#include #include #include #include #include "util.h" #include "Log.h" #include "RouterInfo.h" #include "RouterContext.h" #include "Tunnel.h" #include "Timestamp.h" #include "CryptoConst.h" #include "NetDb.h" #include "Streaming.h" namespace i2p { namespace stream { Stream::Stream (boost::asio::io_service& service, StreamingDestination * local, const i2p::data::LeaseSet& remote): m_Service (service), m_SendStreamID (0), m_SequenceNumber (0), m_LastReceivedSequenceNumber (-1), m_IsOpen (false), m_LeaseSetUpdated (true), m_LocalDestination (local), m_RemoteLeaseSet (&remote), m_RoutingSession (nullptr), m_CurrentOutboundTunnel (nullptr), m_ReceiveTimer (m_Service), m_ResendTimer (m_Service) { m_RecvStreamID = i2p::context.GetRandomNumberGenerator ().GenerateWord32 (); UpdateCurrentRemoteLease (); } Stream::Stream (boost::asio::io_service& service, StreamingDestination * local): m_Service (service), m_SendStreamID (0), m_SequenceNumber (0), m_LastReceivedSequenceNumber (-1), m_IsOpen (false), m_LeaseSetUpdated (true), m_LocalDestination (local), m_RemoteLeaseSet (nullptr), m_RoutingSession (nullptr), m_CurrentOutboundTunnel (nullptr), m_ReceiveTimer (m_Service), m_ResendTimer (m_Service) { m_RecvStreamID = i2p::context.GetRandomNumberGenerator ().GenerateWord32 (); } Stream::~Stream () { m_ReceiveTimer.cancel (); m_ResendTimer.cancel (); while (!m_ReceiveQueue.empty ()) { auto packet = m_ReceiveQueue.front (); m_ReceiveQueue.pop (); delete packet; } for (auto it: m_SavedPackets) delete it; for (auto it: m_SentPackets) delete it; } void Stream::HandleNextPacket (Packet * packet) { if (!m_SendStreamID) m_SendStreamID = packet->GetReceiveStreamID (); if (!packet->IsNoAck ()) // ack received ProcessAck (packet); int32_t receivedSeqn = packet->GetSeqn (); bool isSyn = packet->IsSYN (); if (!receivedSeqn && !isSyn) { // plain ack LogPrint ("Plain ACK received"); delete packet; return; } LogPrint ("Received seqn=", receivedSeqn); if (isSyn || receivedSeqn == m_LastReceivedSequenceNumber + 1) { // we have received next in sequence message ProcessPacket (packet); // we should also try stored messages if any for (auto it = m_SavedPackets.begin (); it != m_SavedPackets.end ();) { if ((*it)->GetSeqn () == (uint32_t)(m_LastReceivedSequenceNumber + 1)) { Packet * savedPacket = *it; m_SavedPackets.erase (it++); ProcessPacket (savedPacket); } else break; } // send ack for last message if (m_IsOpen) SendQuickAck (); else if (isSyn) // we have to send SYN back to incoming connection Send (nullptr, 0, 0); // also sets m_IsOpen } else { if (receivedSeqn <= m_LastReceivedSequenceNumber) { // we have received duplicate. Most likely our outbound tunnel is dead LogPrint ("Duplicate message ", receivedSeqn, " received"); m_CurrentOutboundTunnel = nullptr; // pick another outbound tunnel UpdateCurrentRemoteLease (); // pick another lease SendQuickAck (); // resend ack for previous message again delete packet; // packet dropped } else { LogPrint ("Missing messages from ", m_LastReceivedSequenceNumber + 1, " to ", receivedSeqn - 1); // save message and wait for missing message again SavePacket (packet); } } } void Stream::SavePacket (Packet * packet) { m_SavedPackets.insert (packet); } void Stream::ProcessPacket (Packet * packet) { // process flags uint32_t receivedSeqn = packet->GetSeqn (); uint16_t flags = packet->GetFlags (); LogPrint ("Process seqn=", receivedSeqn, ", flags=", flags); const uint8_t * optionData = packet->GetOptionData (); if (flags & PACKET_FLAG_SYNCHRONIZE) LogPrint ("Synchronize"); if (flags & PACKET_FLAG_DELAY_REQUESTED) { optionData += 2; } if (flags & PACKET_FLAG_FROM_INCLUDED) { optionData += m_RemoteIdentity.FromBuffer (optionData, packet->GetOptionSize ()); LogPrint ("From identity ", m_RemoteIdentity.GetIdentHash ().ToBase64 ()); if (!m_RemoteLeaseSet) LogPrint ("Incoming stream from ", m_RemoteIdentity.GetIdentHash ().ToBase64 ()); } if (flags & PACKET_FLAG_MAX_PACKET_SIZE_INCLUDED) { uint16_t maxPacketSize = be16toh (*(uint16_t *)optionData); LogPrint ("Max packet size ", maxPacketSize); optionData += 2; } if (flags & PACKET_FLAG_SIGNATURE_INCLUDED) { LogPrint ("Signature"); uint8_t signature[256]; auto signatureLen = m_RemoteIdentity.GetSignatureLen (); memcpy (signature, optionData, signatureLen); memset (const_cast(optionData), 0, signatureLen); if (!m_RemoteIdentity.Verify (packet->GetBuffer (), packet->GetLength (), signature)) { LogPrint ("Signature verification failed"); Close (); flags |= PACKET_FLAG_CLOSE; } memcpy (const_cast(optionData), signature, signatureLen); optionData += signatureLen; } packet->offset = packet->GetPayload () - packet->buf; if (packet->GetLength () > 0) { m_ReceiveQueue.push (packet); m_ReceiveTimer.cancel (); } else delete packet; m_LastReceivedSequenceNumber = receivedSeqn; if (flags & PACKET_FLAG_CLOSE) { LogPrint ("Closed"); SendQuickAck (); // send ack for close explicitly? m_IsOpen = false; m_ReceiveTimer.cancel (); m_ResendTimer.cancel (); } } void Stream::ProcessAck (Packet * packet) { uint32_t ackThrough = packet->GetAckThrough (); int nackCount = packet->GetNACKCount (); for (auto it = m_SentPackets.begin (); it != m_SentPackets.end ();) { auto seqn = (*it)->GetSeqn (); if (seqn <= ackThrough) { if (nackCount > 0) { bool nacked = false; for (int i = 0; i < nackCount; i++) if (seqn == packet->GetNACK (i)) { nacked = true; break; } if (nacked) { LogPrint ("Packet ", seqn, " NACK"); it++; continue; } } auto sentPacket = *it; LogPrint ("Packet ", seqn, " acknowledged"); m_SentPackets.erase (it++); delete sentPacket; } else break; } if (m_SentPackets.empty ()) m_ResendTimer.cancel (); } size_t Stream::Send (const uint8_t * buf, size_t len, int timeout) { bool isNoAck = m_LastReceivedSequenceNumber < 0; // first packet while (!m_IsOpen || len > 0) { Packet * p = new Packet (); uint8_t * packet = p->GetBuffer (); // TODO: implement setters size_t size = 0; *(uint32_t *)(packet + size) = htobe32 (m_SendStreamID); size += 4; // sendStreamID *(uint32_t *)(packet + size) = htobe32 (m_RecvStreamID); size += 4; // receiveStreamID *(uint32_t *)(packet + size) = htobe32 (m_SequenceNumber++); size += 4; // sequenceNum if (isNoAck) *(uint32_t *)(packet + size) = htobe32 (m_LastReceivedSequenceNumber); else *(uint32_t *)(packet + size) = 0; size += 4; // ack Through packet[size] = 0; size++; // NACK count size++; // resend delay if (!m_IsOpen) { // initial packet m_IsOpen = true; uint16_t flags = PACKET_FLAG_SYNCHRONIZE | PACKET_FLAG_FROM_INCLUDED | PACKET_FLAG_SIGNATURE_INCLUDED | PACKET_FLAG_MAX_PACKET_SIZE_INCLUDED; if (isNoAck) flags |= PACKET_FLAG_NO_ACK; *(uint16_t *)(packet + size) = htobe16 (flags); size += 2; // flags size_t identityLen = m_LocalDestination->GetIdentity ().GetFullLen (); size_t signatureLen = m_LocalDestination->GetIdentity ().GetSignatureLen (); *(uint16_t *)(packet + size) = htobe16 (identityLen + signatureLen + 2); // identity + signature + packet size size += 2; // options size m_LocalDestination->GetIdentity ().ToBuffer (packet + size, identityLen); size += identityLen; // from *(uint16_t *)(packet + size) = htobe16 (STREAMING_MTU); size += 2; // max packet size uint8_t * signature = packet + size; // set it later memset (signature, 0, signatureLen); // zeroes for now size += signatureLen; // signature size_t sentLen = STREAMING_MTU - size; if (len < sentLen) sentLen = len; memcpy (packet + size, buf, sentLen); buf += sentLen; len -= sentLen; size += sentLen; // payload m_LocalDestination->Sign (packet, size, signature); } else { // follow on packet *(uint16_t *)(packet + size) = 0; size += 2; // flags *(uint16_t *)(packet + size) = 0; // no options size += 2; // options size size_t sentLen = STREAMING_MTU - size; if (len < sentLen) sentLen = len; memcpy (packet + size, buf, sentLen); buf += sentLen; len -= sentLen; size += sentLen; // payload } p->len = size; m_Service.post (boost::bind (&Stream::SendPacket, this, p)); } return len; } void Stream::SendQuickAck () { Packet p; uint8_t * packet = p.GetBuffer (); size_t size = 0; *(uint32_t *)(packet + size) = htobe32 (m_SendStreamID); size += 4; // sendStreamID *(uint32_t *)(packet + size) = htobe32 (m_RecvStreamID); size += 4; // receiveStreamID *(uint32_t *)(packet + size) = 0; // this is plain Ack message size += 4; // sequenceNum *(uint32_t *)(packet + size) = htobe32 (m_LastReceivedSequenceNumber); size += 4; // ack Through packet[size] = 0; size++; // NACK count size++; // resend delay *(uint16_t *)(packet + size) = 0; // nof flags set size += 2; // flags *(uint16_t *)(packet + size) = 0; // no options size += 2; // options size p.len = size; SendPackets (std::vector { &p }); LogPrint ("Quick Ack sent"); } void Stream::Close () { if (m_IsOpen) { m_IsOpen = false; Packet * p = new Packet (); uint8_t * packet = p->GetBuffer (); size_t size = 0; *(uint32_t *)(packet + size) = htobe32 (m_SendStreamID); size += 4; // sendStreamID *(uint32_t *)(packet + size) = htobe32 (m_RecvStreamID); size += 4; // receiveStreamID *(uint32_t *)(packet + size) = htobe32 (m_SequenceNumber++); size += 4; // sequenceNum *(uint32_t *)(packet + size) = htobe32 (m_LastReceivedSequenceNumber); size += 4; // ack Through packet[size] = 0; size++; // NACK count size++; // resend delay *(uint16_t *)(packet + size) = htobe16 (PACKET_FLAG_CLOSE | PACKET_FLAG_SIGNATURE_INCLUDED); size += 2; // flags size_t signatureLen = m_LocalDestination->GetIdentity ().GetSignatureLen (); *(uint16_t *)(packet + size) = htobe16 (signatureLen); // signature only size += 2; // options size uint8_t * signature = packet + size; memset (packet + size, 0, signatureLen); size += signatureLen; // signature m_LocalDestination->Sign (packet, size, signature); p->len = size; m_Service.post (boost::bind (&Stream::SendPacket, this, p)); LogPrint ("FIN sent"); } } size_t Stream::ConcatenatePackets (uint8_t * buf, size_t len) { size_t pos = 0; while (pos < len && !m_ReceiveQueue.empty ()) { Packet * packet = m_ReceiveQueue.front (); size_t l = std::min (packet->GetLength (), len - pos); memcpy (buf + pos, packet->GetBuffer (), l); pos += l; packet->offset += l; if (!packet->GetLength ()) { m_ReceiveQueue.pop (); delete packet; } } return pos; } bool Stream::SendPacket (Packet * packet) { if (packet) { SendPackets (std::vector { packet }); bool isEmpty = m_SentPackets.empty (); m_SentPackets.insert (packet); if (isEmpty) ScheduleResend (); return true; } else return false; } void Stream::SendPackets (const std::vector& packets) { if (!m_RemoteLeaseSet) { UpdateCurrentRemoteLease (); if (!m_RemoteLeaseSet) { LogPrint ("Can't send packets. Missing remote LeaseSet"); return; } } const i2p::data::LeaseSet * leaseSet = nullptr; if (m_LeaseSetUpdated) { leaseSet = m_LocalDestination->GetLeaseSet (); m_LeaseSetUpdated = false; } m_CurrentOutboundTunnel = m_LocalDestination->GetTunnelPool ()->GetNextOutboundTunnel (m_CurrentOutboundTunnel); if (m_CurrentOutboundTunnel) { auto ts = i2p::util::GetMillisecondsSinceEpoch (); if (ts >= m_CurrentRemoteLease.endDate) UpdateCurrentRemoteLease (); if (ts < m_CurrentRemoteLease.endDate) { std::vector msgs; for (auto it: packets) { auto msg = m_RoutingSession->WrapSingleMessage ( CreateDataMessage (this, it->GetBuffer (), it->GetLength ()), leaseSet); msgs.push_back (i2p::tunnel::TunnelMessageBlock { i2p::tunnel::eDeliveryTypeTunnel, m_CurrentRemoteLease.tunnelGateway, m_CurrentRemoteLease.tunnelID, msg }); leaseSet = nullptr; // send leaseSet only one time } m_CurrentOutboundTunnel->SendTunnelDataMsg (msgs); } else LogPrint ("All leases are expired"); } else LogPrint ("No outbound tunnels in the pool"); } void Stream::ScheduleResend () { m_ResendTimer.cancel (); m_ResendTimer.expires_from_now (boost::posix_time::seconds(RESEND_TIMEOUT)); m_ResendTimer.async_wait (boost::bind (&Stream::HandleResendTimer, this, boost::asio::placeholders::error)); } void Stream::HandleResendTimer (const boost::system::error_code& ecode) { if (ecode != boost::asio::error::operation_aborted) { std::vector packets; for (auto it : m_SentPackets) { it->numResendAttempts++; if (it->numResendAttempts <= MAX_NUM_RESEND_ATTEMPTS) packets.push_back (it); else { Close (); m_ReceiveTimer.cancel (); return; } } if (packets.size () > 0) { m_CurrentOutboundTunnel = nullptr; // pick another outbound tunnel UpdateCurrentRemoteLease (); // pick another lease SendPackets (packets); } ScheduleResend (); } } void Stream::UpdateCurrentRemoteLease () { if (!m_RemoteLeaseSet) { m_RemoteLeaseSet = i2p::data::netdb.FindLeaseSet (m_RemoteIdentity.GetIdentHash ()); if (!m_RemoteLeaseSet) LogPrint ("LeaseSet ", m_RemoteIdentity.GetIdentHash ().ToBase64 (), " not found"); } if (m_RemoteLeaseSet) { if (!m_RoutingSession) m_RoutingSession = i2p::garlic::routing.GetRoutingSession (*m_RemoteLeaseSet, 32); auto leases = m_RemoteLeaseSet->GetNonExpiredLeases (); if (!leases.empty ()) { uint32_t i = i2p::context.GetRandomNumberGenerator ().GenerateWord32 (0, leases.size () - 1); m_CurrentRemoteLease = leases[i]; } else m_CurrentRemoteLease.endDate = 0; } else m_CurrentRemoteLease.endDate = 0; } StreamingDestination::StreamingDestination (boost::asio::io_service& service): m_Service (service), m_LeaseSet (nullptr), m_IsPublic (false) { m_Keys = i2p::data::PrivateKeys::CreateRandomKeys (/*i2p::data::SIGNING_KEY_TYPE_ECDSA_SHA256_P256*/); // uncomment for ECDSA CryptoPP::DH dh (i2p::crypto::elgp, i2p::crypto::elgg); dh.GenerateKeyPair(i2p::context.GetRandomNumberGenerator (), m_EncryptionPrivateKey, m_EncryptionPublicKey); m_Pool = i2p::tunnel::tunnels.CreateTunnelPool (*this, 3); // 3-hops tunnel } StreamingDestination::StreamingDestination (boost::asio::io_service& service, const std::string& fullPath): m_Service (service), m_LeaseSet (nullptr), m_IsPublic (true) { std::ifstream s(fullPath.c_str (), std::ifstream::binary); if (s.is_open ()) { s.seekg (0, std::ios::end); size_t len = s.tellg(); s.seekg (0, std::ios::beg); uint8_t * buf = new uint8_t[len]; s.read ((char *)buf, len); m_Keys.FromBuffer (buf, len); delete[] buf; LogPrint ("Local address ", m_Keys.GetPublic ().GetIdentHash ().ToBase32 (), ".b32.i2p loaded"); } else { LogPrint ("Can't open file ", fullPath, " Creating new one"); // new eepsites use ECDSA m_Keys = i2p::data::PrivateKeys::CreateRandomKeys (i2p::data::SIGNING_KEY_TYPE_ECDSA_SHA256_P256); std::ofstream f (fullPath, std::ofstream::binary | std::ofstream::out); size_t len = m_Keys.GetFullLen (); uint8_t * buf = new uint8_t[len]; len = m_Keys.ToBuffer (buf, len); f.write ((char *)buf, len); delete[] buf; LogPrint ("New private keys file ", fullPath, " for ", m_Keys.GetPublic ().GetIdentHash ().ToBase32 (), ".b32.i2p created"); } CryptoPP::DH dh (i2p::crypto::elgp, i2p::crypto::elgg); dh.GenerateKeyPair(i2p::context.GetRandomNumberGenerator (), m_EncryptionPrivateKey, m_EncryptionPublicKey); m_Pool = i2p::tunnel::tunnels.CreateTunnelPool (*this, 3); // 3-hops tunnel } StreamingDestination::~StreamingDestination () { if (m_Pool) i2p::tunnel::tunnels.DeleteTunnelPool (m_Pool); delete m_LeaseSet; } void StreamingDestination::HandleNextPacket (Packet * packet) { uint32_t sendStreamID = packet->GetSendStreamID (); if (sendStreamID) { auto it = m_Streams.find (sendStreamID); if (it != m_Streams.end ()) it->second->HandleNextPacket (packet); else { LogPrint ("Unknown stream ", sendStreamID); delete packet; } } else // new incoming stream { auto incomingStream = CreateNewIncomingStream (); incomingStream->HandleNextPacket (packet); if (m_Acceptor != nullptr) m_Acceptor (incomingStream); } } Stream * StreamingDestination::CreateNewOutgoingStream (const i2p::data::LeaseSet& remote) { Stream * s = new Stream (m_Service, this, remote); m_Streams[s->GetRecvStreamID ()] = s; return s; } Stream * StreamingDestination::CreateNewIncomingStream () { Stream * s = new Stream (m_Service, this); m_Streams[s->GetRecvStreamID ()] = s; return s; } void StreamingDestination::DeleteStream (Stream * stream) { if (stream) { m_Streams.erase (stream->GetRecvStreamID ()); delete stream; } } const i2p::data::LeaseSet * StreamingDestination::GetLeaseSet () { if (!m_Pool) return nullptr; if (!m_LeaseSet) UpdateLeaseSet (); return m_LeaseSet; } void StreamingDestination::UpdateLeaseSet () { auto newLeaseSet = new i2p::data::LeaseSet (*m_Pool); if (!m_LeaseSet) m_LeaseSet = newLeaseSet; else { // TODO: implement it better *m_LeaseSet = *newLeaseSet; delete newLeaseSet; } } void StreamingDestination::SetLeaseSetUpdated () { UpdateLeaseSet (); for (auto it: m_Streams) it.second->SetLeaseSetUpdated (); if (m_IsPublic) i2p::data::netdb.PublishLeaseSet (m_LeaseSet, m_Pool); } StreamingDestinations destinations; void StreamingDestinations::Start () { if (!m_SharedLocalDestination) { m_SharedLocalDestination = new StreamingDestination (m_Service); m_Destinations[m_SharedLocalDestination->GetIdentity ().GetIdentHash ()] = m_SharedLocalDestination; } // LoadLocalDestinations (); m_IsRunning = true; m_Thread = new std::thread (std::bind (&StreamingDestinations::Run, this)); } void StreamingDestinations::Stop () { for (auto it: m_Destinations) delete it.second; m_Destinations.clear (); m_SharedLocalDestination = 0; // deleted through m_Destination m_IsRunning = false; m_Service.stop (); if (m_Thread) { m_Thread->join (); delete m_Thread; m_Thread = 0; } } void StreamingDestinations::Run () { m_Service.run (); } void StreamingDestinations::LoadLocalDestinations () { int numDestinations = 0; boost::filesystem::path p (i2p::util::filesystem::GetDataDir()); boost::filesystem::directory_iterator end; for (boost::filesystem::directory_iterator it (p); it != end; ++it) { if (boost::filesystem::is_regular_file (*it) && it->path ().extension () == ".dat") { auto fullPath = #if BOOST_VERSION > 10500 it->path().string(); #else it->path(); #endif auto localDestination = new StreamingDestination (m_Service, fullPath); m_Destinations[localDestination->GetIdentHash ()] = localDestination; numDestinations++; } } if (numDestinations > 0) LogPrint (numDestinations, " local destinations loaded"); } StreamingDestination * StreamingDestinations::LoadLocalDestination (const std::string& filename) { auto localDestination = new StreamingDestination (m_Service, i2p::util::filesystem::GetFullPath (filename)); m_Destinations[localDestination->GetIdentHash ()] = localDestination; return localDestination; } Stream * StreamingDestinations::CreateClientStream (const i2p::data::LeaseSet& remote) { if (!m_SharedLocalDestination) return nullptr; return m_SharedLocalDestination->CreateNewOutgoingStream (remote); } void StreamingDestinations::DeleteStream (Stream * stream) { if (stream) { m_Service.post ( [=](void) { stream->GetLocalDestination ()->DeleteStream (stream); } ); } } void StreamingDestinations::HandleNextPacket (i2p::data::IdentHash destination, Packet * packet) { m_Service.post (boost::bind (&StreamingDestinations::PostNextPacket, this, destination, packet)); } void StreamingDestinations::PostNextPacket (i2p::data::IdentHash destination, Packet * packet) { auto it = m_Destinations.find (destination); if (it != m_Destinations.end ()) it->second->HandleNextPacket (packet); else { LogPrint ("Local destination ", destination.ToBase64 (), " not found"); delete packet; } } StreamingDestination * StreamingDestinations::FindLocalDestination (const i2p::data::IdentHash& destination) const { auto it = m_Destinations.find (destination); if (it != m_Destinations.end ()) return it->second; return nullptr; } Stream * CreateStream (const i2p::data::LeaseSet& remote) { return destinations.CreateClientStream (remote); } void DeleteStream (Stream * stream) { destinations.DeleteStream (stream); } void StartStreaming () { destinations.Start (); } void StopStreaming () { destinations.Stop (); } StreamingDestination * GetSharedLocalDestination () { return destinations.GetSharedLocalDestination (); } StreamingDestination * FindLocalDestination (const i2p::data::IdentHash& destination) { return destinations.FindLocalDestination (destination); } StreamingDestination * LoadLocalDestination (const std::string& filename) { return destinations.LoadLocalDestination (filename); } void HandleDataMessage (i2p::data::IdentHash destination, const uint8_t * buf, size_t len) { uint32_t length = be32toh (*(uint32_t *)buf); buf += 4; // we assume I2CP payload if (buf[9] == 6) // streaming protocol { // unzip it CryptoPP::Gunzip decompressor; decompressor.Put (buf, length); decompressor.MessageEnd(); Packet * uncompressed = new Packet; uncompressed->offset = 0; uncompressed->len = decompressor.MaxRetrievable (); if (uncompressed->len > MAX_PACKET_SIZE) { LogPrint ("Received packet size ", uncompressed->len, " exceeds max packet size"); uncompressed->len = MAX_PACKET_SIZE; } decompressor.Get (uncompressed->buf, uncompressed->len); // then forward to streaming engine thread destinations.HandleNextPacket (destination, uncompressed); } else LogPrint ("Data: protocol ", buf[9], " is not supported"); } I2NPMessage * CreateDataMessage (Stream * s, const uint8_t * payload, size_t len) { I2NPMessage * msg = NewI2NPShortMessage (); CryptoPP::Gzip compressor; // DEFAULT_DEFLATE_LEVEL if (len <= COMPRESSION_THRESHOLD_SIZE) compressor.SetDeflateLevel (CryptoPP::Gzip::MIN_DEFLATE_LEVEL); compressor.Put (payload, len); compressor.MessageEnd(); int size = compressor.MaxRetrievable (); uint8_t * buf = msg->GetPayload (); *(uint32_t *)buf = htobe32 (size); // length buf += 4; compressor.Get (buf, size); memset (buf + 4, 0, 4); // source and destination ports. TODO: fill with proper values later buf[9] = 6; // streaming protocol msg->len += size + 4; FillI2NPMessageHeader (msg, eI2NPData); return msg; } } }