using Org.BouncyCastle.Crypto; using Org.BouncyCastle.Crypto.Agreement; using Org.BouncyCastle.Crypto.Generators; using Org.BouncyCastle.Crypto.Parameters; using Org.BouncyCastle.Pqc.Crypto.NtruPrime; using Renci.SshNet.Abstractions; using Renci.SshNet.Common; using Renci.SshNet.Messages.Transport; using System; using System.Globalization; namespace Renci.SshNet.Security { internal sealed class KeyExchangeSNtruP761X25519Sha512 : KeyExchangeEC { private SNtruPrimeKemExtractor _sntrup761Extractor; private X25519Agreement _x25519Agreement; public override string Name => "sntrup761x25519-sha512"; protected override int HashSize => 512; public override void Start(Session session, KeyExchangeInitMessage message, bool sendClientInitMessage) { base.Start(session, message, sendClientInitMessage); base.Session.RegisterMessage("SSH_MSG_KEX_ECDH_REPLY"); base.Session.KeyExchangeEcdhReplyMessageReceived += Session_KeyExchangeEcdhReplyMessageReceived; SNtruPrimeKeyPairGenerator val = new SNtruPrimeKeyPairGenerator(); val.Init(new SNtruPrimeKeyGenerationParameters(CryptoAbstraction.SecureRandom, SNtruPrimeParameters.sntrup761)); AsymmetricCipherKeyPair val2 = val.GenerateKeyPair(); _sntrup761Extractor = new SNtruPrimeKemExtractor(val2.get_Private()); X25519KeyPairGenerator val3 = new X25519KeyPairGenerator(); val3.Init(new X25519KeyGenerationParameters(CryptoAbstraction.SecureRandom)); AsymmetricCipherKeyPair val4 = val3.GenerateKeyPair(); _x25519Agreement = new X25519Agreement(); _x25519Agreement.Init(val4.get_Private()); byte[] encoded = val2.get_Public().GetEncoded(); byte[] encoded2 = val4.get_Public().GetEncoded(); _clientExchangeValue = encoded.Concat(encoded2); SendMessage(new KeyExchangeEcdhInitMessage(_clientExchangeValue)); } public override void Finish() { base.Finish(); base.Session.KeyExchangeEcdhReplyMessageReceived -= Session_KeyExchangeEcdhReplyMessageReceived; } protected override byte[] Hash(byte[] hashData) { return CryptoAbstraction.HashSHA512(hashData); } private void Session_KeyExchangeEcdhReplyMessageReceived(object sender, MessageEventArgs<KeyExchangeEcdhReplyMessage> e) { KeyExchangeEcdhReplyMessage message = e.Message; base.Session.UnRegisterMessage("SSH_MSG_KEX_ECDH_REPLY"); HandleServerEcdhReply(message.KS, message.QS, message.Signature); Finish(); } private void HandleServerEcdhReply(byte[] hostKey, byte[] serverExchangeValue, byte[] signature) { _serverExchangeValue = serverExchangeValue; _hostKey = hostKey; _signature = signature; if (serverExchangeValue.Length != _sntrup761Extractor.get_EncapsulationLength() + X25519PublicKeyParameters.KeySize) throw new SshConnectionException(string.Format(CultureInfo.CurrentCulture, "Bad Q_S length: {0}.", serverExchangeValue.Length), DisconnectReason.KeyExchangeFailed); byte[] array = serverExchangeValue.Take(_sntrup761Extractor.get_EncapsulationLength()); byte[] array2 = _sntrup761Extractor.ExtractSecret(array); int num = array2.Length; X25519PublicKeyParameters val = new X25519PublicKeyParameters(serverExchangeValue, _sntrup761Extractor.get_EncapsulationLength()); Array.Resize(ref array2, num + _x25519Agreement.get_AgreementSize()); _x25519Agreement.CalculateAgreement(val, array2, num); base.SharedKey = CryptoAbstraction.HashSHA512(array2); } } }