/*
This file is part of cpp - ethereum .
cpp - ethereum is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
cpp - ethereum is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with cpp - ethereum . If not , see < http : //www.gnu.org/licenses/>.
*/
/** @file UDP.h
* @ author Alex Leverington < nessence @ gmail . com >
* @ date 2014
*/
# pragma once
# include <atomic>
# include <memory>
# include <vector>
# include <deque>
# include <array>
# include <libdevcore/Guards.h>
# include <libdevcrypto/Common.h>
# include <libdevcrypto/SHA3.h>
# include <libdevcore/RLP.h>
# include "Common.h"
namespace ba = boost : : asio ;
namespace bi = ba : : ip ;
namespace dev
{
namespace p2p
{
/**
* UDP Datagram
* @ todo make data protected / functional
*/
class UDPDatagram
{
public :
UDPDatagram ( bi : : udp : : endpoint const & _ep ) : locus ( _ep ) { }
UDPDatagram ( bi : : udp : : endpoint const & _ep , bytes _data ) : data ( _data ) , locus ( _ep ) { }
bi : : udp : : endpoint const & endpoint ( ) const { return locus ; }
bytes data ;
protected :
bi : : udp : : endpoint locus ;
} ;
/**
* @ brief RLPX Datagram which can be signed .
*/
struct RLPXDatagramFace : public UDPDatagram
{
static uint64_t futureFromEpoch ( std : : chrono : : milliseconds _ms ) { return std : : chrono : : duration_cast < std : : chrono : : seconds > ( ( std : : chrono : : system_clock : : now ( ) + _ms ) . time_since_epoch ( ) ) . count ( ) ; }
static uint64_t futureFromEpoch ( std : : chrono : : seconds _sec ) { return std : : chrono : : duration_cast < std : : chrono : : seconds > ( ( std : : chrono : : system_clock : : now ( ) + _sec ) . time_since_epoch ( ) ) . count ( ) ; }
static Public authenticate ( bytesConstRef _sig , bytesConstRef _rlp ) ;
virtual uint8_t packetType ( ) = 0 ;
RLPXDatagramFace ( bi : : udp : : endpoint const & _ep ) : UDPDatagram ( _ep ) { }
virtual h256 sign ( Secret const & _from ) ;
virtual void streamRLP ( RLPStream & ) const = 0 ;
virtual void interpretRLP ( bytesConstRef _bytes ) = 0 ;
} ;
template < class T >
struct RLPXDatagram : public RLPXDatagramFace
{
RLPXDatagram ( bi : : udp : : endpoint const & _ep ) : RLPXDatagramFace ( _ep ) { }
static T fromBytesConstRef ( bi : : udp : : endpoint const & _ep , bytesConstRef _bytes ) { try { T t ( _ep ) ; t . interpretRLP ( _bytes ) ; return std : : move ( t ) ; } catch ( . . . ) { T t ( _ep ) ; return std : : move ( t ) ; } }
uint8_t packetType ( ) { return T : : type ; }
} ;
/**
* @ brief Interface which UDPSocket will implement .
*/
struct UDPSocketFace
{
virtual bool send ( UDPDatagram const & _msg ) = 0 ;
virtual void disconnect ( ) = 0 ;
} ;
/**
* @ brief Interface which a UDPSocket ' s owner must implement .
*/
struct UDPSocketEvents
{
virtual void onDisconnected ( UDPSocketFace * ) { } ;
virtual void onReceived ( UDPSocketFace * , bi : : udp : : endpoint const & _from , bytesConstRef _packetData ) = 0 ;
} ;
/**
* @ brief UDP Interface
* Handler must implement UDPSocketEvents .
*
* @ todo multiple endpoints ( we cannot advertise 0.0 .0 .0 )
* @ todo decouple deque from UDPDatagram and add ref ( ) to datagram for fire & forget
*/
template < typename Handler , unsigned MaxDatagramSize >
class UDPSocket : UDPSocketFace , public std : : enable_shared_from_this < UDPSocket < Handler , MaxDatagramSize > >
{
public :
enum { maxDatagramSize = MaxDatagramSize } ;
static_assert ( maxDatagramSize < 65507 , " UDP datagrams cannot be larger than 65507 bytes " ) ;
/// Create socket for specific endpoint.
UDPSocket ( ba : : io_service & _io , UDPSocketEvents & _host , bi : : udp : : endpoint _endpoint ) : m_host ( _host ) , m_endpoint ( _endpoint ) , m_socket ( _io ) { m_started . store ( false ) ; m_closed . store ( true ) ; } ;
/// Create socket which listens to all ports.
UDPSocket ( ba : : io_service & _io , UDPSocketEvents & _host , unsigned _port ) : m_host ( _host ) , m_endpoint ( bi : : udp : : v4 ( ) , _port ) , m_socket ( _io ) { m_started . store ( false ) ; m_closed . store ( true ) ; } ;
virtual ~ UDPSocket ( ) { disconnect ( ) ; }
/// Socket will begin listening for and delivering packets
void connect ( ) ;
/// Send datagram.
bool send ( UDPDatagram const & _datagram ) ;
/// Returns if socket is open.
bool isOpen ( ) { return ! m_closed ; }
/// Disconnect socket.
void disconnect ( ) { disconnectWithError ( boost : : asio : : error : : connection_reset ) ; }
protected :
void doRead ( ) ;
void doWrite ( ) ;
void disconnectWithError ( boost : : system : : error_code _ec ) ;
std : : atomic < bool > m_started ; ///< Atomically ensure connection is started once. Start cannot occur unless m_started is false. Managed by start and disconnectWithError.
std : : atomic < bool > m_closed ; ///< Connection availability.
UDPSocketEvents & m_host ; ///< Interface which owns this socket.
bi : : udp : : endpoint m_endpoint ; ///< Endpoint which we listen to.
Mutex x_sendQ ;
std : : deque < UDPDatagram > m_sendQ ; ///< Queue for egress data.
std : : array < byte , maxDatagramSize > m_recvData ; ///< Buffer for ingress data.
bi : : udp : : endpoint m_recvEndpoint ; ///< Endpoint data was received from.
bi : : udp : : socket m_socket ; ///< Boost asio udp socket.
Mutex x_socketError ; ///< Mutex for error which can be set from host or IO thread.
boost : : system : : error_code m_socketError ; ///< Set when shut down due to error.
} ;
template < typename Handler , unsigned MaxDatagramSize >
void UDPSocket < Handler , MaxDatagramSize > : : connect ( )
{
bool expect = false ;
if ( ! m_started . compare_exchange_strong ( expect , true ) )
return ;
m_socket . open ( bi : : udp : : v4 ( ) ) ;
try
{
m_socket . bind ( m_endpoint ) ;
}
catch ( . . . )
{
m_socket . bind ( bi : : udp : : endpoint ( bi : : udp : : v4 ( ) , m_endpoint . port ( ) ) ) ;
}
// clear write queue so reconnect doesn't send stale messages
Guard l ( x_sendQ ) ;
m_sendQ . clear ( ) ;
m_closed = false ;
doRead ( ) ;
}
template < typename Handler , unsigned MaxDatagramSize >
bool UDPSocket < Handler , MaxDatagramSize > : : send ( UDPDatagram const & _datagram )
{
if ( m_closed )
return false ;
Guard l ( x_sendQ ) ;
m_sendQ . push_back ( _datagram ) ;
if ( m_sendQ . size ( ) = = 1 )
doWrite ( ) ;
return true ;
}
template < typename Handler , unsigned MaxDatagramSize >
void UDPSocket < Handler , MaxDatagramSize > : : doRead ( )
{
if ( m_closed )
return ;
auto self ( UDPSocket < Handler , MaxDatagramSize > : : shared_from_this ( ) ) ;
m_socket . async_receive_from ( boost : : asio : : buffer ( m_recvData ) , m_recvEndpoint , [ this , self ] ( boost : : system : : error_code _ec , size_t _len )
{
// ASIO Safety: It is possible that ASIO will call lambda w/o an error
// and after the socket has been disconnected. Checking m_closed
// guarantees that m_host will not be called after disconnect().
if ( _ec | | m_closed )
return disconnectWithError ( _ec ) ;
assert ( _len ) ;
m_host . onReceived ( this , m_recvEndpoint , bytesConstRef ( m_recvData . data ( ) , _len ) ) ;
doRead ( ) ;
} ) ;
}
template < typename Handler , unsigned MaxDatagramSize >
void UDPSocket < Handler , MaxDatagramSize > : : doWrite ( )
{
if ( m_closed )
return ;
const UDPDatagram & datagram = m_sendQ [ 0 ] ;
auto self ( UDPSocket < Handler , MaxDatagramSize > : : shared_from_this ( ) ) ;
m_socket . async_send_to ( boost : : asio : : buffer ( datagram . data ) , datagram . endpoint ( ) , [ this , self ] ( boost : : system : : error_code _ec , std : : size_t )
{
if ( _ec | | m_closed )
return disconnectWithError ( _ec ) ;
else
{
Guard l ( x_sendQ ) ;
m_sendQ . pop_front ( ) ;
if ( m_sendQ . empty ( ) )
return ;
}
doWrite ( ) ;
} ) ;
}
template < typename Handler , unsigned MaxDatagramSize >
void UDPSocket < Handler , MaxDatagramSize > : : disconnectWithError ( boost : : system : : error_code _ec )
{
// If !started and already stopped, shutdown has already occured. (EOF or Operation canceled)
if ( ! m_started & & m_closed & & ! m_socket . is_open ( ) /* todo: veirfy this logic*/ )
return ;
assert ( _ec ) ;
{
// disconnect-operation following prior non-zero errors are ignored
Guard l ( x_socketError ) ;
if ( m_socketError ! = boost : : system : : error_code ( ) )
return ;
m_socketError = _ec ;
}
// TODO: (if non-zero error) schedule high-priority writes
// prevent concurrent disconnect
bool expected = true ;
if ( ! m_started . compare_exchange_strong ( expected , false ) )
return ;
// set m_closed to true to prevent undeliverable egress messages
bool wasClosed = m_closed ;
m_closed = true ;
// close sockets
boost : : system : : error_code ec ;
m_socket . shutdown ( bi : : udp : : socket : : shutdown_both , ec ) ;
m_socket . close ( ) ;
// socket never started if it never left stopped-state (pre-handshake)
if ( wasClosed )
return ;
m_host . onDisconnected ( this ) ;
}
}
}
