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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 <stdio.h>
# include <stdlib.h>
# include <string.h>
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# include <set>
# include <vector>
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# include "Constants.hpp"
# include "SelfAwareness.hpp"
# include "RuntimeEnvironment.hpp"
# include "Node.hpp"
# include "Topology.hpp"
# include "Packet.hpp"
# include "Peer.hpp"
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# include "Switch.hpp"
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// Entry timeout -- make it fairly long since this is just to prevent stale buildup
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# define ZT_SELFAWARENESS_ENTRY_TIMEOUT 600000
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namespace ZeroTier {
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class _ResetWithinScope
{
public :
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_ResetWithinScope ( uint64_t now , int inetAddressFamily , InetAddress : : IpScope scope ) :
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_now ( now ) ,
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_family ( inetAddressFamily ) ,
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_scope ( scope ) { }
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inline void operator ( ) ( Topology & t , const SharedPtr < Peer > & p ) { p - > resetWithinScope ( _scope , _family , _now ) ; }
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private :
uint64_t _now ;
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int _family ;
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InetAddress : : IpScope _scope ;
} ;
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SelfAwareness : : SelfAwareness ( const RuntimeEnvironment * renv ) :
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RR ( renv ) ,
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_phy ( 128 )
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{
}
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void SelfAwareness : : iam ( const Address & reporter , const InetAddress & receivedOnLocalAddress , const InetAddress & reporterPhysicalAddress , const InetAddress & myPhysicalAddress , bool trusted , uint64_t now )
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{
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const InetAddress : : IpScope scope = myPhysicalAddress . ipScope ( ) ;
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if ( ( scope ! = reporterPhysicalAddress . ipScope ( ) ) | | ( scope = = InetAddress : : IP_SCOPE_NONE ) | | ( scope = = InetAddress : : IP_SCOPE_LOOPBACK ) | | ( scope = = InetAddress : : IP_SCOPE_MULTICAST ) )
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return ;
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Mutex : : Lock _l ( _phy_m ) ;
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PhySurfaceEntry & entry = _phy [ PhySurfaceKey ( reporter , receivedOnLocalAddress , reporterPhysicalAddress , scope ) ] ;
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if ( ( trusted ) & & ( ( now - entry . ts ) < ZT_SELFAWARENESS_ENTRY_TIMEOUT ) & & ( ! entry . mySurface . ipsEqual ( myPhysicalAddress ) ) ) {
// Changes to external surface reported by trusted peers causes path reset in this scope
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TRACE ( " physical address %s for scope %u as seen from %s(%s) differs from %s, resetting paths in scope " , myPhysicalAddress . toString ( ) . c_str ( ) , ( unsigned int ) scope , reporter . toString ( ) . c_str ( ) , reporterPhysicalAddress . toString ( ) . c_str ( ) , entry . mySurface . toString ( ) . c_str ( ) ) ;
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entry . mySurface = myPhysicalAddress ;
entry . ts = now ;
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entry . trusted = trusted ;
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// Erase all entries in this scope that were not reported from this remote address to prevent 'thrashing'
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// due to multiple reports of endpoint change.
// Don't use 'entry' after this since hash table gets modified.
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{
Hashtable < PhySurfaceKey , PhySurfaceEntry > : : Iterator i ( _phy ) ;
PhySurfaceKey * k = ( PhySurfaceKey * ) 0 ;
PhySurfaceEntry * e = ( PhySurfaceEntry * ) 0 ;
while ( i . next ( k , e ) ) {
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if ( ( k - > reporterPhysicalAddress ! = reporterPhysicalAddress ) & & ( k - > scope = = scope ) )
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_phy . erase ( * k ) ;
}
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}
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// Reset all paths within this scope and address family
_ResetWithinScope rset ( now , myPhysicalAddress . ss_family , ( InetAddress : : IpScope ) scope ) ;
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RR - > topology - > eachPeer < _ResetWithinScope & > ( rset ) ;
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} else {
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// Otherwise just update DB to use to determine external surface info
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entry . mySurface = myPhysicalAddress ;
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entry . ts = now ;
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entry . trusted = trusted ;
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}
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}
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void SelfAwareness : : clean ( uint64_t now )
{
Mutex : : Lock _l ( _phy_m ) ;
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Hashtable < PhySurfaceKey , PhySurfaceEntry > : : Iterator i ( _phy ) ;
PhySurfaceKey * k = ( PhySurfaceKey * ) 0 ;
PhySurfaceEntry * e = ( PhySurfaceEntry * ) 0 ;
while ( i . next ( k , e ) ) {
if ( ( now - e - > ts ) > = ZT_SELFAWARENESS_ENTRY_TIMEOUT )
_phy . erase ( * k ) ;
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}
}
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std : : vector < InetAddress > SelfAwareness : : getSymmetricNatPredictions ( )
{
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/* This is based on ideas and strategies found here:
* https : //tools.ietf.org/html/draft-takeda-symmetric-nat-traversal-00
*
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* For each IP address reported by a trusted ( upstream ) peer , we find
* the external port most recently reported by ANY peer for that IP .
*
* We only do any of this for global IPv4 addresses since private IPs
* and IPv6 are not going to have symmetric NAT .
*
* SECURITY NOTE :
*
* We never use IPs reported by non - trusted peers , since this could lead
* to a minor vulnerability whereby a peer could poison our cache with
* bad external surface reports via OK ( HELLO ) and then possibly coax us
* into suggesting their IP to other peers via PUSH_DIRECT_PATHS . This
* in turn could allow them to MITM flows .
*
* Since flows are encrypted and authenticated they could not actually
* read or modify traffic , but they could gather meta - data for forensics
* purpsoes or use this as a DOS attack vector . */
std : : map < uint32_t , std : : pair < uint64_t , unsigned int > > maxPortByIp ;
InetAddress theOneTrueSurface ;
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bool symmetric = false ;
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{
Mutex : : Lock _l ( _phy_m ) ;
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{ // First get IPs from only trusted peers, and perform basic NAT type characterization
Hashtable < PhySurfaceKey , PhySurfaceEntry > : : Iterator i ( _phy ) ;
PhySurfaceKey * k = ( PhySurfaceKey * ) 0 ;
PhySurfaceEntry * e = ( PhySurfaceEntry * ) 0 ;
while ( i . next ( k , e ) ) {
if ( ( e - > trusted ) & & ( e - > mySurface . ss_family = = AF_INET ) & & ( e - > mySurface . ipScope ( ) = = InetAddress : : IP_SCOPE_GLOBAL ) ) {
if ( ! theOneTrueSurface )
theOneTrueSurface = e - > mySurface ;
else if ( theOneTrueSurface ! = e - > mySurface )
symmetric = true ;
maxPortByIp [ reinterpret_cast < const struct sockaddr_in * > ( & ( e - > mySurface ) ) - > sin_addr . s_addr ] = std : : pair < uint64_t , unsigned int > ( e - > ts , e - > mySurface . port ( ) ) ;
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}
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}
}
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{ // Then find max port per IP from a trusted peer
Hashtable < PhySurfaceKey , PhySurfaceEntry > : : Iterator i ( _phy ) ;
PhySurfaceKey * k = ( PhySurfaceKey * ) 0 ;
PhySurfaceEntry * e = ( PhySurfaceEntry * ) 0 ;
while ( i . next ( k , e ) ) {
if ( ( e - > mySurface . ss_family = = AF_INET ) & & ( e - > mySurface . ipScope ( ) = = InetAddress : : IP_SCOPE_GLOBAL ) ) {
std : : map < uint32_t , std : : pair < uint64_t , unsigned int > > : : iterator mp ( maxPortByIp . find ( reinterpret_cast < const struct sockaddr_in * > ( & ( e - > mySurface ) ) - > sin_addr . s_addr ) ) ;
if ( ( mp ! = maxPortByIp . end ( ) ) & & ( mp - > second . first < e - > ts ) ) {
mp - > second . first = e - > ts ;
mp - > second . second = e - > mySurface . port ( ) ;
}
}
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}
}
}
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if ( symmetric ) {
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std : : vector < InetAddress > r ;
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for ( unsigned int k = 1 ; k < = 3 ; + + k ) {
for ( std : : map < uint32_t , std : : pair < uint64_t , unsigned int > > : : iterator i ( maxPortByIp . begin ( ) ) ; i ! = maxPortByIp . end ( ) ; + + i ) {
unsigned int p = i - > second . second + k ;
if ( p > 65535 ) p - = 64511 ;
InetAddress pred ( & ( i - > first ) , 4 , p ) ;
if ( std : : find ( r . begin ( ) , r . end ( ) , pred ) = = r . end ( ) )
r . push_back ( pred ) ;
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}
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}
return r ;
}
return std : : vector < InetAddress > ( ) ;
}
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} // namespace ZeroTier