package server import ( "fmt" "net/url" "path" "path/filepath" "sort" "strings" "sync" "github.com/coreos/etcd/log" "github.com/coreos/etcd/store" ) // The location of the peer URL data. const RegistryKey = "/_etcd/machines" // The Registry stores URL information for nodes. type Registry struct { sync.Mutex store store.Store peers map[string]*node } // The internal storage format of the registry. type node struct { peerVersion string peerURL string url string } // Creates a new Registry. func NewRegistry(s store.Store) *Registry { return &Registry{ store: s, peers: make(map[string]*node), } } // Register adds a peer to the registry. func (r *Registry) Register(name string, peerURL string, machURL string) error { // Write data to store. v := url.Values{} v.Set("raft", peerURL) v.Set("etcd", machURL) log.Debugf("Register: %s", name) if _, err := r.store.Create(path.Join(RegistryKey, name), false, v.Encode(), false, store.Permanent); err != nil { return err } r.Lock() defer r.Unlock() r.peers[name] = r.load(RegistryKey, name) return nil } // Unregister removes a peer from the registry. func (r *Registry) Unregister(name string) error { // Remove the key from the store. log.Debugf("Unregister: %s", name) _, err := r.store.Delete(path.Join(RegistryKey, name), false, false) return err } // Count returns the number of peers in the cluster. func (r *Registry) Count() int { e, err := r.store.Get(RegistryKey, false, false) if err != nil { return 0 } return len(e.Node.Nodes) } // Exists checks if a peer with the given name exists. func (r *Registry) Exists(name string) bool { e, err := r.store.Get(path.Join(RegistryKey, name), false, false) if err != nil { return false } return (e.Node != nil) } // Retrieves the client URL for a given node by name. func (r *Registry) ClientURL(name string) (string, bool) { r.Lock() defer r.Unlock() return r.clientURL(RegistryKey, name) } func (r *Registry) clientURL(key, name string) (string, bool) { if r.peers[name] == nil { if peer := r.load(key, name); peer != nil { r.peers[name] = peer } } if peer := r.peers[name]; peer != nil { return peer.url, true } return "", false } // TODO(yichengq): have all of the code use a full URL with scheme // and remove this method // PeerHost retrieves the host part of peer URL for a given node by name. func (r *Registry) PeerHost(name string) (string, bool) { rawurl, ok := r.PeerURL(name) if ok { u, _ := url.Parse(rawurl) return u.Host, ok } return rawurl, ok } // Retrieves the peer URL for a given node by name. func (r *Registry) PeerURL(name string) (string, bool) { r.Lock() defer r.Unlock() return r.peerURL(RegistryKey, name) } func (r *Registry) peerURL(key, name string) (string, bool) { if r.peers[name] == nil { if peer := r.load(key, name); peer != nil { r.peers[name] = peer } } if peer := r.peers[name]; peer != nil { return peer.peerURL, true } return "", false } // UpdatePeerURL updates peer URL in registry func (r *Registry) UpdatePeerURL(name string, peerURL string) error { machURL, _ := r.clientURL(RegistryKey, name) // Write data to store. v := url.Values{} v.Set("raft", peerURL) v.Set("etcd", machURL) log.Debugf("Update PeerURL: %s", name) if _, err := r.store.Update(path.Join(RegistryKey, name), v.Encode(), store.Permanent); err != nil { return err } r.Lock() defer r.Unlock() // Invalidate outdated cache. r.invalidate(name) return nil } func (r *Registry) name(key, name string) (string, bool) { return name, true } // Names returns a list of cached peer names. func (r *Registry) Names() []string { names := r.urls(RegistryKey, "", "", r.name) sort.Sort(sort.StringSlice(names)) return names } // Retrieves the Client URLs for all nodes. func (r *Registry) ClientURLs(leaderName, selfName string) []string { return r.urls(RegistryKey, leaderName, selfName, r.clientURL) } // Retrieves the Peer URLs for all nodes. func (r *Registry) PeerURLs(leaderName, selfName string) []string { return r.urls(RegistryKey, leaderName, selfName, r.peerURL) } // Retrieves the URLs for all nodes using url function. func (r *Registry) urls(key, leaderName, selfName string, url func(key, name string) (string, bool)) []string { r.Lock() defer r.Unlock() // Build list including the leader and self. urls := make([]string, 0) if url, _ := url(key, leaderName); len(url) > 0 { urls = append(urls, url) } // Retrieve a list of all nodes. if e, _ := r.store.Get(key, false, false); e != nil { // Lookup the URL for each one. for _, pair := range e.Node.Nodes { _, name := filepath.Split(pair.Key) if url, _ := url(key, name); len(url) > 0 && name != leaderName { urls = append(urls, url) } } } log.Debugf("URLs: %s: %s / %s (%s)", key, leaderName, selfName, strings.Join(urls, ",")) return urls } // Removes a node from the cache. func (r *Registry) Invalidate(name string) { r.Lock() defer r.Unlock() r.invalidate(name) } func (r *Registry) invalidate(name string) { delete(r.peers, name) } // Loads the given node by name from the store into the cache. func (r *Registry) load(key, name string) *node { if name == "" { return nil } // Retrieve from store. e, err := r.store.Get(path.Join(key, name), false, false) if err != nil { return nil } // Parse as a query string. m, err := url.ParseQuery(*e.Node.Value) if err != nil { panic(fmt.Sprintf("Failed to parse peers entry: %s", name)) } // Create node. return &node{ url: m["etcd"][0], peerURL: m["raft"][0], } }