use crate::database::models::UserRecord; use crate::database::tokens::{SessionTokens, TokenStore}; use crate::database::user_roles::UserRoles; use crate::database::{DatabaseResult, PostgresPool, Table}; use crate::utils::error::DBError; use crate::utils::{create_salt, hash_password}; use parking_lot::Mutex; use std::sync::Arc; use zeroize::{Zeroize, Zeroizing}; /// Table that stores users with their email addresses and hashed passwords #[derive(Clone)] pub struct Users { pool: PostgresPool, user_roles: UserRoles, token_store: Arc>, } impl Table for Users { fn new(pool: PostgresPool) -> Self { Self { user_roles: UserRoles::new(PostgresPool::clone(&pool)), pool, token_store: Arc::new(Mutex::new(TokenStore::new())), } } fn init(&self) -> DatabaseResult<()> { self.pool.get()?.batch_execute( "CREATE TABLE IF NOT EXISTS users ( id SERIAL PRIMARY KEY, name VARCHAR(255) NOT NULL, email VARCHAR(255) UNIQUE NOT NULL, password_hash BYTEA NOT NULL, salt BYTEA NOT NULL );", )?; Ok(()) } } impl Users { /// Creates a new user and returns an error if the user already exists. /// When creating the user first a salt is generated, then the password is hashed /// with BCrypt and the given salt. The salt and the hashed password are then stored into the database pub fn create_user( &self, name: String, email: String, password: String, ) -> DatabaseResult { let mut connection = self.pool.get()?; let mut password = Zeroizing::new(password); log::trace!("Creating user {} with email {}", name, email); if !connection .query("SELECT email FROM users WHERE email = $1", &[&email])? .is_empty() { log::trace!("Failed to create user: Record exists!"); return Err(DBError::RecordExists); } let salt = Zeroizing::new(create_salt()); let pw_hash = hash_password(password.as_bytes(), &*salt).map_err(|e| DBError::GenericError(e))?; password.zeroize(); let row = connection.query_one(" INSERT INTO users (name, email, password_hash, salt) VALUES ($1, $2, $3, $4) RETURNING *; ", &[&name, &email, &pw_hash.to_vec(), &salt.to_vec()])?; Ok(UserRecord::from_ordered_row(&row)) } /// Creates new tokens for a user login that can be used by services /// that need those tokens to verify a user login pub fn create_tokens( &self, email: &String, password: &String, ) -> DatabaseResult { if self.validate_login(&email, password)? { let mut connection = self.pool.get()?; let row = connection.query_one("SELECT id FROM users WHERE email = $1", &[&email])?; let id: i32 = row.get(0); let tokens = SessionTokens::new(id); tokens.store(&mut self.token_store.lock())?; Ok(tokens) } else { Err(DBError::GenericError("Invalid password".to_string())) } } /// Validates a request token and returns if it's valid and the /// ttl of the token pub fn validate_request_token(&self, token: &String) -> DatabaseResult<(bool, i32)> { let mut store = self.token_store.lock(); let entry = store.get_by_request_token(&token); if let Some(entry) = entry { Ok((true, entry.request_ttl())) } else { Ok((false, -1)) } } /// Validates a refresh token and returns if it's valid and the ttl pub fn validate_refresh_token(&self, token: &String) -> DatabaseResult<(bool, i32)> { let mut store = self.token_store.lock(); let entry = store.get_by_refresh_token(&token); if let Some(entry) = entry { Ok((true, entry.refresh_ttl())) } else { Ok((false, -1)) } } /// Returns a new request token for a given refresh token /// if the refresh token is valid pub fn refresh_tokens(&self, refresh_token: &String) -> DatabaseResult { let mut token_store = self.token_store.lock(); let tokens = token_store.get_by_refresh_token(refresh_token); if let Some(mut tokens) = tokens.and_then(|t| SessionTokens::from_entry(t)) { tokens.refresh(); tokens.store(&mut token_store)?; Ok(tokens) } else { Err(DBError::GenericError("Invalid refresh token!".to_string())) } } pub fn delete_tokens(&self, request_token: &String) -> DatabaseResult { let mut token_store = self.token_store.lock(); let tokens = token_store.get_by_request_token(request_token); if let Some(tokens) = tokens { tokens.invalidate(); Ok(true) } else { Err(DBError::GenericError("Invalid request token!".to_string())) } } /// Returns if the user has the given permission pub fn has_permission(&self, id: i32, permission: &str) -> DatabaseResult { let mut connection = self.pool.get()?; let row = connection.query_opt( "\ SELECT * FROM user_roles, role_permissions, permissions WHERE user_roles.user_id = $1 AND user_roles.role_id = role_permissions.role_id AND role_permissions.permission_id = permissions.id AND permissions.name = $2 LIMIT 1 ", &[&id, &permission], )?; Ok(row.is_some()) } /// Validates the login data of the user by creating the hash for the given password /// and comparing it with the database entry fn validate_login(&self, email: &String, password: &String) -> DatabaseResult { let mut connection = self.pool.get()?; let row = connection .query_opt( "SELECT password_hash, salt FROM users WHERE email = $1", &[&email], )? .ok_or(DBError::GenericError(format!( "No user with the email '{}' found", &email )))?; let original_pw_hash: Zeroizing> = Zeroizing::new(row.get(0)); let salt: Zeroizing> = Zeroizing::new(row.get(1)); let pw_hash = hash_password(password.as_bytes(), &*salt).map_err(|e| DBError::GenericError(e))?; Ok(pw_hash == *original_pw_hash.as_slice()) } }