golang has no permissions

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Release: 2023-05-13 09:09:07
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In software development, permission management is a very important issue. Normally, for enterprise-level applications, different permissions need to be set for different users to ensure the security and reliability of the system. In the Go language, permission management is also an essential component. However, in actual development, we may encounter the situation of "golang has no permissions". What should we do at this time?

Go language is an efficient, concise, cross-platform programming language with static typing and garbage collection features. The emergence of Go language has brought significant technical improvements to ordinary programmers and network engineers, greatly simplifying programmers' work. Although the Go language is a good programming language, special processing is still required in terms of permission management, otherwise the problem of "golang has no permissions" will occur.

First of all, we need to clarify how permissions are reflected in the Go language. In the Go language, permissions are usually reflected in file and directory access. For a file or directory, different users have different permissions, such as read, write, execute, etc. In practice, we usually use the file system permission management method of the Linux operating system, that is, setting corresponding access permissions for each file or directory, and then managing permissions by classifying and authorizing users.

In the Go language, you can obtain access permissions to files or directories through the functions in the os package. For example, the following code snippet can obtain the permissions of the file:

package main import ( "fmt" "os" ) func main() { file, err := os.Stat("test.txt") if err != nil { fmt.Println(err) return } fmt.Printf("File Permissions: %o ", file.Mode().Perm()) }
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Here, we use the Stat function in the os package to obtain the information of the file test.txt, and use the Mode function to obtain the permission mode of the file. The Mode function returns a value of type os.FileMode, which can be used to obtain file access permissions. We convert the file's permission pattern to octal numbers and print the output to better understand the file permissions.

However, permission management in Go language is not just about obtaining access permissions to files or directories. In actual development, we also need to consider how to perform user authentication and authorization. In Go language, you can use the jwt-go package to implement authentication and authorization functions. jwt-go is a Go language library for implementing JWT (JSON Web Token). It provides a simple API so that developers can easily create, sign and verify JWT.

Here is a simple sample code for creating a JWT and sending it to the client:

package main import ( "fmt" "net/http" "time" "github.com/dgrijalva/jwt-go" ) func main() { http.HandleFunc("/login", func(w http.ResponseWriter, r *http.Request) { // 获取用户名和密码 username := r.FormValue("username") password := r.FormValue("password") // 将用户名和密码进行身份验证 if username == "admin" && password == "123456" { // 创建JWT token := jwt.New(jwt.SigningMethodHS256) claims := token.Claims.(jwt.MapClaims) claims["username"] = username claims["exp"] = time.Now().Add(time.Hour * 24).Unix() // 签名JWT tokenString, err := token.SignedString([]byte("mysecret")) if err != nil { w.WriteHeader(http.StatusInternalServerError) fmt.Fprintln(w, "Token signing error") return } // 将JWT发送给客户端 w.Header().Set("Authorization", tokenString) fmt.Fprintln(w, "JWT created and sent successfully") } else { w.WriteHeader(http.StatusUnauthorized) fmt.Fprintln(w, "Invalid username or password") } }) http.ListenAndServe(":8080", nil) }
Copy after login

In this example, when the user submits their username and password via the login page, Authentication occurs. If the verification passes, a JWT is created and sent to the client. When creating a JWT, we used the API provided by the jwt-go package to set the JWT's expiration time, signing key and other information. When signing JWT, we set the signing key to "mysecret", this key should be saved on the server side and cannot be leaked to the client. Finally, we send the signed JWT to the client.

After the client receives the JWT, it can save the JWT in a cookie or local storage and send it to the server on every request. On the server side, we need to verify the signature of the JWT and parse the payload in the JWT. If the JWT verification is successful, the user can be authorized to access the corresponding resources.

Here is a sample code to validate the JWT and authorize the user to access the resource:

package main import ( "fmt" "net/http" "github.com/dgrijalva/jwt-go" ) func main() { http.HandleFunc("/protected", func(w http.ResponseWriter, r *http.Request) { // 验证JWT tokenString := r.Header.Get("Authorization") token, err := jwt.Parse(tokenString, func(token *jwt.Token) (interface{}, error) { return []byte("mysecret"), nil }) if err != nil { w.WriteHeader(http.StatusUnauthorized) fmt.Fprintln(w, "JWT error:", err) return } // 检查JWT的有效性 if !token.Valid { w.WriteHeader(http.StatusUnauthorized) fmt.Fprintln(w, "Invalid JWT") return } // 授权用户访问资源 fmt.Fprintln(w, "You are authorized to access this resource") }) http.ListenAndServe(":8080", nil) }
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In this example, when the user makes a request to access the "/protected" resource, we need to validate the JWT and authorizes the user to access the resource. When validating the JWT, we call the Parse function and set the signing key to "mysecret". If the JWT verification is successful, the user can be authorized to access the resource. Finally, we return a response to the client indicating that the user has been authorized to access the resource.

In short, "golang has no permissions" is not an unsolvable problem. In the Go language, we can use the os package to obtain access permissions to files and directories, and the jwt-go package to implement authentication and authorization functions to ensure the security and reliability of the system. Of course, in actual development, we also need to consider other security issues, such as SQL injection, cross-site scripting attacks, etc., to ensure the security of the application.

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