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- /*
- * ZeroTier One - Network Virtualization Everywhere
- * Copyright (C) 2011-2016 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/>.
- */
- #ifdef ZT_ENABLE_CLUSTER
- #include <stdint.h>
- #include <stdio.h>
- #include <stdlib.h>
- #include <string.h>
- #include <math.h>
- #include <map>
- #include <algorithm>
- #include <set>
- #include <utility>
- #include <list>
- #include <stdexcept>
- #include "../version.h"
- #include "Cluster.hpp"
- #include "RuntimeEnvironment.hpp"
- #include "MulticastGroup.hpp"
- #include "CertificateOfMembership.hpp"
- #include "Salsa20.hpp"
- #include "Poly1305.hpp"
- #include "Identity.hpp"
- #include "Topology.hpp"
- #include "Packet.hpp"
- #include "Switch.hpp"
- #include "Node.hpp"
- #include "Array.hpp"
- namespace ZeroTier {
- static inline double _dist3d(int x1,int y1,int z1,int x2,int y2,int z2)
- throw()
- {
- double dx = ((double)x2 - (double)x1);
- double dy = ((double)y2 - (double)y1);
- double dz = ((double)z2 - (double)z1);
- return sqrt((dx * dx) + (dy * dy) + (dz * dz));
- }
- // An entry in _ClusterSendQueue
- struct _ClusterSendQueueEntry
- {
- uint64_t timestamp;
- Address fromPeerAddress;
- Address toPeerAddress;
- // if we ever support larger transport MTUs this must be increased
- unsigned char data[ZT_CLUSTER_SEND_QUEUE_DATA_MAX];
- unsigned int len;
- bool unite;
- };
- // A multi-index map with entry memory pooling -- this allows our queue to
- // be O(log(N)) and is complex enough that it makes the code a lot cleaner
- // to break it out from Cluster.
- class _ClusterSendQueue
- {
- public:
- _ClusterSendQueue() :
- _poolCount(0) {}
- ~_ClusterSendQueue() {} // memory is automatically freed when _chunks is destroyed
- inline void enqueue(uint64_t now,const Address &from,const Address &to,const void *data,unsigned int len,bool unite)
- {
- if (len > ZT_CLUSTER_SEND_QUEUE_DATA_MAX)
- return;
- Mutex::Lock _l(_lock);
- // Delete oldest queue entry for this sender if this enqueue() would take them over the per-sender limit
- {
- std::set< std::pair<Address,_ClusterSendQueueEntry *> >::iterator qi(_bySrc.lower_bound(std::pair<Address,_ClusterSendQueueEntry *>(from,(_ClusterSendQueueEntry *)0)));
- std::set< std::pair<Address,_ClusterSendQueueEntry *> >::iterator oldest(qi);
- unsigned long countForSender = 0;
- while ((qi != _bySrc.end())&&(qi->first == from)) {
- if (qi->second->timestamp < oldest->second->timestamp)
- oldest = qi;
- ++countForSender;
- ++qi;
- }
- if (countForSender >= ZT_CLUSTER_MAX_QUEUE_PER_SENDER) {
- _byDest.erase(std::pair<Address,_ClusterSendQueueEntry *>(oldest->second->toPeerAddress,oldest->second));
- _pool[_poolCount++] = oldest->second;
- _bySrc.erase(oldest);
- }
- }
- _ClusterSendQueueEntry *e;
- if (_poolCount > 0) {
- e = _pool[--_poolCount];
- } else {
- if (_chunks.size() >= ZT_CLUSTER_MAX_QUEUE_CHUNKS)
- return; // queue is totally full!
- _chunks.push_back(Array<_ClusterSendQueueEntry,ZT_CLUSTER_QUEUE_CHUNK_SIZE>());
- e = &(_chunks.back().data[0]);
- for(unsigned int i=1;i<ZT_CLUSTER_QUEUE_CHUNK_SIZE;++i)
- _pool[_poolCount++] = &(_chunks.back().data[i]);
- }
- e->timestamp = now;
- e->fromPeerAddress = from;
- e->toPeerAddress = to;
- memcpy(e->data,data,len);
- e->len = len;
- e->unite = unite;
- _bySrc.insert(std::pair<Address,_ClusterSendQueueEntry *>(from,e));
- _byDest.insert(std::pair<Address,_ClusterSendQueueEntry *>(to,e));
- }
- inline void expire(uint64_t now)
- {
- Mutex::Lock _l(_lock);
- for(std::set< std::pair<Address,_ClusterSendQueueEntry *> >::iterator qi(_bySrc.begin());qi!=_bySrc.end();) {
- if ((now - qi->second->timestamp) > ZT_CLUSTER_QUEUE_EXPIRATION) {
- _byDest.erase(std::pair<Address,_ClusterSendQueueEntry *>(qi->second->toPeerAddress,qi->second));
- _pool[_poolCount++] = qi->second;
- _bySrc.erase(qi++);
- } else ++qi;
- }
- }
- /**
- * Get and dequeue entries for a given destination address
- *
- * After use these entries must be returned with returnToPool()!
- *
- * @param dest Destination address
- * @param results Array to fill with results
- * @param maxResults Size of results[] in pointers
- * @return Number of actual results returned
- */
- inline unsigned int getByDest(const Address &dest,_ClusterSendQueueEntry **results,unsigned int maxResults)
- {
- unsigned int count = 0;
- Mutex::Lock _l(_lock);
- std::set< std::pair<Address,_ClusterSendQueueEntry *> >::iterator qi(_byDest.lower_bound(std::pair<Address,_ClusterSendQueueEntry *>(dest,(_ClusterSendQueueEntry *)0)));
- while ((qi != _byDest.end())&&(qi->first == dest)) {
- _bySrc.erase(std::pair<Address,_ClusterSendQueueEntry *>(qi->second->fromPeerAddress,qi->second));
- results[count++] = qi->second;
- if (count == maxResults)
- break;
- _byDest.erase(qi++);
- }
- return count;
- }
- /**
- * Return entries to pool after use
- *
- * @param entries Array of entries
- * @param count Number of entries
- */
- inline void returnToPool(_ClusterSendQueueEntry **entries,unsigned int count)
- {
- Mutex::Lock _l(_lock);
- for(unsigned int i=0;i<count;++i)
- _pool[_poolCount++] = entries[i];
- }
- private:
- std::list< Array<_ClusterSendQueueEntry,ZT_CLUSTER_QUEUE_CHUNK_SIZE> > _chunks;
- _ClusterSendQueueEntry *_pool[ZT_CLUSTER_QUEUE_CHUNK_SIZE * ZT_CLUSTER_MAX_QUEUE_CHUNKS];
- unsigned long _poolCount;
- std::set< std::pair<Address,_ClusterSendQueueEntry *> > _bySrc;
- std::set< std::pair<Address,_ClusterSendQueueEntry *> > _byDest;
- Mutex _lock;
- };
- Cluster::Cluster(
- const RuntimeEnvironment *renv,
- uint16_t id,
- const std::vector<InetAddress> &zeroTierPhysicalEndpoints,
- int32_t x,
- int32_t y,
- int32_t z,
- void (*sendFunction)(void *,unsigned int,const void *,unsigned int),
- void *sendFunctionArg,
- int (*addressToLocationFunction)(void *,const struct sockaddr_storage *,int *,int *,int *),
- void *addressToLocationFunctionArg) :
- RR(renv),
- _sendQueue(new _ClusterSendQueue()),
- _sendFunction(sendFunction),
- _sendFunctionArg(sendFunctionArg),
- _addressToLocationFunction(addressToLocationFunction),
- _addressToLocationFunctionArg(addressToLocationFunctionArg),
- _x(x),
- _y(y),
- _z(z),
- _id(id),
- _zeroTierPhysicalEndpoints(zeroTierPhysicalEndpoints),
- _members(new _Member[ZT_CLUSTER_MAX_MEMBERS]),
- _lastFlushed(0),
- _lastCleanedRemotePeers(0),
- _lastCleanedQueue(0)
- {
- uint16_t stmp[ZT_SHA512_DIGEST_LEN / sizeof(uint16_t)];
- // Generate master secret by hashing the secret from our Identity key pair
- RR->identity.sha512PrivateKey(_masterSecret);
- // Generate our inbound message key, which is the master secret XORed with our ID and hashed twice
- memcpy(stmp,_masterSecret,sizeof(stmp));
- stmp[0] ^= Utils::hton(id);
- SHA512::hash(stmp,stmp,sizeof(stmp));
- SHA512::hash(stmp,stmp,sizeof(stmp));
- memcpy(_key,stmp,sizeof(_key));
- Utils::burn(stmp,sizeof(stmp));
- }
- Cluster::~Cluster()
- {
- Utils::burn(_masterSecret,sizeof(_masterSecret));
- Utils::burn(_key,sizeof(_key));
- delete [] _members;
- delete _sendQueue;
- }
- void Cluster::handleIncomingStateMessage(const void *msg,unsigned int len)
- {
- Buffer<ZT_CLUSTER_MAX_MESSAGE_LENGTH> dmsg;
- {
- // FORMAT: <[16] iv><[8] MAC><... data>
- if ((len < 24)||(len > ZT_CLUSTER_MAX_MESSAGE_LENGTH))
- return;
- // 16-byte IV: first 8 bytes XORed with key, last 8 bytes used as Salsa20 64-bit IV
- char keytmp[32];
- memcpy(keytmp,_key,32);
- for(int i=0;i<8;++i)
- keytmp[i] ^= reinterpret_cast<const char *>(msg)[i];
- Salsa20 s20(keytmp,256,reinterpret_cast<const char *>(msg) + 8);
- Utils::burn(keytmp,sizeof(keytmp));
- // One-time-use Poly1305 key from first 32 bytes of Salsa20 keystream (as per DJB/NaCl "standard")
- char polykey[ZT_POLY1305_KEY_LEN];
- memset(polykey,0,sizeof(polykey));
- s20.encrypt12(polykey,polykey,sizeof(polykey));
- // Compute 16-byte MAC
- char mac[ZT_POLY1305_MAC_LEN];
- Poly1305::compute(mac,reinterpret_cast<const char *>(msg) + 24,len - 24,polykey);
- // Check first 8 bytes of MAC against 64-bit MAC in stream
- if (!Utils::secureEq(mac,reinterpret_cast<const char *>(msg) + 16,8))
- return;
- // Decrypt!
- dmsg.setSize(len - 24);
- s20.decrypt12(reinterpret_cast<const char *>(msg) + 24,const_cast<void *>(dmsg.data()),dmsg.size());
- }
- if (dmsg.size() < 4)
- return;
- const uint16_t fromMemberId = dmsg.at<uint16_t>(0);
- unsigned int ptr = 2;
- if (fromMemberId == _id) // sanity check: we don't talk to ourselves
- return;
- const uint16_t toMemberId = dmsg.at<uint16_t>(ptr);
- ptr += 2;
- if (toMemberId != _id) // sanity check: message not for us?
- return;
- { // make sure sender is actually considered a member
- Mutex::Lock _l3(_memberIds_m);
- if (std::find(_memberIds.begin(),_memberIds.end(),fromMemberId) == _memberIds.end())
- return;
- }
- try {
- while (ptr < dmsg.size()) {
- const unsigned int mlen = dmsg.at<uint16_t>(ptr); ptr += 2;
- const unsigned int nextPtr = ptr + mlen;
- if (nextPtr > dmsg.size())
- break;
- int mtype = -1;
- try {
- switch((StateMessageType)(mtype = (int)dmsg[ptr++])) {
- default:
- break;
- case CLUSTER_MESSAGE_ALIVE: {
- _Member &m = _members[fromMemberId];
- Mutex::Lock mlck(m.lock);
- ptr += 7; // skip version stuff, not used yet
- m.x = dmsg.at<int32_t>(ptr); ptr += 4;
- m.y = dmsg.at<int32_t>(ptr); ptr += 4;
- m.z = dmsg.at<int32_t>(ptr); ptr += 4;
- ptr += 8; // skip local clock, not used
- m.load = dmsg.at<uint64_t>(ptr); ptr += 8;
- m.peers = dmsg.at<uint64_t>(ptr); ptr += 8;
- ptr += 8; // skip flags, unused
- #ifdef ZT_TRACE
- std::string addrs;
- #endif
- unsigned int physicalAddressCount = dmsg[ptr++];
- m.zeroTierPhysicalEndpoints.clear();
- for(unsigned int i=0;i<physicalAddressCount;++i) {
- m.zeroTierPhysicalEndpoints.push_back(InetAddress());
- ptr += m.zeroTierPhysicalEndpoints.back().deserialize(dmsg,ptr);
- if (!(m.zeroTierPhysicalEndpoints.back())) {
- m.zeroTierPhysicalEndpoints.pop_back();
- }
- #ifdef ZT_TRACE
- else {
- if (addrs.length() > 0)
- addrs.push_back(',');
- addrs.append(m.zeroTierPhysicalEndpoints.back().toString());
- }
- #endif
- }
- #ifdef ZT_TRACE
- if ((RR->node->now() - m.lastReceivedAliveAnnouncement) >= ZT_CLUSTER_TIMEOUT) {
- TRACE("[%u] I'm alive! peers close to %d,%d,%d can be redirected to: %s",(unsigned int)fromMemberId,m.x,m.y,m.z,addrs.c_str());
- }
- #endif
- m.lastReceivedAliveAnnouncement = RR->node->now();
- } break;
- case CLUSTER_MESSAGE_HAVE_PEER: {
- Identity id;
- ptr += id.deserialize(dmsg,ptr);
- if (id) {
- RR->topology->saveIdentity(id);
- {
- Mutex::Lock _l(_remotePeers_m);
- _remotePeers[std::pair<Address,unsigned int>(id.address(),(unsigned int)fromMemberId)] = RR->node->now();
- }
- _ClusterSendQueueEntry *q[16384]; // 16384 is "tons"
- unsigned int qc = _sendQueue->getByDest(id.address(),q,16384);
- for(unsigned int i=0;i<qc;++i)
- this->sendViaCluster(q[i]->fromPeerAddress,q[i]->toPeerAddress,q[i]->data,q[i]->len,q[i]->unite);
- _sendQueue->returnToPool(q,qc);
- TRACE("[%u] has %s (retried %u queued sends)",(unsigned int)fromMemberId,id.address().toString().c_str(),qc);
- }
- } break;
- case CLUSTER_MESSAGE_WANT_PEER: {
- const Address zeroTierAddress(dmsg.field(ptr,ZT_ADDRESS_LENGTH),ZT_ADDRESS_LENGTH); ptr += ZT_ADDRESS_LENGTH;
- SharedPtr<Peer> peer(RR->topology->getPeerNoCache(zeroTierAddress));
- if ( (peer) && (peer->hasClusterOptimalPath(RR->node->now())) ) {
- Buffer<1024> buf;
- peer->identity().serialize(buf);
- Mutex::Lock _l2(_members[fromMemberId].lock);
- _send(fromMemberId,CLUSTER_MESSAGE_HAVE_PEER,buf.data(),buf.size());
- }
- } break;
- case CLUSTER_MESSAGE_REMOTE_PACKET: {
- const unsigned int plen = dmsg.at<uint16_t>(ptr); ptr += 2;
- if (plen) {
- Packet remotep(dmsg.field(ptr,plen),plen); ptr += plen;
- //TRACE("remote %s from %s via %u (%u bytes)",Packet::verbString(remotep.verb()),remotep.source().toString().c_str(),fromMemberId,plen);
- switch(remotep.verb()) {
- case Packet::VERB_WHOIS: _doREMOTE_WHOIS(fromMemberId,remotep); break;
- case Packet::VERB_MULTICAST_GATHER: _doREMOTE_MULTICAST_GATHER(fromMemberId,remotep); break;
- default: break; // ignore things we don't care about across cluster
- }
- }
- } break;
- case CLUSTER_MESSAGE_PROXY_UNITE: {
- const Address localPeerAddress(dmsg.field(ptr,ZT_ADDRESS_LENGTH),ZT_ADDRESS_LENGTH); ptr += ZT_ADDRESS_LENGTH;
- const Address remotePeerAddress(dmsg.field(ptr,ZT_ADDRESS_LENGTH),ZT_ADDRESS_LENGTH); ptr += ZT_ADDRESS_LENGTH;
- const unsigned int numRemotePeerPaths = dmsg[ptr++];
- InetAddress remotePeerPaths[256]; // size is 8-bit, so 256 is max
- for(unsigned int i=0;i<numRemotePeerPaths;++i)
- ptr += remotePeerPaths[i].deserialize(dmsg,ptr);
- TRACE("[%u] requested that we unite local %s with remote %s",(unsigned int)fromMemberId,localPeerAddress.toString().c_str(),remotePeerAddress.toString().c_str());
- const uint64_t now = RR->node->now();
- SharedPtr<Peer> localPeer(RR->topology->getPeerNoCache(localPeerAddress));
- if ((localPeer)&&(numRemotePeerPaths > 0)) {
- InetAddress bestLocalV4,bestLocalV6;
- localPeer->getBestActiveAddresses(now,bestLocalV4,bestLocalV6);
- InetAddress bestRemoteV4,bestRemoteV6;
- for(unsigned int i=0;i<numRemotePeerPaths;++i) {
- if ((bestRemoteV4)&&(bestRemoteV6))
- break;
- switch(remotePeerPaths[i].ss_family) {
- case AF_INET:
- if (!bestRemoteV4)
- bestRemoteV4 = remotePeerPaths[i];
- break;
- case AF_INET6:
- if (!bestRemoteV6)
- bestRemoteV6 = remotePeerPaths[i];
- break;
- }
- }
- Packet rendezvousForLocal(localPeerAddress,RR->identity.address(),Packet::VERB_RENDEZVOUS);
- rendezvousForLocal.append((uint8_t)0);
- remotePeerAddress.appendTo(rendezvousForLocal);
- Buffer<2048> rendezvousForRemote;
- remotePeerAddress.appendTo(rendezvousForRemote);
- rendezvousForRemote.append((uint8_t)Packet::VERB_RENDEZVOUS);
- rendezvousForRemote.addSize(2); // space for actual packet payload length
- rendezvousForRemote.append((uint8_t)0); // flags == 0
- localPeerAddress.appendTo(rendezvousForRemote);
- bool haveMatch = false;
- if ((bestLocalV6)&&(bestRemoteV6)) {
- haveMatch = true;
- rendezvousForLocal.append((uint16_t)bestRemoteV6.port());
- rendezvousForLocal.append((uint8_t)16);
- rendezvousForLocal.append(bestRemoteV6.rawIpData(),16);
- rendezvousForRemote.append((uint16_t)bestLocalV6.port());
- rendezvousForRemote.append((uint8_t)16);
- rendezvousForRemote.append(bestLocalV6.rawIpData(),16);
- rendezvousForRemote.setAt<uint16_t>(ZT_ADDRESS_LENGTH + 1,(uint16_t)(9 + 16));
- } else if ((bestLocalV4)&&(bestRemoteV4)) {
- haveMatch = true;
- rendezvousForLocal.append((uint16_t)bestRemoteV4.port());
- rendezvousForLocal.append((uint8_t)4);
- rendezvousForLocal.append(bestRemoteV4.rawIpData(),4);
- rendezvousForRemote.append((uint16_t)bestLocalV4.port());
- rendezvousForRemote.append((uint8_t)4);
- rendezvousForRemote.append(bestLocalV4.rawIpData(),4);
- rendezvousForRemote.setAt<uint16_t>(ZT_ADDRESS_LENGTH + 1,(uint16_t)(9 + 4));
- }
- if (haveMatch) {
- {
- Mutex::Lock _l2(_members[fromMemberId].lock);
- _send(fromMemberId,CLUSTER_MESSAGE_PROXY_SEND,rendezvousForRemote.data(),rendezvousForRemote.size());
- }
- RR->sw->send(rendezvousForLocal,true,0);
- }
- }
- } break;
- case CLUSTER_MESSAGE_PROXY_SEND: {
- const Address rcpt(dmsg.field(ptr,ZT_ADDRESS_LENGTH),ZT_ADDRESS_LENGTH); ptr += ZT_ADDRESS_LENGTH;
- const Packet::Verb verb = (Packet::Verb)dmsg[ptr++];
- const unsigned int len = dmsg.at<uint16_t>(ptr); ptr += 2;
- Packet outp(rcpt,RR->identity.address(),verb);
- outp.append(dmsg.field(ptr,len),len); ptr += len;
- RR->sw->send(outp,true,0);
- //TRACE("[%u] proxy send %s to %s length %u",(unsigned int)fromMemberId,Packet::verbString(verb),rcpt.toString().c_str(),len);
- } break;
- }
- } catch ( ... ) {
- TRACE("invalid message of size %u type %d (inner decode), discarding",mlen,mtype);
- // drop invalids
- }
- ptr = nextPtr;
- }
- } catch ( ... ) {
- TRACE("invalid message (outer loop), discarding");
- // drop invalids
- }
- }
- void Cluster::broadcastHavePeer(const Identity &id)
- {
- Buffer<1024> buf;
- id.serialize(buf);
- Mutex::Lock _l(_memberIds_m);
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- Mutex::Lock _l2(_members[*mid].lock);
- _send(*mid,CLUSTER_MESSAGE_HAVE_PEER,buf.data(),buf.size());
- }
- }
- void Cluster::sendViaCluster(const Address &fromPeerAddress,const Address &toPeerAddress,const void *data,unsigned int len,bool unite)
- {
- if (len > ZT_PROTO_MAX_PACKET_LENGTH) // sanity check
- return;
- const uint64_t now = RR->node->now();
- uint64_t mostRecentTs = 0;
- unsigned int mostRecentMemberId = 0xffffffff;
- {
- Mutex::Lock _l2(_remotePeers_m);
- std::map< std::pair<Address,unsigned int>,uint64_t >::const_iterator rpe(_remotePeers.lower_bound(std::pair<Address,unsigned int>(toPeerAddress,0)));
- for(;;) {
- if ((rpe == _remotePeers.end())||(rpe->first.first != toPeerAddress))
- break;
- else if (rpe->second > mostRecentTs) {
- mostRecentTs = rpe->second;
- mostRecentMemberId = rpe->first.second;
- }
- ++rpe;
- }
- }
- const uint64_t age = now - mostRecentTs;
- if (age >= (ZT_PEER_ACTIVITY_TIMEOUT / 3)) {
- const bool enqueueAndWait = ((age >= ZT_PEER_ACTIVITY_TIMEOUT)||(mostRecentMemberId > 0xffff));
- // Poll everyone with WANT_PEER if the age of our most recent entry is
- // approaching expiration (or has expired, or does not exist).
- char tmp[ZT_ADDRESS_LENGTH];
- toPeerAddress.copyTo(tmp,ZT_ADDRESS_LENGTH);
- {
- Mutex::Lock _l(_memberIds_m);
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- Mutex::Lock _l2(_members[*mid].lock);
- _send(*mid,CLUSTER_MESSAGE_WANT_PEER,tmp,ZT_ADDRESS_LENGTH);
- }
- }
- // If there isn't a good place to send via, then enqueue this for retrying
- // later and return after having broadcasted a WANT_PEER.
- if (enqueueAndWait) {
- TRACE("sendViaCluster %s -> %s enqueueing to wait for HAVE_PEER",fromPeerAddress.toString().c_str(),toPeerAddress.toString().c_str());
- _sendQueue->enqueue(now,fromPeerAddress,toPeerAddress,data,len,unite);
- return;
- }
- }
- Buffer<1024> buf;
- if (unite) {
- InetAddress v4,v6;
- if (fromPeerAddress) {
- SharedPtr<Peer> fromPeer(RR->topology->getPeerNoCache(fromPeerAddress));
- if (fromPeer)
- fromPeer->getBestActiveAddresses(now,v4,v6);
- }
- uint8_t addrCount = 0;
- if (v4)
- ++addrCount;
- if (v6)
- ++addrCount;
- if (addrCount) {
- toPeerAddress.appendTo(buf);
- fromPeerAddress.appendTo(buf);
- buf.append(addrCount);
- if (v4)
- v4.serialize(buf);
- if (v6)
- v6.serialize(buf);
- }
- }
- {
- Mutex::Lock _l2(_members[mostRecentMemberId].lock);
- if (buf.size() > 0)
- _send(mostRecentMemberId,CLUSTER_MESSAGE_PROXY_UNITE,buf.data(),buf.size());
- for(std::vector<InetAddress>::const_iterator i1(_zeroTierPhysicalEndpoints.begin());i1!=_zeroTierPhysicalEndpoints.end();++i1) {
- for(std::vector<InetAddress>::const_iterator i2(_members[mostRecentMemberId].zeroTierPhysicalEndpoints.begin());i2!=_members[mostRecentMemberId].zeroTierPhysicalEndpoints.end();++i2) {
- if (i1->ss_family == i2->ss_family) {
- TRACE("sendViaCluster relaying %u bytes from %s to %s by way of %u (%s->%s)",len,fromPeerAddress.toString().c_str(),toPeerAddress.toString().c_str(),(unsigned int)mostRecentMemberId,i1->toString().c_str(),i2->toString().c_str());
- RR->node->putPacket(*i1,*i2,data,len);
- return;
- }
- }
- }
- TRACE("sendViaCluster relaying %u bytes from %s to %s by way of %u failed: no common endpoints with the same address family!",len,fromPeerAddress.toString().c_str(),toPeerAddress.toString().c_str(),(unsigned int)mostRecentMemberId);
- return;
- }
- }
- void Cluster::sendDistributedQuery(const Packet &pkt)
- {
- Buffer<4096> buf;
- buf.append((uint16_t)pkt.size());
- buf.append(pkt.data(),pkt.size());
- Mutex::Lock _l(_memberIds_m);
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- Mutex::Lock _l2(_members[*mid].lock);
- _send(*mid,CLUSTER_MESSAGE_REMOTE_PACKET,buf.data(),buf.size());
- }
- }
- void Cluster::doPeriodicTasks()
- {
- const uint64_t now = RR->node->now();
- if ((now - _lastFlushed) >= ZT_CLUSTER_FLUSH_PERIOD) {
- _lastFlushed = now;
- Mutex::Lock _l(_memberIds_m);
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- Mutex::Lock _l2(_members[*mid].lock);
- if ((now - _members[*mid].lastAnnouncedAliveTo) >= ((ZT_CLUSTER_TIMEOUT / 2) - 1000)) {
- _members[*mid].lastAnnouncedAliveTo = now;
- Buffer<2048> alive;
- alive.append((uint16_t)ZEROTIER_ONE_VERSION_MAJOR);
- alive.append((uint16_t)ZEROTIER_ONE_VERSION_MINOR);
- alive.append((uint16_t)ZEROTIER_ONE_VERSION_REVISION);
- alive.append((uint8_t)ZT_PROTO_VERSION);
- if (_addressToLocationFunction) {
- alive.append((int32_t)_x);
- alive.append((int32_t)_y);
- alive.append((int32_t)_z);
- } else {
- alive.append((int32_t)0);
- alive.append((int32_t)0);
- alive.append((int32_t)0);
- }
- alive.append((uint64_t)now);
- alive.append((uint64_t)0); // TODO: compute and send load average
- alive.append((uint64_t)RR->topology->countActive(now));
- alive.append((uint64_t)0); // unused/reserved flags
- alive.append((uint8_t)_zeroTierPhysicalEndpoints.size());
- for(std::vector<InetAddress>::const_iterator pe(_zeroTierPhysicalEndpoints.begin());pe!=_zeroTierPhysicalEndpoints.end();++pe)
- pe->serialize(alive);
- _send(*mid,CLUSTER_MESSAGE_ALIVE,alive.data(),alive.size());
- }
- _flush(*mid);
- }
- }
- if ((now - _lastCleanedRemotePeers) >= (ZT_PEER_ACTIVITY_TIMEOUT * 2)) {
- _lastCleanedRemotePeers = now;
- Mutex::Lock _l(_remotePeers_m);
- for(std::map< std::pair<Address,unsigned int>,uint64_t >::iterator rp(_remotePeers.begin());rp!=_remotePeers.end();) {
- if ((now - rp->second) >= ZT_PEER_ACTIVITY_TIMEOUT)
- _remotePeers.erase(rp++);
- else ++rp;
- }
- }
- if ((now - _lastCleanedQueue) >= ZT_CLUSTER_QUEUE_EXPIRATION) {
- _lastCleanedQueue = now;
- _sendQueue->expire(now);
- }
- }
- void Cluster::addMember(uint16_t memberId)
- {
- if ((memberId >= ZT_CLUSTER_MAX_MEMBERS)||(memberId == _id))
- return;
- Mutex::Lock _l2(_members[memberId].lock);
- {
- Mutex::Lock _l(_memberIds_m);
- if (std::find(_memberIds.begin(),_memberIds.end(),memberId) != _memberIds.end())
- return;
- _memberIds.push_back(memberId);
- std::sort(_memberIds.begin(),_memberIds.end());
- }
- _members[memberId].clear();
- // Generate this member's message key from the master and its ID
- uint16_t stmp[ZT_SHA512_DIGEST_LEN / sizeof(uint16_t)];
- memcpy(stmp,_masterSecret,sizeof(stmp));
- stmp[0] ^= Utils::hton(memberId);
- SHA512::hash(stmp,stmp,sizeof(stmp));
- SHA512::hash(stmp,stmp,sizeof(stmp));
- memcpy(_members[memberId].key,stmp,sizeof(_members[memberId].key));
- Utils::burn(stmp,sizeof(stmp));
- // Prepare q
- _members[memberId].q.clear();
- char iv[16];
- Utils::getSecureRandom(iv,16);
- _members[memberId].q.append(iv,16);
- _members[memberId].q.addSize(8); // room for MAC
- _members[memberId].q.append((uint16_t)_id);
- _members[memberId].q.append((uint16_t)memberId);
- }
- void Cluster::removeMember(uint16_t memberId)
- {
- Mutex::Lock _l(_memberIds_m);
- std::vector<uint16_t> newMemberIds;
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- if (*mid != memberId)
- newMemberIds.push_back(*mid);
- }
- _memberIds = newMemberIds;
- }
- bool Cluster::findBetterEndpoint(InetAddress &redirectTo,const Address &peerAddress,const InetAddress &peerPhysicalAddress,bool offload)
- {
- if (_addressToLocationFunction) {
- // Pick based on location if it can be determined
- int px = 0,py = 0,pz = 0;
- if (_addressToLocationFunction(_addressToLocationFunctionArg,reinterpret_cast<const struct sockaddr_storage *>(&peerPhysicalAddress),&px,&py,&pz) == 0) {
- TRACE("no geolocation data for %s (geo-lookup is lazy/async so it may work next time)",peerPhysicalAddress.toIpString().c_str());
- return false;
- }
- // Find member closest to this peer
- const uint64_t now = RR->node->now();
- std::vector<InetAddress> best;
- const double currentDistance = _dist3d(_x,_y,_z,px,py,pz);
- double bestDistance = (offload ? 2147483648.0 : currentDistance);
- unsigned int bestMember = _id;
- {
- Mutex::Lock _l(_memberIds_m);
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- _Member &m = _members[*mid];
- Mutex::Lock _ml(m.lock);
- // Consider member if it's alive and has sent us a location and one or more physical endpoints to send peers to
- if ( ((now - m.lastReceivedAliveAnnouncement) < ZT_CLUSTER_TIMEOUT) && ((m.x != 0)||(m.y != 0)||(m.z != 0)) && (m.zeroTierPhysicalEndpoints.size() > 0) ) {
- const double mdist = _dist3d(m.x,m.y,m.z,px,py,pz);
- if (mdist < bestDistance) {
- bestDistance = mdist;
- bestMember = *mid;
- best = m.zeroTierPhysicalEndpoints;
- }
- }
- }
- }
- // Redirect to a closer member if it has a ZeroTier endpoint address in the same ss_family
- for(std::vector<InetAddress>::const_iterator a(best.begin());a!=best.end();++a) {
- if (a->ss_family == peerPhysicalAddress.ss_family) {
- TRACE("%s at [%d,%d,%d] is %f from us but %f from %u, can redirect to %s",peerAddress.toString().c_str(),px,py,pz,currentDistance,bestDistance,bestMember,a->toString().c_str());
- redirectTo = *a;
- return true;
- }
- }
- TRACE("%s at [%d,%d,%d] is %f from us, no better endpoints found",peerAddress.toString().c_str(),px,py,pz,currentDistance);
- return false;
- } else {
- // TODO: pick based on load if no location info?
- return false;
- }
- }
- void Cluster::status(ZT_ClusterStatus &status) const
- {
- const uint64_t now = RR->node->now();
- memset(&status,0,sizeof(ZT_ClusterStatus));
- status.myId = _id;
- {
- ZT_ClusterMemberStatus *const s = &(status.members[status.clusterSize++]);
- s->id = _id;
- s->alive = 1;
- s->x = _x;
- s->y = _y;
- s->z = _z;
- s->load = 0; // TODO
- s->peers = RR->topology->countActive(now);
- for(std::vector<InetAddress>::const_iterator ep(_zeroTierPhysicalEndpoints.begin());ep!=_zeroTierPhysicalEndpoints.end();++ep) {
- if (s->numZeroTierPhysicalEndpoints >= ZT_CLUSTER_MAX_ZT_PHYSICAL_ADDRESSES) // sanity check
- break;
- memcpy(&(s->zeroTierPhysicalEndpoints[s->numZeroTierPhysicalEndpoints++]),&(*ep),sizeof(struct sockaddr_storage));
- }
- }
- {
- Mutex::Lock _l1(_memberIds_m);
- for(std::vector<uint16_t>::const_iterator mid(_memberIds.begin());mid!=_memberIds.end();++mid) {
- if (status.clusterSize >= ZT_CLUSTER_MAX_MEMBERS) // sanity check
- break;
- _Member &m = _members[*mid];
- Mutex::Lock ml(m.lock);
- ZT_ClusterMemberStatus *const s = &(status.members[status.clusterSize++]);
- s->id = *mid;
- s->msSinceLastHeartbeat = (unsigned int)std::min((uint64_t)(~((unsigned int)0)),(now - m.lastReceivedAliveAnnouncement));
- s->alive = (s->msSinceLastHeartbeat < ZT_CLUSTER_TIMEOUT) ? 1 : 0;
- s->x = m.x;
- s->y = m.y;
- s->z = m.z;
- s->load = m.load;
- s->peers = m.peers;
- for(std::vector<InetAddress>::const_iterator ep(m.zeroTierPhysicalEndpoints.begin());ep!=m.zeroTierPhysicalEndpoints.end();++ep) {
- if (s->numZeroTierPhysicalEndpoints >= ZT_CLUSTER_MAX_ZT_PHYSICAL_ADDRESSES) // sanity check
- break;
- memcpy(&(s->zeroTierPhysicalEndpoints[s->numZeroTierPhysicalEndpoints++]),&(*ep),sizeof(struct sockaddr_storage));
- }
- }
- }
- }
- void Cluster::_send(uint16_t memberId,StateMessageType type,const void *msg,unsigned int len)
- {
- if ((len + 3) > (ZT_CLUSTER_MAX_MESSAGE_LENGTH - (24 + 2 + 2))) // sanity check
- return;
- _Member &m = _members[memberId];
- // assumes m.lock is locked!
- if ((m.q.size() + len + 3) > ZT_CLUSTER_MAX_MESSAGE_LENGTH)
- _flush(memberId);
- m.q.append((uint16_t)(len + 1));
- m.q.append((uint8_t)type);
- m.q.append(msg,len);
- }
- void Cluster::_flush(uint16_t memberId)
- {
- _Member &m = _members[memberId];
- // assumes m.lock is locked!
- if (m.q.size() > (24 + 2 + 2)) { // 16-byte IV + 8-byte MAC + 2 byte from-member-ID + 2 byte to-member-ID
- // Create key from member's key and IV
- char keytmp[32];
- memcpy(keytmp,m.key,32);
- for(int i=0;i<8;++i)
- keytmp[i] ^= m.q[i];
- Salsa20 s20(keytmp,256,m.q.field(8,8));
- Utils::burn(keytmp,sizeof(keytmp));
- // One-time-use Poly1305 key from first 32 bytes of Salsa20 keystream (as per DJB/NaCl "standard")
- char polykey[ZT_POLY1305_KEY_LEN];
- memset(polykey,0,sizeof(polykey));
- s20.encrypt12(polykey,polykey,sizeof(polykey));
- // Encrypt m.q in place
- s20.encrypt12(reinterpret_cast<const char *>(m.q.data()) + 24,const_cast<char *>(reinterpret_cast<const char *>(m.q.data())) + 24,m.q.size() - 24);
- // Add MAC for authentication (encrypt-then-MAC)
- char mac[ZT_POLY1305_MAC_LEN];
- Poly1305::compute(mac,reinterpret_cast<const char *>(m.q.data()) + 24,m.q.size() - 24,polykey);
- memcpy(m.q.field(16,8),mac,8);
- // Send!
- _sendFunction(_sendFunctionArg,memberId,m.q.data(),m.q.size());
- // Prepare for more
- m.q.clear();
- char iv[16];
- Utils::getSecureRandom(iv,16);
- m.q.append(iv,16);
- m.q.addSize(8); // room for MAC
- m.q.append((uint16_t)_id); // from member ID
- m.q.append((uint16_t)memberId); // to member ID
- }
- }
- void Cluster::_doREMOTE_WHOIS(uint64_t fromMemberId,const Packet &remotep)
- {
- if (remotep.payloadLength() >= ZT_ADDRESS_LENGTH) {
- Identity queried(RR->topology->getIdentity(Address(remotep.payload(),ZT_ADDRESS_LENGTH)));
- if (queried) {
- Buffer<1024> routp;
- remotep.source().appendTo(routp);
- routp.append((uint8_t)Packet::VERB_OK);
- routp.addSize(2); // space for length
- routp.append((uint8_t)Packet::VERB_WHOIS);
- routp.append(remotep.packetId());
- queried.serialize(routp);
- routp.setAt<uint16_t>(ZT_ADDRESS_LENGTH + 1,(uint16_t)(routp.size() - ZT_ADDRESS_LENGTH - 3));
- TRACE("responding to remote WHOIS from %s @ %u with identity of %s",remotep.source().toString().c_str(),(unsigned int)fromMemberId,queried.address().toString().c_str());
- Mutex::Lock _l2(_members[fromMemberId].lock);
- _send(fromMemberId,CLUSTER_MESSAGE_PROXY_SEND,routp.data(),routp.size());
- }
- }
- }
- void Cluster::_doREMOTE_MULTICAST_GATHER(uint64_t fromMemberId,const Packet &remotep)
- {
- const uint64_t nwid = remotep.at<uint64_t>(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_NETWORK_ID);
- const MulticastGroup mg(MAC(remotep.field(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_MAC,6),6),remotep.at<uint32_t>(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_ADI));
- unsigned int gatherLimit = remotep.at<uint32_t>(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_GATHER_LIMIT);
- const Address remotePeerAddress(remotep.source());
- if (gatherLimit) {
- Buffer<ZT_PROTO_MAX_PACKET_LENGTH> routp;
- remotePeerAddress.appendTo(routp);
- routp.append((uint8_t)Packet::VERB_OK);
- routp.addSize(2); // space for length
- routp.append((uint8_t)Packet::VERB_MULTICAST_GATHER);
- routp.append(remotep.packetId());
- routp.append(nwid);
- mg.mac().appendTo(routp);
- routp.append((uint32_t)mg.adi());
- if (gatherLimit > ((ZT_CLUSTER_MAX_MESSAGE_LENGTH - 80) / 5))
- gatherLimit = ((ZT_CLUSTER_MAX_MESSAGE_LENGTH - 80) / 5);
- if (RR->mc->gather(remotePeerAddress,nwid,mg,routp,gatherLimit)) {
- routp.setAt<uint16_t>(ZT_ADDRESS_LENGTH + 1,(uint16_t)(routp.size() - ZT_ADDRESS_LENGTH - 3));
- TRACE("responding to remote MULTICAST_GATHER from %s @ %u with %u bytes",remotePeerAddress.toString().c_str(),(unsigned int)fromMemberId,routp.size());
- Mutex::Lock _l2(_members[fromMemberId].lock);
- _send(fromMemberId,CLUSTER_MESSAGE_PROXY_SEND,routp.data(),routp.size());
- }
- }
- }
- } // namespace ZeroTier
- #endif // ZT_ENABLE_CLUSTER
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