/* Receive a message part from a socket. For a description of flags, see: http://api.zeromq.org/2-2:zmq-recv#toc2 */ func (soc *Socket) RecvBytes(flags Flag) ([]byte, error) { if !soc.opened { return []byte{}, ErrorSocketClosed } var msg C.zmq_msg_t if i, err := C.zmq_msg_init(&msg); i != 0 { return []byte{}, errget(err) } defer C.zmq_msg_close(&msg) var size C.int var err error var i C.int i, err = C.zmq_recv(soc.soc, &msg, C.int(flags)) if i == 0 { size = C.int(C.zmq_msg_size(&msg)) } else { size = -1 } if size < 0 { return []byte{}, errget(err) } if size == 0 { return []byte{}, nil } data := make([]byte, int(size)) C.my_memcpy(unsafe.Pointer(&data[0]), C.zmq_msg_data(&msg), C.size_t(size)) return data, nil }
/* Receive a message part with metadata. This requires ZeroMQ version 4.1.0. Lower versions will return the message part without metadata. The returned metadata map contains only those properties that exist on the message. For a description of flags, see: http://api.zeromq.org/4-1:zmq-msg-recv#toc2 For a description of metadata, see: http://api.zeromq.org/4-1:zmq-msg-gets#toc3 */ func (soc *Socket) RecvBytesWithMetadata(flags Flag, properties ...string) (msg []byte, metadata map[string]string, err error) { if !soc.opened { return []byte{}, map[string]string{}, ErrorSocketClosed } metadata = make(map[string]string) var m C.zmq_msg_t if i, err := C.zmq_msg_init(&m); i != 0 { return []byte{}, metadata, errget(err) } defer C.zmq_msg_close(&m) size, err := C.zmq_msg_recv(&m, soc.soc, C.int(flags)) if size < 0 { return []byte{}, metadata, errget(err) } data := make([]byte, int(size)) if size > 0 { C.zmq4_memcpy(unsafe.Pointer(&data[0]), C.zmq_msg_data(&m), C.size_t(size)) } if minor > 0 { for _, p := range properties { ps := C.CString(p) s, err := C.zmq_msg_gets(&m, ps) if err == nil { metadata[p] = C.GoString(s) } C.free(unsafe.Pointer(ps)) } } return data, metadata, nil }
/* Receive a message part from a socket interpreted as an event. For a description of flags, see: http://api.zeromq.org/3-2:zmq-msg-recv#toc2 For a description of event_type, see: http://api.zeromq.org/3-2:zmq-socket-monitor#toc2 For an example, see: func (*Socket) Monitor */ func (soc *Socket) RecvEvent(flags Flag) (event_type Event, addr string, value int, err error) { var msg C.zmq_msg_t if i, e := C.zmq_msg_init(&msg); i != 0 { err = errget(e) return } defer C.zmq_msg_close(&msg) size, e := C.zmq_msg_recv(&msg, soc.soc, C.int(flags)) if size < 0 { err = errget(e) return } var t C.zmq_event_t if size < C.int(unsafe.Sizeof(t)) { err = errors.New("Not an event") return } et := C.int(0) val := C.int(0) addrs := C.get_event(&msg, &et, &val) defer C.free(unsafe.Pointer(addrs)) event_type = Event(et) addr = C.GoString(addrs) value = int(val) return }
// Receive a message from the socket. // int zmq_recv (void *s, zmq_msg_t *msg, int flags); func (s *zmqSocket) Recv(flags SendRecvOption) (data []byte, err error) { // Allocate and initialise a new zmq_msg_t err = nil var m C.zmq_msg_t if C.zmq_msg_init(&m) != 0 { println("init") err = errno() return } defer C.zmq_msg_close(&m) // Receive into message if C.zmq_recvmsg(s.s, &m, C.int(flags)) != 0 { println("recvmsg") err = errno() return } // Copy message data into a byte array // FIXME Ideally this wouldn't require a copy. size := C.zmq_msg_size(&m) if size > 0 { data = make([]byte, int(size)) C.memcpy(unsafe.Pointer(&data[0]), C.zmq_msg_data(&m), size) } else { data = nil } return }
// Receive a message from the socket. // int zmq_recv (void *s, zmq_msg_t *msg, int flags); func (s *Socket) Recv(flags SendRecvOption) (data []byte, err error) { // Allocate and initialise a new zmq_msg_t var m C.zmq_msg_t var rc C.int if rc, err = C.zmq_msg_init(&m); rc != 0 { err = casterr(err) return } defer C.zmq_msg_close(&m) // Receive into message if rc, err = C.zmq_recvmsg(s.s, &m, C.int(flags)); rc == -1 { err = casterr(err) return } err = nil // Copy message data into a byte array // FIXME Ideally this wouldn't require a copy. size := C.zmq_msg_size(&m) if size > 0 { data = make([]byte, int(size)) C.memcpy(unsafe.Pointer(&data[0]), C.zmq_msg_data(&m), size) } else { data = nil } return }
func (s *Socket) RecvEvent(flags SendRecvOption) (ty Event, addr string, ex int64, err error) { // Allocate and initialise a new zmq_msg_t var m C.zmq_msg_t var rc C.int if rc, err = C.zmq_msg_init(&m); rc != 0 { err = casterr(err) return } defer C.zmq_msg_close(&m) // Receive into message if rc, err = C.zmq_recvmsg(s.s, &m, C.int(flags)); rc == -1 { err = casterr(err) return } var ev *C.zmq_event_t size := C.zmq_msg_size(&m) if uintptr(size) != unsafe.Sizeof(*ev) { err = errors.New("Invalid event message received") return } err = nil ev = (*C.zmq_event_t)(C.zmq_msg_data(&m)) ty = Event(ev.event) addr = C.GoString(C.ev_get_addr(ev)) ex = int64(C.ev_get_extra(ev)) return }
/* Send a message part on a socket. For a description of flags, see: http://api.zeromq.org/2-2:zmq-send#toc2 */ func (soc *Socket) SendBytes(data []byte, flags Flag) (int, error) { datac := C.CString(string(data)) var msg C.zmq_msg_t if i, err := C.my_msg_init_data(&msg, unsafe.Pointer(datac), C.size_t(len(data))); i != 0 { return -1, errget(err) } defer C.zmq_msg_close(&msg) n, err := C.zmq_send(soc.soc, &msg, C.int(flags)) if n != 0 { return -1, errget(err) } return int(n), nil }
/* Receive a message part from a socket. For a description of flags, see: http://api.zeromq.org/3-2:zmq-msg-recv#toc2 */ func (soc *Socket) RecvBytes(flags Flag) ([]byte, error) { var msg C.zmq_msg_t if i, err := C.zmq_msg_init(&msg); i != 0 { return []byte{}, errget(err) } defer C.zmq_msg_close(&msg) size, err := C.zmq_msg_recv(&msg, soc.soc, C.int(flags)) if size < 0 { return []byte{}, errget(err) } if size == 0 { return []byte{}, nil } data := make([]byte, int(size)) C.memcpy(unsafe.Pointer(&data[0]), C.zmq_msg_data(&msg), C.size_t(size)) return data, nil }
/* Receive a message part from a socket interpreted as an event. For a description of flags, see: http://api.zeromq.org/4-1:zmq-msg-recv#toc2 For a description of event_type, see: http://api.zeromq.org/4-1:zmq-socket-monitor#toc3 For an example, see: func (*Socket) Monitor */ func (soc *Socket) RecvEvent(flags Flag) (event_type Event, addr string, value int, err error) { if !soc.opened { return EVENT_ALL, "", 0, ErrorSocketClosed } var msg C.zmq_msg_t if i, e := C.zmq_msg_init(&msg); i != 0 { err = errget(e) return } defer C.zmq_msg_close(&msg) size, e := C.zmq_msg_recv(&msg, soc.soc, C.int(flags)) if size < 0 { err = errget(e) return } et := C.int(0) val := C.int(0) if minor == 0 { C.zmq4_get_event40(&msg, &et, &val) } else { C.zmq4_get_event41(&msg, &et, &val) } more, e := soc.GetRcvmore() if e != nil { err = errget(e) return } if !more { err = ErrorMoreExpected return } addr, e = soc.Recv(flags) if e != nil { err = errget(e) return } event_type = Event(et) value = int(val) return }
// Sends a single message part. The `more` flag is used to specify whether this is the last part of the message (false), // or if there are more parts to follow (true). SendPart is fairly low-level, and usually Send will be the preferred // method to use. func (s *Socket) SendPart(part []byte, more bool) (err error) { for { err = nil var msg C.zmq_msg_t toMsg(&msg, part) flags := C.int(0) if more { flags = C.ZMQ_SNDMORE } r := C.zmq_msg_send(&msg, s.sock, flags) if r == -1 { err = zmqerr() } C.zmq_msg_close(&msg) if err != ErrInterrupted { break } } return }
/* Receive a message part from a socket interpreted as an event. For a description of flags, see: http://api.zeromq.org/4-0:zmq-msg-recv#toc2 For a description of event_type, see: http://api.zeromq.org/4-0:zmq-socket-monitor#toc3 For an example, see: func (*Socket) Monitor */ func (soc *Socket) RecvEvent(flags Flag) (event_type Event, addr string, value int, err error) { var msg C.zmq_msg_t if i, e := C.zmq_msg_init(&msg); i != 0 { err = errget(e) return } defer C.zmq_msg_close(&msg) size, e := C.zmq_msg_recv(&msg, soc.soc, C.int(flags)) if size < 0 { err = errget(e) return } et := C.int(0) val := C.int(0) if _, minor, _ := Version(); minor == 0 { C.get_event40(&msg, &et, &val) } else { C.get_event41(&msg, &et, &val) } more, e := soc.GetRcvmore() if e != nil { err = errget(e) return } if !more { err = errors.New("More expected") return } addr, e = soc.Recv(flags) if e != nil { err = errget(e) return } event_type = Event(et) value = int(val) return }
// Send a message to the socket. // int zmq_send (void *s, zmq_msg_t *msg, int flags); func (s *zmqSocket) Send(data []byte, flags SendRecvOption) error { var m C.zmq_msg_t // Copy data array into C-allocated buffer. size := C.size_t(len(data)) if C.zmq_msg_init_size(&m, size) != 0 { return errno() } if size > 0 { // FIXME Ideally this wouldn't require a copy. C.memcpy(unsafe.Pointer(C.zmq_msg_data(&m)), unsafe.Pointer(&data[0]), size) // XXX I hope this works...(seems to) } if C.zmq_sendmsg(s.s, &m, C.int(flags)) != 0 { // zmq_send did not take ownership, free message C.zmq_msg_close(&m) return errno() } return nil }
// Receives a single part along with a boolean flag (more) indicating whether more parts of the same message follow // (true), or this is the last part of the message (false). As with Send/SendPart, this is fairly low-level and Recv // should generally be used instead. func (s *Socket) RecvPart() (part []byte, more bool, err error) { var msg C.zmq_msg_t C.zmq_msg_init(&msg) for { err = nil r := C.zmq_msg_recv(&msg, s.sock, 0) if r == -1 { err = zmqerr() } if err != ErrInterrupted { break } } if err != nil { C.zmq_msg_close(&msg) return } part = fromMsg(&msg) // Check for more parts more = (s.getInt(C.ZMQ_RCVMORE) != 0) return }
func fromMsg(msg *C.zmq_msg_t) []byte { defer C.zmq_msg_close(msg) return C.GoBytes(C.zmq_msg_data(msg), C.int(C.zmq_msg_size(msg))) }
func MessageClose(message ZMessage) os.Error { return handle(C.zmq_msg_close(message.Ptr)) }
func (p *lzmqMessage) Close() os.Error { return p.Provider().OkIf(C.zmq_msg_close(p.ptr()) == 0) }