ZeroTierOne/node/Topology.hpp

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/*
* ZeroTier One - Network Virtualization Everywhere
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* Copyright (C) 2011-2019 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
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* 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.
*/
#ifndef ZT_TOPOLOGY_HPP
#define ZT_TOPOLOGY_HPP
#include <stdio.h>
#include <string.h>
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#include <vector>
#include <stdexcept>
#include <algorithm>
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#include <utility>
#include "Constants.hpp"
#include "../include/ZeroTierOne.h"
#include "Address.hpp"
#include "Identity.hpp"
#include "Peer.hpp"
#include "Path.hpp"
#include "Mutex.hpp"
#include "InetAddress.hpp"
#include "Hashtable.hpp"
namespace ZeroTier {
class RuntimeEnvironment;
/**
* Database of network topology
*/
class Topology
{
public:
inline Topology(const RuntimeEnvironment *renv,void *tPtr) :
RR(renv),
_numConfiguredPhysicalPaths(0) {}
inline ~Topology() {}
/**
* Add a peer to database
*
* This will not replace existing peers. In that case the existing peer
* record is returned.
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param peer Peer to add
* @return New or existing peer (should replace 'peer')
*/
inline SharedPtr<Peer> addPeer(void *tPtr,const SharedPtr<Peer> &peer)
{
SharedPtr<Peer> np;
{
Mutex::Lock _l(_peers_m);
SharedPtr<Peer> &hp = _peers[peer->address()];
if (!hp)
hp = peer;
np = hp;
}
return np;
}
/**
* Get a peer from its address
*
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param zta ZeroTier address of peer
* @return Peer or NULL if not found
*/
inline SharedPtr<Peer> getPeer(void *tPtr,const Address &zta) const
{
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);
return ((ap) ? *ap : SharedPtr<Peer>());
}
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/**
* @param tPtr Thread pointer to be handed through to any callbacks called as a result of this call
* @param zta ZeroTier address of peer
* @return Identity or NULL identity if not found
*/
inline Identity getIdentity(void *tPtr,const Address &zta)
{
if (zta == RR->identity.address()) {
return RR->identity;
} else {
Mutex::Lock _l(_peers_m);
const SharedPtr<Peer> *const ap = _peers.get(zta);
if (ap)
return (*ap)->identity();
}
return Identity();
}
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/**
* Get a peer only if it is presently in memory (no disk cache)
*
* This also does not update the lastUsed() time for peers, which means
* that it won't prevent them from falling out of RAM. This is currently
* used in the Cluster code to update peer info without forcing all peers
* across the entire cluster to remain in memory cache.
*
* @param zta ZeroTier address
*/
inline SharedPtr<Peer> getPeerNoCache(const Address &zta)
{
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Mutex::Lock _l(_peers_m);
const SharedPtr<Peer> *const ap = _peers.get(zta);
if (ap)
return *ap;
return SharedPtr<Peer>();
}
/**
* Get a Path object for a given local and remote physical address, creating if needed
*
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* @param l Local socket
* @param r Remote address
* @return Pointer to canonicalized Path object
*/
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inline SharedPtr<Path> getPath(const int64_t l,const InetAddress &r)
{
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Mutex::Lock _l(_paths_m);
SharedPtr<Path> &p = _paths[Path::HashKey(l,r)];
if (!p)
p.set(new Path(l,r));
return p;
}
inline SharedPtr<Peer> getUpstreamPeer() const
{
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// TODO
return SharedPtr<Peer>();
}
inline bool isUpstream(const Identity &id) const
{
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// TODO
return false;
}
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inline ZT_PeerRole role(const Address &ztaddr) const
{
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// TODO
return ZT_PEER_ROLE_LEAF;
}
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inline void getAlwaysContact(Hashtable< Address,std::vector<InetAddress> > &eps) const
{
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// TODO
}
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inline std::vector<Address> upstreamAddresses() const
{
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// TODO
return std::vector<Address>();
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}
inline void doPeriodicTasks(void *tPtr,int64_t now)
{
{
Mutex::Lock _l1(_peers_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)) {
_peers.erase(*a);
}
}
}
{
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);
}
}
}
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/**
* @param now Current time
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* @return Number of peers with active direct paths
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*/
inline unsigned long countActive(int64_t now) const
{
unsigned long cnt = 0;
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Mutex::Lock _l(_peers_m);
Hashtable< Address,SharedPtr<Peer> >::Iterator i(const_cast<Topology *>(this)->_peers);
Address *a = (Address *)0;
SharedPtr<Peer> *p = (SharedPtr<Peer> *)0;
while (i.next(a,p)) {
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const SharedPtr<Path> pp((*p)->getAppropriatePath(now,false));
if (pp)
++cnt;
}
return cnt;
}
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/**
* Apply a function or function object to all peers
*
* @param f Function to apply
* @tparam F Function or function object type
*/
template<typename F>
inline void eachPeer(F f)
{
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Mutex::Lock _l(_peers_m);
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Hashtable< Address,SharedPtr<Peer> >::Iterator i(_peers);
Address *a = (Address *)0;
SharedPtr<Peer> *p = (SharedPtr<Peer> *)0;
while (i.next(a,p)) {
f(*this,*((const SharedPtr<Peer> *)p));
}
}
/**
* @return All peers by address (unsorted)
*/
inline std::vector< std::pair< Address,SharedPtr<Peer> > > allPeers() const
{
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Mutex::Lock _l(_peers_m);
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return _peers.entries();
}
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/**
* Get info about a path
*
* The supplied result variables are not modified if no special config info is found.
*
* @param physicalAddress Physical endpoint address
* @param mtu Variable set to MTU
* @param trustedPathId Variable set to trusted path ID
*/
inline void getOutboundPathInfo(const InetAddress &physicalAddress,unsigned int &mtu,uint64_t &trustedPathId)
{
for(unsigned int i=0,j=_numConfiguredPhysicalPaths;i<j;++i) {
if (_physicalPathConfig[i].first.containsAddress(physicalAddress)) {
trustedPathId = _physicalPathConfig[i].second.trustedPathId;
mtu = _physicalPathConfig[i].second.mtu;
return;
}
}
}
/**
* Get the payload MTU for an outbound physical path (returns default if not configured)
*
* @param physicalAddress Physical endpoint address
* @return MTU
*/
inline unsigned int getOutboundPathMtu(const InetAddress &physicalAddress)
{
for(unsigned int i=0,j=_numConfiguredPhysicalPaths;i<j;++i) {
if (_physicalPathConfig[i].first.containsAddress(physicalAddress))
return _physicalPathConfig[i].second.mtu;
}
return ZT_DEFAULT_PHYSMTU;
}
/**
* Get the outbound trusted path ID for a physical address, or 0 if none
*
* @param physicalAddress Physical address to which we are sending the packet
* @return Trusted path ID or 0 if none (0 is not a valid trusted path ID)
*/
inline uint64_t getOutboundPathTrust(const InetAddress &physicalAddress)
{
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for(unsigned int i=0,j=_numConfiguredPhysicalPaths;i<j;++i) {
if (_physicalPathConfig[i].first.containsAddress(physicalAddress))
return _physicalPathConfig[i].second.trustedPathId;
}
return 0;
}
/**
* Check whether in incoming trusted path marked packet is valid
*
* @param physicalAddress Originating physical address
* @param trustedPathId Trusted path ID from packet (from MAC field)
*/
inline bool shouldInboundPathBeTrusted(const InetAddress &physicalAddress,const uint64_t trustedPathId)
{
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for(unsigned int i=0,j=_numConfiguredPhysicalPaths;i<j;++i) {
if ((_physicalPathConfig[i].second.trustedPathId == trustedPathId)&&(_physicalPathConfig[i].first.containsAddress(physicalAddress)))
return true;
}
return false;
}
/**
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* Set or clear physical path configuration (called via Node::setPhysicalPathConfiguration)
*/
inline void setPhysicalPathConfiguration(const struct sockaddr_storage *pathNetwork,const ZT_PhysicalPathConfiguration *pathConfig)
{
if (!pathNetwork) {
_numConfiguredPhysicalPaths = 0;
} else {
std::map<InetAddress,ZT_PhysicalPathConfiguration> cpaths;
for(unsigned int i=0,j=_numConfiguredPhysicalPaths;i<j;++i)
cpaths[_physicalPathConfig[i].first] = _physicalPathConfig[i].second;
if (pathConfig) {
ZT_PhysicalPathConfiguration pc(*pathConfig);
if (pc.mtu <= 0)
pc.mtu = ZT_DEFAULT_PHYSMTU;
else if (pc.mtu < ZT_MIN_PHYSMTU)
pc.mtu = ZT_MIN_PHYSMTU;
else if (pc.mtu > ZT_MAX_PHYSMTU)
pc.mtu = ZT_MAX_PHYSMTU;
cpaths[*(reinterpret_cast<const InetAddress *>(pathNetwork))] = pc;
} else {
cpaths.erase(*(reinterpret_cast<const InetAddress *>(pathNetwork)));
}
unsigned int cnt = 0;
for(std::map<InetAddress,ZT_PhysicalPathConfiguration>::const_iterator i(cpaths.begin());((i!=cpaths.end())&&(cnt<ZT_MAX_CONFIGURABLE_PATHS));++i) {
_physicalPathConfig[cnt].first = i->first;
_physicalPathConfig[cnt].second = i->second;
++cnt;
}
_numConfiguredPhysicalPaths = cnt;
}
}
private:
const RuntimeEnvironment *const RR;
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std::pair<InetAddress,ZT_PhysicalPathConfiguration> _physicalPathConfig[ZT_MAX_CONFIGURABLE_PATHS];
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unsigned int _numConfiguredPhysicalPaths;
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Hashtable< Address,SharedPtr<Peer> > _peers;
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Mutex _peers_m;
Hashtable< Path::HashKey,SharedPtr<Path> > _paths;
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Mutex _paths_m;
};
} // namespace ZeroTier
#endif