FedP2P/dht/announce.go

210 lines
4.6 KiB
Go

package dht
// get_peers and announce_peers.
import (
"log"
"time"
"github.com/anacrolix/sync"
"github.com/willf/bloom"
"github.com/anacrolix/torrent/logonce"
"github.com/anacrolix/torrent/util"
)
// Maintains state for an ongoing Announce operation. An Announce is started
// by calling Server.Announce.
type Announce struct {
mu sync.Mutex
Peers chan PeersValues
// Inner chan is set to nil when on close.
values chan PeersValues
stop chan struct{}
triedAddrs *bloom.BloomFilter
pending int
server *Server
infoHash string
numContacted int
announcePort int
announcePortImplied bool
}
// Returns the number of distinct remote addresses the announce has queried.
func (me *Announce) NumContacted() int {
me.mu.Lock()
defer me.mu.Unlock()
return me.numContacted
}
// This is kind of the main thing you want to do with DHT. It traverses the
// graph toward nodes that store peers for the infohash, streaming them to the
// caller, and announcing the local node to each node if allowed and
// specified.
func (s *Server) Announce(infoHash string, port int, impliedPort bool) (*Announce, error) {
s.mu.Lock()
startAddrs := func() (ret []dHTAddr) {
for _, n := range s.closestGoodNodes(160, infoHash) {
ret = append(ret, n.addr)
}
return
}()
s.mu.Unlock()
if len(startAddrs) == 0 {
addrs, err := bootstrapAddrs(s.bootstrapNodes)
if err != nil {
return nil, err
}
for _, addr := range addrs {
startAddrs = append(startAddrs, newDHTAddr(addr))
}
}
disc := &Announce{
Peers: make(chan PeersValues, 100),
stop: make(chan struct{}),
values: make(chan PeersValues),
triedAddrs: bloom.NewWithEstimates(1000, 0.5),
server: s,
infoHash: infoHash,
announcePort: port,
announcePortImplied: impliedPort,
}
// Function ferries from values to Values until discovery is halted.
go func() {
defer close(disc.Peers)
for {
select {
case psv := <-disc.values:
select {
case disc.Peers <- psv:
case <-disc.stop:
return
}
case <-disc.stop:
return
}
}
}()
for i, addr := range startAddrs {
if i != 0 {
time.Sleep(time.Millisecond)
}
disc.mu.Lock()
disc.contact(addr)
disc.mu.Unlock()
}
return disc, nil
}
func (me *Announce) gotNodeAddr(addr dHTAddr) {
if util.AddrPort(addr) == 0 {
// Not a contactable address.
return
}
if me.triedAddrs.Test([]byte(addr.String())) {
return
}
if me.server.ipBlocked(addr.UDPAddr().IP) {
return
}
me.contact(addr)
}
func (me *Announce) contact(addr dHTAddr) {
me.numContacted++
me.triedAddrs.Add([]byte(addr.String()))
if err := me.getPeers(addr); err != nil {
log.Printf("error sending get_peers request to %s: %#v", addr, err)
return
}
me.pending++
}
func (me *Announce) transactionClosed() {
me.pending--
if me.pending == 0 {
me.close()
return
}
}
func (me *Announce) responseNode(node NodeInfo) {
me.gotNodeAddr(node.Addr)
}
func (me *Announce) closingCh() chan struct{} {
return me.stop
}
func (me *Announce) announcePeer(to dHTAddr, token string) {
me.server.mu.Lock()
err := me.server.announcePeer(to, me.infoHash, me.announcePort, token, me.announcePortImplied)
me.server.mu.Unlock()
if err != nil {
logonce.Stderr.Printf("error announcing peer: %s", err)
}
}
func (me *Announce) getPeers(addr dHTAddr) error {
me.server.mu.Lock()
defer me.server.mu.Unlock()
t, err := me.server.getPeers(addr, me.infoHash)
if err != nil {
return err
}
t.SetResponseHandler(func(m Msg) {
// Register suggested nodes closer to the target info-hash.
me.mu.Lock()
for _, n := range m.Nodes() {
me.responseNode(n)
}
me.mu.Unlock()
if vs := m.Values(); vs != nil {
nodeInfo := NodeInfo{
Addr: t.remoteAddr,
}
copy(nodeInfo.ID[:], m.ID())
select {
case me.values <- PeersValues{
Peers: vs,
NodeInfo: nodeInfo,
}:
case <-me.stop:
}
}
if at, ok := m.AnnounceToken(); ok {
me.announcePeer(addr, at)
}
me.mu.Lock()
me.transactionClosed()
me.mu.Unlock()
})
return nil
}
// Corresponds to the "values" key in a get_peers KRPC response. A list of
// peers that a node has reported as being in the swarm for a queried info
// hash.
type PeersValues struct {
Peers []util.CompactPeer // Peers given in get_peers response.
NodeInfo // The node that gave the response.
}
// Stop the announce.
func (me *Announce) Close() {
me.mu.Lock()
defer me.mu.Unlock()
me.close()
}
func (ps *Announce) close() {
select {
case <-ps.stop:
default:
close(ps.stop)
}
}