ZeroTierOne/node/Node.cpp

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/*
* ZeroTier One - Global Peer to Peer Ethernet
* Copyright (C) 2011-2014 ZeroTier Networks LLC
*
* 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/>.
*
* --
*
* ZeroTier may be used and distributed under the terms of the GPLv3, which
* are available at: http://www.gnu.org/licenses/gpl-3.0.html
*
* If you would like to embed ZeroTier into a commercial application or
* redistribute it in a modified binary form, please contact ZeroTier Networks
* LLC. Start here: http://www.zerotier.com/
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <sys/stat.h>
#include <map>
#include <set>
#include <utility>
#include <algorithm>
#include <list>
#include <vector>
#include <string>
#include "Constants.hpp"
#ifdef __WINDOWS__
#include <WinSock2.h>
#include <Windows.h>
#include <ShlObj.h>
#else
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#include <fcntl.h>
#include <unistd.h>
#include <signal.h>
#include <sys/file.h>
#endif
#include "Node.hpp"
#include "RuntimeEnvironment.hpp"
#include "Logger.hpp"
#include "Utils.hpp"
#include "Defaults.hpp"
#include "Identity.hpp"
#include "Topology.hpp"
#include "SocketManager.hpp"
#include "Switch.hpp"
#include "EthernetTap.hpp"
#include "CMWC4096.hpp"
#include "NodeConfig.hpp"
#include "SysEnv.hpp"
#include "Network.hpp"
#include "MulticastGroup.hpp"
#include "Mutex.hpp"
#include "Multicaster.hpp"
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#include "Service.hpp"
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#include "SoftwareUpdater.hpp"
#include "Buffer.hpp"
#include "IpcConnection.hpp"
#include "../version.h"
namespace ZeroTier {
// ---------------------------------------------------------------------------
struct _NodeControlClientImpl
{
void (*resultHandler)(void *,const char *);
void *arg;
IpcConnection *ipcc;
std::string err;
};
static void _CBipcResultHandler(void *arg,IpcConnection *ipcc,IpcConnection::EventType event,const char *result)
{
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if ((event == IpcConnection::IPC_EVENT_COMMAND)&&(result)) {
if (strcmp(result,"200 auth OK"))
((_NodeControlClientImpl *)arg)->resultHandler(((_NodeControlClientImpl *)arg)->arg,result);
}
}
Node::NodeControlClient::NodeControlClient(const char *hp,void (*resultHandler)(void *,const char *),void *arg,const char *authToken)
throw() :
_impl((void *)new _NodeControlClientImpl)
{
_NodeControlClientImpl *impl = (_NodeControlClientImpl *)_impl;
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impl->ipcc = (IpcConnection *)0;
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if (!hp)
hp = ZT_DEFAULTS.defaultHomePath.c_str();
std::string at;
if (authToken)
at = authToken;
else if (!Utils::readFile((std::string(hp) + ZT_PATH_SEPARATOR_S + "authtoken.secret").c_str(),at))
impl->err = "no authentication token specified and authtoken.secret not readable";
else {
std::string myid;
if (Utils::readFile((std::string(hp) + ZT_PATH_SEPARATOR_S + "identity.public").c_str(),myid)) {
std::string myaddr(myid.substr(0,myid.find(':')));
if (myaddr.length() != 10)
impl->err = "invalid address extracted from identity.public";
else {
try {
impl->resultHandler = resultHandler;
impl->arg = arg;
impl->ipcc = new IpcConnection((std::string(ZT_IPC_ENDPOINT_BASE) + myaddr).c_str(),&_CBipcResultHandler,_impl);
impl->ipcc->printf("auth %s"ZT_EOL_S,at.c_str());
} catch ( ... ) {
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impl->ipcc = (IpcConnection *)0;
impl->err = "failure connecting to running ZeroTier One service";
}
}
} else impl->err = "unable to read identity.public";
}
}
Node::NodeControlClient::~NodeControlClient()
{
if (_impl) {
delete ((_NodeControlClientImpl *)_impl)->ipcc;
delete (_NodeControlClientImpl *)_impl;
}
}
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const char *Node::NodeControlClient::error() const
throw()
{
if (((_NodeControlClientImpl *)_impl)->err.length())
return ((_NodeControlClientImpl *)_impl)->err.c_str();
return (const char *)0;
}
void Node::NodeControlClient::send(const char *command)
throw()
{
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try {
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if (((_NodeControlClientImpl *)_impl)->ipcc)
((_NodeControlClientImpl *)_impl)->ipcc->printf("%s"ZT_EOL_S,command);
} catch ( ... ) {}
}
std::vector<std::string> Node::NodeControlClient::splitLine(const char *line)
{
return Utils::split(line," ","\\","\"");
}
const char *Node::NodeControlClient::authTokenDefaultUserPath()
{
static std::string dlp;
static Mutex dlp_m;
Mutex::Lock _l(dlp_m);
#ifdef __WINDOWS__
if (!dlp.length()) {
char buf[16384];
if (SUCCEEDED(SHGetFolderPathA(NULL,CSIDL_APPDATA,NULL,0,buf)))
dlp = (std::string(buf) + "\\ZeroTier\\One\\authtoken.secret");
}
#else // not __WINDOWS__
if (!dlp.length()) {
const char *home = getenv("HOME");
if (home) {
#ifdef __APPLE__
dlp = (std::string(home) + "/Library/Application Support/ZeroTier/One/authtoken.secret");
#else
dlp = (std::string(home) + "/.zeroTierOneAuthToken");
#endif
}
}
#endif // __WINDOWS__ or not __WINDOWS__
return dlp.c_str();
}
const char *Node::NodeControlClient::authTokenDefaultSystemPath()
{
static std::string dsp;
static Mutex dsp_m;
Mutex::Lock _l(dsp_m);
if (!dsp.length())
dsp = (ZT_DEFAULTS.defaultHomePath + ZT_PATH_SEPARATOR_S"authtoken.secret");
return dsp.c_str();
}
// ---------------------------------------------------------------------------
struct _NodeImpl
{
RuntimeEnvironment renv;
unsigned int udpPort,tcpPort;
std::string reasonForTerminationStr;
volatile Node::ReasonForTermination reasonForTermination;
volatile bool started;
volatile bool running;
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volatile bool resynchronize;
inline Node::ReasonForTermination terminate()
{
RuntimeEnvironment *_r = &renv;
LOG("terminating: %s",reasonForTerminationStr.c_str());
renv.shutdownInProgress = true;
Thread::sleep(500);
running = false;
#ifndef __WINDOWS__
delete renv.netconfService;
TRACE("shutdown: delete netconfService");
#endif
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delete renv.updater;
TRACE("shutdown: delete updater");
delete renv.nc;
TRACE("shutdown: delete nc");
delete renv.sysEnv;
TRACE("shutdown: delete sysEnv");
delete renv.topology;
TRACE("shutdown: delete topology");
delete renv.sm;
TRACE("shutdown: delete sm");
delete renv.sw;
TRACE("shutdown: delete sw");
delete renv.mc;
TRACE("shutdown: delete mc");
delete renv.prng;
TRACE("shutdown: delete prng");
delete renv.log;
return reasonForTermination;
}
inline Node::ReasonForTermination terminateBecause(Node::ReasonForTermination r,const char *rstr)
{
reasonForTerminationStr = rstr;
reasonForTermination = r;
return terminate();
}
};
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#ifndef __WINDOWS__
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static void _netconfServiceMessageHandler(void *renv,Service &svc,const Dictionary &msg)
{
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if (!renv)
return; // sanity check
const RuntimeEnvironment *_r = (const RuntimeEnvironment *)renv;
try {
//TRACE("from netconf:\n%s",msg.toString().c_str());
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const std::string &type = msg.get("type");
if (type == "ready") {
LOG("received 'ready' from netconf.service, sending netconf-init with identity information...");
Dictionary initMessage;
initMessage["type"] = "netconf-init";
initMessage["netconfId"] = _r->identity.toString(true);
_r->netconfService->send(initMessage);
} else if (type == "netconf-response") {
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uint64_t inRePacketId = strtoull(msg.get("requestId").c_str(),(char **)0,16);
uint64_t nwid = strtoull(msg.get("nwid").c_str(),(char **)0,16);
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Address peerAddress(msg.get("peer").c_str());
if (peerAddress) {
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if (msg.contains("error")) {
Packet::ErrorCode errCode = Packet::ERROR_INVALID_REQUEST;
const std::string &err = msg.get("error");
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if (err == "OBJ_NOT_FOUND")
errCode = Packet::ERROR_OBJ_NOT_FOUND;
else if (err == "ACCESS_DENIED")
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errCode = Packet::ERROR_NETWORK_ACCESS_DENIED_;
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Packet outp(peerAddress,_r->identity.address(),Packet::VERB_ERROR);
outp.append((unsigned char)Packet::VERB_NETWORK_CONFIG_REQUEST);
outp.append(inRePacketId);
outp.append((unsigned char)errCode);
outp.append(nwid);
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_r->sw->send(outp,true);
} else if (msg.contains("netconf")) {
const std::string &netconf = msg.get("netconf");
if (netconf.length() < 2048) { // sanity check
Packet outp(peerAddress,_r->identity.address(),Packet::VERB_OK);
outp.append((unsigned char)Packet::VERB_NETWORK_CONFIG_REQUEST);
outp.append(inRePacketId);
outp.append(nwid);
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outp.append((uint16_t)netconf.length());
outp.append(netconf.data(),netconf.length());
outp.compress();
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_r->sw->send(outp,true);
}
}
}
} else if (type == "netconf-push") {
if (msg.contains("to")) {
Dictionary to(msg.get("to")); // key: peer address, value: comma-delimited network list
for(Dictionary::iterator t(to.begin());t!=to.end();++t) {
Address ztaddr(t->first);
if (ztaddr) {
Packet outp(ztaddr,_r->identity.address(),Packet::VERB_NETWORK_CONFIG_REFRESH);
char *saveptr = (char *)0;
// Note: this loop trashes t->second, which is quasi-legal C++ but
// shouldn't break anything as long as we don't try to use 'to'
// for anything interesting after doing this.
for(char *p=Utils::stok(const_cast<char *>(t->second.c_str()),",",&saveptr);(p);p=Utils::stok((char *)0,",",&saveptr)) {
uint64_t nwid = Utils::hexStrToU64(p);
if (nwid) {
if ((outp.size() + sizeof(uint64_t)) >= ZT_UDP_DEFAULT_PAYLOAD_MTU) {
_r->sw->send(outp,true);
outp.reset(ztaddr,_r->identity.address(),Packet::VERB_NETWORK_CONFIG_REFRESH);
}
outp.append(nwid);
}
}
if (outp.payloadLength())
_r->sw->send(outp,true);
}
}
}
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}
} catch (std::exception &exc) {
LOG("unexpected exception parsing response from netconf service: %s",exc.what());
} catch ( ... ) {
LOG("unexpected exception parsing response from netconf service: unknown exception");
}
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}
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#endif // !__WINDOWS__
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Node::Node(const char *hp,unsigned int udpPort,unsigned int tcpPort,bool resetIdentity)
throw() :
_impl(new _NodeImpl)
{
_NodeImpl *impl = (_NodeImpl *)_impl;
if ((hp)&&(hp[0]))
impl->renv.homePath = hp;
else impl->renv.homePath = ZT_DEFAULTS.defaultHomePath;
if (resetIdentity) {
// Forget identity and peer database, peer keys, etc.
Utils::rm((impl->renv.homePath + ZT_PATH_SEPARATOR_S + "identity.public").c_str());
Utils::rm((impl->renv.homePath + ZT_PATH_SEPARATOR_S + "identity.secret").c_str());
Utils::rm((impl->renv.homePath + ZT_PATH_SEPARATOR_S + "peers.persist").c_str());
// Truncate network config information in networks.d but leave the files since we
// still want to remember any networks we have joined. This will force re-config.
std::string networksDotD(impl->renv.homePath + ZT_PATH_SEPARATOR_S + "networks.d");
std::map< std::string,bool > nwfiles(Utils::listDirectory(networksDotD.c_str()));
for(std::map<std::string,bool>::iterator nwf(nwfiles.begin());nwf!=nwfiles.end();++nwf) {
FILE *foo = fopen((networksDotD + ZT_PATH_SEPARATOR_S + nwf->first).c_str(),"w");
if (foo)
fclose(foo);
}
}
impl->udpPort = ((udpPort > 0)&&(udpPort <= 0xffff)) ? udpPort : (unsigned int)ZT_DEFAULT_PORT;
impl->tcpPort = ((tcpPort > 0)&&(tcpPort <= 0xffff)) ? tcpPort : (unsigned int)ZT_DEFAULT_PORT;
impl->reasonForTermination = Node::NODE_RUNNING;
impl->started = false;
impl->running = false;
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impl->resynchronize = false;
}
Node::~Node()
{
delete (_NodeImpl *)_impl;
}
static void _CBztTraffic(const SharedPtr<Socket> &fromSock,void *arg,const InetAddress &from,Buffer<ZT_SOCKET_MAX_MESSAGE_LEN> &data)
{
const RuntimeEnvironment *_r = (const RuntimeEnvironment *)arg;
if ((_r->sw)&&(!_r->shutdownInProgress))
_r->sw->onRemotePacket(fromSock,from,data);
}
Node::ReasonForTermination Node::run()
throw()
{
_NodeImpl *impl = (_NodeImpl *)_impl;
RuntimeEnvironment *_r = (RuntimeEnvironment *)&(impl->renv);
impl->started = true;
impl->running = true;
try {
#ifdef ZT_LOG_STDOUT
_r->log = new Logger((const char *)0,(const char *)0,0);
#else
_r->log = new Logger((_r->homePath + ZT_PATH_SEPARATOR_S + "node.log").c_str(),(const char *)0,131072);
#endif
LOG("starting version %s",versionString());
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// Create non-crypto PRNG right away in case other code in init wants to use it
_r->prng = new CMWC4096();
bool gotId = false;
std::string identitySecretPath(_r->homePath + ZT_PATH_SEPARATOR_S + "identity.secret");
std::string identityPublicPath(_r->homePath + ZT_PATH_SEPARATOR_S + "identity.public");
std::string idser;
if (Utils::readFile(identitySecretPath.c_str(),idser))
gotId = _r->identity.fromString(idser);
if ((gotId)&&(!_r->identity.locallyValidate()))
gotId = false;
if (gotId) {
// Make sure identity.public matches identity.secret
idser = std::string();
Utils::readFile(identityPublicPath.c_str(),idser);
std::string pubid(_r->identity.toString(false));
if (idser != pubid) {
if (!Utils::writeFile(identityPublicPath.c_str(),pubid))
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"could not write identity.public (home path not writable?)");
}
} else {
LOG("no identity found or identity invalid, generating one... this might take a few seconds...");
_r->identity.generate();
LOG("generated new identity: %s",_r->identity.address().toString().c_str());
idser = _r->identity.toString(true);
if (!Utils::writeFile(identitySecretPath.c_str(),idser))
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"could not write identity.secret (home path not writable?)");
idser = _r->identity.toString(false);
if (!Utils::writeFile(identityPublicPath.c_str(),idser))
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"could not write identity.public (home path not writable?)");
}
Utils::lockDownFile(identitySecretPath.c_str(),false);
// Make sure networks.d exists
{
std::string networksDotD(_r->homePath + ZT_PATH_SEPARATOR_S + "networks.d");
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#ifdef __WINDOWS__
CreateDirectoryA(networksDotD.c_str(),NULL);
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#else
mkdir(networksDotD.c_str(),0700);
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#endif
}
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// Load or generate config authentication secret
std::string configAuthTokenPath(_r->homePath + ZT_PATH_SEPARATOR_S + "authtoken.secret");
std::string configAuthToken;
if (!Utils::readFile(configAuthTokenPath.c_str(),configAuthToken)) {
configAuthToken = "";
unsigned int sr = 0;
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for(unsigned int i=0;i<24;++i) {
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Utils::getSecureRandom(&sr,sizeof(sr));
configAuthToken.push_back("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"[sr % 62]);
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}
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if (!Utils::writeFile(configAuthTokenPath.c_str(),configAuthToken))
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"could not write authtoken.secret (home path not writable?)");
}
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Utils::lockDownFile(configAuthTokenPath.c_str(),false);
// Create the objects that make up runtime state.
_r->mc = new Multicaster();
_r->sw = new Switch(_r);
_r->sm = new SocketManager(impl->udpPort,impl->tcpPort,&_CBztTraffic,_r);
_r->topology = new Topology(_r,Utils::fileExists((_r->homePath + ZT_PATH_SEPARATOR_S + "iddb.d").c_str()));
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_r->sysEnv = new SysEnv();
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try {
_r->nc = new NodeConfig(_r,configAuthToken.c_str());
} catch (std::exception &exc) {
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"unable to initialize IPC socket: is ZeroTier One already running?");
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}
_r->node = this;
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#ifdef ZT_AUTO_UPDATE
if (ZT_DEFAULTS.updateLatestNfoURL.length()) {
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_r->updater = new SoftwareUpdater(_r);
_r->updater->cleanOldUpdates(); // clean out updates.d on startup
} else {
LOG("WARNING: unable to enable software updates: latest .nfo URL from ZT_DEFAULTS is empty (does this platform actually support software updates?)");
}
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#endif
// Set initial supernode list
_r->topology->setSupernodes(ZT_DEFAULTS.supernodes);
} catch (std::bad_alloc &exc) {
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"memory allocation failure");
} catch (std::runtime_error &exc) {
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,exc.what());
} catch ( ... ) {
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"unknown exception during initialization");
}
// Start external service subprocesses, which is only used by special nodes
// right now and isn't available on Windows.
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#ifndef __WINDOWS__
try {
std::string netconfServicePath(_r->homePath + ZT_PATH_SEPARATOR_S + "services.d" + ZT_PATH_SEPARATOR_S + "netconf.service");
if (Utils::fileExists(netconfServicePath.c_str())) {
LOG("netconf.d/netconf.service appears to exist, starting...");
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_r->netconfService = new Service(_r,"netconf",netconfServicePath.c_str(),&_netconfServiceMessageHandler,_r);
Dictionary initMessage;
initMessage["type"] = "netconf-init";
initMessage["netconfId"] = _r->identity.toString(true);
_r->netconfService->send(initMessage);
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}
} catch ( ... ) {
LOG("unexpected exception attempting to start services");
}
#endif
// Core I/O loop
try {
/* Shut down if this file exists but fails to open. This is used on Mac to
* shut down automatically on .app deletion by symlinking this to the
* Info.plist file inside the ZeroTier One application. This causes the
* service to die when the user throws away the app, allowing uninstallation
* in the natural Mac way. */
std::string shutdownIfUnreadablePath(_r->homePath + ZT_PATH_SEPARATOR_S + "shutdownIfUnreadable");
uint64_t lastNetworkAutoconfCheck = Utils::now() - 5000ULL; // check autoconf again after 5s for startup
uint64_t lastPingCheck = 0;
uint64_t lastSupernodePing = 0;
uint64_t lastClean = Utils::now(); // don't need to do this immediately
uint64_t lastNetworkFingerprintCheck = 0;
uint64_t lastMulticastCheck = 0;
uint64_t networkConfigurationFingerprint = _r->sysEnv->getNetworkConfigurationFingerprint(_r->nc->networkTapDeviceNames());
_r->timeOfLastNetworkEnvironmentChange = Utils::now();
long lastDelayDelta = 0;
while (impl->reasonForTermination == NODE_RUNNING) {
if (Utils::fileExists(shutdownIfUnreadablePath.c_str(),false)) {
FILE *tmpf = fopen(shutdownIfUnreadablePath.c_str(),"r");
if (!tmpf)
return impl->terminateBecause(Node::NODE_NORMAL_TERMINATION,"shutdownIfUnreadable exists but is not readable");
fclose(tmpf);
}
uint64_t now = Utils::now();
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bool resynchronize = impl->resynchronize;
if (resynchronize) {
LOG("manual resynchronize ordered, resyncing with network");
}
impl->resynchronize = false;
// If it looks like the computer slept and woke, resynchronize.
if (lastDelayDelta >= ZT_SLEEP_WAKE_DETECTION_THRESHOLD) {
resynchronize = true;
LOG("probable suspend/resume detected, pausing a moment for things to settle...");
Thread::sleep(ZT_SLEEP_WAKE_SETTLE_TIME);
}
// If our network environment looks like it changed, resynchronize.
if ((resynchronize)||((now - lastNetworkFingerprintCheck) >= ZT_NETWORK_FINGERPRINT_CHECK_DELAY)) {
lastNetworkFingerprintCheck = now;
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uint64_t fp = _r->sysEnv->getNetworkConfigurationFingerprint(_r->nc->networkTapDeviceNames());
if (fp != networkConfigurationFingerprint) {
LOG("netconf fingerprint change: %.16llx != %.16llx, resyncing with network",networkConfigurationFingerprint,fp);
networkConfigurationFingerprint = fp;
_r->timeOfLastNetworkEnvironmentChange = now;
resynchronize = true;
}
}
// Ping supernodes separately for two reasons: (1) supernodes only ping each
// other, and (2) we still want to ping them first on resynchronize.
if ((resynchronize)||((now - lastSupernodePing) >= ZT_PEER_DIRECT_PING_DELAY)) {
lastSupernodePing = now;
std::vector< SharedPtr<Peer> > sns(_r->topology->supernodePeers());
TRACE("pinging %d supernodes",(int)sns.size());
for(std::vector< SharedPtr<Peer> >::const_iterator p(sns.begin());p!=sns.end();++p)
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(*p)->sendPing(_r,now,resynchronize);
}
if (resynchronize) {
/* If resynchronizing, forget P2P links to all peers and then send
* something to formerly active ones. This will relay via a supernode
* which will trigger a new RENDEZVOUS and a new hole punch. This
* functor excludes supernodes, which are pinged separately above. */
_r->topology->eachPeer(Topology::ResetActivePeers(_r,now));
_r->sm->closeTcpSockets();
} else {
// Periodically check for changes in our local multicast subscriptions
// and broadcast those changes to directly connected peers.
if ((now - lastMulticastCheck) >= ZT_MULTICAST_LOCAL_POLL_PERIOD) {
lastMulticastCheck = now;
try {
std::map< SharedPtr<Network>,std::set<MulticastGroup> > toAnnounce;
std::vector< SharedPtr<Network> > networks(_r->nc->networks());
for(std::vector< SharedPtr<Network> >::const_iterator nw(networks.begin());nw!=networks.end();++nw) {
if ((*nw)->updateMulticastGroups())
toAnnounce.insert(std::pair< SharedPtr<Network>,std::set<MulticastGroup> >(*nw,(*nw)->multicastGroups()));
}
if (toAnnounce.size())
_r->sw->announceMulticastGroups(toAnnounce);
} catch (std::exception &exc) {
LOG("unexpected exception announcing multicast groups: %s",exc.what());
} catch ( ... ) {
LOG("unexpected exception announcing multicast groups: (unknown)");
}
}
// Periodically ping all our non-stale direct peers unless we're a supernode.
// Supernodes only ping each other (which is done above).
if (!_r->topology->amSupernode()) {
if ((now - lastPingCheck) >= ZT_PING_CHECK_DELAY) {
lastPingCheck = now;
try {
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_r->topology->eachPeer(Topology::PingPeersThatNeedPing(_r,now,resynchronize));
_r->topology->eachPeer(Topology::OpenPeersThatNeedFirewallOpener(_r,now));
} catch (std::exception &exc) {
LOG("unexpected exception running ping check cycle: %s",exc.what());
} catch ( ... ) {
LOG("unexpected exception running ping check cycle: (unkonwn)");
}
}
}
}
// Periodically or on resynchronize update network configurations.
if ((resynchronize)||((now - lastNetworkAutoconfCheck) >= ZT_NETWORK_AUTOCONF_CHECK_DELAY)) {
lastNetworkAutoconfCheck = now;
std::vector< SharedPtr<Network> > nets(_r->nc->networks());
for(std::vector< SharedPtr<Network> >::iterator n(nets.begin());n!=nets.end();++n) {
if ((now - (*n)->lastConfigUpdate()) >= ZT_NETWORK_AUTOCONF_DELAY)
(*n)->requestConfiguration();
}
}
// Do periodic cleanup, flushes of stuff to disk, software update
// checks, etc.
if ((now - lastClean) >= ZT_DB_CLEAN_PERIOD) {
lastClean = now;
_r->mc->clean();
_r->topology->clean();
_r->nc->clean();
if (_r->updater)
_r->updater->checkIfMaxIntervalExceeded(now);
}
// Sleep for loop interval or until something interesting happens.
try {
unsigned long delay = std::min((unsigned long)ZT_MIN_SERVICE_LOOP_INTERVAL,_r->sw->doTimerTasks());
uint64_t start = Utils::now();
_r->sm->poll(delay);
lastDelayDelta = (long)(Utils::now() - start) - (long)delay; // used to detect sleep/wake
} catch (std::exception &exc) {
LOG("unexpected exception running Switch doTimerTasks: %s",exc.what());
} catch ( ... ) {
LOG("unexpected exception running Switch doTimerTasks: (unknown)");
}
}
} catch ( ... ) {
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LOG("FATAL: unexpected exception in core loop: unknown exception");
return impl->terminateBecause(Node::NODE_UNRECOVERABLE_ERROR,"unexpected exception during outer main I/O loop");
}
return impl->terminate();
}
const char *Node::reasonForTermination() const
throw()
{
if ((!((_NodeImpl *)_impl)->started)||(((_NodeImpl *)_impl)->running))
return (const char *)0;
return ((_NodeImpl *)_impl)->reasonForTerminationStr.c_str();
}
void Node::terminate(ReasonForTermination reason,const char *reasonText)
throw()
{
((_NodeImpl *)_impl)->reasonForTermination = reason;
((_NodeImpl *)_impl)->reasonForTerminationStr = ((reasonText) ? reasonText : "");
((_NodeImpl *)_impl)->renv.sm->whack();
}
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void Node::resync()
throw()
{
((_NodeImpl *)_impl)->resynchronize = true;
((_NodeImpl *)_impl)->renv.sm->whack();
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}
class _VersionStringMaker
{
public:
char vs[32];
_VersionStringMaker()
{
Utils::snprintf(vs,sizeof(vs),"%d.%d.%d",(int)ZEROTIER_ONE_VERSION_MAJOR,(int)ZEROTIER_ONE_VERSION_MINOR,(int)ZEROTIER_ONE_VERSION_REVISION);
}
~_VersionStringMaker() {}
};
static const _VersionStringMaker __versionString;
const char *Node::versionString() throw() { return __versionString.vs; }
unsigned int Node::versionMajor() throw() { return ZEROTIER_ONE_VERSION_MAJOR; }
unsigned int Node::versionMinor() throw() { return ZEROTIER_ONE_VERSION_MINOR; }
unsigned int Node::versionRevision() throw() { return ZEROTIER_ONE_VERSION_REVISION; }
} // namespace ZeroTier