sUser.utf8() );
interact->len = strlen( (const char *) interact->result );
break;
case SASL_CB_PASS:
POP3_DEBUG << "SASL_CB_PASS: [hidden] " << endl;
interact->result = strdup( m_sPass.utf8() );
interact->len = strlen( (const char *) interact->result );
break;
default:
interact->result = NULL; interact->len = 0;
break;
}
interact++;
}
return true;
#else
return false;
#endif
}
#define SASLERROR closeConnection(); \
error(ERR_COULD_NOT_AUTHENTICATE, i18n("An error occured during authentication: %1").arg \
( TQString::fromUtf8( sasl_errdetail( conn ) ))); \
int POP3Protocol::loginSASL( KIO::AuthInfo &ai )
{
#ifdef HAVE_LIBSASL2
char buf[512];
TQString sasl_buffer = TQString::fromLatin1("AUTH");
int result;
sasl_conn_t *conn = NULL;
sasl_interact_t *client_interact = NULL;
const char *out = NULL;
uint outlen;
const char *mechusing = NULL;
Resp resp;
result = sasl_client_new( "pop",
m_sServer.latin1(),
0, 0, callbacks, 0, &conn );
if ( result != SASL_OK ) {
POP3_DEBUG << "sasl_client_new failed with: " << result << endl;
SASLERROR
return false;
}
// We need to check what methods the server supports...
// This is based on RFC 1734's wisdom
if ( hasMetaData("sasl") || command(sasl_buffer.local8Bit()) == Ok ) {
TQStringList sasl_list;
if (hasMetaData("sasl")) {
sasl_list.append(metaData("sasl").latin1());
} else
while (true /* !AtEOF() */ ) {
memset(buf, 0, sizeof(buf));
myReadLine(buf, sizeof(buf) - 1);
// HACK: This assumes fread stops at the first \n and not \r
if (strcmp(buf, ".\r\n") == 0) {
break; // End of data
}
// sanders, changed -2 to -1 below
buf[strlen(buf) - 2] = '\0';
sasl_list.append(buf);
}
do {
result = sasl_client_start(conn, sasl_list.join(" ").latin1(),
&client_interact, &out, &outlen, &mechusing);
if (result == SASL_INTERACT)
if ( !saslInteract( client_interact, ai ) ) {
closeConnection();
sasl_dispose( &conn );
return -1;
};
} while ( result == SASL_INTERACT );
if ( result != SASL_CONTINUE && result != SASL_OK ) {
POP3_DEBUG << "sasl_client_start failed with: " << result << endl;
SASLERROR
sasl_dispose( &conn );
return -1;
}
POP3_DEBUG << "Preferred authentication method is " << mechusing << "." << endl;
TQByteArray challenge, tmp;
TQString firstCommand = "AUTH " + TQString::fromLatin1( mechusing );
challenge.setRawData( out, outlen );
KCodecs::base64Encode( challenge, tmp );
challenge.resetRawData( out, outlen );
if ( !tmp.isEmpty() ) {
firstCommand += " ";
firstCommand += TQString::fromLatin1( tmp.data(), tmp.size() );
}
challenge.resize( 2049 );
resp = command( firstCommand.latin1(), challenge.data(), 2049 );
while( resp == Cont ) {
challenge.resize(challenge.find(0));
// POP3_DEBUG << "S: " << TQCString(challenge.data(),challenge.size()+1) << endl;
KCodecs::base64Decode( challenge, tmp );
do {
result = sasl_client_step(conn, tmp.isEmpty() ? 0 : tmp.data(),
tmp.size(),
&client_interact,
&out, &outlen);
if (result == SASL_INTERACT)
if ( !saslInteract( client_interact, ai ) ) {
closeConnection();
sasl_dispose( &conn );
return -1;
};
} while ( result == SASL_INTERACT );
if ( result != SASL_CONTINUE && result != SASL_OK ) {
POP3_DEBUG << "sasl_client_step failed with: " << result << endl;
SASLERROR
sasl_dispose( &conn );
return -1;
}
challenge.setRawData( out, outlen );
KCodecs::base64Encode( challenge, tmp );
challenge.resetRawData( out, outlen );
// POP3_DEBUG << "C: " << TQCString(tmp.data(),tmp.size()+1) << endl;
tmp.resize(tmp.size()+1);
tmp[tmp.size()-1] = '\0';
challenge.resize(2049);
resp = command( tmp.data(), challenge.data(), 2049 );
}
sasl_dispose( &conn );
if ( resp == Ok ) {
POP3_DEBUG << "SASL authenticated" << endl;
m_sOldUser = m_sUser;
m_sOldPass = m_sPass;
return 0;
}
if (metaData("auth") == "SASL") {
closeConnection();
error(ERR_COULD_NOT_LOGIN,
i18n
("Login via SASL (%1) failed. The server may not support %2, or the password may be wrong.\n\n%3").
arg(mechusing).arg(mechusing).arg(m_sError));
return -1;
}
}
if (metaData("auth") == "SASL") {
closeConnection();
error(ERR_COULD_NOT_LOGIN,
i18n("Your POP3 server does not support SASL.\n"
"Choose a different authentication method."));
return -1;
}
return 1;
#else
if (metaData("auth") == "SASL") {
closeConnection();
error(ERR_COULD_NOT_LOGIN, i18n("SASL authentication is not compiled into kio_pop3."));
return -1;
}
return 1; //if SASL not explicitly required, try another method (USER/PASS)
#endif
}
bool POP3Protocol::loginPASS( KIO::AuthInfo &ai )
{
char buf[512];
if (m_sUser.isEmpty() || m_sPass.isEmpty()) {
// Prompt for usernames
if (!openPassDlg(ai)) {
error(ERR_ABORTED, i18n("No authentication details supplied."));
closeConnection();
return false;
} else {
m_sUser = ai.username;
m_sPass = ai.password;
}
}
m_sOldUser = m_sUser;
m_sOldPass = m_sPass;
TQString one_string = TQString::fromLatin1("USER ");
one_string.append( m_sUser );
if ( command(one_string.local8Bit(), buf, sizeof(buf)) != Ok ) {
POP3_DEBUG << "Couldn't login. Bad username Sorry" << endl;
m_sError =
i18n("Could not login to %1.\n\n").arg(m_sServer) + m_sError;
error(ERR_COULD_NOT_LOGIN, m_sError);
closeConnection();
return false;
}
one_string = TQString::fromLatin1("PASS ");
one_string.append(m_sPass);
if ( command(one_string.local8Bit(), buf, sizeof(buf)) != Ok ) {
POP3_DEBUG << "Couldn't login. Bad password Sorry." << endl;
m_sError =
i18n
("Could not login to %1. The password may be wrong.\n\n%2").
arg(m_sServer).arg(m_sError);
error(ERR_COULD_NOT_LOGIN, m_sError);
closeConnection();
return false;
}
POP3_DEBUG << "USER/PASS login succeeded" << endl;
return true;
}
bool POP3Protocol::pop3_open()
{
POP3_DEBUG << "pop3_open()" << endl;
char *greeting_buf;
if ((m_iOldPort == port(m_iPort)) && (m_sOldServer == m_sServer) &&
(m_sOldUser == m_sUser) && (m_sOldPass == m_sPass)) {
POP3_DEBUG << "Reusing old connection" << endl;
return true;
}
do {
closeConnection();
if (!connectToHost(m_sServer.ascii(), m_iPort)) {
// error(ERR_COULD_NOT_CONNECT, m_sServer);
// ConnectToHost has already send an error message.
return false;
}
opened = true;
greeting_buf = new char[GREETING_BUF_LEN];
memset(greeting_buf, 0, GREETING_BUF_LEN);
// If the server doesn't respond with a greeting
if (getResponse(greeting_buf, GREETING_BUF_LEN, "") != Ok) {
m_sError =
i18n("Could not login to %1.\n\n").arg(m_sServer) +
((!greeting_buf
|| !*greeting_buf) ?
i18n("The server terminated the connection immediately.") :
i18n("Server does not respond properly:\n%1\n").
arg(greeting_buf));
error(ERR_COULD_NOT_LOGIN, m_sError);
delete[]greeting_buf;
closeConnection();
return false; // we've got major problems, and possibly the
// wrong port
}
TQCString greeting(greeting_buf);
delete[]greeting_buf;
if (greeting.length() > 0) {
greeting.truncate(greeting.length() - 2);
}
// Does the server support APOP?
TQString apop_cmd;
TQRegExp re("<[A-Za-z0-9\\.\\-_]+@[A-Za-z0-9\\.\\-_]+>$", false);
POP3_DEBUG << "greeting: " << greeting << endl;
int apop_pos = greeting.find(re);
supports_apop = (bool) (apop_pos != -1);
if (metaData("nologin") == "on")
return true;
if (metaData("auth") == "APOP" && !supports_apop) {
error(ERR_COULD_NOT_LOGIN,
i18n("Your POP3 server does not support APOP.\n"
"Choose a different authentication method."));
closeConnection();
return false;
}
m_iOldPort = m_iPort;
m_sOldServer = m_sServer;
// Try to go into TLS mode
if ((metaData("tls") == "on" || (canUseTLS() &&
metaData("tls") != "off"))
&& command("STLS") == Ok ) {
int tlsrc = startTLS();
if (tlsrc == 1) {
POP3_DEBUG << "TLS mode has been enabled." << endl;
} else {
if (tlsrc != -3) {
POP3_DEBUG << "TLS mode setup has failed. Aborting." << endl;
error(ERR_COULD_NOT_CONNECT,
i18n("Your POP3 server claims to "
"support TLS but negotiation "
"was unsuccessful. You can "
"disable TLS in KDE using the "
"crypto settings module."));
}
closeConnection();
return false;
}
} else if (metaData("tls") == "on") {
error(ERR_COULD_NOT_CONNECT,
i18n("Your POP3 server does not support TLS. Disable "
"TLS, if you want to connect without encryption."));
closeConnection();
return false;
}
KIO::AuthInfo authInfo;
authInfo.username = m_sUser;
authInfo.password = m_sPass;
authInfo.prompt = i18n("Username and password for your POP3 account:");
if ( supports_apop && m_try_apop ) {
POP3_DEBUG << "Trying APOP" << endl;
int retval = loginAPOP( greeting.data() + apop_pos, authInfo );
switch ( retval ) {
case 0: return true;
case -1: return false;
default:
m_try_apop = false;
}
} else if ( m_try_sasl ) {
POP3_DEBUG << "Trying SASL" << endl;
int retval = loginSASL( authInfo );
switch ( retval ) {
case 0: return true;
case -1: return false;
default:
m_try_sasl = false;
}
} else {
// Fall back to conventional USER/PASS scheme
POP3_DEBUG << "Trying USER/PASS" << endl;
return loginPASS( authInfo );
}
} while ( true );
}
size_t POP3Protocol::realGetSize(unsigned int msg_num)
{
char *buf;
TQCString cmd;
size_t ret = 0;
buf = new char[MAX_RESPONSE_LEN];
memset(buf, 0, MAX_RESPONSE_LEN);
cmd.sprintf("LIST %u", msg_num);
if ( command(cmd.data(), buf, MAX_RESPONSE_LEN) != Ok ) {
delete[]buf;
return 0;
} else {
cmd = buf;
cmd.remove(0, cmd.find(" "));
ret = cmd.toLong();
}
delete[]buf;
return ret;
}
void POP3Protocol::special(const TQByteArray & aData)
{
TQString result;
char buf[MAX_PACKET_LEN];
TQDataStream stream(aData, IO_ReadOnly);
int tmp;
stream >> tmp;
if (tmp != 'c')
return;
for (int i = 0; i < 2; i++) {
TQCString cmd = (i) ? "AUTH" : "CAPA";
if ( command(cmd) != Ok )
continue;
while (true) {
myReadLine(buf, MAX_PACKET_LEN - 1);
if (qstrcmp(buf, ".\r\n") == 0)
break;
result += " " + TQString(buf).left(strlen(buf) - 2)
.replace(" ", "-");
}
}
if (supports_apop)
result += " APOP";
result = result.mid(1);
infoMessage(result);
finished();
}
void POP3Protocol::get(const KURL & url)
{
// List of supported commands
//
// URI Command Result
// pop3://user:pass@domain/index LIST List message sizes
// pop3://user:pass@domain/uidl UIDL List message UIDs
// pop3://user:pass@domain/remove/#1 DELE #1 Mark a message for deletion
// pop3://user:pass@domain/download/#1 RETR #1 Get message header and body
// pop3://user:pass@domain/list/#1 LIST #1 Get size of a message
// pop3://user:pass@domain/uid/#1 UIDL #1 Get UID of a message
// pop3://user:pass@domain/commit QUIT Delete marked messages
// pop3://user:pass@domain/headers/#1 TOP #1 Get header of message
//
// Notes:
// Sizes are in bytes.
// No support for the STAT command has been implemented.
// commit closes the connection to the server after issuing the QUIT command.
bool ok = true;
char buf[MAX_PACKET_LEN];
char destbuf[MAX_PACKET_LEN];
TQByteArray array;
TQString cmd, path = url.path();
int maxCommands = (metaData("pipelining") == "on") ? MAX_COMMANDS : 1;
if (path.at(0) == '/')
path.remove(0, 1);
if (path.isEmpty()) {
POP3_DEBUG << "We should be a dir!!" << endl;
error(ERR_IS_DIRECTORY, url.url());
m_cmd = CMD_NONE;
return;
}
if (((path.find('/') == -1) && (path != "index") && (path != "uidl")
&& (path != "commit"))) {
error(ERR_MALFORMED_URL, url.url());
m_cmd = CMD_NONE;
return;
}
cmd = path.left(path.find('/'));
path.remove(0, path.find('/') + 1);
if (!pop3_open()) {
POP3_DEBUG << "pop3_open failed" << endl;
error(ERR_COULD_NOT_CONNECT, m_sServer);
return;
}
if ((cmd == "index") || (cmd == "uidl")) {
unsigned long size = 0;
bool result;
if (cmd == "index") {
result = ( command("LIST") == Ok );
} else {
result = ( command("UIDL") == Ok );
}
/*
LIST
+OK Mailbox scan listing follows
1 2979
2 1348
.
*/
if (result) {
while (true /* !AtEOF() */ ) {
memset(buf, 0, sizeof(buf));
myReadLine(buf, sizeof(buf) - 1);
// HACK: This assumes fread stops at the first \n and not \r
if (strcmp(buf, ".\r\n") == 0) {
break; // End of data
}
// sanders, changed -2 to -1 below
int bufStrLen = strlen(buf);
buf[bufStrLen - 2] = '\0';
size += bufStrLen;
array.setRawData(buf, bufStrLen);
data(array);
array.resetRawData(buf, bufStrLen);
totalSize(size);
}
}
POP3_DEBUG << "Finishing up list" << endl;
data(TQByteArray());
finished();
} else if (cmd == "remove") {
TQStringList waitingCommands = TQStringList::split(',', path);
int activeCommands = 0;
TQStringList::Iterator it = waitingCommands.begin();
while (it != waitingCommands.end() || activeCommands > 0) {
while (activeCommands < maxCommands && it != waitingCommands.end()) {
sendCommand(("DELE " + *it).latin1());
activeCommands++;
it++;
}
getResponse(buf, sizeof(buf) - 1, "");
activeCommands--;
}
finished();
m_cmd = CMD_NONE;
} else if (cmd == "download" || cmd == "headers") {
TQStringList waitingCommands = TQStringList::split(',', path);
bool noProgress = (metaData("progress") == "off"
|| waitingCommands.count() > 1);
int p_size = 0;
unsigned int msg_len = 0;
TQString list_cmd("LIST ");
list_cmd += path;
memset(buf, 0, sizeof(buf));
if ( !noProgress ) {
if ( command(list_cmd.ascii(), buf, sizeof(buf) - 1) == Ok ) {
list_cmd = buf;
// We need a space, otherwise we got an invalid reply
if (!list_cmd.find(" ")) {
POP3_DEBUG << "List command needs a space? " << list_cmd << endl;
closeConnection();
error(ERR_INTERNAL, i18n("Unexpected response from POP3 server."));
return;
}
list_cmd.remove(0, list_cmd.find(" ") + 1);
msg_len = list_cmd.toUInt(&ok);
if (!ok) {
POP3_DEBUG << "LIST command needs to return a number? :" <<
list_cmd << ":" << endl;
closeConnection();
error(ERR_INTERNAL, i18n("Unexpected response from POP3 server."));
return;
}
} else {
closeConnection();
error(ERR_COULD_NOT_READ, m_sError);
return;
}
}
int activeCommands = 0;
TQStringList::Iterator it = waitingCommands.begin();
while (it != waitingCommands.end() || activeCommands > 0) {
while (activeCommands < maxCommands && it != waitingCommands.end()) {
sendCommand(((cmd ==
"headers") ? "TOP " + *it + " 0" : "RETR " +
*it).latin1());
activeCommands++;
it++;
}
if ( getResponse(buf, sizeof(buf) - 1, "") == Ok ) {
activeCommands--;
mimeType("message/rfc822");
totalSize(msg_len);
memset(buf, 0, sizeof(buf));
char ending = '\n';
bool endOfMail = false;
bool eat = false;
while (true /* !AtEOF() */ ) {
ssize_t readlen = myRead(buf, sizeof(buf) - 1);
if (readlen <= 0) {
if (isConnectionValid())
error(ERR_SERVER_TIMEOUT, m_sServer);
else
error(ERR_CONNECTION_BROKEN, m_sServer);
closeConnection();
return;
}
if (ending == '.' && readlen > 1 && buf[0] == '\r'
&& buf[1] == '\n') {
readBufferLen = readlen - 2;
memcpy(readBuffer, &buf[2], readBufferLen);
break;
}
bool newline = (ending == '\n');
if (buf[readlen - 1] == '\n')
ending = '\n';
else if (buf[readlen - 1] == '.'
&& ((readlen > 1) ? buf[readlen - 2] == '\n' : ending ==
'\n'))
ending = '.';
else
ending = ' ';
char *buf1 = buf, *buf2 = destbuf;
// ".." at start of a line means only "."
// "." means end of data
for (ssize_t i = 0; i < readlen; i++) {
if (*buf1 == '\r' && eat) {
endOfMail = true;
if (i == readlen - 1 /* && !AtEOF() */ )
myRead(buf, 1);
else if (i < readlen - 2) {
readBufferLen = readlen - i - 2;
memcpy(readBuffer, &buf[i + 2], readBufferLen);
}
break;
} else if (*buf1 == '\n') {
newline = true;
eat = false;
} else if (*buf1 == '.' && newline) {
newline = false;
eat = true;
} else {
newline = false;
eat = false;
}
if (!eat) {
*buf2 = *buf1;
buf2++;
}
buf1++;
}
if (buf2 > destbuf) {
array.setRawData(destbuf, buf2 - destbuf);
data(array);
array.resetRawData(destbuf, buf2 - destbuf);
}
if (endOfMail)
break;
if (!noProgress) {
p_size += readlen;
processedSize(p_size);
}
}
infoMessage("message complete");
} else {
POP3_DEBUG << "Couldn't login. Bad RETR Sorry" << endl;
closeConnection();
error(ERR_COULD_NOT_READ, m_sError);
return;
}
}
POP3_DEBUG << "Finishing up" << endl;
data(TQByteArray());
finished();
} else if ((cmd == "uid") || (cmd == "list")) {
TQString qbuf;
(void) path.toInt(&ok);
if (!ok) {
return; // We fscking need a number!
}
if (cmd == "uid") {
path.prepend("UIDL ");
} else {
path.prepend("LIST ");
}
memset(buf, 0, sizeof(buf));
if ( command(path.ascii(), buf, sizeof(buf) - 1) == Ok ) {
const int len = strlen(buf);
mimeType("text/plain");
totalSize(len);
array.setRawData(buf, len);
data(array);
array.resetRawData(buf, len);
processedSize(len);
POP3_DEBUG << buf << endl;
POP3_DEBUG << "Finishing up uid" << endl;
data(TQByteArray());
finished();
} else {
closeConnection();
error(ERR_INTERNAL, i18n("Unexpected response from POP3 server."));
return;
}
} else if (cmd == "commit") {
POP3_DEBUG << "Issued QUIT" << endl;
closeConnection();
finished();
m_cmd = CMD_NONE;
return;
}
}
void POP3Protocol::listDir(const KURL &)
{
bool isINT;
int num_messages = 0;
char buf[MAX_RESPONSE_LEN];
TQCString q_buf;
// Try and open a connection
if (!pop3_open()) {
POP3_DEBUG << "pop3_open failed" << endl;
error(ERR_COULD_NOT_CONNECT, m_sServer);
return;
}
// Check how many messages we have. STAT is by law required to
// at least return +OK num_messages total_size
memset(buf, 0, MAX_RESPONSE_LEN);
if ( command("STAT", buf, MAX_RESPONSE_LEN) != Ok ) {
error(ERR_INTERNAL, "??");
return;
}
POP3_DEBUG << "The stat buf is :" << buf << ":" << endl;
q_buf = buf;
if (q_buf.find(" ") == -1) {
error(ERR_INTERNAL,
"Invalid POP3 response, we should have at least one space!");
closeConnection();
return;
}
q_buf.remove(q_buf.find(" "), q_buf.length());
num_messages = q_buf.toUInt(&isINT);
if (!isINT) {
error(ERR_INTERNAL, "Invalid POP3 STAT response!");
closeConnection();
return;
}
UDSEntry entry;
UDSAtom atom;
TQString fname;
for (int i = 0; i < num_messages; i++) {
fname = "Message %1";
atom.m_uds = UDS_NAME;
atom.m_long = 0;
atom.m_str = fname.arg(i + 1);
entry.append(atom);
atom.m_uds = UDS_MIME_TYPE;
atom.m_long = 0;
atom.m_str = "text/plain";
entry.append(atom);
POP3_DEBUG << "Mimetype is " << atom.m_str.ascii() << endl;
atom.m_uds = UDS_URL;
KURL uds_url;
if (m_bIsSSL) {
uds_url.setProtocol("pop3s");
} else {
uds_url.setProtocol("pop3");
}
uds_url.setUser(m_sUser);
uds_url.setPass(m_sPass);
uds_url.setHost(m_sServer);
uds_url.setPath(TQString::fromLatin1("/download/%1").arg(i + 1));
atom.m_str = uds_url.url();
atom.m_long = 0;
entry.append(atom);
atom.m_uds = UDS_FILE_TYPE;
atom.m_str = "";
atom.m_long = S_IFREG;
entry.append(atom);
atom.m_uds = UDS_SIZE;
atom.m_str = "";
atom.m_long = realGetSize(i + 1);
entry.append(atom);
atom.m_uds = KIO::UDS_ACCESS;
atom.m_long = S_IRUSR | S_IXUSR | S_IWUSR;
entry.append (atom);
listEntry(entry, false);
entry.clear();
}
listEntry(entry, true); // ready
finished();
}
void POP3Protocol::stat(const KURL & url)
{
TQString _path = url.path();
if (_path.at(0) == '/')
_path.remove(0, 1);
UDSEntry entry;
UDSAtom atom;
atom.m_uds = UDS_NAME;
atom.m_str = _path;
entry.append(atom);
atom.m_uds = UDS_FILE_TYPE;
atom.m_str = "";
atom.m_long = S_IFREG;
entry.append(atom);
atom.m_uds = UDS_MIME_TYPE;
atom.m_str = "message/rfc822";
entry.append(atom);
// TODO: maybe get the size of the message?
statEntry(entry);
finished();
}
void POP3Protocol::del(const KURL & url, bool /*isfile */ )
{
TQString invalidURI = TQString::null;
bool isInt;
if (!pop3_open()) {
POP3_DEBUG << "pop3_open failed" << endl;
error(ERR_COULD_NOT_CONNECT, m_sServer);
return;
}
TQString _path = url.path();
if (_path.at(0) == '/') {
_path.remove(0, 1);
}
_path.toUInt(&isInt);
if (!isInt) {
invalidURI = _path;
} else {
_path.prepend("DELE ");
if ( command(_path.ascii()) != Ok ) {
invalidURI = _path;
}
}
POP3_DEBUG << "POP3Protocol::del " << _path << endl;
finished();
}