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refactored repo file to fit refactored auth

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This commit is contained in:
Wyatt J. Miller 2021-12-18 15:07:46 -05:00
parent c2b6db25f7
commit cef93da327
5 changed files with 173 additions and 192 deletions
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21
src/config.rs
View File

@ -9,7 +9,7 @@ pub struct Configuration {
pub base_api: String,
pub base_url: String,
pub username: Option<String>,
pub password: Option<String>
pub password: Option<String>,
}
impl Configuration {
@ -24,9 +24,7 @@ impl Configuration {
location.push(format!("{}/.config/gt/config.json", home_dir_env));
for i in location {
settings.merge(File::with_name(&i)
.required(false))
.unwrap();
settings.merge(File::with_name(&i).required(false)).unwrap();
}
let config = settings
@ -38,10 +36,7 @@ impl Configuration {
}
#[cfg(target_os = "linux")]
fn set_location_linux(
location: &mut Vec<String>,
home: String
) -> Vec<String> {
fn set_location_linux(location: &mut Vec<String>, home: String) -> Vec<String> {
location.push("config.json".to_string());
location.push("/etc/gt/config.json".to_string());
location.push(format!("{}/.config/gt/config.json", home));
@ -50,20 +45,14 @@ fn set_location_linux(
}
#[cfg(target_os = "macos")]
fn set_location_macos(
location: &mut Vec<String>,
home: String
) -> Vec<String> {
fn set_location_macos(location: &mut Vec<String>, home: String) -> Vec<String> {
location.push("config.json".to_string());
location.to_vec()
}
#[cfg(target_os = "windows")]
fn set_location_windows(
location: &mut Vec<String>,
home: String
) -> Vec<String> {
fn set_location_windows(location: &mut Vec<String>, home: String) -> Vec<String> {
location.push("config.json".to_string());
location.to_vec()

16
src/main.rs
View File

@ -14,7 +14,6 @@ use clap::ArgMatches;
fn main() {
let matches: ArgMatches = arg::get_args();
let config = crate::config::Configuration::new();
let auth = request::Authentication::new(&config);
let request = auth.request_chooser(config.clone(), matches);
@ -29,21 +28,21 @@ fn main() {
}
if repo_matches.is_present("delete") {
repo.delete_repo(&config, repo_matches);
repo.delete_repo(&request);
}
if repo_matches.is_present("fork") {
repo.fork_repo(&config, repo_matches)
repo.fork_repo(&request)
}
if repo_matches.is_present("search") {
repo.search_repo(&config, repo_matches)
repo.search_repo(&request)
}
if repo_matches.is_present("list") {
repo.list_repo(&config)
repo.list_repo(&request)
}
},
}
("issue", Some(issue_matches)) => {
let issue = issue::Issue::new();
@ -51,8 +50,7 @@ fn main() {
if issue_matches.is_present("create") {
issue.create_issue(&config, issue_matches);
}
},
_ => println!("Huh?")
}
_ => println!("Huh?"),
}
}

250
src/repo.rs
View File

@ -1,11 +1,9 @@
use std::collections::HashMap;
use clap::ArgMatches;
use colored::*;
use reqwest::{StatusCode, Client};
use serde_derive::{Serialize, Deserialize};
use reqwest::StatusCode;
use serde_derive::{Deserialize, Serialize};
use crate::config::Configuration;
use crate::request::Request;
pub struct Repository;
@ -105,190 +103,196 @@ impl Repository {
pub fn create_repo(&self, request: &Request) {
let client = &request.client;
let arg_value = request.arg_value.subcommand().1.unwrap().value_of("create").unwrap();
let arg_value = request
.arg_value
.subcommand()
.1
.unwrap()
.value_of("create")
.unwrap();
let mut map: HashMap<&str, &str> = HashMap::new();
let url = format!("{request}/user/repos?token={api_token}",
let url = format!(
"{request}/user/repos?token={api_token}",
request = request.url.as_ref().unwrap(),
api_token = request
.authentication
.credentials
.1.as_ref()
.unwrap());
api_token = request.authentication.credentials.1.as_ref().unwrap()
);
map.insert("name", arg_value);
map.insert("readme", arg_value);
map.insert("description", arg_value);
let response = client.post(url.as_str())
.json(&map)
.send();
let response = client.post(url.as_str()).json(&map).send();
match response {
Ok(mut repo) => {
match repo.status() {
StatusCode::CREATED => {
let deserialized: RepositoryResponse = repo.json().unwrap();
println!("{}", "Repository successfully created!".green());
println!("\tRepository name: {:0?}\n\tRepository owner: {:1?}\n\tRepository description: {:2?}", deserialized.name, deserialized.owner.unwrap().full_name, deserialized.description);
},
StatusCode::CONFLICT => println!("{}", "Repository already exists!".red()),
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository input validation failed!".red()),
_ => println!("Repository creation failed! HTTP status code: {}", repo.status().as_str())
Ok(repo) => match repo.status() {
StatusCode::CREATED => {
let deserialized: RepositoryResponse = repo.json().unwrap();
println!("{}", "Repository successfully created!".green());
println!("\tRepository name: {:0}\n\tRepository owner: {:1}\n\tRepository description: {:2}", deserialized.name, deserialized.owner.unwrap().full_name, deserialized.description);
}
StatusCode::CONFLICT => println!("{}", "Repository already exists!".red()),
StatusCode::UNPROCESSABLE_ENTITY => {
println!("{}", "Repository input validation failed!".red())
}
_ => println!(
"Repository creation failed! HTTP status code: {}",
repo.status().as_str()
),
},
Err(e) => panic!(e)
Err(e) => panic!("{}", e),
}
}
pub fn delete_repo(&self, config: &Configuration, arg: &ArgMatches) {
let client = Client::new();
let arg_iter: Vec<&str> = arg.values_of("delete")
pub fn delete_repo(&self, request: &Request) {
let client = &request.client;
let arg_value: Vec<&str> = request
.arg_value
.subcommand()
.1
.unwrap()
.values_of("delete")
.unwrap()
.collect();
let url = format!(
r"{request}/repos/{owner}/{repo}?token={api_token}",
request = request.url.as_ref().unwrap(),
owner = request.authentication.credentials.0.as_ref().unwrap(),
repo = arg_value[1],
api_token = request.authentication.credentials.1.as_ref().unwrap(),
);
let url = format!("{base_url}{base_api}/repos/{username}/{repo_name}?token={api_token}",
base_url = config.base_url,
base_api = config.base_api,
username = arg_iter[0],
repo_name = arg_iter[1],
api_token = config.api_token.as_ref().unwrap());
let response = client.delete(&url)
.send();
let response = client.delete(&url).send();
match response {
Ok(repo) => {
match repo.status() {
StatusCode::NO_CONTENT => println!("{}", "Repository successfully deleted!".green()),
StatusCode::FORBIDDEN => println!("{}", "Forbidden to delete this repository!".red()),
StatusCode::NOT_FOUND => println!("{}", "Repository doesn't exist!".red()),
_ => println!("Repository deletion failed! HTTP status code: {}", repo.status().to_string())
}
Ok(repo) => match repo.status() {
StatusCode::NO_CONTENT => println!("{}", "Respository successfully deleted!".green()),
StatusCode::FORBIDDEN => println!("{}", "Repository deletion forbidden!".red()),
_ => println!(
"Repository deletion failed! Does the repository exist? HTTP status code: {}",
repo.status().as_str()
),
},
Err(e) => panic!(e)
Err(e) => panic!("{}", e),
}
}
pub fn fork_repo(&self, config: &Configuration, arg: &ArgMatches) {
let client = Client::new();
let arg_item: Vec<&str> = arg.values_of("fork")
pub fn fork_repo(&self, request: &Request) {
let client = &request.client;
let arg_item: Vec<&str> = request
.arg_value
.subcommand()
.1
.unwrap()
.values_of("fork")
.unwrap()
.collect();
let mut map: HashMap<&str, &str> = HashMap::new();
let user = config.username
.clone()
.unwrap();
let user = request.authentication.credentials.0.as_ref().unwrap();
let url = format!("{base_url}{base_api}/repos/{owner}/{repo}/forks?token={api_token}",
base_url = config.base_url,
base_api = config.base_api,
let url = format!(
"{request}/repos/{owner}/{repo}/forks?token={api_token}",
request = request.url.as_ref().unwrap(),
owner = arg_item[0],
repo = arg_item[1],
api_token = config.api_token.as_ref().unwrap());
api_token = request.authentication.credentials.1.as_ref().unwrap(),
);
map.insert("name", user.as_str());
let response = client.post(url.as_str())
.json(&map)
.send();
let response = client.post(url.as_str()).json(&map).send();
match response {
Ok(mut repo) => {
match repo.status() {
StatusCode::ACCEPTED => {
let deserialized: RepositoryResponse = repo.json().unwrap();
println!("{}", "Repository forked successfully".green());
println!("\tOriginal repository name: {:0?}\n\tOriginal repository owner: {:1?}\n\tForked repository name: {:2?}\n\tForked repository owner: {:3?}", deserialized.name, arg_item[0], deserialized.name, deserialized.owner.unwrap().full_name);
},
StatusCode::INTERNAL_SERVER_ERROR => println!("{}", "Repository already forked!".red()),
StatusCode::FORBIDDEN => println!("{}", "Repository fork forbidden!".red()),
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository fork input validation failed!".red()),
StatusCode::NOT_FOUND => println!("{}", "Repository not found!"),
_ => println!("Repository creation failed! HTTP status code: {}", repo.status().as_str())
Ok(repo) => match repo.status() {
StatusCode::ACCEPTED => {
let deserialized: RepositoryResponse = repo.json().unwrap();
println!("{}", "Repository forked successfully".green());
println!("\tOriginal repository name: {:0?}\n\tOriginal repository owner: {:1?}\n\tForked repository name: {:2?}\n\tForked repository owner: {:3?}", deserialized.name, arg_item[0], deserialized.name, deserialized.owner.unwrap().full_name);
}
StatusCode::INTERNAL_SERVER_ERROR => println!("{}", "Repository already forked!".red()),
StatusCode::FORBIDDEN => println!("{}", "Repository fork forbidden!".red()),
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository fork input validation failed!".red()),
StatusCode::NOT_FOUND => println!("{}", "Repository not found!"),
_ => println!("Repository creation failed! HTTP status code: {}", repo.status().as_str()),
},
Err(e) => panic!(e)
Err(e) => panic!("{}", e),
}
}
pub fn search_repo(&self, config: &Configuration, arg: &ArgMatches) {
let client = Client::new();
let arg_value = arg.value_of("search").unwrap();
let url = format!("{base_url}{base_api}/repos/search?q={query}&token={api_token}",
base_url = config.base_url,
base_api = config.base_api,
pub fn search_repo(&self, request: &Request) {
let client = &request.client;
let arg_value = request
.arg_value
.subcommand()
.1
.unwrap()
.value_of("search")
.unwrap();
let url = format!(
"{request}/repos/search?q={query}&token={api_token}",
request = request.url.as_ref().unwrap(),
query = arg_value,
api_token = config.api_token.as_ref().unwrap());
api_token = request.authentication.credentials.1.as_ref().unwrap(),
);
let response = client.get(url.as_str())
.send();
let response = client.get(url.as_str()).send();
match response {
Ok(mut repo) => {
match repo.status() {
StatusCode::OK => {
let deserialized: MultipleRepositories = repo.json()
.unwrap();
Ok(repo) => match repo.status() {
StatusCode::OK => {
let deserialized: MultipleRepositories = repo.json().unwrap();
match deserialized.data.len() != 0 {
true => {
println!("{}", "List of repositories found:".green());
match deserialized.data.len() != 0 {
true => {
println!("{}", "List of repositories found:");
for (i, data) in deserialized.data.iter().enumerate() {
println!("{}.\tRepository name: {:1?}\n\tRepository owner: {:2?}\n\tRepository description: {:3?}\n", i + 1, data.name, data.owner.as_ref().unwrap().full_name, data.description)
}
println!("Total number of repositories indexed: {}", deserialized.data.iter().count())
},
false => println!("{}", "Repository searched doesn't exist!".red())
for (i, data) in deserialized.data.iter().enumerate() {
println!("{}.\tRepository name: {:1}\n\tRepository owner: {:2}\n\tRepository description: {:3}\n", i + 1, data.name, data.owner.as_ref().unwrap().full_name, data.description)
}
},
StatusCode::NOT_FOUND => println!("{}", "Repository searched doesn't exist!".red()),
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository input validation failed!".red()),
_ => println!("Repository search failed! HTTP status code: {}", repo.status().as_str())
println!("Total number of repositories indexed: {}", deserialized.data.iter().count())
}
false => println!("{}", "Repository searched doesn't exist!".red()),
}
}
StatusCode::NOT_FOUND => println!("{}", "Repository searched doesn't exist!".red()),
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository input validation failed!".red()),
_ => println!("Repository search failed! HTTP status code: {}", repo.status().as_str()),
},
Err(e) => panic!(e)
Err(e) => panic!("{}", e),
}
}
pub fn list_repo(&self, config: &Configuration) {
let client = Client::new();
let url = format!("{base_url}{base_api}/repos/search?token={api_token}",
base_url = config.base_url,
base_api = config.base_api,
api_token = config.api_token.as_ref().unwrap());
pub fn list_repo(&self, request: &Request) {
let client = &request.client;
let url = format!(
"{request}/repos/search?token={api_token}",
request = request.url.as_ref().unwrap(),
api_token = request.authentication.credentials.1.as_ref().unwrap()
);
let response = client.get(url.as_str())
.send();
let response = client.get(url.as_str()).send();
match response {
Ok(mut repo) => {
match repo.status() {
StatusCode::OK => {
let deserialized: MultipleRepositories = repo.json()
.unwrap();
Ok(repo) => match repo.status() {
StatusCode::OK => {
let deserialized: MultipleRepositories = repo.json().unwrap();
match deserialized.data.len() != 0 {
match deserialized.data.len() != 0 {
true => {
println!("{}", "List of repositories found:".green());
println!("{}", "List of repositories found:");
for (i, data) in deserialized.data.iter().enumerate() {
println!("{}.\tRepository name: {:1?}\n\tRepository owner: {:2?}\n\tRepository description: {:3?}\n", i + 1, data.name, data.owner.as_ref().unwrap().full_name, data.description)
println!("{}.\tRepository name: {:1}\n\tRepository owner: {:2}\n\tRepository description: {:3}\n", i + 1, data.name, data.owner.as_ref().unwrap().full_name, data.description)
}
println!("Total number of repositories indexed: {}", deserialized.data.iter().count())
},
false => println!("{}", "The authenticated user doesn't have any repositories. Why not create one?".yellow())
}
},
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository input validation failed!".red()),
_ => println!("Repository search failed! HTTP status code: {}", repo.status().as_str())
}
StatusCode::UNPROCESSABLE_ENTITY => println!("{}", "Repository input validation failed!".red()),
_ => println!("Repository search failed! HTTP status code: {}",repo.status().as_str()),
},
Err(e) => panic!(e)
Err(e) => panic!("{}", e),
}
}
}

55
src/request.rs
View File

@ -1,7 +1,7 @@
use std::collections::HashMap;
use clap::ArgMatches;
use reqwest::Client;
use reqwest::blocking::Client;
use crate::config::Configuration;
@ -16,7 +16,7 @@ pub struct Request<'a> {
pub struct Authentication {
pub basic: bool,
pub api_token: bool,
pub credentials: (Option<String>, Option<String>)
pub credentials: (Option<String>, Option<String>),
}
impl<'a> Request<'a> {
@ -24,13 +24,13 @@ impl<'a> Request<'a> {
pub fn with_basic_request(
config: Configuration,
arg: ArgMatches,
auth: Authentication
) -> Request {
auth: Authentication,
) -> Request {
Request {
client: Client::new(),
arg_value: arg,
map: HashMap::new(),
url: Some(format!("{:?}{:?}", config.base_url, config.base_api)),
url: Some(format!("{}{}", config.base_url, config.base_api)),
authentication: auth,
}
}
@ -39,19 +39,19 @@ impl<'a> Request<'a> {
pub fn with_api_request(
config: Configuration,
arg: ArgMatches,
auth: Authentication
) -> Request {
auth: Authentication,
) -> Request {
Request {
client: Client::new(),
arg_value: arg,
map: HashMap::new(),
url: Some(format!("{:?}{:?}", config.base_url, config.base_api)),
url: Some(format!("{}{}", config.base_url, config.base_api)),
authentication: auth,
}
}
}
impl Authentication{
impl Authentication {
/// Public constructor for getting authentication, provided by the configuration
/// file. The most secure methods are checked first, filtering down to the least
/// secure methods. Currently, only two methods are supported: API token, and
@ -61,33 +61,22 @@ impl Authentication{
// this is horror code, I know it
// match the damn thing
// someone is going to take this and put it in r/badcode lol
let basic_auth = config
.password
.as_ref()
.unwrap()
.to_string();
let basic_auth = config.password.as_ref().unwrap().to_string();
let api_auth = config
.api_token
.as_ref()
.unwrap()
.to_string();
let api_auth = config.api_token.as_ref().unwrap().to_string();
if api_auth.is_empty() {
if !(basic_auth.is_empty()) {
Authentication::with_basic(config
.username
.as_ref()
.unwrap()
.to_string(),
basic_auth)
Authentication::with_basic(
config.username.as_ref().unwrap().to_string(),
basic_auth,
)
} else {
panic!("Must have some form of authentication! Exiting...");
}
} else {
Authentication::with_api_token(api_auth)
Authentication::with_api_token(config.username.as_ref().unwrap().to_string(), api_auth)
}
}
/// Private constructor once the public constructor figures out what kind of authentication
@ -97,29 +86,25 @@ impl Authentication{
Authentication {
basic: true,
api_token: false,
credentials: (Some(user), Some(pass))
credentials: (Some(user), Some(pass)),
}
}
/// Private constructor once the public constructor figures out what kind of authentication
/// is being used. This constructor uses the API token, a more secure way of authenticating
/// instead of using the basic username and password.
fn with_api_token(api_token: String) -> Authentication {
fn with_api_token(user: String, api_token: String) -> Authentication {
Authentication {
basic: false,
api_token: true,
credentials: (Some(api_token), None)
credentials: (Some(user), Some(api_token)),
}
}
/// Public method that based on the what kind of authentication is being used, it can
/// determine what kind of requesting method is going to be used. See the Request
/// structure for more details.
pub fn request_chooser(
self,
config: Configuration,
arg: ArgMatches<'static>,
) -> Request {
pub fn request_chooser(self, config: Configuration, arg: ArgMatches<'static>) -> Request {
if let true = self.api_token {
Request::with_api_request(config, arg.to_owned(), self)
} else {

5
tests/test.rs Normal file
View File

@ -0,0 +1,5 @@
#[test]
fn test_add() {
let x = 2 + 2;
assert_eq!(x, 4);
}