package rabbitmq import ( "fmt" "sync" "time" "errors" uuid "github.com/nu7hatch/gouuid" "github.com/streadway/amqp" "github.com/myodc/go-micro/transport" ) type rmqtport struct { conn *rabbitMQConn addrs []string once sync.Once replyTo string sync.Mutex inflight map[string]chan amqp.Delivery } type rmqtportClient struct { rt *rmqtport addr string corId string reply chan amqp.Delivery } type rmqtportSocket struct { conn *rabbitMQConn d *amqp.Delivery } type rmqtportListener struct { conn *rabbitMQConn addr string } func (r *rmqtportClient) Send(m *transport.Message) error { if !r.rt.conn.IsConnected() { return errors.New("Not connected to AMQP") } headers := amqp.Table{} for k, v := range m.Header { headers[k] = v } message := amqp.Publishing{ CorrelationId: r.corId, Timestamp: time.Now().UTC(), Body: m.Body, ReplyTo: r.rt.replyTo, Headers: headers, } if err := r.rt.conn.Publish("micro", r.addr, message); err != nil { return err } return nil } func (r *rmqtportClient) Recv(m *transport.Message) error { select { case d := <-r.reply: mr := &transport.Message{ Header: make(map[string]string), Body: d.Body, } for k, v := range d.Headers { mr.Header[k] = fmt.Sprintf("%v", v) } *m = *mr return nil case <-time.After(time.Second * 10): return errors.New("timed out") } } func (r *rmqtportClient) Close() error { r.rt.popReq(r.corId) return nil } func (r *rmqtportSocket) Recv(m *transport.Message) error { if m == nil { return errors.New("message passed in is nil") } mr := &transport.Message{ Header: make(map[string]string), Body: r.d.Body, } for k, v := range r.d.Headers { mr.Header[k] = fmt.Sprintf("%v", v) } *m = *mr return nil } func (r *rmqtportSocket) Send(m *transport.Message) error { msg := amqp.Publishing{ CorrelationId: r.d.CorrelationId, Timestamp: time.Now().UTC(), Body: m.Body, Headers: amqp.Table{}, } for k, v := range m.Header { msg.Headers[k] = v } return r.conn.Publish("", r.d.ReplyTo, msg) } func (r *rmqtportSocket) Close() error { return nil } func (r *rmqtportListener) Addr() string { return r.addr } func (r *rmqtportListener) Close() error { r.conn.Close() return nil } func (r *rmqtportListener) Accept(fn func(transport.Socket)) error { deliveries, err := r.conn.Consume(r.addr) if err != nil { return err } handler := func(d amqp.Delivery) { fn(&rmqtportSocket{ d: &d, conn: r.conn, }) } for d := range deliveries { go handler(d) } return nil } func (r *rmqtport) putReq(id string) chan amqp.Delivery { r.Lock() ch := make(chan amqp.Delivery, 1) r.inflight[id] = ch r.Unlock() return ch } func (r *rmqtport) getReq(id string) chan amqp.Delivery { r.Lock() defer r.Unlock() if ch, ok := r.inflight[id]; ok { return ch } return nil } func (r *rmqtport) popReq(id string) { r.Lock() defer r.Unlock() if _, ok := r.inflight[id]; ok { delete(r.inflight, id) } } func (r *rmqtport) init() { <-r.conn.Init() if err := r.conn.Channel.DeclareReplyQueue(r.replyTo); err != nil { return } deliveries, err := r.conn.Channel.ConsumeQueue(r.replyTo) if err != nil { return } go func() { for delivery := range deliveries { go r.handle(delivery) } }() } func (r *rmqtport) handle(delivery amqp.Delivery) { ch := r.getReq(delivery.CorrelationId) if ch == nil { return } ch <- delivery } func (r *rmqtport) Dial(addr string, opts ...transport.DialOption) (transport.Client, error) { id, err := uuid.NewV4() if err != nil { return nil, err } r.once.Do(r.init) return &rmqtportClient{ rt: r, addr: addr, corId: id.String(), reply: r.putReq(id.String()), }, nil } func (r *rmqtport) Listen(addr string) (transport.Listener, error) { id, err := uuid.NewV4() if err != nil { return nil, err } conn := newRabbitMQConn("", r.addrs) <-conn.Init() return &rmqtportListener{ addr: id.String(), conn: conn, }, nil } func NewTransport(addrs []string, opt ...transport.Option) transport.Transport { id, _ := uuid.NewV4() return &rmqtport{ conn: newRabbitMQConn("", addrs), addrs: addrs, replyTo: id.String(), inflight: make(map[string]chan amqp.Delivery), } }