internal virtual DtlsTransport ClientHandshake(ClientHandshakeState state, DtlsRecordLayer recordLayer) { SecurityParameters securityParameters = state.clientContext.SecurityParameters; DtlsReliableHandshake handshake = new DtlsReliableHandshake(state.clientContext, recordLayer); byte[] clientHelloBody = GenerateClientHello(state, state.client); recordLayer.SetWriteVersion(ProtocolVersion.DTLSv10); handshake.SendMessage(HandshakeType.client_hello, clientHelloBody); DtlsReliableHandshake.Message serverMessage = handshake.ReceiveMessage(); while (serverMessage.Type == HandshakeType.hello_verify_request) { ProtocolVersion recordLayerVersion = recordLayer.ReadVersion; ProtocolVersion client_version = state.clientContext.ClientVersion; /* * RFC 6347 4.2.1 DTLS 1.2 server implementations SHOULD use DTLS version 1.0 regardless of * the version of TLS that is expected to be negotiated. DTLS 1.2 and 1.0 clients MUST use * the version solely to indicate packet formatting (which is the same in both DTLS 1.2 and * 1.0) and not as part of version negotiation. */ if (!recordLayerVersion.IsEqualOrEarlierVersionOf(client_version)) { throw new TlsFatalAlert(AlertDescription.illegal_parameter); } recordLayer.ReadVersion = null; byte[] cookie = ProcessHelloVerifyRequest(state, serverMessage.Body); byte[] patched = PatchClientHelloWithCookie(clientHelloBody, cookie); handshake.ResetHandshakeMessagesDigest(); handshake.SendMessage(HandshakeType.client_hello, patched); serverMessage = handshake.ReceiveMessage(); } if (serverMessage.Type == HandshakeType.server_hello) { ProtocolVersion recordLayerVersion = recordLayer.ReadVersion; ReportServerVersion(state, recordLayerVersion); recordLayer.SetWriteVersion(recordLayerVersion); ProcessServerHello(state, serverMessage.Body); } else { throw new TlsFatalAlert(AlertDescription.unexpected_message); } handshake.NotifyHelloComplete(); ApplyMaxFragmentLengthExtension(recordLayer, securityParameters.maxFragmentLength); if (state.resumedSession) { securityParameters.masterSecret = Arrays.Clone(state.sessionParameters.MasterSecret); recordLayer.InitPendingEpoch(state.client.GetCipher()); // NOTE: Calculated exclusive of the actual Finished message from the server byte[] resExpectedServerVerifyData = TlsUtilities.CalculateVerifyData(state.clientContext, ExporterLabel.server_finished, TlsProtocol.GetCurrentPrfHash(state.clientContext, handshake.HandshakeHash, null)); ProcessFinished(handshake.ReceiveMessageBody(HandshakeType.finished), resExpectedServerVerifyData); // NOTE: Calculated exclusive of the Finished message itself byte[] resClientVerifyData = TlsUtilities.CalculateVerifyData(state.clientContext, ExporterLabel.client_finished, TlsProtocol.GetCurrentPrfHash(state.clientContext, handshake.HandshakeHash, null)); handshake.SendMessage(HandshakeType.finished, resClientVerifyData); handshake.Finish(); state.clientContext.SetResumableSession(state.tlsSession); state.client.NotifyHandshakeComplete(); return(new DtlsTransport(recordLayer)); } InvalidateSession(state); if (state.selectedSessionID.Length > 0) { state.tlsSession = new TlsSessionImpl(state.selectedSessionID, null); } serverMessage = handshake.ReceiveMessage(); if (serverMessage.Type == HandshakeType.supplemental_data) { ProcessServerSupplementalData(state, serverMessage.Body); serverMessage = handshake.ReceiveMessage(); } else { state.client.ProcessServerSupplementalData(null); } state.keyExchange = state.client.GetKeyExchange(); state.keyExchange.Init(state.clientContext); Certificate serverCertificate = null; if (serverMessage.Type == HandshakeType.certificate) { serverCertificate = ProcessServerCertificate(state, serverMessage.Body); serverMessage = handshake.ReceiveMessage(); } else { // Okay, Certificate is optional state.keyExchange.SkipServerCredentials(); } // TODO[RFC 3546] Check whether empty certificates is possible, allowed, or excludes CertificateStatus if (serverCertificate == null || serverCertificate.IsEmpty) { state.allowCertificateStatus = false; } if (serverMessage.Type == HandshakeType.certificate_status) { ProcessCertificateStatus(state, serverMessage.Body); serverMessage = handshake.ReceiveMessage(); } else { // Okay, CertificateStatus is optional } if (serverMessage.Type == HandshakeType.server_key_exchange) { ProcessServerKeyExchange(state, serverMessage.Body); serverMessage = handshake.ReceiveMessage(); } else { // Okay, ServerKeyExchange is optional state.keyExchange.SkipServerKeyExchange(); } if (serverMessage.Type == HandshakeType.certificate_request) { ProcessCertificateRequest(state, serverMessage.Body); /* * TODO Give the client a chance to immediately select the CertificateVerify hash * algorithm here to avoid tracking the other hash algorithms unnecessarily? */ TlsUtilities.TrackHashAlgorithms(handshake.HandshakeHash, state.certificateRequest.SupportedSignatureAlgorithms); serverMessage = handshake.ReceiveMessage(); } else { // Okay, CertificateRequest is optional } if (serverMessage.Type == HandshakeType.server_hello_done) { if (serverMessage.Body.Length != 0) { throw new TlsFatalAlert(AlertDescription.decode_error); } } else { throw new TlsFatalAlert(AlertDescription.unexpected_message); } handshake.HandshakeHash.SealHashAlgorithms(); IList clientSupplementalData = state.client.GetClientSupplementalData(); if (clientSupplementalData != null) { byte[] supplementalDataBody = GenerateSupplementalData(clientSupplementalData); handshake.SendMessage(HandshakeType.supplemental_data, supplementalDataBody); } if (state.certificateRequest != null) { state.clientCredentials = state.authentication.GetClientCredentials(state.certificateRequest); /* * RFC 5246 If no suitable certificate is available, the client MUST send a certificate * message containing no certificates. * * NOTE: In previous RFCs, this was SHOULD instead of MUST. */ Certificate clientCertificate = null; if (state.clientCredentials != null) { clientCertificate = state.clientCredentials.Certificate; } if (clientCertificate == null) { clientCertificate = Certificate.EmptyChain; } byte[] certificateBody = GenerateCertificate(clientCertificate); handshake.SendMessage(HandshakeType.certificate, certificateBody); } if (state.clientCredentials != null) { state.keyExchange.ProcessClientCredentials(state.clientCredentials); } else { state.keyExchange.SkipClientCredentials(); } byte[] clientKeyExchangeBody = GenerateClientKeyExchange(state); handshake.SendMessage(HandshakeType.client_key_exchange, clientKeyExchangeBody); TlsHandshakeHash prepareFinishHash = handshake.PrepareToFinish(); securityParameters.sessionHash = TlsProtocol.GetCurrentPrfHash(state.clientContext, prepareFinishHash, null); TlsProtocol.EstablishMasterSecret(state.clientContext, state.keyExchange); recordLayer.InitPendingEpoch(state.client.GetCipher()); if (state.clientCredentials != null && state.clientCredentials is TlsSignerCredentials) { TlsSignerCredentials signerCredentials = (TlsSignerCredentials)state.clientCredentials; /* * RFC 5246 4.7. digitally-signed element needs SignatureAndHashAlgorithm from TLS 1.2 */ SignatureAndHashAlgorithm signatureAndHashAlgorithm = TlsUtilities.GetSignatureAndHashAlgorithm( state.clientContext, signerCredentials); byte[] hash; if (signatureAndHashAlgorithm == null) { hash = securityParameters.SessionHash; } else { hash = prepareFinishHash.GetFinalHash(signatureAndHashAlgorithm.Hash); } byte[] signature = signerCredentials.GenerateCertificateSignature(hash); DigitallySigned certificateVerify = new DigitallySigned(signatureAndHashAlgorithm, signature); byte[] certificateVerifyBody = GenerateCertificateVerify(state, certificateVerify); handshake.SendMessage(HandshakeType.certificate_verify, certificateVerifyBody); } // NOTE: Calculated exclusive of the Finished message itself byte[] clientVerifyData = TlsUtilities.CalculateVerifyData(state.clientContext, ExporterLabel.client_finished, TlsProtocol.GetCurrentPrfHash(state.clientContext, handshake.HandshakeHash, null)); handshake.SendMessage(HandshakeType.finished, clientVerifyData); if (state.expectSessionTicket) { serverMessage = handshake.ReceiveMessage(); if (serverMessage.Type == HandshakeType.session_ticket) { ProcessNewSessionTicket(state, serverMessage.Body); } else { throw new TlsFatalAlert(AlertDescription.unexpected_message); } } // NOTE: Calculated exclusive of the actual Finished message from the server byte[] expectedServerVerifyData = TlsUtilities.CalculateVerifyData(state.clientContext, ExporterLabel.server_finished, TlsProtocol.GetCurrentPrfHash(state.clientContext, handshake.HandshakeHash, null)); ProcessFinished(handshake.ReceiveMessageBody(HandshakeType.finished), expectedServerVerifyData); handshake.Finish(); if (state.tlsSession != null) { state.sessionParameters = new SessionParameters.Builder() .SetCipherSuite(securityParameters.CipherSuite) .SetCompressionAlgorithm(securityParameters.CompressionAlgorithm) .SetMasterSecret(securityParameters.MasterSecret) .SetPeerCertificate(serverCertificate) .SetPskIdentity(securityParameters.PskIdentity) .SetSrpIdentity(securityParameters.SrpIdentity) // TODO Consider filtering extensions that aren't relevant to resumed sessions .SetServerExtensions(state.serverExtensions) .Build(); state.tlsSession = TlsUtilities.ImportSession(state.tlsSession.SessionID, state.sessionParameters); state.clientContext.SetResumableSession(state.tlsSession); } state.client.NotifyHandshakeComplete(); return(new DtlsTransport(recordLayer)); }
internal virtual DtlsTransport ServerHandshake(ServerHandshakeState state, DtlsRecordLayer recordLayer) { SecurityParameters securityParameters = state.serverContext.SecurityParameters; DtlsReliableHandshake handshake = new DtlsReliableHandshake(state.serverContext, recordLayer); DtlsReliableHandshake.Message clientMessage = handshake.ReceiveMessage(); // NOTE: DTLSRecordLayer requires any DTLS version, we don't otherwise constrain this //ProtocolVersion recordLayerVersion = recordLayer.ReadVersion; if (clientMessage.Type == HandshakeType.client_hello) { ProcessClientHello(state, clientMessage.Body); } else { throw new TlsFatalAlert(AlertDescription.unexpected_message); } { byte[] serverHelloBody = GenerateServerHello(state); ApplyMaxFragmentLengthExtension(recordLayer, securityParameters.maxFragmentLength); ProtocolVersion recordLayerVersion = state.serverContext.ServerVersion; recordLayer.ReadVersion = recordLayerVersion; recordLayer.SetWriteVersion(recordLayerVersion); handshake.SendMessage(HandshakeType.server_hello, serverHelloBody); } handshake.NotifyHelloComplete(); IList serverSupplementalData = state.server.GetServerSupplementalData(); if (serverSupplementalData != null) { byte[] supplementalDataBody = GenerateSupplementalData(serverSupplementalData); handshake.SendMessage(HandshakeType.supplemental_data, supplementalDataBody); } state.keyExchange = state.server.GetKeyExchange(); state.keyExchange.Init(state.serverContext); state.serverCredentials = state.server.GetCredentials(); Certificate serverCertificate = null; if (state.serverCredentials == null) { state.keyExchange.SkipServerCredentials(); } else { state.keyExchange.ProcessServerCredentials(state.serverCredentials); serverCertificate = state.serverCredentials.Certificate; byte[] certificateBody = GenerateCertificate(serverCertificate); handshake.SendMessage(HandshakeType.certificate, certificateBody); } // TODO[RFC 3546] Check whether empty certificates is possible, allowed, or excludes CertificateStatus if (serverCertificate == null || serverCertificate.IsEmpty) { state.allowCertificateStatus = false; } if (state.allowCertificateStatus) { CertificateStatus certificateStatus = state.server.GetCertificateStatus(); if (certificateStatus != null) { byte[] certificateStatusBody = GenerateCertificateStatus(state, certificateStatus); handshake.SendMessage(HandshakeType.certificate_status, certificateStatusBody); } } byte[] serverKeyExchange = state.keyExchange.GenerateServerKeyExchange(); if (serverKeyExchange != null) { handshake.SendMessage(HandshakeType.server_key_exchange, serverKeyExchange); } if (state.serverCredentials != null) { state.certificateRequest = state.server.GetCertificateRequest(); if (state.certificateRequest != null) { if (TlsUtilities.IsTlsV12(state.serverContext) != (state.certificateRequest.SupportedSignatureAlgorithms != null)) { throw new TlsFatalAlert(AlertDescription.internal_error); } state.keyExchange.ValidateCertificateRequest(state.certificateRequest); byte[] certificateRequestBody = GenerateCertificateRequest(state, state.certificateRequest); handshake.SendMessage(HandshakeType.certificate_request, certificateRequestBody); TlsUtilities.TrackHashAlgorithms(handshake.HandshakeHash, state.certificateRequest.SupportedSignatureAlgorithms); } } handshake.SendMessage(HandshakeType.server_hello_done, TlsUtilities.EmptyBytes); handshake.HandshakeHash.SealHashAlgorithms(); clientMessage = handshake.ReceiveMessage(); if (clientMessage.Type == HandshakeType.supplemental_data) { ProcessClientSupplementalData(state, clientMessage.Body); clientMessage = handshake.ReceiveMessage(); } else { state.server.ProcessClientSupplementalData(null); } if (state.certificateRequest == null) { state.keyExchange.SkipClientCredentials(); } else { if (clientMessage.Type == HandshakeType.certificate) { ProcessClientCertificate(state, clientMessage.Body); clientMessage = handshake.ReceiveMessage(); } else { if (TlsUtilities.IsTlsV12(state.serverContext)) { /* * RFC 5246 If no suitable certificate is available, the client MUST send a * certificate message containing no certificates. * * NOTE: In previous RFCs, this was SHOULD instead of MUST. */ throw new TlsFatalAlert(AlertDescription.unexpected_message); } NotifyClientCertificate(state, Certificate.EmptyChain); } } if (clientMessage.Type == HandshakeType.client_key_exchange) { ProcessClientKeyExchange(state, clientMessage.Body); } else { throw new TlsFatalAlert(AlertDescription.unexpected_message); } TlsHandshakeHash prepareFinishHash = handshake.PrepareToFinish(); securityParameters.sessionHash = TlsProtocol.GetCurrentPrfHash(state.serverContext, prepareFinishHash, null); TlsProtocol.EstablishMasterSecret(state.serverContext, state.keyExchange); recordLayer.InitPendingEpoch(state.server.GetCipher()); /* * RFC 5246 7.4.8 This message is only sent following a client certificate that has signing * capability (i.e., all certificates except those containing fixed Diffie-Hellman * parameters). */ if (ExpectCertificateVerifyMessage(state)) { byte[] certificateVerifyBody = handshake.ReceiveMessageBody(HandshakeType.certificate_verify); ProcessCertificateVerify(state, certificateVerifyBody, prepareFinishHash); } // NOTE: Calculated exclusive of the actual Finished message from the client byte[] expectedClientVerifyData = TlsUtilities.CalculateVerifyData(state.serverContext, ExporterLabel.client_finished, TlsProtocol.GetCurrentPrfHash(state.serverContext, handshake.HandshakeHash, null)); ProcessFinished(handshake.ReceiveMessageBody(HandshakeType.finished), expectedClientVerifyData); if (state.expectSessionTicket) { NewSessionTicket newSessionTicket = state.server.GetNewSessionTicket(); byte[] newSessionTicketBody = GenerateNewSessionTicket(state, newSessionTicket); handshake.SendMessage(HandshakeType.session_ticket, newSessionTicketBody); } // NOTE: Calculated exclusive of the Finished message itself byte[] serverVerifyData = TlsUtilities.CalculateVerifyData(state.serverContext, ExporterLabel.server_finished, TlsProtocol.GetCurrentPrfHash(state.serverContext, handshake.HandshakeHash, null)); handshake.SendMessage(HandshakeType.finished, serverVerifyData); handshake.Finish(); state.server.NotifyHandshakeComplete(); return(new DtlsTransport(recordLayer)); }
internal Retransmit(DtlsReliableHandshake outer) { this.mOuter = outer; }