Files
netbird/client/internal/connect.go
Zoltan Papp ac9529ea8c [client] Fix engine lifecyrcle race (#6443)
* [client] always clean up on Engine.Start failure via defer

The rosenpass init paths (NewManager/Run) returned without calling
e.close(), leaking the WireGuard interface and other partially
initialized state on failure. Per-branch cleanup was easy to miss when
adding new early returns.

Convert Start to a named error return and tear down via a single defer
that calls e.close() whenever err != nil, removing the scattered
per-branch close() calls (including the redundant one in initFirewall).

* [client] make Engine single-use and guard against double Start

Create the run context once in NewEngine instead of in Start. This
keeps e.cancel valid for the engine's whole lifetime, so Stop can
cancel a Start that is blocked waiting on the network while holding
syncMsgMux: Stop now cancels before taking the lock, unblocking that
Start so it can release the mutex.

Reject re-entry into Start: a non-nil wgInterface means a prior Start
already ran (ErrEngineAlreadyStarted), and a cancelled run context
means the engine was stopped (ErrEngineAlreadyStopped). Both checks run
before the cleanup defer so a duplicate call cannot tear down the
running engine's state.

* [client] let engine context unblock WaitStreamConnected

WaitStreamConnected only watched the signal client's own context, which
derives from the parent engineCtx rather than the engine's run context.
A Start blocked here (signal stream not yet up) could therefore not be
released by Engine.Stop, since Stop only cancels the engine's run
context.

Pass a context into WaitStreamConnected and select on it too, and have
the engine pass e.ctx, so Stop cancelling e.ctx unblocks a parked Start.
Update the Client interface, the mock, and callers accordingly.

* [client] fix Start/Stop race by making the run loop own engine shutdown

ConnectClient.Stop stopped the engine directly while the run loop's
backoff cycle could still be starting an engine, so Engine.close raced
Engine.Start (e.g. firewall setup reading wgInterface while close nils
it). embed.Client.Start's rollback only avoided a deadlock by cancelling
before Stop; the race itself remained and was caught by -race.

Make the run loop the sole owner of engine shutdown: derive the run
context in NewConnectClient, and have Stop cancel it and wait for the
loop to exit (skipping the wait when the loop never ran) instead of
calling engine.Stop. The loop now always stops the engine on its way
out, dropping the unsynchronised wgInterface check it used to guard that
call. Self-calls from within the loop use runCancel to avoid waiting on
themselves.

embed keeps a defensive pre-Stop cancel(); the daemon's cleanupConnection
gets a TODO to adopt Stop() rather than stopping the engine in parallel.

* [client] init context state in engine tests

Engine tests built the engine context with context.WithCancel(
context.Background()), omitting CtxInitState. Now that the run context
is created in the constructor, the wgIfaceMonitor goroutine can reach
triggerClientRestart during teardown, which calls CtxGetState and
panics on the missing state. Real entry points (up, embed, service)
always CtxInitState; only the tests skipped it.

* [client] interrupt connect backoff on context cancel

The run loop retried with a raw ExponentialBackOff, so a backoff sleep
ignored context cancellation. Now that ConnectClient.Stop waits for the
run loop to exit, a cancel landing during a sleep would block Stop for
the full interval (up to MaxInterval). Wrap the backoff with the run
context so Retry returns promptly on cancel; the retry budget itself
(MaxElapsedTime) is unchanged.

* [client] bound WaitStreamConnected in signal client tests

The tests waited on WaitStreamConnected with context.Background() and the
client's own context was also Background, so a stream that never connects
would hang until the suite timeout. Pass a 5s timeout context and assert
StreamConnected afterwards so the tests fail fast with a clear reason.

* [client] fix WaitStreamConnected stale-channel race

The StreamConnected check and the wait-channel creation took the mutex
separately, so notifyStreamConnected could set the status and close/clear
connectedCh in between: the waiter then created a fresh channel nobody
would ever close and blocked forever. Also, the status read was unlocked
while notify wrote it under the mutex (a data race). Do the check and the
channel fetch in one locked section; drop the now-unused
getStreamStatusChan helper. Pre-existing bug, not introduced by this branch.

* [client] abort Start if context cancelled while waiting for signal stream

receiveSignalEvents blocks in WaitStreamConnected until the signal stream
connects or the context is cancelled. If Stop cancelled e.ctx while Start
was parked there, Start kept going: it started the remaining subsystems on
a cancelled context and marked a shutting-down engine as started. Return
the context error from receiveSignalEvents and propagate it from Start, so
the deferred cleanup runs and the cancellation reaches the caller.

* [client] clean up all started components on Start failure

Start's failure defer only called close(), which covers the wg interface,
firewall, rosenpass and port forwarding but leaves connMgr, srWatcher,
route/DNS/flow/state managers and the monitor goroutines running. A late
failure (e.g. the context-cancelled check after the signal stream) thus
leaked them.

Extract Stop's locked teardown into stopLocked (caller holds syncMsgMux,
does not wait on shutdownWg) and call it from both Stop and Start's defer.
The defer also cancels the run context first so goroutines started before
the failure unwind. Teardown order is unchanged.
2026-06-22 13:52:57 +02:00

731 lines
22 KiB
Go

package internal
import (
"context"
"errors"
"fmt"
"net"
"net/netip"
"path/filepath"
"runtime"
"runtime/debug"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/cenkalti/backoff/v4"
log "github.com/sirupsen/logrus"
"golang.zx2c4.com/wireguard/wgctrl/wgtypes"
"google.golang.org/grpc/codes"
gstatus "google.golang.org/grpc/status"
"github.com/netbirdio/netbird/client/iface/wgaddr"
"github.com/netbirdio/netbird/client/iface"
"github.com/netbirdio/netbird/client/iface/device"
"github.com/netbirdio/netbird/client/iface/netstack"
"github.com/netbirdio/netbird/client/internal/dns"
"github.com/netbirdio/netbird/client/internal/listener"
"github.com/netbirdio/netbird/client/internal/metrics"
"github.com/netbirdio/netbird/client/internal/peer"
"github.com/netbirdio/netbird/client/internal/profilemanager"
"github.com/netbirdio/netbird/client/internal/statemanager"
"github.com/netbirdio/netbird/client/internal/stdnet"
"github.com/netbirdio/netbird/client/internal/updater"
"github.com/netbirdio/netbird/client/internal/updater/installer"
nbnet "github.com/netbirdio/netbird/client/net"
cProto "github.com/netbirdio/netbird/client/proto"
"github.com/netbirdio/netbird/client/ssh"
sshconfig "github.com/netbirdio/netbird/client/ssh/config"
"github.com/netbirdio/netbird/client/system"
mgm "github.com/netbirdio/netbird/shared/management/client"
mgmProto "github.com/netbirdio/netbird/shared/management/proto"
"github.com/netbirdio/netbird/shared/relay/auth/hmac"
relayClient "github.com/netbirdio/netbird/shared/relay/client"
signal "github.com/netbirdio/netbird/shared/signal/client"
"github.com/netbirdio/netbird/util"
"github.com/netbirdio/netbird/version"
)
// androidRunOverride is set on Android to inject mobile dependencies
// when using embed.Client (which calls Run() with empty MobileDependency).
var androidRunOverride func(c *ConnectClient, runningChan chan struct{}, logPath string) error
type ConnectClient struct {
ctx context.Context
runCancel context.CancelFunc
runExited chan struct{}
runOnce sync.Once
runStarted atomic.Bool
config *profilemanager.Config
statusRecorder *peer.Status
engine *Engine
engineMutex sync.Mutex
clientMetrics *metrics.ClientMetrics
updateManager *updater.Manager
persistSyncResponse bool
}
func NewConnectClient(
ctx context.Context,
config *profilemanager.Config,
statusRecorder *peer.Status,
) *ConnectClient {
// Derive the run context here so Stop owns the cancel that unblocks the run
// loop. runCancel is set once at construction, so Stop can call it without
// racing the run loop's startup. Callers therefore need not cancel before Stop.
runCtx, runCancel := context.WithCancel(ctx)
return &ConnectClient{
ctx: runCtx,
runCancel: runCancel,
runExited: make(chan struct{}),
config: config,
statusRecorder: statusRecorder,
engineMutex: sync.Mutex{},
}
}
func (c *ConnectClient) SetUpdateManager(um *updater.Manager) {
c.updateManager = um
}
// Run with main logic.
func (c *ConnectClient) Run(runningChan chan struct{}, logPath string) error {
if androidRunOverride != nil {
return androidRunOverride(c, runningChan, logPath)
}
return c.run(MobileDependency{}, runningChan, logPath)
}
// RunOnAndroid with main logic on mobile system
func (c *ConnectClient) RunOnAndroid(
tunAdapter device.TunAdapter,
iFaceDiscover stdnet.ExternalIFaceDiscover,
networkChangeListener listener.NetworkChangeListener,
dnsAddresses []netip.AddrPort,
dnsReadyListener dns.ReadyListener,
stateFilePath string,
cacheDir string,
) error {
// in case of non Android os these variables will be nil
mobileDependency := MobileDependency{
TunAdapter: tunAdapter,
IFaceDiscover: iFaceDiscover,
NetworkChangeListener: networkChangeListener,
HostDNSAddresses: dnsAddresses,
DnsReadyListener: dnsReadyListener,
StateFilePath: stateFilePath,
TempDir: cacheDir,
}
return c.run(mobileDependency, nil, "")
}
func (c *ConnectClient) RunOniOS(
fileDescriptor int32,
networkChangeListener listener.NetworkChangeListener,
dnsManager dns.IosDnsManager,
stateFilePath string,
cacheDir string,
logFilePath string,
) error {
// Set GC percent to 5% to reduce memory usage as iOS only allows 50MB of memory for the extension.
debug.SetGCPercent(5)
mobileDependency := MobileDependency{
FileDescriptor: fileDescriptor,
NetworkChangeListener: networkChangeListener,
DnsManager: dnsManager,
StateFilePath: stateFilePath,
TempDir: cacheDir,
}
return c.run(mobileDependency, nil, logFilePath)
}
func (c *ConnectClient) run(mobileDependency MobileDependency, runningChan chan struct{}, logPath string) error {
// Mark the loop as started and signal exit on return so Stop can wait for
// the loop to finish (and skip the wait if the loop never ran).
c.runStarted.Store(true)
defer c.runOnce.Do(func() { close(c.runExited) })
defer func() {
if r := recover(); r != nil {
rec := c.statusRecorder
if rec != nil {
rec.PublishEvent(
cProto.SystemEvent_CRITICAL, cProto.SystemEvent_SYSTEM,
"panic occurred",
"The Netbird service panicked. Please restart the service and submit a bug report with the client logs.",
nil,
)
}
log.Panicf("Panic occurred: %v, stack trace: %s", r, string(debug.Stack()))
}
}()
// Stop metrics push on exit
defer func() {
if c.clientMetrics != nil {
c.clientMetrics.StopPush()
}
}()
log.Infof("starting NetBird client version %s on %s/%s", version.NetbirdVersion(), runtime.GOOS, runtime.GOARCH)
nbnet.Init()
// Initialize metrics once at startup (always active for debug bundles)
if c.clientMetrics == nil {
agentInfo := metrics.AgentInfo{
DeploymentType: metrics.DeploymentTypeUnknown,
Version: version.NetbirdVersion(),
OS: runtime.GOOS,
Arch: runtime.GOARCH,
}
c.clientMetrics = metrics.NewClientMetrics(agentInfo)
log.Debugf("initialized client metrics")
// Start metrics push if enabled (uses daemon context, persists across engine restarts)
if metrics.IsMetricsPushEnabled() {
c.clientMetrics.StartPush(c.ctx, metrics.PushConfigFromEnv())
}
}
backOff := &backoff.ExponentialBackOff{
InitialInterval: time.Second,
RandomizationFactor: 1,
Multiplier: 1.7,
MaxInterval: 15 * time.Second,
MaxElapsedTime: 3 * 30 * 24 * time.Hour, // 3 months
Stop: backoff.Stop,
Clock: backoff.SystemClock,
}
state := CtxGetState(c.ctx)
defer func() {
s, err := state.Status()
if err != nil || s != StatusNeedsLogin {
state.Set(StatusIdle)
}
}()
wrapErr := state.Wrap
myPrivateKey, err := wgtypes.ParseKey(c.config.PrivateKey)
if err != nil {
log.Errorf("failed parsing Wireguard key %s: [%s]", c.config.PrivateKey, err.Error())
return wrapErr(err)
}
var mgmTlsEnabled bool
if c.config.ManagementURL.Scheme == "https" {
mgmTlsEnabled = true
}
publicSSHKey, err := ssh.GeneratePublicKey([]byte(c.config.SSHKey))
if err != nil {
return err
}
var path string
if runtime.GOOS == "ios" || runtime.GOOS == "android" {
// On mobile, use the provided state file path directly
if !fileExists(mobileDependency.StateFilePath) {
if err := createFile(mobileDependency.StateFilePath); err != nil {
log.Errorf("failed to create state file: %v", err)
// we are not exiting as we can run without the state manager
}
}
path = mobileDependency.StateFilePath
} else {
sm := profilemanager.NewServiceManager("")
path = sm.GetStatePath()
}
stateManager := statemanager.New(path)
stateManager.RegisterState(&sshconfig.ShutdownState{})
if c.updateManager != nil {
c.updateManager.CheckUpdateSuccess(c.ctx)
}
inst := installer.New()
if err := inst.CleanUpInstallerFiles(); err != nil {
log.Errorf("failed to clean up temporary installer file: %v", err)
}
defer c.statusRecorder.ClientStop()
operation := func() error {
// if context cancelled we not start new backoff cycle
if c.ctx.Err() != nil {
return nil
}
state.Set(StatusConnecting)
engineCtx, cancel := context.WithCancel(c.ctx)
defer func() {
_, err := state.Status()
c.statusRecorder.MarkManagementDisconnected(err)
c.statusRecorder.CleanLocalPeerState()
cancel()
}()
log.Debugf("connecting to the Management service %s", c.config.ManagementURL.Host)
mgmClient, err := mgm.NewClient(engineCtx, c.config.ManagementURL.Host, myPrivateKey, mgmTlsEnabled)
if err != nil {
return wrapErr(gstatus.Errorf(codes.FailedPrecondition, "failed connecting to Management Service : %s", err))
}
mgmNotifier := statusRecorderToMgmConnStateNotifier(c.statusRecorder)
mgmClient.SetConnStateListener(mgmNotifier)
// Update metrics with actual deployment type after connection
deploymentType := metrics.DetermineDeploymentType(mgmClient.GetServerURL())
agentInfo := metrics.AgentInfo{
DeploymentType: deploymentType,
Version: version.NetbirdVersion(),
OS: runtime.GOOS,
Arch: runtime.GOARCH,
}
c.clientMetrics.UpdateAgentInfo(agentInfo, myPrivateKey.PublicKey().String())
log.Debugf("connected to the Management service %s", c.config.ManagementURL.Host)
defer func() {
if err = mgmClient.Close(); err != nil {
log.Warnf("failed to close the Management service client %v", err)
}
}()
// connect (just a connection, no stream yet) and login to Management Service to get an initial global Netbird config
loginStarted := time.Now()
loginResp, err := loginToManagement(engineCtx, mgmClient, publicSSHKey, c.config)
if err != nil {
c.clientMetrics.RecordLoginDuration(engineCtx, time.Since(loginStarted), false)
log.Debug(err)
if s, ok := gstatus.FromError(err); ok && (s.Code() == codes.PermissionDenied) {
state.Set(StatusNeedsLogin)
c.runCancel()
return backoff.Permanent(wrapErr(err)) // unrecoverable error
}
return wrapErr(err)
}
c.clientMetrics.RecordLoginDuration(engineCtx, time.Since(loginStarted), true)
c.statusRecorder.MarkManagementConnected()
localPeerState := peer.LocalPeerState{
IP: loginResp.GetPeerConfig().GetAddress(),
PubKey: myPrivateKey.PublicKey().String(),
KernelInterface: device.WireGuardModuleIsLoaded() && !netstack.IsEnabled(),
FQDN: loginResp.GetPeerConfig().GetFqdn(),
}
c.statusRecorder.UpdateLocalPeerState(localPeerState)
signalURL := fmt.Sprintf("%s://%s",
strings.ToLower(loginResp.GetNetbirdConfig().GetSignal().GetProtocol().String()),
loginResp.GetNetbirdConfig().GetSignal().GetUri(),
)
c.statusRecorder.UpdateSignalAddress(signalURL)
c.statusRecorder.MarkSignalDisconnected(nil)
defer func() {
_, err := state.Status()
c.statusRecorder.MarkSignalDisconnected(err)
}()
// with the global Netbird config in hand connect (just a connection, no stream yet) Signal
signalClient, err := connectToSignal(engineCtx, loginResp.GetNetbirdConfig(), myPrivateKey)
if err != nil {
log.Error(err)
return wrapErr(err)
}
defer func() {
err = signalClient.Close()
if err != nil {
log.Warnf("failed closing Signal service client %v", err)
}
}()
signalNotifier := statusRecorderToSignalConnStateNotifier(c.statusRecorder)
signalClient.SetConnStateListener(signalNotifier)
c.statusRecorder.MarkSignalConnected()
relayURLs, token := parseRelayInfo(loginResp)
if override, ok := peer.OverrideRelayURLs(); ok {
log.Infof("overriding relay URLs from %s: %v", peer.EnvKeyNBHomeRelayServers, override)
relayURLs = override
}
peerConfig := loginResp.GetPeerConfig()
engineConfig, err := createEngineConfig(myPrivateKey, c.config, peerConfig, logPath)
if err != nil {
log.Error(err)
return wrapErr(err)
}
engineConfig.TempDir = mobileDependency.TempDir
// Leave StateDir empty when there is no state path so a disk-backed
// syncstore falls back to os.TempDir() instead of filepath.Dir("") == ".".
if path != "" {
engineConfig.StateDir = filepath.Dir(path)
}
relayManager := relayClient.NewManager(engineCtx, relayURLs, myPrivateKey.PublicKey().String(), engineConfig.MTU)
c.statusRecorder.SetRelayMgr(relayManager)
if len(relayURLs) > 0 {
if token != nil {
if err := relayManager.UpdateToken(token); err != nil {
log.Errorf("failed to update token: %s", err)
return wrapErr(err)
}
}
log.Infof("connecting to the Relay service(s): %s", strings.Join(relayURLs, ", "))
if err = relayManager.Serve(); err != nil {
log.Error(err)
}
}
checks := loginResp.GetChecks()
c.engineMutex.Lock()
engine := NewEngine(engineCtx, cancel, engineConfig, EngineServices{
SignalClient: signalClient,
MgmClient: mgmClient,
RelayManager: relayManager,
StatusRecorder: c.statusRecorder,
Checks: checks,
StateManager: stateManager,
UpdateManager: c.updateManager,
ClientMetrics: c.clientMetrics,
}, mobileDependency)
engine.SetSyncResponsePersistence(c.persistSyncResponse)
c.engine = engine
c.engineMutex.Unlock()
if err := engine.Start(loginResp.GetNetbirdConfig(), c.config.ManagementURL); err != nil {
log.Errorf("error while starting Netbird Connection Engine: %s", err)
return wrapErr(err)
}
log.Infof("Netbird engine started, the IP is: %s", peerConfig.GetAddress())
state.Set(StatusConnected)
if runningChan != nil {
select {
case <-runningChan:
default:
close(runningChan)
}
}
<-engineCtx.Done()
c.engineMutex.Lock()
c.engine = nil
c.engineMutex.Unlock()
log.Infof("ensuring wg interface is removed, Netbird engine context cancelled")
if err := engine.Stop(); err != nil {
log.Errorf("Failed to stop engine: %v", err)
}
c.statusRecorder.ClientTeardown()
backOff.Reset()
log.Info("stopped NetBird client")
if _, err := state.Status(); errors.Is(err, ErrResetConnection) {
return err
}
return nil
}
c.statusRecorder.ClientStart()
err = backoff.Retry(operation, backoff.WithContext(backOff, c.ctx))
if err != nil {
log.Debugf("exiting client retry loop due to unrecoverable error: %s", err)
if s, ok := gstatus.FromError(err); ok && (s.Code() == codes.PermissionDenied) {
state.Set(StatusNeedsLogin)
c.runCancel()
}
return err
}
return nil
}
func parseRelayInfo(loginResp *mgmProto.LoginResponse) ([]string, *hmac.Token) {
relayCfg := loginResp.GetNetbirdConfig().GetRelay()
if relayCfg == nil {
return nil, nil
}
token := &hmac.Token{
Payload: relayCfg.GetTokenPayload(),
Signature: relayCfg.GetTokenSignature(),
}
return relayCfg.GetUrls(), token
}
func (c *ConnectClient) Engine() *Engine {
if c == nil {
return nil
}
var e *Engine
c.engineMutex.Lock()
e = c.engine
c.engineMutex.Unlock()
return e
}
// GetLatestSyncResponse returns the latest sync response from the engine.
func (c *ConnectClient) GetLatestSyncResponse() (*mgmProto.SyncResponse, error) {
engine := c.Engine()
if engine == nil {
return nil, errors.New("engine is not initialized")
}
syncResponse, err := engine.GetLatestSyncResponse()
if err != nil {
return nil, fmt.Errorf("get latest sync response: %w", err)
}
if syncResponse == nil {
return nil, errors.New("sync response is not available")
}
return syncResponse, nil
}
// SetLogLevel sets the log level for the firewall manager if the engine is running.
func (c *ConnectClient) SetLogLevel(level log.Level) {
engine := c.Engine()
if engine == nil {
return
}
fwManager := engine.GetFirewallManager()
if fwManager != nil {
fwManager.SetLogLevel(level)
}
}
// Status returns the current client status
func (c *ConnectClient) Status() StatusType {
if c == nil {
return StatusIdle
}
status, err := CtxGetState(c.ctx).Status()
if err != nil {
return StatusIdle
}
return status
}
func (c *ConnectClient) Stop() error {
c.runCancel()
if c.runStarted.Load() {
<-c.runExited
}
return nil
}
// SetSyncResponsePersistence enables or disables sync response persistence.
// When enabled, the last received sync response will be stored and can be retrieved
// through the Engine's GetLatestSyncResponse method. When disabled, any stored
// sync response will be cleared.
func (c *ConnectClient) SetSyncResponsePersistence(enabled bool) {
c.engineMutex.Lock()
c.persistSyncResponse = enabled
c.engineMutex.Unlock()
engine := c.Engine()
if engine != nil {
engine.SetSyncResponsePersistence(enabled)
}
}
// createEngineConfig converts configuration received from Management Service to EngineConfig
func createEngineConfig(key wgtypes.Key, config *profilemanager.Config, peerConfig *mgmProto.PeerConfig, logPath string) (*EngineConfig, error) {
nm := false
if config.NetworkMonitor != nil {
nm = *config.NetworkMonitor
}
wgAddr, err := wgaddr.ParseWGAddress(peerConfig.Address)
if err != nil {
return nil, fmt.Errorf("parse overlay address %q: %w", peerConfig.Address, err)
}
if !config.DisableIPv6 {
if err := wgAddr.SetIPv6FromCompact(peerConfig.GetAddressV6()); err != nil {
log.Warn(err)
}
}
engineConf := &EngineConfig{
WgIfaceName: config.WgIface,
WgAddr: wgAddr,
IFaceBlackList: config.IFaceBlackList,
DisableIPv6Discovery: config.DisableIPv6Discovery,
WgPrivateKey: key,
WgPort: config.WgPort,
NetworkMonitor: nm,
SSHKey: []byte(config.SSHKey),
NATExternalIPs: config.NATExternalIPs,
CustomDNSAddress: config.CustomDNSAddress,
RosenpassEnabled: config.RosenpassEnabled,
RosenpassPermissive: config.RosenpassPermissive,
ServerSSHAllowed: util.ReturnBoolWithDefaultTrue(config.ServerSSHAllowed),
EnableSSHRoot: config.EnableSSHRoot,
EnableSSHSFTP: config.EnableSSHSFTP,
EnableSSHLocalPortForwarding: config.EnableSSHLocalPortForwarding,
EnableSSHRemotePortForwarding: config.EnableSSHRemotePortForwarding,
DisableSSHAuth: config.DisableSSHAuth,
DNSRouteInterval: config.DNSRouteInterval,
DisableClientRoutes: config.DisableClientRoutes,
DisableServerRoutes: config.DisableServerRoutes || config.BlockInbound,
DisableDNS: config.DisableDNS,
DisableFirewall: config.DisableFirewall,
BlockLANAccess: config.BlockLANAccess,
BlockInbound: config.BlockInbound,
DisableIPv6: config.DisableIPv6,
LazyConnectionEnabled: config.LazyConnectionEnabled,
MTU: selectMTU(config.MTU, peerConfig.Mtu),
LogPath: logPath,
ProfileConfig: config,
}
if config.PreSharedKey != "" {
preSharedKey, err := wgtypes.ParseKey(config.PreSharedKey)
if err != nil {
return nil, err
}
engineConf.PreSharedKey = &preSharedKey
}
port, err := freePort(config.WgPort)
if err != nil {
return nil, err
}
if port != config.WgPort {
log.Infof("using %d as wireguard port: %d is in use", port, config.WgPort)
}
engineConf.WgPort = port
return engineConf, nil
}
func selectMTU(localMTU uint16, peerMTU int32) uint16 {
var finalMTU uint16 = iface.DefaultMTU
if localMTU > 0 {
finalMTU = localMTU
} else if peerMTU > 0 {
finalMTU = uint16(peerMTU)
}
// Set global DNS MTU
dns.SetCurrentMTU(finalMTU)
return finalMTU
}
// connectToSignal creates Signal Service client and established a connection
func connectToSignal(ctx context.Context, wtConfig *mgmProto.NetbirdConfig, ourPrivateKey wgtypes.Key) (*signal.GrpcClient, error) {
var sigTLSEnabled bool
if wtConfig.Signal.Protocol == mgmProto.HostConfig_HTTPS {
sigTLSEnabled = true
} else {
sigTLSEnabled = false
}
signalClient, err := signal.NewClient(ctx, wtConfig.Signal.Uri, ourPrivateKey, sigTLSEnabled)
if err != nil {
log.Errorf("error while connecting to the Signal Exchange Service %s: %s", wtConfig.Signal.Uri, err)
return nil, gstatus.Errorf(codes.FailedPrecondition, "failed connecting to Signal Service : %s", err)
}
return signalClient, nil
}
// loginToManagement creates Management ServiceDependencies client, establishes a connection, logs-in and gets a global Netbird config (signal, turn, stun hosts, etc)
func loginToManagement(ctx context.Context, client mgm.Client, pubSSHKey []byte, config *profilemanager.Config) (*mgmProto.LoginResponse, error) {
sysInfo := system.GetInfo(ctx)
sysInfo.SetFlags(
config.RosenpassEnabled,
config.RosenpassPermissive,
config.ServerSSHAllowed,
config.DisableClientRoutes,
config.DisableServerRoutes,
config.DisableDNS,
config.DisableFirewall,
config.BlockLANAccess,
config.BlockInbound,
config.DisableIPv6,
config.LazyConnectionEnabled,
config.EnableSSHRoot,
config.EnableSSHSFTP,
config.EnableSSHLocalPortForwarding,
config.EnableSSHRemotePortForwarding,
config.DisableSSHAuth,
)
return client.Login(sysInfo, pubSSHKey, config.DNSLabels)
}
func statusRecorderToMgmConnStateNotifier(statusRecorder *peer.Status) mgm.ConnStateNotifier {
var sri interface{} = statusRecorder
mgmNotifier, _ := sri.(mgm.ConnStateNotifier)
return mgmNotifier
}
func statusRecorderToSignalConnStateNotifier(statusRecorder *peer.Status) signal.ConnStateNotifier {
var sri interface{} = statusRecorder
notifier, _ := sri.(signal.ConnStateNotifier)
return notifier
}
// freePort attempts to determine if the provided port is available, if not it will ask the system for a free port.
func freePort(initPort int) (int, error) {
addr := net.UDPAddr{Port: initPort}
conn, err := net.ListenUDP("udp", &addr)
if err == nil {
returnPort := conn.LocalAddr().(*net.UDPAddr).Port
closeConnWithLog(conn)
return returnPort, nil
}
// if the port is already in use, ask the system for a free port
addr.Port = 0
conn, err = net.ListenUDP("udp", &addr)
if err != nil {
return 0, fmt.Errorf("unable to get a free port: %v", err)
}
udpAddr, ok := conn.LocalAddr().(*net.UDPAddr)
if !ok {
return 0, errors.New("wrong address type when getting a free port")
}
closeConnWithLog(conn)
return udpAddr.Port, nil
}
func closeConnWithLog(conn *net.UDPConn) {
startClosing := time.Now()
err := conn.Close()
if err != nil {
log.Warnf("closing probe port %d failed: %v. NetBird will still attempt to use this port for connection.", conn.LocalAddr().(*net.UDPAddr).Port, err)
}
if time.Since(startClosing) > time.Second {
log.Warnf("closing the testing port %d took %s. Usually it is safe to ignore, but continuous warnings may indicate a problem.", conn.LocalAddr().(*net.UDPAddr).Port, time.Since(startClosing))
}
}