package server import ( "context" "fmt" "sync" "time" log "github.com/sirupsen/logrus" "github.com/netbirdio/netbird/management/proto" auth "github.com/netbirdio/netbird/relay/auth/hmac" ) // TURNRelayTokenManager used to manage TURN credentials type TURNRelayTokenManager interface { Generate() (*TURNRelayToken, error) SetupRefresh(ctx context.Context, peerKey string) CancelRefresh(peerKey string) } // TimeBasedAuthSecretsManager generates credentials with TTL and using pre-shared secret known to TURN server type TimeBasedAuthSecretsManager struct { mux sync.Mutex turnCfg *TURNConfig relayAddr string hmacToken *auth.TimedHMAC updateManager *PeersUpdateManager cancelMap map[string]chan struct{} } type TURNRelayToken auth.Token func NewTimeBasedAuthSecretsManager(updateManager *PeersUpdateManager, turnCfg *TURNConfig, relayAddress string) *TimeBasedAuthSecretsManager { return &TimeBasedAuthSecretsManager{ mux: sync.Mutex{}, updateManager: updateManager, turnCfg: turnCfg, relayAddr: relayAddress, hmacToken: auth.NewTimedHMAC(turnCfg.Secret, turnCfg.CredentialsTTL.Duration), cancelMap: make(map[string]chan struct{}), } } // Generate generates new time-based secret credentials - basically username is a unix timestamp and password is a HMAC hash of a timestamp with a preshared TURN secret func (m *TimeBasedAuthSecretsManager) Generate() (*TURNRelayToken, error) { token, err := m.hmacToken.GenerateToken() if err != nil { return nil, fmt.Errorf("failed to generate token: %s", err) } return (*TURNRelayToken)(token), nil } func (m *TimeBasedAuthSecretsManager) cancel(peerID string) { if channel, ok := m.cancelMap[peerID]; ok { close(channel) delete(m.cancelMap, peerID) } } // CancelRefresh cancels scheduled peer credentials refresh func (m *TimeBasedAuthSecretsManager) CancelRefresh(peerID string) { m.mux.Lock() defer m.mux.Unlock() m.cancel(peerID) } // SetupRefresh starts peer credentials refresh. Since credentials are expiring (TTL) it is necessary to always generate them and send to the peer. // A goroutine is created and put into TimeBasedAuthSecretsManager.cancelMap. This routine should be cancelled if peer is gone. func (m *TimeBasedAuthSecretsManager) SetupRefresh(ctx context.Context, peerID string) { m.mux.Lock() defer m.mux.Unlock() m.cancel(peerID) cancel := make(chan struct{}, 1) m.cancelMap[peerID] = cancel log.WithContext(ctx).Debugf("starting turn refresh for %s", peerID) go func() { // we don't want to regenerate credentials right on expiration, so we do it slightly before (at 3/4 of TTL) ticker := time.NewTicker(m.turnCfg.CredentialsTTL.Duration / 4 * 3) defer ticker.Stop() for { select { case <-cancel: log.WithContext(ctx).Debugf("stopping turn refresh for %s", peerID) return case <-ticker.C: m.pushNewTokens(ctx, peerID) } } }() } func (m *TimeBasedAuthSecretsManager) pushNewTokens(ctx context.Context, peerID string) { token, err := m.hmacToken.GenerateToken() if err != nil { log.Errorf("failed to generate token for peer '%s': %s", peerID, err) return } var turns []*proto.ProtectedHostConfig for _, host := range m.turnCfg.Turns { turns = append(turns, &proto.ProtectedHostConfig{ HostConfig: &proto.HostConfig{ Uri: host.URI, Protocol: ToResponseProto(host.Proto), }, User: token.Payload, Password: token.Signature, }) } update := &proto.SyncResponse{ WiretrusteeConfig: &proto.WiretrusteeConfig{ Turns: turns, Relay: &proto.RelayConfig{ Urls: []string{m.relayAddr}, TokenPayload: token.Payload, TokenSignature: token.Signature, }, }, } log.WithContext(ctx).Debugf("sending new TURN credentials to peer %s", peerID) m.updateManager.SendUpdate(ctx, peerID, &UpdateMessage{Update: update}) }