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Go (golang) Bindings for 0mq (zmq, zeromq)

This package implements Go (golang) bindings for the 0mq C API.

GoZMQ does not support zero-copy.

A full list of examples is included in the zguide.

Note that this is not the same as this implementation or this implementation.

Installing

GoZMQ currently supports ZMQ 2.1.x, 2.2.x and basic support for 3.x. Following are instructions on how to compile against these versions.

Install gozmq with:

go get github.com/alecthomas/gozmq

This implementation works currently against:: ZeroMQ 2.2.x

ZeroMQ 2.1.x

If you're using ZeroMQ 2.1.x, install with:

go get -tags zmq_2_1 github.com/alecthomas/gozmq

ZeroMQ 3.x

There is basic support for ZeroMQ 3.x. Install with:

go get -tags zmq_3_x github.com/alecthomas/gozmq

Troubleshooting

Go can't find ZMQ

If the go tool can't find zmq and you know it is installed, you may need to override the C compiler/linker flags.

eg. If you installed zmq into /opt/zmq you might try:

CGO_CFLAGS=-I/opt/zmq/include CGO_LDFLAGS=-L/opt/zmq/lib \
	go get github.com/alecthomas/gozmq

Mismatch in version of ZMQ

If you get errors like this with 'go get' or 'go build':

1: error: 'ZMQ_FOO' undeclared (first use in this function)

There are two possibilities:

  1. Your version of zmq is very old. In this case you will need to download and build zmq yourself.
  2. You are building gozmq against the wrong version of zmq. See the installation instructions for details on how to target the correct version.

Differences from the C API

The API implemented by this package does not attempt to expose zmq_msg_t at all. Instead, Recv() and Send() both operate on byte slices, allocating and freeing the memory automatically. Currently this requires copying to/from C malloced memory, but a future implementation may be able to avoid this to a certain extent.

All major features are supported: contexts, sockets, devices, and polls.

Example

Here are direct translations of some of the examples from this blog post.

A simple echo server:

package main

import zmq "github.com/alecthomas/gozmq"

func main() {
  context, _ := zmq.NewContext()
  socket, _ := context.NewSocket(zmq.REP)
  socket.Bind("tcp://127.0.0.1:5000")
  socket.Bind("tcp://127.0.0.1:6000")

  for {
    msg, _ := socket.Recv(0)
    println("Got", string(msg))
    socket.Send(msg, 0)
  }
}

A simple client for the above server:

package main

import "fmt"
import zmq "github.com/alecthomas/gozmq"

func main() {
  context, _ := zmq.NewContext()
  socket, _ := context.NewSocket(zmq.REQ)
  socket.Connect("tcp://127.0.0.1:5000")
  socket.Connect("tcp://127.0.0.1:6000")

  for i := 0; i < 10; i++ {
    msg := fmt.Sprintf("msg %d", i)
    socket.Send([]byte(msg), 0)
    println("Sending", msg)
    socket.Recv(0)
  }
}

Caveats

Zero-copy

GoZMQ does not support zero-copy.

GoZMQ does not attempt to expose zmq_msg_t at all. Instead, Recv() and Send() both operate on byte slices, allocating and freeing the memory automatically. Currently this requires copying to/from C malloced memory, but a future implementation may be able to avoid this to a certain extent.

Memory management

It's not entirely clear from the 0mq documentation how memory for zmq_msg_t and packet data is managed once 0mq takes ownership. After digging into the source a little, this package operates under the following (educated) assumptions:

  • References to zmq_msg_t structures are not held by the C API beyond the duration of any function call.
  • Packet data is reference counted internally by the C API. The count is incremented when a packet is queued for delivery to a destination (the inference being that for delivery to N destinations, the reference count will be incremented N times) and decremented once the packet has either been delivered or errored.

Usage

var (
	// NewSocket types
	PAIR   = SocketType(C.ZMQ_PAIR)
	PUB    = SocketType(C.ZMQ_PUB)
	SUB    = SocketType(C.ZMQ_SUB)
	REQ    = SocketType(C.ZMQ_REQ)
	REP    = SocketType(C.ZMQ_REP)
	DEALER = SocketType(C.ZMQ_DEALER)
	ROUTER = SocketType(C.ZMQ_ROUTER)
	PULL   = SocketType(C.ZMQ_PULL)
	PUSH   = SocketType(C.ZMQ_PUSH)
	XPUB   = SocketType(C.ZMQ_XPUB)
	XSUB   = SocketType(C.ZMQ_XSUB)

	// Deprecated aliases
	XREQ       = DEALER
	XREP       = ROUTER
	UPSTREAM   = PULL
	DOWNSTREAM = PUSH

	// NewSocket options
	AFFINITY          = UInt64SocketOption(C.ZMQ_AFFINITY)
	IDENTITY          = StringSocketOption(C.ZMQ_IDENTITY)
	SUBSCRIBE         = StringSocketOption(C.ZMQ_SUBSCRIBE)
	UNSUBSCRIBE       = StringSocketOption(C.ZMQ_UNSUBSCRIBE)
	RATE              = Int64SocketOption(C.ZMQ_RATE)
	RECOVERY_IVL      = Int64SocketOption(C.ZMQ_RECOVERY_IVL)
	SNDBUF            = UInt64SocketOption(C.ZMQ_SNDBUF)
	RCVBUF            = UInt64SocketOption(C.ZMQ_RCVBUF)
	RCVMORE           = UInt64SocketOption(C.ZMQ_RCVMORE)
	FD                = Int64SocketOption(C.ZMQ_FD)
	EVENTS            = UInt64SocketOption(C.ZMQ_EVENTS)
	TYPE              = UInt64SocketOption(C.ZMQ_TYPE)
	LINGER            = IntSocketOption(C.ZMQ_LINGER)
	RECONNECT_IVL     = IntSocketOption(C.ZMQ_RECONNECT_IVL)
	RECONNECT_IVL_MAX = IntSocketOption(C.ZMQ_RECONNECT_IVL_MAX)
	BACKLOG           = IntSocketOption(C.ZMQ_BACKLOG)

	// Send/recv options
	SNDMORE = SendRecvOption(C.ZMQ_SNDMORE)
)
var (
	// Additional ZMQ errors
	EFSM           error = zmqErrno(C.EFSM)
	ENOCOMPATPROTO error = zmqErrno(C.ENOCOMPATPROTO)
	ETERM          error = zmqErrno(C.ETERM)
	EMTHREAD       error = zmqErrno(C.EMTHREAD)
)
var (
	POLLIN  = PollEvents(C.ZMQ_POLLIN)
	POLLOUT = PollEvents(C.ZMQ_POLLOUT)
	POLLERR = PollEvents(C.ZMQ_POLLERR)
)
var (
	STREAMER  = DeviceType(C.ZMQ_STREAMER)
	FORWARDER = DeviceType(C.ZMQ_FORWARDER)
	QUEUE     = DeviceType(C.ZMQ_QUEUE)
)
var (
	RCVTIMEO = IntSocketOption(C.ZMQ_RCVTIMEO)
	SNDTIMEO = IntSocketOption(C.ZMQ_SNDTIMEO)
)
var (
	RECOVERY_IVL_MSEC = Int64SocketOption(C.ZMQ_RECOVERY_IVL_MSEC)
	SWAP              = Int64SocketOption(C.ZMQ_SWAP)
	MCAST_LOOP        = Int64SocketOption(C.ZMQ_MCAST_LOOP)
	HWM               = UInt64SocketOption(C.ZMQ_HWM)
	NOBLOCK           = SendRecvOption(C.ZMQ_NOBLOCK)
)
var (
	SNDHWM = IntSocketOption(C.ZMQ_SNDHWM)
	RCVHWM = IntSocketOption(C.ZMQ_SNDHWM)

	// TODO Not documented in the man page...
	//LAST_ENDPOINT       = UInt64SocketOption(C.ZMQ_LAST_ENDPOINT)
	FAIL_UNROUTABLE     = BoolSocketOption(C.ZMQ_FAIL_UNROUTABLE)
	TCP_KEEPALIVE       = IntSocketOption(C.ZMQ_TCP_KEEPALIVE)
	TCP_KEEPALIVE_CNT   = IntSocketOption(C.ZMQ_TCP_KEEPALIVE_CNT)
	TCP_KEEPALIVE_IDLE  = IntSocketOption(C.ZMQ_TCP_KEEPALIVE_IDLE)
	TCP_KEEPALIVE_INTVL = IntSocketOption(C.ZMQ_TCP_KEEPALIVE_INTVL)

	// Message options
	MORE = MessageOption(C.ZMQ_MORE)

	// Send/recv options
	DONTWAIT = SendRecvOption(C.ZMQ_DONTWAIT)
)

func Device

func Device(t DeviceType, in, out Socket) error

run a zmq_device passing messages between in and out

func Poll

func Poll(items []PollItem, timeout int64) (count int, err error)

Poll ZmqSockets and file descriptors for I/O readiness. Timeout is in microseconds.

func Proxy

func Proxy(in, out, capture Socket) error

run a zmq_proxy with in, out and capture sockets

func Version

func Version() (int, int, int)

void zmq_version (int *major, int *minor, int *patch);

type BoolSocketOption

type BoolSocketOption int

type Context

type Context interface {
	NewSocket(t SocketType) (Socket, error)
	Close()
}

func NewContext

func NewContext() (Context, error)

Create a new context. void *zmq_init (int io_threads);

type DeviceType

type DeviceType int

type Int64SocketOption

type Int64SocketOption int

type IntSocketOption

type IntSocketOption int

type MessageOption

type MessageOption int

type PollEvents

type PollEvents C.short

type PollItem

type PollItem struct {
	Socket  Socket          // socket to poll for events on
	Fd      ZmqOsSocketType // fd to poll for events on as returned from os.File.Fd()
	Events  PollEvents      // event set to poll for
	REvents PollEvents      // events that were present
}

Item to poll for read/write events on, either a Socket or a file descriptor

type PollItems

type PollItems []PollItem

a set of items to poll for events on

type SendRecvOption

type SendRecvOption int

type Socket

type Socket interface {
	Bind(address string) error
	Connect(address string) error
	Send(data []byte, flags SendRecvOption) error
	Recv(flags SendRecvOption) (data []byte, err error)
	RecvMultipart(flags SendRecvOption) (parts [][]byte, err error)
	SendMultipart(parts [][]byte, flags SendRecvOption) (err error)
	Close() error

	SetSockOptInt(option IntSocketOption, value int) error
	SetSockOptInt64(option Int64SocketOption, value int64) error
	SetSockOptUInt64(option UInt64SocketOption, value uint64) error
	SetSockOptString(option StringSocketOption, value string) error
	GetSockOptInt(option IntSocketOption) (value int, err error)
	GetSockOptInt64(option Int64SocketOption) (value int64, err error)
	GetSockOptUInt64(option UInt64SocketOption) (value uint64, err error)
	GetSockOptString(option StringSocketOption) (value string, err error)
	GetSockOptBool(option BoolSocketOption) (value bool, err error)
	// contains filtered or unexported methods
}

type SocketType

type SocketType int

type StringSocketOption

type StringSocketOption int

type UInt64SocketOption

type UInt64SocketOption int

type ZmqOsSocketType

type ZmqOsSocketType C.SOCKET

func (ZmqOsSocketType) ToRaw

func (self ZmqOsSocketType) ToRaw() C.SOCKET