org.filesys.server.auth.EnterpriseSMBAuthenticator Maven / Gradle / Ivy
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/*
* Copyright (C) 2006-2012 Alfresco Software Limited.
* Copyright (C) 2018 GK Spencer
*
* This file is part of Alfresco
*
* Alfresco is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Alfresco 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with Alfresco. If not, see .
*/
package org.filesys.server.auth;
import java.io.IOException;
import java.io.PrintWriter;
import java.io.StringWriter;
import java.nio.file.Files;
import java.nio.file.LinkOption;
import java.nio.file.Paths;
import java.security.MessageDigest;
import java.security.NoSuchAlgorithmException;
import java.security.Principal;
import java.security.PrivilegedAction;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.StringTokenizer;
import java.util.zip.CRC32;
import javax.crypto.Cipher;
import javax.crypto.Mac;
import javax.crypto.spec.SecretKeySpec;
import javax.security.auth.Subject;
import javax.security.auth.callback.Callback;
import javax.security.auth.callback.CallbackHandler;
import javax.security.auth.callback.NameCallback;
import javax.security.auth.callback.PasswordCallback;
import javax.security.auth.callback.UnsupportedCallbackException;
import javax.security.auth.login.LoginContext;
import javax.security.auth.login.LoginException;
import javax.security.sasl.RealmCallback;
import org.filesys.debug.Debug;
import org.filesys.netbios.RFCNetBIOSProtocol;
import org.filesys.server.auth.kerberos.KerberosDetails;
import org.filesys.server.auth.kerberos.SessionSetupPrivilegedAction;
import org.filesys.server.auth.ntlm.*;
import org.filesys.server.auth.spnego.NegTokenInit;
import org.filesys.server.auth.spnego.NegTokenTarg;
import org.filesys.server.auth.spnego.OID;
import org.filesys.server.auth.spnego.SPNEGO;
import org.filesys.server.config.InvalidConfigurationException;
import org.filesys.server.config.ServerConfiguration;
import org.filesys.server.core.NoPooledMemoryException;
import org.filesys.smb.Capability;
import org.filesys.smb.SMBStatus;
import org.filesys.smb.server.*;
import org.filesys.util.DataBuffer;
import org.filesys.util.DataPacker;
import org.filesys.util.HexDump;
import org.springframework.extensions.config.ConfigElement;
import org.ietf.jgss.Oid;
/**
* Enterprise SMB Authenticator Class
*
*
* SMB authenticator that supports NTLMSSP and Kerberos logins.
*
* @author gkspencer
*/
public class EnterpriseSMBAuthenticator extends SMBAuthenticator implements CallbackHandler {
// Constants
//
// Default login configuration entry name
private static final String LoginConfigEntry = "FileServerSMB";
// Line seperator used for exception stack traces
private static final String LineSeperator = System.getProperty("line.separator");
// NTLM flags mask, used to mask out features that are not supported
private static final int NTLM_UNSUPPORTED_FLAGS = 0;
// NTLM flags to be sent back to the client
private static final int NTLM_SERVER_FLAGS = NTLM.FlagChallengeAccept + NTLM.FlagRequestTarget + NTLM.Flag128Bit +
NTLM.FlagNegotiateUnicode + NTLM.FlagKeyExchange + NTLM.FlagTargetInfo + NTLM.FlagRequestVersion +
NTLM.FlagAlwaysSign + NTLM.FlagNegotiateSign + NTLM.FlagNegotiateExtSecurity + NTLM.FlagNegotiateSeal +
NTLM.FlagNegotiateNTLM;
// MIC token
private static final int MIC_TOKEN_LENGTH = 16;
private static final int MIC_TOKEN_VERSION = 0;
private static final int MIC_TOKEN_DIGEST = 4;
private static final int MIC_TOKEN_SEQNO = 12;
private static final int MIC_TOKEN_VER_NTLMSSP = 0x00000001;
// Output extra debug logging
private static final boolean EXTRA_DEBUG = true;
// Use NTLMSSP or SPNEGO
protected boolean m_useRawNTLMSSP;
// Accept NTLM logons
protected boolean m_allowNTLM = true;
// Flag to control whether NTLMv1 is accepted
protected boolean m_acceptNTLMv1;
// Allow loopback NTLM logons to a specific account, usually the machine account
protected boolean m_allowLoopbackNTLM;
protected String m_allowLoopbackAccount;
// Kerberos settings
//
// Account name and password for server ticket
//
// The account name must be built from the SMB server name, in the format :-
//
// cifs/@
protected String m_accountName;
protected String m_password;
// Kerberos realm and KDC address
protected String m_krbRealm;
// Login configuration entry name
protected String m_loginEntryName = LoginConfigEntry;
// Server login context
protected LoginContext m_loginContext;
// SPNEGO NegTokenInit blob, sent to the client in the SMB negotiate response
protected byte[] m_negTokenInit;
/**
* Class constructor
*/
public EnterpriseSMBAuthenticator() {
setExtendedSecurity(true);
}
/**
* Initialize the authenticator
*
* @param config ServerConfiguration
* @param params ConfigElement
* @exception InvalidConfigurationException Error initializing the authenticator
*/
public void initialize(ServerConfiguration config, ConfigElement params)
throws InvalidConfigurationException {
// Call the base initialization
super.initialize(config, params);
// Check if session cleanup should be disabled, when a session setup request is received
// on virtual circuit zero
if (params.getChild("disableSessionCleanup") != null) {
// Disable session cleanup
setSessionCleanup(false);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Disabled session cleanup (for virtual circuit zero logons)");
}
// Check if Java API Kerberos debug output should be enabled
if (params.getChild("kerberosDebug") != null) {
// Enable Kerberos API debug output
System.setProperty("sun.security.jgss.debug", "true");
System.setProperty("sun.security.krb5.debug", "true");
System.setProperty("com.ibm.security.jgss.debug", "all");
}
// Access the SMB server configuration
SMBConfigSection cifsConfig = (SMBConfigSection) config.getConfigSection(SMBConfigSection.SectionName);
// Check if Kerberos is enabled, get the Kerberos realm
ConfigElement krbRealm = params.getChild("Realm");
if (krbRealm != null && krbRealm.getValue() != null && krbRealm.getValue().length() > 0) {
// Set the Kerberos realm
m_krbRealm = krbRealm.getValue();
// Get the SMB service account password
ConfigElement srvPassword = params.getChild("Password");
if (srvPassword != null && srvPassword.getValue() != null && srvPassword.getValue().length() > 0) {
// Set the SMB service account password
m_password = srvPassword.getValue();
}
// Check if a custom Kerberos configuration file has been specified
ConfigElement krb5ConfPath = params.getChild("KerberosConfig");
if ( krb5ConfPath != null) {
// Get the Kerberos configuration path
String krb5Path = krb5ConfPath.getValue();
// Make sure the Kerberos configuration file exists
if (Files.exists( Paths.get( krb5Path), LinkOption.NOFOLLOW_LINKS)) {
// Set the Kerberos configuration path
System.setProperty( "java.security.krb5.conf", krb5Path);
}
else {
// Configuration file does not exist
throw new InvalidConfigurationException("Kerberos configuration file does not exist - " + krb5Path);
}
}
// Check if a custom login configuration file has been specified
ConfigElement loginConfPath = params.getChild("LoginConfig");
if ( loginConfPath != null) {
// Get the login configuration path
String loginPath = loginConfPath.getValue();
// Make sure the login configuration file exists
if (Files.exists( Paths.get( loginPath), LinkOption.NOFOLLOW_LINKS)) {
// Set the login configuration path
System.setProperty( "java.security.auth.login.config", loginPath);
}
else {
// Configuration file does not exist
throw new InvalidConfigurationException("Login configuration file does not exist - " + loginPath);
}
}
// Get the login configuration entry name
ConfigElement loginEntry = params.getChild("LoginEntry");
if (loginEntry != null) {
if (loginEntry.getValue() != null && loginEntry.getValue().length() > 0) {
// Set the login configuration entry name to use
m_loginEntryName = loginEntry.getValue();
}
else
throw new InvalidConfigurationException("Invalid login entry specified");
}
// Create a login context for the SMB server service
try {
// Login the SMB server service
m_loginContext = new LoginContext(m_loginEntryName, this);
m_loginContext.login();
}
catch (LoginException ex) {
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Kerberos authenticator error - " + ex.getMessage());
throw new InvalidConfigurationException("Failed to login SMB server service");
}
// Get the SMB service account name from the subject
Subject subj = m_loginContext.getSubject();
Principal princ = subj.getPrincipals().iterator().next();
m_accountName = princ.getName();
if (hasDebugOutput())
debugOutput("[SMB] Logged on using principal " + m_accountName);
// DEBUG
if (hasDebugOutput()) {
debugOutput("[SMB] Enabling mechTypes :-");
debugOutput(" Kerberos5");
debugOutput(" MS-Kerberos5");
}
// Create the Oid list for the SPNEGO NegTokenInit, include NTLMSSP for fallback
List mechTypes = new ArrayList();
mechTypes.add(OID.MSKERBEROS5);
mechTypes.add(OID.KERBEROS5);
if (params.getChild("disableNTLM") == null) {
mechTypes.add(OID.NTLMSSP);
// DEBUG
if (Debug.EnableDbg && hasDebug())
debugOutput(" NTLMSSP");
// Set the NTLM logons allowed flag
m_allowNTLM = true;
}
else {
// NTLM logons not allowed
m_allowNTLM = false;
}
// Build the SPNEGO NegTokenInit blob
try {
// Build the mechListMIC principle
//
// Note: This field is not as specified, only seems to be used by Samba clients (Linux/Mac/Unix)
String mecListMIC = null;
StringBuilder mic = new StringBuilder();
mic.append("cifs/");
mic.append(cifsConfig.getServerName().toLowerCase());
mic.append("@");
mic.append(m_krbRealm);
mecListMIC = mic.toString();
// Build the SPNEGO NegTokenInit that contains the authentication types that the
// SMB server accepts
NegTokenInit negTokenInit = new NegTokenInit(mechTypes, mecListMIC);
// Encode the NegTokenInit blob
m_negTokenInit = negTokenInit.encode();
}
catch (IOException ex) {
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Error creating SPNEGO NegTokenInit blob - " + ex.getMessage());
throw new InvalidConfigurationException("Failed to create SPNEGO NegTokenInit blob");
}
// Indicate that SPNEGO security blobs are being used
m_useRawNTLMSSP = false;
}
else {
// Check if raw NTLMSSP or SPNEGO/NTLMSSP should be used
ConfigElement useSpnego = params.getChild("useSPNEGO");
if (useSpnego != null) {
// Create the Oid list for the SPNEGO NegTokenInit
List mechTypes = new ArrayList();
mechTypes.add(OID.NTLMSSP);
// Build the SPNEGO NegTokenInit blob
try {
// Build the SPNEGO NegTokenInit that contains the authentication types that the
// SMB server accepts
NegTokenInit negTokenInit = new NegTokenInit(mechTypes, null);
// Encode the NegTokenInit blob
m_negTokenInit = negTokenInit.encode();
}
catch (IOException ex) {
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Error creating SPNEGO NegTokenInit blob - " + ex.getMessage());
throw new InvalidConfigurationException("Failed to create SPNEGO NegTokenInit blob");
}
// Indicate that SPNEGO security blobs are being used
m_useRawNTLMSSP = false;
}
else {
// Use raw NTLMSSP security blobs
m_useRawNTLMSSP = true;
}
}
// Check if NTLM logons are disabled
if (params.getChild("disableNTLM") != null) {
// Indicate NTLM logons are not allowed
m_allowNTLM = false;
// Debug
if (hasDebugOutput())
debugOutput("[SMB] NTLM logons disabled");
}
// Check if NTLMv1 logons are accepted
ConfigElement disallowNTLMv1 = params.getChild("disallowNTLMv1");
m_acceptNTLMv1 = disallowNTLMv1 != null ? false : true;
// Check if NTLM logons should be allowed on a loopback connection
ConfigElement loopbackNTLM = params.getChild( "allowLoopbackNTLM");
if ( loopbackNTLM != null) {
// Get the account name that is allowed to use the loopback NTLM logon
m_allowLoopbackAccount = loopbackNTLM.getAttribute( "account");
if ( m_allowLoopbackAccount == null || m_allowLoopbackAccount.isEmpty())
throw new InvalidConfigurationException("Loopback NTLM account not specified");
// Enable the loopback NTLM logon feature
m_allowLoopbackNTLM = true;
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Allow NTLM loopback logons for " + m_allowLoopbackAccount);
}
// Make sure either NTLMSSP or SPNEGO authentication is enabled
if ( allowNTLMLogon() == false && m_loginContext == null) {
// Debug
if (hasDebugOutput())
debugOutput("[SMB] No authentication methods enabled");
throw new InvalidConfigurationException("No authentication methods enabled, require NTLMSSP or SPNEGO");
}
}
@Override
public boolean usingSPNEGO() {
return m_useRawNTLMSSP ? false : true;
}
@Override
public byte[] getNegTokenInit() {
return m_negTokenInit;
}
/**
* Determine if NTLM logons are allowed
*
* @return boolean
*/
private final boolean allowNTLMLogon() {
return m_allowNTLM;
}
/**
* Determine if NTLMv1 logons are accepted
*
* @return boolean
*/
private final boolean acceptNTLMv1Logon() {
return m_acceptNTLMv1;
}
/**
* JAAS callback handler
*
* @param callbacks Callback[]
* @exception IOException I/O error
* @exception UnsupportedCallbackException Unsupported callback error
*/
public void handle(Callback[] callbacks)
throws IOException, UnsupportedCallbackException {
// Process the callback list
for (int i = 0; i < callbacks.length; i++) {
// Request for user name
if (callbacks[i] instanceof NameCallback) {
NameCallback cb = (NameCallback) callbacks[i];
cb.setName(m_accountName);
}
// Request for password
else if (callbacks[i] instanceof PasswordCallback) {
PasswordCallback cb = (PasswordCallback) callbacks[i];
if ( m_password != null)
cb.setPassword(m_password.toCharArray());
else
cb.setPassword("".toCharArray());
}
// Request for realm
else if (callbacks[i] instanceof RealmCallback) {
RealmCallback cb = (RealmCallback) callbacks[i];
cb.setText(m_krbRealm);
} else {
throw new UnsupportedCallbackException(callbacks[i]);
}
}
}
@Override
public int getEncryptionKeyLength() {
return 8;
}
@Override
public int getServerCapabilities() {
return Capability.V1Unicode + Capability.V1RemoteAPIs + Capability.V1NTSMBs + Capability.V1NTFind + Capability.V1NTStatus
+ Capability.V1LargeFiles + Capability.V1LargeRead + Capability.V1LargeWrite + Capability.V1ExtendedSecurity
+ Capability.V1InfoPassthru + Capability.V1Level2Oplocks;
}
@Override
public void processSessionSetup(SMBSrvSession sess, SMBSrvPacket reqPkt)
throws SMBSrvException {
// Get the associated parser
SMBV1Parser parser = (SMBV1Parser) reqPkt.getParser();
// Check that the received packet looks like a valid NT session setup andX request
if (parser.checkPacketIsValid(12, 0) == false)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.SRVNonSpecificError, SMBStatus.ErrSrv);
// Check if the request is using security blobs or the older hashed password format
if (parser.getParameterCount() == 13) {
try {
// Process the hashed password session setup
doHashedPasswordLogon(sess, reqPkt);
return;
}
catch (SMBSrvException ex) {
// Rethrow the exception
throw ex;
}
}
// Extract the session details
int maxBufSize = parser.getParameter(2);
int maxMpx = parser.getParameter(3);
int vcNum = parser.getParameter(4);
int secBlobLen = parser.getParameter(7);
int capabs = parser.getParameterLong(10);
// Extract the client details from the session setup request
int dataPos = parser.getByteOffset();
byte[] buf = parser.getBuffer();
// Determine if ASCII or unicode strings are being used
boolean isUni = parser.isUnicode();
// Make a note of the security blob position
int secBlobPos = dataPos;
// Extract the clients primary domain name string
dataPos += secBlobLen;
parser.setPosition(dataPos);
String domain = "";
if (parser.hasMoreData()) {
// Extract the callers domain name
domain = parser.unpackString(isUni);
if (domain == null)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.SRVNonSpecificError, SMBStatus.ErrSrv);
}
// Extract the clients native operating system
String clientOS = "";
if (parser.hasMoreData()) {
// Extract the callers operating system name
clientOS = parser.unpackString(isUni);
if (clientOS == null)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.SRVNonSpecificError, SMBStatus.ErrSrv);
}
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] NT Session setup " + (usingSPNEGO() ? "SPNEGO" : "NTLMSSP") + ", MID="
+ parser.getMultiplexId() + ", UID=" + parser.getUserId() + ", PID=" + parser.getProcessId());
// Store the client maximum buffer size, maximum multiplexed requests count and client
// capability flags
sess.setClientMaximumBufferSize(maxBufSize != 0 ? maxBufSize : SMBSrvSession.DefaultBufferSize);
sess.setClientMaximumMultiplex(maxMpx);
sess.setClientCapabilities(capabs);
// Create the client information and store in the session
ClientInfo client = ClientInfo.createInfo(null, null);
client.setDomain(domain);
client.setOperatingSystem(clientOS);
client.setLogonType(ClientInfo.LogonType.Normal);
// Set the remote address, if available
if (sess.hasRemoteAddress())
client.setClientAddress(sess.getRemoteAddress().getHostAddress());
// Set the process id for this client, for multi-stage logons
client.setProcessId(parser.getProcessId());
// Get the current session setup object, or null
Object setupObj = sess.getSetupObject(client.getProcessId(), SetupObjectType.Type2Message);
// Process the security blob
boolean isNTLMSSP = false;
SecurityBlob secBlob = null;
AuthStatus authSts = AuthStatus.DISALLOW;
try {
// Check if the blob has the NTLMSSP signature
if (secBlobLen >= NTLM.Signature.length) {
// Check for the NTLMSSP signature
int idx = 0;
while (idx < NTLM.Signature.length && buf[secBlobPos + idx] == NTLM.Signature[idx])
idx++;
if (idx == NTLM.Signature.length)
isNTLMSSP = true;
}
// Create the security blob
secBlob = new SecurityBlob(isNTLMSSP ? SecurityBlob.SecurityBlobType.NTLMSSP : SecurityBlob.SecurityBlobType.SPNEGO,
buf, secBlobPos, secBlobLen, isUni);
// Process the security blob
authSts = processSecurityBlob(sess, client, secBlob);
}
catch (SMBSrvException ex) {
// Remove the session setup object for this logon attempt
sess.removeAllSetupObjects(client.getProcessId());
// Rethrow the exception
throw ex;
}
// Check if the authentication was successful
if ( authSts == AuthStatus.DISALLOW)
throw new SMBSrvException( SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
// Debug
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE)) {
if (secBlob.hasResponseBlob() == false)
debugOutput("[SMB] User " + client.getUserName() + " logged on "
+ (client != null ? " (type " + client.getLogonTypeString() + ")" : ""));
else
debugOutput("[SMB] Two stage logon (" + (isNTLMSSP ? "NTLMSSP" : "SPNEGO") + ")");
}
// Get the response blob length, it can be null
int respLen = secBlob.hasResponseBlob() ? secBlob.getResponseLength() : 0;
// Use the original packet for the response
SMBSrvPacket respPkt = reqPkt;
// Check if there is/was a session setup object stored in the session, this indicates a
// multi-stage session setup so set the status code accordingly
boolean loggedOn = false;
if (secBlob.hasResponseBlob() || sess.hasSetupObject(client.getProcessId(), SetupObjectType.Type2Message) || setupObj != null) {
// NTLMSSP has two stages, if there is a stored setup object then indicate more processing required
if (sess.hasSetupObject(client.getProcessId(), SetupObjectType.Type2Message))
parser.setLongErrorCode(SMBStatus.NTMoreProcessingRequired);
else {
// Indicate a successful logon, the method can still throw an exception to stop the logon
onSuccessfulLogon( client);
// Indicate session setup success
parser.setLongErrorCode(SMBStatus.NTSuccess);
// Indicate that the user is logged on
loggedOn = true;
}
// Set the parameter count then check if the security blob will fit into the current packet buffer
parser.setParameterCount(4);
int reqLen = respLen + 100; // allow for strings
if (reqLen > parser.getAvailableLength()) {
try {
// Allocate a new buffer for the response
respPkt = sess.getPacketPool().allocatePacket(parser.getByteOffset() + reqLen, reqPkt);
// Create a parser for the new response
respPkt.setParser( SMBSrvPacket.Version.V1);
parser = (SMBV1Parser) respPkt.getParser();
}
catch (NoPooledMemoryException ex) {
// DEBUG
if (Debug.EnableDbg && hasDebug())
debugOutput("Authenticator failed to allocate packet from pool, reqSiz="
+ (parser.getByteOffset() + respLen));
// Return a server error to the client
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.SRVNoBuffers, SMBStatus.ErrSrv);
}
}
// Fill in the rest of the packet header
parser.setParameter(0, 0xFF); // No chained response
parser.setParameter(1, 0); // Offset to chained response
parser.setParameter(2, 0); // Action
parser.setParameter(3, respLen);
}
else {
// Indicate a successful logon, the method can still throw an exception to stop the logon
onSuccessfulLogon( client);
// Build a completed session setup response
parser.setLongErrorCode(SMBStatus.NTSuccess);
// Build the session setup response SMB
parser.setParameterCount(12);
parser.setParameter(0, 0xFF); // No chained response
parser.setParameter(1, 0); // Offset to chained response
parser.setParameter(2, SMBSrvSession.DefaultBufferSize);
parser.setParameter(3, SMBSrvSession.NTMaxMultiplexed);
parser.setParameter(4, vcNum); // virtual circuit number
parser.setParameterLong(5, 0); // session key
parser.setParameter(7, respLen); // security blob length
parser.setParameterLong(8, 0); // reserved
parser.setParameterLong(10, getServerCapabilities());
// Indicate that the user is logged on
loggedOn = true;
}
// If the user is logged on then allocate a virtual circuit
int uid = 0xFFFF;
if (loggedOn == true) {
// Check for virtual circuit zero, disconnect any other sessions from this client
if (vcNum == 0 && hasSessionCleanup()) {
// Disconnect other sessions from this client, cleanup any open files/locks/oplocks
int discCnt = sess.disconnectClientSessions();
// DEBUG
if (discCnt > 0 && Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE))
debugOutput("[SMB] Disconnected " + discCnt + " existing sessions from client, sess=" + sess);
}
// Clear any stored session setup object for the logon
sess.removeAllSetupObjects(client.getProcessId());
// Create a virtual circuit for the new logon
VirtualCircuit vc = new VirtualCircuit(vcNum, client);
uid = sess.addVirtualCircuit(vc);
if (uid == VirtualCircuit.InvalidID) {
// DEBUG
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE))
debugOutput("[SMB] Failed to allocate UID for virtual circuit, " + vc);
// Failed to allocate a UID
throw new SMBSrvException(SMBStatus.NTTooManySessions, SMBStatus.SRVTooManyUIDs, SMBStatus.ErrSrv);
}
else if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE)) {
// DEBUG
debugOutput("[SMB] Allocated UID=" + uid + " for VC=" + vc);
}
}
// Common session setup response
parser.setCommand(parser.getCommand());
parser.setByteCount(0);
parser.setTreeId(loggedOn ? 0 : 0xFFFF);
parser.setUserId(uid);
// Set the various flags
int flags = parser.getFlags();
flags &= ~SMBV1.FLG_CASELESS;
parser.setFlags(flags);
parser.setResponse();
int flags2 = SMBV1.FLG2_LONGFILENAMES + SMBV1.FLG2_EXTENDEDSECURITY + SMBV1.FLG2_LONGERRORCODE;
if (isUni)
flags2 += SMBV1.FLG2_UNICODE;
parser.setFlags2(flags2);
// Pack the security blob
int pos = parser.getByteOffset();
buf = parser.getBuffer();
if (secBlob.hasResponseBlob()) {
System.arraycopy(secBlob.getResponseBlob(), 0, buf, pos, secBlob.getResponseLength());
pos += secBlob.getResponseLength();
}
// Pack the OS, dialect and domain name strings
if (isUni)
pos = DataPacker.wordAlign(pos);
pos = DataPacker.putString("Java", buf, pos, true, isUni);
pos = DataPacker.putString("Java File Server " + sess.getServer().isVersion(), buf, pos, true, isUni);
if (secBlob.hasResponseBlob() == false)
pos = DataPacker.putString(sess.getSMBServer().getSMBConfiguration().getDomainName(), buf, pos, true, isUni);
parser.setByteCount(pos - parser.getByteOffset());
parser.setParameter(1, pos - RFCNetBIOSProtocol.HEADER_LEN);
}
@Override
public AuthStatus processSecurityBlob(SMBSrvSession sess, ClientInfo client, SecurityBlob secBlob)
throws SMBSrvException {
// Check if this is a transactional authenticator
AuthStatus authSts = AuthStatus.DISALLOW;
if ( this instanceof TransactionalSMBAuthenticator) {
// Wrap the authentication processing in a transaction
TransactionalSMBAuthenticator transAuth = (TransactionalSMBAuthenticator) this;
authSts = transAuth.processSecurityBlobInTransaction(sess, client, secBlob);
}
else {
// Call the security blob processing directly
authSts = processSecurityBlobInternal(sess, client, secBlob);
}
// Return the authentication status
return authSts;
}
/**
* Process the security blob, non-transactional, can be wrapped by a transactional call
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @param secBlob SecurityBlob
* @return AuthStatus
* @exception SMBSrvException SMB error
*/
public final AuthStatus processSecurityBlobInternal(SMBSrvSession sess, ClientInfo client, SecurityBlob secBlob)
throws SMBSrvException {
// Get the current session setup object, or null
Object setupObj = sess.getSetupObject(client.getProcessId(), SetupObjectType.Type2Message);
// Debug
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE))
debugOutput("[SMB] Process security blob=" + secBlob);
// Process the security blob
AuthStatus authSts = AuthStatus.DISALLOW;
try {
// Process the security blob
if (secBlob.isNTLMSSP()) {
// Process an NTLMSSP security blob
authSts = doNtlmsspSessionSetup(sess, client, secBlob, false);
} else {
// Process an SPNEGO security blob
authSts = doSpnegoSessionSetup(sess, client, secBlob);
}
}
catch (SMBSrvException ex) {
// Remove the session setup object for this logon attempt
sess.removeAllSetupObjects(client.getProcessId());
// Rethrow the exception
throw ex;
}
// Debug
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE)) {
if (authSts == AuthStatus.AUTHENTICATED)
debugOutput("[SMB] User " + client.getUserName() + " logged on "
+ (client != null ? " (type " + client.getLogonTypeString() + ")" : ""));
else
debugOutput("[SMB] Two stage logon (" + secBlob.isType().name() + ")");
}
// Get the response blob length, it can be null
int respLen = secBlob.hasResponseBlob() ? secBlob.getResponseLength() : 0;
// Check if the user has been authenticated, or there are more round trips to complete the authentication
if ( authSts == AuthStatus.AUTHENTICATED) {
// Clear any stored session setup object for the logon
sess.removeAllSetupObjects(client.getProcessId());
// Indicate a successful logon, the method can throw an exception to stop the logon
onSuccessfulLogon( client);
}
// Return the authentication status
return authSts;
}
/**
* Process an NTLMSSP security blob
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @param secBlob SecurityBlob
* @param spnego boolean
* @return AuthStatus
* @exception SMBSrvException SMB error
*/
private final AuthStatus doNtlmsspSessionSetup(SMBSrvSession sess, ClientInfo client, SecurityBlob secBlob, boolean spnego)
throws SMBSrvException {
// Make sure NTLM logons are enabled
if (!allowNTLMLogon()) {
// Check if loopback NTLM logons are allowed
boolean loopbackLogon = false;
if ( isLoopbackLogon( client)) {
// Allow the logon
loopbackLogon = true;
// DEBUG
if ( hasDebugOutput())
debugOutput("[SMB] NTLM loopback logon from client address=" + client.getClientAddress());
}
// If loopback logons are not enabled or the logon is not from a loopback address then fail the logon
if ( !loopbackLogon) {
// Client has sent an NTLM logon
if (hasDebugOutput())
debugOutput("[SMB] NTLM disabled, received NTLM logon from client (NTLMSSP)");
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
// Determine the NTLMSSP message type
AuthStatus authSts = AuthStatus.DISALLOW;
NTLMMessage.Type msgType = NTLMMessage.isNTLMType(secBlob.getSecurityBlob(), secBlob.getSecurityOffset());
byte[] respBlob = null;
if (msgType == NTLMMessage.Type.Invalid) {
// DEBUG
if (hasDebugOutput()) {
debugOutput("[SMB] Invalid NTLMSSP token received");
debugOutput("[SMB] Token=" + HexDump.hexString(secBlob.getSecurityBlob(), secBlob.getSecurityOffset(), secBlob.getSecurityLength(), " "));
}
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Check for a type 1 NTLMSSP message
else if (msgType == NTLMMessage.Type.Negotiate) {
// Create the type 1 NTLM message from the token
Type1NTLMMessage type1Msg = new Type1NTLMMessage(secBlob.getSecurityBlob(), secBlob.getSecurityOffset(), secBlob.getSecurityLength());
// DEBUG
if ( hasDebugOutput())
debugOutput("[SMB] Received NTLM Type1/Negotiate - " + type1Msg.toString());
// Check if signing is required or the NTLMSSP security blob is wrapped by an SPNEGO message,
// if so then we need to keep a copy of the Type 1 message
if ( spnego || type1Msg.hasFlag( NTLM.FlagNegotiateSign) || type1Msg.hasFlag( NTLM.FlagAlwaysSign)) {
// Clone the Type 1 message and save on the session
type1Msg = type1Msg.clone();
sess.setSetupObject( client.getProcessId(), type1Msg, SetupObjectType.Type1Message);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Signing required/SPNEGO, saved Type1");
}
// Build the type 2 NTLM response message
//
// Get the flags from the client request and mask out unsupported features
int ntlmFlags = type1Msg.getFlags() & NTLM_UNSUPPORTED_FLAGS;
// Generate a challenge for the response
NTLanManAuthContext ntlmCtx = new NTLanManAuthContext();
// Build a type2 message to send back to the client, containing the challenge
String domain = sess.getSMBServer().getServerName();
List tList = new ArrayList();
tList.add(new StringTargetInfo(TargetInfo.Type.DOMAIN, domain));
tList.add(new StringTargetInfo(TargetInfo.Type.SERVER, sess.getServerName()));
tList.add(new StringTargetInfo(TargetInfo.Type.DNS_DOMAIN, domain.toLowerCase()));
tList.add(new StringTargetInfo(TargetInfo.Type.FULL_DNS, domain.toLowerCase()));
tList.add(new TimestampTargetInfo());
ntlmFlags = NTLM_SERVER_FLAGS;
if (acceptNTLMv1Logon())
ntlmFlags += NTLM.Flag56Bit;
Type2NTLMMessage type2Msg = new Type2NTLMMessage();
type2Msg.buildType2(ntlmFlags, domain, ntlmCtx.getChallenge(), null, tList);
// Store the type 2 message in the session until the session setup is complete
sess.setSetupObject(client.getProcessId(), type2Msg, SetupObjectType.Type2Message);
// Set the response blob using the type 2 message
respBlob = type2Msg.getBytes();
secBlob.setResponseBlob( respBlob);
authSts = AuthStatus.MORE_PROCESSING;
}
else if (msgType == NTLMMessage.Type.Authenticate) {
// Create the type 3 NTLM message from the token
Type3NTLMMessage type3Msg = new Type3NTLMMessage(secBlob.getSecurityBlob(), secBlob.getSecurityOffset(), secBlob.getSecurityLength(),
secBlob.isUnicode());
// DEBUG
if ( hasDebugOutput())
debugOutput("[SMB] Received NTLM Type3/Authenticate - " + type3Msg.toString());
// Make sure a type 2 message was stored in the first stage of the session setup
if (sess.hasSetupObject(client.getProcessId(), SetupObjectType.Type2Message) == false) {
// Clear the setup object
sess.removeAllSetupObjects(client.getProcessId());
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Check if signing is required or the NTLMSSP security blob is wrapped by an SPNEGO message,
// if so then we need to keep a copy of the Type 3 message
if (spnego || type3Msg.hasFlag( NTLM.FlagNegotiateSign) || type3Msg.hasFlag( NTLM.FlagAlwaysSign)) {
// Clone the Type 3 message and save on the session
type3Msg = type3Msg.clone();
sess.setSetupObject( client.getProcessId(), type3Msg, SetupObjectType.Type3Message);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Signing required/SPNEGO, saved Type3");
}
// Check for a loopback logon
if ( isLoopbackLogon( client)) {
// Check if the user matches the allowed loopback logon account
if ( type3Msg.getUserName().equalsIgnoreCase( m_allowLoopbackAccount)) {
// DEBUG
if ( hasDebugOutput())
debugOutput("[SMB] Allow loopback NTLM logon from " + type3Msg.getUserName());
// Store the full user name in the client information, indicate that this is not a guest logon
client.setUserName( type3Msg.getUserName());
client.setGuest(false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
// Return an authenticated status
return AuthStatus.AUTHENTICATED;
}
}
// Determine if the client sent us NTLMv1 or NTLMv2
if (type3Msg.hasFlag(NTLM.Flag128Bit) || type3Msg.hasFlag(NTLM.FlagNegotiateExtSecurity)) { // && type3Msg.hasFlag(NTLM.FlagNTLM2Key)) {
// Determine if the client sent us an NTLMv2 blob or an NTLMv2 session key
if (type3Msg.getNTLMHashLength() > 24) {
// Looks like an NTLMv2 blob
doNTLMv2Logon(sess, client, type3Msg);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Logged on using NTLMSSP/NTLMv2");
}
else {
// Looks like an NTLMv2 session key
doNTLMv2SessionKeyLogon(sess, client, type3Msg);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Logged on using NTLMSSP/NTLMv2SessKey");
}
}
else {
// Looks like an NTLMv1 blob
doNTLMv1Logon(sess, client, type3Msg);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Logged on using NTLMSSP/NTLMv1");
}
// Indicate user authenticated
authSts = AuthStatus.AUTHENTICATED;
}
// Return the authentication status
return authSts;
}
/**
* Process an SPNEGO security blob
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @param secBlob SecurityBlob
* @return AuthStatus
* @exception SMBSrvException SMB error
*/
private final AuthStatus doSpnegoSessionSetup(SMBSrvSession sess, ClientInfo client, SecurityBlob secBlob)
throws SMBSrvException {
// Check the received token type, if it is a target token and there is a stored session setup object, this is
// the second stage of an NTLMSSP session setup that is wrapped with SPNEGO
AuthStatus authSts = AuthStatus.DISALLOW;
int tokType = -1;
try {
tokType = SPNEGO.checkTokenType(secBlob);
}
catch (IOException ex) {
}
// Check for the second stage of an NTLMSSP logon
NegTokenTarg negTarg = null;
if (tokType == SPNEGO.NegTokenTarg && sess.hasSetupObject(client.getProcessId(), SetupObjectType.Type2Message)) {
// Get the NTLMSSP blob from the NegTokenTarg blob
NegTokenTarg negToken = new NegTokenTarg();
try {
// Decode the security blob
negToken.decode(secBlob);
}
catch (IOException ex) {
// Log the error
if (Debug.EnableError && hasDebug())
debugOutput(ex);
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Get the second stage NTLMSSP blob
byte[] ntlmsspBlob = negToken.getResponseToken();
// Create a separate security blob for the NTLMSSP blob
SecurityBlob ntlmBlob = new SecurityBlob(SecurityBlob.SecurityBlobType.NTLMSSP, ntlmsspBlob, secBlob.isUnicode());
// Perform an NTLMSSP session setup
authSts = doNtlmsspSessionSetup(sess, client, ntlmBlob, true);
// NTLMSSP is a two stage process, set the SPNEGO status
SPNEGO.Result spnegoSts = SPNEGO.Result.AcceptCompleted;
byte[] mechListMIC = null;
if ( authSts == AuthStatus.MORE_PROCESSING) {
// Require another round trip
spnegoSts = SPNEGO.Result.AcceptIncomplete;
}
else {
// Check if the response needs a message integrity code
if ( negToken.hasMechListMIC() && sess.hasSessionKey( KeyType.SessionKey) &&
sess.hasSetupObject( client.getProcessId(), SetupObjectType.NegTokenInit)) {
// Verify the received MIC token
NegTokenInit negInit = (NegTokenInit) sess.getSetupObject(client.getProcessId(), SetupObjectType.NegTokenInit);
if ( negInit.hasMechListBytes()) {
byte[] mechList = negInit.getMechListBytes();
if (verifyMIC(sess, mechList, 0, mechList.length, negToken.getMechListMIC(), client.getProcessId()) == false) {
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
// Get the original NegTokenInit that started the authentication
NegTokenInit initToken = (NegTokenInit) sess.getSetupObject( client.getProcessId(), SetupObjectType.NegTokenInit);
if ( initToken.hasMechListBytes()) {
// Generate the MIC token for the response
byte[] initTokenByts = initToken.getMechListBytes();
mechListMIC = generateMIC(sess, initTokenByts, 0, initTokenByts.length, 0);
}
// No longer need the NTLM messages
sess.removeAllSetupObjects( client.getProcessId());
}
}
// Package the NTLMSSP response in an SPNEGO response
negTarg = new NegTokenTarg(spnegoSts, null, ntlmBlob.getResponseBlob());
negTarg.setMechListMIC( mechListMIC);
}
else if (tokType == SPNEGO.NegTokenInit) {
// Parse the SPNEGO security blob to get the Kerberos ticket
NegTokenInit negToken = new NegTokenInit();
try {
// Decode the security blob
negToken.decode(secBlob);
}
catch (IOException ex) {
// Log the error
if (Debug.EnableError && hasDebug())
debugOutput(ex);
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Save the NegTokenInit details as they may be required to generate a MIC
sess.setSetupObject( client.getProcessId(), negToken, SetupObjectType.NegTokenInit);
// Determine the authentication mechanism the client is using and logon
String oidStr = null;
if (negToken.numberOfOids() > 0)
oidStr = negToken.getOidAt(0).toString();
if (oidStr != null && oidStr.equals(OID.ID_NTLMSSP)) {
// NTLMSSP logon, get the NTLMSSP security blob that is inside the SPNEGO blob
byte[] ntlmsspBlob = negToken.getMechtoken();
// Create a separate security blob for the NTLMSSP blob
SecurityBlob ntlmBlob = new SecurityBlob(SecurityBlob.SecurityBlobType.NTLMSSP, ntlmsspBlob, secBlob.isUnicode());
// Check if NTLM logons are enabled
if ( !allowNTLMLogon() && !isLoopbackLogon( client)) {
// Client has sent an NTLM logon
if (hasDebugOutput())
debugOutput("[SMB] NTLM disabled, received NTLM logon from client (SPNEGO), client address=" + client.getClientAddress());
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Perform an NTLMSSP session setup
authSts = doNtlmsspSessionSetup(sess, client, ntlmBlob, true);
// NTLMSSP is a two stage process, set the SPNEGO status
SPNEGO.Result spnegoSts = SPNEGO.Result.AcceptCompleted;
if ( authSts == AuthStatus.MORE_PROCESSING) {
// Require another round trip
spnegoSts = SPNEGO.Result.AcceptIncomplete;
}
// Package the NTLMSSP response in an SPNEGO response
negTarg = new NegTokenTarg(spnegoSts, OID.NTLMSSP, ntlmBlob.getResponseBlob());
}
else if (oidStr != null && (oidStr.equals(OID.ID_MSKERBEROS5) || oidStr.equals(OID.ID_KERBEROS5))) {
// Kerberos logon
negTarg = doKerberosLogon(sess, negToken, client);
// Indicate authentication successful
authSts = AuthStatus.AUTHENTICATED;
}
else {
// Debug
if (hasDebugOutput()) {
debugOutput("[SMB] No matching authentication OID found");
debugOutput("[SMB] " + negToken.toString());
}
// Clear any session setup state
sess.removeAllSetupObjects( client.getProcessId());
// No valid authentication mechanism
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
else {
// Unknown SPNEGO token type
if (hasDebugOutput())
debugOutput("[SMB] Unknown SPNEGO token type=" + tokType);
// Clear any session setup state
sess.removeAllSetupObjects( client.getProcessId());
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Generate the NegTokenTarg blob
try {
// Generate the response blob
secBlob.setResponseBlob( negTarg.encode());
}
catch (IOException ex) {
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Failed to encode NegTokenTarg - " + ex.getMessage());
// Clear any session setup state
sess.removeAllSetupObjects( client.getProcessId());
// Failed to build response blob
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Return the authentication status
return authSts;
}
/**
* Perform a Kerberos login and return an SPNEGO response
*
* @param sess SMBSrvSession
* @param negToken NegTokenInit
* @param client ClientInfo
* @return NegTokenTarg
* @exception SMBSrvException SMB error
*/
private final NegTokenTarg doKerberosLogon(SMBSrvSession sess, NegTokenInit negToken, ClientInfo client)
throws SMBSrvException {
// Authenticate the user
KerberosDetails krbDetails = null;
NegTokenTarg negTokenTarg = null;
try {
// Run the session setup as a privileged action
PrivilegedAction sessSetupAction = getKerberosPrivilegedAction( negToken);
Object result = Subject.doAs(m_loginContext.getSubject(), sessSetupAction);
if (result != null) {
// Access the Kerberos response
krbDetails = (KerberosDetails) result;
// Determine the response OID
Oid respOid = null;
if (negToken.hasOid(OID.MSKERBEROS5)) {
respOid = OID.MSKERBEROS5;
// DEBUG
if (Debug.EnableDbg && hasDebug())
debugOutput("[SMB] Using OID MS Kerberos5 for NegTokenTarg");
} else {
respOid = OID.KERBEROS5;
// DEBUG
if (Debug.EnableDbg && hasDebug())
debugOutput("[SMB] Using OID Kerberos5 for NegTokenTarg");
}
// Create the NegTokenTarg response blob
negTokenTarg = new NegTokenTarg(SPNEGO.Result.AcceptCompleted, respOid, krbDetails.getResponseToken());
// DEBUG
if (Debug.EnableDbg && hasDebug())
debugOutput("[SMB] Created NegTokenTarg using standard Krb5 API response");
// Check if this is a null logon
String userName = krbDetails.getUserName();
if (userName != null) {
// Check for the machine account name
if (userName.endsWith("$") && userName.equals(userName.toUpperCase())) {
// Null logon
client.setLogonType(ClientInfo.LogonType.Null);
// Debug
if (Debug.EnableDbg && hasDebug())
debugOutput("[SMB] Machine account logon, " + userName + ", as null logon");
} else {
// Store the user name and full logon name in the client information, indicate that this is not a guest logon
client.setUserName( userName);
client.setLoggedOnName(krbDetails.getSourceName());
client.setGuest(false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
}
} else {
// Null logon
client.setLogonType(ClientInfo.LogonType.Null);
}
// Post Kerberos logon hook, logon can still be stopped if an exception is thrown
postKerberosLogon( sess, krbDetails, client);
// Indicate that the session is logged on
sess.setLoggedOn(true);
// Debug
if (Debug.EnableDbg && hasDebug())
debugOutput("[SMB] Logged on using Kerberos, user " + userName);
}
else {
// Debug
if (Debug.EnableDbg && hasDebug())
debugOutput("[SMB] No SPNEGO response, Kerberos logon failed");
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
catch (Exception ex) {
// Log the error
if (Debug.EnableError && hasDebug()) {
debugOutput("[SMB] Kerberos logon error");
debugOutput(ex);
}
// Return a logon failure status
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Return the response SPNEGO blob
return negTokenTarg;
}
/**
* Perform an NTLMv1 logon using the NTLMSSP type3 message
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @param type3Msg Type3NTLMMessage
* @exception SMBSrvException SMB error
*/
private final void doNTLMv1Logon(SMBSrvSession sess, ClientInfo client, Type3NTLMMessage type3Msg)
throws SMBSrvException {
// Check if NTLMv1 logons are allowed
if (acceptNTLMv1Logon() == false) {
// NTLMv1 password hashes not accepted
if (Debug.EnableWarn && hasDebug())
debugOutput("[SMB] NTLMv1 not accepted, client " + sess.getRemoteName());
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Get the type 2 message that contains the challenge sent to the client
Type2NTLMMessage type2Msg = (Type2NTLMMessage) sess.removeSetupObject(client.getProcessId(), SetupObjectType.Type2Message);
// Get the NTLM logon details
String userName = type3Msg.getUserName();
// Check for a null logon
if (userName.length() == 0) {
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] Null logon");
// Indicate a null logon in the client information
client.setLogonType(ClientInfo.LogonType.Null);
return;
}
// Get the user details
UserAccount user = getUserDetails(userName);
if (user != null) {
// Authenticate the user
AuthStatus sts = authenticateUser(client, sess, PasswordAlgorithm.NTLM1);
if (sts.isError()) {
// Logon failed
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Store the full user name in the client information, indicate that this is not a guest logon
client.setUserName(userName);
client.setGuest(sts == AuthStatus.GUEST_LOGON ? true : false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
} else {
// Log a warning, user does not exist
if (Debug.EnableError && hasDebug())
debugOutput("[SMB] User does not exist, " + userName);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
/**
* Perform an NTLMv1 logon using the NTLMSSP type3 message
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @exception SMBSrvException SMB error
*/
private final void doNTLMv1Logon(SMBSrvSession sess, ClientInfo client)
throws SMBSrvException {
// Check if NTLMv1 logons are allowed
if (acceptNTLMv1Logon() == false) {
// NTLMv1 password hashes not accepted
if (Debug.EnableWarn && hasDebug())
debugOutput("[SMB] NTLMv1 not accepted, client " + sess.getRemoteName());
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Get the user details
String userName = client.getUserName();
UserAccount user = getUserDetails(userName);
if (user != null) {
// Authenticate the user
AuthStatus sts = authenticateUser(client, sess, PasswordAlgorithm.NTLM1);
if (sts.isError()) {
// Logon failed
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Store the full user name in the client information, indicate that this is not a guest logon
client.setUserName(userName);
client.setGuest(sts == AuthStatus.GUEST_LOGON ? true : false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
} else {
// Log a warning, user does not exist
if (Debug.EnableError && hasDebug())
debugOutput("[SMB] User does not exist, " + userName);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
/**
* Perform an NTLMv2 logon using the NTLMSSP type3 message
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @param type3Msg Type3NTLMMessage
* @exception SMBSrvException SMB error
*/
private final void doNTLMv2Logon(SMBSrvSession sess, ClientInfo client, Type3NTLMMessage type3Msg)
throws SMBSrvException {
// Get the type 2 message that contains the challenge sent to the client
Type2NTLMMessage type2Msg = (Type2NTLMMessage) sess.getSetupObject(client.getProcessId(), SetupObjectType.Type2Message);
// Get the NTLM logon details
String userName = type3Msg.getUserName();
// Check for a null logon
if (userName.length() == 0) {
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] Null logon");
// Indicate a null logon in the client information
client.setLogonType(ClientInfo.LogonType.Null);
return;
}
// Get the user details
UserAccount user = getUserDetails(userName);
if (user != null) {
try {
// Calculate the MD4 of the user password
byte[] md4Pwd = null;
if (user.hasMD4Password())
md4Pwd = user.getMD4Password();
else {
md4Pwd = getEncryptor().generateEncryptedPassword(user.getPassword(), type2Msg.getChallenge(),
PasswordEncryptor.MD4, null, null);
user.setMD4Password(md4Pwd);
}
// Generate the v2 hash using the challenge that was sent to the client
byte[] v2hash = getEncryptor().doNTLM2Encryption(md4Pwd, type3Msg.getUserName(), type3Msg.getDomain());
// DEBUG
if ( EXTRA_DEBUG)
debugOutput( "[SMB] Generate v2hash user=" + type3Msg.getUserName() + ", domain=" + type3Msg.getDomain() + ", v2hash=" + HexDump.hexString( v2hash));
// Get the NTLMv2 blob sent by the client and the challenge that was sent by the server
NTLMv2Blob v2blob = new NTLMv2Blob(type3Msg.getNTLMHash());
byte[] srvChallenge = type2Msg.getChallenge();
// DEBUG
if ( EXTRA_DEBUG)
debugOutput( "[SMB] v2blob= len=" + v2blob.getLength() + ",data=" + HexDump.hexString( v2blob.getBuffer(), 16, "") + "..., challenge=" + HexDump.hexString( srvChallenge));
// Calculate the HMAC of the received blob and compare
byte[] srvHmac = v2blob.calculateHMAC(srvChallenge, v2hash);
byte[] clientHmac = v2blob.getHMAC();
if (clientHmac != null && srvHmac != null && clientHmac.length == srvHmac.length) {
int i = 0;
while (i < clientHmac.length && clientHmac[i] == srvHmac[i])
i++;
if (i != clientHmac.length) {
// DEBUG
if ( EXTRA_DEBUG)
debugOutput( "[SMB] HMac does not match, client=" + HexDump.hexString( clientHmac) + ", server=" + HexDump.hexString( srvHmac));
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
// Check if a session key has been returned by the client
if ( NTLM.hasFlag(type3Msg.getFlags(), NTLM.FlagKeyExchange)) {
// DEBUG
if ( EXTRA_DEBUG)
debugOutput( "[SMB] Type3 session key=" + HexDump.hexString( type3Msg.getSessionKey()));
// Make sure we got an encrypted session key from the client
if ( type3Msg.hasSessionKey()) {
// Generate the various session keys/ciphers
generateSessionKeys(sess, type3Msg, v2hash, srvHmac, clientHmac);
}
else
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Store the full user name in the client information, indicate that this is not a guest logon
client.setUserName(userName);
client.setGuest(false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
}
catch (Exception ex) {
// Log the error
if (Debug.EnableError && hasDebug())
debugOutput(ex);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
} else {
// Log a warning, user does not exist
if (hasDebugOutput())
debugOutput("[SMB] User does not exist, " + userName);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
/**
* Perform an NTLMv2 logon
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @exception SMBSrvException SMB error
*/
private final void doNTLMv2Logon(SMBSrvSession sess, ClientInfo client)
throws SMBSrvException {
// Check for a null logon
if (client.getUserName().length() == 0) {
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] Null logon");
// Indicate a null logon in the client information
client.setLogonType(ClientInfo.LogonType.Null);
return;
}
// Get the user details
UserAccount user = getUserDetails(client.getUserName());
if (user != null) {
try {
// Get the challenge that was sent to the client during negotiation
byte[] srvChallenge = null;
if (sess.hasAuthenticationContext()) {
// Get the challenge from the authentication context
NTLanManAuthContext ntlmCtx = (NTLanManAuthContext) sess.getAuthenticationContext();
srvChallenge = ntlmCtx.getChallenge();
}
// Calculate the MD4 of the user password
byte[] md4Pwd = null;
if (user.hasMD4Password())
md4Pwd = user.getMD4Password();
else {
md4Pwd = getEncryptor().generateEncryptedPassword(user.getPassword(), srvChallenge, PasswordEncryptor.MD4,
null, null);
user.setMD4Password(md4Pwd);
}
// Create the NTLMv2 blob from the received hashed password bytes
NTLMv2Blob v2blob = new NTLMv2Blob(client.getPassword());
// Generate the v2 hash using the challenge that was sent to the client
byte[] v2hash = getEncryptor().doNTLM2Encryption(md4Pwd, client.getUserName(), client.getDomain());
// Calculate the HMAC of the received blob and compare
byte[] srvHmac = v2blob.calculateHMAC(srvChallenge, v2hash);
byte[] clientHmac = v2blob.getHMAC();
if (clientHmac != null && srvHmac != null && clientHmac.length == srvHmac.length) {
if ( Arrays.equals( clientHmac, srvHmac) == false) {
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
// Store the full user name in the client information, indicate that this is not a guest logon
client.setGuest(false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
}
catch (Exception ex) {
// Log the error
if (Debug.EnableError && hasDebug())
debugOutput(ex);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
} else {
// Log a warning, user does not exist
if (hasDebugOutput())
debugOutput("[SMB] User does not exist, " + client.getUserName());
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
/**
* Perform an NTLMv2 session key logon
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @param type3Msg Type3NTLMMessage
* @exception SMBSrvException SMB error
*/
private final void doNTLMv2SessionKeyLogon(SMBSrvSession sess, ClientInfo client, Type3NTLMMessage type3Msg)
throws SMBSrvException {
// Get the type 2 message that contains the challenge sent to the client
Type2NTLMMessage type2Msg = (Type2NTLMMessage) sess.removeSetupObject(client.getProcessId(), SetupObjectType.Type2Message);
// Get the NTLM logon details
String userName = type3Msg.getUserName();
// Check for a null logon
if (userName.length() == 0) {
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] Null logon");
// Indicate a null logon in the client information
client.setLogonType(ClientInfo.LogonType.Null);
return;
}
// Get the user details
UserAccount user = getUserDetails(userName);
if (user != null) {
// Create the value to be encrypted by appending the server challenge and client
// challenge and applying an MD5 digest
byte[] nonce = new byte[16];
System.arraycopy(type2Msg.getChallenge(), 0, nonce, 0, 8);
System.arraycopy(type3Msg.getLMHash(), 0, nonce, 8, 8);
MessageDigest md5 = null;
byte[] v2challenge = new byte[8];
try {
// Create the MD5 digest
md5 = MessageDigest.getInstance("MD5");
// Apply the MD5 digest to the nonce
md5.update(nonce);
byte[] md5nonce = md5.digest();
// We only want the first 8 bytes
System.arraycopy(md5nonce, 0, v2challenge, 0, 8);
}
catch (NoSuchAlgorithmException ex) {
// Log the error
if (Debug.EnableError && hasDebug())
debugOutput(ex);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
// Generate the local encrypted password using the MD5 generated challenge
byte[] p21 = new byte[21];
byte[] md4byts = null;
if (user.hasMD4Password())
md4byts = user.getMD4Password();
else {
try {
md4byts = getEncryptor().generateEncryptedPassword(user.getPassword(), null, PasswordEncryptor.MD4, null,
null);
}
catch (Exception ex) {
// DEBUG
if (Debug.EnableError && hasDebug())
debugOutput(ex);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
System.arraycopy(md4byts, 0, p21, 0, 16);
// Generate the local hash of the password
byte[] localHash = null;
try {
localHash = getEncryptor().doNTLM1Encryption(p21, v2challenge);
}
catch (NoSuchAlgorithmException ex) {
// Log the error
if (Debug.EnableError && hasDebug())
debugOutput(ex);
}
// Validate the password
byte[] clientHash = type3Msg.getNTLMHash();
if (clientHash != null && localHash != null && clientHash.length == localHash.length) {
if ( Arrays.equals( clientHash, localHash) == false) {
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
// Store the full user name in the client information, indicate that this is not a guest logon
client.setUserName(userName);
client.setGuest(false);
// Indicate that the session is logged on
sess.setLoggedOn(true);
} else {
// Log a warning, user does not exist
if (hasDebugOutput())
debugOutput("[SMB] User does not exist, " + userName);
// Return a logon failure
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
}
}
/**
* Perform a hashed password logon using either NTLMv1 or NTLMv2
*
* @param sess SMBSrvSession
* @param reqPkt SMBSrvPacket
* @exception SMBSrvException SMB error
*/
private final void doHashedPasswordLogon(SMBSrvSession sess, SMBSrvPacket reqPkt)
throws SMBSrvException {
// Get the associated parser
SMBV1Parser parser = (SMBV1Parser) reqPkt.getParser();
// Check that the received packet looks like a valid NT session setup andX request
if (parser.checkPacketIsValid(13, 0) == false)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.ErrSrv, SMBStatus.SRVNonSpecificError);
// Extract the session details
int maxBufSize = parser.getParameter(2);
int maxMpx = parser.getParameter(3);
int vcNum = parser.getParameter(4);
int ascPwdLen = parser.getParameter(7);
int uniPwdLen = parser.getParameter(8);
int capabs = parser.getParameterLong(11);
// Extract the client details from the session setup request
byte[] buf = parser.getBuffer();
// Determine if ASCII or unicode strings are being used
boolean isUni = parser.isUnicode();
// Extract the password strings
byte[] ascPwd = parser.unpackBytes(ascPwdLen);
byte[] uniPwd = parser.unpackBytes(uniPwdLen);
// Extract the user name string
String user = parser.unpackString(isUni);
if (user == null)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.ErrSrv, SMBStatus.SRVNonSpecificError);
// Extract the clients primary domain name string
String domain = "";
if (parser.hasMoreData()) {
// Extract the callers domain name
domain = parser.unpackString(isUni);
if (domain == null)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.ErrSrv, SMBStatus.SRVNonSpecificError);
}
// Extract the clients native operating system
String clientOS = "";
if (parser.hasMoreData()) {
// Extract the callers operating system name
clientOS = parser.unpackString(isUni);
if (clientOS == null)
throw new SMBSrvException(SMBStatus.NTInvalidParameter, SMBStatus.ErrSrv, SMBStatus.SRVNonSpecificError);
}
// DEBUG
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE)) {
debugOutput("[SMB] NT Session setup from user=" + user + ", password="
+ (uniPwd != null ? HexDump.hexString(uniPwd) : "none") + ", ANSIpwd="
+ (ascPwd != null ? HexDump.hexString(ascPwd) : "none") + ", domain=" + domain + ", os=" + clientOS + ", VC="
+ vcNum + ", maxBuf=" + maxBufSize + ", maxMpx=" + maxMpx + ", authCtx=" + sess.getAuthenticationContext());
debugOutput("[SMB] MID=" + parser.getMultiplexId() + ", UID=" + parser.getUserId() + ", PID="
+ parser.getProcessId());
}
// Store the client maximum buffer size, maximum multiplexed requests count and client capability flags
sess.setClientMaximumBufferSize(maxBufSize != 0 ? maxBufSize : SMBSrvSession.DefaultBufferSize);
sess.setClientMaximumMultiplex(maxMpx);
sess.setClientCapabilities(capabs);
// Create the client information and store in the session
ClientInfo client = ClientInfo.getFactory().createInfo(user, uniPwd);
client.setANSIPassword(ascPwd);
client.setDomain(domain);
client.setOperatingSystem(clientOS);
if (sess.hasRemoteAddress())
client.setClientAddress(sess.getRemoteAddress().getHostAddress());
// Check if this is a null session logon
if (user.length() == 0 && domain.length() == 0 && uniPwdLen == 0)
client.setLogonType(ClientInfo.LogonType.Null);
// Authenticate the user using the Unicode password hash, this is either NTLMv1 or NTLMv2 encoded
boolean isGuest = false;
if (uniPwd != null) {
if (uniPwd.length == 24) {
// NTLMv1 hashed password
doNTLMv1Logon(sess, client);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Logged on using Hashed/NTLMv1");
} else if (uniPwd.length > 0) {
// NTLMv2 blob
doNTLMv2Logon(sess, client);
// Debug
if (hasDebugOutput())
debugOutput("[SMB] Logged on using Hashed/NTLMv2");
}
} else {
// Mark the session as a null logon
client.setLogonType(ClientInfo.LogonType.Null);
}
// Check if the user was logged on as guest
if (client.isGuest()) {
// Guest logon
isGuest = true;
// DEBUG
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE))
debugOutput("[SMB] User " + user + ", logged on as guest");
}
// Create a virtual circuit and allocate a UID to the new circuit
VirtualCircuit vc = new VirtualCircuit(vcNum, client);
int uid = sess.addVirtualCircuit(vc);
if (uid == VirtualCircuit.InvalidID) {
// DEBUG
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE))
debugOutput("[SMB] Failed to allocate UID for virtual circuit, " + vc);
// Failed to allocate a UID
throw new SMBSrvException(SMBStatus.NTLogonFailure, SMBStatus.ErrDos, SMBStatus.DOSAccessDenied);
} else if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.NEGOTIATE)) {
// DEBUG
debugOutput("[SMB] Allocated UID=" + uid + " for VC=" + vc);
}
// Set the guest flag for the client, indicate that the session is logged on
if (isGuest == true)
client.setLogonType(ClientInfo.LogonType.Guest);
sess.setLoggedOn(true);
// Indicate a successful logon, the method can throw an exception to stop the logon
onSuccessfulLogon( client);
// Build the session setup response SMB
parser.setParameterCount(3);
parser.setParameter(0, 0); // No chained response
parser.setParameter(1, 0); // Offset to chained response
parser.setParameter(2, isGuest ? 1 : 0);
parser.setByteCount(0);
parser.setTreeId(0);
parser.setUserId(uid);
// Set the various flags
int flags = parser.getFlags();
flags &= ~SMBV1.FLG_CASELESS;
parser.setFlags(flags);
int flags2 = SMBV1.FLG2_LONGFILENAMES;
if (isUni)
flags2 += SMBV1.FLG2_UNICODE;
parser.setFlags2(flags2);
// Pack the OS, dialect and domain name strings.
int pos = parser.getByteOffset();
buf = parser.getBuffer();
if (isUni)
pos = DataPacker.wordAlign(pos);
pos = DataPacker.putString("Java", buf, pos, true, isUni);
pos = DataPacker.putString("Java File Server " + sess.getServer().isVersion(), buf, pos, true, isUni);
pos = DataPacker.putString(sess.getSMBServer().getSMBConfiguration().getDomainName(), buf, pos, true, isUni);
parser.setByteCount(pos - parser.getByteOffset());
}
/**
* Generate the session keys/ciphers
*
* @param sess SMBSrvSession
* @param type3 Type3NTLMMessage
* @param v2hash byte[]
* @param srvHMAC byte[]
* @param clientHMAC byte[]
* @exception Exception Error initializing the keys
*/
private void generateSessionKeys(SMBSrvSession sess, Type3NTLMMessage type3, byte[] v2hash, byte[] srvHMAC, byte[] clientHMAC)
throws Exception {
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] Generate session keys, v2hash=" + HexDump.hexString( v2hash));
// Calculate the session base key
Mac hmacMd5 = Mac.getInstance("HMACMD5");
SecretKeySpec blobKey = new SecretKeySpec(v2hash, "MD5");
hmacMd5.init(blobKey);
byte[] sessionBaseKey = hmacMd5.doFinal(clientHMAC);
// DEBUG
if (hasDebugOutput())
debugOutput(" Session base key=" + HexDump.hexString( sessionBaseKey));
// Decrypt the random session key
byte[] encSessKey = type3.getSessionKey();
// DEBUG
if (hasDebugOutput())
debugOutput(" Random session key=" + HexDump.hexString( encSessKey));
Cipher rc4 = Cipher.getInstance("RC4");
rc4.init(Cipher.DECRYPT_MODE, new SecretKeySpec(sessionBaseKey, "RC4"));
byte[] randSessKey = rc4.doFinal(encSessKey);
// Store the session key
sess.addSessionKey(KeyType.SessionKey, randSessKey);
// DEBUG
if (Debug.EnableInfo && sess.hasDebug(SMBSrvSession.Dbg.SIGNING))
sess.debugPrintln("Set session key=" + HexDump.hexString(randSessKey));
// Check if extended security has been negotiated
if ( type3.hasFlag(NTLM.FlagNegotiateExtSecurity)) {
// Generate the NTLM server signing key
MessageDigest md5 = MessageDigest.getInstance("MD5");
md5.update(randSessKey);
md5.update(NTLM.SERVER_SIGNING_KEY_CONST);
byte[] srvSigningKey = md5.digest();
// Store the server signing key
sess.addSessionKey(KeyType.NTLMServerSigningKey, srvSigningKey);
// Generate the NTLM client signing key
md5.reset();
md5.update(randSessKey);
md5.update(NTLM.CLIENT_SIGNING_KEY_CONST);
byte[] clientSigningKey = md5.digest();
// Store the client signing key
sess.addSessionKey(KeyType.NTLMClientSigningKey, clientSigningKey);
// Generate the NTLM server sealing key
md5.reset();
md5.update(randSessKey);
md5.update(NTLM.SERVER_SEALING_KEY_CONST);
byte[] srvSealingKey = md5.digest();
// Store the server sealing key
sess.addSessionKey(KeyType.NTLMServerSealingKey, srvSealingKey);
// Generate the NTLM client sealing key
md5.reset();
md5.update(randSessKey);
md5.update(NTLM.CLIENT_SEALING_KEY_CONST);
byte[] clientSealingKey = md5.digest();
// Store the client sealing key
sess.addSessionKey(KeyType.NTLMClientSealingKey, clientSealingKey);
// Create the server RC4 sealing context
Cipher srvRC4 = Cipher.getInstance("RC4");
SecretKeySpec srvKey = new SecretKeySpec(srvSealingKey, "RC4");
srvRC4.init(Cipher.ENCRYPT_MODE, srvKey);
// Store the server RC4 context
sess.addSessionKey(KeyType.NTLMServerRC4Context, srvRC4);
// Create the client RC4 sealing context
Cipher clientRC4 = Cipher.getInstance("RC4");
SecretKeySpec clientKey = new SecretKeySpec(clientSealingKey, "RC4");
clientRC4.init(Cipher.DECRYPT_MODE, clientKey);
// Store the client RC4 context
sess.addSessionKey(KeyType.NTLMClientRC4Context, clientRC4);
}
}
/**
* Verify a MIC token
*
* @param sess SMBSrvSession
* @param buf byte[]
* @param offset int
* @param len int
* @param rxMIC byte[]
* @param pid int
* @return boolean
*/
protected final boolean verifyMIC(SMBSrvSession sess, byte[] buf, int offset, int len, byte[] rxMIC, int pid) {
// Make sure the received MIC looks like a valid MIC token
if ( rxMIC == null || rxMIC.length != MIC_TOKEN_LENGTH)
return false;
DataBuffer rxMICBuf = new DataBuffer( rxMIC, 0, rxMIC.length);
if ( rxMICBuf.getInt() != MIC_TOKEN_VER_NTLMSSP)
return false;
boolean micSts = false;
try {
// Get the client signing/sealing keys and RC4 context
byte[] clientSigningKey = (byte[]) sess.getSessionKey(KeyType.NTLMClientSigningKey);
Cipher clientRC4 = (Cipher) sess.getSessionKey(KeyType.NTLMClientRC4Context);
// HMAC-MD5 of sequence number+data using the client signing key/RC4
SecretKeySpec md5Key = new SecretKeySpec( clientSigningKey, "MD5");
Mac hmacMD5 = Mac.getInstance("HMACMD5");
byte[] seqNo = new byte[] { 0x00, 0x00, 0x00, 0x00};
hmacMD5.init( md5Key);
hmacMD5.update( rxMICBuf.getBuffer(), MIC_TOKEN_SEQNO, 4);
hmacMD5.update( buf, offset, len);
byte[] md5Chk = hmacMD5.doFinal();
// RC4 first 8 bytes of the HMAC-MD5 result
byte[] chkSum = clientRC4.update(md5Chk, 0, 8);
// Build the MIC token
DataBuffer micToken = new DataBuffer(16);
micToken.putInt( MIC_TOKEN_VER_NTLMSSP);
micToken.appendData(chkSum);
micToken.putInt( 0);
// Check if the MIC token is valid
if ( Arrays.equals(rxMIC, micToken.getBuffer()))
micSts = true;
// DEBUG
if (micSts == false && hasDebugOutput()) {
sess.debugPrintln("Verify MIC, generated MIC token=" + HexDump.hexString(micToken.getBuffer()));
sess.debugPrintln(" Received MIC token=" + HexDump.hexString(rxMIC));
}
}
catch ( Exception ex) {
debugOutput( ex);
}
// Return the MIC status
return micSts;
}
/**
* Generate a MIC token
*
* @param sess SMBSrvSession
* @param buf byte[]
* @param offset int
* @param len int
* @param seqNo int
* @return byte[]
*/
protected final byte[] generateMIC(SMBSrvSession sess, byte[] buf, int offset, int len, int seqNo) {
// Get the server signing key
byte[] srvSigningKey = (byte[]) sess.getSessionKey(KeyType.NTLMServerSigningKey);
DataBuffer micToken = null;
try {
// Check if the server signing key is valid, if not then use the weaker CRC-32 to generate the MIC
if ( srvSigningKey != null) {
// Need to generate a mechListMIC for the response
SecretKeySpec key = new SecretKeySpec(srvSigningKey, "MD5");
Mac hmacMd5 = Mac.getInstance("HMACMD5");
// Buffer for the sequence number bytes
byte[] seqNoBuf = new byte[4];
DataPacker.putInt(seqNo, seqNoBuf, 0);
// Generate the message integrity code
hmacMd5.init(key);
hmacMd5.update(seqNoBuf);
hmacMd5.update(buf, offset, len);
byte[] chkSum = hmacMd5.doFinal();
Cipher srvRC4 = (Cipher) sess.getSessionKey(KeyType.NTLMServerRC4Context);
chkSum = srvRC4.update(chkSum, 0, 8);
micToken = new DataBuffer(16);
micToken.putInt(MIC_TOKEN_VER_NTLMSSP);
micToken.appendData(chkSum, 0, 8);
micToken.putInt(seqNo);
}
// Generate the MIC using CRC-32
else {
// TODO: Test with NTLM neg ext security switched off
// Generate the CRC-32
CRC32 crc32 = new CRC32();
crc32.update(buf, offset, len);
// Build the MIC token
micToken = new DataBuffer(16);
micToken.putInt(MIC_TOKEN_VER_NTLMSSP);
micToken.putZeros(4);
micToken.putInt ((int) (crc32.getValue() & 0xFFFFFFFF));
micToken.putInt(seqNo);
}
}
catch (Exception ex) {
// Ignore the error for now
}
// Return the MIC token, if valid
if ( micToken != null) {
// DEBUG
if (hasDebugOutput())
debugOutput("[SMB] Generate micToken (" + (srvSigningKey != null ? "key" : "crc") + ")=" + HexDump.hexString(micToken.getBuffer()));
return micToken.getBuffer();
}
return null;
}
/**
* Build the SPNEGO NegTokenInit with the specified mech types enabled
*
* @param srvName String
* @param mechTypes List of OIDs
* @return NegTokenInit
*/
protected NegTokenInit buildNegTokenInit( String srvName, List mechTypes) {
// Build the mechListMIC principle
//
// Note: This field is not as specified, only seems to be used by Samba clients (Linux/Mac/Unix)
String mecListMIC = null;
StringBuilder mic = new StringBuilder();
mic.append("cifs/");
mic.append(srvName.toLowerCase());
mic.append("@");
mic.append(m_krbRealm);
mecListMIC = mic.toString();
// Build the SPNEGO NegTokenInit that contains the authentication types that the
// SMB server accepts
return new NegTokenInit(mechTypes, mecListMIC);
}
/**
* Called after a successful logon
*
* @param client ClientInfo
*/
protected void onSuccessfulLogon( ClientInfo client) {
}
/**
* Normalize a user name from a Kerberos/NTLM logon
*
* @param externalUserId String
* @return String
* @exception SMBSrvException SMB error
*/
protected String normalizeUserId(String externalUserId)
throws SMBSrvException {
// Default, just return the original user name
return externalUserId;
}
/**
* Get the privileged action to run for a Kerberos logon
*
* @param negToken NegTokenInit
* @return PrivilegedAction
*/
protected PrivilegedAction getKerberosPrivilegedAction( NegTokenInit negToken) {
return new SessionSetupPrivilegedAction(m_accountName, negToken.getMechtoken());
}
/**
* Kerberos authentication hook, can stop the logon even though Kerberos authentication has been successful
*
* @param sess SMBSrvSession
* @param krbDetails KerberosDetails
* @param client ClientInfo
* @exception SMBSrvException To prevent the user logon
*/
protected void postKerberosLogon( SMBSrvSession sess, KerberosDetails krbDetails, ClientInfo client)
throws SMBSrvException {
}
/**
* NTLM authentication hook, can stop the logon even though the NTLM authentication has been successful
*
* @param sess SMBSrvSession
* @param client ClientInfo
* @throws SMBSrvException To prevent the user logon
*/
protected void postNTLMLogon( SMBSrvSession sess, ClientInfo client)
throws SMBSrvException {
}
/**
* Check if debug output is enabled
*
* @return boolean
*/
public boolean hasDebugOutput() {
return Debug.EnableDbg && hasDebug();
}
/**
* Check if NTLM loopback logons are allowed
*
* @return boolean
*/
public final boolean hasLoopbackNTLM() { return m_allowLoopbackNTLM; }
/**
* Check if NTLM loopback logons are enabled and the logon is from a loopback address
*
* @param client ClientInfo
* @return boolean
*/
protected final boolean isLoopbackLogon(ClientInfo client) {
// Check if loopback NTLM logons are allowed
boolean loopbackLogon = false;
if ( hasLoopbackNTLM()) {
// Check if the client is using a loopback address
if (client.hasClientAddress()) {
// Get the client address
String clientAddr = client.getClientAddress().toUpperCase();
if ( clientAddr.startsWith( "127.") || clientAddr.startsWith( "FE80:"))
loopbackLogon = true;
}
}
return loopbackLogon;
}
/**
* Output debug logging
*
* @param dbg String
*/
public void debugOutput(String dbg) {
Debug.println( dbg);
}
/**
* Output an exception
*
* @param ex Exception
*/
public void debugOutput(Exception ex) {
// Write the exception stack trace records to an in-memory stream
StringWriter strWrt = new StringWriter();
ex.printStackTrace(new PrintWriter(strWrt, true));
// Split the resulting string into seperate records and output to the debug device
StringTokenizer strTok = new StringTokenizer(strWrt.toString(), LineSeperator);
while (strTok.hasMoreTokens())
debugOutput(strTok.nextToken());
}
@Override
public String toString() {
StringBuilder str = new StringBuilder();
str.append( getClass().getName());
str.append(" - ");
if (m_useRawNTLMSSP)
str.append( "NTLMSSP");
else
str.append( "SPNEGO");
if ( allowNTLMLogon() == false)
str.append(",NoNTLM");
if ( acceptNTLMv1Logon() == false)
str.append(",NoNTLMv1");
if ( m_loginContext != null && m_krbRealm != null) {
str.append(",Kerberos=");
str.append( m_krbRealm);
}
return str.toString();
}
}