netbird/client/internal/engine.go
2024-04-11 22:12:23 +02:00

1332 lines
36 KiB
Go

package internal
import (
"context"
"fmt"
"math/rand"
"net"
"net/netip"
"reflect"
"runtime"
"strings"
"sync"
"time"
"github.com/pion/ice/v3"
"github.com/pion/stun/v2"
log "github.com/sirupsen/logrus"
"golang.zx2c4.com/wireguard/wgctrl/wgtypes"
"github.com/netbirdio/netbird/client/firewall"
"github.com/netbirdio/netbird/client/firewall/manager"
"github.com/netbirdio/netbird/client/internal/acl"
"github.com/netbirdio/netbird/client/internal/dns"
"github.com/netbirdio/netbird/client/internal/peer"
"github.com/netbirdio/netbird/client/internal/relay"
"github.com/netbirdio/netbird/client/internal/rosenpass"
"github.com/netbirdio/netbird/client/internal/routemanager"
"github.com/netbirdio/netbird/client/internal/wgproxy"
nbssh "github.com/netbirdio/netbird/client/ssh"
nbdns "github.com/netbirdio/netbird/dns"
"github.com/netbirdio/netbird/iface"
"github.com/netbirdio/netbird/iface/bind"
mgm "github.com/netbirdio/netbird/management/client"
mgmProto "github.com/netbirdio/netbird/management/proto"
"github.com/netbirdio/netbird/route"
signal "github.com/netbirdio/netbird/signal/client"
sProto "github.com/netbirdio/netbird/signal/proto"
"github.com/netbirdio/netbird/util"
)
// PeerConnectionTimeoutMax is a timeout of an initial connection attempt to a remote peer.
// E.g. this peer will wait PeerConnectionTimeoutMax for the remote peer to respond,
// if not successful then it will retry the connection attempt.
// Todo pass timeout at EnginConfig
const (
PeerConnectionTimeoutMax = 45000 // ms
PeerConnectionTimeoutMin = 30000 // ms
)
var ErrResetConnection = fmt.Errorf("reset connection")
// EngineConfig is a config for the Engine
type EngineConfig struct {
WgPort int
WgIfaceName string
// WgAddr is a Wireguard local address (Netbird Network IP)
WgAddr string
// WgPrivateKey is a Wireguard private key of our peer (it MUST never leave the machine)
WgPrivateKey wgtypes.Key
// IFaceBlackList is a list of network interfaces to ignore when discovering connection candidates (ICE related)
IFaceBlackList []string
DisableIPv6Discovery bool
PreSharedKey *wgtypes.Key
// UDPMuxPort default value 0 - the system will pick an available port
UDPMuxPort int
// UDPMuxSrflxPort default value 0 - the system will pick an available port
UDPMuxSrflxPort int
// SSHKey is a private SSH key in a PEM format
SSHKey []byte
NATExternalIPs []string
CustomDNSAddress string
RosenpassEnabled bool
RosenpassPermissive bool
ServerSSHAllowed bool
}
// Engine is a mechanism responsible for reacting on Signal and Management stream events and managing connections to the remote peers.
type Engine struct {
// signal is a Signal Service client
signal signal.Client
// mgmClient is a Management Service client
mgmClient mgm.Client
// peerConns is a map that holds all the peers that are known to this peer
peerConns map[string]*peer.Conn
beforePeerHook peer.BeforeAddPeerHookFunc
afterPeerHook peer.AfterRemovePeerHookFunc
// rpManager is a Rosenpass manager
rpManager *rosenpass.Manager
// syncMsgMux is used to guarantee sequential Management Service message processing
syncMsgMux *sync.Mutex
config *EngineConfig
mobileDep MobileDependency
// STUNs is a list of STUN servers used by ICE
STUNs []*stun.URI
// TURNs is a list of STUN servers used by ICE
TURNs []*stun.URI
cancel context.CancelFunc
ctx context.Context
wgInterface *iface.WGIface
wgProxyFactory *wgproxy.Factory
udpMux *bind.UniversalUDPMuxDefault
// networkSerial is the latest CurrentSerial (state ID) of the network sent by the Management service
networkSerial uint64
sshServerFunc func(hostKeyPEM []byte, addr string) (nbssh.Server, error)
sshServer nbssh.Server
statusRecorder *peer.Status
firewall manager.Manager
routeManager routemanager.Manager
acl acl.Manager
dnsServer dns.Server
mgmProbe *Probe
signalProbe *Probe
relayProbe *Probe
wgProbe *Probe
}
// Peer is an instance of the Connection Peer
type Peer struct {
WgPubKey string
WgAllowedIps string
}
// NewEngine creates a new Connection Engine
func NewEngine(
ctx context.Context,
cancel context.CancelFunc,
signalClient signal.Client,
mgmClient mgm.Client,
config *EngineConfig,
mobileDep MobileDependency,
statusRecorder *peer.Status,
) *Engine {
return NewEngineWithProbes(
ctx,
cancel,
signalClient,
mgmClient,
config,
mobileDep,
statusRecorder,
nil,
nil,
nil,
nil,
)
}
// NewEngineWithProbes creates a new Connection Engine with probes attached
func NewEngineWithProbes(
ctx context.Context,
cancel context.CancelFunc,
signalClient signal.Client,
mgmClient mgm.Client,
config *EngineConfig,
mobileDep MobileDependency,
statusRecorder *peer.Status,
mgmProbe *Probe,
signalProbe *Probe,
relayProbe *Probe,
wgProbe *Probe,
) *Engine {
return &Engine{
ctx: ctx,
cancel: cancel,
signal: signalClient,
mgmClient: mgmClient,
peerConns: make(map[string]*peer.Conn),
syncMsgMux: &sync.Mutex{},
config: config,
mobileDep: mobileDep,
STUNs: []*stun.URI{},
TURNs: []*stun.URI{},
networkSerial: 0,
sshServerFunc: nbssh.DefaultSSHServer,
statusRecorder: statusRecorder,
wgProxyFactory: wgproxy.NewFactory(config.WgPort),
mgmProbe: mgmProbe,
signalProbe: signalProbe,
relayProbe: relayProbe,
wgProbe: wgProbe,
}
}
func (e *Engine) Stop() error {
e.syncMsgMux.Lock()
defer e.syncMsgMux.Unlock()
err := e.removeAllPeers()
if err != nil {
return err
}
// very ugly but we want to remove peers from the WireGuard interface first before removing interface.
// Removing peers happens in the conn.CLose() asynchronously
time.Sleep(500 * time.Millisecond)
e.close()
log.Infof("stopped Netbird Engine")
return nil
}
// Start creates a new WireGuard tunnel interface and listens to events from Signal and Management services
// Connections to remote peers are not established here.
// However, they will be established once an event with a list of peers to connect to will be received from Management Service
func (e *Engine) Start() error {
e.syncMsgMux.Lock()
defer e.syncMsgMux.Unlock()
wgIface, err := e.newWgIface()
if err != nil {
log.Errorf("failed creating wireguard interface instance %s: [%s]", e.config.WgIfaceName, err)
return fmt.Errorf("new wg interface: %w", err)
}
e.wgInterface = wgIface
if e.config.RosenpassEnabled {
log.Infof("rosenpass is enabled")
if e.config.RosenpassPermissive {
log.Infof("running rosenpass in permissive mode")
} else {
log.Infof("running rosenpass in strict mode")
}
e.rpManager, err = rosenpass.NewManager(e.config.PreSharedKey, e.config.WgIfaceName)
if err != nil {
return fmt.Errorf("create rosenpass manager: %w", err)
}
err := e.rpManager.Run()
if err != nil {
return fmt.Errorf("run rosenpass manager: %w", err)
}
}
initialRoutes, dnsServer, err := e.newDnsServer()
if err != nil {
e.close()
return fmt.Errorf("create dns server: %w", err)
}
e.dnsServer = dnsServer
e.routeManager = routemanager.NewManager(e.ctx, e.config.WgPrivateKey.PublicKey().String(), e.wgInterface, e.statusRecorder, initialRoutes)
beforePeerHook, afterPeerHook, err := e.routeManager.Init()
if err != nil {
log.Errorf("Failed to initialize route manager: %s", err)
} else {
e.beforePeerHook = beforePeerHook
e.afterPeerHook = afterPeerHook
}
e.routeManager.SetRouteChangeListener(e.mobileDep.NetworkChangeListener)
err = e.wgInterfaceCreate()
if err != nil {
log.Errorf("failed creating tunnel interface %s: [%s]", e.config.WgIfaceName, err.Error())
e.close()
return fmt.Errorf("create wg interface: %w", err)
}
e.firewall, err = firewall.NewFirewall(e.ctx, e.wgInterface)
if err != nil {
log.Errorf("failed creating firewall manager: %s", err)
}
if e.firewall != nil && e.firewall.IsServerRouteSupported() {
err = e.routeManager.EnableServerRouter(e.firewall)
if err != nil {
e.close()
return fmt.Errorf("enable server router: %w", err)
}
}
e.udpMux, err = e.wgInterface.Up()
if err != nil {
log.Errorf("failed to pull up wgInterface [%s]: %s", e.wgInterface.Name(), err.Error())
e.close()
return fmt.Errorf("up wg interface: %w", err)
}
if e.firewall != nil {
e.acl = acl.NewDefaultManager(e.firewall)
}
err = e.dnsServer.Initialize()
if err != nil {
e.close()
return fmt.Errorf("initialize dns server: %w", err)
}
e.receiveSignalEvents()
e.receiveManagementEvents()
e.receiveProbeEvents()
return nil
}
// modifyPeers updates peers that have been modified (e.g. IP address has been changed).
// It closes the existing connection, removes it from the peerConns map, and creates a new one.
func (e *Engine) modifyPeers(peersUpdate []*mgmProto.RemotePeerConfig) error {
// first, check if peers have been modified
var modified []*mgmProto.RemotePeerConfig
for _, p := range peersUpdate {
peerPubKey := p.GetWgPubKey()
if peerConn, ok := e.peerConns[peerPubKey]; ok {
if peerConn.WgConfig().AllowedIps != strings.Join(p.AllowedIps, ",") {
modified = append(modified, p)
continue
}
err := e.statusRecorder.UpdatePeerFQDN(peerPubKey, p.GetFqdn())
if err != nil {
log.Warnf("error updating peer's %s fqdn in the status recorder, got error: %v", peerPubKey, err)
}
}
}
// second, close all modified connections and remove them from the state map
for _, p := range modified {
err := e.removePeer(p.GetWgPubKey())
if err != nil {
return err
}
}
// third, add the peer connections again
for _, p := range modified {
err := e.addNewPeer(p)
if err != nil {
return err
}
}
return nil
}
// removePeers finds and removes peers that do not exist anymore in the network map received from the Management Service.
// It also removes peers that have been modified (e.g. change of IP address). They will be added again in addPeers method.
func (e *Engine) removePeers(peersUpdate []*mgmProto.RemotePeerConfig) error {
currentPeers := make([]string, 0, len(e.peerConns))
for p := range e.peerConns {
currentPeers = append(currentPeers, p)
}
newPeers := make([]string, 0, len(peersUpdate))
for _, p := range peersUpdate {
newPeers = append(newPeers, p.GetWgPubKey())
}
toRemove := util.SliceDiff(currentPeers, newPeers)
for _, p := range toRemove {
err := e.removePeer(p)
if err != nil {
return err
}
log.Infof("removed peer %s", p)
}
return nil
}
func (e *Engine) removeAllPeers() error {
log.Debugf("removing all peer connections")
for p := range e.peerConns {
err := e.removePeer(p)
if err != nil {
return err
}
}
return nil
}
// removePeer closes an existing peer connection, removes a peer, and clears authorized key of the SSH server
func (e *Engine) removePeer(peerKey string) error {
log.Debugf("removing peer from engine %s", peerKey)
if !isNil(e.sshServer) {
e.sshServer.RemoveAuthorizedKey(peerKey)
}
defer func() {
err := e.statusRecorder.RemovePeer(peerKey)
if err != nil {
log.Warnf("received error when removing peer %s from status recorder: %v", peerKey, err)
}
}()
conn, exists := e.peerConns[peerKey]
if exists {
delete(e.peerConns, peerKey)
err := conn.Close()
if err != nil {
switch err.(type) {
case *peer.ConnectionAlreadyClosedError:
return nil
default:
return err
}
}
}
return nil
}
func signalCandidate(candidate ice.Candidate, myKey wgtypes.Key, remoteKey wgtypes.Key, s signal.Client) error {
err := s.Send(&sProto.Message{
Key: myKey.PublicKey().String(),
RemoteKey: remoteKey.String(),
Body: &sProto.Body{
Type: sProto.Body_CANDIDATE,
Payload: candidate.Marshal(),
},
})
if err != nil {
return err
}
return nil
}
func sendSignal(message *sProto.Message, s signal.Client) error {
return s.Send(message)
}
// SignalOfferAnswer signals either an offer or an answer to remote peer
func SignalOfferAnswer(offerAnswer peer.OfferAnswer, myKey wgtypes.Key, remoteKey wgtypes.Key, s signal.Client,
isAnswer bool) error {
var t sProto.Body_Type
if isAnswer {
t = sProto.Body_ANSWER
} else {
t = sProto.Body_OFFER
}
msg, err := signal.MarshalCredential(myKey, offerAnswer.WgListenPort, remoteKey, &signal.Credential{
UFrag: offerAnswer.IceCredentials.UFrag,
Pwd: offerAnswer.IceCredentials.Pwd,
}, t, offerAnswer.RosenpassPubKey, offerAnswer.RosenpassAddr)
if err != nil {
return err
}
err = s.Send(msg)
if err != nil {
return err
}
return nil
}
func (e *Engine) handleSync(update *mgmProto.SyncResponse) error {
e.syncMsgMux.Lock()
defer e.syncMsgMux.Unlock()
if update.GetWiretrusteeConfig() != nil {
err := e.updateTURNs(update.GetWiretrusteeConfig().GetTurns())
if err != nil {
return err
}
err = e.updateSTUNs(update.GetWiretrusteeConfig().GetStuns())
if err != nil {
return err
}
// todo update signal
}
if update.GetNetworkMap() != nil {
// only apply new changes and ignore old ones
err := e.updateNetworkMap(update.GetNetworkMap())
if err != nil {
return err
}
}
return nil
}
func isNil(server nbssh.Server) bool {
return server == nil || reflect.ValueOf(server).IsNil()
}
func (e *Engine) updateSSH(sshConf *mgmProto.SSHConfig) error {
if !e.config.ServerSSHAllowed {
log.Warnf("running SSH server is not permitted")
return nil
} else {
if sshConf.GetSshEnabled() {
if runtime.GOOS == "windows" {
log.Warnf("running SSH server on Windows is not supported")
return nil
}
// start SSH server if it wasn't running
if isNil(e.sshServer) {
// nil sshServer means it has not yet been started
var err error
e.sshServer, err = e.sshServerFunc(e.config.SSHKey,
fmt.Sprintf("%s:%d", e.wgInterface.Address().IP.String(), nbssh.DefaultSSHPort))
if err != nil {
return err
}
go func() {
// blocking
err = e.sshServer.Start()
if err != nil {
// will throw error when we stop it even if it is a graceful stop
log.Debugf("stopped SSH server with error %v", err)
}
e.syncMsgMux.Lock()
defer e.syncMsgMux.Unlock()
e.sshServer = nil
log.Infof("stopped SSH server")
}()
} else {
log.Debugf("SSH server is already running")
}
} else if !isNil(e.sshServer) {
// Disable SSH server request, so stop it if it was running
err := e.sshServer.Stop()
if err != nil {
log.Warnf("failed to stop SSH server %v", err)
}
e.sshServer = nil
}
return nil
}
}
func (e *Engine) updateConfig(conf *mgmProto.PeerConfig) error {
if e.wgInterface.Address().String() != conf.Address {
oldAddr := e.wgInterface.Address().String()
log.Debugf("updating peer address from %s to %s", oldAddr, conf.Address)
err := e.wgInterface.UpdateAddr(conf.Address)
if err != nil {
return err
}
e.config.WgAddr = conf.Address
log.Infof("updated peer address from %s to %s", oldAddr, conf.Address)
}
if conf.GetSshConfig() != nil {
err := e.updateSSH(conf.GetSshConfig())
if err != nil {
log.Warnf("failed handling SSH server setup %v", err)
}
}
e.statusRecorder.UpdateLocalPeerState(peer.LocalPeerState{
IP: e.config.WgAddr,
PubKey: e.config.WgPrivateKey.PublicKey().String(),
KernelInterface: iface.WireGuardModuleIsLoaded(),
FQDN: conf.GetFqdn(),
})
return nil
}
// receiveManagementEvents connects to the Management Service event stream to receive updates from the management service
// E.g. when a new peer has been registered and we are allowed to connect to it.
func (e *Engine) receiveManagementEvents() {
go func() {
err := e.mgmClient.Sync(e.handleSync)
if err != nil {
// happens if management is unavailable for a long time.
// We want to cancel the operation of the whole client
_ = CtxGetState(e.ctx).Wrap(ErrResetConnection)
e.cancel()
return
}
log.Debugf("stopped receiving updates from Management Service")
}()
log.Debugf("connecting to Management Service updates stream")
}
func (e *Engine) updateSTUNs(stuns []*mgmProto.HostConfig) error {
if len(stuns) == 0 {
return nil
}
var newSTUNs []*stun.URI
log.Debugf("got STUNs update from Management Service, updating")
for _, s := range stuns {
url, err := stun.ParseURI(s.Uri)
if err != nil {
return err
}
newSTUNs = append(newSTUNs, url)
}
e.STUNs = newSTUNs
return nil
}
func (e *Engine) updateTURNs(turns []*mgmProto.ProtectedHostConfig) error {
if len(turns) == 0 {
return nil
}
var newTURNs []*stun.URI
log.Debugf("got TURNs update from Management Service, updating")
for _, turn := range turns {
url, err := stun.ParseURI(turn.HostConfig.Uri)
if err != nil {
return err
}
url.Username = turn.User
url.Password = turn.Password
newTURNs = append(newTURNs, url)
}
e.TURNs = newTURNs
return nil
}
func (e *Engine) updateNetworkMap(networkMap *mgmProto.NetworkMap) error {
// intentionally leave it before checking serial because for now it can happen that peer IP changed but serial didn't
if networkMap.GetPeerConfig() != nil {
err := e.updateConfig(networkMap.GetPeerConfig())
if err != nil {
return err
}
}
serial := networkMap.GetSerial()
if e.networkSerial > serial {
log.Debugf("received outdated NetworkMap with serial %d, ignoring", serial)
return nil
}
log.Debugf("got peers update from Management Service, total peers to connect to = %d", len(networkMap.GetRemotePeers()))
e.updateOfflinePeers(networkMap.GetOfflinePeers())
// cleanup request, most likely our peer has been deleted
if networkMap.GetRemotePeersIsEmpty() {
err := e.removeAllPeers()
e.statusRecorder.FinishPeerListModifications()
if err != nil {
return err
}
} else {
err := e.removePeers(networkMap.GetRemotePeers())
if err != nil {
return err
}
err = e.modifyPeers(networkMap.GetRemotePeers())
if err != nil {
return err
}
err = e.addNewPeers(networkMap.GetRemotePeers())
if err != nil {
return err
}
e.statusRecorder.FinishPeerListModifications()
// update SSHServer by adding remote peer SSH keys
if !isNil(e.sshServer) {
for _, config := range networkMap.GetRemotePeers() {
if config.GetSshConfig() != nil && config.GetSshConfig().GetSshPubKey() != nil {
err := e.sshServer.AddAuthorizedKey(config.WgPubKey, string(config.GetSshConfig().GetSshPubKey()))
if err != nil {
log.Warnf("failed adding authorized key to SSH DefaultServer %v", err)
}
}
}
}
}
protoRoutes := networkMap.GetRoutes()
if protoRoutes == nil {
protoRoutes = []*mgmProto.Route{}
}
err := e.routeManager.UpdateRoutes(serial, toRoutes(protoRoutes))
if err != nil {
log.Errorf("failed to update routes, err: %v", err)
}
protoDNSConfig := networkMap.GetDNSConfig()
if protoDNSConfig == nil {
protoDNSConfig = &mgmProto.DNSConfig{}
}
err = e.dnsServer.UpdateDNSServer(serial, toDNSConfig(protoDNSConfig))
if err != nil {
log.Errorf("failed to update dns server, err: %v", err)
}
if e.acl != nil {
e.acl.ApplyFiltering(networkMap)
}
e.networkSerial = serial
// Test received (upstream) servers for availability right away instead of upon usage.
// If no server of a server group responds this will disable the respective handler and retry later.
e.dnsServer.ProbeAvailability()
return nil
}
func toRoutes(protoRoutes []*mgmProto.Route) []*route.Route {
routes := make([]*route.Route, 0)
for _, protoRoute := range protoRoutes {
_, prefix, _ := route.ParseNetwork(protoRoute.Network)
convertedRoute := &route.Route{
ID: protoRoute.ID,
Network: prefix,
NetID: protoRoute.NetID,
NetworkType: route.NetworkType(protoRoute.NetworkType),
Peer: protoRoute.Peer,
Metric: int(protoRoute.Metric),
Masquerade: protoRoute.Masquerade,
}
routes = append(routes, convertedRoute)
}
return routes
}
func toDNSConfig(protoDNSConfig *mgmProto.DNSConfig) nbdns.Config {
dnsUpdate := nbdns.Config{
ServiceEnable: protoDNSConfig.GetServiceEnable(),
CustomZones: make([]nbdns.CustomZone, 0),
NameServerGroups: make([]*nbdns.NameServerGroup, 0),
}
for _, zone := range protoDNSConfig.GetCustomZones() {
dnsZone := nbdns.CustomZone{
Domain: zone.GetDomain(),
}
for _, record := range zone.Records {
dnsRecord := nbdns.SimpleRecord{
Name: record.GetName(),
Type: int(record.GetType()),
Class: record.GetClass(),
TTL: int(record.GetTTL()),
RData: record.GetRData(),
}
dnsZone.Records = append(dnsZone.Records, dnsRecord)
}
dnsUpdate.CustomZones = append(dnsUpdate.CustomZones, dnsZone)
}
for _, nsGroup := range protoDNSConfig.GetNameServerGroups() {
dnsNSGroup := &nbdns.NameServerGroup{
Primary: nsGroup.GetPrimary(),
Domains: nsGroup.GetDomains(),
SearchDomainsEnabled: nsGroup.GetSearchDomainsEnabled(),
}
for _, ns := range nsGroup.GetNameServers() {
dnsNS := nbdns.NameServer{
IP: netip.MustParseAddr(ns.GetIP()),
NSType: nbdns.NameServerType(ns.GetNSType()),
Port: int(ns.GetPort()),
}
dnsNSGroup.NameServers = append(dnsNSGroup.NameServers, dnsNS)
}
dnsUpdate.NameServerGroups = append(dnsUpdate.NameServerGroups, dnsNSGroup)
}
return dnsUpdate
}
func (e *Engine) updateOfflinePeers(offlinePeers []*mgmProto.RemotePeerConfig) {
replacement := make([]peer.State, len(offlinePeers))
for i, offlinePeer := range offlinePeers {
log.Debugf("added offline peer %s", offlinePeer.Fqdn)
replacement[i] = peer.State{
IP: strings.Join(offlinePeer.GetAllowedIps(), ","),
PubKey: offlinePeer.GetWgPubKey(),
FQDN: offlinePeer.GetFqdn(),
ConnStatus: peer.StatusDisconnected,
ConnStatusUpdate: time.Now(),
Mux: new(sync.RWMutex),
}
}
e.statusRecorder.ReplaceOfflinePeers(replacement)
}
// addNewPeers adds peers that were not know before but arrived from the Management service with the update
func (e *Engine) addNewPeers(peersUpdate []*mgmProto.RemotePeerConfig) error {
for _, p := range peersUpdate {
err := e.addNewPeer(p)
if err != nil {
return err
}
}
return nil
}
// addNewPeer add peer if connection doesn't exist
func (e *Engine) addNewPeer(peerConfig *mgmProto.RemotePeerConfig) error {
peerKey := peerConfig.GetWgPubKey()
peerIPs := peerConfig.GetAllowedIps()
if _, ok := e.peerConns[peerKey]; !ok {
conn, err := e.createPeerConn(peerKey, strings.Join(peerIPs, ","))
if err != nil {
return fmt.Errorf("create peer connection: %w", err)
}
e.peerConns[peerKey] = conn
if e.beforePeerHook != nil && e.afterPeerHook != nil {
conn.AddBeforeAddPeerHook(e.beforePeerHook)
conn.AddAfterRemovePeerHook(e.afterPeerHook)
}
err = e.statusRecorder.AddPeer(peerKey, peerConfig.Fqdn)
if err != nil {
log.Warnf("error adding peer %s to status recorder, got error: %v", peerKey, err)
}
go e.connWorker(conn, peerKey)
}
return nil
}
func (e *Engine) connWorker(conn *peer.Conn, peerKey string) {
for {
// randomize starting time a bit
min := 500
max := 2000
time.Sleep(time.Duration(rand.Intn(max-min)+min) * time.Millisecond)
// if peer has been removed -> give up
if !e.peerExists(peerKey) {
log.Debugf("peer %s doesn't exist anymore, won't retry connection", peerKey)
return
}
if !e.signal.Ready() {
log.Infof("signal client isn't ready, skipping connection attempt %s", peerKey)
continue
}
// we might have received new STUN and TURN servers meanwhile, so update them
e.syncMsgMux.Lock()
conn.UpdateStunTurn(append(e.STUNs, e.TURNs...))
e.syncMsgMux.Unlock()
err := conn.Open()
if err != nil {
log.Debugf("connection to peer %s failed: %v", peerKey, err)
switch err.(type) {
case *peer.ConnectionClosedError:
// conn has been forced to close, so we exit the loop
return
default:
}
}
}
}
func (e *Engine) peerExists(peerKey string) bool {
e.syncMsgMux.Lock()
defer e.syncMsgMux.Unlock()
_, ok := e.peerConns[peerKey]
return ok
}
func (e *Engine) createPeerConn(pubKey string, allowedIPs string) (*peer.Conn, error) {
log.Debugf("creating peer connection %s", pubKey)
var stunTurn []*stun.URI
stunTurn = append(stunTurn, e.STUNs...)
stunTurn = append(stunTurn, e.TURNs...)
wgConfig := peer.WgConfig{
RemoteKey: pubKey,
WgListenPort: e.config.WgPort,
WgInterface: e.wgInterface,
AllowedIps: allowedIPs,
PreSharedKey: e.config.PreSharedKey,
}
if e.config.RosenpassEnabled && !e.config.RosenpassPermissive {
lk := []byte(e.config.WgPrivateKey.PublicKey().String())
rk := []byte(wgConfig.RemoteKey)
var keyInput []byte
if string(lk) > string(rk) {
//nolint:gocritic
keyInput = append(lk[:16], rk[:16]...)
} else {
//nolint:gocritic
keyInput = append(rk[:16], lk[:16]...)
}
key, err := wgtypes.NewKey(keyInput)
if err != nil {
return nil, err
}
wgConfig.PreSharedKey = &key
}
// randomize connection timeout
timeout := time.Duration(rand.Intn(PeerConnectionTimeoutMax-PeerConnectionTimeoutMin)+PeerConnectionTimeoutMin) * time.Millisecond
config := peer.ConnConfig{
Key: pubKey,
LocalKey: e.config.WgPrivateKey.PublicKey().String(),
StunTurn: stunTurn,
InterfaceBlackList: e.config.IFaceBlackList,
DisableIPv6Discovery: e.config.DisableIPv6Discovery,
Timeout: timeout,
UDPMux: e.udpMux.UDPMuxDefault,
UDPMuxSrflx: e.udpMux,
WgConfig: wgConfig,
LocalWgPort: e.config.WgPort,
NATExternalIPs: e.parseNATExternalIPMappings(),
UserspaceBind: e.wgInterface.IsUserspaceBind(),
RosenpassPubKey: e.getRosenpassPubKey(),
RosenpassAddr: e.getRosenpassAddr(),
}
peerConn, err := peer.NewConn(config, e.statusRecorder, e.wgProxyFactory, e.mobileDep.TunAdapter, e.mobileDep.IFaceDiscover)
if err != nil {
return nil, err
}
wgPubKey, err := wgtypes.ParseKey(pubKey)
if err != nil {
return nil, err
}
signalOffer := func(offerAnswer peer.OfferAnswer) error {
return SignalOfferAnswer(offerAnswer, e.config.WgPrivateKey, wgPubKey, e.signal, false)
}
signalCandidate := func(candidate ice.Candidate) error {
return signalCandidate(candidate, e.config.WgPrivateKey, wgPubKey, e.signal)
}
signalAnswer := func(offerAnswer peer.OfferAnswer) error {
return SignalOfferAnswer(offerAnswer, e.config.WgPrivateKey, wgPubKey, e.signal, true)
}
peerConn.SetSignalCandidate(signalCandidate)
peerConn.SetSignalOffer(signalOffer)
peerConn.SetSignalAnswer(signalAnswer)
peerConn.SetSendSignalMessage(func(message *sProto.Message) error {
return sendSignal(message, e.signal)
})
if e.rpManager != nil {
peerConn.SetOnConnected(e.rpManager.OnConnected)
peerConn.SetOnDisconnected(e.rpManager.OnDisconnected)
}
return peerConn, nil
}
// receiveSignalEvents connects to the Signal Service event stream to negotiate connection with remote peers
func (e *Engine) receiveSignalEvents() {
go func() {
// connect to a stream of messages coming from the signal server
err := e.signal.Receive(func(msg *sProto.Message) error {
e.syncMsgMux.Lock()
defer e.syncMsgMux.Unlock()
conn := e.peerConns[msg.Key]
if conn == nil {
return fmt.Errorf("wrongly addressed message %s", msg.Key)
}
switch msg.GetBody().Type {
case sProto.Body_OFFER:
remoteCred, err := signal.UnMarshalCredential(msg)
if err != nil {
return err
}
conn.RegisterProtoSupportMeta(msg.Body.GetFeaturesSupported())
var rosenpassPubKey []byte
rosenpassAddr := ""
if msg.GetBody().GetRosenpassConfig() != nil {
rosenpassPubKey = msg.GetBody().GetRosenpassConfig().GetRosenpassPubKey()
rosenpassAddr = msg.GetBody().GetRosenpassConfig().GetRosenpassServerAddr()
}
conn.OnRemoteOffer(peer.OfferAnswer{
IceCredentials: peer.IceCredentials{
UFrag: remoteCred.UFrag,
Pwd: remoteCred.Pwd,
},
WgListenPort: int(msg.GetBody().GetWgListenPort()),
Version: msg.GetBody().GetNetBirdVersion(),
RosenpassPubKey: rosenpassPubKey,
RosenpassAddr: rosenpassAddr,
})
case sProto.Body_ANSWER:
remoteCred, err := signal.UnMarshalCredential(msg)
if err != nil {
return err
}
conn.RegisterProtoSupportMeta(msg.GetBody().GetFeaturesSupported())
var rosenpassPubKey []byte
rosenpassAddr := ""
if msg.GetBody().GetRosenpassConfig() != nil {
rosenpassPubKey = msg.GetBody().GetRosenpassConfig().GetRosenpassPubKey()
rosenpassAddr = msg.GetBody().GetRosenpassConfig().GetRosenpassServerAddr()
}
conn.OnRemoteAnswer(peer.OfferAnswer{
IceCredentials: peer.IceCredentials{
UFrag: remoteCred.UFrag,
Pwd: remoteCred.Pwd,
},
WgListenPort: int(msg.GetBody().GetWgListenPort()),
Version: msg.GetBody().GetNetBirdVersion(),
RosenpassPubKey: rosenpassPubKey,
RosenpassAddr: rosenpassAddr,
})
case sProto.Body_CANDIDATE:
candidate, err := ice.UnmarshalCandidate(msg.GetBody().Payload)
if err != nil {
log.Errorf("failed on parsing remote candidate %s -> %s", candidate, err)
return err
}
conn.OnRemoteCandidate(candidate)
case sProto.Body_MODE:
}
return nil
})
if err != nil {
// happens if signal is unavailable for a long time.
// We want to cancel the operation of the whole client
_ = CtxGetState(e.ctx).Wrap(ErrResetConnection)
e.cancel()
return
}
}()
e.signal.WaitStreamConnected()
}
func (e *Engine) parseNATExternalIPMappings() []string {
var mappedIPs []string
var ignoredIFaces = make(map[string]interface{})
for _, iFace := range e.config.IFaceBlackList {
ignoredIFaces[iFace] = nil
}
for _, mapping := range e.config.NATExternalIPs {
var external, internal string
var externalIP, internalIP net.IP
var err error
split := strings.Split(mapping, "/")
if len(split) > 2 {
log.Warnf("ignoring invalid external mapping '%s', too many delimiters", mapping)
break
}
if len(split) > 1 {
internal = split[1]
internalIP = net.ParseIP(internal)
if internalIP == nil {
// not a properly formatted IP address, maybe it's interface name?
if _, present := ignoredIFaces[internal]; present {
log.Warnf("internal interface '%s' in blacklist, ignoring external mapping '%s'", internal, mapping)
break
}
internalIP, err = findIPFromInterfaceName(internal)
if err != nil {
log.Warnf("error finding interface IP for interface '%s', ignoring external mapping '%s': %v", internal, mapping, err)
break
}
}
}
external = split[0]
externalIP = net.ParseIP(external)
if externalIP == nil {
log.Warnf("invalid external IP, %s, ignoring external IP mapping '%s'", external, mapping)
break
}
mappedIP := externalIP.String()
if internalIP != nil {
mappedIP = mappedIP + "/" + internalIP.String()
}
mappedIPs = append(mappedIPs, mappedIP)
log.Infof("parsed external IP mapping of '%s' as '%s'", mapping, mappedIP)
}
if len(mappedIPs) != len(e.config.NATExternalIPs) {
log.Warnf("one or more external IP mappings failed to parse, ignoring all mappings")
return nil
}
return mappedIPs
}
func (e *Engine) close() {
if err := e.wgProxyFactory.Free(); err != nil {
log.Errorf("failed closing ebpf proxy: %s", err)
}
// stop/restore DNS first so dbus and friends don't complain because of a missing interface
if e.dnsServer != nil {
e.dnsServer.Stop()
}
if e.routeManager != nil {
e.routeManager.Stop()
}
log.Debugf("removing Netbird interface %s", e.config.WgIfaceName)
if e.wgInterface != nil {
if err := e.wgInterface.Close(); err != nil {
log.Errorf("failed closing Netbird interface %s %v", e.config.WgIfaceName, err)
}
}
if !isNil(e.sshServer) {
err := e.sshServer.Stop()
if err != nil {
log.Warnf("failed stopping the SSH server: %v", err)
}
}
if e.firewall != nil {
err := e.firewall.Reset()
if err != nil {
log.Warnf("failed to reset firewall: %s", err)
}
}
if e.rpManager != nil {
_ = e.rpManager.Close()
}
}
func (e *Engine) readInitialSettings() ([]*route.Route, *nbdns.Config, error) {
netMap, err := e.mgmClient.GetNetworkMap()
if err != nil {
return nil, nil, err
}
routes := toRoutes(netMap.GetRoutes())
dnsCfg := toDNSConfig(netMap.GetDNSConfig())
return routes, &dnsCfg, nil
}
func (e *Engine) newWgIface() (*iface.WGIface, error) {
transportNet, err := e.newStdNet()
if err != nil {
log.Errorf("failed to create pion's stdnet: %s", err)
}
var mArgs *iface.MobileIFaceArguments
switch runtime.GOOS {
case "android":
mArgs = &iface.MobileIFaceArguments{
TunAdapter: e.mobileDep.TunAdapter,
TunFd: int(e.mobileDep.FileDescriptor),
}
case "ios":
mArgs = &iface.MobileIFaceArguments{
TunFd: int(e.mobileDep.FileDescriptor),
}
default:
}
return iface.NewWGIFace(e.config.WgIfaceName, e.config.WgAddr, e.config.WgPort, e.config.WgPrivateKey.String(), iface.DefaultMTU, transportNet, mArgs)
}
func (e *Engine) wgInterfaceCreate() (err error) {
switch runtime.GOOS {
case "android":
err = e.wgInterface.CreateOnAndroid(e.routeManager.InitialRouteRange(), e.dnsServer.DnsIP(), e.dnsServer.SearchDomains())
case "ios":
e.mobileDep.NetworkChangeListener.SetInterfaceIP(e.config.WgAddr)
err = e.wgInterface.Create()
default:
err = e.wgInterface.Create()
}
return err
}
func (e *Engine) newDnsServer() ([]*route.Route, dns.Server, error) {
// due to tests where we are using a mocked version of the DNS server
if e.dnsServer != nil {
return nil, e.dnsServer, nil
}
switch runtime.GOOS {
case "android":
routes, dnsConfig, err := e.readInitialSettings()
if err != nil {
return nil, nil, err
}
dnsServer := dns.NewDefaultServerPermanentUpstream(
e.ctx,
e.wgInterface,
e.mobileDep.HostDNSAddresses,
*dnsConfig,
e.mobileDep.NetworkChangeListener,
e.statusRecorder,
)
go e.mobileDep.DnsReadyListener.OnReady()
return routes, dnsServer, nil
case "ios":
dnsServer := dns.NewDefaultServerIos(e.ctx, e.wgInterface, e.mobileDep.DnsManager, e.statusRecorder)
return nil, dnsServer, nil
default:
dnsServer, err := dns.NewDefaultServer(e.ctx, e.wgInterface, e.config.CustomDNSAddress, e.statusRecorder)
if err != nil {
return nil, nil, err
}
return nil, dnsServer, nil
}
}
func findIPFromInterfaceName(ifaceName string) (net.IP, error) {
iface, err := net.InterfaceByName(ifaceName)
if err != nil {
return nil, err
}
return findIPFromInterface(iface)
}
func findIPFromInterface(iface *net.Interface) (net.IP, error) {
ifaceAddrs, err := iface.Addrs()
if err != nil {
return nil, err
}
for _, addr := range ifaceAddrs {
if ipv4Addr := addr.(*net.IPNet).IP.To4(); ipv4Addr != nil {
return ipv4Addr, nil
}
}
return nil, fmt.Errorf("interface %s don't have an ipv4 address", iface.Name)
}
func (e *Engine) getRosenpassPubKey() []byte {
if e.rpManager != nil {
return e.rpManager.GetPubKey()
}
return nil
}
func (e *Engine) getRosenpassAddr() string {
if e.rpManager != nil {
return e.rpManager.GetAddress().String()
}
return ""
}
func (e *Engine) receiveProbeEvents() {
if e.signalProbe != nil {
go e.signalProbe.Receive(e.ctx, func() bool {
healthy := e.signal.IsHealthy()
log.Debugf("received signal probe request, healthy: %t", healthy)
return healthy
})
}
if e.mgmProbe != nil {
go e.mgmProbe.Receive(e.ctx, func() bool {
healthy := e.mgmClient.IsHealthy()
log.Debugf("received management probe request, healthy: %t", healthy)
return healthy
})
}
if e.relayProbe != nil {
go e.relayProbe.Receive(e.ctx, func() bool {
healthy := true
results := append(e.probeSTUNs(), e.probeTURNs()...)
e.statusRecorder.UpdateRelayStates(results)
// A single failed server will result in a "failed" probe
for _, res := range results {
if res.Err != nil {
healthy = false
break
}
}
log.Debugf("received relay probe request, healthy: %t", healthy)
return healthy
})
}
if e.wgProbe != nil {
go e.wgProbe.Receive(e.ctx, func() bool {
log.Debug("received wg probe request")
for _, peer := range e.peerConns {
key := peer.GetKey()
wgStats, err := peer.GetConf().WgConfig.WgInterface.GetStats(key)
if err != nil {
log.Debugf("failed to get wg stats for peer %s: %s", key, err)
}
// wgStats could be zero value, in which case we just reset the stats
if err := e.statusRecorder.UpdateWireGuardPeerState(key, wgStats); err != nil {
log.Debugf("failed to update wg stats for peer %s: %s", key, err)
}
}
return true
})
}
}
func (e *Engine) probeSTUNs() []relay.ProbeResult {
return relay.ProbeAll(e.ctx, relay.ProbeSTUN, e.STUNs)
}
func (e *Engine) probeTURNs() []relay.ProbeResult {
return relay.ProbeAll(e.ctx, relay.ProbeTURN, e.TURNs)
}