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8293f546af
This implementation is similar to AMQP notifications: * Notifications are published on a single topic as a JSON feed * Topic is configurable, as is the QoS. Uses the paho.mqtt.golang library for the mqtt connection, and supports connections over tcp and websockets, with optional secure tls support. * Additionally the minio server configuration has been bumped up so mqtt configuration can be added. * Configuration migration code is added with tests. MQTT is an ISO standard M2M/IoT messaging protocol and was originally designed for applications for limited bandwidth networks. Today it's use is growing in the IoT space.
612 lines
17 KiB
Go
612 lines
17 KiB
Go
/*
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* Copyright (c) 2013 IBM Corp.
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*
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* All rights reserved. This program and the accompanying materials
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* are made available under the terms of the Eclipse Public License v1.0
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* which accompanies this distribution, and is available at
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* http://www.eclipse.org/legal/epl-v10.html
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*
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* Contributors:
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* Seth Hoenig
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* Allan Stockdill-Mander
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* Mike Robertson
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*/
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// Package mqtt provides an MQTT v3.1.1 client library.
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package mqtt
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import (
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"errors"
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"fmt"
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"net"
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"sync"
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"time"
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"github.com/eclipse/paho.mqtt.golang/packets"
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)
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type connStatus uint
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const (
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disconnected connStatus = iota
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connecting
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reconnecting
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connected
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)
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// Client is the interface definition for a Client as used by this
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// library, the interface is primarily to allow mocking tests.
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//
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// It is an MQTT v3.1.1 client for communicating
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// with an MQTT server using non-blocking methods that allow work
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// to be done in the background.
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// An application may connect to an MQTT server using:
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// A plain TCP socket
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// A secure SSL/TLS socket
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// A websocket
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// To enable ensured message delivery at Quality of Service (QoS) levels
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// described in the MQTT spec, a message persistence mechanism must be
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// used. This is done by providing a type which implements the Store
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// interface. For convenience, FileStore and MemoryStore are provided
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// implementations that should be sufficient for most use cases. More
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// information can be found in their respective documentation.
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// Numerous connection options may be specified by configuring a
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// and then supplying a ClientOptions type.
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type Client interface {
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IsConnected() bool
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Connect() Token
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Disconnect(quiesce uint)
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Publish(topic string, qos byte, retained bool, payload interface{}) Token
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Subscribe(topic string, qos byte, callback MessageHandler) Token
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SubscribeMultiple(filters map[string]byte, callback MessageHandler) Token
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Unsubscribe(topics ...string) Token
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AddRoute(topic string, callback MessageHandler)
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}
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// client implements the Client interface
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type client struct {
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sync.RWMutex
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messageIds
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conn net.Conn
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ibound chan packets.ControlPacket
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obound chan *PacketAndToken
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oboundP chan *PacketAndToken
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msgRouter *router
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stopRouter chan bool
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incomingPubChan chan *packets.PublishPacket
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errors chan error
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stop chan struct{}
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persist Store
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options ClientOptions
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pingResp chan struct{}
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packetResp chan struct{}
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keepaliveReset chan struct{}
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status connStatus
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workers sync.WaitGroup
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}
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// NewClient will create an MQTT v3.1.1 client with all of the options specified
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// in the provided ClientOptions. The client must have the Connect method called
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// on it before it may be used. This is to make sure resources (such as a net
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// connection) are created before the application is actually ready.
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func NewClient(o *ClientOptions) Client {
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c := &client{}
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c.options = *o
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if c.options.Store == nil {
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c.options.Store = NewMemoryStore()
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}
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switch c.options.ProtocolVersion {
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case 3, 4:
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c.options.protocolVersionExplicit = true
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default:
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c.options.ProtocolVersion = 4
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c.options.protocolVersionExplicit = false
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}
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c.persist = c.options.Store
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c.status = disconnected
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c.messageIds = messageIds{index: make(map[uint16]Token)}
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c.msgRouter, c.stopRouter = newRouter()
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c.msgRouter.setDefaultHandler(c.options.DefaultPublishHander)
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if !c.options.AutoReconnect {
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c.options.MessageChannelDepth = 0
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}
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return c
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}
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func (c *client) AddRoute(topic string, callback MessageHandler) {
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if callback != nil {
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c.msgRouter.addRoute(topic, callback)
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}
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}
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// IsConnected returns a bool signifying whether
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// the client is connected or not.
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func (c *client) IsConnected() bool {
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c.RLock()
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defer c.RUnlock()
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switch {
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case c.status == connected:
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return true
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case c.options.AutoReconnect && c.status > disconnected:
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return true
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default:
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return false
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}
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}
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func (c *client) connectionStatus() connStatus {
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c.RLock()
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defer c.RUnlock()
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return c.status
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}
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func (c *client) setConnected(status connStatus) {
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c.Lock()
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defer c.Unlock()
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c.status = status
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}
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//ErrNotConnected is the error returned from function calls that are
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//made when the client is not connected to a broker
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var ErrNotConnected = errors.New("Not Connected")
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// Connect will create a connection to the message broker
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// If clean session is false, then a slice will
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// be returned containing Receipts for all messages
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// that were in-flight at the last disconnect.
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// If clean session is true, then any existing client
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// state will be removed.
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func (c *client) Connect() Token {
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var err error
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t := newToken(packets.Connect).(*ConnectToken)
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DEBUG.Println(CLI, "Connect()")
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go func() {
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c.persist.Open()
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c.setConnected(connecting)
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var rc byte
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cm := newConnectMsgFromOptions(&c.options)
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for _, broker := range c.options.Servers {
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CONN:
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DEBUG.Println(CLI, "about to write new connect msg")
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c.conn, err = openConnection(broker, &c.options.TLSConfig, c.options.ConnectTimeout)
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if err == nil {
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DEBUG.Println(CLI, "socket connected to broker")
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switch c.options.ProtocolVersion {
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case 3:
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DEBUG.Println(CLI, "Using MQTT 3.1 protocol")
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cm.ProtocolName = "MQIsdp"
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cm.ProtocolVersion = 3
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default:
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DEBUG.Println(CLI, "Using MQTT 3.1.1 protocol")
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c.options.ProtocolVersion = 4
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cm.ProtocolName = "MQTT"
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cm.ProtocolVersion = 4
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}
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cm.Write(c.conn)
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rc = c.connect()
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if rc != packets.Accepted {
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if c.conn != nil {
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c.conn.Close()
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c.conn = nil
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}
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//if the protocol version was explicitly set don't do any fallback
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if c.options.protocolVersionExplicit {
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ERROR.Println(CLI, "Connecting to", broker, "CONNACK was not CONN_ACCEPTED, but rather", packets.ConnackReturnCodes[rc])
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continue
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}
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if c.options.ProtocolVersion == 4 {
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DEBUG.Println(CLI, "Trying reconnect using MQTT 3.1 protocol")
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c.options.ProtocolVersion = 3
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goto CONN
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}
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}
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break
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} else {
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ERROR.Println(CLI, err.Error())
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WARN.Println(CLI, "failed to connect to broker, trying next")
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rc = packets.ErrNetworkError
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}
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}
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if c.conn == nil {
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ERROR.Println(CLI, "Failed to connect to a broker")
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t.returnCode = rc
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if rc != packets.ErrNetworkError {
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t.err = packets.ConnErrors[rc]
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} else {
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t.err = fmt.Errorf("%s : %s", packets.ConnErrors[rc], err)
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}
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c.setConnected(disconnected)
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c.persist.Close()
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t.flowComplete()
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return
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}
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if c.options.KeepAlive != 0 {
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c.workers.Add(1)
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go keepalive(c)
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}
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c.obound = make(chan *PacketAndToken, c.options.MessageChannelDepth)
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c.oboundP = make(chan *PacketAndToken, c.options.MessageChannelDepth)
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c.ibound = make(chan packets.ControlPacket)
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c.errors = make(chan error, 1)
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c.stop = make(chan struct{})
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c.pingResp = make(chan struct{}, 1)
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c.packetResp = make(chan struct{}, 1)
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c.keepaliveReset = make(chan struct{}, 1)
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c.incomingPubChan = make(chan *packets.PublishPacket, c.options.MessageChannelDepth)
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c.msgRouter.matchAndDispatch(c.incomingPubChan, c.options.Order, c)
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c.setConnected(connected)
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DEBUG.Println(CLI, "client is connected")
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if c.options.OnConnect != nil {
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go c.options.OnConnect(c)
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}
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// Take care of any messages in the store
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//var leftovers []Receipt
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if c.options.CleanSession == false {
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//leftovers = c.resume()
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} else {
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c.persist.Reset()
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}
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go errorWatch(c)
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// Do not start incoming until resume has completed
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c.workers.Add(3)
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go alllogic(c)
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go outgoing(c)
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go incoming(c)
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DEBUG.Println(CLI, "exit startClient")
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t.flowComplete()
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}()
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return t
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}
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// internal function used to reconnect the client when it loses its connection
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func (c *client) reconnect() {
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DEBUG.Println(CLI, "enter reconnect")
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var (
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err error
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rc = byte(1)
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sleep = time.Duration(1 * time.Second)
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)
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for rc != 0 && c.status != disconnected {
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cm := newConnectMsgFromOptions(&c.options)
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for _, broker := range c.options.Servers {
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CONN:
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DEBUG.Println(CLI, "about to write new connect msg")
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c.conn, err = openConnection(broker, &c.options.TLSConfig, c.options.ConnectTimeout)
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if err == nil {
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DEBUG.Println(CLI, "socket connected to broker")
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switch c.options.ProtocolVersion {
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case 3:
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DEBUG.Println(CLI, "Using MQTT 3.1 protocol")
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cm.ProtocolName = "MQIsdp"
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cm.ProtocolVersion = 3
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default:
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DEBUG.Println(CLI, "Using MQTT 3.1.1 protocol")
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c.options.ProtocolVersion = 4
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cm.ProtocolName = "MQTT"
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cm.ProtocolVersion = 4
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}
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cm.Write(c.conn)
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rc = c.connect()
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if rc != packets.Accepted {
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c.conn.Close()
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c.conn = nil
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//if the protocol version was explicitly set don't do any fallback
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if c.options.protocolVersionExplicit {
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ERROR.Println(CLI, "Connecting to", broker, "CONNACK was not Accepted, but rather", packets.ConnackReturnCodes[rc])
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continue
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}
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if c.options.ProtocolVersion == 4 {
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DEBUG.Println(CLI, "Trying reconnect using MQTT 3.1 protocol")
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c.options.ProtocolVersion = 3
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goto CONN
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}
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}
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break
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} else {
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ERROR.Println(CLI, err.Error())
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WARN.Println(CLI, "failed to connect to broker, trying next")
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rc = packets.ErrNetworkError
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}
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}
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if rc != 0 {
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DEBUG.Println(CLI, "Reconnect failed, sleeping for", int(sleep.Seconds()), "seconds")
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time.Sleep(sleep)
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if sleep < c.options.MaxReconnectInterval {
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sleep *= 2
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}
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if sleep > c.options.MaxReconnectInterval {
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sleep = c.options.MaxReconnectInterval
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}
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}
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}
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// Disconnect() must have been called while we were trying to reconnect.
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if c.status == disconnected {
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DEBUG.Println(CLI, "Client moved to disconnected state while reconnecting, abandoning reconnect")
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return
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}
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if c.options.KeepAlive != 0 {
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c.workers.Add(1)
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go keepalive(c)
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}
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c.stop = make(chan struct{})
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c.setConnected(connected)
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DEBUG.Println(CLI, "client is reconnected")
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if c.options.OnConnect != nil {
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go c.options.OnConnect(c)
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}
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go errorWatch(c)
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c.workers.Add(3)
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go alllogic(c)
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go outgoing(c)
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go incoming(c)
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}
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// This function is only used for receiving a connack
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// when the connection is first started.
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// This prevents receiving incoming data while resume
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// is in progress if clean session is false.
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func (c *client) connect() byte {
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DEBUG.Println(NET, "connect started")
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ca, err := packets.ReadPacket(c.conn)
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if err != nil {
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ERROR.Println(NET, "connect got error", err)
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return packets.ErrNetworkError
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}
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if ca == nil {
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ERROR.Println(NET, "received nil packet")
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return packets.ErrNetworkError
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}
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msg, ok := ca.(*packets.ConnackPacket)
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if !ok {
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ERROR.Println(NET, "received msg that was not CONNACK")
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return packets.ErrNetworkError
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}
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DEBUG.Println(NET, "received connack")
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return msg.ReturnCode
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}
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// Disconnect will end the connection with the server, but not before waiting
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// the specified number of milliseconds to wait for existing work to be
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// completed.
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func (c *client) Disconnect(quiesce uint) {
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if c.status == connected {
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DEBUG.Println(CLI, "disconnecting")
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c.setConnected(disconnected)
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dm := packets.NewControlPacket(packets.Disconnect).(*packets.DisconnectPacket)
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dt := newToken(packets.Disconnect)
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c.oboundP <- &PacketAndToken{p: dm, t: dt}
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// wait for work to finish, or quiesce time consumed
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dt.WaitTimeout(time.Duration(quiesce) * time.Millisecond)
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} else {
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WARN.Println(CLI, "Disconnect() called but not connected (disconnected/reconnecting)")
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c.setConnected(disconnected)
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}
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c.disconnect()
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}
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// ForceDisconnect will end the connection with the mqtt broker immediately.
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func (c *client) forceDisconnect() {
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if !c.IsConnected() {
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WARN.Println(CLI, "already disconnected")
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return
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}
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c.setConnected(disconnected)
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c.conn.Close()
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DEBUG.Println(CLI, "forcefully disconnecting")
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c.disconnect()
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}
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func (c *client) internalConnLost(err error) {
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// Only do anything if this was called and we are still "connected"
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// forceDisconnect can cause incoming/outgoing/alllogic to end with
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// error from closing the socket but state will be "disconnected"
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if c.IsConnected() {
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c.closeStop()
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c.conn.Close()
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c.workers.Wait()
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if c.options.CleanSession {
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c.messageIds.cleanUp()
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}
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if c.options.AutoReconnect {
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c.setConnected(reconnecting)
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go c.reconnect()
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} else {
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c.setConnected(disconnected)
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}
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if c.options.OnConnectionLost != nil {
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go c.options.OnConnectionLost(c, err)
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}
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}
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}
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func (c *client) closeStop() {
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c.Lock()
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defer c.Unlock()
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select {
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case <-c.stop:
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DEBUG.Println("In disconnect and stop channel is already closed")
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default:
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close(c.stop)
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}
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}
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func (c *client) closeConn() {
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c.Lock()
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defer c.Unlock()
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if c.conn != nil {
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c.conn.Close()
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}
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}
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func (c *client) disconnect() {
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c.closeStop()
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c.closeConn()
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c.workers.Wait()
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close(c.stopRouter)
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DEBUG.Println(CLI, "disconnected")
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c.persist.Close()
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}
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// Publish will publish a message with the specified QoS and content
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// to the specified topic.
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// Returns a token to track delivery of the message to the broker
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func (c *client) Publish(topic string, qos byte, retained bool, payload interface{}) Token {
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token := newToken(packets.Publish).(*PublishToken)
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DEBUG.Println(CLI, "enter Publish")
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switch {
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case !c.IsConnected():
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token.err = ErrNotConnected
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token.flowComplete()
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return token
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case c.connectionStatus() == reconnecting && qos == 0:
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token.flowComplete()
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return token
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}
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pub := packets.NewControlPacket(packets.Publish).(*packets.PublishPacket)
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pub.Qos = qos
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pub.TopicName = topic
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pub.Retain = retained
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switch payload.(type) {
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case string:
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pub.Payload = []byte(payload.(string))
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case []byte:
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pub.Payload = payload.([]byte)
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default:
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token.err = errors.New("Unknown payload type")
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token.flowComplete()
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return token
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}
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DEBUG.Println(CLI, "sending publish message, topic:", topic)
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if pub.Qos != 0 && pub.MessageID == 0 {
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pub.MessageID = c.getID(token)
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token.messageID = pub.MessageID
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}
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persistOutbound(c.persist, pub)
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c.obound <- &PacketAndToken{p: pub, t: token}
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return token
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}
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// Subscribe starts a new subscription. Provide a MessageHandler to be executed when
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// a message is published on the topic provided.
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func (c *client) Subscribe(topic string, qos byte, callback MessageHandler) Token {
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token := newToken(packets.Subscribe).(*SubscribeToken)
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DEBUG.Println(CLI, "enter Subscribe")
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if !c.IsConnected() {
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token.err = ErrNotConnected
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token.flowComplete()
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return token
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}
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sub := packets.NewControlPacket(packets.Subscribe).(*packets.SubscribePacket)
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if err := validateTopicAndQos(topic, qos); err != nil {
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|
token.err = err
|
|
return token
|
|
}
|
|
sub.Topics = append(sub.Topics, topic)
|
|
sub.Qoss = append(sub.Qoss, qos)
|
|
DEBUG.Println(CLI, sub.String())
|
|
|
|
if callback != nil {
|
|
c.msgRouter.addRoute(topic, callback)
|
|
}
|
|
|
|
token.subs = append(token.subs, topic)
|
|
c.oboundP <- &PacketAndToken{p: sub, t: token}
|
|
DEBUG.Println(CLI, "exit Subscribe")
|
|
return token
|
|
}
|
|
|
|
// SubscribeMultiple starts a new subscription for multiple topics. Provide a MessageHandler to
|
|
// be executed when a message is published on one of the topics provided.
|
|
func (c *client) SubscribeMultiple(filters map[string]byte, callback MessageHandler) Token {
|
|
var err error
|
|
token := newToken(packets.Subscribe).(*SubscribeToken)
|
|
DEBUG.Println(CLI, "enter SubscribeMultiple")
|
|
if !c.IsConnected() {
|
|
token.err = ErrNotConnected
|
|
token.flowComplete()
|
|
return token
|
|
}
|
|
sub := packets.NewControlPacket(packets.Subscribe).(*packets.SubscribePacket)
|
|
if sub.Topics, sub.Qoss, err = validateSubscribeMap(filters); err != nil {
|
|
token.err = err
|
|
return token
|
|
}
|
|
|
|
if callback != nil {
|
|
for topic := range filters {
|
|
c.msgRouter.addRoute(topic, callback)
|
|
}
|
|
}
|
|
token.subs = make([]string, len(sub.Topics))
|
|
copy(token.subs, sub.Topics)
|
|
c.oboundP <- &PacketAndToken{p: sub, t: token}
|
|
DEBUG.Println(CLI, "exit SubscribeMultiple")
|
|
return token
|
|
}
|
|
|
|
// Unsubscribe will end the subscription from each of the topics provided.
|
|
// Messages published to those topics from other clients will no longer be
|
|
// received.
|
|
func (c *client) Unsubscribe(topics ...string) Token {
|
|
token := newToken(packets.Unsubscribe).(*UnsubscribeToken)
|
|
DEBUG.Println(CLI, "enter Unsubscribe")
|
|
if !c.IsConnected() {
|
|
token.err = ErrNotConnected
|
|
token.flowComplete()
|
|
return token
|
|
}
|
|
unsub := packets.NewControlPacket(packets.Unsubscribe).(*packets.UnsubscribePacket)
|
|
unsub.Topics = make([]string, len(topics))
|
|
copy(unsub.Topics, topics)
|
|
|
|
c.oboundP <- &PacketAndToken{p: unsub, t: token}
|
|
for _, topic := range topics {
|
|
c.msgRouter.deleteRoute(topic)
|
|
}
|
|
|
|
DEBUG.Println(CLI, "exit Unsubscribe")
|
|
return token
|
|
}
|
|
|
|
func (c *client) OptionsReader() ClientOptionsReader {
|
|
r := ClientOptionsReader{options: &c.options}
|
|
return r
|
|
}
|
|
|
|
//DefaultConnectionLostHandler is a definition of a function that simply
|
|
//reports to the DEBUG log the reason for the client losing a connection.
|
|
func DefaultConnectionLostHandler(client Client, reason error) {
|
|
DEBUG.Println("Connection lost:", reason.Error())
|
|
}
|