Go Language dns seeder for Bitcoin based networks
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package main
import (
"errors"
"log"
"net"
"strconv"
"time"
"github.com/btcsuite/btcd/wire"
)
type crawlError struct {
errLoc string
Err error
}
// Error returns a formatted error about a crawl
func (e *crawlError) Error() string {
return "err: " + e.errLoc + ": " + e.Err.Error()
}
// crawlNode runs in a goroutine, crawls the remote ip and updates the master
// list of currently active addresses
func crawlNode(rc chan *result, s *dnsseeder, nd *node) {
res := &result{
node: net.JoinHostPort(nd.na.IP.String(), strconv.Itoa(int(nd.na.Port))),
}
// connect to the remote ip and ask them for their addr list
res.nas, res.msg = crawlIP(s, res)
// all done so push the result back to the seeder.
//This will block until the seeder reads the result
rc <- res
// goroutine will end and be cleaned up
}
// crawlIP retrievs a slice of ip addresses from a client
func crawlIP(s *dnsseeder, r *result) ([]*wire.NetAddress, *crawlError) {
conn, err := net.DialTimeout("tcp", r.node, time.Second*10)
if err != nil {
if config.debug {
log.Printf("%s - debug - Could not connect to %s - %v\n", s.name, r.node, err)
}
return nil, &crawlError{"", err}
}
defer conn.Close()
if config.debug {
log.Printf("%s - debug - Connected to remote address: %s\n", s.name, r.node)
}
// set a deadline for all comms to be done by. After this all i/o will error
conn.SetDeadline(time.Now().Add(time.Second * maxTo))
meAddr, youAddr := conn.LocalAddr(), conn.RemoteAddr()
me := wire.NewNetAddress(meAddr.(*net.TCPAddr), wire.SFNodeNetwork)
you := wire.NewNetAddress(youAddr.(*net.TCPAddr), wire.SFNodeNetwork)
msgver := wire.NewMsgVersion(me, you, nounce, 0)
err = wire.WriteMessage(conn, msgver, s.pver, s.id)
if err != nil {
// Log and handle the error
return nil, &crawlError{"Write Version Message", err}
}
// first message received should be version
msg, _, err := wire.ReadMessage(conn, s.pver, s.id)
if err != nil {
// Log and handle the error
return nil, &crawlError{"Read message after sending Version", err}
}
switch msg := msg.(type) {
case *wire.MsgVersion:
// The message is a pointer to a MsgVersion struct.
if config.debug {
log.Printf("%s - debug - %s - Remote version: %v\n", s.name, r.node, msg.ProtocolVersion)
}
// fill the node struct with the remote details
r.version = msg.ProtocolVersion
r.services = msg.Services
r.lastBlock = msg.LastBlock
r.strVersion = msg.UserAgent
default:
return nil, &crawlError{"Did not receive expected Version message from remote client", errors.New("")}
}
// send verack command
msgverack := wire.NewMsgVerAck()
err = wire.WriteMessage(conn, msgverack, s.pver, s.id)
if err != nil {
return nil, &crawlError{"writing message VerAck", err}
}
// second message received should be verack
msg, _, err = wire.ReadMessage(conn, s.pver, s.id)
if err != nil {
return nil, &crawlError{"reading expected Ver Ack from remote client", err}
}
switch msg.(type) {
case *wire.MsgVerAck:
if config.debug {
log.Printf("%s - debug - %s - received Version Ack\n", s.name, r.node)
}
default:
return nil, &crawlError{"Did not receive expected Ver Ack message from remote client", errors.New("")}
}
// if we get this far and if the seeder is full then don't ask for addresses. This will reduce bandwith usage while still
// confirming that we can connect to the remote node
9 years ago
if len(s.theList) > s.maxSize {
return nil, nil
}
// send getaddr command
msgGetAddr := wire.NewMsgGetAddr()
err = wire.WriteMessage(conn, msgGetAddr, s.pver, s.id)
if err != nil {
return nil, &crawlError{"writing Addr message to remote client", err}
}
c := 0
dowhile := true
peers := []*wire.NetAddress{}
for dowhile == true {
// Using the Bitcoin lib for the some networks means it does not understand some
// of the commands and will error. We can ignore these as we are only
// interested in the addr message and its content.
msgaddr, _, _ := wire.ReadMessage(conn, s.pver, s.id)
if msgaddr != nil {
switch msg := msgaddr.(type) {
case *wire.MsgAddr:
// received the addr message so return the result
if config.debug {
log.Printf("%s - debug - %s - received valid addr message\n", s.name, r.node)
}
peers = append(peers, msg.AddrList...)
// Bitcoin nodes typically return two Addr messages: one with
// only one peer, and another with many peers. This is
// probably because ancient protocol versions (pver < 209) only
// allowed one peer per Addr mesage, so returning a one-peer
// Addr message first improves backward-compatibility. Anyway,
// this means we need to wait for the second Addr message.
if len(peers) > 1 {
dowhile = false
return msg.AddrList, nil
}
default:
if config.debug {
log.Printf("%s - debug - %s - ignoring message - %v\n", s.name, r.node, msg.Command())
}
}
}
// if we get more than 25 messages before the addr we asked for then give up on this client
if c++; c >= 25 {
dowhile = false
}
}
// received too many messages before requested Addr
return nil, &crawlError{"message loop - did not receive remote addresses in first 25 messages from remote client", errors.New("")}
}
/*
*/