Bu sayfa henüz yerel dilinizde mevcut değildir. Daha fazla dil seçeneği eklemek için yoğun bir şekilde çalışıyoruz. Desteğiniz için teşekkür ederiz.
IoT Device Access
IoT Device Access
- What's New
- Product Bulletin
- Service Overview
- Billing
-
Getting Started
-
Quick Device Access - Property Reporting and Command Receiving
- Subscribing to IoTDA
- Connecting a Smart Smoke Detector to the Platform (Quick Usage)
- Registering a Simulated Smart Street Light Device
- Using MQTT.fx to Simulate Communication Between the Smart Street Light and the Platform
- Using a Virtual Smart Street Light to Communicate with the Platform (Java SDK)
- Using a Virtual Smart Street Light to Communicate with the Platform (C SDK)
- Quick Device Access - Message Sending and Receiving
- Quick Application Access
-
Quick Device Access - Property Reporting and Command Receiving
-
User Guide
- Overview
- IoTDA Instances
- Resource Spaces
- Device Access
- Message Communications
- Device Management
-
Rules
- Overview
- Data Forwarding Process
- SQL Statements
- Connectivity Tests
- Data Forwarding to Huawei Cloud Services
- Data Forwarding to Third-Party Applications
- Data Forwarding Channel Details
- Data Forwarding Stack Policies
- Data Forwarding Flow Control Policies
- Abnormal Data Target
- Device Linkage
- Monitoring and O&M
- Granting Permissions Using IAM
-
Best Practices
- Introduction
-
Device Access
- Developing an MQTT-based Simulated Smart Street Light Online
- Developing a Smart Street Light Using NB-IoT BearPi
- Developing a Smart Smoke Detector Using NB-IoT BearPi
- Connecting and Debugging an NB-IoT Smart Street Light Using a Simulator
- Developing a Protocol Conversion Gateway for Access of Generic-Protocol Devices
- Connecting a Device That Uses the X.509 Certificate Based on MQTT.fx
- Connecting to IoTDA Based on the BearPi-HM_Nano Development Board and OpenHarmony 3.0
- Testing MQTT Performance Using JMeter
- Device Management
- Data Forwarding
- Device Linkage
-
Developer Guide
- Before You Start
- Obtaining Resources
- Product Development
- Development on the Device Side
- Development on the Application Side
-
API Reference
-
API Reference on the Application Side
- Before You Start
- Calling APIs
- API Overview
-
API
- Product Management
- Device Management
- Device Message
- Device Command APIs
- Device Property
- AMQP Queue Management
- Access Credential Management
- Data Forwarding Rule Management
-
Transition Data
- Push a Device Status Change Notification
- Push a Device Property Reporting Notification
- Push a Device Message Status Change Notification
- Push a Batch Task Status Change Notification
- Push a Device Message Reporting Notification
- Push a Device Addition Notification
- Push a Device Update Notification
- Push a Device Deletion Notification
- Push a Product Addition Notification
- Push a Product Update Notification
- Push a Product Deletion Notification
- Push an Asynchronous Device Command Status Change Notification
- Rule Management
- Device Shadow
- Group Management
- Tag Management
- Instance Management
- Resource Space Management
- Batch Task
- Device CA Certificate Management
- OTA Upgrade Package Management
- Message Broadcasting
- Device Tunnel Management
- Stack policy management
- Flow control policy management
- Device Proxy
- Device Policy Management
- Bridge Management
- Pre-provisioning Template Management
- Custom Authentication
- Codec Function Management
- Permissions and Supported Actions
- Examples
- Appendix
-
MQTT or MQTTS API Reference on the Device Side
- Before You Start
- Communication Modes
- Topics
- Device Connection Authentication
- Device Commands
- Device Messages
- Device Properties
-
Gateway and Child Device Management
- Platform Notifying a Gateway of New Child Device Connection
- Platform Notifying a Gateway of Child Device Deletion
- Gateway Synchronizing Child Device Information
- Gateway Updating Child Device Status
- Responding to a Request for Updating Child Device Statuses
- Gateway Requesting for Adding Child Devices
- Platform Responding to a Request for Adding Child Devices
- Gateway Requesting for Deleting Child Devices
- Platform Responding to a Request for Deleting Child Devices
- Software and Firmware Upgrade
- File Upload and Download
- Device Time Synchronization
- Device Reporting Information
- Device Log Collection
- Remote Configuration
- Device Tunnel Management
- HTTPS API Reference on the Device Side
- LwM2M API Reference on the Device Side
- Security Tunnel WebSocket API Reference
- Module AT Command Reference
- Change History
-
API Reference on the Application Side
- SDK Reference
-
FAQs
- Top FAQs
-
Solution Consulting
- In What Scenarios Can the IoT Platform Be Applied?
- What Are the Changes Brought by the Integration of IoT Device Management and IoTDA?
- Can I Enable IoTDA for IAM Users or Sub-Projects?
- Which Regions of Huawei Cloud Are Supported by the IoT Platform?
- Does Huawei Provide Modules, Hardware Devices, and Application Software?
- What Should I Do If I Want to Call an API But Have No Permissions to Do So as an IAM User? (Is It Edition-specific?)
- Why Was I Prompted to Grant Security Administrator Permissions When I Create a Rule or Set Resource File Storage?
- Which Resource Space Will Be Set As Default on the IoT Platform?
- How Does IoTDA Obtain Device Data?
- Is There Any Limitation on the Number of Resource Spaces and Devices I Can Add on the IoT Platform?
- Does the IoTDA Support Device Registration in Batches?
- Are There Any Limitations on the Use of the IoT Platform?
- What DTLS Encryption Algorithms Are Supported by the IoT Platform?
- Does the IoT Platform Support Conversion Between Big-Endian and Little-Endian for Binary Data?
- What Is NB-IoT?
- What Are the Components of the IoT Platform and What Hardware Architectures Does It Support?
- How Do I Obtain the Platform Access Address?
- Device Integration
- IoT Device SDKs
- LwM2M/CoAP Device Access
- MQTT-based Device Access
- Products Models
- Message Communications
- Subscription and Push
- Codecs
- OTA Upgrades
- Application Integration
- General Reference
On this page
Help Center/
IoT Device Access/
User Guide/
Rules/
Data Forwarding to Third-Party Applications/
MQTT Data Forwarding/
GO Demo
Copied.
GO Demo
This section uses Go as an example to describe how to connect an MQTTS client to the platform and receive subscribed messages from the platform.
Prerequisites
Knowledge of basic Go syntax and how to configure development environments.
Development Environment
In this example, Go 1.18 is used.
Dependency
In this example, paho.mqtt.golang (version 1.4.3) is used. You can run the following command to add the dependency to go.mod.
require (
github.com/eclipse/paho.mqtt.golang v1.4.3
)Sample Code
package main
import (
"crypto/tls"
"fmt"
mqtt "github.com/eclipse/paho.mqtt.golang"
"os"
"os/signal"
"time"
)
type MessageHandler func(message string)
type MqttClient struct {
Host string
Port int
ClientId string
AccessKey string
AccessCode string
Topic string
InstanceId string
Qos int
Client mqtt.Client
messageHandlers []MessageHandler
}
func (mqttClient *MqttClient) Connect() bool {
return mqttClient.connectWithRetry()
}
func (mqttClient *MqttClient) connectWithRetry() bool {
// Retries with exponential backoff, from 10 ms to 20s.
duration := 10 * time.Millisecond
maxDuration := 20000 * time.Millisecond
// Retry upon connection establishment failure.
internal := mqttClient.connectInternal()
times := 0
for !internal {
time.Sleep(duration)
if duration < maxDuration {
duration *= 2
}
times++
fmt.Println("connect mqttgo broker retry. times: ", times)
internal = mqttClient.connectInternal()
}
return internal
}
func (mqttClient *MqttClient) connectInternal() bool {
// Close the existing connection before establishing a connection.
mqttClient.Close()
options := mqtt.NewClientOptions()
options.AddBroker(fmt.Sprintf("mqtts://%s:%d", mqttClient.Host, mqttClient.Port))
options.SetClientID(mqttClient.ClientId)
userName := fmt.Sprintf("accessKey=%s|timestamp=%d", mqttClient.AccessKey, time.Now().UnixNano()/1000000)
if len(mqttClient.InstanceId) != 0 {
userName = userName + fmt.Sprintf("|instanceId=%s", mqttClient.InstanceId)
}
options.SetUsername(userName)
options.SetPassword(mqttClient.AccessCode)
options.SetConnectTimeout(10 * time.Second)
options.SetKeepAlive(120 * time.Second)
// Disable the SDK internal reconnection and use the custom reconnection to refresh the timestamp.
options.SetAutoReconnect(false)
options.SetConnectRetry(false)
tlsConfig := &tls.Config{
InsecureSkipVerify: true,
MaxVersion: tls.VersionTLS12,
MinVersion: tls.VersionTLS12,
}
options.SetTLSConfig(tlsConfig)
options.OnConnectionLost = mqttClient.createConnectionLostHandler()
client := mqtt.NewClient(options)
if token := client.Connect(); token.Wait() && token.Error() != nil {
fmt.Println("device create bootstrap client failed,error = ", token.Error().Error())
return false
}
mqttClient.Client = client
fmt.Println("connect mqttgo broker success.")
mqttClient.subscribeTopic()
return true
}
func (mqttClient *MqttClient) subscribeTopic() {
subRes := mqttClient.Client.Subscribe(mqttClient.Topic, 0, mqttClient.createMessageHandler())
if subRes.Wait() && subRes.Error() != nil {
fmt.Printf("sub topic failed,error is %s\n", subRes.Error())
panic("subscribe topic failed.")
} else {
fmt.Printf("sub topic success\n")
}
}
func (mqttClient *MqttClient) createMessageHandler() func(client mqtt.Client, message mqtt.Message) {
messageHandler := func(client mqtt.Client, message mqtt.Message) {
fmt.Println("receive message from server.")
go func() {
for _, handler := range mqttClient.messageHandlers {
handler(string(message.Payload()))
}
}()
}
return messageHandler
}
func (mqttClient *MqttClient) createConnectionLostHandler() func(client mqtt.Client, reason error) {
// Perform custom reconnection after disconnection.
connectionLostHandler := func(client mqtt.Client, reason error) {
fmt.Printf("connection lost from server. begin to reconnect broker. reason: %s\n", reason.Error())
connected := mqttClient.connectWithRetry()
if connected {
fmt.Println("reconnect mqttgo broker success.")
}
}
return connectionLostHandler
}
func (mqttClient *MqttClient) Close() {
if mqttClient.Client != nil {
mqttClient.Client.Disconnect(1000)
}
}
func main() {
// For details about how to set the following parameters, see the connection configuration description.
// MQTT access domain name
mqttHost := "your mqtt host"
// MQTT access port
mqttPort := 8883
// Access credential key value
mqttAccessKey := os.Getenv("MQTT_ACCESS_KEY")
// Access credential secret
mqttAccessCode := os.Getenv("MQTT_ACCESS_CODE")
// Name of the subscribed topic
mqttTopic := "your mqtt topic"
// Instance ID
instanceId := "your instance Id"
//mqttgo client id
clientId := "your mqtt client id"
mqttClient := MqttClient{
Host: mqttHost,
Port: mqttPort,
Topic: mqttTopic,
ClientId: clientId,
AccessKey: mqttAccessKey,
AccessCode: mqttAccessCode,
InstanceId: instanceId,
}
// Customize the handler for processing messages.
mqttClient.messageHandlers = []MessageHandler{func(message string) {
fmt.Println(message)
}}
connect := mqttClient.Connect()
if !connect {
fmt.Println("init mqttgo client failed.")
return
}
// Block method to keep the MQTT client always pulling messages.
interrupt := make(chan os.Signal, 1)
signal.Notify(interrupt, os.Interrupt)
for {
<-interrupt
break
}
}Success Example
After the access is successful, the following information is displayed on the client.
Figure 1 Example of successful MQTT client access using Go
Parent topic: MQTT Data Forwarding
Feedback
Was this page helpful?
Provide feedbackThank you very much for your feedback. We will continue working to improve the documentation.See the reply and handling status in My Cloud VOC.
The system is busy. Please try again later.
For any further questions, feel free to contact us through the chatbot.
Chatbot
