package nebula import ( "context" "encoding/binary" "fmt" "net" "time" "github.com/sirupsen/logrus" "github.com/slackhq/nebula/config" "github.com/slackhq/nebula/overlay" "github.com/slackhq/nebula/sshd" "github.com/slackhq/nebula/udp" "github.com/slackhq/nebula/util" "gopkg.in/yaml.v2" ) type m map[string]interface{} func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logger, tunFd *int) (retcon *Control, reterr error) { ctx, cancel := context.WithCancel(context.Background()) // Automatically cancel the context if Main returns an error, to signal all created goroutines to quit. defer func() { if reterr != nil { cancel() } }() l := logger l.Formatter = &logrus.TextFormatter{ FullTimestamp: true, } // Print the config if in test, the exit comes later if configTest { b, err := yaml.Marshal(c.Settings) if err != nil { return nil, err } // Print the final config l.Println(string(b)) } err := configLogger(l, c) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to configure the logger", err) } c.RegisterReloadCallback(func(c *config.C) { err := configLogger(l, c) if err != nil { l.WithError(err).Error("Failed to configure the logger") } }) pki, err := NewPKIFromConfig(l, c) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to load PKI from config", err) } certificate := pki.GetCertState().Certificate fw, err := NewFirewallFromConfig(l, certificate, c) if err != nil { return nil, util.ContextualizeIfNeeded("Error while loading firewall rules", err) } l.WithField("firewallHash", fw.GetRuleHash()).Info("Firewall started") // TODO: make sure mask is 4 bytes tunCidr := certificate.Details.Ips[0] ssh, err := sshd.NewSSHServer(l.WithField("subsystem", "sshd")) wireSSHReload(l, ssh, c) var sshStart func() if c.GetBool("sshd.enabled", false) { sshStart, err = configSSH(l, ssh, c) if err != nil { return nil, util.ContextualizeIfNeeded("Error while configuring the sshd", err) } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // All non system modifying configuration consumption should live above this line // tun config, listeners, anything modifying the computer should be below //////////////////////////////////////////////////////////////////////////////////////////////////////////////////// var routines int // If `routines` is set, use that and ignore the specific values if routines = c.GetInt("routines", 0); routines != 0 { if routines < 1 { routines = 1 } if routines > 1 { l.WithField("routines", routines).Info("Using multiple routines") } } else { // deprecated and undocumented tunQueues := c.GetInt("tun.routines", 1) udpQueues := c.GetInt("listen.routines", 1) if tunQueues > udpQueues { routines = tunQueues } else { routines = udpQueues } if routines != 1 { l.WithField("routines", routines).Warn("Setting tun.routines and listen.routines is deprecated. Use `routines` instead") } } // EXPERIMENTAL // Intentionally not documented yet while we do more testing and determine // a good default value. conntrackCacheTimeout := c.GetDuration("firewall.conntrack.routine_cache_timeout", 0) if routines > 1 && !c.IsSet("firewall.conntrack.routine_cache_timeout") { // Use a different default if we are running with multiple routines conntrackCacheTimeout = 1 * time.Second } if conntrackCacheTimeout > 0 { l.WithField("duration", conntrackCacheTimeout).Info("Using routine-local conntrack cache") } var tun overlay.Device if !configTest { c.CatchHUP(ctx) tun, err = overlay.NewDeviceFromConfig(c, l, tunCidr, tunFd, routines) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to get a tun/tap device", err) } defer func() { if reterr != nil { tun.Close() } }() } // set up our UDP listener udpConns := make([]udp.Conn, routines) port := c.GetInt("listen.port", 0) if !configTest { rawListenHost := c.GetString("listen.host", "0.0.0.0") var listenHost *net.IPAddr if rawListenHost == "[::]" { // Old guidance was to provide the literal `[::]` in `listen.host` but that won't resolve. listenHost = &net.IPAddr{IP: net.IPv6zero} } else { listenHost, err = net.ResolveIPAddr("ip", rawListenHost) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to resolve listen.host", err) } } for i := 0; i < routines; i++ { udpServer, err := udp.NewListener(l, listenHost.IP, port, routines > 1, c.GetInt("listen.batch", 64)) if err != nil { return nil, util.NewContextualError("Failed to open udp listener", m{"queue": i}, err) } udpServer.ReloadConfig(c) udpConns[i] = udpServer } } // Set up my internal host map var preferredRanges []*net.IPNet rawPreferredRanges := c.GetStringSlice("preferred_ranges", []string{}) // First, check if 'preferred_ranges' is set and fallback to 'local_range' if len(rawPreferredRanges) > 0 { for _, rawPreferredRange := range rawPreferredRanges { _, preferredRange, err := net.ParseCIDR(rawPreferredRange) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to parse preferred ranges", err) } preferredRanges = append(preferredRanges, preferredRange) } } // local_range was superseded by preferred_ranges. If it is still present, // merge the local_range setting into preferred_ranges. We will probably // deprecate local_range and remove in the future. rawLocalRange := c.GetString("local_range", "") if rawLocalRange != "" { _, localRange, err := net.ParseCIDR(rawLocalRange) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to parse local_range", err) } // Check if the entry for local_range was already specified in // preferred_ranges. Don't put it into the slice twice if so. var found bool for _, r := range preferredRanges { if r.String() == localRange.String() { found = true break } } if !found { preferredRanges = append(preferredRanges, localRange) } } hostMap := NewHostMap(l, tunCidr, preferredRanges) hostMap.metricsEnabled = c.GetBool("stats.message_metrics", false) l. WithField("network", hostMap.vpnCIDR.String()). WithField("preferredRanges", hostMap.preferredRanges). Info("Main HostMap created") punchy := NewPunchyFromConfig(l, c) lightHouse, err := NewLightHouseFromConfig(ctx, l, c, tunCidr, udpConns[0], punchy) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to initialize lighthouse handler", err) } var messageMetrics *MessageMetrics if c.GetBool("stats.message_metrics", false) { messageMetrics = newMessageMetrics() } else { messageMetrics = newMessageMetricsOnlyRecvError() } useRelays := c.GetBool("relay.use_relays", DefaultUseRelays) && !c.GetBool("relay.am_relay", false) handshakeConfig := HandshakeConfig{ tryInterval: c.GetDuration("handshakes.try_interval", DefaultHandshakeTryInterval), retries: c.GetInt("handshakes.retries", DefaultHandshakeRetries), triggerBuffer: c.GetInt("handshakes.trigger_buffer", DefaultHandshakeTriggerBuffer), useRelays: useRelays, messageMetrics: messageMetrics, } handshakeManager := NewHandshakeManager(l, hostMap, lightHouse, udpConns[0], handshakeConfig) lightHouse.handshakeTrigger = handshakeManager.trigger serveDns := false if c.GetBool("lighthouse.serve_dns", false) { if c.GetBool("lighthouse.am_lighthouse", false) { serveDns = true } else { l.Warn("DNS server refusing to run because this host is not a lighthouse.") } } checkInterval := c.GetInt("timers.connection_alive_interval", 5) pendingDeletionInterval := c.GetInt("timers.pending_deletion_interval", 10) ifConfig := &InterfaceConfig{ HostMap: hostMap, Inside: tun, Outside: udpConns[0], pki: pki, Cipher: c.GetString("cipher", "aes"), Firewall: fw, ServeDns: serveDns, HandshakeManager: handshakeManager, lightHouse: lightHouse, checkInterval: time.Second * time.Duration(checkInterval), pendingDeletionInterval: time.Second * time.Duration(pendingDeletionInterval), tryPromoteEvery: c.GetUint32("counters.try_promote", defaultPromoteEvery), reQueryEvery: c.GetUint32("counters.requery_every_packets", defaultReQueryEvery), reQueryWait: c.GetDuration("timers.requery_wait_duration", defaultReQueryWait), DropLocalBroadcast: c.GetBool("tun.drop_local_broadcast", false), DropMulticast: c.GetBool("tun.drop_multicast", false), routines: routines, MessageMetrics: messageMetrics, version: buildVersion, disconnectInvalid: c.GetBool("pki.disconnect_invalid", false), relayManager: NewRelayManager(ctx, l, hostMap, c), punchy: punchy, ConntrackCacheTimeout: conntrackCacheTimeout, l: l, } switch ifConfig.Cipher { case "aes": noiseEndianness = binary.BigEndian case "chachapoly": noiseEndianness = binary.LittleEndian default: return nil, fmt.Errorf("unknown cipher: %v", ifConfig.Cipher) } var ifce *Interface if !configTest { ifce, err = NewInterface(ctx, ifConfig) if err != nil { return nil, fmt.Errorf("failed to initialize interface: %s", err) } // TODO: Better way to attach these, probably want a new interface in InterfaceConfig // I don't want to make this initial commit too far-reaching though ifce.writers = udpConns lightHouse.ifce = ifce ifce.RegisterConfigChangeCallbacks(c) ifce.reloadSendRecvError(c) handshakeManager.f = ifce go handshakeManager.Run(ctx) } // TODO - stats third-party modules start uncancellable goroutines. Update those libs to accept // a context so that they can exit when the context is Done. statsStart, err := startStats(l, c, buildVersion, configTest) if err != nil { return nil, util.ContextualizeIfNeeded("Failed to start stats emitter", err) } if configTest { return nil, nil } //TODO: check if we _should_ be emitting stats go ifce.emitStats(ctx, c.GetDuration("stats.interval", time.Second*10)) attachCommands(l, c, ssh, ifce) // Start DNS server last to allow using the nebula IP as lighthouse.dns.host var dnsStart func() if lightHouse.amLighthouse && serveDns { l.Debugln("Starting dns server") dnsStart = dnsMain(l, hostMap, c) } return &Control{ ifce, l, cancel, sshStart, statsStart, dnsStart, lightHouse.StartUpdateWorker, }, nil }