package libp2p // This file contains all libp2p configuration options (except the defaults, // those are in defaults.go) import ( "fmt" "net" config "github.com/libp2p/go-libp2p/config" bhost "github.com/libp2p/go-libp2p/p2p/host/basic" circuit "github.com/libp2p/go-libp2p-circuit" crypto "github.com/libp2p/go-libp2p-crypto" ifconnmgr "github.com/libp2p/go-libp2p-interface-connmgr" pnet "github.com/libp2p/go-libp2p-interface-pnet" metrics "github.com/libp2p/go-libp2p-metrics" pstore "github.com/libp2p/go-libp2p-peerstore" filter "github.com/libp2p/go-maddr-filter" ma "github.com/multiformats/go-multiaddr" ) // ListenAddrStrings configures libp2p to listen on the given (unparsed) // addresses. func ListenAddrStrings(s ...string) Option { return func(cfg *Config) error { for _, addrstr := range s { a, err := ma.NewMultiaddr(addrstr) if err != nil { return err } cfg.ListenAddrs = append(cfg.ListenAddrs, a) } return nil } } // ListenAddrs configures libp2p to listen on the given addresses. func ListenAddrs(addrs ...ma.Multiaddr) Option { return func(cfg *Config) error { cfg.ListenAddrs = append(cfg.ListenAddrs, addrs...) return nil } } // Security configures libp2p to use the given security transport (or transport // constructor). // // Name is the protocol name. // // The transport can be a constructed security.Transport or a function taking // any subset of this libp2p node's: // * Public key // * Private key // * Peer ID // * Host // * Network // * Peerstore func Security(name string, tpt interface{}) Option { stpt, err := config.SecurityConstructor(tpt) err = traceError(err, 1) return func(cfg *Config) error { if err != nil { return err } if cfg.Insecure { return fmt.Errorf("cannot use security transports with an insecure libp2p configuration") } cfg.SecurityTransports = append(cfg.SecurityTransports, config.MsSecC{SecC: stpt, ID: name}) return nil } } // NoSecurity is an option that completely disables all transport security. // It's incompatible with all other transport security protocols. var NoSecurity Option = func(cfg *Config) error { if len(cfg.SecurityTransports) > 0 { return fmt.Errorf("cannot use security transports with an insecure libp2p configuration") } cfg.Insecure = true return nil } // Muxer configures libp2p to use the given stream multiplexer (or stream // multiplexer constructor). // // Name is the protocol name. // // The transport can be a constructed mux.Transport or a function taking any // subset of this libp2p node's: // * Peer ID // * Host // * Network // * Peerstore func Muxer(name string, tpt interface{}) Option { mtpt, err := config.MuxerConstructor(tpt) err = traceError(err, 1) return func(cfg *Config) error { if err != nil { return err } cfg.Muxers = append(cfg.Muxers, config.MsMuxC{MuxC: mtpt, ID: name}) return nil } } // Transport configures libp2p to use the given transport (or transport // constructor). // // The transport can be a constructed transport.Transport or a function taking // any subset of this libp2p node's: // * Transport Upgrader (*tptu.Upgrader) // * Host // * Stream muxer (muxer.Transport) // * Security transport (security.Transport) // * Private network protector (pnet.Protector) // * Peer ID // * Private Key // * Public Key // * Address filter (filter.Filter) // * Peerstore func Transport(tpt interface{}) Option { tptc, err := config.TransportConstructor(tpt) err = traceError(err, 1) return func(cfg *Config) error { if err != nil { return err } cfg.Transports = append(cfg.Transports, tptc) return nil } } // Peerstore configures libp2p to use the given peerstore. func Peerstore(ps pstore.Peerstore) Option { return func(cfg *Config) error { if cfg.Peerstore != nil { return fmt.Errorf("cannot specify multiple peerstore options") } cfg.Peerstore = ps return nil } } // PrivateNetwork configures libp2p to use the given private network protector. func PrivateNetwork(prot pnet.Protector) Option { return func(cfg *Config) error { if cfg.Protector != nil { return fmt.Errorf("cannot specify multiple private network options") } cfg.Protector = prot return nil } } // BandwidthReporter configures libp2p to use the given bandwidth reporter. func BandwidthReporter(rep metrics.Reporter) Option { return func(cfg *Config) error { if cfg.Reporter != nil { return fmt.Errorf("cannot specify multiple bandwidth reporter options") } cfg.Reporter = rep return nil } } // Identity configures libp2p to use the given private key to identify itself. func Identity(sk crypto.PrivKey) Option { return func(cfg *Config) error { if cfg.PeerKey != nil { return fmt.Errorf("cannot specify multiple identities") } cfg.PeerKey = sk return nil } } // ConnectionManager configures libp2p to use the given connection manager. func ConnectionManager(connman ifconnmgr.ConnManager) Option { return func(cfg *Config) error { if cfg.ConnManager != nil { return fmt.Errorf("cannot specify multiple connection managers") } cfg.ConnManager = connman return nil } } // AddrsFactory configures libp2p to use the given address factory. func AddrsFactory(factory config.AddrsFactory) Option { return func(cfg *Config) error { if cfg.AddrsFactory != nil { return fmt.Errorf("cannot specify multiple address factories") } cfg.AddrsFactory = factory return nil } } // EnableRelay configures libp2p to enable the relay transport with configuration options. func EnableRelay(options ...circuit.RelayOpt) Option { return func(cfg *Config) error { cfg.RelayCustom = true cfg.Relay = true cfg.RelayOpts = options return nil } } // DisableRelay configures libp2p to disable the relay transport func DisableRelay() Option { return func(cfg *Config) error { cfg.RelayCustom = true cfg.Relay = false return nil } } // FilterAddresses configures libp2p to never dial nor accept connections from // the given addresses. func FilterAddresses(addrs ...*net.IPNet) Option { return func(cfg *Config) error { if cfg.Filters == nil { cfg.Filters = filter.NewFilters() } for _, addr := range addrs { cfg.Filters.AddDialFilter(addr) } return nil } } // NATPortMap configures libp2p to use the default NATManager. The default // NATManager will attempt to open a port in your network's firewall using UPnP. func NATPortMap() Option { return NATManager(bhost.NewNATManager) } // NATManager will configure libp2p to use the requested NATManager. This // function should be passed a NATManager *constructor* that takes a libp2p Network. func NATManager(nm config.NATManagerC) Option { return func(cfg *Config) error { if cfg.NATManager != nil { return fmt.Errorf("cannot specify multiple NATManagers") } cfg.NATManager = nm return nil } } // Ping will configure libp2p to support the ping service; enable by default. func Ping(enable bool) Option { return func(cfg *Config) error { cfg.PingCustom = true cfg.Ping = enable return nil } } // NoListenAddrs will configure libp2p to not listen by default. // // This will both clear any configured listen addrs and prevent libp2p from // applying the default listen address option. It also disables relay, unless the // user explicitly specifies with an option, as the transport creates an implicit // listen address that would make the node dialable through any relay it was connected to. var NoListenAddrs = func(cfg *Config) error { cfg.ListenAddrs = []ma.Multiaddr{} if !cfg.RelayCustom { cfg.RelayCustom = true cfg.Relay = false } return nil } // NoTransports will configure libp2p to not enable any transports. // // This will both clear any configured transports (specified in prior libp2p // options) and prevent libp2p from applying the default transports. var NoTransports = func(cfg *Config) error { cfg.Transports = []config.TptC{} return nil }