mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-21 05:53:09 +00:00
211 lines
7.4 KiB
C++
211 lines
7.4 KiB
C++
/*
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* ZeroTier One - Network Virtualization Everywhere
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* Copyright (C) 2011-2018 ZeroTier, Inc. https://www.zerotier.com/
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* --
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*
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* You can be released from the requirements of the license by purchasing
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* a commercial license. Buying such a license is mandatory as soon as you
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* develop commercial closed-source software that incorporates or links
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* directly against ZeroTier software without disclosing the source code
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* of your own application.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <set>
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#include <vector>
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#include "Constants.hpp"
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#include "SelfAwareness.hpp"
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#include "RuntimeEnvironment.hpp"
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#include "Node.hpp"
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#include "Topology.hpp"
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#include "Packet.hpp"
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#include "Peer.hpp"
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#include "Switch.hpp"
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#include "Trace.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
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{
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public:
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_ResetWithinScope(void *tPtr,int64_t now,int inetAddressFamily,InetAddress::IpScope scope) :
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_now(now),
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_tPtr(tPtr),
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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(_tPtr,_scope,_family,_now); }
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private:
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uint64_t _now;
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void *_tPtr;
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int _family;
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InetAddress::IpScope _scope;
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};
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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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}
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void SelfAwareness::iam(void *tPtr,const Address &reporter,const int64_t receivedOnLocalSocket,const InetAddress &reporterPhysicalAddress,const InetAddress &myPhysicalAddress,bool trusted,int64_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,receivedOnLocalSocket,reporterPhysicalAddress,scope)];
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if ( (trusted) && ((now - entry.ts) < ZT_SELFAWARENESS_ENTRY_TIMEOUT) && (!entry.mySurface.ipsEqual(myPhysicalAddress)) ) {
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// Changes to external surface reported by trusted peers causes path reset in this scope
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RR->t->resettingPathsInScope(tPtr,reporter,reporterPhysicalAddress,myPhysicalAddress,scope);
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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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// 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.
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// Don't use 'entry' after this since hash table gets modified.
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{
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Hashtable< PhySurfaceKey,PhySurfaceEntry >::Iterator i(_phy);
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PhySurfaceKey *k = (PhySurfaceKey *)0;
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PhySurfaceEntry *e = (PhySurfaceEntry *)0;
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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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}
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// Reset all paths within this scope and address family
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_ResetWithinScope rset(tPtr,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(int64_t now)
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{
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Mutex::Lock _l(_phy_m);
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Hashtable< PhySurfaceKey,PhySurfaceEntry >::Iterator i(_phy);
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PhySurfaceKey *k = (PhySurfaceKey *)0;
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PhySurfaceEntry *e = (PhySurfaceEntry *)0;
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while (i.next(k,e)) {
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if ((now - e->ts) >= ZT_SELFAWARENESS_ENTRY_TIMEOUT)
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_phy.erase(*k);
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}
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}
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std::vector<InetAddress> SelfAwareness::getSymmetricNatPredictions()
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{
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/* This is based on ideas and strategies found here:
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* https://tools.ietf.org/html/draft-takeda-symmetric-nat-traversal-00
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*
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* For each IP address reported by a trusted (upstream) peer, we find
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* the external port most recently reported by ANY peer for that IP.
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*
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* We only do any of this for global IPv4 addresses since private IPs
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* and IPv6 are not going to have symmetric NAT.
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*
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* SECURITY NOTE:
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*
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* We never use IPs reported by non-trusted peers, since this could lead
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* to a minor vulnerability whereby a peer could poison our cache with
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* bad external surface reports via OK(HELLO) and then possibly coax us
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* into suggesting their IP to other peers via PUSH_DIRECT_PATHS. This
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* in turn could allow them to MITM flows.
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*
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* Since flows are encrypted and authenticated they could not actually
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* read or modify traffic, but they could gather meta-data for forensics
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* purposes or use this as a DOS attack vector. */
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std::map< uint32_t,unsigned int > maxPortByIp;
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InetAddress theOneTrueSurface;
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{
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Mutex::Lock _l(_phy_m);
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// First check to see if this is a symmetric NAT and enumerate external IPs learned from trusted peers
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bool symmetric = false;
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{
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Hashtable< PhySurfaceKey,PhySurfaceEntry >::Iterator i(_phy);
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PhySurfaceKey *k = (PhySurfaceKey *)0;
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PhySurfaceEntry *e = (PhySurfaceEntry *)0;
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while (i.next(k,e)) {
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if ((e->trusted)&&(e->mySurface.ss_family == AF_INET)&&(e->mySurface.ipScope() == InetAddress::IP_SCOPE_GLOBAL)) {
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if (!theOneTrueSurface)
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theOneTrueSurface = e->mySurface;
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else if (theOneTrueSurface != e->mySurface)
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symmetric = true;
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maxPortByIp[reinterpret_cast<const struct sockaddr_in *>(&(e->mySurface))->sin_addr.s_addr] = e->mySurface.port();
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}
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}
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}
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if (!symmetric)
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return std::vector<InetAddress>();
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{ // Then find the highest issued port per IP
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Hashtable< PhySurfaceKey,PhySurfaceEntry >::Iterator i(_phy);
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PhySurfaceKey *k = (PhySurfaceKey *)0;
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PhySurfaceEntry *e = (PhySurfaceEntry *)0;
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while (i.next(k,e)) {
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if ((e->mySurface.ss_family == AF_INET)&&(e->mySurface.ipScope() == InetAddress::IP_SCOPE_GLOBAL)) {
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const unsigned int port = e->mySurface.port();
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std::map< uint32_t,unsigned int >::iterator mp(maxPortByIp.find(reinterpret_cast<const struct sockaddr_in *>(&(e->mySurface))->sin_addr.s_addr));
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if ((mp != maxPortByIp.end())&&(mp->second < port))
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mp->second = port;
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}
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}
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}
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}
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std::vector<InetAddress> r;
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// Try next port up from max for each
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for(std::map< uint32_t,unsigned int >::iterator i(maxPortByIp.begin());i!=maxPortByIp.end();++i) {
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unsigned int p = i->second + 1;
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if (p > 65535) p -= 64511;
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const InetAddress pred(&(i->first),4,p);
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if (std::find(r.begin(),r.end(),pred) == r.end())
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r.push_back(pred);
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}
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// Try a random port for each -- there are only 65535 so eventually it should work
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for(std::map< uint32_t,unsigned int >::iterator i(maxPortByIp.begin());i!=maxPortByIp.end();++i) {
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const InetAddress pred(&(i->first),4,1024 + ((unsigned int)RR->node->prng() % 64511));
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if (std::find(r.begin(),r.end(),pred) == r.end())
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r.push_back(pred);
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}
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return r;
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}
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} // namespace ZeroTier
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