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How to convert JSON string to JSON object in golang

PHPz

Apr 06, 2023 am 09:10 AM

In the Go language, it is very common to use JSON (JavaScript Object Notation). JSON is a lightweight data exchange format that is widely used in modern applications because it is easy to read, write, and parse. When processing JSON data, we need to pay attention to some pitfalls.

One of the problems is that when processing JSON strings, we need to escape. For example, if a JSON string contains special characters (such as double quotes, backslashes, etc.), they must be escaped to be parsed correctly. Otherwise, parsing errors or security issues may result.

In Go language, we can use the two functions json.Marshal and json.Unmarshal to encode and decode JSON data. Go will automatically escape JSON strings when encoding. For example, the following code demonstrates how to convert a JSON string containing special characters into a JSON object in Go:

package main

import (
    "encoding/json"
    "fmt"
)

func main() {
    jsonString := `{"name":"Alan","age":30,"info":"hello \"world\""}`
    data := make(map[string]interface{})
    err := json.Unmarshal([]byte(jsonString), &data)
    if err != nil {
        fmt.Println("Unmarshal error:", err)
        return
    }
    fmt.Println("Name:", data["name"])
    fmt.Println("Age:", data["age"])
    fmt.Println("Info:", data["info"])
}

In the above code, we define a JSON string containing special characters, and decode it into a Go map. When we print the values in the Go map, we will find that strings containing special characters have been escaped correctly.

In addition to performing necessary escaping during encoding and decoding, we also need to pay attention to the security of JSON data. For example, the JSON data entered by the user may contain malicious code, and we need to ensure that there are no unintended consequences when parsing it.

In order to ensure the security of JSON data, we need to use some tools to verify the integrity of JSON data, and only use trusted JSON libraries to parse the data. Additionally, we need to limit the size and complexity of JSON data to prevent attackers from exploiting it for denial of service attacks or other security vulnerabilities.

In short, when processing JSON data, we need to pay attention to escaping and security. Using the JSON encoding and decoding functions provided by Go can simplify our work, and paying attention to some basic security practices can help us avoid potential security threats.

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