public static CipherSuite InitializeCipherSuite(byte[] master, byte[] clientrnd, byte[] serverrnd, CipherDefinition definition, ConnectionEnd entity)
{
CipherSuite ret = new CipherSuite();
SymmetricAlgorithm bulk = (SymmetricAlgorithm)Activator.CreateInstance(definition.BulkCipherAlgorithm);
if (definition.BulkIVSize > 0)
bulk.Mode = CipherMode.CBC;
bulk.Padding = PaddingMode.None;
bulk.BlockSize = definition.BulkIVSize * 8;
// get the keys and IVs
byte[] client_mac, server_mac, client_key, server_key, client_iv, server_iv;
byte[] random = new byte[64];
Array.Copy(serverrnd, 0, random, 0, 32);
Array.Copy(clientrnd, 0, random, 32, 32);
PseudoRandomDeriveBytes prf = new PseudoRandomDeriveBytes(master, "key expansion", random);
client_mac = prf.GetBytes(definition.HashSize);
server_mac = prf.GetBytes(definition.HashSize);
client_key = prf.GetBytes(definition.BulkKeySize);
server_key = prf.GetBytes(definition.BulkKeySize);
client_iv = prf.GetBytes(definition.BulkIVSize);
server_iv = prf.GetBytes(definition.BulkIVSize);
prf.Dispose();
if (definition.Exportable) { // make some extra modifications if the keys are exportable
Array.Copy(clientrnd, 0, random, 0, 32);
Array.Copy(serverrnd, 0, random, 32, 32);
prf = new PseudoRandomDeriveBytes(client_key, "client write key", random);
client_key = prf.GetBytes(definition.BulkExpandedSize);
prf.Dispose();
prf = new PseudoRandomDeriveBytes(server_key, "server write key", random);
server_key = prf.GetBytes(definition.BulkExpandedSize);
prf.Dispose();
prf = new PseudoRandomDeriveBytes(new byte[0], "IV block", random);
client_iv = prf.GetBytes(definition.BulkIVSize);
server_iv = prf.GetBytes(definition.BulkIVSize);
prf.Dispose();
}
// generate the cipher objects
if (entity == ConnectionEnd.Client) {
ret.Encryptor = bulk.CreateEncryptor(client_key, client_iv);
ret.Decryptor = bulk.CreateDecryptor(server_key, server_iv);
ret.LocalHasher = new HMAC((HashAlgorithm)Activator.CreateInstance(definition.HashAlgorithm), client_mac);
ret.RemoteHasher = new HMAC((HashAlgorithm)Activator.CreateInstance(definition.HashAlgorithm), server_mac);
} else {
ret.Encryptor = bulk.CreateEncryptor(server_key, server_iv);
ret.Decryptor = bulk.CreateDecryptor(client_key, client_iv);
ret.LocalHasher = new HMAC((HashAlgorithm)Activator.CreateInstance(definition.HashAlgorithm), server_mac);
ret.RemoteHasher = new HMAC((HashAlgorithm)Activator.CreateInstance(definition.HashAlgorithm), client_mac);
}
// clear sensitive data
Array.Clear(client_mac, 0, client_mac.Length);
Array.Clear(server_mac, 0, server_mac.Length);
Array.Clear(client_key, 0, client_key.Length);
Array.Clear(server_key, 0, server_key.Length);
Array.Clear(client_iv, 0, client_iv.Length);
Array.Clear(server_iv, 0, server_iv.Length);
Array.Clear(random, 0, random.Length);
return ret;
}
protected SslHandshakeStatus ProcessServerKeyExchange(HandshakeMessage message)
{
if (m_State != HandshakeType.Certificate)
{
throw new SslException(AlertDescription.UnexpectedMessage, "ServerKeyExchange message must be preceded by a Certificate message.");
}
CipherDefinition cd = CipherSuites.GetCipherDefinition(m_EncryptionScheme);
if (!cd.Exportable)
{
throw new SslException(AlertDescription.HandshakeFailure, "The ServerKeyExchange message should not be sent for non-exportable ciphers.");
}
if (m_RemoteCertificate.GetPublicKeyLength() <= 512)
{
throw new SslException(AlertDescription.HandshakeFailure, "The ServerKeyExchange message should not be sent because the server certificate public key is of exportable length.");
}
UpdateHashes(message, HashUpdate.All); // input message
// extract modulus and exponent
RSAParameters pars = new RSAParameters();
int size = message.fragment[0] * 256 + message.fragment[1];
pars.Modulus = new byte[size];
Buffer.BlockCopy(message.fragment, 2, pars.Modulus, 0, size);
int offset = size + 2;
size = message.fragment[offset] * 256 + message.fragment[offset + 1];
pars.Exponent = new byte[size];
Buffer.BlockCopy(message.fragment, offset + 2, pars.Exponent, 0, size);
offset += size + 2;
pars.Modulus = RemoveLeadingZeros(pars.Modulus);
pars.Exponent = RemoveLeadingZeros(pars.Exponent);
m_KeyCipher = new RSACryptoServiceProvider();
m_KeyCipher.ImportParameters(pars);
// compute verification hashes
MD5SHA1CryptoServiceProvider ms = new MD5SHA1CryptoServiceProvider();
ms.TransformBlock(m_ClientTime, 0, m_ClientTime.Length, m_ClientTime, 0);
ms.TransformBlock(m_ClientRandom, 0, m_ClientRandom.Length, m_ClientRandom, 0);
ms.TransformBlock(m_ServerTime, 0, m_ServerTime.Length, m_ServerTime, 0);
ms.TransformBlock(m_ServerRandom, 0, m_ServerRandom.Length, m_ServerRandom, 0);
ms.TransformFinalBlock(message.fragment, 0, offset);
// verify the signature
size = message.fragment[offset] * 256 + message.fragment[offset + 1];
byte[] signature = new byte[size]; // holds the signature returned by the server
Buffer.BlockCopy(message.fragment, offset + 2, signature, 0, size);
if (!ms.VerifySignature(m_RemoteCertificate, signature))
{
throw new SslException(AlertDescription.HandshakeFailure, "The data was not signed by the server certificate.");
}
ms.Clear();
return(new SslHandshakeStatus(SslStatus.MessageIncomplete, null));
}
public static CipherSuite InitializeCipherSuite(byte[] master, byte[] clientrnd, byte[] serverrnd, CipherDefinition definition, ConnectionEnd entity)
{
CipherSuite ret = new CipherSuite();
SymmetricAlgorithm bulk = (SymmetricAlgorithm)Activator.CreateInstance(definition.BulkCipherAlgorithm);
if (definition.BulkIVSize > 0)
bulk.Mode = CipherMode.CBC;
bulk.Padding = PaddingMode.None;
bulk.BlockSize = definition.BulkIVSize * 8;
// get the keys and IVs
byte[] client_mac, server_mac, client_key, server_key, client_iv, server_iv;
Ssl3DeriveBytes prf = new Ssl3DeriveBytes(master, clientrnd, serverrnd, false);
client_mac = prf.GetBytes(definition.HashSize);
server_mac = prf.GetBytes(definition.HashSize);
client_key = prf.GetBytes(definition.BulkKeySize);
server_key = prf.GetBytes(definition.BulkKeySize);
client_iv = prf.GetBytes(definition.BulkIVSize);
server_iv = prf.GetBytes(definition.BulkIVSize);
prf.Dispose();
if (definition.Exportable) { // make some extra modifications if the keys are exportable
MD5 md5 = new MD5CryptoServiceProvider();
md5.TransformBlock(client_key, 0, client_key.Length, client_key, 0);
md5.TransformBlock(clientrnd, 0, clientrnd.Length, clientrnd, 0);
md5.TransformFinalBlock(serverrnd, 0, serverrnd.Length);
client_key = new byte[definition.BulkExpandedSize];
Buffer.BlockCopy(md5.Hash, 0, client_key, 0, client_key.Length);
md5.Initialize();
md5.TransformBlock(server_key, 0, server_key.Length, server_key, 0);
md5.TransformBlock(serverrnd, 0, serverrnd.Length, serverrnd, 0);
md5.TransformFinalBlock(clientrnd, 0, clientrnd.Length);
server_key = new byte[definition.BulkExpandedSize];
Buffer.BlockCopy(md5.Hash, 0, server_key, 0, server_key.Length);
md5.Initialize();
md5.TransformBlock(clientrnd, 0, clientrnd.Length, clientrnd, 0);
md5.TransformFinalBlock(serverrnd, 0, serverrnd.Length);
client_iv = new byte[definition.BulkIVSize];
Buffer.BlockCopy(md5.Hash, 0, client_iv, 0, client_iv.Length);
md5.Initialize();
md5.TransformBlock(serverrnd, 0, serverrnd.Length, serverrnd, 0);
md5.TransformFinalBlock(clientrnd, 0, clientrnd.Length);
server_iv = new byte[definition.BulkIVSize];
Buffer.BlockCopy(md5.Hash, 0, server_iv, 0, server_iv.Length);
md5.Clear();
}
// generate the cipher objects
if (entity == ConnectionEnd.Client) {
ret.Encryptor = bulk.CreateEncryptor(client_key, client_iv);
ret.Decryptor = bulk.CreateDecryptor(server_key, server_iv);
ret.LocalHasher = new Ssl3RecordMAC(definition.HashAlgorithmType, client_mac);
ret.RemoteHasher = new Ssl3RecordMAC(definition.HashAlgorithmType, server_mac);
} else {
ret.Encryptor = bulk.CreateEncryptor(server_key, server_iv);
ret.Decryptor = bulk.CreateDecryptor(client_key, client_iv);
ret.LocalHasher = new Ssl3RecordMAC(definition.HashAlgorithmType, server_mac);
ret.RemoteHasher = new Ssl3RecordMAC(definition.HashAlgorithmType, client_mac);
}
// clear sensitive data
Array.Clear(client_mac, 0, client_mac.Length);
Array.Clear(server_mac, 0, server_mac.Length);
Array.Clear(client_key, 0, client_key.Length);
Array.Clear(server_key, 0, server_key.Length);
Array.Clear(client_iv, 0, client_iv.Length);
Array.Clear(server_iv, 0, server_iv.Length);
return ret;
}
protected SslHandshakeStatus ProcessCertificateRequest(HandshakeMessage message)
{
if (m_State == HandshakeType.ServerKeyExchange)
{
CipherDefinition cd = CipherSuites.GetCipherDefinition(m_EncryptionScheme);
if (this.m_RemoteCertificate.GetPublicKeyLength() <= 512 || !cd.Exportable)
{
throw new SslException(AlertDescription.HandshakeFailure, "Invalid message.");
}
}
else if (m_State != HandshakeType.Certificate)
{
throw new SslException(AlertDescription.UnexpectedMessage, "CertificateRequest message must be preceded by a Certificate or ServerKeyExchange message.");
}
UpdateHashes(message, HashUpdate.All); // input message
// get supported certificate types
bool supportsRsaCerts = false;
byte[] certTypes = new byte[message.fragment[0]]; // currently we're not doing anything with the supported certificate types
Buffer.BlockCopy(message.fragment, 1, certTypes, 0, certTypes.Length);
for (int i = 0; i < certTypes.Length; i++)
{
if (certTypes[i] == 1) // rsa_sign
{
supportsRsaCerts = true;
break;
}
}
// get list of distinguished names
if (m_Options.RequestHandler != null && supportsRsaCerts) // make sure the client passed a delegate
{
Queue q = new Queue();
DistinguishedNameList r = new DistinguishedNameList();
int size, offset = message.fragment[0] + 3;
byte[] buffer;
while (offset < message.fragment.Length)
{
size = message.fragment[offset] * 256 + message.fragment[offset + 1];
buffer = new byte[size];
Buffer.BlockCopy(message.fragment, offset + 2, buffer, 0, size);
q.Enqueue(buffer);
offset += size + 2;
}
// decode RDN structures
while (q.Count > 0)
{
r.Add(ProcessName((byte[])q.Dequeue()));
}
RequestEventArgs e = new RequestEventArgs();
try {
m_Options.RequestHandler(Parent, r, e);
if (e.Certificate != null)
{
m_Options.Certificate = e.Certificate;
}
} catch (Exception de) {
throw new SslException(de, AlertDescription.InternalError, "The code in the CertRequestEventHandler delegate threw an error.");
}
}
if (!supportsRsaCerts)
{
m_Options.Certificate = null; // do not send client certificate
}
m_MutualAuthentication = true;
return(new SslHandshakeStatus(SslStatus.MessageIncomplete, null));
}
