package endpoint import ( "errors" "net/url" "strconv" "strings" "sync" "time" "github.com/streadway/amqp" ) var errExpired = errors.New("expired") // Protocol is the type of protocol that the endpoint represents. type Protocol string const ( // Local protocol Local = Protocol("local") // HTTP protocol HTTP = Protocol("http") // Disque protocol Disque = Protocol("disque") // GRPC protocol GRPC = Protocol("grpc") // Redis protocol Redis = Protocol("redis") // Kafka protocol Kafka = Protocol("kafka") // MQTT protocol MQTT = Protocol("mqtt") // AMQP protocol AMQP = Protocol("amqp") // SQS protocol SQS = Protocol("sqs") // NATS protocol NATS = Protocol("nats") ) // Endpoint represents an endpoint. type Endpoint struct { Protocol Protocol Original string GRPC struct { Host string Port int } Disque struct { Host string Port int QueueName string Options struct { Replicate int } } Redis struct { Host string Port int Channel string } Kafka struct { Host string Port int TopicName string } AMQP struct { URI string SSL bool QueueName string RouteKey string Type string Durable bool AutoDelete bool Internal bool NoWait bool Mandatory bool Immediate bool DeliveryMode uint8 } MQTT struct { Host string Port int QueueName string Qos byte Retained bool CACertFile string CertFile string KeyFile string } SQS struct { PlainURL string QueueID string Region string CredPath string CredProfile string QueueName string CreateQueue bool } NATS struct { Host string Port int User string Pass string Topic string Token string TLS bool TLSCert string TLSKey string } Local struct { Channel string } } // Conn is an endpoint connection type Conn interface { Expired() bool Send(val string) error } // Manager manages all endpoints type Manager struct { mu sync.RWMutex conns map[string]Conn publisher LocalPublisher } // NewManager returns a new manager func NewManager(publisher LocalPublisher) *Manager { epc := &Manager{ conns: make(map[string]Conn), publisher: publisher, } go epc.Run() return epc } // Run starts the managing of endpoints func (epc *Manager) Run() { for { time.Sleep(time.Second) func() { epc.mu.Lock() defer epc.mu.Unlock() for endpoint, conn := range epc.conns { if conn.Expired() { delete(epc.conns, endpoint) } } }() } } // Validate an endpoint url func (epc *Manager) Validate(url string) error { _, err := parseEndpoint(url) return err } // Send send a message to an endpoint func (epc *Manager) Send(endpoint, msg string) error { for { epc.mu.Lock() conn, exists := epc.conns[endpoint] if !exists || conn.Expired() { ep, err := parseEndpoint(endpoint) if err != nil { epc.mu.Unlock() return err } switch ep.Protocol { default: return errors.New("invalid protocol") case HTTP: conn = newHTTPConn(ep) case Disque: conn = newDisqueConn(ep) case GRPC: conn = newGRPCConn(ep) case Redis: conn = newRedisConn(ep) case Kafka: conn = newKafkaConn(ep) case MQTT: conn = newMQTTConn(ep) case AMQP: conn = newAMQPConn(ep) case SQS: conn = newSQSConn(ep) case NATS: conn = newNATSConn(ep) case Local: conn = newLocalConn(ep, epc.publisher) } epc.conns[endpoint] = conn } epc.mu.Unlock() err := conn.Send(msg) if err != nil { if err == errExpired { // it's possible that the connection has expired in-between // the last conn.Expired() check and now. If so, we should // just try the send again. continue } return err } return nil } } func parseEndpoint(s string) (Endpoint, error) { var endpoint Endpoint endpoint.Original = s switch { default: return endpoint, errors.New("unknown scheme") case strings.HasPrefix(s, "local:"): endpoint.Protocol = Local case strings.HasPrefix(s, "http:"): endpoint.Protocol = HTTP case strings.HasPrefix(s, "https:"): if probeSQS(s) { endpoint.SQS.PlainURL = s endpoint.Protocol = SQS } else { endpoint.Protocol = HTTP } case strings.HasPrefix(s, "disque:"): endpoint.Protocol = Disque case strings.HasPrefix(s, "grpc:"): endpoint.Protocol = GRPC case strings.HasPrefix(s, "redis:"): endpoint.Protocol = Redis case strings.HasPrefix(s, "kafka:"): endpoint.Protocol = Kafka case strings.HasPrefix(s, "amqp:"): endpoint.Protocol = AMQP case strings.HasPrefix(s, "amqps:"): endpoint.Protocol = AMQP case strings.HasPrefix(s, "mqtt:"): endpoint.Protocol = MQTT case strings.HasPrefix(s, "sqs:"): endpoint.Protocol = SQS case strings.HasPrefix(s, "nats:"): endpoint.Protocol = NATS } s = s[strings.Index(s, ":")+1:] if !strings.HasPrefix(s, "//") { return endpoint, errors.New("missing the two slashes") } sqp := strings.Split(s[2:], "?") sp := strings.Split(sqp[0], "/") s = sp[0] if s == "" { if endpoint.Protocol == Local { return endpoint, errors.New("missing channel") } return endpoint, errors.New("missing host") } // Local PubSub channel // local:// if endpoint.Protocol == Local { endpoint.Local.Channel = s } if endpoint.Protocol == GRPC { dp := strings.Split(s, ":") switch len(dp) { default: return endpoint, errors.New("invalid grpc url") case 1: endpoint.GRPC.Host = dp[0] endpoint.GRPC.Port = 80 case 2: endpoint.GRPC.Host = dp[0] n, err := strconv.ParseUint(dp[1], 10, 16) if err != nil { return endpoint, errors.New("invalid grpc url") } endpoint.GRPC.Port = int(n) } } if endpoint.Protocol == Redis { dp := strings.Split(s, ":") switch len(dp) { default: return endpoint, errors.New("invalid redis url") case 1: endpoint.Redis.Host = dp[0] endpoint.Redis.Port = 6379 case 2: endpoint.Redis.Host = dp[0] n, err := strconv.ParseUint(dp[1], 10, 16) if err != nil { return endpoint, errors.New("invalid redis url port") } endpoint.Redis.Port = int(n) } if len(sp) > 1 { var err error endpoint.Redis.Channel, err = url.QueryUnescape(sp[1]) if err != nil { return endpoint, errors.New("invalid redis channel name") } } } if endpoint.Protocol == Disque { dp := strings.Split(s, ":") switch len(dp) { default: return endpoint, errors.New("invalid disque url") case 1: endpoint.Disque.Host = dp[0] endpoint.Disque.Port = 7711 case 2: endpoint.Disque.Host = dp[0] n, err := strconv.ParseUint(dp[1], 10, 16) if err != nil { return endpoint, errors.New("invalid disque url") } endpoint.Disque.Port = int(n) } if len(sp) > 1 { var err error endpoint.Disque.QueueName, err = url.QueryUnescape(sp[1]) if err != nil { return endpoint, errors.New("invalid disque queue name") } } if len(sqp) > 1 { m, err := url.ParseQuery(sqp[1]) if err != nil { return endpoint, errors.New("invalid disque url") } for key, val := range m { if len(val) == 0 { continue } switch key { case "replicate": n, err := strconv.ParseUint(val[0], 10, 8) if err != nil { return endpoint, errors.New("invalid disque replicate value") } endpoint.Disque.Options.Replicate = int(n) } } } if endpoint.Disque.QueueName == "" { return endpoint, errors.New("missing disque queue name") } } if endpoint.Protocol == Kafka { // Parsing connection from URL string hp := strings.Split(s, ":") switch len(hp) { default: return endpoint, errors.New("invalid kafka url") case 1: endpoint.Kafka.Host = hp[0] endpoint.Kafka.Port = 9092 case 2: n, err := strconv.ParseUint(hp[1], 10, 16) if err != nil { return endpoint, errors.New("invalid kafka url port") } endpoint.Kafka.Host = hp[0] endpoint.Kafka.Port = int(n) } // Parsing Kafka queue name if len(sp) > 1 { var err error endpoint.Kafka.TopicName, err = url.QueryUnescape(sp[1]) if err != nil { return endpoint, errors.New("invalid kafka topic name") } } // Throw error if we not provide any queue name if endpoint.Kafka.TopicName == "" { return endpoint, errors.New("missing kafka topic name") } } if endpoint.Protocol == MQTT { // Parsing connection from URL string hp := strings.Split(s, ":") switch len(hp) { default: return endpoint, errors.New("invalid MQTT url") case 1: endpoint.MQTT.Host = hp[0] endpoint.MQTT.Port = 1883 case 2: n, err := strconv.ParseUint(hp[1], 10, 16) if err != nil { return endpoint, errors.New("invalid MQTT url port") } endpoint.MQTT.Host = hp[0] endpoint.MQTT.Port = int(n) } // Parsing MQTT queue name if len(sp) > 1 { var err error var parts []string for _, part := range sp[1:] { part, err = url.QueryUnescape(part) if err != nil { return endpoint, errors.New("invalid MQTT topic name") } parts = append(parts, part) } endpoint.MQTT.QueueName = strings.Join(parts, "/") } // Parsing additional params if len(sqp) > 1 { m, err := url.ParseQuery(sqp[1]) if err != nil { return endpoint, errors.New("invalid MQTT url") } for key, val := range m { if len(val) == 0 { continue } switch key { case "qos": n, err := strconv.ParseUint(val[0], 10, 8) if err != nil { return endpoint, errors.New("invalid MQTT qos value") } endpoint.MQTT.Qos = byte(n) case "retained": n, err := strconv.ParseUint(val[0], 10, 8) if err != nil { return endpoint, errors.New("invalid MQTT retained value") } if n != 1 && n != 0 { return endpoint, errors.New("invalid MQTT retained, should be [0, 1]") } if n == 1 { endpoint.MQTT.Retained = true } case "cacert": endpoint.MQTT.CACertFile = val[0] case "cert": endpoint.MQTT.CertFile = val[0] case "key": endpoint.MQTT.KeyFile = val[0] } } } // Throw error if we not provide any queue name if endpoint.MQTT.QueueName == "" { return endpoint, errors.New("missing MQTT topic name") } } // Basic SQS connection strings in HOOKS interface // sqs://://?params=value // // params are: // // credpath - path where aws credentials are located // credprofile - credential profile if endpoint.Protocol == SQS { if endpoint.SQS.PlainURL == "" { // Parsing connection from URL string hp := strings.Split(s, ":") switch len(hp) { default: return endpoint, errors.New("invalid SQS url") case 2: endpoint.SQS.Region = hp[0] endpoint.SQS.QueueID = hp[1] } // Parsing SQS queue name if len(sp) > 1 { var err error endpoint.SQS.QueueName, err = url.QueryUnescape(sp[1]) if err != nil { return endpoint, errors.New("invalid SQS queue name") } } // Throw error if we not provide any queue name if endpoint.SQS.QueueName == "" { return endpoint, errors.New("missing SQS queue name") } } // Parsing additional params if len(sqp) > 1 { m, err := url.ParseQuery(sqp[1]) if err != nil { return endpoint, errors.New("invalid SQS url") } for key, val := range m { if len(val) == 0 { continue } switch key { case "credpath": endpoint.SQS.CredPath = val[0] case "credprofile": endpoint.SQS.CredProfile = val[0] case "createqueue": switch strings.ToLower(val[0]) { case "0", "false": default: endpoint.SQS.CreateQueue = true } } } } } // Basic AMQP connection strings in HOOKS interface // amqp://guest:guest@localhost:5672//?params=value // or amqp://guest:guest@localhost:5672///?params=value // // Default params are: // // Mandatory - false // Immeditate - false // Durable - true // Routing-Key - tile38 // // - "route" - [string] routing key // if endpoint.Protocol == AMQP { // Bind connection information endpoint.AMQP.URI = s endpoint.AMQP.Type = "direct" endpoint.AMQP.Durable = true endpoint.AMQP.DeliveryMode = amqp.Transient // Fix incase of namespace, e.g. example.com/namespace/queue // but not example.com/queue/ - with an endslash. if len(sp) > 2 && len(sp[2]) > 0 { endpoint.AMQP.URI = endpoint.AMQP.URI + "/" + sp[1] sp = append([]string{endpoint.AMQP.URI}, sp[2:]...) } // Bind queue name with no namespace if len(sp) > 1 { var err error endpoint.AMQP.QueueName, err = url.QueryUnescape(sp[1]) if err != nil { return endpoint, errors.New("invalid AMQP queue name") } } // Parsing additional attributes if len(sqp) > 1 { m, err := url.ParseQuery(sqp[1]) if err != nil { return endpoint, errors.New("invalid AMQP url") } for key, val := range m { if len(val) == 0 { continue } switch key { case "route": endpoint.AMQP.RouteKey = val[0] case "type": endpoint.AMQP.Type = val[0] case "durable": endpoint.AMQP.Durable = queryBool(val[0]) case "internal": endpoint.AMQP.Internal = queryBool(val[0]) case "no_wait": endpoint.AMQP.NoWait = queryBool(val[0]) case "auto_delete": endpoint.AMQP.AutoDelete = queryBool(val[0]) case "immediate": endpoint.AMQP.Immediate = queryBool(val[0]) case "mandatory": endpoint.AMQP.Mandatory = queryBool(val[0]) case "delivery_mode": endpoint.AMQP.DeliveryMode = uint8(queryInt(val[0])) } } } if strings.HasPrefix(endpoint.Original, "amqps:") { endpoint.AMQP.SSL = true } if endpoint.AMQP.QueueName == "" { return endpoint, errors.New("missing AMQP queue name") } if endpoint.AMQP.RouteKey == "" { endpoint.AMQP.RouteKey = "tile38" } } // Basic NATS connection strings in HOOKS interface // nats://://?params=value // // params are: // // user - username // pass - password // when user or pass is not set then login without password is used if endpoint.Protocol == NATS { // Parsing connection from URL string hp := strings.Split(s, ":") switch len(hp) { default: return endpoint, errors.New("invalid SQS url") case 2: endpoint.NATS.Host = hp[0] port, err := strconv.Atoi(hp[1]) if err != nil { endpoint.NATS.Port = 4222 // default nats port } else { endpoint.NATS.Port = port } } // Parsing NATS topic name if len(sp) > 1 { var err error endpoint.NATS.Topic, err = url.QueryUnescape(sp[1]) if err != nil { return endpoint, errors.New("invalid NATS topic name") } } // Parsing additional params if len(sqp) > 1 { m, err := url.ParseQuery(sqp[1]) if err != nil { return endpoint, errors.New("invalid NATS url") } for key, val := range m { if len(val) == 0 { continue } switch key { case "user": endpoint.NATS.User = val[0] case "pass": endpoint.NATS.Pass = val[0] case "token": endpoint.NATS.Token = val[0] case "tls": endpoint.NATS.TLS = queryBool(val[0]) case "tlscert": endpoint.NATS.TLSCert = val[0] case "tlskey": endpoint.NATS.TLSKey = val[0] } } } } return endpoint, nil } func queryInt(s string) int { x, _ := strconv.ParseInt(s, 10, 64) return int(x) } func queryBool(s string) bool { if len(s) > 0 { if s[0] >= '1' && s[0] <= '9' { return true } switch s[0] { case 'Y', 'y', 'T', 't': return true } } return false }