ZeroTierOne/node/Node.cpp

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/*
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* Copyright (c)2019 ZeroTier, Inc.
*
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* Use of this software is governed by the Business Source License included
* in the LICENSE.TXT file in the project's root directory.
*
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* Change Date: 2023-01-01
*
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* On the date above, in accordance with the Business Source License, use
* of this software will be governed by version 2.0 of the Apache License.
*/
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/****/
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <string.h>
#include <stdint.h>
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#include "Constants.hpp"
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#include "SharedPtr.hpp"
#include "Node.hpp"
#include "RuntimeEnvironment.hpp"
#include "NetworkController.hpp"
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#include "Switch.hpp"
#include "Multicaster.hpp"
#include "Topology.hpp"
#include "Buffer.hpp"
#include "Packet.hpp"
#include "Address.hpp"
#include "Identity.hpp"
#include "SelfAwareness.hpp"
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#include "Network.hpp"
#include "Trace.hpp"
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#include "ScopedPtr.hpp"
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namespace ZeroTier {
/****************************************************************************/
/* Public Node interface (C++, exposed via CAPI bindings) */
/****************************************************************************/
Node::Node(void *uptr,void *tptr,const struct ZT_Node_Callbacks *callbacks,int64_t now) :
_RR(this),
RR(&_RR),
_uPtr(uptr),
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_networks(8),
_now(now),
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_lastPing(0),
_lastHousekeepingRun(0),
_lastNetworkHousekeepingRun(0)
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{
memcpy(&_cb,callbacks,sizeof(ZT_Node_Callbacks));
_online = false;
memset(_expectingRepliesToBucketPtr,0,sizeof(_expectingRepliesToBucketPtr));
memset(_expectingRepliesTo,0,sizeof(_expectingRepliesTo));
memset(_lastIdentityVerification,0,sizeof(_lastIdentityVerification));
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uint64_t idtmp[2];
idtmp[0] = 0; idtmp[1] = 0;
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char tmp[2048];
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int n = stateObjectGet(tptr,ZT_STATE_OBJECT_IDENTITY_SECRET,idtmp,tmp,sizeof(tmp) - 1);
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if (n > 0) {
tmp[n] = (char)0;
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if (RR->identity.fromString(tmp)) {
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RR->identity.toString(false,RR->publicIdentityStr);
RR->identity.toString(true,RR->secretIdentityStr);
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} else {
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n = -1;
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}
}
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if (n <= 0) {
RR->identity.generate(Identity::C25519);
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RR->identity.toString(false,RR->publicIdentityStr);
RR->identity.toString(true,RR->secretIdentityStr);
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idtmp[0] = RR->identity.address().toInt(); idtmp[1] = 0;
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stateObjectPut(tptr,ZT_STATE_OBJECT_IDENTITY_SECRET,idtmp,RR->secretIdentityStr,(unsigned int)strlen(RR->secretIdentityStr));
stateObjectPut(tptr,ZT_STATE_OBJECT_IDENTITY_PUBLIC,idtmp,RR->publicIdentityStr,(unsigned int)strlen(RR->publicIdentityStr));
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} else {
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idtmp[0] = RR->identity.address().toInt(); idtmp[1] = 0;
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n = stateObjectGet(tptr,ZT_STATE_OBJECT_IDENTITY_PUBLIC,idtmp,tmp,sizeof(tmp) - 1);
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if ((n > 0)&&(n < (int)sizeof(RR->publicIdentityStr))&&(n < (int)sizeof(tmp))) {
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if (memcmp(tmp,RR->publicIdentityStr,n))
stateObjectPut(tptr,ZT_STATE_OBJECT_IDENTITY_PUBLIC,idtmp,RR->publicIdentityStr,(unsigned int)strlen(RR->publicIdentityStr));
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}
}
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char *m = (char *)0;
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try {
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const unsigned long ts = sizeof(Trace) + (((sizeof(Trace) & 0xf) != 0) ? (16 - (sizeof(Trace) & 0xf)) : 0);
const unsigned long sws = sizeof(Switch) + (((sizeof(Switch) & 0xf) != 0) ? (16 - (sizeof(Switch) & 0xf)) : 0);
const unsigned long mcs = sizeof(Multicaster) + (((sizeof(Multicaster) & 0xf) != 0) ? (16 - (sizeof(Multicaster) & 0xf)) : 0);
const unsigned long topologys = sizeof(Topology) + (((sizeof(Topology) & 0xf) != 0) ? (16 - (sizeof(Topology) & 0xf)) : 0);
const unsigned long sas = sizeof(SelfAwareness) + (((sizeof(SelfAwareness) & 0xf) != 0) ? (16 - (sizeof(SelfAwareness) & 0xf)) : 0);
m = reinterpret_cast<char *>(::malloc(16 + ts + sws + mcs + topologys + sas));
if (!m)
throw std::bad_alloc();
RR->rtmem = m;
while (((uintptr_t)m & 0xf) != 0) ++m;
RR->t = new (m) Trace(RR);
m += ts;
RR->sw = new (m) Switch(RR);
m += sws;
RR->mc = new (m) Multicaster(RR);
m += mcs;
RR->topology = new (m) Topology(RR,RR->identity);
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m += topologys;
RR->sa = new (m) SelfAwareness(RR);
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} catch ( ... ) {
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if (RR->sa) RR->sa->~SelfAwareness();
if (RR->topology) RR->topology->~Topology();
if (RR->mc) RR->mc->~Multicaster();
if (RR->sw) RR->sw->~Switch();
if (RR->t) RR->t->~Trace();
::free(m);
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throw;
}
postEvent(tptr,ZT_EVENT_UP);
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}
Node::~Node()
{
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{
Mutex::Lock _l(_networks_m);
_networks.clear(); // destroy all networks before shutdown
}
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if (RR->sa) RR->sa->~SelfAwareness();
if (RR->topology) RR->topology->~Topology();
if (RR->mc) RR->mc->~Multicaster();
if (RR->sw) RR->sw->~Switch();
if (RR->t) RR->t->~Trace();
::free(RR->rtmem);
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}
ZT_ResultCode Node::processWirePacket(
void *tptr,
int64_t now,
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int64_t localSocket,
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const struct sockaddr_storage *remoteAddress,
const void *packetData,
unsigned int packetLength,
volatile int64_t *nextBackgroundTaskDeadline)
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{
_now = now;
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RR->sw->onRemotePacket(tptr,localSocket,*(reinterpret_cast<const InetAddress *>(remoteAddress)),packetData,packetLength);
return ZT_RESULT_OK;
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}
ZT_ResultCode Node::processVirtualNetworkFrame(
void *tptr,
int64_t now,
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uint64_t nwid,
uint64_t sourceMac,
uint64_t destMac,
unsigned int etherType,
unsigned int vlanId,
const void *frameData,
unsigned int frameLength,
volatile int64_t *nextBackgroundTaskDeadline)
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{
_now = now;
SharedPtr<Network> nw(this->network(nwid));
if (nw) {
RR->sw->onLocalEthernet(tptr,nw,MAC(sourceMac),MAC(destMac),etherType,vlanId,frameData,frameLength);
return ZT_RESULT_OK;
} else return ZT_RESULT_ERROR_NETWORK_NOT_FOUND;
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}
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struct _processBackgroundTasks_ping_eachRoot
{
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Hashtable< void *,bool > roots;
int64_t now;
void *tPtr;
bool online;
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inline void operator()(const Root &root,const SharedPtr<Peer> &peer)
{
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unsigned int v4SendCount = 0,v6SendCount = 0;
peer->ping(tPtr,now,v4SendCount,v6SendCount);
const InetAddress *contactAddrs[2];
unsigned int contactAddrCount = 0;
if (v4SendCount == 0) {
if (*(contactAddrs[contactAddrCount] = &(root.pickPhysical(AF_INET))))
++contactAddrCount;
}
if (v6SendCount == 0) {
if (*(contactAddrs[contactAddrCount] = &(root.pickPhysical(AF_INET6))))
++contactAddrCount;
}
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for(unsigned int i=0;i<contactAddrCount;++i)
peer->sendHELLO(tPtr,-1,*contactAddrs[i],now);
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if (!online)
online = ((now - peer->lastReceive()) <= ((ZT_PEER_PING_PERIOD * 2) + 5000));
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roots.set((void *)peer.ptr(),true);
}
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};
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struct _processBackgroundTasks_ping_eachPeer
{
int64_t now;
void *tPtr;
Hashtable< void *,bool > *roots;
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inline void operator()(const SharedPtr<Peer> &peer)
{
if (!roots->contains((void *)peer.ptr())) {
unsigned int v4SendCount = 0,v6SendCount = 0;
peer->ping(tPtr,now,v4SendCount,v6SendCount);
}
}
};
ZT_ResultCode Node::processBackgroundTasks(void *tptr,int64_t now,volatile int64_t *nextBackgroundTaskDeadline)
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{
_now = now;
Mutex::Lock bl(_backgroundTasksLock);
// Initialize these on first call so these things happen just a few seconds after
// startup, since right at startup things are likely to not be ready to communicate
// at all yet.
if (_lastNetworkHousekeepingRun <= 0) _lastNetworkHousekeepingRun = now - (ZT_NETWORK_HOUSEKEEPING_PERIOD / 3);
if (_lastHousekeepingRun <= 0) _lastHousekeepingRun = now;
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if ((now - _lastPing) >= ZT_PEER_PING_PERIOD) {
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_lastPing = now;
try {
_processBackgroundTasks_ping_eachRoot rf;
rf.now = now;
rf.tPtr = tptr;
rf.online = false;
RR->topology->eachRoot(rf);
_processBackgroundTasks_ping_eachPeer pf;
pf.now = now;
pf.tPtr = tptr;
pf.roots = &rf.roots;
RR->topology->eachPeer(pf);
if (rf.online != _online) {
_online = rf.online;
postEvent(tptr,_online ? ZT_EVENT_ONLINE : ZT_EVENT_OFFLINE);
}
} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
}
}
if ((now - _lastNetworkHousekeepingRun) >= ZT_NETWORK_HOUSEKEEPING_PERIOD) {
_lastHousekeepingRun = now;
{
Mutex::Lock l(_networks_m);
Hashtable< uint64_t,SharedPtr<Network> >::Iterator i(_networks);
uint64_t *nwid = (uint64_t *)0;
SharedPtr<Network> *network = (SharedPtr<Network> *)0;
while (i.next(nwid,network)) {
(*network)->doPeriodicTasks(tptr,now);
}
}
RR->t->updateMemoizedSettings();
}
if ((now - _lastHousekeepingRun) >= ZT_HOUSEKEEPING_PERIOD) {
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_lastHousekeepingRun = now;
try {
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// Clean up any old local controller auth memoizations. This is an
// optimization for network controllers to know whether to accept
// or trust nodes without doing an extra cert check.
{
_localControllerAuthorizations_m.lock();
Hashtable< _LocalControllerAuth,int64_t >::Iterator i(_localControllerAuthorizations);
_LocalControllerAuth *k = (_LocalControllerAuth *)0;
int64_t *v = (int64_t *)0;
while (i.next(k,v)) {
if ((*v - now) > (ZT_NETWORK_AUTOCONF_DELAY * 3)) {
_localControllerAuthorizations.erase(*k);
}
}
_localControllerAuthorizations_m.unlock();
}
RR->topology->doPeriodicTasks(now);
RR->sa->clean(now);
RR->mc->clean(now);
} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
}
}
try {
*nextBackgroundTaskDeadline = now + (int64_t)std::max(std::min((unsigned long)ZT_MAX_TIMER_TASK_INTERVAL,RR->sw->doTimerTasks(tptr,now)),(unsigned long)ZT_MIN_TIMER_TASK_INTERVAL);
} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
}
return ZT_RESULT_OK;
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}
ZT_ResultCode Node::join(uint64_t nwid,void *uptr,void *tptr)
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{
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Mutex::Lock _l(_networks_m);
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SharedPtr<Network> &nw = _networks[nwid];
if (!nw)
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nw = SharedPtr<Network>(new Network(RR,tptr,nwid,uptr,(const NetworkConfig *)0));
return ZT_RESULT_OK;
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}
ZT_ResultCode Node::leave(uint64_t nwid,void **uptr,void *tptr)
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{
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ZT_VirtualNetworkConfig ctmp;
void **nUserPtr = (void **)0;
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{
Mutex::Lock _l(_networks_m);
SharedPtr<Network> *nw = _networks.get(nwid);
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RR->sw->removeNetworkQoSControlBlock(nwid);
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if (!nw)
return ZT_RESULT_OK;
if (uptr)
*uptr = (*nw)->userPtr();
(*nw)->externalConfig(&ctmp);
(*nw)->destroy();
nUserPtr = (*nw)->userPtr();
}
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if (nUserPtr)
RR->node->configureVirtualNetworkPort(tptr,nwid,nUserPtr,ZT_VIRTUAL_NETWORK_CONFIG_OPERATION_DESTROY,&ctmp);
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{
Mutex::Lock _l(_networks_m);
_networks.erase(nwid);
}
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uint64_t tmp[2];
tmp[0] = nwid; tmp[1] = 0;
RR->node->stateObjectDelete(tptr,ZT_STATE_OBJECT_NETWORK_CONFIG,tmp);
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return ZT_RESULT_OK;
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}
ZT_ResultCode Node::multicastSubscribe(void *tptr,uint64_t nwid,uint64_t multicastGroup,unsigned long multicastAdi)
{
SharedPtr<Network> nw(this->network(nwid));
if (nw) {
nw->multicastSubscribe(tptr,MulticastGroup(MAC(multicastGroup),(uint32_t)(multicastAdi & 0xffffffff)));
return ZT_RESULT_OK;
} else return ZT_RESULT_ERROR_NETWORK_NOT_FOUND;
}
ZT_ResultCode Node::multicastUnsubscribe(uint64_t nwid,uint64_t multicastGroup,unsigned long multicastAdi)
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{
SharedPtr<Network> nw(this->network(nwid));
if (nw) {
nw->multicastUnsubscribe(MulticastGroup(MAC(multicastGroup),(uint32_t)(multicastAdi & 0xffffffff)));
return ZT_RESULT_OK;
} else return ZT_RESULT_ERROR_NETWORK_NOT_FOUND;
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}
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uint64_t Node::address() const
{
return RR->identity.address().toInt();
}
void Node::status(ZT_NodeStatus *status) const
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{
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status->address = RR->identity.address().toInt();
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status->publicIdentity = RR->publicIdentityStr;
status->secretIdentity = RR->secretIdentityStr;
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status->online = _online ? 1 : 0;
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}
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struct _sortPeerPtrsByAddress { inline bool operator()(const SharedPtr<Peer> &a,const SharedPtr<Peer> &b) const { return (a->address() < b->address()); } };
ZT_PeerList *Node::peers() const
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{
std::vector< SharedPtr<Peer> > peers;
RR->topology->getAllPeers(peers);
std::sort(peers.begin(),peers.end(),_sortPeerPtrsByAddress());
char *buf = (char *)::malloc(sizeof(ZT_PeerList) + (sizeof(ZT_Peer) * peers.size()));
if (!buf)
return (ZT_PeerList *)0;
ZT_PeerList *pl = (ZT_PeerList *)buf;
pl->peers = (ZT_Peer *)(buf + sizeof(ZT_PeerList));
pl->peerCount = 0;
for(std::vector< SharedPtr<Peer> >::iterator pi(peers.begin());pi!=peers.end();++pi) {
ZT_Peer *p = &(pl->peers[pl->peerCount++]);
p->address = (*pi)->address().toInt();
p->hadAggregateLink = 0;
if ((*pi)->remoteVersionKnown()) {
p->versionMajor = (*pi)->remoteVersionMajor();
p->versionMinor = (*pi)->remoteVersionMinor();
p->versionRev = (*pi)->remoteVersionRevision();
} else {
p->versionMajor = -1;
p->versionMinor = -1;
p->versionRev = -1;
}
p->latency = (*pi)->latency(_now);
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if (p->latency >= 0xffff)
p->latency = -1;
p->role = RR->topology->isRoot((*pi)->identity()) ? ZT_PEER_ROLE_PLANET : ZT_PEER_ROLE_LEAF;
std::vector< SharedPtr<Path> > paths((*pi)->paths(_now));
SharedPtr<Path> bestp((*pi)->getAppropriatePath(_now,false));
p->hadAggregateLink |= (*pi)->hasAggregateLink();
p->pathCount = 0;
for(std::vector< SharedPtr<Path> >::iterator path(paths.begin());path!=paths.end();++path) {
memcpy(&(p->paths[p->pathCount].address),&((*path)->address()),sizeof(struct sockaddr_storage));
p->paths[p->pathCount].lastSend = (*path)->lastOut();
p->paths[p->pathCount].lastReceive = (*path)->lastIn();
p->paths[p->pathCount].trustedPathId = RR->topology->getOutboundPathTrust((*path)->address());
p->paths[p->pathCount].expired = 0;
p->paths[p->pathCount].preferred = ((*path) == bestp) ? 1 : 0;
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p->paths[p->pathCount].latency = (float)(*path)->latency();
p->paths[p->pathCount].packetDelayVariance = (*path)->packetDelayVariance();
p->paths[p->pathCount].throughputDisturbCoeff = (*path)->throughputDisturbanceCoefficient();
p->paths[p->pathCount].packetErrorRatio = (*path)->packetErrorRatio();
p->paths[p->pathCount].packetLossRatio = (*path)->packetLossRatio();
p->paths[p->pathCount].stability = (*path)->lastComputedStability();
p->paths[p->pathCount].throughput = (*path)->meanThroughput();
p->paths[p->pathCount].maxThroughput = (*path)->maxLifetimeThroughput();
p->paths[p->pathCount].allocation = (float)(*path)->allocation() / (float)255;
p->paths[p->pathCount].ifname = (*path)->getName();
++p->pathCount;
}
}
return pl;
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}
ZT_VirtualNetworkConfig *Node::networkConfig(uint64_t nwid) const
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{
Mutex::Lock _l(_networks_m);
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const SharedPtr<Network> *nw = _networks.get(nwid);
if (nw) {
ZT_VirtualNetworkConfig *nc = (ZT_VirtualNetworkConfig *)::malloc(sizeof(ZT_VirtualNetworkConfig));
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(*nw)->externalConfig(nc);
return nc;
}
return (ZT_VirtualNetworkConfig *)0;
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}
ZT_VirtualNetworkList *Node::networks() const
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{
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Mutex::Lock _l(_networks_m);
char *buf = (char *)::malloc(sizeof(ZT_VirtualNetworkList) + (sizeof(ZT_VirtualNetworkConfig) * _networks.size()));
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if (!buf)
return (ZT_VirtualNetworkList *)0;
ZT_VirtualNetworkList *nl = (ZT_VirtualNetworkList *)buf;
nl->networks = (ZT_VirtualNetworkConfig *)(buf + sizeof(ZT_VirtualNetworkList));
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nl->networkCount = 0;
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Hashtable< uint64_t,SharedPtr<Network> >::Iterator i(*const_cast< Hashtable< uint64_t,SharedPtr<Network> > *>(&_networks));
uint64_t *k = (uint64_t *)0;
SharedPtr<Network> *v = (SharedPtr<Network> *)0;
while (i.next(k,v))
(*v)->externalConfig(&(nl->networks[nl->networkCount++]));
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return nl;
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}
void Node::freeQueryResult(void *qr)
{
if (qr)
::free(qr);
}
int Node::addLocalInterfaceAddress(const struct sockaddr_storage *addr)
{
if (Path::isAddressValidForPath(*(reinterpret_cast<const InetAddress *>(addr)))) {
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Mutex::Lock _l(_localInterfaceAddresses_m);
if (std::find(_localInterfaceAddresses.begin(),_localInterfaceAddresses.end(),*(reinterpret_cast<const InetAddress *>(addr))) == _localInterfaceAddresses.end()) {
_localInterfaceAddresses.push_back(*(reinterpret_cast<const InetAddress *>(addr)));
return 1;
}
}
return 0;
}
void Node::clearLocalInterfaceAddresses()
{
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Mutex::Lock _l(_localInterfaceAddresses_m);
_localInterfaceAddresses.clear();
}
int Node::sendUserMessage(void *tptr,uint64_t dest,uint64_t typeId,const void *data,unsigned int len)
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{
try {
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if (RR->identity.address().toInt() != dest) {
Packet outp(Address(dest),RR->identity.address(),Packet::VERB_USER_MESSAGE);
outp.append(typeId);
outp.append(data,len);
outp.compress();
RR->sw->send(tptr,outp,true);
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return 1;
}
} catch ( ... ) {}
return 0;
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}
void Node::setController(void *networkControllerInstance)
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{
RR->localNetworkController = reinterpret_cast<NetworkController *>(networkControllerInstance);
if (networkControllerInstance)
RR->localNetworkController->init(RR->identity,this);
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}
/****************************************************************************/
/* Node methods used only within node/ */
/****************************************************************************/
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bool Node::shouldUsePathForZeroTierTraffic(void *tPtr,const Address &ztaddr,const int64_t localSocket,const InetAddress &remoteAddress)
{
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if (!Path::isAddressValidForPath(remoteAddress))
return false;
{
Mutex::Lock _l(_networks_m);
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Hashtable< uint64_t,SharedPtr<Network> >::Iterator i(_networks);
uint64_t *k = (uint64_t *)0;
SharedPtr<Network> *v = (SharedPtr<Network> *)0;
while (i.next(k,v)) {
if ((*v)->hasConfig()) {
for(unsigned int k=0;k<(*v)->config().staticIpCount;++k) {
if ((*v)->config().staticIps[k].containsAddress(remoteAddress))
return false;
}
}
}
}
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return ( (_cb.pathCheckFunction) ? (_cb.pathCheckFunction(reinterpret_cast<ZT_Node *>(this),_uPtr,tPtr,ztaddr.toInt(),localSocket,reinterpret_cast<const struct sockaddr_storage *>(&remoteAddress)) != 0) : true);
}
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ZT_ResultCode Node::setPhysicalPathConfiguration(const struct sockaddr_storage *pathNetwork, const ZT_PhysicalPathConfiguration *pathConfig)
{
RR->topology->setPhysicalPathConfiguration(pathNetwork,pathConfig);
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return ZT_RESULT_OK;
}
void Node::ncSendConfig(uint64_t nwid,uint64_t requestPacketId,const Address &destination,const NetworkConfig &nc,bool sendLegacyFormatConfig)
{
_localControllerAuthorizations_m.lock();
_localControllerAuthorizations[_LocalControllerAuth(nwid,destination)] = now();
_localControllerAuthorizations_m.unlock();
if (destination == RR->identity.address()) {
SharedPtr<Network> n(network(nwid));
if (!n) return;
n->setConfiguration((void *)0,nc,true);
} else {
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ScopedPtr< Dictionary<ZT_NETWORKCONFIG_DICT_CAPACITY> > dconf(new Dictionary<ZT_NETWORKCONFIG_DICT_CAPACITY>());
if (nc.toDictionary(*dconf,sendLegacyFormatConfig)) {
uint64_t configUpdateId = Utils::random();
if (!configUpdateId) ++configUpdateId;
const unsigned int totalSize = dconf->sizeBytes();
unsigned int chunkIndex = 0;
while (chunkIndex < totalSize) {
const unsigned int chunkLen = std::min(totalSize - chunkIndex,(unsigned int)(ZT_PROTO_MAX_PACKET_LENGTH - (ZT_PACKET_IDX_PAYLOAD + 256)));
Packet outp(destination,RR->identity.address(),(requestPacketId) ? Packet::VERB_OK : Packet::VERB_NETWORK_CONFIG);
if (requestPacketId) {
outp.append((unsigned char)Packet::VERB_NETWORK_CONFIG_REQUEST);
outp.append(requestPacketId);
}
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const unsigned int sigStart = outp.size();
outp.append(nwid);
outp.append((uint16_t)chunkLen);
outp.append((const void *)(dconf->data() + chunkIndex),chunkLen);
outp.append((uint8_t)0); // no flags
outp.append((uint64_t)configUpdateId);
outp.append((uint32_t)totalSize);
outp.append((uint32_t)chunkIndex);
uint8_t sig[256];
const unsigned int siglen = RR->identity.sign(reinterpret_cast<const uint8_t *>(outp.data()) + sigStart,outp.size() - sigStart,sig,sizeof(sig));
outp.append((uint8_t)1);
outp.append((uint16_t)siglen);
outp.append(sig,siglen);
outp.compress();
RR->sw->send((void *)0,outp,true);
chunkIndex += chunkLen;
}
}
}
}
void Node::ncSendRevocation(const Address &destination,const Revocation &rev)
{
if (destination == RR->identity.address()) {
SharedPtr<Network> n(network(rev.networkId()));
if (!n) return;
n->addCredential((void *)0,RR->identity.address(),rev);
} else {
Packet outp(destination,RR->identity.address(),Packet::VERB_NETWORK_CREDENTIALS);
outp.append((uint8_t)0x00);
outp.append((uint16_t)0);
outp.append((uint16_t)0);
outp.append((uint16_t)1);
rev.serialize(outp);
outp.append((uint16_t)0);
RR->sw->send((void *)0,outp,true);
}
}
void Node::ncSendError(uint64_t nwid,uint64_t requestPacketId,const Address &destination,NetworkController::ErrorCode errorCode)
{
if (destination == RR->identity.address()) {
SharedPtr<Network> n(network(nwid));
if (!n) return;
switch(errorCode) {
case NetworkController::NC_ERROR_OBJECT_NOT_FOUND:
case NetworkController::NC_ERROR_INTERNAL_SERVER_ERROR:
n->setNotFound();
break;
case NetworkController::NC_ERROR_ACCESS_DENIED:
n->setAccessDenied();
break;
default: break;
}
} else if (requestPacketId) {
Packet outp(destination,RR->identity.address(),Packet::VERB_ERROR);
outp.append((unsigned char)Packet::VERB_NETWORK_CONFIG_REQUEST);
outp.append(requestPacketId);
switch(errorCode) {
//case NetworkController::NC_ERROR_OBJECT_NOT_FOUND:
//case NetworkController::NC_ERROR_INTERNAL_SERVER_ERROR:
default:
outp.append((unsigned char)Packet::ERROR_OBJ_NOT_FOUND);
break;
case NetworkController::NC_ERROR_ACCESS_DENIED:
outp.append((unsigned char)Packet::ERROR_NETWORK_ACCESS_DENIED_);
break;
}
outp.append(nwid);
RR->sw->send((void *)0,outp,true);
} // else we can't send an ERROR() in response to nothing, so discard
}
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} // namespace ZeroTier
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/****************************************************************************/
/* CAPI bindings */
/****************************************************************************/
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extern "C" {
enum ZT_ResultCode ZT_Node_new(ZT_Node **node,void *uptr,void *tptr,const struct ZT_Node_Callbacks *callbacks,int64_t now)
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{
*node = (ZT_Node *)0;
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try {
*node = reinterpret_cast<ZT_Node *>(new ZeroTier::Node(uptr,tptr,callbacks,now));
return ZT_RESULT_OK;
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch (std::runtime_error &exc) {
return ZT_RESULT_FATAL_ERROR_DATA_STORE_FAILED;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
void ZT_Node_delete(ZT_Node *node)
{
try {
delete (reinterpret_cast<ZeroTier::Node *>(node));
} catch ( ... ) {}
}
enum ZT_ResultCode ZT_Node_processWirePacket(
ZT_Node *node,
void *tptr,
int64_t now,
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int64_t localSocket,
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const struct sockaddr_storage *remoteAddress,
const void *packetData,
unsigned int packetLength,
volatile int64_t *nextBackgroundTaskDeadline)
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{
try {
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return reinterpret_cast<ZeroTier::Node *>(node)->processWirePacket(tptr,now,localSocket,remoteAddress,packetData,packetLength,nextBackgroundTaskDeadline);
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_OK; // "OK" since invalid packets are simply dropped, but the system is still up
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}
}
enum ZT_ResultCode ZT_Node_processVirtualNetworkFrame(
ZT_Node *node,
void *tptr,
int64_t now,
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uint64_t nwid,
uint64_t sourceMac,
uint64_t destMac,
unsigned int etherType,
unsigned int vlanId,
const void *frameData,
unsigned int frameLength,
volatile int64_t *nextBackgroundTaskDeadline)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->processVirtualNetworkFrame(tptr,now,nwid,sourceMac,destMac,etherType,vlanId,frameData,frameLength,nextBackgroundTaskDeadline);
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
enum ZT_ResultCode ZT_Node_processBackgroundTasks(ZT_Node *node,void *tptr,int64_t now,volatile int64_t *nextBackgroundTaskDeadline)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->processBackgroundTasks(tptr,now,nextBackgroundTaskDeadline);
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
enum ZT_ResultCode ZT_Node_join(ZT_Node *node,uint64_t nwid,void *uptr,void *tptr)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->join(nwid,uptr,tptr);
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
enum ZT_ResultCode ZT_Node_leave(ZT_Node *node,uint64_t nwid,void **uptr,void *tptr)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->leave(nwid,uptr,tptr);
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
enum ZT_ResultCode ZT_Node_multicastSubscribe(ZT_Node *node,void *tptr,uint64_t nwid,uint64_t multicastGroup,unsigned long multicastAdi)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->multicastSubscribe(tptr,nwid,multicastGroup,multicastAdi);
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} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
enum ZT_ResultCode ZT_Node_multicastUnsubscribe(ZT_Node *node,uint64_t nwid,uint64_t multicastGroup,unsigned long multicastAdi)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->multicastUnsubscribe(nwid,multicastGroup,multicastAdi);
} catch (std::bad_alloc &exc) {
return ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY;
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} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
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}
}
uint64_t ZT_Node_address(ZT_Node *node)
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{
return reinterpret_cast<ZeroTier::Node *>(node)->address();
}
void ZT_Node_status(ZT_Node *node,ZT_NodeStatus *status)
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{
try {
reinterpret_cast<ZeroTier::Node *>(node)->status(status);
} catch ( ... ) {}
}
ZT_PeerList *ZT_Node_peers(ZT_Node *node)
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{
try {
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return reinterpret_cast<ZeroTier::Node *>(node)->peers();
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} catch ( ... ) {
return (ZT_PeerList *)0;
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}
}
ZT_VirtualNetworkConfig *ZT_Node_networkConfig(ZT_Node *node,uint64_t nwid)
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{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->networkConfig(nwid);
} catch ( ... ) {
return (ZT_VirtualNetworkConfig *)0;
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}
}
ZT_VirtualNetworkList *ZT_Node_networks(ZT_Node *node)
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{
try {
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return reinterpret_cast<ZeroTier::Node *>(node)->networks();
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} catch ( ... ) {
return (ZT_VirtualNetworkList *)0;
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}
}
void ZT_Node_freeQueryResult(ZT_Node *node,void *qr)
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{
try {
reinterpret_cast<ZeroTier::Node *>(node)->freeQueryResult(qr);
} catch ( ... ) {}
}
int ZT_Node_addLocalInterfaceAddress(ZT_Node *node,const struct sockaddr_storage *addr)
{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->addLocalInterfaceAddress(addr);
} catch ( ... ) {
return 0;
}
}
void ZT_Node_clearLocalInterfaceAddresses(ZT_Node *node)
{
try {
reinterpret_cast<ZeroTier::Node *>(node)->clearLocalInterfaceAddresses();
} catch ( ... ) {}
}
int ZT_Node_sendUserMessage(ZT_Node *node,void *tptr,uint64_t dest,uint64_t typeId,const void *data,unsigned int len)
2017-01-09 23:55:07 +00:00
{
try {
return reinterpret_cast<ZeroTier::Node *>(node)->sendUserMessage(tptr,dest,typeId,data,len);
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} catch ( ... ) {
return 0;
}
}
void ZT_Node_setController(ZT_Node *node,void *networkControllerInstance)
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{
try {
reinterpret_cast<ZeroTier::Node *>(node)->setController(networkControllerInstance);
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} catch ( ... ) {}
}
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enum ZT_ResultCode ZT_Node_setPhysicalPathConfiguration(ZT_Node *node,const struct sockaddr_storage *pathNetwork,const ZT_PhysicalPathConfiguration *pathConfig)
{
try {
2017-09-01 23:25:34 +00:00
return reinterpret_cast<ZeroTier::Node *>(node)->setPhysicalPathConfiguration(pathNetwork,pathConfig);
} catch ( ... ) {
return ZT_RESULT_FATAL_ERROR_INTERNAL;
}
}
2016-05-06 18:13:34 +00:00
void ZT_version(int *major,int *minor,int *revision)
2015-04-01 23:27:14 +00:00
{
if (major) *major = ZEROTIER_ONE_VERSION_MAJOR;
if (minor) *minor = ZEROTIER_ONE_VERSION_MINOR;
if (revision) *revision = ZEROTIER_ONE_VERSION_REVISION;
}
} // extern "C"