mirror of
https://github.com/zerotier/ZeroTierOne.git
synced 2024-12-25 15:41:05 +00:00
500 lines
16 KiB
C++
500 lines
16 KiB
C++
/*
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* ZeroTier One - Network Virtualization Everywhere
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* Copyright (C) 2011-2019 ZeroTier, Inc. https://www.zerotier.com/
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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* --
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*
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* You can be released from the requirements of the license by purchasing
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* a commercial license. Buying such a license is mandatory as soon as you
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* develop commercial closed-source software that incorporates or links
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* directly against ZeroTier software without disclosing the source code
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* of your own application.
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*/
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#include "../node/Constants.hpp"
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#include <string.h>
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#include <fcntl.h>
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#include <signal.h>
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#include <sys/stat.h>
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#include <sys/types.h>
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#include <sys/socket.h>
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#include <sys/select.h>
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#include <sys/time.h>
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#include <sys/un.h>
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#include <sys/ioctl.h>
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#include <arpa/inet.h>
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#include <netinet/in.h>
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#include <netinet/ip.h>
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#include <netinet/ip6.h>
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#include <netinet/tcp.h>
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#include "../node/Packet.hpp"
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#include "../node/Utils.hpp"
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#include "../node/Address.hpp"
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#include "../node/Identity.hpp"
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#include "../node/InetAddress.hpp"
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#include "../node/Mutex.hpp"
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#include "../node/SharedPtr.hpp"
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#include "../node/MulticastGroup.hpp"
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#include "../osdep/OSUtils.hpp"
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#include <string>
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#include <thread>
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#include <map>
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#include <set>
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#include <vector>
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#include <iostream>
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#include <unordered_map>
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#include <unordered_set>
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#include <vector>
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#include <atomic>
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#include <mutex>
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using namespace ZeroTier;
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struct IdentityHasher { ZT_ALWAYS_INLINE std::size_t operator()(const Identity &id) const { return (std::size_t)id.hashCode(); } };
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struct AddressHasher { ZT_ALWAYS_INLINE std::size_t operator()(const Address &a) const { return (std::size_t)a.toInt(); } };
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struct InetAddressHasher { ZT_ALWAYS_INLINE std::size_t operator()(const InetAddress &ip) const { return (std::size_t)ip.hashCode(); } };
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struct MulticastGroupHasher { ZT_ALWAYS_INLINE std::size_t operator()(const MulticastGroup &mg) const { return (std::size_t)mg.hashCode(); } };
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struct PeerInfo
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{
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Identity id;
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uint8_t key[32];
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InetAddress ip4,ip6;
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int64_t lastReceive;
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AtomicCounter __refCount;
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ZT_ALWAYS_INLINE ~PeerInfo() { Utils::burn(key,sizeof(key)); }
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};
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static Identity self;
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static std::atomic_bool run;
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static std::vector< SharedPtr<PeerInfo> > newPeers;
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static std::unordered_map< uint64_t,std::unordered_map< MulticastGroup,std::unordered_map< Address,int64_t,AddressHasher >,MulticastGroupHasher > > multicastSubscriptions;
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static std::unordered_map< Identity,SharedPtr<PeerInfo>,IdentityHasher > peersByIdentity;
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static std::unordered_map< Address,std::set< SharedPtr<PeerInfo> >,AddressHasher > peersByVirtAddr;
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static std::unordered_map< InetAddress,std::set< SharedPtr<PeerInfo> >,InetAddressHasher > peersByPhysAddr;
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static std::mutex newPeers_l;
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static std::mutex multicastSubscriptions_l;
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static std::mutex peersByIdentity_l;
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static std::mutex peersByVirtAddr_l;
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static std::mutex peersByPhysAddr_l;
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static void handlePacket(const int sock,const InetAddress *const ip,Packet &pkt)
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{
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char ipstr[128],ipstr2[128],astr[32],tmpstr[256];
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const bool fragment = pkt[ZT_PACKET_FRAGMENT_IDX_FRAGMENT_INDICATOR] == ZT_PACKET_FRAGMENT_INDICATOR;
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// See if this is destined for us and isn't a fragment / fragmented. (No packets
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// understood by the root are fragments/fragmented.)
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if ((!fragment)&&(!pkt.fragmented())&&(pkt.destination() == self.address())) {
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SharedPtr<PeerInfo> peer;
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// If this is an un-encrypted HELLO, either learn a new peer or verify
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// that this is a peer we already know.
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if ((pkt.cipher() == ZT_PROTO_CIPHER_SUITE__POLY1305_NONE)&&(pkt.verb() == Packet::VERB_HELLO)) {
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Identity id;
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if (id.deserialize(pkt,ZT_PROTO_VERB_HELLO_IDX_IDENTITY)) {
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{
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std::lock_guard<std::mutex> pbi_l(peersByIdentity_l);
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auto pById = peersByIdentity.find(id);
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if (pById != peersByIdentity.end()) {
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peer = pById->second;
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//printf("%s has %s (known (1))" ZT_EOL_S,ip->toString(ipstr),pkt.source().toString(astr));
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}
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}
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if (peer) {
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if (!pkt.dearmor(peer->key)) {
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printf("%s HELLO rejected: packet authentication failed" ZT_EOL_S,ip->toString(ipstr));
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return;
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}
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} else {
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peer.set(new PeerInfo);
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if (self.agree(id,peer->key)) {
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if (pkt.dearmor(peer->key)) {
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peer->id = id;
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{
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std::lock_guard<std::mutex> np_l(newPeers_l);
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newPeers.push_back(peer);
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}
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{
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std::lock_guard<std::mutex> pbi_l(peersByIdentity_l);
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peersByIdentity.emplace(id,peer);
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}
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{
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std::lock_guard<std::mutex> pbv_l(peersByVirtAddr_l);
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peersByVirtAddr[id.address()].emplace(peer);
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}
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} else {
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printf("%s HELLO rejected: packet authentication failed" ZT_EOL_S,ip->toString(ipstr));
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return;
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}
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} else {
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printf("%s HELLO rejected: key agreement failed" ZT_EOL_S,ip->toString(ipstr));
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return;
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}
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}
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}
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}
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// If it wasn't a HELLO, check to see if any known identities for the sender's
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// short ZT address successfully decrypt the packet.
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if (!peer) {
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std::lock_guard<std::mutex> pbv_l(peersByVirtAddr_l);
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auto peers = peersByVirtAddr.find(pkt.source());
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if (peers != peersByVirtAddr.end()) {
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for(auto p=peers->second.begin();p!=peers->second.end();++p) {
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if (pkt.dearmor((*p)->key)) {
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peer = (*p);
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//printf("%s has %s (known (2))" ZT_EOL_S,ip->toString(ipstr),pkt.source().toString(astr));
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break;
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}
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}
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}
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}
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// If we found the peer, update IP and/or time.
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if (peer) {
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InetAddress *const peerIp = (ip->ss_family == AF_INET) ? &(peer->ip4) : &(peer->ip6);
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if (*peerIp != ip) {
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std::lock_guard<std::mutex> pbp_l(peersByPhysAddr_l);
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if (*peerIp) {
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auto prev = peersByPhysAddr.find(*peerIp);
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if (prev != peersByPhysAddr.end()) {
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prev->second.erase(peer);
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if (prev->second.empty())
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peersByPhysAddr.erase(prev);
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}
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}
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*peerIp = ip;
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peersByPhysAddr[ip].emplace(peer);
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}
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const int64_t now = OSUtils::now();
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peer->lastReceive = now;
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switch(pkt.verb()) {
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case Packet::VERB_HELLO: {
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const uint64_t origId = pkt.packetId();
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const uint64_t ts = pkt.template at<uint64_t>(ZT_PROTO_VERB_HELLO_IDX_TIMESTAMP);
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pkt.reset(pkt.source(),self.address(),Packet::VERB_OK);
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pkt.append((uint8_t)Packet::VERB_HELLO);
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pkt.append(origId);
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pkt.append(ts);
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pkt.append((uint8_t)ZT_PROTO_VERSION);
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pkt.append((uint8_t)0);
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pkt.append((uint8_t)0);
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pkt.append((uint16_t)0);
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ip->serialize(pkt);
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pkt.armor(peer->key,true);
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sendto(sock,pkt.data(),pkt.size(),0,(const struct sockaddr *)ip,(socklen_t)((ip->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6)));
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//printf("%s <- OK(HELLO)" ZT_EOL_S,ip->toString(ipstr));
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} break;
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case Packet::VERB_MULTICAST_LIKE: {
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std::lock_guard<std::mutex> l(multicastSubscriptions_l);
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for(unsigned int ptr=ZT_PACKET_IDX_PAYLOAD;(ptr+18)<=pkt.size();ptr+=18) {
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const uint64_t nwid = pkt.template at<uint64_t>(ptr);
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const MulticastGroup mg(MAC(pkt.field(ptr + 8,6),6),pkt.template at<uint32_t>(ptr + 14));
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multicastSubscriptions[nwid][mg][peer->id.address()] = now;
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//printf("%s subscribes to %s/%.8lx on network %.16llx" ZT_EOL_S,ip->toString(ipstr),mg.mac().toString(tmpstr),(unsigned long)mg.adi(),(unsigned long long)nwid);
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}
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} break;
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case Packet::VERB_MULTICAST_GATHER: {
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const uint64_t nwid = pkt.template at<uint64_t>(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_NETWORK_ID);
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const unsigned int flags = pkt[ZT_PROTO_VERB_MULTICAST_GATHER_IDX_FLAGS];
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const MulticastGroup mg(MAC(pkt.field(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_MAC,6),6),pkt.template at<uint32_t>(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_ADI));
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unsigned int gatherLimit = pkt.template at<uint32_t>(ZT_PROTO_VERB_MULTICAST_GATHER_IDX_GATHER_LIMIT);
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if (gatherLimit > 255)
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gatherLimit = 255;
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const uint64_t origId = pkt.packetId();
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pkt.reset(pkt.source(),self.address(),Packet::VERB_OK);
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pkt.append((uint8_t)Packet::VERB_MULTICAST_GATHER);
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pkt.append(origId);
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pkt.append(nwid);
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mg.mac().appendTo(pkt);
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pkt.append((uint32_t)mg.adi());
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{
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std::lock_guard<std::mutex> l(multicastSubscriptions_l);
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auto forNet = multicastSubscriptions.find(nwid);
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if (forNet != multicastSubscriptions.end()) {
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auto forGroup = forNet->second.find(mg);
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if (forGroup != forNet->second.end()) {
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pkt.append((uint32_t)forGroup->second.size());
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pkt.append((uint16_t)std::min(std::min((unsigned int)forGroup->second.size(),(unsigned int)65535),gatherLimit));
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auto g = forGroup->second.begin();
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unsigned int l = 0;
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for(;((l<gatherLimit)&&(g!=forGroup->second.end()));++l,++g)
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g->first.appendTo(pkt);
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if (l > 0) {
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sendto(sock,pkt.data(),pkt.size(),0,(const struct sockaddr *)ip,(socklen_t)((ip->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6)));
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printf("%s gathered %u subscribers to %s/%.8lx on network %.16llx" ZT_EOL_S,ip->toString(ipstr),l,mg.mac().toString(tmpstr),(unsigned long)mg.adi(),(unsigned long long)nwid);
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}
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}
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}
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}
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} break;
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default:
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break;
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}
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return;
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}
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}
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std::vector<InetAddress> toAddrs;
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{
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const int64_t now = OSUtils::now();
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std::lock_guard<std::mutex> pbv_l(peersByVirtAddr_l);
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auto peers = peersByVirtAddr.find(pkt.destination());
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if (peers != peersByVirtAddr.end()) {
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for(auto p=peers->second.begin();p!=peers->second.end();++p) {
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if ((now - (*p)->lastReceive) < ZT_PEER_ACTIVITY_TIMEOUT) {
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if ((*p)->ip6)
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toAddrs.push_back((*p)->ip6);
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else if ((*p)->ip4)
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toAddrs.push_back((*p)->ip4);
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}
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}
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}
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}
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if (toAddrs.empty()) {
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//printf("%s not forwarding to %s: no destinations found" ZT_EOL_S,ip->toString(ipstr),pkt.destination().toString(astr));
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return;
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}
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if (fragment) {
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if (reinterpret_cast<Packet::Fragment *>(&pkt)->incrementHops() >= ZT_PROTO_MAX_HOPS) {
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printf("%s refused to forward to %s: max hop count exceeded" ZT_EOL_S,ip->toString(ipstr),pkt.destination().toString(astr));
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return;
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}
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} else {
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if (pkt.incrementHops() >= ZT_PROTO_MAX_HOPS) {
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printf("%s refused to forward to %s: max hop count exceeded" ZT_EOL_S,ip->toString(ipstr),pkt.destination().toString(astr));
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return;
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}
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}
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for(auto i=toAddrs.begin();i!=toAddrs.end();++i) {
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//printf("%s -> %s for %s" ZT_EOL_S,ip->toString(ipstr),i->toString(ipstr2),pkt.destination().toString(astr));
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sendto(sock,pkt.data(),pkt.size(),0,(const struct sockaddr *)&(*i),(socklen_t)((i->ss_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6)));
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}
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}
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static int bindSocket(struct sockaddr *bindAddr)
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{
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int s = socket(bindAddr->sa_family,SOCK_DGRAM,0);
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if (s < 0) {
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close(s);
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return -1;
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}
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int f = 131072;
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setsockopt(s,SOL_SOCKET,SO_RCVBUF,(const char *)&f,sizeof(f));
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f = 131072;
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setsockopt(s,SOL_SOCKET,SO_SNDBUF,(const char *)&f,sizeof(f));
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if (bindAddr->sa_family == AF_INET6) {
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f = 1; setsockopt(s,IPPROTO_IPV6,IPV6_V6ONLY,(void *)&f,sizeof(f));
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#ifdef IPV6_MTU_DISCOVER
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f = 0; setsockopt(s,IPPROTO_IPV6,IPV6_MTU_DISCOVER,&f,sizeof(f));
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#endif
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#ifdef IPV6_DONTFRAG
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f = 0; setsockopt(s,IPPROTO_IPV6,IPV6_DONTFRAG,&f,sizeof(f));
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#endif
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}
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f = 1; setsockopt(s,SOL_SOCKET,SO_REUSEADDR,(void *)&f,sizeof(f));
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f = 1; setsockopt(s,SOL_SOCKET,SO_REUSEPORT,(void *)&f,sizeof(f));
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f = 1; setsockopt(s,SOL_SOCKET,SO_BROADCAST,(void *)&f,sizeof(f));
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#ifdef IP_DONTFRAG
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f = 0; setsockopt(s,IPPROTO_IP,IP_DONTFRAG,&f,sizeof(f));
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#endif
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#ifdef IP_MTU_DISCOVER
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f = IP_PMTUDISC_DONT; setsockopt(s,IPPROTO_IP,IP_MTU_DISCOVER,&f,sizeof(f));
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#endif
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#ifdef SO_NO_CHECK
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if (bindAddr->sa_family == AF_INET) {
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f = 1; setsockopt(s,SOL_SOCKET,SO_NO_CHECK,(void *)&f,sizeof(f));
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}
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#endif
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if (bind(s,bindAddr,(bindAddr->sa_family == AF_INET) ? sizeof(struct sockaddr_in) : sizeof(struct sockaddr_in6))) {
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close(s);
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return -1;
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}
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return s;
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}
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void shutdownSigHandler(int sig)
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{
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run = false;
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}
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int main(int argc,char **argv)
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{
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signal(SIGTERM,shutdownSigHandler);
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signal(SIGINT,shutdownSigHandler);
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signal(SIGQUIT,shutdownSigHandler);
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signal(SIGPIPE,SIG_IGN);
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signal(SIGUSR1,SIG_IGN);
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signal(SIGUSR2,SIG_IGN);
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if (argc < 2) {
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printf("Usage: zerotier-root <identity.secret> [<port>]" ZT_EOL_S);
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return 1;
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}
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std::string myIdStr;
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if (!OSUtils::readFile(argv[1],myIdStr)) {
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printf("FATAL: cannot read identity.secret at %s" ZT_EOL_S,argv[1]);
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return 1;
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}
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if (!self.fromString(myIdStr.c_str())) {
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printf("FATAL: cannot read identity.secret at %s (invalid identity)" ZT_EOL_S,argv[1]);
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return 1;
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}
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if (!self.hasPrivate()) {
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printf("FATAL: cannot read identity.secret at %s (missing secret key)" ZT_EOL_S,argv[1]);
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return 1;
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}
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unsigned int ncores = std::thread::hardware_concurrency();
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if (ncores == 0) ncores = 1;
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run = true;
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std::vector<std::thread> threads;
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std::vector<int> sockets;
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for(unsigned int tn=0;tn<ncores;++tn) {
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struct sockaddr_in6 in6;
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memset(&in6,0,sizeof(in6));
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in6.sin6_family = AF_INET6;
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in6.sin6_port = htons(ZT_DEFAULT_PORT);
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const int s6 = bindSocket((struct sockaddr *)&in6);
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if (s6 < 0) {
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std::cout << "ERROR: unable to bind to port " << ZT_DEFAULT_PORT << ZT_EOL_S;
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exit(1);
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}
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struct sockaddr_in in4;
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memset(&in4,0,sizeof(in4));
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in4.sin_family = AF_INET;
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in4.sin_port = htons(ZT_DEFAULT_PORT);
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const int s4 = bindSocket((struct sockaddr *)&in4);
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if (s4 < 0) {
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std::cout << "ERROR: unable to bind to port " << ZT_DEFAULT_PORT << ZT_EOL_S;
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exit(1);
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}
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sockets.push_back(s6);
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sockets.push_back(s4);
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threads.push_back(std::thread([s6]() {
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struct sockaddr_in6 in6;
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Packet pkt;
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memset(&in6,0,sizeof(in6));
|
|
for(;;) {
|
|
socklen_t sl = sizeof(in6);
|
|
const int pl = (int)recvfrom(s6,pkt.unsafeData(),pkt.capacity(),0,(struct sockaddr *)&in6,&sl);
|
|
if (pl > 0) {
|
|
try {
|
|
pkt.setSize((unsigned int)pl);
|
|
handlePacket(s6,reinterpret_cast<const InetAddress *>(&in6),pkt);
|
|
} catch ( ... ) {
|
|
printf("* unexpected exception" ZT_EOL_S);
|
|
}
|
|
} else {
|
|
break;
|
|
}
|
|
}
|
|
}));
|
|
|
|
threads.push_back(std::thread([s4]() {
|
|
struct sockaddr_in in4;
|
|
Packet pkt;
|
|
memset(&in4,0,sizeof(in4));
|
|
for(;;) {
|
|
socklen_t sl = sizeof(in4);
|
|
const int pl = (int)recvfrom(s4,pkt.unsafeData(),pkt.capacity(),0,(struct sockaddr *)&in4,&sl);
|
|
if (pl > 0) {
|
|
try {
|
|
pkt.setSize((unsigned int)pl);
|
|
handlePacket(s4,reinterpret_cast<const InetAddress *>(&in4),pkt);
|
|
} catch ( ... ) {
|
|
printf("* unexpected exception" ZT_EOL_S);
|
|
}
|
|
} else {
|
|
break;
|
|
}
|
|
}
|
|
}));
|
|
}
|
|
|
|
int64_t lastCleanedMulticastSubscriptions = 0;
|
|
while (run) {
|
|
peersByIdentity_l.lock();
|
|
peersByPhysAddr_l.lock();
|
|
printf("*** have %lu peers at %lu physical endpoints" ZT_EOL_S,(unsigned long)peersByIdentity.size(),(unsigned long)peersByPhysAddr.size());
|
|
peersByPhysAddr_l.unlock();
|
|
peersByIdentity_l.unlock();
|
|
sleep(1);
|
|
|
|
const int64_t now = OSUtils::now();
|
|
if ((now - lastCleanedMulticastSubscriptions) > 120000) {
|
|
lastCleanedMulticastSubscriptions = now;
|
|
std::lock_guard<std::mutex> l(multicastSubscriptions_l);
|
|
for(auto a=multicastSubscriptions.begin();a!=multicastSubscriptions.end();) {
|
|
for(auto b=a->second.begin();b!=a->second.end();) {
|
|
for(auto c=b->second.begin();c!=b->second.end();) {
|
|
if ((now - c->second) > ZT_MULTICAST_LIKE_EXPIRE)
|
|
b->second.erase(c++);
|
|
else ++c;
|
|
}
|
|
if (b->second.empty())
|
|
a->second.erase(b++);
|
|
else ++b;
|
|
}
|
|
if (a->second.empty())
|
|
multicastSubscriptions.erase(a++);
|
|
else ++a;
|
|
}
|
|
}
|
|
}
|
|
|
|
for(auto s=sockets.begin();s!=sockets.end();++s) {
|
|
shutdown(*s,SHUT_RDWR);
|
|
close(*s);
|
|
}
|
|
for(auto t=threads.begin();t!=threads.end();++t)
|
|
t->join();
|
|
|
|
return 0;
|
|
}
|