ZeroTierOne/node/Topology.cpp

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/*
* ZeroTier One - Network Virtualization Everywhere
2018-01-08 22:33:28 +00:00
* Copyright (C) 2011-2018 ZeroTier, Inc. https://www.zerotier.com/
*
* 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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*
* --
*
* You can be released from the requirements of the license by purchasing
* a commercial license. Buying such a license is mandatory as soon as you
* develop commercial closed-source software that incorporates or links
* directly against ZeroTier software without disclosing the source code
* of your own application.
*/
#include "Constants.hpp"
#include "Topology.hpp"
#include "RuntimeEnvironment.hpp"
#include "Node.hpp"
#include "Network.hpp"
#include "NetworkConfig.hpp"
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#include "Buffer.hpp"
#include "Switch.hpp"
namespace ZeroTier {
/*
* 2016-01-13 ZeroTier planet definition for the third planet of Sol:
*
* There are two roots, each of which is a cluster spread across multiple
* continents and providers. They are named Alice and Bob after the
* canonical example names used in cryptography.
*
* Alice:
*
* root-alice-ams-01: Amsterdam, Netherlands
* root-alice-joh-01: Johannesburg, South Africa
* root-alice-nyc-01: New York, New York, USA
* root-alice-sao-01: Sao Paolo, Brazil
* root-alice-sfo-01: San Francisco, California, USA
* root-alice-sgp-01: Singapore
*
* Bob:
*
* root-bob-dfw-01: Dallas, Texas, USA
* root-bob-fra-01: Frankfurt, Germany
* root-bob-par-01: Paris, France
* root-bob-syd-01: Sydney, Australia
* root-bob-tok-01: Tokyo, Japan
* root-bob-tor-01: Toronto, Canada
*/
#define ZT_DEFAULT_WORLD_LENGTH 634
static const unsigned char ZT_DEFAULT_WORLD[ZT_DEFAULT_WORLD_LENGTH] = {0x01,0x00,0x00,0x00,0x00,0x08,0xea,0xc9,0x0a,0x00,0x00,0x01,0x52,0x3c,0x32,0x50,0x1a,0xb8,0xb3,0x88,0xa4,0x69,0x22,0x14,0x91,0xaa,0x9a,0xcd,0x66,0xcc,0x76,0x4c,0xde,0xfd,0x56,0x03,0x9f,0x10,0x67,0xae,0x15,0xe6,0x9c,0x6f,0xb4,0x2d,0x7b,0x55,0x33,0x0e,0x3f,0xda,0xac,0x52,0x9c,0x07,0x92,0xfd,0x73,0x40,0xa6,0xaa,0x21,0xab,0xa8,0xa4,0x89,0xfd,0xae,0xa4,0x4a,0x39,0xbf,0x2d,0x00,0x65,0x9a,0xc9,0xc8,0x18,0xeb,0x4a,0xf7,0x86,0xa8,0x40,0xd6,0x52,0xea,0xae,0x9e,0x7a,0xbf,0x4c,0x97,0x66,0xab,0x2d,0x6f,0xaf,0xc9,0x2b,0x3a,0xff,0xed,0xd6,0x30,0x3e,0xc4,0x6a,0x65,0xf2,0xbd,0x83,0x52,0xf5,0x40,0xe9,0xcc,0x0d,0x6e,0x89,0x3f,0x9a,0xa0,0xb8,0xdf,0x42,0xd2,0x2f,0x84,0xe6,0x03,0x26,0x0f,0xa8,0xe3,0xcc,0x05,0x05,0x03,0xef,0x12,0x80,0x0d,0xce,0x3e,0xb6,0x58,0x3b,0x1f,0xa8,0xad,0xc7,0x25,0xf9,0x43,0x71,0xa7,0x5c,0x9a,0xc7,0xe1,0xa3,0xb8,0x88,0xd0,0x71,0x6c,0x94,0x99,0x73,0x41,0x0b,0x1b,0x48,0x84,0x02,0x9d,0x21,0x90,0x39,0xf3,0x00,0x01,0xf0,0x92,0x2a,0x98,0xe3,0xb3,0x4e,0xbc,0xbf,0xf3,0x33,0x26,0x9d,0xc2,0x65,0xd7,0xa0,0x20,0xaa,0xb6,0x9d,0x72,0xbe,0x4d,0x4a,0xcc,0x9c,0x8c,0x92,0x94,0x78,0x57,0x71,0x25,0x6c,0xd1,0xd9,0x42,0xa9,0x0d,0x1b,0xd1,0xd2,0xdc,0xa3,0xea,0x84,0xef,0x7d,0x85,0xaf,0xe6,0x61,0x1f,0xb4,0x3f,0xf0,0xb7,0x41,0x26,0xd9,0x0a,0x6e,0x00,0x0c,0x04,0xbc,0xa6,0x5e,0xb1,0x27,0x09,0x06,0x2a,0x03,0xb0,0xc0,0x00,0x02,0x00,0xd0,0x00,0x00,0x00,0x00,0x00,0x7d,0x00,0x01,0x27,0x09,0x04,0x9a,0x42,0xc5,0x21,0x27,0x09,0x06,0x2c,0x0f,0xf8,0x50,0x01,0x54,0x01,0x97,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x33,0x27,0x09,0x04,0x9f,0xcb,0x61,0xab,0x27,0x09,0x06,0x26,0x04,0xa8,0x80,0x08,0x00,0x00,0xa1,0x00,0x00,0x00,0x00,0x00,0x54,0x60,0x01,0x27,0x09,0x04,0xa9,0x39,0x8f,0x68,0x27,0x09,0x06,0x26,0x07,0xf0,0xd0,0x1d,0x01,0x00,0x57,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x02,0x27,0x09,0x04,0x6b,0xaa,0xc5,0x0e,0x27,0x09,0x06,0x26,0x04,0xa8,0x80,0x00,0x01,0x00,0x20,0x00,0x00,0x00,0x00,0x02,0x00,0xe0,0x01,0x27,0x09,0x04,0x80,0xc7,0xc5,0xd9,0x27,0x09,0x06,0x24,0x00,0x61,0x80,0x00,0x00,0x00,0xd0,0x00,0x00,0x00,0x00,0x00,0xb7,0x40,0x01,0x27,0x09,0x88,0x41,0x40,0x8a,0x2e,0x00,0xbb,0x1d,0x31,0xf2,0xc3,0x23,0xe2,0x64,0xe9,0xe6,0x41,0x72,0xc1,0xa7,0x4f,0x77,0x89,0x95,0x55,0xed,0x10,0x75,0x1c,0xd5,0x6e,0x86,0x40,0x5c,0xde,0x11,0x8d,0x02,0xdf,0xfe,0x55,0x5d,0x46,0x2c,0xcf,0x6a,0x85,0xb5,0x63,0x1c,0x12,0x35,0x0c,0x8d,0x5d,0xc4,0x09,0xba,0x10,0xb9,0x02,0x5d,0x0f,0x44,0x5c,0xf4,0x49,0xd9,0x2b,0x1c,0x00,0x0c,0x04,0x2d,0x20,0xc6,0x82,0x27,0x09,0x06,0x20,0x01,0x19,0xf0,0x64,0x00,0x81,0xc3,0x54,0x00,0x00,0xff,0xfe,0x18,0x1d,0x61,0x27,0x09,0x04,0x2e,0x65,0xa0,0xf9,0x27,0x09,0x06,0x2a,0x03,0xb0,0xc0,0x00,0x03,0x00,0xd0,0x00,0x00,0x00,0x00,0x00,0x6a,0x30,0x01,0x27,0x09,0x04,0x6b,0xbf,0x2e,0xd2,0x27,0x09,0x06,0x20,0x01,0x19,0xf0,0x68,0x00,0x83,0xa4,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x64,0x27,0x09,0x04,0x2d,0x20,0xf6,0xb3,0x27,0x09,0x06,0x20,0x01,0x19,0xf0,0x58,0x00,0x8b,0xf8,0x54,0x00,0x00,0xff,0xfe,0x15,0xb3,0x9a,0x27,0x09,0x04,0x2d,0x20,0xf8,0x57,0x27,0x09,0x06,0x20,0x01,0x19,0xf0,0x70,0x00,0x9b,0xc9,0x54,0x00,0x00,0xff,0xfe,0x15,0xc4,0xf5,0x27,0x09,0x04,0x9f,0xcb,0x02,0x9a,0x27,0x09,0x06,0x26,0x04,0xa8,0x80,0x0c,0xad,0x00,0xd0,0x00,0x00,0x00,0x00,0x00,0x26,0x70,0x01,0x27,0x09};
Topology::Topology(const RuntimeEnvironment *renv,void *tPtr) :
RR(renv),
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_numConfiguredPhysicalPaths(0),
_amUpstream(false)
{
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uint8_t tmp[ZT_WORLD_MAX_SERIALIZED_LENGTH];
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uint64_t idtmp[2];
idtmp[0] = 0; idtmp[1] = 0;
int n = RR->node->stateObjectGet(tPtr,ZT_STATE_OBJECT_PLANET,idtmp,tmp,sizeof(tmp));
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if (n > 0) {
try {
World cachedPlanet;
cachedPlanet.deserialize(Buffer<ZT_WORLD_MAX_SERIALIZED_LENGTH>(tmp,(unsigned int)n),0);
addWorld(tPtr,cachedPlanet,false);
} catch ( ... ) {} // ignore invalid cached planets
}
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World defaultPlanet;
{
Buffer<ZT_DEFAULT_WORLD_LENGTH> wtmp(ZT_DEFAULT_WORLD,ZT_DEFAULT_WORLD_LENGTH);
defaultPlanet.deserialize(wtmp,0); // throws on error, which would indicate a bad static variable up top
}
addWorld(tPtr,defaultPlanet,false);
}
Topology::~Topology()
{
Hashtable< Address,SharedPtr<Peer> >::Iterator i(_peers);
Address *a = (Address *)0;
SharedPtr<Peer> *p = (SharedPtr<Peer> *)0;
while (i.next(a,p))
_savePeer((void *)0,*p);
}
SharedPtr<Peer> Topology::addPeer(void *tPtr,const SharedPtr<Peer> &peer)
{
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SharedPtr<Peer> np;
{
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Mutex::Lock _l(_peers_m);
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SharedPtr<Peer> &hp = _peers[peer->address()];
if (!hp)
hp = peer;
np = hp;
}
return np;
}
SharedPtr<Peer> Topology::getPeer(void *tPtr,const Address &zta)
{
if (zta == RR->identity.address())
return SharedPtr<Peer>();
{
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Mutex::Lock _l(_peers_m);
const SharedPtr<Peer> *const ap = _peers.get(zta);
if (ap)
return *ap;
}
try {
Buffer<ZT_PEER_MAX_SERIALIZED_STATE_SIZE> buf;
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uint64_t idbuf[2]; idbuf[0] = zta.toInt(); idbuf[1] = 0;
int len = RR->node->stateObjectGet(tPtr,ZT_STATE_OBJECT_PEER,idbuf,buf.unsafeData(),ZT_PEER_MAX_SERIALIZED_STATE_SIZE);
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if (len > 0) {
buf.setSize(len);
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Mutex::Lock _l(_peers_m);
SharedPtr<Peer> &ap = _peers[zta];
if (ap)
return ap;
ap = Peer::deserializeFromCache(RR->node->now(),tPtr,buf,RR);
if (!ap) {
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_peers.erase(zta);
}
return SharedPtr<Peer>();
}
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} catch ( ... ) {} // ignore invalid identities or other strage failures
return SharedPtr<Peer>();
}
Identity Topology::getIdentity(void *tPtr,const Address &zta)
{
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if (zta == RR->identity.address()) {
return RR->identity;
} else {
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Mutex::Lock _l(_peers_m);
const SharedPtr<Peer> *const ap = _peers.get(zta);
if (ap)
return (*ap)->identity();
}
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return Identity();
}
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SharedPtr<Peer> Topology::getUpstreamPeer()
{
const int64_t now = RR->node->now();
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unsigned int bestq = ~((unsigned int)0);
const SharedPtr<Peer> *best = (const SharedPtr<Peer> *)0;
Mutex::Lock _l2(_peers_m);
Mutex::Lock _l1(_upstreams_m);
for(std::vector<Address>::const_iterator a(_upstreamAddresses.begin());a!=_upstreamAddresses.end();++a) {
const SharedPtr<Peer> *p = _peers.get(*a);
if (p) {
const unsigned int q = (*p)->relayQuality(now);
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if (q <= bestq) {
bestq = q;
best = p;
}
}
}
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if (!best)
return SharedPtr<Peer>();
return *best;
}
bool Topology::isUpstream(const Identity &id) const
{
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Mutex::Lock _l(_upstreams_m);
return (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),id.address()) != _upstreamAddresses.end());
}
bool Topology::shouldAcceptWorldUpdateFrom(const Address &addr) const
{
Mutex::Lock _l(_upstreams_m);
if (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),addr) != _upstreamAddresses.end())
return true;
for(std::vector< std::pair< uint64_t,Address> >::const_iterator s(_moonSeeds.begin());s!=_moonSeeds.end();++s) {
if (s->second == addr)
return true;
}
return false;
}
ZT_PeerRole Topology::role(const Address &ztaddr) const
{
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Mutex::Lock _l(_upstreams_m);
if (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),ztaddr) != _upstreamAddresses.end()) {
for(std::vector<World::Root>::const_iterator i(_planet.roots().begin());i!=_planet.roots().end();++i) {
if (i->identity.address() == ztaddr)
return ZT_PEER_ROLE_PLANET;
}
return ZT_PEER_ROLE_MOON;
}
return ZT_PEER_ROLE_LEAF;
}
bool Topology::isProhibitedEndpoint(const Address &ztaddr,const InetAddress &ipaddr) const
{
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Mutex::Lock _l(_upstreams_m);
// For roots the only permitted addresses are those defined. This adds just a little
// bit of extra security against spoofing, replaying, etc.
if (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),ztaddr) != _upstreamAddresses.end()) {
for(std::vector<World::Root>::const_iterator r(_planet.roots().begin());r!=_planet.roots().end();++r) {
if (r->identity.address() == ztaddr) {
if (r->stableEndpoints.size() == 0)
return false; // no stable endpoints specified, so allow dynamic paths
for(std::vector<InetAddress>::const_iterator e(r->stableEndpoints.begin());e!=r->stableEndpoints.end();++e) {
if (ipaddr.ipsEqual(*e))
return false;
}
}
}
for(std::vector<World>::const_iterator m(_moons.begin());m!=_moons.end();++m) {
for(std::vector<World::Root>::const_iterator r(m->roots().begin());r!=m->roots().end();++r) {
if (r->identity.address() == ztaddr) {
if (r->stableEndpoints.size() == 0)
return false; // no stable endpoints specified, so allow dynamic paths
for(std::vector<InetAddress>::const_iterator e(r->stableEndpoints.begin());e!=r->stableEndpoints.end();++e) {
if (ipaddr.ipsEqual(*e))
return false;
}
}
}
}
return true;
}
return false;
}
bool Topology::addWorld(void *tPtr,const World &newWorld,bool alwaysAcceptNew)
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{
if ((newWorld.type() != World::TYPE_PLANET)&&(newWorld.type() != World::TYPE_MOON))
return false;
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Mutex::Lock _l2(_peers_m);
Mutex::Lock _l1(_upstreams_m);
World *existing = (World *)0;
switch(newWorld.type()) {
case World::TYPE_PLANET:
existing = &_planet;
break;
case World::TYPE_MOON:
for(std::vector< World >::iterator m(_moons.begin());m!=_moons.end();++m) {
if (m->id() == newWorld.id()) {
existing = &(*m);
break;
}
}
break;
default:
return false;
}
if (existing) {
if (existing->shouldBeReplacedBy(newWorld))
*existing = newWorld;
else return false;
} else if (newWorld.type() == World::TYPE_MOON) {
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if (alwaysAcceptNew) {
_moons.push_back(newWorld);
existing = &(_moons.back());
} else {
for(std::vector< std::pair<uint64_t,Address> >::iterator m(_moonSeeds.begin());m!=_moonSeeds.end();++m) {
if (m->first == newWorld.id()) {
for(std::vector<World::Root>::const_iterator r(newWorld.roots().begin());r!=newWorld.roots().end();++r) {
if (r->identity.address() == m->second) {
_moonSeeds.erase(m);
_moons.push_back(newWorld);
existing = &(_moons.back());
break;
}
}
if (existing)
break;
}
}
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}
if (!existing)
return false;
} else {
return false;
}
try {
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Buffer<ZT_WORLD_MAX_SERIALIZED_LENGTH> sbuf;
existing->serialize(sbuf,false);
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uint64_t idtmp[2];
idtmp[0] = existing->id(); idtmp[1] = 0;
RR->node->stateObjectPut(tPtr,(existing->type() == World::TYPE_PLANET) ? ZT_STATE_OBJECT_PLANET : ZT_STATE_OBJECT_MOON,idtmp,sbuf.data(),sbuf.size());
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} catch ( ... ) {}
_memoizeUpstreams(tPtr);
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return true;
}
void Topology::addMoon(void *tPtr,const uint64_t id,const Address &seed)
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{
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char tmp[ZT_WORLD_MAX_SERIALIZED_LENGTH];
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uint64_t idtmp[2];
idtmp[0] = id; idtmp[1] = 0;
int n = RR->node->stateObjectGet(tPtr,ZT_STATE_OBJECT_MOON,idtmp,tmp,sizeof(tmp));
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if (n > 0) {
try {
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World w;
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w.deserialize(Buffer<ZT_WORLD_MAX_SERIALIZED_LENGTH>(tmp,(unsigned int)n));
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if ((w.type() == World::TYPE_MOON)&&(w.id() == id)) {
addWorld(tPtr,w,true);
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return;
}
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} catch ( ... ) {}
}
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if (seed) {
Mutex::Lock _l(_upstreams_m);
if (std::find(_moonSeeds.begin(),_moonSeeds.end(),std::pair<uint64_t,Address>(id,seed)) == _moonSeeds.end())
_moonSeeds.push_back(std::pair<uint64_t,Address>(id,seed));
}
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}
void Topology::removeMoon(void *tPtr,const uint64_t id)
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{
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Mutex::Lock _l2(_peers_m);
Mutex::Lock _l1(_upstreams_m);
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std::vector<World> nm;
for(std::vector<World>::const_iterator m(_moons.begin());m!=_moons.end();++m) {
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if (m->id() != id) {
nm.push_back(*m);
} else {
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uint64_t idtmp[2];
idtmp[0] = id; idtmp[1] = 0;
RR->node->stateObjectDelete(tPtr,ZT_STATE_OBJECT_MOON,idtmp);
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}
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}
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_moons.swap(nm);
std::vector< std::pair<uint64_t,Address> > cm;
for(std::vector< std::pair<uint64_t,Address> >::const_iterator m(_moonSeeds.begin());m!=_moonSeeds.end();++m) {
if (m->first != id)
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cm.push_back(*m);
}
_moonSeeds.swap(cm);
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_memoizeUpstreams(tPtr);
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}
void Topology::doPeriodicTasks(void *tPtr,int64_t now)
{
{
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Mutex::Lock _l1(_peers_m);
Mutex::Lock _l2(_upstreams_m);
Hashtable< Address,SharedPtr<Peer> >::Iterator i(_peers);
Address *a = (Address *)0;
SharedPtr<Peer> *p = (SharedPtr<Peer> *)0;
while (i.next(a,p)) {
if ( (!(*p)->isAlive(now)) && (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),*a) == _upstreamAddresses.end()) ) {
_savePeer(tPtr,*p);
_peers.erase(*a);
}
}
}
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{
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Mutex::Lock _l(_paths_m);
Hashtable< Path::HashKey,SharedPtr<Path> >::Iterator i(_paths);
Path::HashKey *k = (Path::HashKey *)0;
SharedPtr<Path> *p = (SharedPtr<Path> *)0;
while (i.next(k,p)) {
if (p->references() <= 1)
_paths.erase(*k);
}
}
}
void Topology::_memoizeUpstreams(void *tPtr)
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{
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// assumes _upstreams_m and _peers_m are locked
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_upstreamAddresses.clear();
_amUpstream = false;
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for(std::vector<World::Root>::const_iterator i(_planet.roots().begin());i!=_planet.roots().end();++i) {
if (i->identity == RR->identity) {
_amUpstream = true;
} else if (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),i->identity.address()) == _upstreamAddresses.end()) {
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_upstreamAddresses.push_back(i->identity.address());
SharedPtr<Peer> &hp = _peers[i->identity.address()];
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if (!hp)
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hp = new Peer(RR,RR->identity,i->identity);
}
}
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for(std::vector<World>::const_iterator m(_moons.begin());m!=_moons.end();++m) {
for(std::vector<World::Root>::const_iterator i(m->roots().begin());i!=m->roots().end();++i) {
if (i->identity == RR->identity) {
_amUpstream = true;
} else if (std::find(_upstreamAddresses.begin(),_upstreamAddresses.end(),i->identity.address()) == _upstreamAddresses.end()) {
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_upstreamAddresses.push_back(i->identity.address());
SharedPtr<Peer> &hp = _peers[i->identity.address()];
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if (!hp)
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hp = new Peer(RR,RR->identity,i->identity);
}
}
}
std::sort(_upstreamAddresses.begin(),_upstreamAddresses.end());
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}
void Topology::_savePeer(void *tPtr,const SharedPtr<Peer> &peer)
{
try {
Buffer<ZT_PEER_MAX_SERIALIZED_STATE_SIZE> buf;
peer->serializeForCache(buf);
uint64_t tmpid[2]; tmpid[0] = peer->address().toInt(); tmpid[1] = 0;
RR->node->stateObjectPut(tPtr,ZT_STATE_OBJECT_PEER,tmpid,buf.data(),buf.size());
} catch ( ... ) {} // sanity check, discard invalid entries
}
} // namespace ZeroTier