void SendNeighborPeerAckResponseToAck2(InviteAck2Packet ack2, ConnectionToNeighbor neighbor)
{
var npAck = new NeighborPeerAckPacket
{
ReqP2pSeq16 = ack2.ReqP2pSeq16,
ResponseCode = ResponseOrFailureCode.accepted
};
npAck.NeighborToken32 = neighbor.RemoteNeighborToken32;
npAck.NeighborHMAC = neighbor.GetNeighborHMAC(w => npAck.GetSignedFieldsForNeighborHMAC(w, ack2.GetSignedFieldsForNeighborHMAC));
var npAckUdpData = npAck.Encode(false);
Engine.RespondToRequestAndRetransmissions(ack2.DecodedUdpPayloadData, npAckUdpData, neighbor.RemoteEndpoint);
}
/// <summary>
/// Timestamp32S, NeighborToken32 and NeighborHMAC are verified at this time
/// </summary>
internal async Task AcceptInviteRequestAsync(RoutedRequest routedRequest)
{
if (routedRequest.ReceivedFromNeighborNullable == null)
{
throw new ArgumentException();
}
var req = routedRequest.InviteReq;
if (!req.ResponderRegistrationId.Equals(this.Configuration.LocalPeerRegistrationId))
{
throw new ArgumentException();
}
var logger = routedRequest.Logger;
logger.ModuleName = DrpPeerEngine.VisionChannelModuleName_inv_responderSide;
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"accepting {req} from sourcePeer={routedRequest.ReceivedFromNeighborNullable}");
}
// check if regID exists in contact book, get userID from the local contact book
// ignore the REQ packet if no such user in contacts
this._drpPeerApp.OnReceivedInvite(req.RequesterRegistrationId, req.ContactInvitationTokenNullable, out var remoteRequesterUserIdFromLocalContactBookNullable, out var localUserCertificateWithPrivateKey, out var autoReply);
if (autoReply == false)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_needsAttention($"ignored invite: autoReply = false");
}
return;
}
localUserCertificateWithPrivateKey?.AssertHasPrivateKey();
if (remoteRequesterUserIdFromLocalContactBookNullable != null)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"resolved user {remoteRequesterUserIdFromLocalContactBookNullable} by requester regID={req.RequesterRegistrationId}");
}
}
if (!Engine.RecentUniquePublicEcdhKeys.Filter(req.RequesterEcdhePublicKey.Ecdh25519PublicKey))
{
logger.WriteToLog_mediumPain($"RequesterEcdhePublicKey {req.RequesterEcdhePublicKey} is not unique, it has been recently processed");
return;
}
if (!Engine.RecentUniqueInviteRequests.Filter(req.GetUniqueRequestIdFields))
{
logger.WriteToLog_mediumPain($"{req} fields are not unique, the request has been recently processed");
return;
}
// verify requester reg. signature
if (!req.RequesterRegistrationSignature.Verify(Engine.CryptoLibrary, req.GetSharedSignedFields, req.RequesterRegistrationId))
{
throw new BadSignatureException("invalid INVITE REQ RequesterRegistrationSignature 2349");
}
_pendingInviteRequests.Add(req.RequesterRegistrationId);
try
{
// send NPACK to REQ
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending NPACK to REQ source peer");
}
routedRequest.SendNeighborPeerAck_accepted_IfNotAlreadyReplied();
var session = new InviteSession(this)
{
Logger = logger
};
try
{
session.DeriveSharedInviteAckDhSecret(Engine.CryptoLibrary, req.RequesterEcdhePublicKey.Ecdh25519PublicKey);
session.LocalSessionDescription = new InviteSessionDescription
{
DirectChannelEndPoint = routedRequest.ReceivedFromNeighborNullable.LocalEndpoint,
NatBehaviour = Engine.LocalNatBehaviour,
DirectChannelToken32 = session.LocalDirectChannelToken32
};
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"responding with local session {session.LocalSessionDescription}");
}
session.LocalSessionDescription.UserCertificate = localUserCertificateWithPrivateKey;
#region send ACK1. sign local SD by local user
var ack1 = new InviteAck1Packet
{
ReqTimestamp32S = req.ReqTimestamp32S,
RequesterRegistrationId = req.RequesterRegistrationId,
ResponderRegistrationId = req.ResponderRegistrationId,
ResponderEcdhePublicKey = new EcdhPublicKey(session.LocalInviteAckEcdhePublicKey),
};
session.LocalSessionDescription.UserCertificateSignature = UserCertificateSignature.Sign(Engine.CryptoLibrary,
w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, false);
session.LocalSessionDescription.WriteSignedFields(w);
},
localUserCertificateWithPrivateKey);
ack1.ToResponderSessionDescriptionEncrypted = session.LocalSessionDescription.Encrypt(Engine.CryptoLibrary,
req, ack1, session, false);
ack1.ResponderRegistrationSignature = RegistrationSignature.Sign(Engine.CryptoLibrary, w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
},
this.Configuration.LocalPeerRegistrationPrivateKey
);
var ack1UdpData = ack1.Encode_SetP2pFields(routedRequest.ReceivedFromNeighborNullable);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK1 to source peer, awaiting for NPACK");
}
_ = routedRequest.ReceivedFromNeighborNullable.SendUdpRequestAsync_Retransmit_WaitForNPACK("ack1 1450", ack1UdpData, ack1.ReqP2pSeq16, ack1.GetSignedFieldsForNeighborHMAC);
// not waiting for NPACK, wait for ACK2
#endregion
// wait for ACK2
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"waiting for ACK2");
}
var ack2UdpData = await Engine.OptionallySendUdpRequestAsync_Retransmit_WaitForResponse("ack2 23467789", routedRequest.ReceivedFromNeighborNullable.ToString(), null, routedRequest.ReceivedFromNeighborNullable.RemoteEndpoint,
InviteAck2Packet.GetScanner(logger, req, routedRequest.ReceivedFromNeighborNullable));
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received ACK2");
}
var ack2 = InviteAck2Packet.Decode(ack2UdpData);
if (!ack2.RequesterRegistrationSignature.Verify(Engine.CryptoLibrary, w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
ack2.GetSharedSignedFields(w);
}, req.RequesterRegistrationId))
{
throw new BadSignatureException("invalid INVITE ACK2 RequesterRegistrationSignature 2348");
}
// decrypt, verify SD remote user's certificate and signature
session.RemoteSessionDescription = InviteSessionDescription.Decrypt_Verify(Engine.CryptoLibrary,
ack2.ToRequesterSessionDescriptionEncrypted,
req, ack1, true, session, remoteRequesterUserIdFromLocalContactBookNullable, Engine.DateTimeNowUtc);
session.LocalSessionDescription.SessionType = session.RemoteSessionDescription.SessionType;
switch (session.RemoteSessionDescription.SessionType)
{
case SessionType.asyncShortSingleMessage: break;
case SessionType.ike1:
if (_drpPeerApp.OnReceivedInvite_GetLocalIke1Data(req.ContactInvitationTokenNullable) == null)
{
throw new BadSignatureException("bad ContactInvitationToken 21379");
}
break;
default: throw new NotImplementedException();
}
// send NPACK to ACK2
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending NPACK to ACK2 to source peer");
}
SendNeighborPeerAckResponseToAck2(ack2, routedRequest.ReceivedFromNeighborNullable);
// send CFM with signature
var cfm = new InviteConfirmationPacket
{
ReqTimestamp32S = req.ReqTimestamp32S,
RequesterRegistrationId = req.RequesterRegistrationId,
ResponderRegistrationId = req.ResponderRegistrationId,
};
cfm.ResponderRegistrationSignature = RegistrationSignature.Sign(Engine.CryptoLibrary, w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
ack2.GetSharedSignedFields(w);
}, this.Configuration.LocalPeerRegistrationPrivateKey);
var cfmUdpData = cfm.Encode_SetP2pFields(routedRequest.ReceivedFromNeighborNullable);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending CFM to source peer, waiting for NPACK");
}
await routedRequest.ReceivedFromNeighborNullable.SendUdpRequestAsync_Retransmit_WaitForNPACK("cfm 49146", cfmUdpData, cfm.ReqP2pSeq16, cfm.GetSignedFieldsForNeighborHMAC);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received NPACK to CFM");
}
session.DeriveSharedPingPongHmacKey(req, ack1, ack2, cfm);
await session.SetupAEkeysAsync();
}
catch
{
session.Dispose();
throw;
}
if (autoReply)
{
switch (session.RemoteSessionDescription.SessionType)
{
case SessionType.asyncShortSingleMessage:
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"autoReply=true: receiving message");
}
_ = ReceiveShortSingleMessageAsync(session, req);
break;
case SessionType.ike1:
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"autoReply=true: starting IKE1");
}
_ = Ike1Async_AtInviteResponder(session, req);
break;
default: throw new NotImplementedException();
}
}
else
{
session.Dispose(); // todo implement other cases
}
}
catch (DrpTimeoutException exc)
{
logger.WriteToLog_lightPain($"could not accept INVITE request: {exc}");
}
catch (Exception exc)
{
logger.WriteToLog_mediumPain($"could not accept INVITE request: {exc}");
}
finally
{
_pendingInviteRequests.Remove(req.RequesterRegistrationId);
}
}
/// <summary>
/// Timestamp32S, NeighborToken32 and NeighborHMAC are verified at this time
/// </summary>
/// <returns>
/// true to retry the request with another neighbor (if the request needs to be "rerouted")
/// </returns>
internal async Task <bool> ProxyInviteRequestAsync(RoutedRequest routedRequest, ConnectionToNeighbor destinationPeer)
{
var req = routedRequest.InviteReq;
var logger = routedRequest.Logger;
logger.ModuleName = DrpPeerEngine.VisionChannelModuleName_inv_proxySide;
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"proxying {req} to {destinationPeer}");
}
if (!routedRequest.CheckedRecentUniqueProxiedRequests)
{
if (!Engine.RecentUniqueInviteRequests.Filter(req.GetUniqueRequestIdFields))
{
logger.WriteToLog_higherLevelDetail($"rejecting non-unique {req}: requesterEndpoint={routedRequest.ReceivedFromEndpoint}");
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_routeIsUnavailable);
return(false);
}
routedRequest.CheckedRecentUniqueProxiedRequests = true;
}
if (req.NumberOfHopsRemaining > InviteRequestPacket.MaxNumberOfHopsRemaining)
{
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_routeIsUnavailable);
return(false);
}
if (req.NumberOfHopsRemaining <= 1)
{
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_numberOfHopsRemainingReachedZero);
return(false);
}
_pendingInviteRequests.Add(req.RequesterRegistrationId);
try
{
// send NPACK to REQ
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending NPACK to REQ source peer");
}
routedRequest.SendNeighborPeerAck_accepted_IfNotAlreadyReplied();
req.NumberOfHopsRemaining--;
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"decremented number of hops in {req}: NumberOfHopsRemaining={req.NumberOfHopsRemaining}");
}
// send (proxy) REQ to responder. wait for NPACK, verify NPACK.senderHMAC, retransmit REQ
var reqUdpData = req.Encode_SetP2pFields(destinationPeer);
#region wait for ACK1 from responder verify NeighborHMAC
byte[] ack1UdpData;
try
{
var sentRequest = new SentRequest(Engine, logger, destinationPeer.RemoteEndpoint, destinationPeer, reqUdpData,
req.ReqP2pSeq16, InviteAck1Packet.GetScanner(logger, req, destinationPeer));
ack1UdpData = await sentRequest.SendRequestAsync("inv proxy ack1 3457");
}
catch (RequestRejectedException reqExc)
{
logger.WriteToLog_higherLevelDetail($"got response={reqExc.ResponseCode} from destination {destinationPeer}. will try another neighbor..");
if (reqExc.ResponseCode == ResponseOrFailureCode.failure_numberOfHopsRemainingReachedZero)
{
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_numberOfHopsRemainingReachedZero);
return(false);
}
if (routedRequest.ReceivedFromNeighborNullable?.IsDisposed == true)
{
logger.WriteToLog_needsAttention($"sourcePeer={routedRequest.ReceivedFromNeighborNullable} is disposed during proxying 75675");
return(false);
}
if (reqExc.ResponseCode == ResponseOrFailureCode.failure_routeIsUnavailable)
{
req.NumberOfHopsRemaining++; // roll back previous decrement for a new trial
}
return(true); // will retry
}
catch (DrpTimeoutException exc)
{
logger.WriteToLog_higherLevelDetail($"got timeout error when requesting {destinationPeer}: {exc.Message}");
req.NumberOfHopsRemaining++; // roll back previous decrement for a new trial
return(true); // will retry
}
catch (Exception reqExc)
{
logger.WriteToLog_mediumPain($"could not proxy INVITE request: {reqExc}");
if (routedRequest.ReceivedFromNeighborNullable?.IsDisposed == true)
{
logger.WriteToLog_needsAttention($"sourcePeer={routedRequest.ReceivedFromNeighborNullable} is disposed during proxying 76897805");
return(false);
}
return(true); // will retry
}
var ack1 = InviteAck1Packet.Decode(ack1UdpData);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified ACK1 from responder");
}
// respond with NPACK to ACk1
SendNeighborPeerAckResponseToAck1(ack1, destinationPeer);
#endregion
#region send ACK1 to requester, wait for NPACK and ACK2
var ack1UdpDataTx = ack1.Encode_SetP2pFields(routedRequest.ReceivedFromNeighborNullable);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK1, awaiting for NPACK");
}
_ = Engine.OptionallySendUdpRequestAsync_Retransmit_WaitForNeighborPeerAck("ack1 13536", ack1UdpDataTx, routedRequest.ReceivedFromEndpoint,
ack1.ReqP2pSeq16, routedRequest.ReceivedFromNeighborNullable, ack1.GetSignedFieldsForNeighborHMAC);
// not waiting for NPACK, wait for ACK1
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"waiting for ACK2");
}
var ack2UdpData = await Engine.OptionallySendUdpRequestAsync_Retransmit_WaitForResponse("ack2 2346892",
routedRequest.ReceivedFromNeighborNullable?.ToString() ?? routedRequest.ReceivedFromEndpoint.ToString(),
null, routedRequest.ReceivedFromEndpoint,
InviteAck2Packet.GetScanner(logger, req, routedRequest.ReceivedFromNeighborNullable));
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received ACK2");
}
var ack2 = InviteAck2Packet.Decode(ack2UdpData);
#endregion
// send NPACK to ACK2
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending NPACK to ACK2 to source peer");
}
SendNeighborPeerAckResponseToAck2(ack2, routedRequest.ReceivedFromNeighborNullable);
// send ACK2 to responder
// put ACK2.ReqP2pSeq16, sendertoken32, senderHMAC
// wait for NPACK
var ack2UdpDataTx = ack2.Encode_SetP2pFields(destinationPeer);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK2 to responder");
}
await destinationPeer.SendUdpRequestAsync_Retransmit_WaitForNPACK("ack2 5344530", ack2UdpDataTx,
ack2.ReqP2pSeq16, ack2.GetSignedFieldsForNeighborHMAC);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received NPACK to ACK2 from destination peer");
}
// wait for CFM from responder
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"waiting for CFM from responder");
}
var cfmUdpData = await Engine.WaitForUdpResponseAsync(new PendingLowLevelUdpRequest("cfm 12358", destinationPeer.RemoteEndpoint,
InviteConfirmationPacket.GetScanner(logger, req, destinationPeer),
Engine.DateTimeNowUtc, Engine.Configuration.CfmTimoutS
));
if (cfmUdpData == null)
{
throw new DrpTimeoutException($"inv. proxy CFM response from destination peer {destinationPeer} (timeout={Engine.Configuration.CfmTimoutS}s)");
}
var cfm = InviteConfirmationPacket.Decode(cfmUdpData);
// todo verify signature, update RDRs and QoS
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified CFM from responder");
}
// respond NPACK to CFM to destination peer
SendNeighborPeerAckResponseToCfm(cfm, destinationPeer);
// send CFM to requester
var cfmUdpDataTx = cfm.Encode_SetP2pFields(routedRequest.ReceivedFromNeighborNullable);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending CFM to requester, waiting for NPACK");
}
await Engine.OptionallySendUdpRequestAsync_Retransmit_WaitForNeighborPeerAck("cfm 23468", cfmUdpDataTx, routedRequest.ReceivedFromEndpoint,
cfm.ReqP2pSeq16, routedRequest.ReceivedFromNeighborNullable, cfm.GetSignedFieldsForNeighborHMAC);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received NPACK to CFM from source peer");
}
}
catch (DrpTimeoutException exc)
{
logger.WriteToLog_lightPain($"could not proxy INVITE: {exc.Message}");
}
catch (Exception exc)
{
logger.WriteToLog_mediumPain($"could not proxy INVITE request: {exc}");
}
finally
{
_pendingInviteRequests.Remove(req.RequesterRegistrationId);
}
return(false);
}
/// <summary>
/// sends INVITE, autenticates users, returns Session to be used to create direct cannel
/// </summary>
/// <param name="responderUserId">
/// comes from local contact book
/// </param>
/// <param name="responderRegId">
/// comes from local contact book
/// </param>
/// <param name="loggerCb">may be invoked more than one time (in case of retrying)</param>
public async Task <InviteSession> SendInviteAsync(UserCertificate requesterUserCertificate, RegistrationId responderRegistrationId, UserId responderUserId,
SessionType sessionType, Action <Logger> loggerCb = null)
{
InviteSession session = null;
try
{
var sw = Stopwatch.StartNew();
RoutedRequest routedRequest = null;
int trialsCount = 0;
Exception latestTriedNeighborException = null;
_retry:
trialsCount++;
session = new InviteSession(this);
var req = new InviteRequestPacket
{
NumberOfHopsRemaining = InviteRequestPacket.MaxNumberOfHopsRemaining,
RequesterEcdhePublicKey = new EcdhPublicKey(session.LocalInviteAckEcdhePublicKey),
RequesterRegistrationId = this.Configuration.LocalPeerRegistrationId,
ResponderRegistrationId = responderRegistrationId,
ReqTimestamp32S = Engine.Timestamp32S,
};
var logger = new Logger(Engine, this, req, DrpPeerEngine.VisionChannelModuleName_inv_requesterSide);
if (!Engine.RecentUniqueInviteRequests.Filter(req.GetUniqueRequestIdFields))
{
if (trialsCount > 50)
{
throw new NonUniquePacketFieldsException($"could not find unique fields to send INVITE request");
}
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"waiting a second to generate ne wunique INVITE request");
}
await Engine.EngineThreadQueue.WaitAsync(TimeSpan.FromSeconds(1), "inv_wait_1236");
goto _retry;
}
session.Logger = logger;
loggerCb?.Invoke(logger);
Engine.RecentUniquePublicEcdhKeys.AssertIsUnique(req.RequesterEcdhePublicKey.Ecdh25519PublicKey, "req.RequesterEcdhePublicKey");
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"generated unique ECDH key {req.RequesterEcdhePublicKey}");
}
req.RequesterRegistrationSignature = RegistrationSignature.Sign(Engine.CryptoLibrary, req.GetSharedSignedFields, this.Configuration.LocalPeerRegistrationPrivateKey);
this.TestDirection(logger, req.ResponderRegistrationId);
routedRequest = new RoutedRequest(logger, null, null, null, req, null, routedRequest);
// find best connected peer to send the request
var destinationPeer = Engine.RouteInviteRequest(this, routedRequest);
if (destinationPeer == null)
{
if (latestTriedNeighborException == null)
{
throw new NoNeighborsToSendInviteException();
}
else
{
throw latestTriedNeighborException;
}
}
InviteAck1Packet ack1;
try
{
var reqUdpData = req.Encode_SetP2pFields(destinationPeer);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending {req} (ReqTimestamp32S={MiscProcedures.Uint32secondsToDateTime(req.ReqTimestamp32S)}), waiting for NPACK");
}
var sentRequest = new SentRequest(Engine, logger, destinationPeer.RemoteEndpoint, destinationPeer, reqUdpData, req.ReqP2pSeq16, InviteAck1Packet.GetScanner(logger, req, destinationPeer));
var ack1UdpData = await sentRequest.SendRequestAsync("ack1 4146");
#region process ACK1
// NeighborHMAC and NeighborToken32 are already verified by scanner
ack1 = InviteAck1Packet.Decode(ack1UdpData);
Engine.RecentUniquePublicEcdhKeys.AssertIsUnique(ack1.ResponderEcdhePublicKey.Ecdh25519PublicKey, $"ack1.ResponderEcdhePublicKey");
if (!ack1.ResponderRegistrationSignature.Verify(Engine.CryptoLibrary, w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
},
responderRegistrationId))
{
throw new BadSignatureException("invalid REGISTER ACK1 ResponderRegistrationSignature 2349");
}
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified ACK1");
}
session.DeriveSharedInviteAckDhSecret(Engine.CryptoLibrary, ack1.ResponderEcdhePublicKey.Ecdh25519PublicKey);
// send NPACK to ACK1
SendNeighborPeerAckResponseToAck1(ack1, destinationPeer);
#endregion
}
catch (RequestFailedException exc2)
{
latestTriedNeighborException = exc2;
if (trialsCount > 50)
{
throw;
}
logger.WriteToLog_higherLevelDetail($"trying again on error {exc2.Message}... alreadyTriedProxyingToDestinationPeers.Count={routedRequest.TriedNeighbors.Count}");
routedRequest.TriedNeighbors.Add(destinationPeer);
goto _retry;
}
// decode and verify SD
session.RemoteSessionDescription = InviteSessionDescription.Decrypt_Verify(Engine.CryptoLibrary,
ack1.ToResponderSessionDescriptionEncrypted,
req, ack1, false, session,
responderUserId, Engine.DateTimeNowUtc);
// sign and encode local SD
session.LocalSessionDescription = new InviteSessionDescription
{
DirectChannelEndPoint = destinationPeer.LocalEndpoint,
SessionType = sessionType,
DirectChannelToken32 = session.LocalDirectChannelToken32
};
session.LocalSessionDescription.UserCertificate = requesterUserCertificate;
session.LocalSessionDescription.UserCertificateSignature = UserCertificateSignature.Sign(Engine.CryptoLibrary,
w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
session.LocalSessionDescription.WriteSignedFields(w);
},
requesterUserCertificate
);
#region send ack2
var ack2 = new InviteAck2Packet
{
RequesterRegistrationId = req.RequesterRegistrationId,
ResponderRegistrationId = req.ResponderRegistrationId,
ReqTimestamp32S = req.ReqTimestamp32S,
ToRequesterSessionDescriptionEncrypted = session.LocalSessionDescription.Encrypt(Engine.CryptoLibrary, req, ack1, session, true)
};
ack2.RequesterRegistrationSignature = RegistrationSignature.Sign(Engine.CryptoLibrary, w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
ack2.GetSharedSignedFields(w);
}, this.Configuration.LocalPeerRegistrationPrivateKey);
var ack2UdpData = ack2.Encode_SetP2pFields(destinationPeer);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK2, waiting for NPACK");
}
await destinationPeer.SendUdpRequestAsync_Retransmit_WaitForNPACK("ack2 234575672", ack2UdpData, ack2.ReqP2pSeq16, ack2.GetSignedFieldsForNeighborHMAC);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received NPACK");
}
#endregion
#region wait for CFM
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"waiting for CFM");
}
var cfmUdpData = await Engine.WaitForUdpResponseAsync(new PendingLowLevelUdpRequest("cfm 1235695", destinationPeer.RemoteEndpoint,
InviteConfirmationPacket.GetScanner(logger, req, destinationPeer),
Engine.DateTimeNowUtc, Engine.Configuration.CfmTimoutS
));
if (cfmUdpData == null)
{
throw new DrpTimeoutException($"did not get CFM at invite requester from destination peer {destinationPeer} (timeout={Engine.Configuration.CfmTimoutS}s)");
}
// NeighborHMAC and NeighborToken32 are already verified by scanner
var cfm = InviteConfirmationPacket.Decode(cfmUdpData);
if (!cfm.ResponderRegistrationSignature.Verify(Engine.CryptoLibrary, w =>
{
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
ack2.GetSharedSignedFields(w);
},
responderRegistrationId))
{
throw new BadSignatureException("invalid REGISTER CFM ResponderRegistrationSignature 6398");
}
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified CFM");
}
// send NPACK to CFM
SendNeighborPeerAckResponseToCfm(cfm, destinationPeer);
#endregion
session.DeriveSharedPingPongHmacKey(req, ack1, ack2, cfm);
return(session);
}
catch
{
session?.Dispose();
throw;
}
}
internal void DeriveSharedPingPongHmacKey(InviteRequestPacket req, InviteAck1Packet ack1, InviteAck2Packet ack2, InviteConfirmationPacket cfm)
{
if (SharedInviteAckDhSecret == null)
{
throw new NotImplementedException();
}
PacketProcedures.CreateBinaryWriter(out var ms, out var w);
req.GetSharedSignedFields(w);
ack1.GetSharedSignedFields(w, true);
ack2.GetSharedSignedFields(w);
cfm.GetSharedSignedFields(w);
w.Write(SharedInviteAckDhSecret);
SharedPingPongHmacKey = _localDrpPeer.CryptoLibrary.GetHashSHA256(ms.ToArray());
}
