package gavalink import ( "errors" "log" "net/http" "os" "runtime" "sync" "time" ) // Log sets the log.Logger gavalink will write to var Log *log.Logger func init() { Log = log.New(os.Stdout, "(gavalink) ", 0) } // Lavalink manages a connection to Lavalink Nodes type Lavalink struct { shards int userID string nodes []*Node players map[string]*Player playersMu sync.RWMutex // Event handlers handlersMu sync.RWMutex handlers map[string][]*eventHandlerInstance onceHandlers map[string][]*eventHandlerInstance capabilities map[string]interface{} BestNodeFunc func([]*Node) (*Node, error) } var ( errNoNodes = errors.New("No nodes present") errNodeNotFound = errors.New("Couldn't find that node") errPlayerNotFound = errors.New("Couldn't find a player for that guild") errVolumeOutOfRange = errors.New("Volume is out of range, must be within [0, 1000]") errInvalidVersion = errors.New("This library requires Lavalink >= 3") errUnknownPayload = errors.New("Lavalink sent an unknown payload") ) // NewLavalink creates a new Lavalink manager func NewLavalink(shards int, userID string) *Lavalink { return &Lavalink{ shards: shards, userID: userID, players: make(map[string]*Player), BestNodeFunc: BestNodeByPenalties, } } // AddNodes adds a node to the Lavalink manager // This function calls all of the node connect methods at once. // TODO perhaps add a pool/max at a time limit? func (l *Lavalink) AddNodes(nodeConfigs ...NodeConfig) error { client := &http.Client{ Timeout: 60 * time.Second, } wg := &sync.WaitGroup{} errCh := make(chan error) for _, c := range nodeConfigs { n := &Node{ config: c, manager: l, client: client, } wg.Add(1) go func(n *Node, wg *sync.WaitGroup, errCh chan error) { defer wg.Done() err := n.open() if err != nil { errCh <- err return } l.nodes = append(l.nodes, n) }(n, wg, errCh) } wg.Wait() select { case err := <-errCh: return err default: return nil } } // RemoveNode removes a node from the manager func (l *Lavalink) removeNode(node *Node) error { idx := -1 for i, n := range l.nodes { if n == node { idx = i break } } if idx == -1 { return errNodeNotFound } node.stop() l.playersMu.RLock() for _, player := range l.players { if player.node == node { n, err := l.BestNode() if err != nil { continue } player.ChangeNode(n) } } l.playersMu.RUnlock() // temp var for easier reading n := l.nodes z := len(n) - 1 n[idx] = n[z] // swap idx with last n = n[:z] l.nodes = n return nil } // BestNode returns the Node with the lowest latency func (l *Lavalink) BestNode() (*Node, error) { if len(l.nodes) < 1 { return nil, errNoNodes } return l.BestNodeFunc(l.nodes) } // GetPlayer gets a player for a guild func (l *Lavalink) GetPlayer(guild string) (*Player, error) { l.playersMu.RLock() defer l.playersMu.RUnlock() p, ok := l.players[guild] if !ok { return nil, errPlayerNotFound } return p, nil } // Add capabilities mappings to the client, letting the server know what we support func (l *Lavalink) AddCapability(key string, i interface{}) { if l.capabilities == nil { l.capabilities = make(map[string]interface{}) } l.capabilities[key] = i } func gavalinkUserAgent() string { return "Gavalink (v1.0, " + runtime.Version() + ")" }