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/***************************************************************************
* Copyright (C) 2012 by Timothy Pearson *
* kb9vqf@pearsoncomputing.net *
* *
* 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., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
***************************************************************************/
#include <stdlib.h>
#include <unistd.h>
#include <tqapplication.h>
#include <tqbuffer.h>
#include <tqeventloop.h>
#include <tqtimer.h>
#include <sasl.h>
#include <saslplug.h>
#include <saslutil.h>
#include <klocale.h>
#include "tdekrbserversocket.h"
#define NET_SEC_BUF_SIZE (2048)
// When control comes back from processEvents() my object may be completely gone! This attempts to mitigate the risk
#define SAFELY_PROCESS_EVENTS if (!m_canary) { \
m_canary = new bool; \
*m_canary = false; \
} \
bool* canary = m_canary; \
tqApp->eventLoop()->processEvents(TQEventLoop::ExcludeUserInput); \
if (*canary == true) { \
delete canary; \
return -1; \
} \
delete m_canary; \
m_canary = NULL;
/* exception handling */
struct exit_exception {
int c;
exit_exception(int c):c(c) { }
};
class SASLDataPrivate
{
public:
sasl_callback_t m_callbacks[N_CALLBACKS];
sasl_conn_t *m_krbConnection;
};
static const char * safe_sasl_errdetail(sasl_conn_t *conn) {
const char * str = sasl_errdetail(conn);
if (str) {
return str;
}
else {
return "unknown error";
}
}
static int logSASLMessages(void *context __attribute__((unused)), int priority, const char *message) {
const char *label;
if (!message) {
return SASL_BADPARAM;
}
switch (priority) {
case SASL_LOG_ERR:
label = "Error";
break;
case SASL_LOG_NOTE:
label = "Info";
break;
default:
label = "Other";
break;
}
printf("[SASL %s] %s\n\r", label, message);
return SASL_OK;
}
TDEKerberosServerSocket::TDEKerberosServerSocket(TQObject *parent, const char *name) : TQSocket(parent, name), m_kerberosRequested(false), m_criticalSection(0), m_bufferLength(0), m_krbInitRunning(false), m_krbInitState(-1), m_dataTimeout(-1), kerberosInitLoopTimer(NULL), m_canary(NULL), m_negotiatedMaxBufferSize(NET_SEC_BUF_SIZE) {
saslData = new SASLDataPrivate;
saslData->m_krbConnection = NULL;
m_buffer = new TQBuffer();
m_buffer->open(IO_ReadWrite|IO_Truncate);
}
TDEKerberosServerSocket::~TDEKerberosServerSocket() {
if (m_canary) {
*m_canary = true;
}
if (kerberosInitLoopTimer) {
kerberosInitLoopTimer->stop();
delete kerberosInitLoopTimer;
kerberosInitLoopTimer = NULL;
}
m_buffer->close();
delete m_buffer;
delete saslData;
}
void TDEKerberosServerSocket::setDataTimeout(int timeoutms) {
m_dataTimeout = timeoutms;
}
bool TDEKerberosServerSocket::open(int mode) {
setStatusMessage(i18n("Opening socket"));
bool ret = TQSocket::open(mode);
if (m_kerberosRequested) {
initializeKerberosInterface();
}
return ret;
}
void TDEKerberosServerSocket::close() {
TQSocket::close();
setStatusMessage(i18n("Socket closed"));
}
void TDEKerberosServerSocket::flush() {
if (m_kerberosRequested) {
// FIXME
// If a write buffer is implemented, it will need to be flushed before the following call is made
TQSocket::flush();
}
else {
TQSocket::flush();
}
}
TQIODevice::Offset TDEKerberosServerSocket::size() const {
TQIODevice::Offset ret;
if (m_kerberosRequested) {
ret = m_bufferLength;
}
else {
ret = TQSocket::size();
}
return ret;
}
TQIODevice::Offset TDEKerberosServerSocket::at() const {
return TQSocket::at();
}
bool TDEKerberosServerSocket::at(TQIODevice::Offset off) {
long i;
bool ret;
if (m_kerberosRequested) {
if (off > 0) {
// Prevent overflow
if (off > (unsigned long)m_bufferLength) {
off = m_bufferLength;
}
// Remove the specified bytes from the buffer
m_bufferLength = m_bufferLength-off;
TQByteArray ba = m_buffer->buffer();
for (i=0; i<m_bufferLength;i++) {
ba[i] = ba[i+off];
}
if (m_bufferLength < 1) {
// Clear the buffer from memory
m_buffer->close();
m_buffer->open(IO_ReadWrite|IO_Truncate);
}
}
return true;
}
else {
ret = TQSocket::at(off);
}
return ret;
}
bool TDEKerberosServerSocket::atEnd() const {
bool ret;
if (m_kerberosRequested) {
ret = TQSocket::atEnd();
}
else {
ret = TQSocket::atEnd();
}
return ret;
}
TQ_ULONG TDEKerberosServerSocket::bytesAvailable() const {
bool ret;
if (kerberosStatus() == KerberosInUse) {
ret = m_bufferLength;
}
else {
ret = TQSocket::bytesAvailable();
}
return ret;
}
int TDEKerberosServerSocket::processPendingData() {
if (kerberosStatus() == KerberosInUse) {
int reclen;
int wrlen;
if (m_bufferLength <= 0) {
char* buf = (char*)malloc(m_negotiatedMaxBufferSize);
reclen = receiveEncryptedData(buf, m_negotiatedMaxBufferSize);
if (reclen < 0) {
free(buf);
return -1;
}
if (reclen > 0) {
m_buffer->at(m_bufferLength);
wrlen = m_buffer->writeBlock(buf, reclen);
if (wrlen > 0) {
m_bufferLength = m_bufferLength + wrlen;
emit(newDataReceived());
}
}
free(buf);
}
}
return 0;
}
int TDEKerberosServerSocket::setUsingKerberos(bool krbactive) {
int ret = 0;
if (m_serviceName == "") {
printf("[ERROR] No service name set!\n\r"); fflush(stdout);
return -1;
}
if (krbactive) {
m_kerberosRequested = true;
if ((!saslData->m_krbConnection) && (state() == TQSocket::Connected)) {
ret = initializeKerberosInterface();
}
}
else {
m_kerberosRequested = false;
if (saslData->m_krbConnection) {
freeKerberosConnection();
}
}
return ret;
}
void TDEKerberosServerSocket::setServiceName(TQString name) {
m_serviceName = name;
}
void TDEKerberosServerSocket::setServerFQDN(TQString name) {
m_serverFQDN = name;
}
TQ_LONG TDEKerberosServerSocket::readBlock(char *data, TQ_ULONG maxlen) {
long i;
TQ_LONG ret;
if (m_kerberosRequested) {
int reclen;
int wrlen;
if (m_bufferLength <= 0) {
char* buf = (char*)malloc(m_negotiatedMaxBufferSize);
reclen = receiveEncryptedData(buf, m_negotiatedMaxBufferSize);
if (reclen < 0) {
free(buf);
return -1;
}
if (reclen > 0) {
m_buffer->at(m_bufferLength);
wrlen = m_buffer->writeBlock(buf, reclen);
if (wrlen > 0) {
m_bufferLength = m_bufferLength + wrlen;
emit(newDataReceived());
}
}
free(buf);
}
if (maxlen > (unsigned int)m_bufferLength) {
maxlen = m_bufferLength;
}
m_buffer->at(0);
ret = m_buffer->readBlock(data, maxlen);
if (ret > 0) {
// Remove the read bytes from the buffer
m_bufferLength = m_bufferLength-ret;
TQByteArray ba = m_buffer->buffer();
for (i=0; i<m_bufferLength;i++) {
ba[i] = ba[i+ret];
}
if (m_bufferLength < 1) {
// Clear the buffer from memory
m_buffer->close();
m_buffer->open(IO_ReadWrite|IO_Truncate);
}
}
}
else {
ret = TQSocket::readBlock(data, maxlen);
}
return ret;
}
TQ_LONG TDEKerberosServerSocket::writeBlock(const char *data, TQ_ULONG len) {
TQ_LONG ret;
if (m_kerberosRequested) {
ret = transmitEncryptedData(socket(), data, len);
}
else {
ret = TQSocket::writeBlock(data, len);
}
return ret;
}
TQ_LONG TDEKerberosServerSocket::readLine(char *data, TQ_ULONG maxlen) {
long i;
TQ_LONG ret;
if (m_kerberosRequested) {
int reclen;
int wrlen;
if (m_bufferLength <= 0) {
char* buf = (char*)malloc(m_negotiatedMaxBufferSize);
reclen = receiveEncryptedData(buf, m_negotiatedMaxBufferSize);
if (reclen < 0) {
free(buf);
return -1;
}
if (reclen > 0) {
m_buffer->at(m_bufferLength);
wrlen = m_buffer->writeBlock(buf, reclen);
if (wrlen > 0) {
m_bufferLength = m_bufferLength + wrlen;
emit(newDataReceived());
}
}
free(buf);
}
if (maxlen > (unsigned int)m_bufferLength) {
maxlen = m_bufferLength;
}
m_buffer->at(0);
ret = m_buffer->readLine(data, maxlen);
if (ret > 0) {
// Remove the read bytes from the buffer
m_bufferLength = m_bufferLength-ret;
TQByteArray ba = m_buffer->buffer();
for (i=0; i<m_bufferLength;i++) {
ba[i] = ba[i+ret];
}
if (m_bufferLength < 1) {
// Clear the buffer from memory
m_buffer->close();
m_buffer->open(IO_ReadWrite|IO_Truncate);
}
}
}
else {
ret = TQSocket::readLine(data, maxlen);
}
return ret;
}
TQString TDEKerberosServerSocket::readLine() {
long i;
TQString ret;
long maxlen;
if (m_kerberosRequested) {
int reclen;
int wrlen;
int readlen;
char* buf;
maxlen = m_negotiatedMaxBufferSize;
if (m_bufferLength <= 0) {
buf = (char*)malloc(m_negotiatedMaxBufferSize);
reclen = receiveEncryptedData(buf, m_negotiatedMaxBufferSize);
if (reclen < 0) {
free(buf);
return TQString::null;
}
if (reclen > 0) {
m_buffer->at(m_bufferLength);
wrlen = m_buffer->writeBlock(buf, reclen);
if (wrlen > 0) {
m_bufferLength = m_bufferLength + wrlen;
emit(newDataReceived());
}
}
free(buf);
}
if (maxlen > m_bufferLength) {
maxlen = m_bufferLength;
}
m_buffer->at(0);
buf = (char*)malloc(maxlen);
readlen = m_buffer->readLine(buf, maxlen);
if (readlen > 0) {
// Remove the read bytes from the buffer
m_bufferLength = m_bufferLength-readlen;
TQByteArray ba = m_buffer->buffer();
for (i=0; i<m_bufferLength;i++) {
ba[i] = ba[i+readlen];
}
if (m_bufferLength < 1) {
// Clear the buffer from memory
m_buffer->close();
m_buffer->open(IO_ReadWrite|IO_Truncate);
}
ret = TQString(buf);
}
else {
ret == TQString::null;
}
free(buf);
}
else {
ret = TQSocket::readLine();
}
return ret;
}
void TDEKerberosServerSocket::writeLine(TQString str) {
if (m_kerberosRequested) {
transmitEncryptedData(socket(), str.ascii(), str.length());
}
else {
TQSocket::writeBlock(str.ascii(), str.length());
}
}
void TDEKerberosServerSocket::freeKerberosConnection(void) {
if (saslData->m_krbConnection) {
sasl_dispose(&saslData->m_krbConnection);
}
saslData->m_krbConnection = 0;
}
void TDEKerberosServerSocket::sendSASLDataToNetwork(const char *buffer, unsigned length, int netfd) {
char *buf;
unsigned len, alloclen;
int result;
alloclen = ((length / 3) + 1) * 4 + 1;
buf = (char*)malloc(alloclen+1);
if (!buf) {
printf("[ERROR] Unable to malloc()!\n\r");
return;
}
result = sasl_encode64(buffer, length, buf, alloclen, &len);
if (result != SASL_OK) {
printf("[ERROR] Encoding data in base64 returned %s (%d)\n\r", sasl_errstring(result, NULL, NULL), result);
return;
}
len = strlen(buf);
buf[len] = '\n';
buf[len+1] = 0;
if (write(netfd, buf, len+1) < 0) {
// ERROR
}
free(buf);
}
int TDEKerberosServerSocket::getSASLDataFromNetwork(char *buf, int trunclen, bool shouldblock) {
m_criticalSection++;
try {
unsigned int len;
int result;
TQByteArray ba(2048);
if (!shouldblock) {
if ((!TQSocket::canReadLine()) || (state() != TQSocket::Connected)) {
return 0;
}
}
len = 0;
TQTimer dataTimeoutTimer;
if (m_dataTimeout > 0) {
dataTimeoutTimer.start(m_dataTimeout, TRUE);
}
while (dataTimeoutTimer.isActive() || (m_dataTimeout < 0)) {
if ((shouldblock) && (dataTimeoutTimer.isActive() || (m_dataTimeout < 0))) {
SAFELY_PROCESS_EVENTS
}
if (state() != TQSocket::Connected) {
m_criticalSection--;
return -1;
}
if (TQSocket::readBlock(ba.data()+len, 1) > 0) {
if (ba.data()[len] == '\n') {
ba.data()[len] = 0;
break;
}
if (ba.data()[len] != '\r') {
len++;
}
if (m_dataTimeout > 0) {
dataTimeoutTimer.stop();
dataTimeoutTimer.start(m_dataTimeout, TRUE);
}
}
else {
if (shouldblock) {
usleep(1000);
}
else {
break;
}
}
if (len >= (ba.size()-1)) {
ba.resize(ba.size()+2048);
}
}
len = strlen(ba.data());
result = sasl_decode64(ba.data(), strlen(ba.data()), buf, trunclen, &len);
if (result != SASL_OK) {
printf("[ERROR] Decoding data from base64 returned %s (%d)\n\r", sasl_errstring(result, NULL, NULL), result);
m_criticalSection--;
return -1;
}
buf[len] = '\0';
m_criticalSection--;
return len;
}
catch(exit_exception& e) {
m_criticalSection--;
return -1;
}
}
int TDEKerberosServerSocket::transmitEncryptedData(int fd, const char* readbuf, int cc) {
int result = 0;
unsigned int len;
const char *data;
long data_remaining;
long remnant_position;
TQTimer dataTimeoutTimer;
if (m_dataTimeout > 0) {
dataTimeoutTimer.start(m_dataTimeout, TRUE);
}
data_remaining = cc;
remnant_position = 0;
while ((data_remaining > 0) && (dataTimeoutTimer.isActive() || (m_dataTimeout < 0))) {
int data_to_write_len;
if (data_remaining > (m_negotiatedMaxBufferSize/2)) {
data_to_write_len = m_negotiatedMaxBufferSize/2;
}
else {
data_to_write_len = data_remaining;
}
result=sasl_encode(saslData->m_krbConnection, readbuf+remnant_position, data_to_write_len, &data, &len);
if (result != SASL_OK) {
printf("[ERROR] Encrypting data returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), result);
return -1;
}
sendSASLDataToNetwork(data, len, fd);
data_remaining = data_remaining - data_to_write_len;
remnant_position = remnant_position + data_to_write_len;
if ((data_remaining > 0) && (dataTimeoutTimer.isActive() || (m_dataTimeout < 0))) {
SAFELY_PROCESS_EVENTS
}
}
return 0;
}
int TDEKerberosServerSocket::receiveEncryptedData(char *buf, unsigned int trunclen, bool shouldblock) {
unsigned int recv_len;
const char *recv_data;
int result;
int len;
char *encbuf = (char*)malloc(m_negotiatedMaxBufferSize);
len = getSASLDataFromNetwork(encbuf, m_negotiatedMaxBufferSize, shouldblock);
if (len < 0) {
return -1;
}
if (len >= 0) {
result=sasl_decode(saslData->m_krbConnection, encbuf, len, &recv_data, &recv_len);
if (result != SASL_OK) {
free(encbuf);
printf("[ERROR] Decrypting data returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), result);
return -1;
}
if (recv_len > trunclen) {
recv_len = trunclen;
}
memcpy(buf, recv_data, recv_len);
}
free(encbuf);
return recv_len;
}
TDEKerberosServerSocket::KerberosStatus TDEKerberosServerSocket::kerberosStatus() const {
if (!m_kerberosRequested) {
return KerberosNotRequested;
}
if (m_krbInitRunning) {
return KerberosInitializing;
}
if (m_krbInitState < 0) {
return KerberosFailure;
}
return KerberosInUse;
}
bool TDEKerberosServerSocket::canReadData() {
return TQSocket::canReadLine();
}
void TDEKerberosServerSocket::setStatusMessage(TQString message) {
if (message != m_prevStatusMessage) {
emit(statusMessageUpdated(message));
m_prevStatusMessage = message;
}
}
void TDEKerberosServerSocket::continueKerberosInitialization() {
int slen;
char buf[NET_SEC_BUF_SIZE];
unsigned int len;
sasl_ssf_t *ssf;
if (m_krbInitRunning) {
switch (m_krbInitState) {
case 0:
if (state() == TQSocket::Connected) {
setStatusMessage(i18n("Waiting for client mechanism"));
if (canReadLine()) {
printf("[DEBUG] Waiting for client mechanism...\n\r");
slen = getSASLDataFromNetwork(buf, NET_SEC_BUF_SIZE);
if (slen < 0) {
m_krbInitState = -2;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
len = slen;
if (strlen(buf) < len) {
printf("[DEBUG] Initial response received\n\r");
// An initial response is present
m_krbInitData = buf + strlen(buf) + 1;
len = len - (unsigned) strlen(buf) - 1;
}
else {
m_krbInitData = NULL;
len = 0;
}
m_krbInitResult = sasl_server_start(saslData->m_krbConnection, buf, m_krbInitData, len, &m_krbInitData, &len);
if (m_krbInitResult != SASL_OK && m_krbInitResult != SASL_CONTINUE) {
printf("[ERROR] Starting SASL negotiation returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), m_krbInitResult);
freeKerberosConnection();
m_krbInitState = -1;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
m_krbInitState = 1;
}
}
else {
m_krbInitState = -3;
m_krbInitRunning = false;
}
break;
case 1:
if (state() == TQSocket::Connected) {
if (m_krbInitResult == SASL_CONTINUE) {
if (m_krbInitData) {
printf("[DEBUG] Sending response...\n\r");
sendSASLDataToNetwork(m_krbInitData, len, socket());
}
else {
printf("[ERROR] No data to send!\n\r");
freeKerberosConnection();
m_krbInitState = -1;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
m_krbInitState = 2;
}
else {
printf("[DEBUG] Negotiation complete\n\r");
m_krbInitState = 3;
}
}
else {
m_krbInitState = -3;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
break;
case 2:
if (state() == TQSocket::Connected) {
setStatusMessage(i18n("Waiting for client reply"));
if (canReadLine()) {
printf("[DEBUG] Waiting for client reply...\n\r");
slen = getSASLDataFromNetwork(buf, NET_SEC_BUF_SIZE);
if (slen < 0) {
m_krbInitState = -2;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
len = slen;
m_krbInitData = NULL;
m_krbInitResult = sasl_server_step(saslData->m_krbConnection, buf, len, &m_krbInitData, &len);
if (m_krbInitResult != SASL_OK && m_krbInitResult != SASL_CONTINUE) {
printf("[ERROR] Performing SASL negotiation returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), m_krbInitResult);
freeKerberosConnection();
m_krbInitState = -1;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
m_krbInitState = 1;
}
}
else {
m_krbInitState = -3;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
break;
case 3:
if (state() == TQSocket::Connected) {
if(m_krbInitServerLast && m_krbInitData) {
printf("[DEBUG] Additional information needed to be sent\n\r");
sendSASLDataToNetwork(m_krbInitData, len, socket());
}
m_krbInitResult = sasl_getprop(saslData->m_krbConnection, SASL_USERNAME, (const void **)&m_krbInitData);
if (m_krbInitResult != SASL_OK) {
printf("[WARNING] Unable to determine authenticated username!\n\r");
}
else {
m_authenticatedUserName = m_krbInitData ? m_krbInitData : "(NULL)";
printf("[DEBUG] Authenticated username: %s\n\r", m_authenticatedUserName.ascii());
}
m_krbInitResult = sasl_getprop(saslData->m_krbConnection, SASL_DEFUSERREALM, (const void **)&m_krbInitData);
if (m_krbInitResult != SASL_OK) {
printf("[WARNING] Unable to determine authenticated realm!\n\r");
}
else {
m_authenticatedRealmName = m_krbInitData ? m_krbInitData : "(NULL)";
printf("[DEBUG] Authenticated realm: %s\n\r", m_authenticatedRealmName.ascii());
}
m_krbInitResult = sasl_getprop(saslData->m_krbConnection, SASL_SSF, (const void **)&ssf);
if (m_krbInitResult != SASL_OK) {
printf("[WARNING] Unable to determine SSF!\n\r");
}
else {
printf("[DEBUG] Authenticated SSF: %d\n", *ssf);
}
m_krbInitResult = sasl_getprop(saslData->m_krbConnection, SASL_MAXOUTBUF, (const void **)&m_negotiatedMaxBufferSize);
if (m_krbInitResult != SASL_OK) {
printf("[WARNING] Unable to determine maximum buffer size!\n\r");
m_negotiatedMaxBufferSize = NET_SEC_BUF_SIZE;
}
else {
// For some reason m_negotiatedMaxBufferSize can be set negative under certain circumstances
// Prevent that from happening!
if (m_negotiatedMaxBufferSize < NET_SEC_BUF_SIZE) {
m_negotiatedMaxBufferSize = NET_SEC_BUF_SIZE;
}
printf("[DEBUG] Maximum buffer size: %d\n", m_negotiatedMaxBufferSize);
}
m_krbInitState = 4;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection established"));
return;
}
else {
m_krbInitState = -3;
m_krbInitRunning = false;
setStatusMessage(i18n("Kerberos connection failed"));
return;
}
break;
}
if (kerberosInitLoopTimer) kerberosInitLoopTimer->start(0, TRUE);
}
}
int TDEKerberosServerSocket::initializeKerberosInterface() {
if (state() != TQSocket::Connected) {
saslData->m_krbConnection = false;
return -1;
}
sasl_callback_t *callback;
m_krbInitResult = 0;
m_krbInitServerLast = 0;
sasl_security_properties_t secprops;
const char *ext_authid = NULL;
int count;
unsigned int len;
// FIXME
// Populate these fields!
char *iplocal = NULL;
char *ipremote = NULL;
char *localdomain = NULL;
char *userdomain = NULL;
callback = saslData->m_callbacks;
// log
callback->id = SASL_CB_LOG;
callback->proc = (sasl_callback_ft)&logSASLMessages;
callback->context = NULL;
++callback;
// end of callback list
callback->id = SASL_CB_LIST_END;
callback->proc = NULL;
callback->context = NULL;
++callback;
// Initialize default data structures
memset(&secprops, 0L, sizeof(secprops));
secprops.maxbufsize = NET_SEC_BUF_SIZE;
secprops.max_ssf = UINT_MAX;
m_krbInitResult = sasl_server_init(saslData->m_callbacks, m_serviceName.ascii());
if (m_krbInitResult != SASL_OK) {
printf("[ERROR] Initializing libsasl returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), m_krbInitResult);
return -1;
}
m_krbInitResult = sasl_server_new(m_serviceName.ascii(), localdomain, userdomain, iplocal, ipremote, NULL, m_krbInitServerLast, &saslData->m_krbConnection);
if (m_krbInitResult != SASL_OK) {
printf("[ERROR] Allocating sasl connection state returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), m_krbInitResult);
return -1;
}
m_krbInitResult = sasl_setprop(saslData->m_krbConnection, SASL_SEC_PROPS, &secprops);
if (m_krbInitResult != SASL_OK) {
printf("[ERROR] Setting security properties returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), m_krbInitResult);
freeKerberosConnection();
return -1;
}
puts("[DEBUG] Generating client mechanism list...");
m_krbInitResult = sasl_listmech(saslData->m_krbConnection, ext_authid, NULL, " ", NULL, &m_krbInitData, &len, &count);
if (m_krbInitResult != SASL_OK) {
printf("[ERROR] Generating client mechanism list returned %s (%d)\n\r", safe_sasl_errdetail(saslData->m_krbConnection), m_krbInitResult);
freeKerberosConnection();
return -1;
}
printf("[DEBUG] Sending list of %d mechanism(s)\n\r", count);
sendSASLDataToNetwork(m_krbInitData, len, socket());
m_krbInitRunning = true;
m_krbInitState = 0;
if (!kerberosInitLoopTimer) {
kerberosInitLoopTimer = new TQTimer();
connect(kerberosInitLoopTimer, SIGNAL(timeout()), this, SLOT(continueKerberosInitialization()));
}
if (kerberosInitLoopTimer) kerberosInitLoopTimer->start(0, TRUE);
return 0;
}
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