/// <returns>null if no neighbors found for routing</returns>
public ConnectionToNeighbor RouteInviteRequest(LocalDrpPeer localDrpPeer, RoutedRequest routedRequest)
{
var req = routedRequest.InviteReq;
var logger = routedRequest.Logger;
ConnectionToNeighbor r = null;
RegistrationIdDistance minDistance = null;
var connectedNeighborsForRouting = localDrpPeer.GetConnectedNeighborsForRouting(routedRequest).ToList();
foreach (var connectedPeer in connectedNeighborsForRouting)
{
var distanceToConnectedPeer = req.ResponderRegistrationId.GetDistanceTo(_cryptoLibrary, connectedPeer.RemoteRegistrationId, NumberOfDimensions);
logger.WriteToLog_routing_detail($"distanceToConnectedPeer={distanceToConnectedPeer} from {req} to {connectedPeer}");
if (minDistance == null || minDistance.IsGreaterThan(distanceToConnectedPeer))
{
minDistance = distanceToConnectedPeer;
r = connectedPeer;
}
}
if (r == null)
{
logger.WriteToLog_routing_detail($"no neighbors found for routing");
}
return(r);
}
async Task <LocalDrpPeer> CreateLocalPeerAsync(LocalDrpPeerConfiguration registrationConfiguration, IDrpRegisteredPeerApp drpPeerApp)
{
if (registrationConfiguration.LocalPeerRegistrationId == null)
{
throw new ArgumentNullException();
}
var localDrpPeer = new LocalDrpPeer(this, registrationConfiguration, drpPeerApp);
if (Configuration.ForcedPublicIpApiProviderResponse == null)
{
var nowUTC = DateTimeNowUtc;
if (_latestPublicIpAddressResponseTimeUTC == null || nowUTC - _latestPublicIpAddressResponseTimeUTC.Value > TimeSpan.FromSeconds(60))
{
WriteToLog_drpGeneral_detail($"resolving local public IP...");
var sw = Stopwatch.StartNew();
var localPublicIp = await SendPublicIpAddressApiRequestAsync("http://ip.seeip.org/");
if (localPublicIp == null)
{
localPublicIp = await SendPublicIpAddressApiRequestAsync("http://api.ipify.org/");
}
if (localPublicIp == null)
{
localPublicIp = await SendPublicIpAddressApiRequestAsync("http://bot.whatismyipaddress.com");
}
if (localPublicIp == null)
{
localPublicIp = _latestPublicIpAddressResponse.GetAddressBytes();
}
if (localPublicIp == null)
{
throw new Exception("Failed to resolve public IP address. Please check your internet connection");
}
localDrpPeer.PublicIpApiProviderResponse = new IPAddress(localPublicIp);
_latestPublicIpAddressResponse = localDrpPeer.PublicIpApiProviderResponse;
_latestPublicIpAddressResponseTimeUTC = nowUTC;
WriteToLog_drpGeneral_detail($"resolved local public IP = {localDrpPeer.PublicIpApiProviderResponse} ({(int)sw.Elapsed.TotalMilliseconds}ms)");
await EngineThreadQueue.EnqueueAsync("resolved local public IP 3518");
WriteToLog_drpGeneral_detail($"@engine thread");
}
else
{
WriteToLog_drpGeneral_detail($"using cached local public IP address {_latestPublicIpAddressResponse}");
localDrpPeer.PublicIpApiProviderResponse = _latestPublicIpAddressResponse;
}
}
else
{
localDrpPeer.PublicIpApiProviderResponse = Configuration.ForcedPublicIpApiProviderResponse;
}
LocalPeers.Add(registrationConfiguration.LocalPeerRegistrationId, localDrpPeer);
return(localDrpPeer);
}
internal async Task ProcessRegisterRequestAsync(LocalDrpPeer receivedAtLocalDrpPeerNullable, RoutedRequest routedRequest)
{
var req = routedRequest.RegisterReq;
if (!ValidateReceivedReqTimestamp64(req.ReqTimestamp64))
{
throw new BadSignatureException($"invalid REGISTER REQ 265 ReqTimestamp64={MiscProcedures.Int64ticksToDateTime(req.ReqTimestamp64)}");
}
if (PendingRegisterRequestExists(req.RequesterRegistrationId))
{
routedRequest.Logger.WriteToLog_higherLevelDetail($"rejecting {req}: another request is already pending");
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_routeIsUnavailable);
return;
}
_retry:
routedRequest.ReceivedFromNeighborNullable?.AssertIsNotDisposed();
if (!RouteRegistrationRequest(receivedAtLocalDrpPeerNullable, routedRequest, out var proxyToDestinationPeer, out var acceptAt)) // routing
{ // no route found
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_routeIsUnavailable);
return;
}
if (acceptAt != null)
{ // accept the registration request here at this.LocalDrpPeer
routedRequest.ReceivedFromNeighborNullable?.AssertIsNotDisposed();
_ = AcceptRegisterRequestAsync(acceptAt, routedRequest);
}
else if (proxyToDestinationPeer != null)
{ // proxy the registration request to another peer
routedRequest.ReceivedFromNeighborNullable?.AssertIsNotDisposed();
var needToRerouteToAnotherNeighbor = await ProxyRegisterRequestAsync(routedRequest, proxyToDestinationPeer);
if (needToRerouteToAnotherNeighbor && routedRequest.ReceivedFromNeighborNullable?.IsDisposed != true)
{
routedRequest.TriedNeighbors.Add(proxyToDestinationPeer);
routedRequest.Logger.WriteToLog_detail($"retrying to proxy registration to another neighbor on error. already tried {routedRequest.TriedNeighbors.Count}");
routedRequest.ReceivedFromNeighborNullable?.AssertIsNotDisposed();
goto _retry;
}
}
else
{
routedRequest.Logger.WriteToLog_detail($"rejecting request: routing failed");
await routedRequest.SendErrorResponse(ResponseOrFailureCode.failure_routeIsUnavailable);
}
}
/// <summary>
/// main register responder proc for both A-EP and P2P modes
/// in P2P mode Timestamp32S, NeighborToken32 and NeighborHMAC are verified at this time
/// </summary>
/// <param name="receivedFromInP2pMode">
/// is null in A-EP mode
/// </param>
internal async Task AcceptRegisterRequestAsync(LocalDrpPeer acceptAt, RoutedRequest routedRequest) // engine thread
{
var logger = routedRequest.Logger;
logger.ModuleName = VisionChannelModuleName_reg_responderSide;
var req = routedRequest.RegisterReq;
if (req.RequesterRegistrationId.Equals(acceptAt.Configuration.LocalPeerRegistrationId))
{
throw new InvalidOperationException();
}
// check signature of requester (A)
if (!req.RequesterSignature.Verify(_cryptoLibrary,
w => req.GetSharedSignedFields(w, false),
req.RequesterRegistrationId
)
)
{
throw new BadSignatureException("invalid REGISTER REQ RequesterSignature 2396");
}
if (routedRequest.ReceivedFromNeighborNullable == null)
{ // A-EP mode
if (req.EpEndpoint.Address.Equals(acceptAt.PublicIpApiProviderResponse) == false)
{
throw new PossibleAttackException();
}
}
if (PendingRegisterRequestExists(req.RequesterRegistrationId))
{
// received duplicate REGISTER REQ packet
logger.WriteToLog_needsAttention($"ignoring duplicate registration request {req.RequesterRegistrationId} from {routedRequest.ReceivedFromEndpoint}");
return;
}
if (!RecentUniqueAcceptedRegistrationRequests.Filter(req.GetUniqueRequestIdFields))
{
logger.WriteToLog_needsAttention($"ignoring registration request {req.RequesterRegistrationId} ts={req.ReqTimestamp64} from {routedRequest.ReceivedFromEndpoint} with non-unique request ID fields");
return;
}
logger.WriteToLog_higherLevelDetail($"accepting registration from {routedRequest.ReceivedFromEndpoint}: ReqP2pSeq16={req.ReqP2pSeq16}, NumberOfHopsRemaining={req.NumberOfHopsRemaining}, epEndpoint={req.EpEndpoint}, sourcePeer={routedRequest.ReceivedFromNeighborNullable}, ts={req.ReqTimestamp64}");
if (!RecentUniquePublicEcdhKeys.Filter(req.RequesterEcdhePublicKey.Ecdh25519PublicKey))
{
logger.WriteToLog_needsAttention($"ignoring registration request {req.RequesterRegistrationId} from {routedRequest.ReceivedFromEndpoint} with non-unique RequesterEcdhePublicKey");
return;
}
_pendingRegisterRequests.Add(req.RequesterRegistrationId);
try
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending NPACK to REQ to {routedRequest.ReceivedFromEndpoint} (delay={routedRequest.ReqReceivedSw_ms}ms)");
}
routedRequest.SendNeighborPeerAck_accepted_IfNotAlreadyReplied();
var newConnectionToNeighbor = new ConnectionToNeighbor(this, acceptAt, ConnectedDrpPeerInitiatedBy.remotePeer, req.RequesterRegistrationId)
{
LocalEndpoint = routedRequest.ReceivedFromNeighborNullable?.LocalEndpoint ?? req.EpEndpoint,
};
byte[] ack1UdpData;
try
{
var ack1 = new RegisterAck1Packet
{
RequesterRegistrationId = req.RequesterRegistrationId,
ReqTimestamp64 = req.ReqTimestamp64,
ResponderEcdhePublicKey = new EcdhPublicKey(newConnectionToNeighbor.LocalEcdhe25519PublicKey),
ResponderRegistrationId = acceptAt.Configuration.LocalPeerRegistrationId,
ReqP2pSeq16 = GetNewNpaSeq16_AtoEP(),
};
RecentUniquePublicEcdhKeys.AssertIsUnique(ack1.ResponderEcdhePublicKey.Ecdh25519PublicKey, $"ack1.ResponderEcdhePublicKey");
ack1.ToResponderTxParametersEncrypted = newConnectionToNeighbor.Encrypt_ack1_ToResponderTxParametersEncrypted_AtResponder_DeriveSharedDhSecret(logger, req, ack1, routedRequest.ReceivedFromNeighborNullable);
ack1.ResponderSignature = RegistrationSignature.Sign(_cryptoLibrary,
(w2) =>
{
req.GetSharedSignedFields(w2, true);
ack1.GetSharedSignedFields(w2, false, true);
},
acceptAt.Configuration.LocalPeerRegistrationPrivateKey);
if (routedRequest.ReceivedFromNeighborNullable == null)
{
ack1.RequesterEndpoint = routedRequest.ReceivedFromEndpoint;
}
ack1UdpData = ack1.Encode_OpionallySignNeighborHMAC(routedRequest.ReceivedFromNeighborNullable);
var ack2Scanner = RegisterAck2Packet.GetScanner(logger, routedRequest.ReceivedFromNeighborNullable, req);
var requesterVisibleDescription = routedRequest.ReceivedFromNeighborNullable?.ToString() ?? routedRequest.ReceivedFromEndpoint.ToString();
byte[] ack2UdpData;
if (routedRequest.ReceivedFromNeighborNullable == null)
{ // wait for ACK2, retransmitting ACK1
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK1, waiting for ACK2");
}
ack2UdpData = await OptionallySendUdpRequestAsync_Retransmit_WaitForResponse("ack2 33469", requesterVisibleDescription, ack1UdpData, routedRequest.ReceivedFromEndpoint, ack2Scanner);
}
else
{ // retransmit ACK1 until NPACK (via P2P); at same time wait for ACK
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK1, awaiting for NPACK");
}
_ = OptionallySendUdpRequestAsync_Retransmit_WaitForNeighborPeerAck("ack1 423087", ack1UdpData, routedRequest.ReceivedFromEndpoint,
ack1.ReqP2pSeq16, routedRequest.ReceivedFromNeighborNullable, ack1.GetSignedFieldsForNeighborHMAC);
// not waiting for NPACK, wait for ACK
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"waiting for ACK2");
}
ack2UdpData = await OptionallySendUdpRequestAsync_Retransmit_WaitForResponse("ack2 46051", requesterVisibleDescription, null, routedRequest.ReceivedFromEndpoint, ack2Scanner);
}
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received ACK2");
}
var ack2 = RegisterAck2Packet.Decode_OptionallyVerify_InitializeP2pStreamAtResponder(logger, ack2UdpData, req, ack1, newConnectionToNeighbor);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified ACK2");
}
acceptAt.AddToConnectedNeighbors(newConnectionToNeighbor, req); // added to list here in order to respond to ping requests from A
SendNeighborPeerAckResponseToRegisterAck2(ack2, routedRequest.ReceivedFromEndpoint, routedRequest.ReceivedFromNeighborNullable); // send NPACK to ACK
_ = WaitForRegistrationConfirmationRequestAsync(requesterVisibleDescription, logger, routedRequest.ReceivedFromEndpoint, req, newConnectionToNeighbor, routedRequest.ReceivedFromNeighborNullable);
#region send ping, verify pong
var ping = newConnectionToNeighbor.CreatePing(true, false, acceptAt.ConnectedNeighborsBusySectorIds, acceptAt.AnotherNeighborToSameSectorExists(newConnectionToNeighbor));
var pendingPingRequest = new PendingLowLevelUdpRequest("pendingPingRequest 693", newConnectionToNeighbor.RemoteEndpoint,
PongPacket.GetScanner(newConnectionToNeighbor.LocalNeighborToken32, ping.PingRequestId32), DateTimeNowUtc,
Configuration.InitialPingRequests_ExpirationTimeoutS,
ping.Encode(),
Configuration.InitialPingRequests_InitialRetransmissionTimeoutS,
Configuration.InitialPingRequests_RetransmissionTimeoutIncrement
);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sent PING");
}
var pongPacketData = await SendUdpRequestAsync_Retransmit(pendingPingRequest); // wait for pong from A
if (pongPacketData == null)
{
throw new DrpTimeoutException($"reg. responder initial PING request to {newConnectionToNeighbor} (timeout={Configuration.InitialPingRequests_ExpirationTimeoutS}s)");
}
var pong = PongPacket.DecodeAndVerify(_cryptoLibrary,
pongPacketData, ping, newConnectionToNeighbor,
true);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified PONG");
}
newConnectionToNeighbor.OnReceivedVerifiedPong(pong, pendingPingRequest.ResponseReceivedAtUtc.Value,
pendingPingRequest.ResponseReceivedAtUtc.Value - pendingPingRequest.InitialTxTimeUTC.Value);
#endregion
}
catch (Exception exc)
{
newConnectionToNeighbor.Dispose();
throw exc;
}
}
catch (DrpTimeoutException exc)
{
logger.WriteToLog_needsAttention($"could not accept REGISTER request: {exc}");
}
catch (Exception exc)
{
logger.WriteToLog_mediumPain($"could not accept REGISTER request: {exc}");
}
finally
{
_pendingRegisterRequests.Remove(req.RequesterRegistrationId);
}
}
/// <summary>
/// main routing procedure for register REQ requests
/// </summary>
/// <param name="receivedAtLocalDrpPeerNullable">
/// is set when routing REQ packets that are received via P2P connection from neighbor to the LocalDrpPeer
/// is null in A-EP mode
/// </param>
internal bool RouteRegistrationRequest(LocalDrpPeer receivedAtLocalDrpPeerNullable, RoutedRequest routedRequest, out ConnectionToNeighbor proxyToDestinationPeer, out LocalDrpPeer acceptAt)
{
proxyToDestinationPeer = null;
acceptAt = null;
var req = routedRequest.RegisterReq;
var logger = routedRequest.Logger;
if (req.NumberOfHopsRemaining <= 1)
{
var possibleAcceptAt = receivedAtLocalDrpPeerNullable ?? routedRequest.ReceivedFromNeighborNullable?.LocalDrpPeer;
if (possibleAcceptAt == null)
{
possibleAcceptAt = LocalPeers.Values.Where(x => x.Configuration.LocalPeerRegistrationId.Equals(req.RequesterRegistrationId) == false).FirstOrDefault();
}
if (possibleAcceptAt != null)
{
if (!possibleAcceptAt.ConnectedNeighbors.Any(x => x.RemoteRegistrationId.Equals(req.RequesterRegistrationId)))
{
logger.WriteToLog_routing_higherLevelDetail($"accepting registration request {req.RequesterRegistrationId} at local DRP peer {acceptAt}: low number of hops remaining");
acceptAt = possibleAcceptAt;
return(true);
}
else
{
logger.WriteToLog_routing_higherLevelDetail($"not accepting registration at local DRP peer" +
$" {acceptAt} when low number of hops remaining: already connected");
}
}
}
if (req.RandomModeAtThisHop)
{ // random mode
var itemsForRouting = new List <object>();
if (routedRequest.ReceivedFromNeighborNullable == null)
{
foreach (var localDrpPeer in LocalPeers.Values)
{
itemsForRouting.AddRange(localDrpPeer.GetConnectedNeighborsForRouting(routedRequest));
if (!localDrpPeer.Configuration.LocalPeerRegistrationId.Equals(req.RequesterRegistrationId))
{
itemsForRouting.Add(localDrpPeer);
}
}
}
else
{
itemsForRouting.AddRange(routedRequest.ReceivedFromNeighborNullable.LocalDrpPeer.GetConnectedNeighborsForRouting(routedRequest));
if (!routedRequest.ReceivedFromNeighborNullable.LocalDrpPeer.Configuration.LocalPeerRegistrationId.Equals(req.RequesterRegistrationId))
{
itemsForRouting.Add(routedRequest.ReceivedFromNeighborNullable.LocalDrpPeer);
}
}
if (itemsForRouting.Count != 0)
{
var itemForRouting = itemsForRouting[_insecureRandom.Next(itemsForRouting.Count - 1)];
logger.WriteToLog_routing_higherLevelDetail($"routing registration in random mode to one of {itemsForRouting.Count} destinations: {proxyToDestinationPeer}");
if (itemForRouting is ConnectionToNeighbor)
{
proxyToDestinationPeer = (ConnectionToNeighbor)itemForRouting;
}
else
{
acceptAt = (LocalDrpPeer)itemForRouting;
}
}
else
{
logger.WriteToLog_routing_needsAttention($"can not route registration in random mode: no destinations available including local peers");
}
}
else
{
double?maxP2pConnectionValue = null;
if (receivedAtLocalDrpPeerNullable != null)
{
RouteRegistrationRequest_LocalDrpPeerIteration(receivedAtLocalDrpPeerNullable, routedRequest, ref maxP2pConnectionValue, ref proxyToDestinationPeer, ref acceptAt);
}
else
{
foreach (var localDrpPeer in LocalPeers.Values)
{
RouteRegistrationRequest_LocalDrpPeerIteration(localDrpPeer, routedRequest, ref maxP2pConnectionValue, ref proxyToDestinationPeer, ref acceptAt);
}
}
}
if (proxyToDestinationPeer != null)
{
logger.WriteToLog_routing_higherLevelDetail($"proxying registration to {proxyToDestinationPeer}");
return(true);
}
else if (acceptAt != null)
{
logger.WriteToLog_routing_higherLevelDetail($"accepting registration at local DRP peer {acceptAt}");
return(true);
}
else
{
logger.WriteToLog_routing_higherLevelDetail($"no route found for REGISTER request to {req.RequesterRegistrationId}");
return(false);
}
}
void RouteRegistrationRequest_LocalDrpPeerIteration(LocalDrpPeer localDrpPeer, RoutedRequest routedRequest,
ref double?maxP2pConnectionValue,
ref ConnectionToNeighbor proxyToDestinationPeer, ref LocalDrpPeer acceptAt)
{
var req = routedRequest.RegisterReq;
var connectedNeighborsForRouting = localDrpPeer.GetConnectedNeighborsForRouting(routedRequest).ToList();
var logger = routedRequest.Logger;
var distancesToNeighbors = new List <RegistrationIdDistance>();
var requestedDirectionMulResults = new List <double>();
int connectedNeighborsCountThatMatchReqFilters = 0;
foreach (var neighbor in connectedNeighborsForRouting)
{
if (req.MinimalDistanceToNeighbor != 0)
{
var distanceToNeighbor = req.RequesterRegistrationId.GetDistanceTo(_cryptoLibrary, neighbor.RemoteRegistrationId, NumberOfDimensions);
distancesToNeighbors.Add(distanceToNeighbor);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"distanceToNeighbor={distanceToNeighbor} from REGISTER REQ {req.RequesterRegistrationId} to {neighbor} (req.min={req.MinimalDistanceToNeighbor})");
}
if (distanceToNeighbor.IsLessThan(req.MinimalDistanceToNeighbor))
{
// skip: this is too close than requested
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"skipping connection to {neighbor}: distance={distanceToNeighbor} is less than requested={req.MinimalDistanceToNeighbor}");
}
continue;
}
}
if (req.DirectionVectorNullable != null)
{
var requestedDirectionVector = req.DirectionVectorNullableD;
var vectorFromThisToNeighbor = RegistrationId.GetDifferenceVector(req.RequesterRegistrationId, neighbor.RemoteRegistrationId, CryptoLibrary, Configuration.SandboxModeOnly_NumberOfDimensions);
double mulResult = 0;
for (int i = 0; i < requestedDirectionVector.Length; i++)
{
mulResult += requestedDirectionVector[i] * requestedDirectionVector[i];
}
requestedDirectionMulResults.Add(mulResult);
if (mulResult < 0)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"skipping connection to {neighbor}: direction from requester to neighbor does not match requested vector");
}
continue;
}
}
connectedNeighborsCountThatMatchReqFilters++;
var p2pConnectionValue_withNeighbor = P2pConnectionValueCalculator.GetMutualP2pConnectionValue(CryptoLibrary, req.RequesterRegistrationId, req.RequesterNeighborsBusySectorIds,
neighbor.RemoteRegistrationId, neighbor.RemoteNeighborsBusySectorIds ?? 0, NumberOfDimensions, false, false, false);
if (logger.WriteToLog_deepDetail_enabled)
{
logger.WriteToLog_deepDetail($"p2pConnectionValue_withNeighbor={p2pConnectionValue_withNeighbor} from REGISTER REQ {req.RequesterRegistrationId} to {neighbor}");
}
if (maxP2pConnectionValue == null || maxP2pConnectionValue < p2pConnectionValue_withNeighbor)
{
maxP2pConnectionValue = p2pConnectionValue_withNeighbor;
proxyToDestinationPeer = neighbor;
acceptAt = null;
}
}
if (connectedNeighborsCountThatMatchReqFilters == 0 && connectedNeighborsForRouting.Count != 0)
{
if (req.MinimalDistanceToNeighbor != 0)
{
// special case: we are inside the "minDistance" hypersphere: move away from the requester, proxy to most distant neighbor
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"special case: move away from the requester, proxy to most distant neighbor");
}
RegistrationIdDistance maxDistance = null;
for (int i = 0; i < connectedNeighborsForRouting.Count; i++)
{
var neighbor = connectedNeighborsForRouting[i];
var distanceToNeighbor = distancesToNeighbors[i];
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"distanceToConnectedPeer={distanceToNeighbor} from REGISTER REQ {req.RequesterRegistrationId} to {neighbor} (req.min={req.MinimalDistanceToNeighbor})");
}
if (maxDistance == null || distanceToNeighbor.IsGreaterThan(maxDistance))
{
maxDistance = distanceToNeighbor;
proxyToDestinationPeer = neighbor;
acceptAt = null;
}
}
}
if (req.DirectionVectorNullable != null)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"special case: move towards the specified direction");
}
double?maxMulResult = null;
for (int i = 0; i < connectedNeighborsForRouting.Count; i++)
{
var neighbor = connectedNeighborsForRouting[i];
var mulResult = requestedDirectionMulResults[i];
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"mulResult={mulResult} for {neighbor}");
}
if (maxMulResult == null || mulResult > maxMulResult)
{
maxMulResult = mulResult;
proxyToDestinationPeer = neighbor;
acceptAt = null;
}
}
}
}
// dont connect to local peer if already connected
if (localDrpPeer.Configuration.LocalPeerRegistrationId.Equals(req.RequesterRegistrationId) == true)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"not accepting request at local peer: it has same regID {req.RequesterRegistrationId}");
}
}
else if (localDrpPeer.ConnectedNeighbors.Any(x => x.RemoteRegistrationId.Equals(req.RequesterRegistrationId)) == true)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"not accepting request at local peer: already connected to {req.RequesterRegistrationId}");
}
}
else if (localDrpPeer.ConnectedNeighbors.Count > localDrpPeer.Configuration.AbsoluteMaxNumberOfNeighbors)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"not accepting request at local peer: already too many neighbors ({localDrpPeer.ConnectedNeighbors.Count})");
}
}
else
{
var p2pConnectionValue_withLocalPeer = P2pConnectionValueCalculator.GetMutualP2pConnectionValue(CryptoLibrary, req.RequesterRegistrationId, req.RequesterNeighborsBusySectorIds,
localDrpPeer.Configuration.LocalPeerRegistrationId, localDrpPeer.ConnectedNeighborsBusySectorIds, NumberOfDimensions, false, false, false);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"p2pConnectionValue_withLocalPeer={p2pConnectionValue_withLocalPeer} from REGISTER REQ {req.RequesterRegistrationId} to {localDrpPeer.Configuration.LocalPeerRegistrationId}");
}
if (maxP2pConnectionValue == null || p2pConnectionValue_withLocalPeer > maxP2pConnectionValue)
{
maxP2pConnectionValue = p2pConnectionValue_withLocalPeer;
proxyToDestinationPeer = null;
acceptAt = localDrpPeer;
}
}
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"<< RouteRegistrationRequest_LocalDrpPeerIteration() proxyTo={proxyToDestinationPeer}, acceptAt={acceptAt}");
}
}
/// <returns>null if registration failed with timeout or some error code</returns>
public async Task <ConnectionToNeighbor> RegisterAsync(LocalDrpPeer localDrpPeer, IPEndPoint epEndpoint, uint minimalDistanceToNeighbor,
byte numberofHops, double[] directionVectorNullable, bool allowConnectionsToRequesterRegistrationId) // engine thread
{
var regSW = Stopwatch.StartNew();
WriteToLog_reg_requesterSide_higherLevelDetail($"connecting via EntryPeer {epEndpoint}", null, null);
localDrpPeer.CurrentRegistrationOperationsCount++;
try
{
#region PoW1
RegisterPow1ResponsePacket pow1ResponsePacket = null;
if (!Configuration.SandboxModeOnly_DisablePoW)
{
WriteToLog_reg_requesterSide_detail($"generating PoW1 request", null, null);
var pow1SW = Stopwatch.StartNew();
await PowThreadQueue.EnqueueAsync("pow1 6318");
WriteToLog_reg_requesterSide_detail($"generating PoW1 request @pow thread", null, null);
var registerPow1RequestPacket = GenerateRegisterPow1RequestPacket(localDrpPeer.PublicIpApiProviderResponse.GetAddressBytes(), Timestamp32S);
await EngineThreadQueue.EnqueueAsync("pow1 234709");
WriteToLog_reg_requesterSide_detail($"generated PoW1 request @engine thread", null, null);
// send register pow1 request
if (pow1SW.Elapsed.TotalMilliseconds > 3000)
{
WriteToLog_reg_requesterSide_lightPain($"PoW1 took {(int)pow1SW.Elapsed.TotalMilliseconds}ms", null, null);
}
WriteToLog_reg_requesterSide_detail($"PoW1 took {(int)pow1SW.Elapsed.TotalMilliseconds}ms. sending PoW1 request", null, null);
var rpPow1ResponsePacketData = await SendUdpRequestAsync_Retransmit(
new PendingLowLevelUdpRequest("rpPow1 469", epEndpoint,
RegisterPow1ResponsePacket.GetScanner(registerPow1RequestPacket.Pow1RequestId),
DateTimeNowUtc,
Configuration.UdpLowLevelRequests_ExpirationTimeoutS,
registerPow1RequestPacket.Encode(),
Configuration.UdpLowLevelRequests_InitialRetransmissionTimeoutS,
Configuration.UdpLowLevelRequests_RetransmissionTimeoutIncrement
));
// wait for response, retransmit
if (rpPow1ResponsePacketData == null)
{
throw new DrpTimeoutException($"pow1 request to EP '{epEndpoint}' (timeout={Configuration.UdpLowLevelRequests_ExpirationTimeoutS}s)");
}
;
pow1ResponsePacket = new RegisterPow1ResponsePacket(rpPow1ResponsePacketData);
WriteToLog_reg_requesterSide_detail($"got PoW1 response with status={pow1ResponsePacket.StatusCode}", null, null);
if (pow1ResponsePacket.StatusCode != RegisterPow1ResponseStatusCode.succeeded_Pow2Challenge)
{
throw new Pow1RejectedException(pow1ResponsePacket.StatusCode);
}
}
#endregion
var newConnectionToNeighbor = new ConnectionToNeighbor(this, localDrpPeer, ConnectedDrpPeerInitiatedBy.localPeer, null);
PongPacket pong;
var req = new RegisterRequestPacket
{
RequesterRegistrationId = localDrpPeer.Configuration.LocalPeerRegistrationId,
ReqTimestamp64 = Timestamp64,
MinimalDistanceToNeighbor = minimalDistanceToNeighbor,
RequesterNatBehaviour = LocalNatBehaviour,
AllowConnectionsToRequesterRegistrationId = allowConnectionsToRequesterRegistrationId,
NumberOfHopsRemaining = numberofHops,
RequesterEcdhePublicKey = new EcdhPublicKey(newConnectionToNeighbor.LocalEcdhe25519PublicKey),
ReqP2pSeq16 = GetNewNpaSeq16_AtoEP(),
EpEndpoint = epEndpoint,
DirectionVectorNullableD = directionVectorNullable
};
var logger = new Logger(this, localDrpPeer, req, VisionChannelModuleName_reg_requesterSide);
try
{
#region register REQ PoW2
RecentUniquePublicEcdhKeys.AssertIsUnique(req.RequesterEcdhePublicKey.Ecdh25519PublicKey, $"req.RequesterEcdhePublicKey {req}"); // this is used in non-standard way when routing registration requests to same (local) reg. ID, too
var pow2SW = Stopwatch.StartNew();
if (!Configuration.SandboxModeOnly_DisablePoW)
{
await PowThreadQueue.EnqueueAsync("pow2 23465");
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"calculating PoW2 @pow thread");
}
GenerateRegisterReqPow2(req, pow1ResponsePacket.ProofOfWork2Request);
await EngineThreadQueue.EnqueueAsync("pow2 2496");
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"calculated PoW2 @engine thread");
}
}
else
{
req.ProofOfWork2 = new byte[64];
}
pow2SW.Stop();
if (pow2SW.Elapsed.TotalMilliseconds > 3000)
{
logger.WriteToLog_lightPain($"PoW2 took {(int)pow2SW.Elapsed.TotalMilliseconds}ms");
}
req.RequesterSignature = RegistrationSignature.Sign(_cryptoLibrary,
w => req.GetSharedSignedFields(w, false),
localDrpPeer.Configuration.LocalPeerRegistrationPrivateKey
);
var reqToAck1Stopwatch = Stopwatch.StartNew();
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"PoW2 took {(int)pow2SW.Elapsed.TotalMilliseconds}ms. sending REQ, waiting for NPACK. ReqP2pSeq16={req.ReqP2pSeq16}");
}
#endregion
// var reqSW = Stopwatch.StartNew();
#region wait for ACK1
var sentRequest = new SentRequest(this, logger, epEndpoint, null, req.Encode_OptionallySignNeighborHMAC(null), req.ReqP2pSeq16, RegisterAck1Packet.GetScanner(logger, req));
var ack1UdpData = await sentRequest.SendRequestAsync("reg req ack1 367097");
var ack1 = RegisterAck1Packet.DecodeAndOptionallyVerify(logger, ack1UdpData, req, newConnectionToNeighbor);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified ACK1. RequesterEndpoint={ack1.RequesterEndpoint}");
}
#endregion
// check if it matches to previously known local public IP
if (ack1.RequesterEndpoint.Address.Equals(localDrpPeer.PublicIpApiProviderResponse) == false)
{
// MITM attack / EP sent local (requester) endpoint IP some bad IP address
throw new PossibleAttackException();
}
RecentUniquePublicEcdhKeys.AssertIsUnique(ack1.ResponderEcdhePublicKey.Ecdh25519PublicKey, $"ack1.ResponderEcdhePublicKey from {epEndpoint}");
newConnectionToNeighbor.LocalEndpoint = ack1.RequesterEndpoint;
newConnectionToNeighbor.RemoteRegistrationId = ack1.ResponderRegistrationId;
reqToAck1Stopwatch.Stop();
var reqToAck1TimeMs = reqToAck1Stopwatch.Elapsed.TotalMilliseconds;
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"measured REQ-ACK1_RTT={(int)reqToAck1TimeMs}ms");
}
#region send ACK2, encode local IP
var ack2 = new RegisterAck2Packet
{
ReqTimestamp64 = req.ReqTimestamp64,
RequesterRegistrationId = localDrpPeer.Configuration.LocalPeerRegistrationId,
ReqP2pSeq16 = GetNewNpaSeq16_AtoEP()
};
ack2.ToRequesterTxParametersEncrypted = newConnectionToNeighbor.Encrypt_ack2_ToRequesterTxParametersEncrypted_AtRequester(logger, req, ack1, ack2);
newConnectionToNeighbor.InitializeP2pStream(req, ack1, ack2);
ack2.RequesterSignature = RegistrationSignature.Sign(_cryptoLibrary, w =>
{
req.GetSharedSignedFields(w, true);
ack1.GetSharedSignedFields(w, true, true);
ack2.GetSharedSignedFields(w, false, true);
},
localDrpPeer.Configuration.LocalPeerRegistrationPrivateKey
);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending ACK2 (in response to ACK1), waiting for NPACK");
}
RespondToRequestAndRetransmissions(ack1UdpData, ack2.Encode_OptionallySignNeighborHMAC(null), epEndpoint);
await OptionallySendUdpRequestAsync_Retransmit_WaitForNeighborPeerAck("ack2 46873", null, epEndpoint, ack2.ReqP2pSeq16);
#endregion
var neighborWaitTimeMs = reqToAck1TimeMs * 0.5 - 250; if (neighborWaitTimeMs < 0)
{
neighborWaitTimeMs = 0;
}
if (neighborWaitTimeMs > 20)
{
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"awaiting {(int)neighborWaitTimeMs}ms before PING...");
}
await EngineThreadQueue.WaitAsync(TimeSpan.FromMilliseconds(neighborWaitTimeMs), "before PING 34589"); // wait until the ACK2 reaches neighbor N via peers
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"... awaiting is complete");
}
}
localDrpPeer.AddToConnectedNeighbors(newConnectionToNeighbor, req);
#region send ping request directly to neighbor N, retransmit
var pingRequest = newConnectionToNeighbor.CreatePing(true, false, localDrpPeer.ConnectedNeighborsBusySectorIds, localDrpPeer.AnotherNeighborToSameSectorExists(newConnectionToNeighbor));
newConnectionToNeighbor.InitialPendingPingRequest = new PendingLowLevelUdpRequest("pingRequest 3850", newConnectionToNeighbor.RemoteEndpoint,
PongPacket.GetScanner(newConnectionToNeighbor.LocalNeighborToken32, pingRequest.PingRequestId32),
DateTimeNowUtc,
Configuration.InitialPingRequests_ExpirationTimeoutS,
pingRequest.Encode(),
Configuration.InitialPingRequests_InitialRetransmissionTimeoutS,
Configuration.InitialPingRequests_RetransmissionTimeoutIncrement
);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending PING neighborToken32={pingRequest.NeighborToken32}, waiting for PONG");
}
var pongPacketData = await SendUdpRequestAsync_Retransmit(newConnectionToNeighbor.InitialPendingPingRequest);
if (pongPacketData == null)
{
throw new DrpTimeoutException($"initial reg. requester PING to {newConnectionToNeighbor} (timeout={Configuration.InitialPingRequests_ExpirationTimeoutS}s)");
}
if (newConnectionToNeighbor.IsDisposed)
{
throw new ObjectDisposedException($"initial reg. requester PING to {newConnectionToNeighbor} (special case: connection is disposed)", (Exception)null); // ping timeout already destroyed the connection, so PONG response here is too late
}
pong = PongPacket.DecodeAndVerify(_cryptoLibrary,
pongPacketData, pingRequest, newConnectionToNeighbor,
true);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"verified PONG");
}
newConnectionToNeighbor.OnReceivedVerifiedPong(pong, newConnectionToNeighbor.InitialPendingPingRequest.ResponseReceivedAtUtc.Value,
newConnectionToNeighbor.InitialPendingPingRequest.ResponseReceivedAtUtc.Value - newConnectionToNeighbor.InitialPendingPingRequest.InitialTxTimeUTC.Value);
#endregion
}
catch
{
// todo update QoS
newConnectionToNeighbor.Dispose(); // remove from token32 table
throw;
}
#region send registration confirmation packet to EP->X->N
try
{
var cfm = new RegisterConfirmationPacket
{
ReqTimestamp64 = req.ReqTimestamp64,
RequesterRegistrationId = localDrpPeer.Configuration.LocalPeerRegistrationId,
ResponderRegistrationConfirmationSignature = pong.ResponderRegistrationConfirmationSignature,
ReqP2pSeq16 = GetNewNpaSeq16_AtoEP()
};
cfm.RequesterRegistrationConfirmationSignature = RegistrationSignature.Sign(_cryptoLibrary,
w => newConnectionToNeighbor.GetRequesterRegistrationConfirmationSignatureFields(w, cfm.ResponderRegistrationConfirmationSignature),
localDrpPeer.Configuration.LocalPeerRegistrationPrivateKey);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"sending CFM, waiting for NPACK");
}
await OptionallySendUdpRequestAsync_Retransmit_WaitForNeighborPeerAck("cfm 32107", cfm.Encode_OptionallySignNeighborHMAC(null), epEndpoint, cfm.ReqP2pSeq16);
if (logger.WriteToLog_detail_enabled)
{
logger.WriteToLog_detail($"received NPACK to CFM");
}
}
catch (DrpTimeoutException exc)
{ // we ingnore exceptions here, just wite warning to log. the connection is alive already, as direct ping channel to neighbor is set up
logger.WriteToLog_needsAttention($"... registration confirmation request failed: {exc}");
}
catch (Exception exc)
{ // we ingnore exceptions here, just wite warning to log. the connection is alive already, as direct ping channel to neighbor is set up
logger.WriteToLog_mediumPain($"... registration confirmation request failed: {exc}");
}
#endregion
regSW.Stop();
if (regSW.Elapsed.TotalMilliseconds > 5000)
{
logger.WriteToLog_lightPain($"registration is completed in {(int)regSW.Elapsed.TotalMilliseconds}ms");
}
else
{
logger.WriteToLog_higherLevelDetail($"registration is completed in {(int)regSW.Elapsed.TotalMilliseconds}ms");
};
return(newConnectionToNeighbor);
}
finally
{
localDrpPeer.CurrentRegistrationOperationsCount--;
}
}
