# include <cassert>
# include "Base.h"
# include "Log.h"
# include "Destination.h"
# include "ClientContext.h"
# include "I2PTunnel.h"
namespace i2p
{
namespace client
{
/** set standard socket options */
static void I2PTunnelSetSocketOptions ( std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket )
{
if ( socket & & socket - > is_open ( ) )
{
boost : : asio : : socket_base : : receive_buffer_size option ( I2P_TUNNEL_CONNECTION_BUFFER_SIZE ) ;
socket - > set_option ( option ) ;
}
}
I2PTunnelConnection : : I2PTunnelConnection ( I2PService * owner , std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket ,
std : : shared_ptr < const i2p : : data : : LeaseSet > leaseSet , int port ) :
I2PServiceHandler ( owner ) , m_Socket ( socket ) , m_RemoteEndpoint ( socket - > remote_endpoint ( ) ) ,
m_IsQuiet ( true )
{
m_Stream = GetOwner ( ) - > GetLocalDestination ( ) - > CreateStream ( leaseSet , port ) ;
}
I2PTunnelConnection : : I2PTunnelConnection ( I2PService * owner ,
std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket , std : : shared_ptr < i2p : : stream : : Stream > stream ) :
I2PServiceHandler ( owner ) , m_Socket ( socket ) , m_Stream ( stream ) ,
m_RemoteEndpoint ( socket - > remote_endpoint ( ) ) , m_IsQuiet ( true )
{
}
I2PTunnelConnection : : I2PTunnelConnection ( I2PService * owner , std : : shared_ptr < i2p : : stream : : Stream > stream ,
std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket , const boost : : asio : : ip : : tcp : : endpoint & target , bool quiet ) :
I2PServiceHandler ( owner ) , m_Socket ( socket ) , m_Stream ( stream ) ,
m_RemoteEndpoint ( target ) , m_IsQuiet ( quiet )
{
}
I2PTunnelConnection : : ~ I2PTunnelConnection ( )
{
}
void I2PTunnelConnection : : I2PConnect ( const uint8_t * msg , size_t len )
{
if ( m_Stream )
{
if ( msg )
m_Stream - > Send ( msg , len ) ; // connect and send
else
m_Stream - > Send ( m_Buffer , 0 ) ; // connect
}
StreamReceive ( ) ;
Receive ( ) ;
}
static boost : : asio : : ip : : address GetLoopbackAddressFor ( const i2p : : data : : IdentHash & addr )
{
boost : : asio : : ip : : address_v4 : : bytes_type bytes ;
const uint8_t * ident = addr ;
bytes [ 0 ] = 127 ;
memcpy ( bytes . data ( ) + 1 , ident , 3 ) ;
boost : : asio : : ip : : address ourIP = boost : : asio : : ip : : address_v4 ( bytes ) ;
return ourIP ;
}
static void MapToLoopback ( const std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > & sock , const i2p : : data : : IdentHash & addr )
{
// bind to 127.x.x.x address
// where x.x.x are first three bytes from ident
auto ourIP = GetLoopbackAddressFor ( addr ) ;
sock - > bind ( boost : : asio : : ip : : tcp : : endpoint ( ourIP , 0 ) ) ;
}
void I2PTunnelConnection : : Connect ( bool mapToLoopback )
{
I2PTunnelSetSocketOptions ( m_Socket ) ;
if ( m_Socket ) {
# ifdef __linux__
if ( m_RemoteEndpoint . address ( ) . is_v4 ( ) & &
m_RemoteEndpoint . address ( ) . to_v4 ( ) . to_bytes ( ) [ 0 ] = = 127 & & mapToLoopback )
{
m_Socket - > open ( boost : : asio : : ip : : tcp : : v4 ( ) ) ;
auto ident = m_Stream - > GetRemoteIdentity ( ) - > GetIdentHash ( ) ;
MapToLoopback ( m_Socket , ident ) ;
}
# endif
m_Socket - > async_connect ( m_RemoteEndpoint , std : : bind ( & I2PTunnelConnection : : HandleConnect ,
shared_from_this ( ) , std : : placeholders : : _1 ) ) ;
}
}
void I2PTunnelConnection : : Terminate ( )
{
if ( Kill ( ) ) return ;
if ( m_Stream )
{
m_Stream - > Close ( ) ;
m_Stream . reset ( ) ;
}
m_Socket - > shutdown ( boost : : asio : : ip : : tcp : : socket : : shutdown_send ) ; // avoid RST
m_Socket - > close ( ) ;
Done ( shared_from_this ( ) ) ;
}
void I2PTunnelConnection : : Receive ( )
{
m_Socket - > async_read_some ( boost : : asio : : buffer ( m_Buffer , I2P_TUNNEL_CONNECTION_BUFFER_SIZE ) ,
std : : bind ( & I2PTunnelConnection : : HandleReceived , shared_from_this ( ) ,
std : : placeholders : : _1 , std : : placeholders : : _2 ) ) ;
}
void I2PTunnelConnection : : HandleReceived ( const boost : : system : : error_code & ecode , std : : size_t bytes_transferred )
{
if ( ecode )
{
if ( ecode ! = boost : : asio : : error : : operation_aborted )
{
LogPrint ( eLogError , " I2PTunnel: read error: " , ecode . message ( ) ) ;
Terminate ( ) ;
}
}
else
{
if ( m_Stream )
{
auto s = shared_from_this ( ) ;
m_Stream - > AsyncSend ( m_Buffer , bytes_transferred ,
[ s ] ( const boost : : system : : error_code & ecode )
{
if ( ! ecode )
s - > Receive ( ) ;
else
s - > Terminate ( ) ;
} ) ;
}
}
}
void I2PTunnelConnection : : HandleWrite ( const boost : : system : : error_code & ecode )
{
if ( ecode )
{
LogPrint ( eLogError , " I2PTunnel: write error: " , ecode . message ( ) ) ;
if ( ecode ! = boost : : asio : : error : : operation_aborted )
Terminate ( ) ;
}
else
StreamReceive ( ) ;
}
void I2PTunnelConnection : : StreamReceive ( )
{
if ( m_Stream )
{
if ( m_Stream - > GetStatus ( ) = = i2p : : stream : : eStreamStatusNew | |
m_Stream - > GetStatus ( ) = = i2p : : stream : : eStreamStatusOpen ) // regular
{
m_Stream - > AsyncReceive ( boost : : asio : : buffer ( m_StreamBuffer , I2P_TUNNEL_CONNECTION_BUFFER_SIZE ) ,
std : : bind ( & I2PTunnelConnection : : HandleStreamReceive , shared_from_this ( ) ,
std : : placeholders : : _1 , std : : placeholders : : _2 ) ,
I2P_TUNNEL_CONNECTION_MAX_IDLE ) ;
}
else // closed by peer
{
// get remaning data
auto len = m_Stream - > ReadSome ( m_StreamBuffer , I2P_TUNNEL_CONNECTION_BUFFER_SIZE ) ;
if ( len > 0 ) // still some data
Write ( m_StreamBuffer , len ) ;
else // no more data
Terminate ( ) ;
}
}
}
void I2PTunnelConnection : : HandleStreamReceive ( const boost : : system : : error_code & ecode , std : : size_t bytes_transferred )
{
if ( ecode )
{
LogPrint ( eLogError , " I2PTunnel: stream read error: " , ecode . message ( ) ) ;
if ( ecode ! = boost : : asio : : error : : operation_aborted )
{
if ( bytes_transferred > 0 )
Write ( m_StreamBuffer , bytes_transferred ) ; // postpone termination
else if ( ecode = = boost : : asio : : error : : timed_out & & m_Stream & & m_Stream - > IsOpen ( ) )
StreamReceive ( ) ;
else
Terminate ( ) ;
}
else
Terminate ( ) ;
}
else
Write ( m_StreamBuffer , bytes_transferred ) ;
}
void I2PTunnelConnection : : Write ( const uint8_t * buf , size_t len )
{
boost : : asio : : async_write ( * m_Socket , boost : : asio : : buffer ( buf , len ) , boost : : asio : : transfer_all ( ) ,
std : : bind ( & I2PTunnelConnection : : HandleWrite , shared_from_this ( ) , std : : placeholders : : _1 ) ) ;
}
void I2PTunnelConnection : : HandleConnect ( const boost : : system : : error_code & ecode )
{
if ( ecode )
{
LogPrint ( eLogError , " I2PTunnel: connect error: " , ecode . message ( ) ) ;
Terminate ( ) ;
}
else
{
LogPrint ( eLogDebug , " I2PTunnel: connected " ) ;
if ( m_IsQuiet )
StreamReceive ( ) ;
else
{
// send destination first like received from I2P
std : : string dest = m_Stream - > GetRemoteIdentity ( ) - > ToBase64 ( ) ;
dest + = " \n " ;
if ( sizeof ( m_StreamBuffer ) > = dest . size ( ) ) {
memcpy ( m_StreamBuffer , dest . c_str ( ) , dest . size ( ) ) ;
}
HandleStreamReceive ( boost : : system : : error_code ( ) , dest . size ( ) ) ;
}
Receive ( ) ;
}
}
I2PTunnelConnectionHTTP : : I2PTunnelConnectionHTTP ( I2PService * owner , std : : shared_ptr < i2p : : stream : : Stream > stream ,
std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket ,
const boost : : asio : : ip : : tcp : : endpoint & target , const std : : string & host ) :
I2PTunnelConnection ( owner , stream , socket , target ) , m_Host ( host ) , m_HeaderSent ( false ) , m_From ( stream - > GetRemoteIdentity ( ) )
{
}
void I2PTunnelConnectionHTTP : : Write ( const uint8_t * buf , size_t len )
{
if ( m_HeaderSent )
I2PTunnelConnection : : Write ( buf , len ) ;
else
{
m_InHeader . clear ( ) ;
m_InHeader . write ( ( const char * ) buf , len ) ;
std : : string line ;
bool endOfHeader = false ;
while ( ! endOfHeader )
{
std : : getline ( m_InHeader , line ) ;
if ( ! m_InHeader . fail ( ) )
{
if ( line = = " \r " ) endOfHeader = true ;
else
{
if ( m_Host . length ( ) > 0 & & line . find ( " Host: " ) ! = std : : string : : npos )
m_OutHeader < < " Host: " < < m_Host < < " \r \n " ; // override host
else
m_OutHeader < < line < < " \n " ;
}
}
else
break ;
}
// add X-I2P fields
if ( m_From )
{
m_OutHeader < < X_I2P_DEST_B32 < < " : " < < context . GetAddressBook ( ) . ToAddress ( m_From - > GetIdentHash ( ) ) < < " \r \n " ;
m_OutHeader < < X_I2P_DEST_HASH < < " : " < < m_From - > GetIdentHash ( ) . ToBase64 ( ) < < " \r \n " ;
m_OutHeader < < X_I2P_DEST_B64 < < " : " < < m_From - > ToBase64 ( ) < < " \r \n " ;
}
if ( endOfHeader )
{
m_OutHeader < < " \r \n " ; // end of header
m_OutHeader < < m_InHeader . str ( ) . substr ( m_InHeader . tellg ( ) ) ; // data right after header
m_HeaderSent = true ;
I2PTunnelConnection : : Write ( ( uint8_t * ) m_OutHeader . str ( ) . c_str ( ) , m_OutHeader . str ( ) . length ( ) ) ;
}
}
}
I2PTunnelConnectionIRC : : I2PTunnelConnectionIRC ( I2PService * owner , std : : shared_ptr < i2p : : stream : : Stream > stream ,
std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket ,
const boost : : asio : : ip : : tcp : : endpoint & target , const std : : string & webircpass ) :
I2PTunnelConnection ( owner , stream , socket , target ) , m_From ( stream - > GetRemoteIdentity ( ) ) ,
m_NeedsWebIrc ( webircpass . length ( ) ? true : false ) , m_WebircPass ( webircpass )
{
}
void I2PTunnelConnectionIRC : : Write ( const uint8_t * buf , size_t len )
{
m_OutPacket . str ( " " ) ;
if ( m_NeedsWebIrc )
{
m_NeedsWebIrc = false ;
m_OutPacket < < " WEBIRC " < < m_WebircPass < < " cgiirc " < < context . GetAddressBook ( ) . ToAddress ( m_From - > GetIdentHash ( ) ) < < " 127.0.0.1 \n " ;
}
m_InPacket . clear ( ) ;
m_InPacket . write ( ( const char * ) buf , len ) ;
while ( ! m_InPacket . eof ( ) & & ! m_InPacket . fail ( ) )
{
std : : string line ;
std : : getline ( m_InPacket , line ) ;
if ( line . length ( ) = = 0 & & m_InPacket . eof ( ) )
m_InPacket . str ( " " ) ;
auto pos = line . find ( " USER " ) ;
if ( ! pos ) // start of line
{
pos = line . find ( " " ) ;
pos + + ;
pos = line . find ( " " , pos ) ;
pos + + ;
auto nextpos = line . find ( " " , pos ) ;
m_OutPacket < < line . substr ( 0 , pos ) ;
m_OutPacket < < context . GetAddressBook ( ) . ToAddress ( m_From - > GetIdentHash ( ) ) ;
m_OutPacket < < line . substr ( nextpos ) < < ' \n ' ;
}
else
m_OutPacket < < line < < ' \n ' ;
}
I2PTunnelConnection : : Write ( ( uint8_t * ) m_OutPacket . str ( ) . c_str ( ) , m_OutPacket . str ( ) . length ( ) ) ;
}
/* This handler tries to stablish a connection with the desired server and dies if it fails to do so */
class I2PClientTunnelHandler : public I2PServiceHandler , public std : : enable_shared_from_this < I2PClientTunnelHandler >
{
public :
I2PClientTunnelHandler ( I2PClientTunnel * parent , i2p : : data : : IdentHash destination ,
int destinationPort , std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket ) :
I2PServiceHandler ( parent ) , m_DestinationIdentHash ( destination ) ,
m_DestinationPort ( destinationPort ) , m_Socket ( socket ) { } ;
void Handle ( ) ;
void Terminate ( ) ;
private :
void HandleStreamRequestComplete ( std : : shared_ptr < i2p : : stream : : Stream > stream ) ;
i2p : : data : : IdentHash m_DestinationIdentHash ;
int m_DestinationPort ;
std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > m_Socket ;
} ;
void I2PClientTunnelHandler : : Handle ( )
{
GetOwner ( ) - > GetLocalDestination ( ) - > CreateStream (
std : : bind ( & I2PClientTunnelHandler : : HandleStreamRequestComplete , shared_from_this ( ) , std : : placeholders : : _1 ) ,
m_DestinationIdentHash , m_DestinationPort ) ;
}
void I2PClientTunnelHandler : : HandleStreamRequestComplete ( std : : shared_ptr < i2p : : stream : : Stream > stream )
{
if ( stream )
{
if ( Kill ( ) ) return ;
LogPrint ( eLogDebug , " I2PTunnel: new connection " ) ;
auto connection = std : : make_shared < I2PTunnelConnection > ( GetOwner ( ) , m_Socket , stream ) ;
GetOwner ( ) - > AddHandler ( connection ) ;
connection - > I2PConnect ( ) ;
Done ( shared_from_this ( ) ) ;
}
else
{
LogPrint ( eLogError , " I2PTunnel: Client Tunnel Issue when creating the stream, check the previous warnings for more info. " ) ;
Terminate ( ) ;
}
}
void I2PClientTunnelHandler : : Terminate ( )
{
if ( Kill ( ) ) return ;
if ( m_Socket )
{
m_Socket - > close ( ) ;
m_Socket = nullptr ;
}
Done ( shared_from_this ( ) ) ;
}
I2PClientTunnel : : I2PClientTunnel ( const std : : string & name , const std : : string & destination ,
const std : : string & address , int port , std : : shared_ptr < ClientDestination > localDestination , int destinationPort ) :
TCPIPAcceptor ( address , port , localDestination ) , m_Name ( name ) , m_Destination ( destination ) ,
m_DestinationIdentHash ( nullptr ) , m_DestinationPort ( destinationPort )
{
}
void I2PClientTunnel : : Start ( )
{
TCPIPAcceptor : : Start ( ) ;
GetIdentHash ( ) ;
}
void I2PClientTunnel : : Stop ( )
{
TCPIPAcceptor : : Stop ( ) ;
auto * originalIdentHash = m_DestinationIdentHash ;
m_DestinationIdentHash = nullptr ;
delete originalIdentHash ;
}
/* HACK: maybe we should create a caching IdentHash provider in AddressBook */
const i2p : : data : : IdentHash * I2PClientTunnel : : GetIdentHash ( )
{
if ( ! m_DestinationIdentHash )
{
i2p : : data : : IdentHash identHash ;
if ( i2p : : client : : context . GetAddressBook ( ) . GetIdentHash ( m_Destination , identHash ) )
m_DestinationIdentHash = new i2p : : data : : IdentHash ( identHash ) ;
else
LogPrint ( eLogWarning , " I2PTunnel: Remote destination " , m_Destination , " not found " ) ;
}
return m_DestinationIdentHash ;
}
std : : shared_ptr < I2PServiceHandler > I2PClientTunnel : : CreateHandler ( std : : shared_ptr < boost : : asio : : ip : : tcp : : socket > socket )
{
const i2p : : data : : IdentHash * identHash = GetIdentHash ( ) ;
if ( identHash )
return std : : make_shared < I2PClientTunnelHandler > ( this , * identHash , m_DestinationPort , socket ) ;
else
return nullptr ;
}
I2PServerTunnel : : I2PServerTunnel ( const std : : string & name , const std : : string & address ,
int port , std : : shared_ptr < ClientDestination > localDestination , int inport , bool gzip ) :
I2PService ( localDestination ) , m_MapToLoopback ( true ) , m_Name ( name ) , m_Address ( address ) , m_Port ( port ) , m_IsAccessList ( false )
{
m_PortDestination = localDestination - > CreateStreamingDestination ( inport > 0 ? inport : port , gzip ) ;
}
void I2PServerTunnel : : Start ( )
{
m_Endpoint . port ( m_Port ) ;
boost : : system : : error_code ec ;
auto addr = boost : : asio : : ip : : address : : from_string ( m_Address , ec ) ;
if ( ! ec )
{
m_Endpoint . address ( addr ) ;
Accept ( ) ;
}
else
{
auto resolver = std : : make_shared < boost : : asio : : ip : : tcp : : resolver > ( GetService ( ) ) ;
resolver - > async_resolve ( boost : : asio : : ip : : tcp : : resolver : : query ( m_Address , " " ) ,
std : : bind ( & I2PServerTunnel : : HandleResolve , this ,
std : : placeholders : : _1 , std : : placeholders : : _2 , resolver ) ) ;
}
}
void I2PServerTunnel : : Stop ( )
{
ClearHandlers ( ) ;
}
void I2PServerTunnel : : HandleResolve ( const boost : : system : : error_code & ecode , boost : : asio : : ip : : tcp : : resolver : : iterator it ,
std : : shared_ptr < boost : : asio : : ip : : tcp : : resolver > resolver )
{
if ( ! ecode )
{
auto addr = ( * it ) . endpoint ( ) . address ( ) ;
LogPrint ( eLogInfo , " I2PTunnel: server tunnel " , ( * it ) . host_name ( ) , " has been resolved to " , addr ) ;
m_Endpoint . address ( addr ) ;
Accept ( ) ;
}
else
LogPrint ( eLogError , " I2PTunnel: Unable to resolve server tunnel address: " , ecode . message ( ) ) ;
}
void I2PServerTunnel : : SetAccessList ( const std : : set < i2p : : data : : IdentHash > & accessList )
{
m_AccessList = accessList ;
m_IsAccessList = true ;
}
void I2PServerTunnel : : Accept ( )
{
if ( m_PortDestination )
m_PortDestination - > SetAcceptor ( std : : bind ( & I2PServerTunnel : : HandleAccept , this , std : : placeholders : : _1 ) ) ;
auto localDestination = GetLocalDestination ( ) ;
if ( localDestination )
{
if ( ! localDestination - > IsAcceptingStreams ( ) ) // set it as default if not set yet
localDestination - > AcceptStreams ( std : : bind ( & I2PServerTunnel : : HandleAccept , this , std : : placeholders : : _1 ) ) ;
}
else
LogPrint ( eLogError , " I2PTunnel: Local destination not set for server tunnel " ) ;
}
void I2PServerTunnel : : HandleAccept ( std : : shared_ptr < i2p : : stream : : Stream > stream )
{
if ( stream )
{
if ( m_IsAccessList )
{
if ( ! m_AccessList . count ( stream - > GetRemoteIdentity ( ) - > GetIdentHash ( ) ) )
{
LogPrint ( eLogWarning , " I2PTunnel: Address " , stream - > GetRemoteIdentity ( ) - > GetIdentHash ( ) . ToBase32 ( ) , " is not in white list. Incoming connection dropped " ) ;
stream - > Close ( ) ;
return ;
}
}
CreateI2PConnection ( stream ) ;
}
}
void I2PServerTunnel : : CreateI2PConnection ( std : : shared_ptr < i2p : : stream : : Stream > stream )
{
auto conn = std : : make_shared < I2PTunnelConnection > ( this , stream , std : : make_shared < boost : : asio : : ip : : tcp : : socket > ( GetService ( ) ) , GetEndpoint ( ) ) ;
AddHandler ( conn ) ;
conn - > Connect ( m_MapToLoopback ) ;
}
I2PServerTunnelHTTP : : I2PServerTunnelHTTP ( const std : : string & name , const std : : string & address ,
int port , std : : shared_ptr < ClientDestination > localDestination ,
const std : : string & host , int inport , bool gzip ) :
I2PServerTunnel ( name , address , port , localDestination , inport , gzip ) ,
m_Host ( host )
{
}
void I2PServerTunnelHTTP : : CreateI2PConnection ( std : : shared_ptr < i2p : : stream : : Stream > stream )
{
auto conn = std : : make_shared < I2PTunnelConnectionHTTP > ( this , stream ,
std : : make_shared < boost : : asio : : ip : : tcp : : socket > ( GetService ( ) ) , GetEndpoint ( ) , m_Host ) ;
AddHandler ( conn ) ;
conn - > Connect ( ) ;
}
I2PServerTunnelIRC : : I2PServerTunnelIRC ( const std : : string & name , const std : : string & address ,
int port , std : : shared_ptr < ClientDestination > localDestination ,
const std : : string & webircpass , int inport , bool gzip ) :
I2PServerTunnel ( name , address , port , localDestination , inport , gzip ) ,
m_WebircPass ( webircpass )
{
}
void I2PServerTunnelIRC : : CreateI2PConnection ( std : : shared_ptr < i2p : : stream : : Stream > stream )
{
auto conn = std : : make_shared < I2PTunnelConnectionIRC > ( this , stream , std : : make_shared < boost : : asio : : ip : : tcp : : socket > ( GetService ( ) ) , GetEndpoint ( ) , this - > m_WebircPass ) ;
AddHandler ( conn ) ;
conn - > Connect ( ) ;
}
void I2PUDPServerTunnel : : HandleRecvFromI2P ( const i2p : : data : : IdentityEx & from , uint16_t fromPort , uint16_t toPort , const uint8_t * buf , size_t len )
{
std : : lock_guard < std : : mutex > lock ( m_SessionsMutex ) ;
auto session = ObtainUDPSession ( from , toPort , fromPort ) ;
session - > IPSocket . send_to ( boost : : asio : : buffer ( buf , len ) , m_RemoteEndpoint ) ;
session - > LastActivity = i2p : : util : : GetMillisecondsSinceEpoch ( ) ;
}
void I2PUDPServerTunnel : : ExpireStale ( const uint64_t delta ) {
std : : lock_guard < std : : mutex > lock ( m_SessionsMutex ) ;
uint64_t now = i2p : : util : : GetMillisecondsSinceEpoch ( ) ;
auto itr = m_Sessions . begin ( ) ;
while ( itr ! = m_Sessions . end ( ) ) {
if ( now - ( * itr ) - > LastActivity > = delta )
itr = m_Sessions . erase ( itr ) ;
else
+ + itr ;
}
}
void I2PUDPClientTunnel : : ExpireStale ( const uint64_t delta ) {
std : : lock_guard < std : : mutex > lock ( m_SessionsMutex ) ;
uint64_t now = i2p : : util : : GetMillisecondsSinceEpoch ( ) ;
std : : vector < uint16_t > removePorts ;
for ( const auto & s : m_Sessions ) {
if ( now - s . second . second > = delta )
removePorts . push_back ( s . first ) ;
}
for ( auto port : removePorts ) {
m_Sessions . erase ( port ) ;
}
}
UDPSessionPtr I2PUDPServerTunnel : : ObtainUDPSession ( const i2p : : data : : IdentityEx & from , uint16_t localPort , uint16_t remotePort )
{
auto ih = from . GetIdentHash ( ) ;
for ( auto & s : m_Sessions )
{
if ( s - > Identity = = ih )
{
/** found existing session */
LogPrint ( eLogDebug , " UDPServer: found session " , s - > IPSocket . local_endpoint ( ) , " " , ih . ToBase32 ( ) ) ;
return s ;
}
}
boost : : asio : : ip : : address addr ;
/** create new udp session */
if ( m_LocalAddress . is_loopback ( ) & & m_MapToLoopback ) {
auto ident = from . GetIdentHash ( ) ;
addr = GetLoopbackAddressFor ( ident ) ;
} else {
addr = m_LocalAddress ;
}
boost : : asio : : ip : : udp : : endpoint ep ( addr , 0 ) ;
m_Sessions . push_back ( std : : make_shared < UDPSession > ( ep , m_LocalDest , m_RemoteEndpoint , & ih , localPort , remotePort ) ) ;
auto & back = m_Sessions . back ( ) ;
return back ;
}
UDPSession : : UDPSession ( boost : : asio : : ip : : udp : : endpoint localEndpoint ,
const std : : shared_ptr < i2p : : client : : ClientDestination > & localDestination ,
boost : : asio : : ip : : udp : : endpoint endpoint , const i2p : : data : : IdentHash * to ,
uint16_t ourPort , uint16_t theirPort ) :
m_Destination ( localDestination - > GetDatagramDestination ( ) ) ,
IPSocket ( localDestination - > GetService ( ) , localEndpoint ) ,
SendEndpoint ( endpoint ) ,
LastActivity ( i2p : : util : : GetMillisecondsSinceEpoch ( ) ) ,
LocalPort ( ourPort ) ,
RemotePort ( theirPort )
{
memcpy ( Identity , to - > data ( ) , 32 ) ;
Receive ( ) ;
}
void UDPSession : : Receive ( ) {
LogPrint ( eLogDebug , " UDPSession: Receive " ) ;
IPSocket . async_receive_from ( boost : : asio : : buffer ( m_Buffer , I2P_UDP_MAX_MTU ) ,
FromEndpoint , std : : bind ( & UDPSession : : HandleReceived , this , std : : placeholders : : _1 , std : : placeholders : : _2 ) ) ;
}
void UDPSession : : HandleReceived ( const boost : : system : : error_code & ecode , std : : size_t len )
{
if ( ! ecode )
{
LogPrint ( eLogDebug , " UDPSession: forward " , len , " B from " , FromEndpoint ) ;
LastActivity = i2p : : util : : GetMillisecondsSinceEpoch ( ) ;
m_Destination - > SendDatagramTo ( m_Buffer , len , Identity , LocalPort , RemotePort ) ;
Receive ( ) ;
} else {
LogPrint ( eLogError , " UDPSession: " , ecode . message ( ) ) ;
}
}
I2PUDPServerTunnel : : I2PUDPServerTunnel ( const std : : string & name , std : : shared_ptr < i2p : : client : : ClientDestination > localDestination ,
boost : : asio : : ip : : address localAddress , boost : : asio : : ip : : udp : : endpoint forwardTo , uint16_t port ) :
m_MapToLoopback ( true ) ,
m_Name ( name ) ,
m_LocalAddress ( localAddress ) ,
m_RemoteEndpoint ( forwardTo )
{
m_LocalDest = localDestination ;
m_LocalDest - > Start ( ) ;
auto dgram = m_LocalDest - > CreateDatagramDestination ( ) ;
dgram - > SetReceiver ( std : : bind ( & I2PUDPServerTunnel : : HandleRecvFromI2P , this , std : : placeholders : : _1 , std : : placeholders : : _2 , std : : placeholders : : _3 , std : : placeholders : : _4 , std : : placeholders : : _5 ) ) ;
}
I2PUDPServerTunnel : : ~ I2PUDPServerTunnel ( )
{
auto dgram = m_LocalDest - > GetDatagramDestination ( ) ;
if ( dgram ) dgram - > ResetReceiver ( ) ;
LogPrint ( eLogInfo , " UDPServer: done " ) ;
}
void I2PUDPServerTunnel : : Start ( ) {
m_LocalDest - > Start ( ) ;
}
std : : vector < std : : shared_ptr < DatagramSessionInfo > > I2PUDPServerTunnel : : GetSessions ( )
{
std : : vector < std : : shared_ptr < DatagramSessionInfo > > sessions ;
std : : lock_guard < std : : mutex > lock ( m_SessionsMutex ) ;
for ( UDPSessionPtr s : m_Sessions )
{
if ( ! s - > m_Destination ) continue ;
auto info = s - > m_Destination - > GetInfoForRemote ( s - > Identity ) ;
if ( ! info ) continue ;
auto sinfo = std : : make_shared < DatagramSessionInfo > ( ) ;
sinfo - > Name = m_Name ;
sinfo - > LocalIdent = std : : make_shared < i2p : : data : : IdentHash > ( m_LocalDest - > GetIdentHash ( ) . data ( ) ) ;
sinfo - > RemoteIdent = std : : make_shared < i2p : : data : : IdentHash > ( s - > Identity . data ( ) ) ;
sinfo - > CurrentIBGW = info - > IBGW ;
sinfo - > CurrentOBEP = info - > OBEP ;
sessions . push_back ( sinfo ) ;
}
return sessions ;
}
I2PUDPClientTunnel : : I2PUDPClientTunnel ( const std : : string & name , const std : : string & remoteDest ,
boost : : asio : : ip : : udp : : endpoint localEndpoint ,
std : : shared_ptr < i2p : : client : : ClientDestination > localDestination ,
uint16_t remotePort ) :
m_Name ( name ) ,
m_RemoteDest ( remoteDest ) ,
m_LocalDest ( localDestination ) ,
m_LocalEndpoint ( localEndpoint ) ,
m_RemoteIdent ( nullptr ) ,
m_ResolveThread ( nullptr ) ,
m_LocalSocket ( localDestination - > GetService ( ) , localEndpoint ) ,
RemotePort ( remotePort ) ,
m_cancel_resolve ( false )
{
auto dgram = m_LocalDest - > CreateDatagramDestination ( ) ;
dgram - > SetReceiver ( std : : bind ( & I2PUDPClientTunnel : : HandleRecvFromI2P , this ,
std : : placeholders : : _1 , std : : placeholders : : _2 ,
std : : placeholders : : _3 , std : : placeholders : : _4 ,
std : : placeholders : : _5 ) ) ;
}
void I2PUDPClientTunnel : : Start ( ) {
m_LocalDest - > Start ( ) ;
if ( m_ResolveThread = = nullptr )
m_ResolveThread = new std : : thread ( std : : bind ( & I2PUDPClientTunnel : : TryResolving , this ) ) ;
RecvFromLocal ( ) ;
}
void I2PUDPClientTunnel : : RecvFromLocal ( )
{
m_LocalSocket . async_receive_from ( boost : : asio : : buffer ( m_RecvBuff , I2P_UDP_MAX_MTU ) ,
m_RecvEndpoint , std : : bind ( & I2PUDPClientTunnel : : HandleRecvFromLocal , this , std : : placeholders : : _1 , std : : placeholders : : _2 ) ) ;
}
void I2PUDPClientTunnel : : HandleRecvFromLocal ( const boost : : system : : error_code & ec , std : : size_t transferred )
{
if ( ec ) {
LogPrint ( eLogError , " UDP Client: " , ec . message ( ) ) ;
return ;
}
if ( ! m_RemoteIdent ) {
LogPrint ( eLogWarning , " UDP Client: remote endpoint not resolved yet " ) ;
RecvFromLocal ( ) ;
return ; // drop, remote not resolved
}
auto remotePort = m_RecvEndpoint . port ( ) ;
auto itr = m_Sessions . find ( remotePort ) ;
if ( itr = = m_Sessions . end ( ) ) {
// track new udp convo
m_Sessions [ remotePort ] = { boost : : asio : : ip : : udp : : endpoint ( m_RecvEndpoint ) , 0 } ;
}
// send off to remote i2p destination
LogPrint ( eLogDebug , " UDP Client: send " , transferred , " to " , m_RemoteIdent - > ToBase32 ( ) , " : " , RemotePort ) ;
m_LocalDest - > GetDatagramDestination ( ) - > SendDatagramTo ( m_RecvBuff , transferred , * m_RemoteIdent , remotePort , RemotePort ) ;
// mark convo as active
m_Sessions [ remotePort ] . second = i2p : : util : : GetMillisecondsSinceEpoch ( ) ;
RecvFromLocal ( ) ;
}
std : : vector < std : : shared_ptr < DatagramSessionInfo > > I2PUDPClientTunnel : : GetSessions ( )
{
// TODO: implement
std : : vector < std : : shared_ptr < DatagramSessionInfo > > infos ;
return infos ;
}
void I2PUDPClientTunnel : : TryResolving ( ) {
LogPrint ( eLogInfo , " UDP Tunnel: Trying to resolve " , m_RemoteDest ) ;
i2p : : data : : IdentHash * h = new i2p : : data : : IdentHash ;
while ( ! context . GetAddressBook ( ) . GetIdentHash ( m_RemoteDest , * h ) & & ! m_cancel_resolve )
{
LogPrint ( eLogWarning , " UDP Tunnel: failed to lookup " , m_RemoteDest ) ;
std : : this_thread : : sleep_for ( std : : chrono : : seconds ( 1 ) ) ;
}
if ( m_cancel_resolve )
{
LogPrint ( eLogError , " UDP Tunnel: lookup of " , m_RemoteDest , " was cancelled " ) ;
return ;
}
m_RemoteIdent = h ;
LogPrint ( eLogInfo , " UDP Tunnel: resolved " , m_RemoteDest , " to " , m_RemoteIdent - > ToBase32 ( ) ) ;
}
void I2PUDPClientTunnel : : HandleRecvFromI2P ( const i2p : : data : : IdentityEx & from , uint16_t fromPort , uint16_t toPort , const uint8_t * buf , size_t len )
{
if ( m_RemoteIdent & & from . GetIdentHash ( ) = = * m_RemoteIdent )
{
auto itr = m_Sessions . find ( toPort ) ;
// found convo ?
if ( itr ! = m_Sessions . end ( ) )
{
// found convo
if ( len > 0 ) {
LogPrint ( eLogDebug , " UDP Client: got " , len , " B from " , from . GetIdentHash ( ) . ToBase32 ( ) ) ;
m_LocalSocket . send_to ( boost : : asio : : buffer ( buf , len ) , itr - > second . first ) ;
// mark convo as active
itr - > second . second = i2p : : util : : GetMillisecondsSinceEpoch ( ) ;
}
}
else
LogPrint ( eLogWarning , " UDP Client: not tracking udp session using port " , ( int ) toPort ) ;
}
else
LogPrint ( eLogWarning , " UDP Client: unwarrented traffic from " , from . GetIdentHash ( ) . ToBase32 ( ) ) ;
}
I2PUDPClientTunnel : : ~ I2PUDPClientTunnel ( ) {
auto dgram = m_LocalDest - > GetDatagramDestination ( ) ;
if ( dgram ) dgram - > ResetReceiver ( ) ;
m_Sessions . clear ( ) ;
if ( m_LocalSocket . is_open ( ) )
m_LocalSocket . close ( ) ;
m_cancel_resolve = true ;
if ( m_ResolveThread )
{
m_ResolveThread - > join ( ) ;
delete m_ResolveThread ;
m_ResolveThread = nullptr ;
}
if ( m_RemoteIdent ) delete m_RemoteIdent ;
}
}
}