#if !BESTHTTP_DISABLE_ALTERNATE_SSL && (!UNITY_WEBGL || UNITY_EDITOR) #pragma warning disable using System; using System.IO; using BestHTTP.SecureProtocol.Org.BouncyCastle.Tls.Crypto; using BestHTTP.SecureProtocol.Org.BouncyCastle.Utilities; namespace BestHTTP.SecureProtocol.Org.BouncyCastle.Tls { /// (D)TLS PSK key exchange (RFC 4279). public class TlsPskKeyExchange : AbstractTlsKeyExchange { private static int CheckKeyExchange(int keyExchange) { switch (keyExchange) { case KeyExchangeAlgorithm.DHE_PSK: case KeyExchangeAlgorithm.ECDHE_PSK: case KeyExchangeAlgorithm.PSK: case KeyExchangeAlgorithm.RSA_PSK: return keyExchange; default: throw new ArgumentException("unsupported key exchange algorithm", "keyExchange"); } } protected TlsPskIdentity m_pskIdentity; protected TlsPskIdentityManager m_pskIdentityManager; protected TlsDHGroupVerifier m_dhGroupVerifier; protected byte[] m_psk_identity_hint = null; protected byte[] m_psk = null; protected TlsDHConfig m_dhConfig; protected TlsECConfig m_ecConfig; protected TlsAgreement m_agreement; protected TlsCredentialedDecryptor m_serverCredentials = null; protected TlsEncryptor m_serverEncryptor; protected TlsSecret m_preMasterSecret; public TlsPskKeyExchange(int keyExchange, TlsPskIdentity pskIdentity, TlsDHGroupVerifier dhGroupVerifier) : this(keyExchange, pskIdentity, null, dhGroupVerifier, null, null) { } public TlsPskKeyExchange(int keyExchange, TlsPskIdentityManager pskIdentityManager, TlsDHConfig dhConfig, TlsECConfig ecConfig) : this(keyExchange, null, pskIdentityManager, null, dhConfig, ecConfig) { } private TlsPskKeyExchange(int keyExchange, TlsPskIdentity pskIdentity, TlsPskIdentityManager pskIdentityManager, TlsDHGroupVerifier dhGroupVerifier, TlsDHConfig dhConfig, TlsECConfig ecConfig) : base(CheckKeyExchange(keyExchange)) { this.m_pskIdentity = pskIdentity; this.m_pskIdentityManager = pskIdentityManager; this.m_dhGroupVerifier = dhGroupVerifier; this.m_dhConfig = dhConfig; this.m_ecConfig = ecConfig; } public override void SkipServerCredentials() { if (m_keyExchange == KeyExchangeAlgorithm.RSA_PSK) throw new TlsFatalAlert(AlertDescription.internal_error); } public override void ProcessServerCredentials(TlsCredentials serverCredentials) { if (m_keyExchange != KeyExchangeAlgorithm.RSA_PSK) throw new TlsFatalAlert(AlertDescription.internal_error); this.m_serverCredentials = TlsUtilities.RequireDecryptorCredentials(serverCredentials); } public override void ProcessServerCertificate(Certificate serverCertificate) { if (m_keyExchange != KeyExchangeAlgorithm.RSA_PSK) throw new TlsFatalAlert(AlertDescription.unexpected_message); this.m_serverEncryptor = serverCertificate.GetCertificateAt(0).CreateEncryptor( TlsCertificateRole.RsaEncryption); } public override byte[] GenerateServerKeyExchange() { this.m_psk_identity_hint = m_pskIdentityManager.GetHint(); if (this.m_psk_identity_hint == null && !RequiresServerKeyExchange) return null; MemoryStream buf = new MemoryStream(); if (this.m_psk_identity_hint == null) { TlsUtilities.WriteOpaque16(TlsUtilities.EmptyBytes, buf); } else { TlsUtilities.WriteOpaque16(this.m_psk_identity_hint, buf); } if (this.m_keyExchange == KeyExchangeAlgorithm.DHE_PSK) { if (this.m_dhConfig == null) throw new TlsFatalAlert(AlertDescription.internal_error); TlsDHUtilities.WriteDHConfig(m_dhConfig, buf); this.m_agreement = m_context.Crypto.CreateDHDomain(m_dhConfig).CreateDH(); GenerateEphemeralDH(buf); } else if (this.m_keyExchange == KeyExchangeAlgorithm.ECDHE_PSK) { if (this.m_ecConfig == null) throw new TlsFatalAlert(AlertDescription.internal_error); TlsEccUtilities.WriteECConfig(m_ecConfig, buf); this.m_agreement = m_context.Crypto.CreateECDomain(m_ecConfig).CreateECDH(); GenerateEphemeralECDH(buf); } return buf.ToArray(); } public override bool RequiresServerKeyExchange { get { switch (m_keyExchange) { case KeyExchangeAlgorithm.DHE_PSK: case KeyExchangeAlgorithm.ECDHE_PSK: return true; default: return false; } } } public override void ProcessServerKeyExchange(Stream input) { this.m_psk_identity_hint = TlsUtilities.ReadOpaque16(input); if (this.m_keyExchange == KeyExchangeAlgorithm.DHE_PSK) { this.m_dhConfig = TlsDHUtilities.ReceiveDHConfig(m_context, m_dhGroupVerifier, input); byte[] y = TlsUtilities.ReadOpaque16(input, 1); this.m_agreement = m_context.Crypto.CreateDHDomain(m_dhConfig).CreateDH(); ProcessEphemeralDH(y); } else if (this.m_keyExchange == KeyExchangeAlgorithm.ECDHE_PSK) { this.m_ecConfig = TlsEccUtilities.ReceiveECDHConfig(m_context, input); byte[] point = TlsUtilities.ReadOpaque8(input, 1); this.m_agreement = m_context.Crypto.CreateECDomain(m_ecConfig).CreateECDH(); ProcessEphemeralECDH(point); } } public override void ProcessClientCredentials(TlsCredentials clientCredentials) { throw new TlsFatalAlert(AlertDescription.internal_error); } public override void GenerateClientKeyExchange(Stream output) { if (m_psk_identity_hint == null) { m_pskIdentity.SkipIdentityHint(); } else { m_pskIdentity.NotifyIdentityHint(m_psk_identity_hint); } byte[] psk_identity = m_pskIdentity.GetPskIdentity(); if (psk_identity == null) throw new TlsFatalAlert(AlertDescription.internal_error); this.m_psk = m_pskIdentity.GetPsk(); if (m_psk == null) throw new TlsFatalAlert(AlertDescription.internal_error); TlsUtilities.WriteOpaque16(psk_identity, output); m_context.SecurityParameters.m_pskIdentity = Arrays.Clone(psk_identity); if (this.m_keyExchange == KeyExchangeAlgorithm.DHE_PSK) { GenerateEphemeralDH(output); } else if (this.m_keyExchange == KeyExchangeAlgorithm.ECDHE_PSK) { GenerateEphemeralECDH(output); } else if (this.m_keyExchange == KeyExchangeAlgorithm.RSA_PSK) { this.m_preMasterSecret = TlsUtilities.GenerateEncryptedPreMasterSecret(m_context, m_serverEncryptor, output); } } public override void ProcessClientKeyExchange(Stream input) { byte[] psk_identity = TlsUtilities.ReadOpaque16(input); this.m_psk = m_pskIdentityManager.GetPsk(psk_identity); if (m_psk == null) throw new TlsFatalAlert(AlertDescription.unknown_psk_identity); m_context.SecurityParameters.m_pskIdentity = psk_identity; if (this.m_keyExchange == KeyExchangeAlgorithm.DHE_PSK) { byte[] y = TlsUtilities.ReadOpaque16(input, 1); ProcessEphemeralDH(y); } else if (this.m_keyExchange == KeyExchangeAlgorithm.ECDHE_PSK) { byte[] point = TlsUtilities.ReadOpaque8(input, 1); ProcessEphemeralECDH(point); } else if (this.m_keyExchange == KeyExchangeAlgorithm.RSA_PSK) { byte[] encryptedPreMasterSecret = TlsUtilities.ReadEncryptedPms(m_context, input); this.m_preMasterSecret = m_serverCredentials.Decrypt(new TlsCryptoParameters(m_context), encryptedPreMasterSecret); } } public override TlsSecret GeneratePreMasterSecret() { byte[] other_secret = GenerateOtherSecret(m_psk.Length); MemoryStream buf = new MemoryStream(4 + other_secret.Length + m_psk.Length); TlsUtilities.WriteOpaque16(other_secret, buf); TlsUtilities.WriteOpaque16(m_psk, buf); Array.Clear(m_psk, 0, m_psk.Length); this.m_psk = null; return m_context.Crypto.CreateSecret(buf.ToArray()); } protected virtual void GenerateEphemeralDH(Stream output) { byte[] y = m_agreement.GenerateEphemeral(); TlsUtilities.WriteOpaque16(y, output); } protected virtual void GenerateEphemeralECDH(Stream output) { byte[] point = m_agreement.GenerateEphemeral(); TlsUtilities.WriteOpaque8(point, output); } protected virtual byte[] GenerateOtherSecret(int pskLength) { if (this.m_keyExchange == KeyExchangeAlgorithm.PSK) return new byte[pskLength]; if (this.m_keyExchange == KeyExchangeAlgorithm.DHE_PSK || this.m_keyExchange == KeyExchangeAlgorithm.ECDHE_PSK) { if (m_agreement != null) return m_agreement.CalculateSecret().Extract(); } if (this.m_keyExchange == KeyExchangeAlgorithm.RSA_PSK) { if (m_preMasterSecret != null) return this.m_preMasterSecret.Extract(); } throw new TlsFatalAlert(AlertDescription.internal_error); } protected virtual void ProcessEphemeralDH(byte[] y) { this.m_agreement.ReceivePeerValue(y); } protected virtual void ProcessEphemeralECDH(byte[] point) { TlsEccUtilities.CheckPointEncoding(m_ecConfig.NamedGroup, point); this.m_agreement.ReceivePeerValue(point); } } } #pragma warning restore #endif