/*
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 Host.cpp
* @ author Alex Leverington < nessence @ gmail . com >
* @ author Gav Wood < i @ gavwood . com >
* @ date 2014
*/
# include <set>
# include <chrono>
# include <thread>
# include <mutex>
# include <boost/algorithm/string.hpp>
# include <libdevcore/Common.h>
# include <libdevcore/CommonIO.h>
# include <libethcore/Exceptions.h>
# include "Session.h"
# include "Common.h"
# include "Capability.h"
# include "UPnP.h"
# include "Host.h"
using namespace std ;
using namespace dev ;
using namespace dev : : p2p ;
Host : : Host ( std : : string const & _clientVersion , NetworkPreferences const & _n , bool _start ) :
Worker ( " p2p " , 0 ) ,
m_clientVersion ( _clientVersion ) ,
m_netPrefs ( _n ) ,
m_ifAddresses ( Network : : getInterfaceAddresses ( ) ) ,
m_ioService ( 2 ) ,
m_tcp4Acceptor ( m_ioService ) ,
m_key ( KeyPair : : create ( ) )
{
for ( auto address : m_ifAddresses )
if ( address . is_v4 ( ) )
clog ( NetNote ) < < " IP Address: " < < address < < " = " < < ( isPrivateAddress ( address ) ? " [LOCAL] " : " [PEER] " ) ;
clog ( NetNote ) < < " Id: " < < id ( ) . abridged ( ) ;
if ( _start )
start ( ) ;
}
Host : : ~ Host ( )
{
stop ( ) ;
}
void Host : : start ( )
{
startWorking ( ) ;
}
void Host : : stop ( )
{
// called to force io_service to kill any remaining tasks it might have -
// such tasks may involve socket reads from Capabilities that maintain references
// to resources we're about to free.
{
// Although m_run is set by stop() or start(), it effects m_runTimer so x_runTimer is used instead of a mutex for m_run.
// when m_run == false, run() will cause this::run() to stop() ioservice
Guard l ( x_runTimer ) ;
// ignore if already stopped/stopping
if ( ! m_run )
return ;
m_run = false ;
}
// wait for m_timer to reset (indicating network scheduler has stopped)
while ( ! ! m_timer )
this_thread : : sleep_for ( chrono : : milliseconds ( 50 ) ) ;
// stop worker thread
stopWorking ( ) ;
}
void Host : : doneWorking ( )
{
// reset ioservice (allows manually polling network, below)
m_ioService . reset ( ) ;
// shutdown acceptor
m_tcp4Acceptor . cancel ( ) ;
if ( m_tcp4Acceptor . is_open ( ) )
m_tcp4Acceptor . close ( ) ;
// There maybe an incoming connection which started but hasn't finished.
// Wait for acceptor to end itself instead of assuming it's complete.
// This helps ensure a peer isn't stopped at the same time it's starting
// and that socket for pending connection is closed.
while ( m_accepting )
m_ioService . poll ( ) ;
// stop capabilities (eth: stops syncing or block/tx broadcast)
for ( auto const & h : m_capabilities )
h . second - > onStopping ( ) ;
// disconnect peers
for ( unsigned n = 0 ; ; n = 0 )
{
{
RecursiveGuard l ( x_peers ) ;
for ( auto i : m_peers )
if ( auto p = i . second . lock ( ) )
if ( p - > isOpen ( ) )
{
p - > disconnect ( ClientQuit ) ;
n + + ;
}
}
if ( ! n )
break ;
// poll so that peers send out disconnect packets
m_ioService . poll ( ) ;
}
// stop network (again; helpful to call before subsequent reset())
m_ioService . stop ( ) ;
// reset network (allows reusing ioservice in future)
m_ioService . reset ( ) ;
// finally, clear out peers (in case they're lingering)
RecursiveGuard l ( x_peers ) ;
m_peers . clear ( ) ;
}
unsigned Host : : protocolVersion ( ) const
{
return 2 ;
}
void Host : : registerPeer ( std : : shared_ptr < Session > _s , CapDescs const & _caps )
{
if ( ! _s - > m_node | | ! _s - > m_node - > id )
{
cwarn < < " Attempting to register a peer without node information! " ;
return ;
}
{
RecursiveGuard l ( x_peers ) ;
m_peers [ _s - > m_node - > id ] = _s ;
}
unsigned o = ( unsigned ) UserPacket ;
for ( auto const & i : _caps )
if ( haveCapability ( i ) )
{
_s - > m_capabilities [ i ] = shared_ptr < Capability > ( m_capabilities [ i ] - > newPeerCapability ( _s . get ( ) , o ) ) ;
o + = m_capabilities [ i ] - > messageCount ( ) ;
}
}
void Host : : seal ( bytes & _b )
{
_b [ 0 ] = 0x22 ;
_b [ 1 ] = 0x40 ;
_b [ 2 ] = 0x08 ;
_b [ 3 ] = 0x91 ;
uint32_t len = ( uint32_t ) _b . size ( ) - 8 ;
_b [ 4 ] = ( len > > 24 ) & 0xff ;
_b [ 5 ] = ( len > > 16 ) & 0xff ;
_b [ 6 ] = ( len > > 8 ) & 0xff ;
_b [ 7 ] = len & 0xff ;
}
shared_ptr < Node > Host : : noteNode ( NodeId _id , bi : : tcp : : endpoint _a , Origin _o , bool _ready , NodeId _oldId )
{
RecursiveGuard l ( x_peers ) ;
if ( _a . port ( ) < 30300 | | _a . port ( ) > 30305 )
cwarn < < " Non-standard port being recorded: " < < _a . port ( ) ;
if ( _a . port ( ) > = /*49152*/ 32768 )
{
cwarn < < " Private port being recorded - setting to 0 " ;
_a = bi : : tcp : : endpoint ( _a . address ( ) , 0 ) ;
}
// cnote << "Node:" << _id.abridged() << _a << (_ready ? "ready" : "used") << _oldId.abridged() << (m_nodes.count(_id) ? "[have]" : "[NEW]");
// First check for another node with the same connection credentials, and put it in oldId if found.
if ( ! _oldId )
for ( pair < h512 , shared_ptr < Node > > const & n : m_nodes )
if ( n . second - > address = = _a & & n . second - > id ! = _id )
{
_oldId = n . second - > id ;
break ;
}
unsigned i ;
if ( ! m_nodes . count ( _id ) )
{
if ( m_nodes . count ( _oldId ) )
{
i = m_nodes [ _oldId ] - > index ;
m_nodes . erase ( _oldId ) ;
m_nodesList [ i ] = _id ;
}
else
{
i = m_nodesList . size ( ) ;
m_nodesList . push_back ( _id ) ;
}
m_nodes [ _id ] = make_shared < Node > ( ) ;
m_nodes [ _id ] - > id = _id ;
m_nodes [ _id ] - > index = i ;
m_nodes [ _id ] - > idOrigin = _o ;
}
else
{
i = m_nodes [ _id ] - > index ;
m_nodes [ _id ] - > idOrigin = max ( m_nodes [ _id ] - > idOrigin , _o ) ;
}
m_nodes [ _id ] - > address = _a ;
m_ready . extendAll ( i ) ;
m_private . extendAll ( i ) ;
if ( _ready )
m_ready + = i ;
else
m_ready - = i ;
if ( ! _a . port ( ) | | ( isPrivateAddress ( _a . address ( ) ) & & ! m_netPrefs . localNetworking ) )
m_private + = i ;
else
m_private - = i ;
// cnote << m_nodes[_id]->index << ":" << m_ready;
m_hadNewNodes = true ;
return m_nodes [ _id ] ;
}
Nodes Host : : potentialPeers ( RangeMask < unsigned > const & _known )
{
RecursiveGuard l ( x_peers ) ;
Nodes ret ;
auto ns = ( m_netPrefs . localNetworking ? _known : ( m_private + _known ) ) . inverted ( ) ;
for ( auto i : ns )
ret . push_back ( * m_nodes [ m_nodesList [ i ] ] ) ;
return ret ;
}
void Host : : determinePublic ( string const & _publicAddress , bool _upnp )
{
m_peerAddresses . clear ( ) ;
// no point continuing if there are no interface addresses or valid listen port
if ( ! m_ifAddresses . size ( ) | | m_listenPort < 1 )
return ;
// populate interfaces we'll listen on (eth listens on all interfaces); ignores local
for ( auto addr : m_ifAddresses )
if ( ( m_netPrefs . localNetworking | | ! isPrivateAddress ( addr ) ) & & ! isLocalHostAddress ( addr ) )
m_peerAddresses . insert ( addr ) ;
// if user supplied address is a public address then we use it
// if user supplied address is private, and localnetworking is enabled, we use it
bi : : address reqPublicAddr ( bi : : address ( _publicAddress . empty ( ) ? bi : : address ( ) : bi : : address : : from_string ( _publicAddress ) ) ) ;
bi : : tcp : : endpoint reqPublic ( reqPublicAddr , m_listenPort ) ;
bool isprivate = isPrivateAddress ( reqPublicAddr ) ;
bool ispublic = ! isprivate & & ! isLocalHostAddress ( reqPublicAddr ) ;
if ( ! reqPublicAddr . is_unspecified ( ) & & ( ispublic | | ( isprivate & & m_netPrefs . localNetworking ) ) )
{
if ( ! m_peerAddresses . count ( reqPublicAddr ) )
m_peerAddresses . insert ( reqPublicAddr ) ;
m_tcpPublic = reqPublic ;
return ;
}
// if address wasn't provided, then use first public ipv4 address found
for ( auto addr : m_peerAddresses )
if ( addr . is_v4 ( ) & & ! isPrivateAddress ( addr ) )
{
m_tcpPublic = bi : : tcp : : endpoint ( * m_peerAddresses . begin ( ) , m_listenPort ) ;
return ;
}
// or find address via upnp
if ( _upnp )
{
bi : : address upnpifaddr ;
bi : : tcp : : endpoint upnpep = Network : : traverseNAT ( m_ifAddresses , m_listenPort , upnpifaddr ) ;
if ( ! upnpep . address ( ) . is_unspecified ( ) & & ! upnpifaddr . is_unspecified ( ) )
{
if ( ! m_peerAddresses . count ( upnpep . address ( ) ) )
m_peerAddresses . insert ( upnpep . address ( ) ) ;
m_tcpPublic = upnpep ;
return ;
}
}
// or if no address provided, use private ipv4 address if local networking is enabled
if ( reqPublicAddr . is_unspecified ( ) )
if ( m_netPrefs . localNetworking )
for ( auto addr : m_peerAddresses )
if ( addr . is_v4 ( ) & & isPrivateAddress ( addr ) )
{
m_tcpPublic = bi : : tcp : : endpoint ( addr , m_listenPort ) ;
return ;
}
// otherwise address is unspecified
m_tcpPublic = bi : : tcp : : endpoint ( bi : : address ( ) , m_listenPort ) ;
}
void Host : : runAcceptor ( )
{
assert ( m_listenPort > 0 ) ;
if ( m_run & & ! m_accepting )
{
clog ( NetConnect ) < < " Listening on local port " < < m_listenPort < < " (public: " < < m_tcpPublic < < " ) " ;
m_accepting = true ;
m_socket . reset ( new bi : : tcp : : socket ( m_ioService ) ) ;
m_tcp4Acceptor . async_accept ( * m_socket , [ = ] ( boost : : system : : error_code ec )
{
bool success = false ;
if ( ! ec )
{
try
{
try {
clog ( NetConnect ) < < " Accepted connection from " < < m_socket - > remote_endpoint ( ) ;
} catch ( . . . ) { }
bi : : address remoteAddress = m_socket - > remote_endpoint ( ) . address ( ) ;
// Port defaults to 0 - we let the hello tell us which port the peer listens to
auto p = std : : make_shared < Session > ( this , std : : move ( * m_socket . release ( ) ) , bi : : tcp : : endpoint ( remoteAddress , 0 ) ) ;
p - > start ( ) ;
success = true ;
}
catch ( Exception const & _e )
{
clog ( NetWarn ) < < " ERROR: " < < diagnostic_information ( _e ) ;
}
catch ( std : : exception const & _e )
{
clog ( NetWarn ) < < " ERROR: " < < _e . what ( ) ;
}
}
if ( ! success & & m_socket - > is_open ( ) )
{
boost : : system : : error_code ec ;
m_socket - > shutdown ( boost : : asio : : ip : : tcp : : socket : : shutdown_both , ec ) ;
m_socket - > close ( ) ;
}
m_accepting = false ;
if ( ec . value ( ) < 1 )
runAcceptor ( ) ;
} ) ;
}
}
string Host : : pocHost ( )
{
vector < string > strs ;
boost : : split ( strs , dev : : Version , boost : : is_any_of ( " . " ) ) ;
return " poc- " + strs [ 1 ] + " .ethdev.com " ;
}
void Host : : connect ( std : : string const & _addr , unsigned short _port ) noexcept
{
while ( isWorking ( ) & & ! m_run )
this_thread : : sleep_for ( chrono : : milliseconds ( 50 ) ) ;
if ( ! m_run )
return ;
for ( auto first : { true , false } )
{
try
{
if ( first )
{
bi : : tcp : : resolver r ( m_ioService ) ;
connect ( r . resolve ( { _addr , toString ( _port ) } ) - > endpoint ( ) ) ;
}
else
connect ( bi : : tcp : : endpoint ( bi : : address : : from_string ( _addr ) , _port ) ) ;
break ;
}
catch ( Exception const & _e )
{
// Couldn't connect
clog ( NetConnect ) < < " Bad host " < < _addr < < " \n " < < diagnostic_information ( _e ) ;
}
catch ( exception const & e )
{
// Couldn't connect
clog ( NetConnect ) < < " Bad host " < < _addr < < " ( " < < e . what ( ) < < " ) " ;
}
}
}
void Host : : connect ( bi : : tcp : : endpoint const & _ep )
{
while ( isWorking ( ) & & ! m_run )
this_thread : : sleep_for ( chrono : : milliseconds ( 50 ) ) ;
if ( ! m_run )
return ;
clog ( NetConnect ) < < " Attempting single-shot connection to " < < _ep ;
bi : : tcp : : socket * s = new bi : : tcp : : socket ( m_ioService ) ;
s - > async_connect ( _ep , [ = ] ( boost : : system : : error_code const & ec )
{
if ( ec )
clog ( NetConnect ) < < " Connection refused to " < < _ep < < " ( " < < ec . message ( ) < < " ) " ;
else
{
auto p = make_shared < Session > ( this , std : : move ( * s ) , _ep ) ;
clog ( NetConnect ) < < " Connected to " < < _ep ;
p - > start ( ) ;
}
delete s ;
} ) ;
}
void Host : : connect ( std : : shared_ptr < Node > const & _n )
{
while ( isWorking ( ) & & ! m_run )
this_thread : : sleep_for ( chrono : : milliseconds ( 50 ) ) ;
if ( ! m_run )
return ;
// prevent concurrently connecting to a node; todo: better abstraction
Node * nptr = _n . get ( ) ;
{
Guard l ( x_pendingNodeConns ) ;
if ( m_pendingNodeConns . count ( nptr ) )
return ;
m_pendingNodeConns . insert ( nptr ) ;
}
clog ( NetConnect ) < < " Attempting connection to node " < < _n - > id . abridged ( ) < < " @ " < < _n - > address < < " from " < < id ( ) . abridged ( ) ;
_n - > lastAttempted = std : : chrono : : system_clock : : now ( ) ;
_n - > failedAttempts + + ;
m_ready - = _n - > index ;
bi : : tcp : : socket * s = new bi : : tcp : : socket ( m_ioService ) ;
auto n = node ( _n - > id ) ;
if ( n )
s - > async_connect ( _n - > address , [ = ] ( boost : : system : : error_code const & ec )
{
if ( ec )
{
clog ( NetConnect ) < < " Connection refused to node " < < _n - > id . abridged ( ) < < " @ " < < _n - > address < < " ( " < < ec . message ( ) < < " ) " ;
_n - > lastDisconnect = TCPError ;
_n - > lastAttempted = std : : chrono : : system_clock : : now ( ) ;
m_ready + = _n - > index ;
}
else
{
clog ( NetConnect ) < < " Connected to " < < _n - > id . abridged ( ) < < " @ " < < _n - > address ;
_n - > lastConnected = std : : chrono : : system_clock : : now ( ) ;
auto p = make_shared < Session > ( this , std : : move ( * s ) , n , true ) ; // true because we don't care about ids matched for now. Once we have permenant IDs this will matter a lot more and we can institute a safer mechanism.
p - > start ( ) ;
}
delete s ;
Guard l ( x_pendingNodeConns ) ;
m_pendingNodeConns . erase ( nptr ) ;
} ) ;
else
clog ( NetWarn ) < < " Trying to connect to node not in node table. " ;
}
bool Host : : havePeer ( NodeId _id ) const
{
RecursiveGuard l ( x_peers ) ;
// Remove dead peers from list.
for ( auto i = m_peers . begin ( ) ; i ! = m_peers . end ( ) ; )
if ( i - > second . lock ( ) . get ( ) )
+ + i ;
else
i = m_peers . erase ( i ) ;
return ! ! m_peers . count ( _id ) ;
}
unsigned Node : : fallbackSeconds ( ) const
{
switch ( lastDisconnect )
{
case BadProtocol :
return 30 * ( failedAttempts + 1 ) ;
case UselessPeer :
case TooManyPeers :
case ClientQuit :
return 15 * ( failedAttempts + 1 ) ;
case NoDisconnect :
return 0 ;
default :
if ( failedAttempts < 5 )
return failedAttempts * 5 ;
else if ( failedAttempts < 15 )
return 25 + ( failedAttempts - 5 ) * 10 ;
else
return 25 + 100 + ( failedAttempts - 15 ) * 20 ;
}
}
bool Node : : shouldReconnect ( ) const
{
return chrono : : system_clock : : now ( ) > lastAttempted + chrono : : seconds ( fallbackSeconds ( ) ) ;
}
void Host : : growPeers ( )
{
RecursiveGuard l ( x_peers ) ;
int morePeers = ( int ) m_idealPeerCount - m_peers . size ( ) ;
if ( morePeers > 0 )
{
auto toTry = m_ready ;
if ( ! m_netPrefs . localNetworking )
toTry - = m_private ;
set < Node > ns ;
for ( auto i : toTry )
if ( m_nodes [ m_nodesList [ i ] ] - > shouldReconnect ( ) )
ns . insert ( * m_nodes [ m_nodesList [ i ] ] ) ;
if ( ns . size ( ) )
for ( Node const & i : ns )
{
connect ( m_nodes [ i . id ] ) ;
if ( ! - - morePeers )
return ;
}
else
for ( auto const & i : m_peers )
if ( auto p = i . second . lock ( ) )
p - > ensureNodesRequested ( ) ;
}
}
void Host : : prunePeers ( )
{
RecursiveGuard l ( x_peers ) ;
// We'll keep at most twice as many as is ideal, halfing what counts as "too young to kill" until we get there.
set < NodeId > dc ;
for ( unsigned old = 15000 ; m_peers . size ( ) - dc . size ( ) > m_idealPeerCount * 2 & & old > 100 ; old / = 2 )
if ( m_peers . size ( ) - dc . size ( ) > m_idealPeerCount )
{
// look for worst peer to kick off
// first work out how many are old enough to kick off.
shared_ptr < Session > worst ;
unsigned agedPeers = 0 ;
for ( auto i : m_peers )
if ( ! dc . count ( i . first ) )
if ( auto p = i . second . lock ( ) )
if ( chrono : : steady_clock : : now ( ) > p - > m_connect + chrono : : milliseconds ( old ) ) // don't throw off new peers; peer-servers should never kick off other peer-servers.
{
+ + agedPeers ;
if ( ( ! worst | | p - > rating ( ) < worst - > rating ( ) | | ( p - > rating ( ) = = worst - > rating ( ) & & p - > m_connect > worst - > m_connect ) ) ) // kill older ones
worst = p ;
}
if ( ! worst | | agedPeers < = m_idealPeerCount )
break ;
dc . insert ( worst - > id ( ) ) ;
worst - > disconnect ( TooManyPeers ) ;
}
// Remove dead peers from list.
for ( auto i = m_peers . begin ( ) ; i ! = m_peers . end ( ) ; )
if ( i - > second . lock ( ) . get ( ) )
+ + i ;
else
i = m_peers . erase ( i ) ;
}
PeerInfos Host : : peers ( bool _updatePing ) const
{
if ( ! m_run )
return PeerInfos ( ) ;
RecursiveGuard l ( x_peers ) ;
if ( _updatePing )
{
const_cast < Host * > ( this ) - > pingAll ( ) ;
this_thread : : sleep_for ( chrono : : milliseconds ( 200 ) ) ;
}
std : : vector < PeerInfo > ret ;
for ( auto & i : m_peers )
if ( auto j = i . second . lock ( ) )
if ( j - > m_socket . is_open ( ) )
ret . push_back ( j - > m_info ) ;
return ret ;
}
void Host : : run ( boost : : system : : error_code const & )
{
if ( ! m_run )
{
// stopping io service allows running manual network operations for shutdown
// and also stops blocking worker thread, allowing worker thread to exit
m_ioService . stop ( ) ;
// resetting timer signals network that nothing else can be scheduled to run
m_timer . reset ( ) ;
return ;
}
m_lastTick + = c_timerInterval ;
if ( m_lastTick > = c_timerInterval * 10 )
{
growPeers ( ) ;
prunePeers ( ) ;
m_lastTick = 0 ;
}
if ( m_hadNewNodes )
{
for ( auto p : m_peers )
if ( auto pp = p . second . lock ( ) )
pp - > serviceNodesRequest ( ) ;
m_hadNewNodes = false ;
}
if ( chrono : : steady_clock : : now ( ) - m_lastPing > chrono : : seconds ( 30 ) ) // ping every 30s.
{
for ( auto p : m_peers )
if ( auto pp = p . second . lock ( ) )
if ( chrono : : steady_clock : : now ( ) - pp - > m_lastReceived > chrono : : seconds ( 60 ) )
pp - > disconnect ( PingTimeout ) ;
pingAll ( ) ;
}
auto runcb = [ this ] ( boost : : system : : error_code const & error ) - > void { run ( error ) ; } ;
m_timer - > expires_from_now ( boost : : posix_time : : milliseconds ( c_timerInterval ) ) ;
m_timer - > async_wait ( runcb ) ;
}
void Host : : startedWorking ( )
{
asserts ( ! m_timer ) ;
{
// prevent m_run from being set to true at same time as set to false by stop()
// don't release mutex until m_timer is set so in case stop() is called at same
// time, stop will wait on m_timer and graceful network shutdown.
Guard l ( x_runTimer ) ;
// create deadline timer
m_timer . reset ( new boost : : asio : : deadline_timer ( m_ioService ) ) ;
m_run = true ;
}
// try to open acceptor (todo: ipv6)
m_listenPort = Network : : tcp4Listen ( m_tcp4Acceptor , m_netPrefs . listenPort ) ;
// start capability threads
for ( auto const & h : m_capabilities )
h . second - > onStarting ( ) ;
// determine public IP, but only if we're able to listen for connections
// todo: GUI when listen is unavailable in UI
if ( m_listenPort )
{
determinePublic ( m_netPrefs . publicIP , m_netPrefs . upnp ) ;
if ( m_listenPort > 0 )
runAcceptor ( ) ;
}
// if m_public address is valid then add us to node list
// todo: abstract empty() and emplace logic
if ( ! m_tcpPublic . address ( ) . is_unspecified ( ) & & ( m_nodes . empty ( ) | | m_nodes [ m_nodesList [ 0 ] ] - > id ! = id ( ) ) )
noteNode ( id ( ) , m_tcpPublic , Origin : : Perfect , false ) ;
clog ( NetNote ) < < " Id: " < < id ( ) . abridged ( ) ;
run ( boost : : system : : error_code ( ) ) ;
}
void Host : : doWork ( )
{
if ( m_run )
m_ioService . run ( ) ;
}
void Host : : pingAll ( )
{
RecursiveGuard l ( x_peers ) ;
for ( auto & i : m_peers )
if ( auto j = i . second . lock ( ) )
j - > ping ( ) ;
m_lastPing = chrono : : steady_clock : : now ( ) ;
}
bytes Host : : saveNodes ( ) const
{
RLPStream nodes ;
int count = 0 ;
{
RecursiveGuard l ( x_peers ) ;
for ( auto const & i : m_nodes )
{
Node const & n = * ( i . second ) ;
// TODO: PoC-7: Figure out why it ever shares these ports.//n.address.port() >= 30300 && n.address.port() <= 30305 &&
if ( ! n . dead & & chrono : : system_clock : : now ( ) - n . lastConnected < chrono : : seconds ( 3600 * 48 ) & & n . address . port ( ) > 0 & & n . address . port ( ) < /*49152*/ 32768 & & n . id ! = id ( ) & & ! isPrivateAddress ( n . address . address ( ) ) )
{
nodes . appendList ( 10 ) ;
if ( n . address . address ( ) . is_v4 ( ) )
nodes < < n . address . address ( ) . to_v4 ( ) . to_bytes ( ) ;
else
nodes < < n . address . address ( ) . to_v6 ( ) . to_bytes ( ) ;
nodes < < n . address . port ( ) < < n . id < < ( int ) n . idOrigin
< < chrono : : duration_cast < chrono : : seconds > ( n . lastConnected . time_since_epoch ( ) ) . count ( )
< < chrono : : duration_cast < chrono : : seconds > ( n . lastAttempted . time_since_epoch ( ) ) . count ( )
< < n . failedAttempts < < ( unsigned ) n . lastDisconnect < < n . score < < n . rating ;
count + + ;
}
}
}
RLPStream ret ( 3 ) ;
ret < < 0 < < m_key . secret ( ) ;
ret . appendList ( count ) . appendRaw ( nodes . out ( ) , count ) ;
return ret . out ( ) ;
}
void Host : : restoreNodes ( bytesConstRef _b )
{
RecursiveGuard l ( x_peers ) ;
RLP r ( _b ) ;
if ( r . itemCount ( ) > 0 & & r [ 0 ] . isInt ( ) )
switch ( r [ 0 ] . toInt < int > ( ) )
{
case 0 :
{
auto oldId = id ( ) ;
m_key = KeyPair ( r [ 1 ] . toHash < Secret > ( ) ) ;
noteNode ( id ( ) , m_tcpPublic , Origin : : Perfect , false , oldId ) ;
for ( auto i : r [ 2 ] )
{
bi : : tcp : : endpoint ep ;
if ( i [ 0 ] . itemCount ( ) = = 4 )
ep = bi : : tcp : : endpoint ( bi : : address_v4 ( i [ 0 ] . toArray < byte , 4 > ( ) ) , i [ 1 ] . toInt < short > ( ) ) ;
else
ep = bi : : tcp : : endpoint ( bi : : address_v6 ( i [ 0 ] . toArray < byte , 16 > ( ) ) , i [ 1 ] . toInt < short > ( ) ) ;
auto id = ( NodeId ) i [ 2 ] ;
if ( ! m_nodes . count ( id ) )
{
auto o = ( Origin ) i [ 3 ] . toInt < int > ( ) ;
auto n = noteNode ( id , ep , o , true ) ;
n - > lastConnected = chrono : : system_clock : : time_point ( chrono : : seconds ( i [ 4 ] . toInt < unsigned > ( ) ) ) ;
n - > lastAttempted = chrono : : system_clock : : time_point ( chrono : : seconds ( i [ 5 ] . toInt < unsigned > ( ) ) ) ;
n - > failedAttempts = i [ 6 ] . toInt < unsigned > ( ) ;
n - > lastDisconnect = ( DisconnectReason ) i [ 7 ] . toInt < unsigned > ( ) ;
n - > score = ( int ) i [ 8 ] . toInt < unsigned > ( ) ;
n - > rating = ( int ) i [ 9 ] . toInt < unsigned > ( ) ;
}
}
}
default : ;
}
else
for ( auto i : r )
{
auto id = ( NodeId ) i [ 2 ] ;
if ( ! m_nodes . count ( id ) )
{
bi : : tcp : : endpoint ep ;
if ( i [ 0 ] . itemCount ( ) = = 4 )
ep = bi : : tcp : : endpoint ( bi : : address_v4 ( i [ 0 ] . toArray < byte , 4 > ( ) ) , i [ 1 ] . toInt < short > ( ) ) ;
else
ep = bi : : tcp : : endpoint ( bi : : address_v6 ( i [ 0 ] . toArray < byte , 16 > ( ) ) , i [ 1 ] . toInt < short > ( ) ) ;
auto n = noteNode ( id , ep , Origin : : Self , true ) ;
}
}
}