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/*
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* ZeroTier One - Network Virtualization Everywhere
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* Copyright ( C ) 2011 - 2016 ZeroTier , Inc . https : //www.zerotier.com/
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*
* This program 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 .
*
* This program 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 this program . If not , see < http : //www.gnu.org/licenses/>.
*/
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# include "../version.h"
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# include "Constants.hpp"
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# include "Peer.hpp"
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# include "Node.hpp"
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# include "Switch.hpp"
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# include "Network.hpp"
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# include "SelfAwareness.hpp"
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# include "Cluster.hpp"
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# include "Packet.hpp"
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# include <algorithm>
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# define ZT_PEER_PATH_SORT_INTERVAL 5000
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namespace ZeroTier {
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// Used to send varying values for NAT keepalive
static uint32_t _natKeepaliveBuf = 0 ;
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Peer : : Peer ( const RuntimeEnvironment * renv , const Identity & myIdentity , const Identity & peerIdentity ) :
RR ( renv ) ,
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_lastUsed ( 0 ) ,
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_lastReceive ( 0 ) ,
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_lastUnicastFrame ( 0 ) ,
_lastMulticastFrame ( 0 ) ,
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_lastAnnouncedTo ( 0 ) ,
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_lastDirectPathPushSent ( 0 ) ,
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_lastDirectPathPushReceive ( 0 ) ,
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_lastPathSort ( 0 ) ,
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_vProto ( 0 ) ,
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_vMajor ( 0 ) ,
_vMinor ( 0 ) ,
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_vRevision ( 0 ) ,
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_id ( peerIdentity ) ,
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_numPaths ( 0 ) ,
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_latency ( 0 ) ,
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_directPathPushCutoffCount ( 0 )
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{
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if ( ! myIdentity . agree ( peerIdentity , _key , ZT_PEER_SECRET_KEY_LENGTH ) )
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throw std : : runtime_error ( " new peer identity key agreement failed " ) ;
}
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void Peer : : received (
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const InetAddress & localAddr ,
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const InetAddress & remoteAddr ,
unsigned int hops ,
uint64_t packetId ,
Packet : : Verb verb ,
uint64_t inRePacketId ,
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Packet : : Verb inReVerb )
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{
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# ifdef ZT_ENABLE_CLUSTER
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bool suboptimalPath = false ;
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if ( ( RR - > cluster ) & & ( hops = = 0 ) ) {
// Note: findBetterEndpoint() is first since we still want to check
// for a better endpoint even if we don't actually send a redirect.
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InetAddress redirectTo ;
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if ( ( verb ! = Packet : : VERB_OK ) & & ( verb ! = Packet : : VERB_ERROR ) & & ( verb ! = Packet : : VERB_RENDEZVOUS ) & & ( verb ! = Packet : : VERB_PUSH_DIRECT_PATHS ) & & ( RR - > cluster - > findBetterEndpoint ( redirectTo , _id . address ( ) , remoteAddr , false ) ) ) {
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if ( _vProto > = 5 ) {
// For newer peers we can send a more idiomatic verb: PUSH_DIRECT_PATHS.
Packet outp ( _id . address ( ) , RR - > identity . address ( ) , Packet : : VERB_PUSH_DIRECT_PATHS ) ;
outp . append ( ( uint16_t ) 1 ) ; // count == 1
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outp . append ( ( uint8_t ) ZT_PUSH_DIRECT_PATHS_FLAG_CLUSTER_REDIRECT ) ; // flags: cluster redirect
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outp . append ( ( uint16_t ) 0 ) ; // no extensions
if ( redirectTo . ss_family = = AF_INET ) {
outp . append ( ( uint8_t ) 4 ) ;
outp . append ( ( uint8_t ) 6 ) ;
outp . append ( redirectTo . rawIpData ( ) , 4 ) ;
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} else {
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outp . append ( ( uint8_t ) 6 ) ;
outp . append ( ( uint8_t ) 18 ) ;
outp . append ( redirectTo . rawIpData ( ) , 16 ) ;
}
outp . append ( ( uint16_t ) redirectTo . port ( ) ) ;
outp . armor ( _key , true ) ;
RR - > node - > putPacket ( localAddr , remoteAddr , outp . data ( ) , outp . size ( ) ) ;
} else {
// For older peers we use RENDEZVOUS to coax them into contacting us elsewhere.
Packet outp ( _id . address ( ) , RR - > identity . address ( ) , Packet : : VERB_RENDEZVOUS ) ;
outp . append ( ( uint8_t ) 0 ) ; // no flags
RR - > identity . address ( ) . appendTo ( outp ) ;
outp . append ( ( uint16_t ) redirectTo . port ( ) ) ;
if ( redirectTo . ss_family = = AF_INET ) {
outp . append ( ( uint8_t ) 4 ) ;
outp . append ( redirectTo . rawIpData ( ) , 4 ) ;
} else {
outp . append ( ( uint8_t ) 16 ) ;
outp . append ( redirectTo . rawIpData ( ) , 16 ) ;
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}
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outp . armor ( _key , true ) ;
RR - > node - > putPacket ( localAddr , remoteAddr , outp . data ( ) , outp . size ( ) ) ;
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}
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suboptimalPath = true ;
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}
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}
# endif
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const uint64_t now = RR - > node - > now ( ) ;
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_lastReceive = now ;
if ( ( verb = = Packet : : VERB_FRAME ) | | ( verb = = Packet : : VERB_EXT_FRAME ) )
_lastUnicastFrame = now ;
else if ( verb = = Packet : : VERB_MULTICAST_FRAME )
_lastMulticastFrame = now ;
if ( hops = = 0 ) {
bool pathIsConfirmed = false ;
unsigned int np = _numPaths ;
for ( unsigned int p = 0 ; p < np ; + + p ) {
if ( ( _paths [ p ] . address ( ) = = remoteAddr ) & & ( _paths [ p ] . localAddress ( ) = = localAddr ) ) {
_paths [ p ] . received ( now ) ;
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# ifdef ZT_ENABLE_CLUSTER
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_paths [ p ] . setClusterSuboptimal ( suboptimalPath ) ;
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# endif
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pathIsConfirmed = true ;
break ;
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}
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}
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if ( ( ! pathIsConfirmed ) & & ( RR - > node - > shouldUsePathForZeroTierTraffic ( localAddr , remoteAddr ) ) ) {
if ( verb = = Packet : : VERB_OK ) {
Path * slot = ( Path * ) 0 ;
if ( np < ZT_MAX_PEER_NETWORK_PATHS ) {
slot = & ( _paths [ np + + ] ) ;
} else {
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uint64_t slotWorstScore = 0xffffffffffffffffULL ;
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for ( unsigned int p = 0 ; p < ZT_MAX_PEER_NETWORK_PATHS ; + + p ) {
if ( ! _paths [ p ] . active ( now ) ) {
slot = & ( _paths [ p ] ) ;
break ;
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} else {
const uint64_t score = _paths [ p ] . score ( ) ;
if ( score < = slotWorstScore ) {
slotWorstScore = score ;
slot = & ( _paths [ p ] ) ;
}
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}
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}
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}
if ( slot ) {
* slot = Path ( localAddr , remoteAddr ) ;
slot - > received ( now ) ;
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# ifdef ZT_ENABLE_CLUSTER
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slot - > setClusterSuboptimal ( suboptimalPath ) ;
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# endif
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_numPaths = np ;
}
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# ifdef ZT_ENABLE_CLUSTER
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if ( RR - > cluster )
RR - > cluster - > broadcastHavePeer ( _id ) ;
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# endif
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} else {
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TRACE ( " got %s via unknown path %s(%s), confirming... " , Packet : : verbString ( verb ) , _id . address ( ) . toString ( ) . c_str ( ) , remoteAddr . toString ( ) . c_str ( ) ) ;
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if ( ( _vProto > = 5 ) & & ( ! ( ( _vMajor = = 1 ) & & ( _vMinor = = 1 ) & & ( _vRevision = = 0 ) ) ) ) {
Packet outp ( _id . address ( ) , RR - > identity . address ( ) , Packet : : VERB_ECHO ) ;
outp . armor ( _key , true ) ;
RR - > node - > putPacket ( localAddr , remoteAddr , outp . data ( ) , outp . size ( ) ) ;
} else {
sendHELLO ( localAddr , remoteAddr , now ) ;
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}
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}
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}
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}
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if ( ( now - _lastAnnouncedTo ) > = ( ( ZT_MULTICAST_LIKE_EXPIRE / 2 ) - 1000 ) ) {
_lastAnnouncedTo = now ;
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const std : : vector < SharedPtr < Network > > networks ( RR - > node - > allNetworks ( ) ) ;
for ( std : : vector < SharedPtr < Network > > : : const_iterator n ( networks . begin ( ) ) ; n ! = networks . end ( ) ; + + n )
( * n ) - > tryAnnounceMulticastGroupsTo ( SharedPtr < Peer > ( this ) ) ;
}
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}
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void Peer : : sendHELLO ( const InetAddress & localAddr , const InetAddress & atAddress , uint64_t now , unsigned int ttl )
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{
Packet outp ( _id . address ( ) , RR - > identity . address ( ) , Packet : : VERB_HELLO ) ;
outp . append ( ( unsigned char ) ZT_PROTO_VERSION ) ;
outp . append ( ( unsigned char ) ZEROTIER_ONE_VERSION_MAJOR ) ;
outp . append ( ( unsigned char ) ZEROTIER_ONE_VERSION_MINOR ) ;
outp . append ( ( uint16_t ) ZEROTIER_ONE_VERSION_REVISION ) ;
outp . append ( now ) ;
RR - > identity . serialize ( outp , false ) ;
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atAddress . serialize ( outp ) ;
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outp . append ( ( uint64_t ) RR - > topology - > worldId ( ) ) ;
outp . append ( ( uint64_t ) RR - > topology - > worldTimestamp ( ) ) ;
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outp . armor ( _key , false ) ; // HELLO is sent in the clear
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RR - > node - > putPacket ( localAddr , atAddress , outp . data ( ) , outp . size ( ) , ttl ) ;
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}
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bool Peer : : doPingAndKeepalive ( uint64_t now , int inetAddressFamily )
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{
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Path * p = ( Path * ) 0 ;
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if ( inetAddressFamily ! = 0 ) {
p = _getBestPath ( now , inetAddressFamily ) ;
} else {
p = _getBestPath ( now ) ;
}
if ( p ) {
if ( ( now - p - > lastReceived ( ) ) > = ZT_PEER_DIRECT_PING_DELAY ) {
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//TRACE("PING %s(%s) after %llums/%llums send/receive inactivity",_id.address().toString().c_str(),p->address().toString().c_str(),now - p->lastSend(),now - p->lastReceived());
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sendHELLO ( p - > localAddress ( ) , p - > address ( ) , now ) ;
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p - > sent ( now ) ;
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p - > pinged ( now ) ;
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} else if ( ( ( now - std : : max ( p - > lastSend ( ) , p - > lastKeepalive ( ) ) ) > = ZT_NAT_KEEPALIVE_DELAY ) & & ( ! p - > reliable ( ) ) ) {
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//TRACE("NAT keepalive %s(%s) after %llums/%llums send/receive inactivity",_id.address().toString().c_str(),p->address().toString().c_str(),now - p->lastSend(),now - p->lastReceived());
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_natKeepaliveBuf + = ( uint32_t ) ( ( now * 0x9e3779b1 ) > > 1 ) ; // tumble this around to send constantly varying (meaningless) payloads
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RR - > node - > putPacket ( p - > localAddress ( ) , p - > address ( ) , & _natKeepaliveBuf , sizeof ( _natKeepaliveBuf ) ) ;
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p - > sentKeepalive ( now ) ;
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} else {
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//TRACE("no PING or NAT keepalive: addr==%s reliable==%d %llums/%llums send/receive inactivity",p->address().toString().c_str(),(int)p->reliable(),now - p->lastSend(),now - p->lastReceived());
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}
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return true ;
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}
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return false ;
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}
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bool Peer : : pushDirectPaths ( const InetAddress & localAddr , const InetAddress & toAddress , uint64_t now , bool force )
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{
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# ifdef ZT_ENABLE_CLUSTER
// Cluster mode disables normal PUSH_DIRECT_PATHS in favor of cluster-based peer redirection
if ( RR - > cluster )
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return false ;
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# endif
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if ( ! force ) {
if ( ( now - _lastDirectPathPushSent ) < ZT_DIRECT_PATH_PUSH_INTERVAL )
return false ;
else _lastDirectPathPushSent = now ;
}
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std : : vector < InetAddress > pathsToPush ;
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std : : vector < InetAddress > dps ( RR - > node - > directPaths ( ) ) ;
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for ( std : : vector < InetAddress > : : const_iterator i ( dps . begin ( ) ) ; i ! = dps . end ( ) ; + + i )
pathsToPush . push_back ( * i ) ;
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std : : vector < InetAddress > sym ( RR - > sa - > getSymmetricNatPredictions ( ) ) ;
for ( unsigned long i = 0 , added = 0 ; i < sym . size ( ) ; + + i ) {
InetAddress tmp ( sym [ ( unsigned long ) RR - > node - > prng ( ) % sym . size ( ) ] ) ;
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if ( std : : find ( pathsToPush . begin ( ) , pathsToPush . end ( ) , tmp ) = = pathsToPush . end ( ) ) {
pathsToPush . push_back ( tmp ) ;
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if ( + + added > = ZT_PUSH_DIRECT_PATHS_MAX_PER_SCOPE_AND_FAMILY )
break ;
}
}
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if ( pathsToPush . empty ( ) )
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return false ;
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# ifdef ZT_TRACE
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{
std : : string ps ;
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for ( std : : vector < InetAddress > : : const_iterator p ( pathsToPush . begin ( ) ) ; p ! = pathsToPush . end ( ) ; + + p ) {
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if ( ps . length ( ) > 0 )
ps . push_back ( ' , ' ) ;
ps . append ( p - > toString ( ) ) ;
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}
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TRACE ( " pushing %u direct paths to %s: %s " , ( unsigned int ) pathsToPush . size ( ) , _id . address ( ) . toString ( ) . c_str ( ) , ps . c_str ( ) ) ;
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}
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# endif
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std : : vector < InetAddress > : : const_iterator p ( pathsToPush . begin ( ) ) ;
while ( p ! = pathsToPush . end ( ) ) {
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Packet outp ( _id . address ( ) , RR - > identity . address ( ) , Packet : : VERB_PUSH_DIRECT_PATHS ) ;
outp . addSize ( 2 ) ; // leave room for count
unsigned int count = 0 ;
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while ( ( p ! = pathsToPush . end ( ) ) & & ( ( outp . size ( ) + 24 ) < 1200 ) ) {
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uint8_t addressType = 4 ;
switch ( p - > ss_family ) {
case AF_INET :
break ;
case AF_INET6 :
addressType = 6 ;
break ;
default : // we currently only push IP addresses
+ + p ;
continue ;
}
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outp . append ( ( uint8_t ) 0 ) ; // no flags
outp . append ( ( uint16_t ) 0 ) ; // no extensions
outp . append ( addressType ) ;
outp . append ( ( uint8_t ) ( ( addressType = = 4 ) ? 6 : 18 ) ) ;
outp . append ( p - > rawIpData ( ) , ( ( addressType = = 4 ) ? 4 : 16 ) ) ;
outp . append ( ( uint16_t ) p - > port ( ) ) ;
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+ + count ;
+ + p ;
}
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if ( count ) {
outp . setAt ( ZT_PACKET_IDX_PAYLOAD , ( uint16_t ) count ) ;
outp . armor ( _key , true ) ;
RR - > node - > putPacket ( localAddr , toAddress , outp . data ( ) , outp . size ( ) , 0 ) ;
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}
}
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return true ;
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}
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bool Peer : : resetWithinScope ( InetAddress : : IpScope scope , uint64_t now )
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{
unsigned int np = _numPaths ;
unsigned int x = 0 ;
unsigned int y = 0 ;
while ( x < np ) {
if ( _paths [ x ] . address ( ) . ipScope ( ) = = scope ) {
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// Resetting a path means sending a HELLO and then forgetting it. If we
// get OK(HELLO) then it will be re-learned.
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sendHELLO ( _paths [ x ] . localAddress ( ) , _paths [ x ] . address ( ) , now ) ;
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} else {
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_paths [ y + + ] = _paths [ x ] ;
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}
+ + x ;
}
_numPaths = y ;
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return ( y < np ) ;
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}
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void Peer : : getBestActiveAddresses ( uint64_t now , InetAddress & v4 , InetAddress & v6 ) const
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{
uint64_t bestV4 = 0 , bestV6 = 0 ;
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for ( unsigned int p = 0 , np = _numPaths ; p < np ; + + p ) {
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if ( _paths [ p ] . active ( now ) ) {
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uint64_t lr = _paths [ p ] . lastReceived ( ) ;
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if ( lr ) {
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if ( _paths [ p ] . address ( ) . isV4 ( ) ) {
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if ( lr > = bestV4 ) {
bestV4 = lr ;
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v4 = _paths [ p ] . address ( ) ;
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}
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} else if ( _paths [ p ] . address ( ) . isV6 ( ) ) {
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if ( lr > = bestV6 ) {
bestV6 = lr ;
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v6 = _paths [ p ] . address ( ) ;
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}
}
}
}
}
}
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void Peer : : clean ( uint64_t now )
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{
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unsigned int np = _numPaths ;
unsigned int x = 0 ;
unsigned int y = 0 ;
while ( x < np ) {
if ( _paths [ x ] . active ( now ) )
_paths [ y + + ] = _paths [ x ] ;
+ + x ;
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}
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_numPaths = y ;
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}
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void Peer : : _doDeadPathDetection ( Path & p , const uint64_t now )
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{
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/* Dead path detection: if we have sent something to this peer and have not
* yet received a reply , double check this path . The majority of outbound
* packets including Ethernet frames do generate some kind of reply either
* immediately or at some point in the near future . This will occasionally
* ( every NO_ANSWER_TIMEOUT ms ) check paths unnecessarily if traffic that
* does not generate a response is being sent such as multicast announcements
* or frames belonging to unidirectional UDP protocols , but the cost is very
* tiny and the benefit in reliability is very large . This takes care of many
* failure modes including crap NATs that forget links and spurious changes
* to physical network topology that cannot be otherwise detected .
*
* Each time we do this we increment a probation counter in the path . This
* counter is reset on any packet receive over this path . If it reaches the
* MAX_PROBATION threshold the path is considred dead . */
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if (
( p . lastSend ( ) > p . lastReceived ( ) ) & &
( ( p . lastSend ( ) - p . lastReceived ( ) ) > = ZT_PEER_DEAD_PATH_DETECTION_NO_ANSWER_TIMEOUT ) & &
( ( now - p . lastPing ( ) ) > = ZT_PEER_DEAD_PATH_DETECTION_NO_ANSWER_TIMEOUT ) & &
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( ! p . isClusterSuboptimal ( ) ) & &
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( ! RR - > topology - > amRoot ( ) )
) {
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TRACE ( " %s(%s) does not seem to be answering in a timely manner, checking if dead (probation == %u) " , _id . address ( ) . toString ( ) . c_str ( ) , p . address ( ) . toString ( ) . c_str ( ) , p . probation ( ) ) ;
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if ( ( _vProto > = 5 ) & & ( ! ( ( _vMajor = = 1 ) & & ( _vMinor = = 1 ) & & ( _vRevision = = 0 ) ) ) ) {
Packet outp ( _id . address ( ) , RR - > identity . address ( ) , Packet : : VERB_ECHO ) ;
outp . armor ( _key , true ) ;
p . send ( RR , outp . data ( ) , outp . size ( ) , now ) ;
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p . pinged ( now ) ;
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} else {
sendHELLO ( p . localAddress ( ) , p . address ( ) , now ) ;
p . sent ( now ) ;
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p . pinged ( now ) ;
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}
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p . increaseProbation ( ) ;
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}
}
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Path * Peer : : _getBestPath ( const uint64_t now )
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{
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Path * bestPath = ( Path * ) 0 ;
uint64_t bestPathScore = 0 ;
for ( unsigned int i = 0 ; i < _numPaths ; + + i ) {
const uint64_t score = _paths [ i ] . score ( ) ;
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if ( ( score > = bestPathScore ) & & ( _paths [ i ] . active ( now ) ) ) {
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bestPathScore = score ;
bestPath = & ( _paths [ i ] ) ;
}
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}
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if ( bestPath )
_doDeadPathDetection ( * bestPath , now ) ;
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return bestPath ;
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}
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Path * Peer : : _getBestPath ( const uint64_t now , int inetAddressFamily )
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{
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Path * bestPath = ( Path * ) 0 ;
uint64_t bestPathScore = 0 ;
for ( unsigned int i = 0 ; i < _numPaths ; + + i ) {
const uint64_t score = _paths [ i ] . score ( ) ;
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if ( ( ( int ) _paths [ i ] . address ( ) . ss_family = = inetAddressFamily ) & & ( score > = bestPathScore ) & & ( _paths [ i ] . active ( now ) ) ) {
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bestPathScore = score ;
bestPath = & ( _paths [ i ] ) ;
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}
}
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if ( bestPath )
_doDeadPathDetection ( * bestPath , now ) ;
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return bestPath ;
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}
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} // namespace ZeroTier