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conn.go
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conn.go
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// Copyright 2018 The go-zeromq Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package zmq4
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"net"
"strings"
"sync"
"sync/atomic"
)
var ErrClosedConn = errors.New("zmq4: read/write on closed connection")
// Conn implements the ZeroMQ Message Transport Protocol as defined
// in https://rfc.zeromq.org/spec:23/ZMTP/.
type Conn struct {
typ SocketType
id SocketIdentity
rw net.Conn
sec Security
Server bool
Meta Metadata
Peer struct {
Server bool
Meta Metadata
}
mu sync.RWMutex
topics map[string]struct{} // set of subscribed topics
closed int32
onCloseErrorCB func(c *Conn)
}
func (c *Conn) Close() error {
return c.rw.Close()
}
func (c *Conn) Read(p []byte) (int, error) {
if c.Closed() {
return 0, ErrClosedConn
}
n, err := io.ReadFull(c.rw, p)
c.checkIO(err)
return n, err
}
func (c *Conn) Write(p []byte) (int, error) {
if c.Closed() {
return 0, ErrClosedConn
}
n, err := c.rw.Write(p)
c.checkIO(err)
return n, err
}
// Open opens a ZMTP connection over rw with the given security, socket type and identity.
// An optional onCloseErrorCB can be provided to inform the caller when this Conn is closed.
// Open performs a complete ZMTP handshake.
func Open(rw net.Conn, sec Security, sockType SocketType, sockID SocketIdentity, server bool, onCloseErrorCB func(c *Conn)) (*Conn, error) {
if rw == nil {
return nil, fmt.Errorf("zmq4: invalid nil read-writer")
}
if sec == nil {
return nil, fmt.Errorf("zmq4: invalid nil security")
}
conn := &Conn{
typ: sockType,
id: sockID,
rw: rw,
sec: sec,
Server: server,
Meta: make(Metadata),
topics: make(map[string]struct{}),
onCloseErrorCB: onCloseErrorCB,
}
conn.Meta[sysSockType] = string(conn.typ)
conn.Meta[sysSockID] = conn.id.String()
conn.Peer.Meta = make(Metadata)
err := conn.init(sec)
if err != nil {
return nil, fmt.Errorf("zmq4: could not initialize ZMTP connection: %w", err)
}
return conn, nil
}
// init performs a ZMTP handshake over an io.ReadWriter
func (conn *Conn) init(sec Security) error {
var err error
err = conn.greet(conn.Server)
if err != nil {
return fmt.Errorf("zmq4: could not exchange greetings: %w", err)
}
err = conn.sec.Handshake(conn, conn.Server)
if err != nil {
return fmt.Errorf("zmq4: could not perform security handshake: %w", err)
}
peer := SocketType(conn.Peer.Meta[sysSockType])
if !peer.IsCompatible(conn.typ) {
return fmt.Errorf("zmq4: peer=%q not compatible with %q", peer, conn.typ)
}
// FIXME(sbinet): if security mechanism does not define a client/server
// topology, enforce that p.server == p.peer.server == 0
// as per:
// https://rfc.zeromq.org/spec:23/ZMTP/#topology
return nil
}
func (conn *Conn) greet(server bool) error {
var err error
send := greeting{Version: defaultVersion}
send.Sig.Header = sigHeader
send.Sig.Footer = sigFooter
kind := string(conn.sec.Type())
if len(kind) > len(send.Mechanism) {
return errSecMech
}
copy(send.Mechanism[:], kind)
err = send.write(conn.rw)
if err != nil {
conn.checkIO(err)
return fmt.Errorf("zmq4: could not send greeting: %w", err)
}
var recv greeting
err = recv.read(conn.rw)
if err != nil {
conn.checkIO(err)
return fmt.Errorf("zmq4: could not recv greeting: %w", err)
}
peerKind := asString(recv.Mechanism[:])
if peerKind != kind {
return errBadSec
}
conn.Peer.Server, err = asBool(recv.Server)
if err != nil {
return fmt.Errorf("zmq4: could not get peer server flag: %w", err)
}
return nil
}
// SendCmd sends a ZMTP command over the wire.
func (c *Conn) SendCmd(name string, body []byte) error {
if c.Closed() {
return ErrClosedConn
}
cmd := Cmd{Name: name, Body: body}
buf, err := cmd.marshalZMTP()
if err != nil {
return err
}
return c.send(true, buf, 0)
}
// SendMsg sends a ZMTP message over the wire.
func (c *Conn) SendMsg(msg Msg) error {
if c.Closed() {
return ErrClosedConn
}
if msg.multipart {
return c.sendMulti(msg)
}
nframes := len(msg.Frames)
for i, frame := range msg.Frames {
var flag byte
if i < nframes-1 {
flag ^= hasMoreBitFlag
}
err := c.send(false, frame, flag)
if err != nil {
return fmt.Errorf("zmq4: error sending frame %d/%d: %w", i+1, nframes, err)
}
}
return nil
}
// RecvMsg receives a ZMTP message from the wire.
func (c *Conn) RecvMsg() (Msg, error) {
if c.Closed() {
return Msg{}, ErrClosedConn
}
msg := c.read()
if msg.err != nil {
return msg, fmt.Errorf("zmq4: could not read recv msg: %w", msg.err)
}
if !msg.isCmd() {
return msg, nil
}
switch len(msg.Frames) {
case 0:
msg.err = fmt.Errorf("zmq4: empty command")
return msg, msg.err
case 1:
// ok
default:
msg.err = fmt.Errorf("zmq4: invalid length command")
return msg, msg.err
}
var cmd Cmd
msg.err = cmd.unmarshalZMTP(msg.Frames[0])
if msg.err != nil {
return msg, fmt.Errorf("zmq4: could not unmarshal ZMTP recv msg: %w", msg.err)
}
switch cmd.Name {
case CmdPing:
// send back a PONG immediately.
msg.err = c.SendCmd(CmdPong, nil)
if msg.err != nil {
return msg, msg.err
}
}
switch len(cmd.Body) {
case 0:
msg.Frames = nil
default:
msg.Frames = msg.Frames[:1]
msg.Frames[0] = cmd.Body
}
return msg, nil
}
func (c *Conn) RecvCmd() (Cmd, error) {
var cmd Cmd
if c.Closed() {
return cmd, ErrClosedConn
}
msg := c.read()
if msg.err != nil {
return cmd, fmt.Errorf("zmq4: could not read recv cmd: %w", msg.err)
}
if !msg.isCmd() {
return cmd, ErrBadFrame
}
switch len(msg.Frames) {
case 0:
msg.err = fmt.Errorf("zmq4: empty command")
return cmd, msg.err
case 1:
// ok
default:
msg.err = fmt.Errorf("zmq4: invalid length command")
return cmd, msg.err
}
err := cmd.unmarshalZMTP(msg.Frames[0])
if err != nil {
return cmd, fmt.Errorf("zmq4: could not unmarshal ZMTP recv cmd: %w", err)
}
return cmd, nil
}
func (c *Conn) sendMulti(msg Msg) error {
var buffers net.Buffers
nframes := len(msg.Frames)
for i, frame := range msg.Frames {
var flag byte
if i < nframes-1 {
flag ^= hasMoreBitFlag
}
size := len(frame)
isLong := size > 255
if isLong {
flag ^= isLongBitFlag
}
var (
hdr = [8 + 1]byte{flag}
hsz int
)
if isLong {
hsz = 9
binary.BigEndian.PutUint64(hdr[1:], uint64(size))
} else {
hsz = 2
hdr[1] = uint8(size)
}
switch c.sec.Type() {
case NullSecurity:
buffers = append(buffers, hdr[:hsz], frame)
default:
var secBuf bytes.Buffer
if _, err := c.sec.Encrypt(&secBuf, frame); err != nil {
return err
}
buffers = append(buffers, hdr[:hsz], secBuf.Bytes())
}
}
if _, err := buffers.WriteTo(c.rw); err != nil {
c.checkIO(err)
return err
}
return nil
}
func (c *Conn) send(isCommand bool, body []byte, flag byte) error {
// Long flag
size := len(body)
isLong := size > 255
if isLong {
flag ^= isLongBitFlag
}
if isCommand {
flag ^= isCommandBitFlag
}
var (
hdr = [8 + 1]byte{flag}
hsz int
)
// Write out the message itself
if isLong {
hsz = 9
binary.BigEndian.PutUint64(hdr[1:], uint64(size))
} else {
hsz = 2
hdr[1] = uint8(size)
}
if _, err := c.rw.Write(hdr[:hsz]); err != nil {
c.checkIO(err)
return err
}
if _, err := c.sec.Encrypt(c.rw, body); err != nil {
c.checkIO(err)
return err
}
return nil
}
// read returns the isCommand flag, the body of the message, and optionally an error
func (c *Conn) read() Msg {
var (
header [2]byte
longHdr [8]byte
msg Msg
hasMore = true
isCmd = false
)
for hasMore {
// Read out the header
_, msg.err = io.ReadFull(c.rw, header[:])
if msg.err != nil {
c.checkIO(msg.err)
return msg
}
fl := flag(header[0])
hasMore = fl.hasMore()
isCmd = isCmd || fl.isCommand()
// Determine the actual length of the body
size := uint64(header[1])
if fl.isLong() {
// We read 2 bytes of the header already
// In case of a long message, the length is bytes 2-8 of the header
// We already have the first byte, so assign it, and then read the rest
longHdr[0] = header[1]
_, msg.err = io.ReadFull(c.rw, longHdr[1:])
if msg.err != nil {
c.checkIO(msg.err)
return msg
}
size = binary.BigEndian.Uint64(longHdr[:])
}
if size > uint64(maxInt64) {
msg.err = errOverflow
return msg
}
body := make([]byte, size)
_, msg.err = io.ReadFull(c.rw, body)
if msg.err != nil {
c.checkIO(msg.err)
return msg
}
// fast path for NULL security: we bypass the bytes.Buffer allocation.
switch c.sec.Type() {
case NullSecurity: // FIXME(sbinet): also do that for non-encrypted PLAIN?
msg.Frames = append(msg.Frames, body)
continue
}
buf := new(bytes.Buffer)
if _, msg.err = c.sec.Decrypt(buf, body); msg.err != nil {
return msg
}
msg.Frames = append(msg.Frames, buf.Bytes())
}
if isCmd {
msg.Type = CmdMsg
}
return msg
}
func (conn *Conn) subscribe(msg Msg) {
conn.mu.Lock()
v := msg.Frames[0]
k := string(v[1:])
switch v[0] {
case 0:
delete(conn.topics, k)
case 1:
conn.topics[k] = struct{}{}
}
conn.mu.Unlock()
}
func (conn *Conn) subscribed(topic string) bool {
conn.mu.RLock()
defer conn.mu.RUnlock()
for k := range conn.topics {
switch {
case k == "":
// subscribed to everything
return true
case strings.HasPrefix(topic, k):
return true
}
}
return false
}
func (conn *Conn) SetClosed() {
if wasClosed := atomic.CompareAndSwapInt32(&conn.closed, 0, 1); wasClosed {
conn.notifyOnCloseError()
}
}
func (conn *Conn) Closed() bool {
return atomic.LoadInt32(&conn.closed) == 1
}
func (conn *Conn) checkIO(err error) {
if err == nil {
return
}
if err == io.EOF || errors.Is(err, io.EOF) {
conn.SetClosed()
return
}
var e net.Error
if errors.As(err, &e); e != nil && !e.Timeout() {
conn.SetClosed()
}
}
func (conn *Conn) notifyOnCloseError() {
if conn.onCloseErrorCB == nil {
return
}
conn.onCloseErrorCB(conn)
}