package main import ( "github.com/cloudflare/cloudflared/cmd/cloudflared/config" "github.com/cloudflare/cloudflared/tunneldns" "github.com/rs/zerolog" ) const ( // ResolverServiceType is used to identify what kind of overwatch service this is ResolverServiceType = "resolver" LogFieldResolverAddress = "resolverAddress" LogFieldResolverPort = "resolverPort" LogFieldResolverMaxUpstreamConns = "resolverMaxUpstreamConns" ) // ResolverService is used to wrap the tunneldns package's DNS over HTTP // into a service model for the overwatch package. // it also holds a reference to the config object that represents its state type ResolverService struct { resolver config.DNSResolver shutdown chan struct{} log *zerolog.Logger } // NewResolverService creates a new resolver service func NewResolverService(r config.DNSResolver, log *zerolog.Logger) *ResolverService { return &ResolverService{resolver: r, shutdown: make(chan struct{}), log: log, } } // Name is used to figure out this service is related to the others (normally the addr it binds to) // this is just "resolver" since there can only be one DNS resolver running func (s *ResolverService) Name() string { return ResolverServiceType } // Type is used to identify what kind of overwatch service this is func (s *ResolverService) Type() string { return ResolverServiceType } // Hash is used to figure out if this forwarder is the unchanged or not from the config file updates func (s *ResolverService) Hash() string { return s.resolver.Hash() } // Shutdown stops the tunneldns listener func (s *ResolverService) Shutdown() { s.shutdown <- struct{}{} } // Run is the run loop that is started by the overwatch service func (s *ResolverService) Run() error { // create a listener l, err := tunneldns.CreateListener(s.resolver.AddressOrDefault(), s.resolver.PortOrDefault(), s.resolver.UpstreamsOrDefault(), s.resolver.BootstrapsOrDefault(), s.resolver.MaxUpstreamConnectionsOrDefault(), s.log) if err != nil { return err } // start the listener. readySignal := make(chan struct{}) err = l.Start(readySignal) if err != nil { _ = l.Stop() return err } <-readySignal resolverLog := s.log.With(). Str(LogFieldResolverAddress, s.resolver.AddressOrDefault()). Uint16(LogFieldResolverPort, s.resolver.PortOrDefault()). Int(LogFieldResolverMaxUpstreamConns, s.resolver.MaxUpstreamConnectionsOrDefault()). Logger() resolverLog.Info().Msg("Starting resolver") // wait for shutdown signal <-s.shutdown resolverLog.Info().Msg("Shutting down resolver") return l.Stop() }