I2P: End-to-End encrypted and anonymous Internet https://i2pd.website/
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#include <string.h>
#include <stdlib.h>
#include "I2PEndian.h"
#include <boost/bind.hpp>
#include <cryptopp/dh.h>
#include <cryptopp/secblock.h>
#include <cryptopp/dsa.h>
#include "base64.h"
#include "Log.h"
#include "Timestamp.h"
#include "CryptoConst.h"
#include "I2NPProtocol.h"
#include "RouterContext.h"
#include "Transports.h"
#include "NTCPSession.h"
using namespace i2p::crypto;
namespace i2p
{
namespace ntcp
{
NTCPSession::NTCPSession (boost::asio::io_service& service, i2p::data::RouterInfo& in_RemoteRouterInfo):
m_Socket (service), m_TerminationTimer (service), m_IsEstablished (false),
m_RemoteRouterInfo (in_RemoteRouterInfo), m_ReceiveBufferOffset (0), m_NextMessage (nullptr)
{
m_DHKeysPair = i2p::transports.GetNextDHKeysPair ();
}
NTCPSession::~NTCPSession ()
{
delete m_DHKeysPair;
}
void NTCPSession::CreateAESKey (uint8_t * pubKey, uint8_t * aesKey)
{
CryptoPP::DH dh (elgp, elgg);
CryptoPP::SecByteBlock secretKey(dh.AgreedValueLength());
if (!dh.Agree (secretKey, m_DHKeysPair->privateKey, pubKey))
{
LogPrint ("Couldn't create shared key");
Terminate ();
return;
};
if (secretKey[0] & 0x80)
{
aesKey[0] = 0;
memcpy (aesKey + 1, secretKey, 31);
}
else
memcpy (aesKey, secretKey, 32);
}
void NTCPSession::Terminate ()
{
m_IsEstablished = false;
m_Socket.close ();
i2p::transports.RemoveNTCPSession (this);
int numDelayed = 0;
for (auto it :m_DelayedMessages)
{
// try to send them again
i2p::transports.SendMessage (m_RemoteRouterInfo.GetIdentHash (), it);
numDelayed++;
}
m_DelayedMessages.clear ();
if (numDelayed > 0)
LogPrint ("NTCP session ", numDelayed, " not sent");
// TODO: notify tunnels
delete this;
LogPrint ("NTCP session terminated");
}
void NTCPSession::Connected ()
{
LogPrint ("NTCP session connected");
m_IsEstablished = true;
SendTimeSyncMessage ();
SendI2NPMessage (CreateDatabaseStoreMsg ()); // we tell immediately who we are
if (!m_DelayedMessages.empty ())
{
for (auto it :m_DelayedMessages)
SendI2NPMessage (it);
m_DelayedMessages.clear ();
}
}
void NTCPSession::ClientLogin ()
{
// send Phase1
const uint8_t * x = m_DHKeysPair->publicKey;
memcpy (m_Phase1.pubKey, x, 256);
CryptoPP::SHA256().CalculateDigest(m_Phase1.HXxorHI, x, 256);
const uint8_t * ident = m_RemoteRouterInfo.GetIdentHash ();
for (int i = 0; i < 32; i++)
m_Phase1.HXxorHI[i] ^= ident[i];
boost::asio::async_write (m_Socket, boost::asio::buffer (&m_Phase1, sizeof (m_Phase1)), boost::asio::transfer_all (),
boost::bind(&NTCPSession::HandlePhase1Sent, this, boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred));
}
void NTCPSession::ServerLogin ()
{
// receive Phase1
boost::asio::async_read (m_Socket, boost::asio::buffer(&m_Phase1, sizeof (m_Phase1)),
boost::bind(&NTCPSession::HandlePhase1Received, this,
boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred));
}
void NTCPSession::HandlePhase1Sent (const boost::system::error_code& ecode, std::size_t bytes_transferred)
{
if (ecode)
{
LogPrint ("Couldn't send Phase 1 message: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Phase 1 sent: ", bytes_transferred);
boost::asio::async_read (m_Socket, boost::asio::buffer(&m_Phase2, sizeof (m_Phase2)),
boost::bind(&NTCPSession::HandlePhase2Received, this,
boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred));
}
}
void NTCPSession::HandlePhase1Received (const boost::system::error_code& ecode, std::size_t bytes_transferred)
{
if (ecode)
{
LogPrint ("Phase 1 read error: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Phase 1 received: ", bytes_transferred);
// verify ident
uint8_t digest[32];
CryptoPP::SHA256().CalculateDigest(digest, m_Phase1.pubKey, 256);
const uint8_t * ident = i2p::context.GetRouterInfo ().GetIdentHash ();
for (int i = 0; i < 32; i++)
{
if ((m_Phase1.HXxorHI[i] ^ ident[i]) != digest[i])
{
LogPrint ("Wrong ident");
Terminate ();
return;
}
}
SendPhase2 ();
}
}
void NTCPSession::SendPhase2 ()
{
const uint8_t * y = m_DHKeysPair->publicKey;
memcpy (m_Phase2.pubKey, y, 256);
uint8_t xy[512];
memcpy (xy, m_Phase1.pubKey, 256);
memcpy (xy + 256, y, 256);
CryptoPP::SHA256().CalculateDigest(m_Phase2.encrypted.hxy, xy, 512);
uint32_t tsB = htobe32 (i2p::util::GetSecondsSinceEpoch ());
m_Phase2.encrypted.timestamp = tsB;
// TODO: fill filler
uint8_t aesKey[32];
CreateAESKey (m_Phase1.pubKey, aesKey);
m_Encryption.SetKeyWithIV (aesKey, 32, y + 240);
m_Decryption.SetKeyWithIV (aesKey, 32, m_Phase1.HXxorHI + 16);
m_Encryption.ProcessData((uint8_t *)&m_Phase2.encrypted, (uint8_t *)&m_Phase2.encrypted, sizeof(m_Phase2.encrypted));
boost::asio::async_write (m_Socket, boost::asio::buffer (&m_Phase2, sizeof (m_Phase2)), boost::asio::transfer_all (),
boost::bind(&NTCPSession::HandlePhase2Sent, this, boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred, tsB));
}
void NTCPSession::HandlePhase2Sent (const boost::system::error_code& ecode, std::size_t bytes_transferred, uint32_t tsB)
{
if (ecode)
{
LogPrint ("Couldn't send Phase 2 message: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Phase 2 sent: ", bytes_transferred);
boost::asio::async_read (m_Socket, boost::asio::buffer(&m_Phase3, sizeof (m_Phase3)),
boost::bind(&NTCPSession::HandlePhase3Received, this,
boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred, tsB));
}
}
void NTCPSession::HandlePhase2Received (const boost::system::error_code& ecode, std::size_t bytes_transferred)
{
if (ecode)
{
LogPrint ("Phase 2 read error: ", ecode.message (), ". Wrong ident assumed");
GetRemoteRouterInfo ().SetUnreachable (true); // this RouterInfo is not valid
Terminate ();
}
else
{
LogPrint ("Phase 2 received: ", bytes_transferred);
uint8_t aesKey[32];
CreateAESKey (m_Phase2.pubKey, aesKey);
m_Decryption.SetKeyWithIV (aesKey, 32, m_Phase2.pubKey + 240);
m_Encryption.SetKeyWithIV (aesKey, 32, m_Phase1.HXxorHI + 16);
m_Decryption.ProcessData((uint8_t *)&m_Phase2.encrypted, (uint8_t *)&m_Phase2.encrypted, sizeof(m_Phase2.encrypted));
// verify
uint8_t xy[512], hxy[32];
memcpy (xy, m_DHKeysPair->publicKey, 256);
memcpy (xy + 256, m_Phase2.pubKey, 256);
CryptoPP::SHA256().CalculateDigest(hxy, xy, 512);
if (memcmp (hxy, m_Phase2.encrypted.hxy, 32))
{
LogPrint ("Incorrect hash");
Terminate ();
return ;
}
SendPhase3 ();
}
}
void NTCPSession::SendPhase3 ()
{
m_Phase3.size = htons (sizeof (m_Phase3.ident));
memcpy (&m_Phase3.ident, &i2p::context.GetRouterIdentity (), sizeof (m_Phase3.ident));
uint32_t tsA = htobe32 (i2p::util::GetSecondsSinceEpoch ());
m_Phase3.timestamp = tsA;
SignedData s;
memcpy (s.x, m_Phase1.pubKey, 256);
memcpy (s.y, m_Phase2.pubKey, 256);
memcpy (s.ident, m_RemoteRouterInfo.GetIdentHash (), 32);
s.tsA = tsA;
s.tsB = m_Phase2.encrypted.timestamp;
i2p::context.Sign ((uint8_t *)&s, sizeof (s), m_Phase3.signature);
m_Encryption.ProcessData((uint8_t *)&m_Phase3, (uint8_t *)&m_Phase3, sizeof(m_Phase3));
boost::asio::async_write (m_Socket, boost::asio::buffer (&m_Phase3, sizeof (m_Phase3)), boost::asio::transfer_all (),
boost::bind(&NTCPSession::HandlePhase3Sent, this, boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred, tsA));
}
void NTCPSession::HandlePhase3Sent (const boost::system::error_code& ecode, std::size_t bytes_transferred, uint32_t tsA)
{
if (ecode)
{
LogPrint ("Couldn't send Phase 3 message: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Phase 3 sent: ", bytes_transferred);
boost::asio::async_read (m_Socket, boost::asio::buffer(&m_Phase4, sizeof (m_Phase4)),
boost::bind(&NTCPSession::HandlePhase4Received, this,
boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred, tsA));
}
}
void NTCPSession::HandlePhase3Received (const boost::system::error_code& ecode, std::size_t bytes_transferred, uint32_t tsB)
{
if (ecode)
{
LogPrint ("Phase 3 read error: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Phase 3 received: ", bytes_transferred);
m_Decryption.ProcessData((uint8_t *)&m_Phase3, (uint8_t *)&m_Phase3, sizeof(m_Phase3));
m_RemoteRouterInfo.SetRouterIdentity (m_Phase3.ident);
SignedData s;
memcpy (s.x, m_Phase1.pubKey, 256);
memcpy (s.y, m_Phase2.pubKey, 256);
memcpy (s.ident, i2p::context.GetRouterInfo ().GetIdentHash (), 32);
s.tsA = m_Phase3.timestamp;
s.tsB = tsB;
CryptoPP::DSA::PublicKey pubKey;
pubKey.Initialize (dsap, dsaq, dsag, CryptoPP::Integer (m_RemoteRouterInfo.GetRouterIdentity ().signingKey, 128));
CryptoPP::DSA::Verifier verifier (pubKey);
if (!verifier.VerifyMessage ((uint8_t *)&s, sizeof(s), m_Phase3.signature, 40))
{
LogPrint ("signature verification failed");
Terminate ();
return;
}
SendPhase4 (tsB);
}
}
void NTCPSession::SendPhase4 (uint32_t tsB)
{
SignedData s;
memcpy (s.x, m_Phase1.pubKey, 256);
memcpy (s.y, m_Phase2.pubKey, 256);
memcpy (s.ident, m_RemoteRouterInfo.GetIdentHash (), 32);
s.tsA = m_Phase3.timestamp;
s.tsB = tsB;
i2p::context.Sign ((uint8_t *)&s, sizeof (s), m_Phase4.signature);
m_Encryption.ProcessData((uint8_t *)&m_Phase4, (uint8_t *)&m_Phase4, sizeof(m_Phase4));
boost::asio::async_write (m_Socket, boost::asio::buffer (&m_Phase4, sizeof (m_Phase4)), boost::asio::transfer_all (),
boost::bind(&NTCPSession::HandlePhase4Sent, this, boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred));
}
void NTCPSession::HandlePhase4Sent (const boost::system::error_code& ecode, std::size_t bytes_transferred)
{
if (ecode)
{
LogPrint ("Couldn't send Phase 4 message: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Phase 4 sent: ", bytes_transferred);
Connected ();
m_ReceiveBufferOffset = 0;
m_NextMessage = nullptr;
Receive ();
}
}
void NTCPSession::HandlePhase4Received (const boost::system::error_code& ecode, std::size_t bytes_transferred, uint32_t tsA)
{
if (ecode)
{
LogPrint ("Phase 4 read error: ", ecode.message ());
GetRemoteRouterInfo ().SetUnreachable (true); // this router doesn't like us
Terminate ();
}
else
{
LogPrint ("Phase 4 received: ", bytes_transferred);
m_Decryption.ProcessData((uint8_t *)&m_Phase4, (uint8_t *)&m_Phase4, sizeof(m_Phase4));
// verify signature
SignedData s;
memcpy (s.x, m_Phase1.pubKey, 256);
memcpy (s.y, m_Phase2.pubKey, 256);
memcpy (s.ident, i2p::context.GetRouterInfo ().GetIdentHash (), 32);
s.tsA = tsA;
s.tsB = m_Phase2.encrypted.timestamp;
CryptoPP::DSA::PublicKey pubKey;
pubKey.Initialize (dsap, dsaq, dsag, CryptoPP::Integer (m_RemoteRouterInfo.GetRouterIdentity ().signingKey, 128));
CryptoPP::DSA::Verifier verifier (pubKey);
if (!verifier.VerifyMessage ((uint8_t *)&s, sizeof(s), m_Phase4.signature, 40))
{
LogPrint ("signature verification failed");
Terminate ();
return;
}
Connected ();
m_ReceiveBufferOffset = 0;
m_NextMessage = nullptr;
Receive ();
}
}
void NTCPSession::Receive ()
{
m_Socket.async_read_some (boost::asio::buffer(m_ReceiveBuffer + m_ReceiveBufferOffset, NTCP_MAX_MESSAGE_SIZE*2 -m_ReceiveBufferOffset),
boost::bind(&NTCPSession::HandleReceived, this,
boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred));
}
void NTCPSession::HandleReceived (const boost::system::error_code& ecode, std::size_t bytes_transferred)
{
if (ecode)
{
LogPrint ("Read error: ", ecode.message ());
Terminate ();
}
else
{
LogPrint ("Received: ", bytes_transferred);
m_ReceiveBufferOffset += bytes_transferred;
if (m_ReceiveBufferOffset >= 16)
{
uint8_t * nextBlock = m_ReceiveBuffer;
while (m_ReceiveBufferOffset >= 16)
{
DecryptNextBlock (nextBlock); // 16 bytes
nextBlock += 16;
m_ReceiveBufferOffset -= 16;
}
if (m_ReceiveBufferOffset > 0)
memcpy (m_ReceiveBuffer, nextBlock, m_ReceiveBufferOffset);
}
ScheduleTermination (); // reset termination timer
Receive ();
}
}
void NTCPSession::DecryptNextBlock (const uint8_t * encrypted) // 16 bytes
{
if (!m_NextMessage) // new message, header expected
{
m_NextMessage = i2p::NewI2NPMessage ();
m_NextMessageOffset = 0;
m_Decryption.ProcessData (m_NextMessage->buf, encrypted, 16);
uint16_t dataSize = be16toh (*(uint16_t *)m_NextMessage->buf);
if (dataSize)
{
// new message
m_NextMessageOffset += 16;
m_NextMessage->offset = 2; // size field
m_NextMessage->len = dataSize + 2;
}
else
{
// timestamp
LogPrint ("Timestamp");
i2p::DeleteI2NPMessage (m_NextMessage);
m_NextMessage = nullptr;
return;
}
}
else // message continues
{
m_Decryption.ProcessData (m_NextMessage->buf + m_NextMessageOffset, encrypted, 16);
m_NextMessageOffset += 16;
}
if (m_NextMessageOffset >= m_NextMessage->len + 4) // +checksum
{
// we have a complete I2NP message
i2p::HandleI2NPMessage (m_NextMessage);
m_NextMessage = nullptr;
}
}
void NTCPSession::Send (i2p::I2NPMessage * msg)
{
uint8_t * sendBuffer;
int len;
if (msg)
{
// regular I2NP
if (msg->offset < 2)
{
LogPrint ("Malformed I2NP message");
i2p::DeleteI2NPMessage (msg);
}
sendBuffer = msg->GetBuffer () - 2;
len = msg->GetLength ();
*((uint16_t *)sendBuffer) = htobe16 (len);
}
else
{
// prepare timestamp
sendBuffer = m_TimeSyncBuffer;
len = 4;
*((uint16_t *)sendBuffer) = 0;
*((uint32_t *)(sendBuffer + 2)) = htobe32 (time (0));
}
int rem = (len + 6) % 16;
int padding = 0;
if (rem > 0) padding = 16 - rem;
// TODO: fill padding
m_Adler.CalculateDigest (sendBuffer + len + 2 + padding, sendBuffer, len + 2+ padding);
int l = len + padding + 6;
m_Encryption.ProcessData(sendBuffer, sendBuffer, l);
boost::asio::async_write (m_Socket, boost::asio::buffer (sendBuffer, l), boost::asio::transfer_all (),
boost::bind(&NTCPSession::HandleSent, this, boost::asio::placeholders::error, boost::asio::placeholders::bytes_transferred, msg));
}
void NTCPSession::HandleSent (const boost::system::error_code& ecode, std::size_t bytes_transferred, i2p::I2NPMessage * msg)
{
if (msg)
i2p::DeleteI2NPMessage (msg);
if (ecode)
{
LogPrint ("Couldn't send msg: ", ecode.message ());
// we shouldn't call Terminate () here, because HandleReceive takes care
// TODO: 'delete this' statement in Terminate () must be eliminated later
// Terminate ();
}
else
{
LogPrint ("Msg sent: ", bytes_transferred);
ScheduleTermination (); // reset termination timer
}
}
void NTCPSession::SendTimeSyncMessage ()
{
Send (nullptr);
}
void NTCPSession::SendI2NPMessage (I2NPMessage * msg)
{
if (msg)
{
if (m_IsEstablished)
Send (msg);
else
m_DelayedMessages.push_back (msg);
}
}
void NTCPSession::ScheduleTermination ()
{
m_TerminationTimer.cancel ();
m_TerminationTimer.expires_from_now (boost::posix_time::seconds(NTCP_TERMINATION_TIMEOUT));
m_TerminationTimer.async_wait (boost::bind (&NTCPSession::HandleTerminationTimer,
this, boost::asio::placeholders::error));
}
void NTCPSession::HandleTerminationTimer (const boost::system::error_code& ecode)
{
if (ecode != boost::asio::error::operation_aborted)
{
LogPrint ("No activity fo ", NTCP_TERMINATION_TIMEOUT, " seconds");
m_Socket.close ();
}
}
NTCPClient::NTCPClient (boost::asio::io_service& service, const boost::asio::ip::address& address,
int port, i2p::data::RouterInfo& in_RouterInfo):
NTCPSession (service, in_RouterInfo),
m_Endpoint (address, port)
{
Connect ();
}
void NTCPClient::Connect ()
{
LogPrint ("Connecting to ", m_Endpoint.address ().to_string (),":", m_Endpoint.port ());
GetSocket ().async_connect (m_Endpoint, boost::bind (&NTCPClient::HandleConnect,
this, boost::asio::placeholders::error));
}
void NTCPClient::HandleConnect (const boost::system::error_code& ecode)
{
if (ecode)
{
LogPrint ("Connect error: ", ecode.message ());
GetRemoteRouterInfo ().SetUnreachable (true);
Terminate ();
}
else
{
LogPrint ("Connected");
ClientLogin ();
}
}
void NTCPServerConnection::Connected ()
{
LogPrint ("NTCP server session connected");
SetIsEstablished (true);
i2p::transports.AddNTCPSession (this);
SendTimeSyncMessage ();
SendI2NPMessage (CreateDatabaseStoreMsg ()); // we tell immediately who we are
}
}
}