I2P: End-to-End encrypted and anonymous Internet https://i2pd.website/
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#include "Log.h"
#include "RouterInfo.h"
#include "RouterContext.h"
#include "Tunnel.h"
#include "Timestamp.h"
#include "Destination.h"
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#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 ()
{
while (!m_ReceiveQueue.empty ())
{
auto packet = m_ReceiveQueue.front ();
m_ReceiveQueue.pop ();
delete packet;
}
m_ReceiveTimer.cancel ();
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for (auto it: m_SentPackets)
delete it;
m_SentPackets.clear ();
m_ResendTimer.cancel ();
for (auto it: m_SavedPackets)
delete it;
m_SavedPackets.clear ();
Close ();
}
void Stream::HandleNextPacket (Packet * packet)
{
if (!m_SendStreamID)
m_SendStreamID = packet->GetReceiveStreamID ();
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if (!packet->IsNoAck ()) // ack received
ProcessAck (packet);
int32_t receivedSeqn = packet->GetSeqn ();
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bool isSyn = packet->IsSYN ();
if (!receivedSeqn && !isSyn)
{
// plain ack
LogPrint ("Plain ACK received");
delete packet;
return;
}
LogPrint ("Received seqn=", receivedSeqn);
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if (isSyn || receivedSeqn == m_LastReceivedSequenceNumber + 1)
{
// we have received next in sequence message
ProcessPacket (packet);
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// 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)
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SendQuickAck ();
else if (isSyn)
// we have to send SYN back to incoming connection
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Send (nullptr, 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)
{
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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<uint8_t *>(optionData), 0, signatureLen);
if (!m_RemoteIdentity.Verify (packet->GetBuffer (), packet->GetLength (), signature))
{
LogPrint ("Signature verification failed");
Close ();
flags |= PACKET_FLAG_CLOSE;
}
memcpy (const_cast<uint8_t *>(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;
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m_ReceiveTimer.cancel ();
m_ResendTimer.cancel ();
}
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}
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void Stream::ProcessAck (Packet * packet)
{
uint32_t ackThrough = packet->GetAckThrough ();
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int nackCount = packet->GetNACKCount ();
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for (auto it = m_SentPackets.begin (); it != m_SentPackets.end ();)
{
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auto seqn = (*it)->GetSeqn ();
if (seqn <= ackThrough)
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{
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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++;
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continue;
}
}
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auto sentPacket = *it;
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LogPrint ("Packet ", seqn, " acknowledged");
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m_SentPackets.erase (it++);
delete sentPacket;
}
else
break;
}
if (m_SentPackets.empty ())
m_ResendTimer.cancel ();
}
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size_t Stream::Send (const uint8_t * buf, size_t len)
{
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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 ()
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{
Packet p;
uint8_t * packet = p.GetBuffer ();
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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
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size += 2; // flags
*(uint16_t *)(packet + size) = 0; // no options
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size += 2; // options size
p.len = size;
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SendPackets (std::vector<Packet *> { &p });
LogPrint ("Quick Ack sent");
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}
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;
SendPacket (p);
LogPrint ("FIN sent");
}
}
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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;
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}
bool Stream::SendPacket (Packet * packet)
{
if (packet)
{
SendPackets (std::vector<Packet *> { packet });
if (m_IsOpen)
{
bool isEmpty = m_SentPackets.empty ();
m_SentPackets.insert (packet);
if (isEmpty)
ScheduleResend ();
}
return true;
}
else
return false;
}
void Stream::SendPackets (const std::vector<Packet *>& 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<i2p::tunnel::TunnelMessageBlock> 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
});
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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");
}
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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<Packet *> packets;
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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);
}
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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;
}
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}
}