// Copyright (C) 2015 Audrius Butkevicius and Contributors (see the CONTRIBUTORS file). package client import ( "crypto/tls" "encoding/json" "fmt" "math/rand" "net/http" "net/url" "sort" "time" "github.com/syncthing/syncthing/lib/osutil" "github.com/syncthing/syncthing/lib/relay/protocol" "github.com/syncthing/syncthing/lib/sync" ) type dynamicClient struct { pooladdr *url.URL certs []tls.Certificate invitations chan protocol.SessionInvitation closeInvitationsOnFinish bool timeout time.Duration mut sync.RWMutex client RelayClient stop chan struct{} } func newDynamicClient(uri *url.URL, certs []tls.Certificate, invitations chan protocol.SessionInvitation, timeout time.Duration) RelayClient { closeInvitationsOnFinish := false if invitations == nil { closeInvitationsOnFinish = true invitations = make(chan protocol.SessionInvitation) } return &dynamicClient{ pooladdr: uri, certs: certs, invitations: invitations, closeInvitationsOnFinish: closeInvitationsOnFinish, timeout: timeout, mut: sync.NewRWMutex(), } } func (c *dynamicClient) Serve() { c.mut.Lock() c.stop = make(chan struct{}) c.mut.Unlock() uri := *c.pooladdr // Trim off the `dynamic+` prefix uri.Scheme = uri.Scheme[8:] l.Debugln(c, "looking up dynamic relays") data, err := http.Get(uri.String()) if err != nil { l.Debugln(c, "failed to lookup dynamic relays", err) return } var ann dynamicAnnouncement err = json.NewDecoder(data.Body).Decode(&ann) data.Body.Close() if err != nil { l.Debugln(c, "failed to lookup dynamic relays", err) return } defer c.cleanup() var addrs []string for _, relayAnn := range ann.Relays { ruri, err := url.Parse(relayAnn.URL) if err != nil { l.Debugln(c, "failed to parse dynamic relay address", relayAnn.URL, err) continue } l.Debugln(c, "found", ruri) addrs = append(addrs, ruri.String()) } for _, addr := range relayAddressesOrder(addrs) { select { case <-c.stop: l.Debugln(c, "stopping") return default: ruri, err := url.Parse(addr) if err != nil { l.Debugln(c, "skipping relay", addr, err) continue } client, err := NewClient(ruri, c.certs, c.invitations, c.timeout) if err != nil { continue } c.mut.Lock() c.client = client c.mut.Unlock() c.client.Serve() c.mut.Lock() c.client = nil c.mut.Unlock() } } l.Debugln(c, "could not find a connectable relay") } func (c *dynamicClient) Stop() { c.mut.RLock() defer c.mut.RUnlock() close(c.stop) if c.client == nil { return } c.client.Stop() } func (c *dynamicClient) StatusOK() bool { c.mut.RLock() defer c.mut.RUnlock() if c.client == nil { return false } return c.client.StatusOK() } func (c *dynamicClient) Latency() time.Duration { c.mut.RLock() defer c.mut.RUnlock() if c.client == nil { return time.Hour } return c.client.Latency() } func (c *dynamicClient) String() string { return fmt.Sprintf("DynamicClient:%p:%s@%s", c, c.URI(), c.pooladdr) } func (c *dynamicClient) URI() *url.URL { c.mut.RLock() defer c.mut.RUnlock() if c.client == nil { return c.pooladdr } return c.client.URI() } func (c *dynamicClient) Invitations() chan protocol.SessionInvitation { c.mut.RLock() inv := c.invitations c.mut.RUnlock() return inv } func (c *dynamicClient) cleanup() { c.mut.Lock() if c.closeInvitationsOnFinish { close(c.invitations) c.invitations = make(chan protocol.SessionInvitation) } c.mut.Unlock() } // This is the announcement recieved from the relay server; // {"relays": [{"url": "relay://10.20.30.40:5060"}, ...]} type dynamicAnnouncement struct { Relays []struct { URL string } } // relayAddressesOrder checks the latency to each relay, rounds latency down to // the closest 50ms, and puts them in buckets of 50ms latency ranges. Then // shuffles each bucket, and returns all addresses starting with the ones from // the lowest latency bucket, ending with the highest latency buceket. func relayAddressesOrder(input []string) []string { buckets := make(map[int][]string) for _, relay := range input { latency, err := osutil.GetLatencyForURL(relay) if err != nil { latency = time.Hour } id := int(latency/time.Millisecond) / 50 buckets[id] = append(buckets[id], relay) } var ids []int for id, bucket := range buckets { shuffle(bucket) ids = append(ids, id) } sort.Ints(ids) addresses := make([]string, len(input)) for _, id := range ids { addresses = append(addresses, buckets[id]...) } return addresses } func shuffle(slice []string) { for i := len(slice) - 1; i > 0; i-- { j := rand.Intn(i + 1) slice[i], slice[j] = slice[j], slice[i] } }