474 lines
13 KiB
Go
474 lines
13 KiB
Go
package dht
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import (
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"encoding/hex"
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"net"
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"strings"
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"sync"
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"time"
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"github.com/lbryio/errors.go"
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"github.com/lbryio/lbry.go/stop"
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"github.com/lbryio/lbry.go/util"
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"github.com/lbryio/reflector.go/dht/bits"
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"github.com/davecgh/go-spew/spew"
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"github.com/lyoshenka/bencode"
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)
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// packet represents the information receive from udp.
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type packet struct {
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data []byte
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raddr *net.UDPAddr
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}
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// UDPConn allows using a mocked connection to test sending/receiving data
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// TODO: stop mocking this and use the real thing
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type UDPConn interface {
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ReadFromUDP([]byte) (int, *net.UDPAddr, error)
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WriteToUDP([]byte, *net.UDPAddr) (int, error)
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SetReadDeadline(time.Time) error
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SetWriteDeadline(time.Time) error
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Close() error
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}
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// RequestHandlerFunc is exported handler for requests.
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type RequestHandlerFunc func(addr *net.UDPAddr, request Request)
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// Node is a type representation of a node on the network.
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type Node struct {
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// the node's id
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id bits.Bitmap
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// UDP connection for sending and receiving data
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conn UDPConn
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// true if we've closed the connection on purpose
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connClosed bool
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// token manager
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tokens *tokenManager
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// map of outstanding transactions + mutex
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txLock *sync.RWMutex
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transactions map[messageID]*transaction
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// routing table
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rt *routingTable
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// data store
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store *contactStore
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// overrides for request handlers
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requestHandler RequestHandlerFunc
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// stop the node neatly and clean up after itself
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grp *stop.Group
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}
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// NewNode returns an initialized Node's pointer.
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func NewNode(id bits.Bitmap) *Node {
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return &Node{
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id: id,
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rt: newRoutingTable(id),
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store: newStore(),
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txLock: &sync.RWMutex{},
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transactions: make(map[messageID]*transaction),
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grp: stop.New(),
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tokens: &tokenManager{},
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}
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}
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// Connect connects to the given connection and starts any background threads necessary
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func (n *Node) Connect(conn UDPConn) error {
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n.conn = conn
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n.tokens.Start(tokenSecretRotationInterval)
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go func() {
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// stop tokens and close the connection when we're shutting down
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<-n.grp.Ch()
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n.tokens.Stop()
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n.connClosed = true
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err := n.conn.Close()
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if err != nil {
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log.Error("error closing node connection on shutdown - ", err)
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}
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}()
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packets := make(chan packet)
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n.grp.Add(1)
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go func() {
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defer n.grp.Done()
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buf := make([]byte, udpMaxMessageLength)
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for {
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bytesRead, raddr, err := n.conn.ReadFromUDP(buf)
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if err != nil {
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if n.connClosed {
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return
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}
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log.Errorf("udp read error: %v", err)
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continue
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} else if raddr == nil {
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log.Errorf("udp read with no raddr")
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continue
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}
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data := make([]byte, bytesRead)
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copy(data, buf[:bytesRead]) // slices use the same underlying array, so we need a new one for each packet
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select { // needs select here because packet consumer can quit and the packets channel gets filled up and blocks
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case packets <- packet{data: data, raddr: raddr}:
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case <-n.grp.Ch():
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return
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}
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}
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}()
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n.grp.Add(1)
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go func() {
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defer n.grp.Done()
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var pkt packet
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for {
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select {
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case pkt = <-packets:
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n.handlePacket(pkt)
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case <-n.grp.Ch():
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return
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}
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}
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}()
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// TODO: turn this back on when you're sure it works right
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n.grp.Add(1)
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go func() {
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defer n.grp.Done()
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n.startRoutingTableGrooming()
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}()
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return nil
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}
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// Shutdown shuts down the node
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func (n *Node) Shutdown() {
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log.Debugf("[%s] node shutting down", n.id.HexShort())
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n.grp.StopAndWait()
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log.Debugf("[%s] node stopped", n.id.HexShort())
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}
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// handlePacket handles packets received from udp.
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func (n *Node) handlePacket(pkt packet) {
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//log.Debugf("[%s] Received message from %s (%d bytes) %s", n.id.HexShort(), pkt.raddr.String(), len(pkt.data), hex.EncodeToString(pkt.data))
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if !util.InSlice(string(pkt.data[0:5]), []string{"d1:0i", "di0ei"}) {
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log.Errorf("[%s] data is not a well-formatted dict: (%d bytes) %s", n.id.HexShort(), len(pkt.data), hex.EncodeToString(pkt.data))
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return
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}
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// the following is a bit of a hack, but it lets us avoid decoding every message twice
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// it depends on the data being a dict with 0 as the first key (so it starts with "d1:0i") and the message type as the first value
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// TODO: test this more thoroughly
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switch pkt.data[5] {
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case '0' + requestType:
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request := Request{}
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err := bencode.DecodeBytes(pkt.data, &request)
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if err != nil {
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log.Errorf("[%s] error decoding request from %s: %s: (%d bytes) %s", n.id.HexShort(), pkt.raddr.String(), err.Error(), len(pkt.data), hex.EncodeToString(pkt.data))
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return
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}
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log.Debugf("[%s] query %s: received request from %s: %s(%s)", n.id.HexShort(), request.ID.HexShort(), request.NodeID.HexShort(), request.Method, request.argsDebug())
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n.handleRequest(pkt.raddr, request)
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case '0' + responseType:
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response := Response{}
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err := bencode.DecodeBytes(pkt.data, &response)
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if err != nil {
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log.Errorf("[%s] error decoding response from %s: %s: (%d bytes) %s", n.id.HexShort(), pkt.raddr.String(), err.Error(), len(pkt.data), hex.EncodeToString(pkt.data))
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return
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}
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log.Debugf("[%s] query %s: received response from %s: %s", n.id.HexShort(), response.ID.HexShort(), response.NodeID.HexShort(), response.argsDebug())
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n.handleResponse(pkt.raddr, response)
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case '0' + errorType:
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e := Error{}
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err := bencode.DecodeBytes(pkt.data, &e)
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if err != nil {
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log.Errorf("[%s] error decoding error from %s: %s: (%d bytes) %s", n.id.HexShort(), pkt.raddr.String(), err.Error(), len(pkt.data), hex.EncodeToString(pkt.data))
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return
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}
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log.Debugf("[%s] query %s: received error from %s: %s", n.id.HexShort(), e.ID.HexShort(), e.NodeID.HexShort(), e.ExceptionType)
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n.handleError(pkt.raddr, e)
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default:
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log.Errorf("[%s] invalid message type: %s", n.id.HexShort(), string(pkt.data[5]))
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return
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}
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}
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// handleRequest handles the requests received from udp.
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func (n *Node) handleRequest(addr *net.UDPAddr, request Request) {
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if request.NodeID.Equals(n.id) {
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log.Warn("ignoring self-request")
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return
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}
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// if a handler is overridden, call it instead
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if n.requestHandler != nil {
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n.requestHandler(addr, request)
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return
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}
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switch request.Method {
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default:
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//n.sendMessage(addr, Error{ID: request.ID, NodeID: n.id, ExceptionType: "invalid-request-method"})
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log.Errorln("invalid request method")
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return
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case pingMethod:
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err := n.sendMessage(addr, Response{ID: request.ID, NodeID: n.id, Data: pingSuccessResponse})
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if err != nil {
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log.Error("error sending 'pingmethod' response message - ", err)
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}
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case storeMethod:
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// TODO: we should be sending the IP in the request, not just using the sender's IP
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// TODO: should we be using StoreArgs.NodeID or StoreArgs.Value.LbryID ???
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if n.tokens.Verify(request.StoreArgs.Value.Token, request.NodeID, addr) {
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n.Store(request.StoreArgs.BlobHash, Contact{ID: request.StoreArgs.NodeID, IP: addr.IP, Port: addr.Port, PeerPort: request.StoreArgs.Value.Port})
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err := n.sendMessage(addr, Response{ID: request.ID, NodeID: n.id, Data: storeSuccessResponse})
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if err != nil {
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log.Error("error sending 'storemethod' response message - ", err)
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}
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} else {
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err := n.sendMessage(addr, Error{ID: request.ID, NodeID: n.id, ExceptionType: "invalid-token"})
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if err != nil {
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log.Error("error sending 'storemethod'response message for invalid-token - ", err)
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}
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}
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case findNodeMethod:
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if request.Arg == nil {
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log.Errorln("request is missing arg")
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return
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}
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err := n.sendMessage(addr, Response{
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ID: request.ID,
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NodeID: n.id,
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Contacts: n.rt.GetClosest(*request.Arg, bucketSize),
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})
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if err != nil {
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log.Error("error sending 'findnodemethod' response message - ", err)
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}
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case findValueMethod:
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if request.Arg == nil {
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log.Errorln("request is missing arg")
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return
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}
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res := Response{
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ID: request.ID,
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NodeID: n.id,
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Token: n.tokens.Get(request.NodeID, addr),
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}
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if contacts := n.store.Get(*request.Arg); len(contacts) > 0 {
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res.FindValueKey = request.Arg.RawString()
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res.Contacts = contacts
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} else {
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res.Contacts = n.rt.GetClosest(*request.Arg, bucketSize)
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}
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err := n.sendMessage(addr, res)
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if err != nil {
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log.Error("error sending 'findvaluemethod' response message - ", err)
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}
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}
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// nodes that send us requests should not be inserted, only refreshed.
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// the routing table must only contain "good" nodes, which are nodes that reply to our requests
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// if a node is already good (aka in the table), its fine to refresh it
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// http://www.bittorrent.org/beps/bep_0005.html#routing-table
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n.rt.Fresh(Contact{ID: request.NodeID, IP: addr.IP, Port: addr.Port})
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}
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// handleResponse handles responses received from udp.
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func (n *Node) handleResponse(addr *net.UDPAddr, response Response) {
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tx := n.txFind(response.ID, Contact{ID: response.NodeID, IP: addr.IP, Port: addr.Port})
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if tx != nil {
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select {
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case tx.res <- response:
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default:
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//log.Errorf("[%s] query %s: response received, but tx has no listener or multiple responses to the same tx", n.id.HexShort(), response.ID.HexShort())
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}
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}
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n.rt.Update(Contact{ID: response.NodeID, IP: addr.IP, Port: addr.Port})
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}
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// handleError handles errors received from udp.
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func (n *Node) handleError(addr *net.UDPAddr, e Error) {
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spew.Dump(e)
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n.rt.Fresh(Contact{ID: e.NodeID, IP: addr.IP, Port: addr.Port})
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}
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// send sends data to a udp address
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func (n *Node) sendMessage(addr *net.UDPAddr, data Message) error {
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encoded, err := bencode.EncodeBytes(data)
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if err != nil {
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return errors.Err(err)
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}
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if req, ok := data.(Request); ok {
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log.Debugf("[%s] query %s: sending request to %s (%d bytes) %s(%s)",
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n.id.HexShort(), req.ID.HexShort(), addr.String(), len(encoded), req.Method, req.argsDebug())
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} else if res, ok := data.(Response); ok {
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log.Debugf("[%s] query %s: sending response to %s (%d bytes) %s",
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n.id.HexShort(), res.ID.HexShort(), addr.String(), len(encoded), res.argsDebug())
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} else {
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log.Debugf("[%s] (%d bytes) %s", n.id.HexShort(), len(encoded), spew.Sdump(data))
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}
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err = n.conn.SetWriteDeadline(time.Now().Add(5 * time.Second))
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if err != nil {
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if n.connClosed {
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return nil
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}
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log.Error("error setting write deadline - ", err)
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}
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_, err = n.conn.WriteToUDP(encoded, addr)
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return errors.Err(err)
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}
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// transaction represents a single query to the dht. it stores the queried contact, the request, and the response channel
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type transaction struct {
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contact Contact
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req Request
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res chan Response
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skipIDCheck bool
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}
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// insert adds a transaction to the manager.
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func (n *Node) txInsert(tx *transaction) {
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n.txLock.Lock()
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defer n.txLock.Unlock()
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n.transactions[tx.req.ID] = tx
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}
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// delete removes a transaction from the manager.
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func (n *Node) txDelete(id messageID) {
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n.txLock.Lock()
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defer n.txLock.Unlock()
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delete(n.transactions, id)
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}
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// Find finds a transaction for the given id and contact
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func (n *Node) txFind(id messageID, c Contact) *transaction {
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n.txLock.RLock()
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defer n.txLock.RUnlock()
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t, ok := n.transactions[id]
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if !ok || !t.contact.Equals(c, !t.skipIDCheck) {
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return nil
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}
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return t
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}
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// SendOptions controls the behavior of send calls
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type SendOptions struct {
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skipIDCheck bool
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}
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// SendAsync sends a transaction and returns a channel that will eventually contain the transaction response
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// The response channel is closed when the transaction is completed or times out.
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func (n *Node) SendAsync(contact Contact, req Request, options ...SendOptions) <-chan *Response {
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ch := make(chan *Response, 1)
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if contact.ID.Equals(n.id) {
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log.Error("sending query to self")
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close(ch)
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return ch
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}
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go func() {
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defer close(ch)
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req.ID = newMessageID()
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req.NodeID = n.id
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tx := &transaction{
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contact: contact,
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req: req,
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res: make(chan Response),
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}
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if len(options) > 0 && options[0].skipIDCheck {
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tx.skipIDCheck = true
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}
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n.txInsert(tx)
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defer n.txDelete(tx.req.ID)
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for i := 0; i < udpRetry; i++ {
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err := n.sendMessage(contact.Addr(), tx.req)
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if err != nil {
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if !strings.Contains(err.Error(), "use of closed network connection") { // this only happens on localhost. real UDP has no connections
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log.Error("send error: ", err)
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}
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continue
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}
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select {
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case res := <-tx.res:
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ch <- &res
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return
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case <-n.grp.Ch():
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return
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case <-time.After(udpTimeout):
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}
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}
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// notify routing table about a failure to respond
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n.rt.Fail(tx.contact)
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}()
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return ch
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}
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// Send sends a transaction and blocks until the response is available. It returns a response, or nil
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// if the transaction timed out.
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func (n *Node) Send(contact Contact, req Request, options ...SendOptions) *Response {
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return <-n.SendAsync(contact, req, options...)
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}
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// CountActiveTransactions returns the number of transactions in the manager
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func (n *Node) CountActiveTransactions() int {
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n.txLock.Lock()
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defer n.txLock.Unlock()
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return len(n.transactions)
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}
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func (n *Node) startRoutingTableGrooming() {
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refreshTicker := time.NewTicker(tRefresh / 5) // how often to check for buckets that need to be refreshed
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for {
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select {
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case <-refreshTicker.C:
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RoutingTableRefresh(n, tRefresh, n.grp.Child())
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case <-n.grp.Ch():
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return
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}
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}
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}
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// Store stores a node contact in the node's contact store.
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func (n *Node) Store(hash bits.Bitmap, c Contact) {
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n.store.Upsert(hash, c)
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}
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//AddKnownNode adds a known-good node to the routing table
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func (n *Node) AddKnownNode(c Contact) {
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n.rt.Update(c)
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}
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