/// <summary>Creates the LMv2 response for the supplied information.</summary>
/// <remarks>Creates the LMv2 response for the supplied information.</remarks>
/// <param name="domain">The domain in which the username exists.</param>
/// <param name="user">The username.</param>
/// <param name="password">The user's password.</param>
/// <param name="challenge">The server challenge.</param>
/// <param name="clientChallenge">The client challenge (nonce).</param>
public static byte[] GetLMv2Response(string domain, string user, string password,
byte[] challenge, byte[] clientChallenge)
{
try
{
byte[] hash = new byte[16];
byte[] response = new byte[24];
// The next 2-1/2 lines of this should be placed with nTOWFv1 in place of password
Md4 md4 = new Md4();
md4.Update(Runtime.GetBytesForString(password, SmbConstants.UniEncoding)
);
Hmact64 hmac = new Hmact64(md4.Digest());
hmac.Update(Runtime.GetBytesForString(user.ToUpper(), SmbConstants.UniEncoding
));
hmac.Update(Runtime.GetBytesForString(domain.ToUpper(), SmbConstants.UniEncoding
));
hmac = new Hmact64(hmac.Digest());
hmac.Update(challenge);
hmac.Update(clientChallenge);
hmac.Digest(response, 0, 16);
Array.Copy(clientChallenge, 0, response, 16, 8);
return(response);
}
catch (Exception ex)
{
if (_log.Level > 0)
{
Runtime.PrintStackTrace(ex, _log);
}
return(null);
}
}
/// <summary>Calculates the effective user session key.</summary>
/// <remarks>Calculates the effective user session key.</remarks>
/// <param name="challenge">The server challenge.</param>
/// <param name="dest">
/// The destination array in which the user session key will be
/// placed.
/// </param>
/// <param name="offset">
/// The offset in the destination array at which the
/// session key will start.
/// </param>
/// <exception cref="SharpCifs.Smb.SmbException"></exception>
internal void GetUserSessionKey(byte[] challenge, byte[] dest, int offset)
{
if (HashesExternal)
{
return;
}
try
{
Md4 md4 = new Md4();
md4.Update(Runtime.GetBytesForString(Password, SmbConstants.UniEncoding)
);
switch (LmCompatibility)
{
case 0:
case 1:
case 2:
{
md4.Update(md4.Digest());
md4.Digest(dest, offset, 16);
break;
}
case 3:
case 4:
case 5:
{
if (ClientChallenge == null)
{
ClientChallenge = new byte[8];
Random.NextBytes(ClientChallenge);
}
Hmact64 hmac = new Hmact64(md4.Digest());
hmac.Update(Runtime.GetBytesForString(Username.ToUpper(), SmbConstants.UniEncoding
));
hmac.Update(Runtime.GetBytesForString(Domain.ToUpper(), SmbConstants.UniEncoding
));
byte[] ntlmv2Hash = hmac.Digest();
hmac = new Hmact64(ntlmv2Hash);
hmac.Update(challenge);
hmac.Update(ClientChallenge);
Hmact64 userKey = new Hmact64(ntlmv2Hash);
userKey.Update(hmac.Digest());
userKey.Digest(dest, offset, 16);
break;
}
default:
{
md4.Update(md4.Digest());
md4.Digest(dest, offset, 16);
break;
}
}
}
catch (Exception e)
{
throw new SmbException(string.Empty, e);
}
}
internal static byte[] ComputeResponse(byte[] responseKey, byte[] serverChallenge
, byte[] clientData, int offset, int length)
{
Hmact64 hmac = new Hmact64(responseKey);
hmac.Update(serverChallenge);
hmac.Update(clientData, offset, length);
byte[] mac = hmac.Digest();
byte[] ret = new byte[mac.Length + clientData.Length];
Array.Copy(mac, 0, ret, 0, mac.Length);
Array.Copy(clientData, 0, ret, mac.Length, clientData.Length);
return(ret);
}
public static byte[] NtowFv2(string domain, string username, string password)
{
try
{
Md4 md4 = new Md4();
md4.Update(Runtime.GetBytesForString(password, SmbConstants.UniEncoding));
Hmact64 hmac = new Hmact64(md4.Digest());
hmac.Update(Runtime.GetBytesForString(username.ToUpper(), SmbConstants.UniEncoding));
hmac.Update(Runtime.GetBytesForString(domain, SmbConstants.UniEncoding));
return(hmac.Digest());
}
catch (UnsupportedEncodingException uee)
{
throw new RuntimeException(uee.Message);
}
}
/// <summary>Creates a Type-3 message in response to the given Type-2 message.</summary>
/// <remarks>Creates a Type-3 message in response to the given Type-2 message.</remarks>
/// <param name="type2">The Type-2 message which this represents a response to.</param>
/// <param name="password">The password to use when constructing the response.</param>
/// <param name="domain">The domain in which the user has an account.</param>
/// <param name="user">The username for the authenticating user.</param>
/// <param name="workstation">
/// The workstation from which authentication is
/// taking place.
/// </param>
public Type3Message(Type2Message type2,
string password,
string domain,
string user,
string workstation,
int flags)
{
SetFlags(flags | GetDefaultFlags(type2));
if (workstation == null)
{
workstation = GetDefaultWorkstation();
}
SetWorkstation(workstation);
SetDomain(domain);
SetUser(user);
switch (LmCompatibility)
{
case 0:
case 1:
{
if ((GetFlags() & NtlmsspNegotiateNtlm2) == 0)
{
SetLmResponse(GetLMResponse(type2, password));
SetNtResponse(GetNTResponse(type2, password));
}
else
{
// NTLM2 Session Response
byte[] clientChallenge = new byte[24];
//RANDOM.NextBytes(clientChallenge);
Arrays.Fill(clientChallenge, 8, 24, unchecked ((byte)unchecked (0x00)));
// NTLMv1 w/ NTLM2 session sec and key exch all been verified with a debug build of smbclient
byte[] responseKeyNt
= NtlmPasswordAuthentication.NtowFv1(password);
byte[] ntlm2Response
= NtlmPasswordAuthentication.GetNtlm2Response(responseKeyNt,
type2.GetChallenge(),
clientChallenge);
SetLmResponse(clientChallenge);
SetNtResponse(ntlm2Response);
if ((GetFlags() & NtlmsspNegotiateSign) == NtlmsspNegotiateSign)
{
byte[] sessionNonce = new byte[16];
Array.Copy(type2.GetChallenge(), 0, sessionNonce, 0, 8);
Array.Copy(clientChallenge, 0, sessionNonce, 8, 8);
Md4 md4 = new Md4();
md4.Update(responseKeyNt);
byte[] userSessionKey = md4.Digest();
Hmact64 hmac = new Hmact64(userSessionKey);
hmac.Update(sessionNonce);
byte[] ntlm2SessionKey = hmac.Digest();
if ((GetFlags() & NtlmsspNegotiateKeyExch) != 0)
{
_masterKey = new byte[16];
//RANDOM.NextBytes(masterKey);
byte[] exchangedKey = new byte[16];
Rc4 rc4 = new Rc4(ntlm2SessionKey);
rc4.Update(_masterKey, 0, 16, exchangedKey, 0);
SetSessionKey(exchangedKey);
}
else
{
_masterKey = ntlm2SessionKey;
SetSessionKey(_masterKey);
}
}
}
break;
}
case 2:
{
byte[] nt = GetNTResponse(type2, password);
SetLmResponse(nt);
SetNtResponse(nt);
break;
}
case 3:
case 4:
case 5:
{
byte[] responseKeyNt1
= NtlmPasswordAuthentication.NtowFv2(domain, user, password);
byte[] clientChallenge1 = new byte[8];
//RANDOM.NextBytes(clientChallenge_1);
SetLmResponse(GetLMv2Response(type2, domain, user, password, clientChallenge1));
byte[] clientChallenge2 = new byte[8];
//RANDOM.NextBytes(clientChallenge2);
SetNtResponse(GetNtlMv2Response(type2, responseKeyNt1, clientChallenge2));
if ((GetFlags() & NtlmsspNegotiateSign) == NtlmsspNegotiateSign)
{
Hmact64 hmac = new Hmact64(responseKeyNt1);
hmac.Update(_ntResponse, 0, 16);
// only first 16 bytes of ntResponse
byte[] userSessionKey = hmac.Digest();
if ((GetFlags() & NtlmsspNegotiateKeyExch) != 0)
{
_masterKey = new byte[16];
//RANDOM.NextBytes(masterKey);
byte[] exchangedKey = new byte[16];
Rc4 rc4 = new Rc4(userSessionKey);
rc4.Update(_masterKey, 0, 16, exchangedKey, 0);
SetSessionKey(exchangedKey);
}
else
{
_masterKey = userSessionKey;
SetSessionKey(_masterKey);
}
}
break;
}
default:
{
SetLmResponse(GetLMResponse(type2, password));
SetNtResponse(GetNTResponse(type2, password));
break;
}
}
}