// Copyright (C) 2018 Storj Labs, Inc. // See LICENSE for copying information. package kademlia import ( "context" "crypto/rand" "fmt" "log" "net" "strconv" bkad "github.com/coyle/kademlia" "github.com/zeebo/errs" "storj.io/storj/pkg/dht" proto "storj.io/storj/protos/overlay" ) // NodeErr is the class for all errors pertaining to node operations var NodeErr = errs.Class("node error") //TODO: shouldn't default to TCP but not sure what to do yet var defaultTransport = proto.NodeTransport_TCP // Kademlia is an implementation of kademlia adhering to the DHT interface. type Kademlia struct { routingTable dht.RoutingTable bootstrapNodes []proto.Node ip string port string stun bool dht *bkad.DHT } // NewKademlia returns a newly configured Kademlia instance func NewKademlia(id dht.NodeID, bootstrapNodes []proto.Node, ip string, port string) (*Kademlia, error) { if port == "" { return nil, NodeErr.New("must specify port in request to NewKademlia") } ips, err := net.LookupIP(ip) if err != nil { return nil, err } if len(ips) <= 0 { return nil, errs.New("Invalid IP") } ip = ips[0].String() bnodes, err := convertProtoNodes(bootstrapNodes) if err != nil { return nil, err } bdht, err := bkad.NewDHT(&bkad.MemoryStore{}, &bkad.Options{ ID: id.Bytes(), IP: ip, Port: port, BootstrapNodes: bnodes, }) if err != nil { return nil, err } rt := RouteTable{ ht: bdht.HT, dht: bdht, } return &Kademlia{ routingTable: rt, bootstrapNodes: bootstrapNodes, ip: ip, port: port, stun: true, dht: bdht, }, nil } // Disconnect safely closes connections to the Kademlia network func (k Kademlia) Disconnect() error { return k.dht.Disconnect() } // GetNodes returns all nodes from a starting node up to a maximum limit stored in the local routing table func (k Kademlia) GetNodes(ctx context.Context, start string, limit int) ([]*proto.Node, error) { if start == "" { start = k.dht.GetSelfID() } nn, err := k.dht.FindNodes(ctx, start, limit) if err != nil { return []*proto.Node{}, err } return convertNetworkNodes(nn), nil } // GetRoutingTable provides the routing table for the Kademlia DHT func (k *Kademlia) GetRoutingTable(ctx context.Context) (dht.RoutingTable, error) { return RouteTable{ ht: k.dht.HT, dht: k.dht, }, nil } // Bootstrap contacts one of a set of pre defined trusted nodes on the network and // begins populating the local Kademlia node func (k *Kademlia) Bootstrap(ctx context.Context) error { return k.dht.Bootstrap() } // Ping checks that the provided node is still accessible on the network func (k *Kademlia) Ping(ctx context.Context, node proto.Node) (proto.Node, error) { n, err := convertProtoNode(node) if err != nil { return proto.Node{}, err } ok, err := k.dht.Ping(n) if err != nil { return proto.Node{}, err } if !ok { return proto.Node{}, NodeErr.New("node unavailable") } return node, nil } // FindNode looks up the provided NodeID first in the local Node, and if it is not found // begins searching the network for the NodeID. Returns and error if node was not found func (k *Kademlia) FindNode(ctx context.Context, ID dht.NodeID) (proto.Node, error) { nodes, err := k.dht.FindNode(ID.Bytes()) if err != nil { return proto.Node{}, err } for _, v := range nodes { if string(v.ID) == ID.String() { return proto.Node{Id: string(v.ID), Address: &proto.NodeAddress{ Transport: defaultTransport, Address: fmt.Sprintf("%s:%d", v.IP.String(), v.Port), }, }, nil } } return proto.Node{}, NodeErr.New("node not found") } // ListenAndServe connects the kademlia node to the network and listens for incoming requests func (k *Kademlia) ListenAndServe() error { if err := k.dht.CreateSocket(); err != nil { return err } go func() { if err := k.dht.Listen(); err != nil { log.Printf("Failed to listen on the dht: %s\n", err) } }() return nil } func convertProtoNodes(n []proto.Node) ([]*bkad.NetworkNode, error) { nn := make([]*bkad.NetworkNode, len(n)) for i, v := range n { node, err := convertProtoNode(v) if err != nil { return nil, err } nn[i] = node } return nn, nil } func convertNetworkNodes(n []*bkad.NetworkNode) []*proto.Node { nn := make([]*proto.Node, len(n)) for i, v := range n { nn[i] = convertNetworkNode(v) } return nn } func convertNetworkNode(v *bkad.NetworkNode) *proto.Node { return &proto.Node{ Id: string(v.ID), Address: &proto.NodeAddress{Transport: defaultTransport, Address: net.JoinHostPort(v.IP.String(), strconv.Itoa(v.Port))}, } } func convertProtoNode(v proto.Node) (*bkad.NetworkNode, error) { host, port, err := net.SplitHostPort(v.GetAddress().GetAddress()) if err != nil { return nil, err } nn := bkad.NewNetworkNode(host, port) nn.ID = []byte(v.GetId()) return nn, nil } // newID generates a new random ID. // This purely to get things working. We shouldn't use this as the ID in the actual network func newID() ([]byte, error) { result := make([]byte, 20) _, err := rand.Read(result) return result, err } // GetIntroNode determines the best node to bootstrap a new node onto the network func GetIntroNode(id, ip, port string) (*proto.Node, error) { addr := "bootstrap.storj.io:8080" if ip != "" && port != "" { addr = ip + ":" + port } if id == "" { i, err := newID() if err != nil { return nil, err } id = string(i) } return &proto.Node{ Id: id, Address: &proto.NodeAddress{ Transport: defaultTransport, Address: addr, }, }, nil }