nebula/main.go

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package nebula
import (
"context"
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"encoding/binary"
"fmt"
"net"
"net/netip"
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"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"
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)
type m map[string]interface{}
func Main(c *config.C, configTest bool, buildVersion string, logger *logrus.Logger, deviceFactory overlay.DeviceFactory) (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()
}
}()
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l := logger
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l.Formatter = &logrus.TextFormatter{
FullTimestamp: true,
}
// Print the config if in test, the exit comes later
if configTest {
b, err := yaml.Marshal(c.Settings)
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if err != nil {
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return nil, err
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}
// Print the final config
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l.Println(string(b))
}
err := configLogger(l, c)
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if err != nil {
return nil, util.ContextualizeIfNeeded("Failed to configure the logger", err)
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}
c.RegisterReloadCallback(func(c *config.C) {
err := configLogger(l, c)
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if err != nil {
l.WithError(err).Error("Failed to configure the logger")
}
})
pki, err := NewPKIFromConfig(l, c)
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if err != nil {
return nil, util.ContextualizeIfNeeded("Failed to load PKI from config", err)
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}
certificate := pki.GetCertState().Certificate
fw, err := NewFirewallFromConfig(l, certificate, c)
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if err != nil {
return nil, util.ContextualizeIfNeeded("Error while loading firewall rules", err)
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}
l.WithField("firewallHashes", fw.GetRuleHashes()).Info("Firewall started")
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tunCidr := certificate.Networks()[0]
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ssh, err := sshd.NewSSHServer(l.WithField("subsystem", "sshd"))
if err != nil {
return nil, util.ContextualizeIfNeeded("Error while creating SSH server", err)
}
wireSSHReload(l, ssh, c)
var sshStart func()
if c.GetBool("sshd.enabled", false) {
sshStart, err = configSSH(l, ssh, c)
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if err != nil {
return nil, util.ContextualizeIfNeeded("Error while configuring the sshd", err)
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}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// 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)
if deviceFactory == nil {
deviceFactory = overlay.NewDeviceFromConfig
}
tun, err = deviceFactory(c, l, tunCidr, routines)
if err != nil {
return nil, util.ContextualizeIfNeeded("Failed to get a tun/tap device", err)
}
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defer func() {
if reterr != nil {
tun.Close()
}
}()
}
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// set up our UDP listener
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udpConns := make([]udp.Conn, routines)
port := c.GetInt("listen.port", 0)
if !configTest {
rawListenHost := c.GetString("listen.host", "0.0.0.0")
var listenHost netip.Addr
if rawListenHost == "[::]" {
// Old guidance was to provide the literal `[::]` in `listen.host` but that won't resolve.
listenHost = netip.IPv6Unspecified()
} else {
ips, err := net.DefaultResolver.LookupNetIP(context.Background(), "ip", rawListenHost)
if err != nil {
return nil, util.ContextualizeIfNeeded("Failed to resolve listen.host", err)
}
if len(ips) == 0 {
return nil, util.ContextualizeIfNeeded("Failed to resolve listen.host", err)
}
listenHost = ips[0].Unmap()
}
for i := 0; i < routines; i++ {
l.Infof("listening on %v", netip.AddrPortFrom(listenHost, uint16(port)))
udpServer, err := udp.NewListener(l, listenHost, 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
// If port is dynamic, discover it before the next pass through the for loop
// This way all routines will use the same port correctly
if port == 0 {
uPort, err := udpServer.LocalAddr()
if err != nil {
return nil, util.NewContextualError("Failed to get listening port", nil, err)
}
port = int(uPort.Port())
}
}
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}
hostMap := NewHostMapFromConfig(l, tunCidr, c)
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: int64(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
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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)
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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,
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version: buildVersion,
relayManager: NewRelayManager(ctx, l, hostMap, c),
punchy: punchy,
ConntrackCacheTimeout: conntrackCacheTimeout,
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l: l,
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}
switch ifConfig.Cipher {
case "aes":
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noiseEndianness = binary.BigEndian
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case "chachapoly":
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noiseEndianness = binary.LittleEndian
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default:
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return nil, fmt.Errorf("unknown cipher: %v", ifConfig.Cipher)
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}
var ifce *Interface
if !configTest {
ifce, err = NewInterface(ctx, ifConfig)
if err != nil {
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return nil, fmt.Errorf("failed to initialize interface: %s", err)
}
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// 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.reloadDisconnectInvalid(c)
ifce.reloadSendRecvError(c)
handshakeManager.f = ifce
go handshakeManager.Run(ctx)
}
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// 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)
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if err != nil {
return nil, util.ContextualizeIfNeeded("Failed to start stats emitter", err)
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}
if configTest {
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return nil, nil
}
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//TODO: check if we _should_ be emitting stats
go ifce.emitStats(ctx, c.GetDuration("stats.interval", time.Second*10))
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attachCommands(l, c, ssh, ifce)
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// 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,
ctx,
cancel,
sshStart,
statsStart,
dnsStart,
lightHouse.StartUpdateWorker,
}, nil
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}