package yggdrasil import ( "encoding/hex" "errors" "io/ioutil" "net" "time" "github.com/gologme/log" "github.com/yggdrasil-network/yggdrasil-go/src/address" "github.com/yggdrasil-network/yggdrasil-go/src/config" "github.com/yggdrasil-network/yggdrasil-go/src/crypto" ) var buildName string var buildVersion string // The Core object represents the Yggdrasil node. You should create a Core // object for each Yggdrasil node you plan to run. type Core struct { // This is the main data structure that holds everything else for a node // We're going to keep our own copy of the provided config - that way we can // guarantee that it will be covered by the mutex config config.NodeState // Config boxPub crypto.BoxPubKey boxPriv crypto.BoxPrivKey sigPub crypto.SigPubKey sigPriv crypto.SigPrivKey switchTable switchTable peers peers sessions sessions router router dht dht admin admin searches searches link link log *log.Logger } func (c *Core) init() error { // TODO separate init and start functions // Init sets up structs // Start launches goroutines that depend on structs being set up // This is pretty much required to completely avoid race conditions if c.log == nil { c.log = log.New(ioutil.Discard, "", 0) } current, _ := c.config.Get() boxPubHex, err := hex.DecodeString(current.EncryptionPublicKey) if err != nil { return err } boxPrivHex, err := hex.DecodeString(current.EncryptionPrivateKey) if err != nil { return err } sigPubHex, err := hex.DecodeString(current.SigningPublicKey) if err != nil { return err } sigPrivHex, err := hex.DecodeString(current.SigningPrivateKey) if err != nil { return err } copy(c.boxPub[:], boxPubHex) copy(c.boxPriv[:], boxPrivHex) copy(c.sigPub[:], sigPubHex) copy(c.sigPriv[:], sigPrivHex) c.admin.init(c) c.searches.init(c) c.dht.init(c) c.sessions.init(c) //c.multicast.init(c) c.peers.init(c) c.router.init(c) c.switchTable.init(c) // TODO move before peers? before router? return nil } // If any static peers were provided in the configuration above then we should // configure them. The loop ensures that disconnected peers will eventually // be reconnected with. func (c *Core) addPeerLoop() { for { // the peers from the config - these could change! current, _ := c.config.Get() // Add peers from the Peers section for _, peer := range current.Peers { c.AddPeer(peer, "") time.Sleep(time.Second) } // Add peers from the InterfacePeers section for intf, intfpeers := range current.InterfacePeers { for _, peer := range intfpeers { c.AddPeer(peer, intf) time.Sleep(time.Second) } } // Sit for a while time.Sleep(time.Minute) } } // UpdateConfig updates the configuration in Core with the provided // config.NodeConfig and then signals the various module goroutines to // reconfigure themselves if needed. func (c *Core) UpdateConfig(config *config.NodeConfig) { c.log.Infoln("Reloading configuration...") c.config.Replace(*config) errors := 0 components := []chan chan error{ c.admin.reconfigure, c.searches.reconfigure, c.dht.reconfigure, c.sessions.reconfigure, c.peers.reconfigure, c.router.reconfigure, c.router.cryptokey.reconfigure, c.switchTable.reconfigure, c.link.reconfigure, } for _, component := range components { response := make(chan error) component <- response if err := <-response; err != nil { c.log.Errorln(err) errors++ } } if errors > 0 { c.log.Warnln(errors, "modules reported errors during configuration reload") } else { c.log.Infoln("Configuration reloaded successfully") } } // BuildName gets the current build name. This is usually injected if built // from git, or returns "unknown" otherwise. func BuildName() string { if buildName == "" { return "unknown" } return buildName } // BuildVersion gets the current build version. This is usually injected if // built from git, or returns "unknown" otherwise. func BuildVersion() string { if buildVersion == "" { return "unknown" } return buildVersion } // SetRouterAdapter instructs Yggdrasil to use the given adapter when starting // the router. The adapter must implement the standard // adapter.adapterImplementation interface and should extend the adapter.Adapter // struct. func (c *Core) SetRouterAdapter(adapter interface{}) error { // We do this because adapterImplementation is not a valid type for the // gomobile bindings so we just ask for a generic interface and try to cast it // to adapterImplementation instead if a, ok := adapter.(adapterImplementation); ok { c.router.adapter = a return nil } return errors.New("unsuitable adapter") } // Start starts up Yggdrasil using the provided config.NodeConfig, and outputs // debug logging through the provided log.Logger. The started stack will include // TCP and UDP sockets, a multicast discovery socket, an admin socket, router, // switch and DHT node. A config.NodeState is returned which contains both the // current and previous configurations (from reconfigures). func (c *Core) Start(nc *config.NodeConfig, log *log.Logger) (*config.NodeState, error) { c.log = log c.config = config.NodeState{ Current: *nc, Previous: *nc, } if name := BuildName(); name != "unknown" { c.log.Infoln("Build name:", name) } if version := BuildVersion(); version != "unknown" { c.log.Infoln("Build version:", version) } c.log.Infoln("Starting up...") c.init() if err := c.link.init(c); err != nil { c.log.Errorln("Failed to start link interfaces") return nil, err } c.config.Mutex.RLock() if c.config.Current.SwitchOptions.MaxTotalQueueSize >= SwitchQueueTotalMinSize { c.switchTable.queueTotalMaxSize = c.config.Current.SwitchOptions.MaxTotalQueueSize } c.config.Mutex.RUnlock() if err := c.switchTable.start(); err != nil { c.log.Errorln("Failed to start switch") return nil, err } if err := c.router.start(); err != nil { c.log.Errorln("Failed to start router") return nil, err } if err := c.admin.start(); err != nil { c.log.Errorln("Failed to start admin socket") return nil, err } if c.router.adapter != nil { if err := c.router.adapter.Start(c.router.addr, c.router.subnet); err != nil { c.log.Errorln("Failed to start TUN/TAP") return nil, err } } go c.addPeerLoop() c.log.Infoln("Startup complete") return &c.config, nil } // Stop shuts down the Yggdrasil node. func (c *Core) Stop() { c.log.Infoln("Stopping...") if c.router.adapter != nil { c.router.adapter.Close() } c.admin.close() } // Dial opens a session to the given node. The first paramter should be "nodeid" // and the second parameter should contain a hexadecimal representation of the // target node ID. func (c *Core) Dial(network, address string) (Conn, error) { conn := Conn{} nodeID := crypto.NodeID{} nodeMask := crypto.NodeID{} // Process switch network { case "nodeid": // A node ID was provided - we don't need to do anything special with it dest, err := hex.DecodeString(address) if err != nil { return Conn{}, err } copy(nodeID[:], dest) for i := range nodeMask { nodeMask[i] = 0xFF } default: // An unexpected address type was given, so give up return Conn{}, errors.New("unexpected address type") } conn.core = c conn.nodeID = &nodeID conn.nodeMask = &nodeMask conn.core.router.doAdmin(func() { conn.startSearch() }) return conn, nil } // ListenTCP starts a new TCP listener. The input URI should match that of the // "Listen" configuration item, e.g. // tcp://a.b.c.d:e func (c *Core) ListenTCP(uri string) (*TcpListener, error) { return c.link.tcp.listen(uri) } // NewEncryptionKeys generates a new encryption keypair. The encryption keys are // used to encrypt traffic and to derive the IPv6 address/subnet of the node. func (c *Core) NewEncryptionKeys() (*crypto.BoxPubKey, *crypto.BoxPrivKey) { return crypto.NewBoxKeys() } // NewSigningKeys generates a new signing keypair. The signing keys are used to // derive the structure of the spanning tree. func (c *Core) NewSigningKeys() (*crypto.SigPubKey, *crypto.SigPrivKey) { return crypto.NewSigKeys() } // NodeID gets the node ID. func (c *Core) NodeID() *crypto.NodeID { return crypto.GetNodeID(&c.boxPub) } // TreeID gets the tree ID. func (c *Core) TreeID() *crypto.TreeID { return crypto.GetTreeID(&c.sigPub) } // SigPubKey gets the node's signing public key. func (c *Core) SigPubKey() string { return hex.EncodeToString(c.sigPub[:]) } // BoxPubKey gets the node's encryption public key. func (c *Core) BoxPubKey() string { return hex.EncodeToString(c.boxPub[:]) } // Address gets the IPv6 address of the Yggdrasil node. This is always a /128 // address. func (c *Core) Address() *net.IP { address := net.IP(address.AddrForNodeID(c.NodeID())[:]) return &address } // Subnet gets the routed IPv6 subnet of the Yggdrasil node. This is always a // /64 subnet. func (c *Core) Subnet() *net.IPNet { subnet := address.SubnetForNodeID(c.NodeID())[:] subnet = append(subnet, 0, 0, 0, 0, 0, 0, 0, 0) return &net.IPNet{IP: subnet, Mask: net.CIDRMask(64, 128)} } // RouterAddresses returns the raw address and subnet types as used by the // router func (c *Core) RouterAddresses() (address.Address, address.Subnet) { return c.router.addr, c.router.subnet } // NodeInfo gets the currently configured nodeinfo. func (c *Core) NodeInfo() nodeinfoPayload { return c.router.nodeinfo.getNodeInfo() } // SetNodeInfo the lcal nodeinfo. Note that nodeinfo can be any value or struct, // it will be serialised into JSON automatically. func (c *Core) SetNodeInfo(nodeinfo interface{}, nodeinfoprivacy bool) { c.router.nodeinfo.setNodeInfo(nodeinfo, nodeinfoprivacy) } // SetLogger sets the output logger of the Yggdrasil node after startup. This // may be useful if you want to redirect the output later. func (c *Core) SetLogger(log *log.Logger) { c.log = log } // AddPeer adds a peer. This should be specified in the peer URI format, e.g.: // tcp://a.b.c.d:e // socks://a.b.c.d:e/f.g.h.i:j // This adds the peer to the peer list, so that they will be called again if the // connection drops. func (c *Core) AddPeer(addr string, sintf string) error { if err := c.CallPeer(addr, sintf); err != nil { return err } c.config.Mutex.Lock() if sintf == "" { c.config.Current.Peers = append(c.config.Current.Peers, addr) } else { c.config.Current.InterfacePeers[sintf] = append(c.config.Current.InterfacePeers[sintf], addr) } c.config.Mutex.Unlock() return nil } // CallPeer calls a peer once. This should be specified in the peer URI format, // e.g.: // tcp://a.b.c.d:e // socks://a.b.c.d:e/f.g.h.i:j // This does not add the peer to the peer list, so if the connection drops, the // peer will not be called again automatically. func (c *Core) CallPeer(addr string, sintf string) error { return c.link.call(addr, sintf) } // AddAllowedEncryptionPublicKey adds an allowed public key. This allow peerings // to be restricted only to keys that you have selected. func (c *Core) AddAllowedEncryptionPublicKey(boxStr string) error { return c.admin.addAllowedEncryptionPublicKey(boxStr) }