use chrono::{NaiveDateTime, Utc}; use crate::{crypto, CONFIG}; use core::fmt; db_object! { #[derive(Identifiable, Queryable, Insertable, AsChangeset)] #[diesel(table_name = devices)] #[diesel(treat_none_as_null = true)] #[diesel(primary_key(uuid, user_uuid))] pub struct Device { pub uuid: String, pub created_at: NaiveDateTime, pub updated_at: NaiveDateTime, pub user_uuid: String, pub name: String, pub atype: i32, // https://github.com/bitwarden/server/blob/master/src/Core/Enums/DeviceType.cs pub push_uuid: Option, pub push_token: Option, pub refresh_token: String, pub twofactor_remember: Option, } } /// Local methods impl Device { pub fn new(uuid: String, user_uuid: String, name: String, atype: i32) -> Self { let now = Utc::now().naive_utc(); Self { uuid, created_at: now, updated_at: now, user_uuid, name, atype, push_uuid: None, push_token: None, refresh_token: String::new(), twofactor_remember: None, } } pub fn refresh_twofactor_remember(&mut self) -> String { use data_encoding::BASE64; let twofactor_remember = crypto::encode_random_bytes::<180>(BASE64); self.twofactor_remember = Some(twofactor_remember.clone()); twofactor_remember } pub fn delete_twofactor_remember(&mut self) { self.twofactor_remember = None; } pub fn refresh_tokens(&mut self, user: &super::User, scope: Vec) -> (String, i64) { // If there is no refresh token, we create one if self.refresh_token.is_empty() { use data_encoding::BASE64URL; self.refresh_token = crypto::encode_random_bytes::<64>(BASE64URL); } // Update the expiration of the device and the last update date let time_now = Utc::now(); self.updated_at = time_now.naive_utc(); // --- // Disabled these keys to be added to the JWT since they could cause the JWT to get too large // Also These key/value pairs are not used anywhere by either Vaultwarden or Bitwarden Clients // Because these might get used in the future, and they are added by the Bitwarden Server, lets keep it, but then commented out // --- // fn arg: orgs: Vec, // --- // let orgowner: Vec<_> = orgs.iter().filter(|o| o.atype == 0).map(|o| o.org_uuid.clone()).collect(); // let orgadmin: Vec<_> = orgs.iter().filter(|o| o.atype == 1).map(|o| o.org_uuid.clone()).collect(); // let orguser: Vec<_> = orgs.iter().filter(|o| o.atype == 2).map(|o| o.org_uuid.clone()).collect(); // let orgmanager: Vec<_> = orgs.iter().filter(|o| o.atype == 3).map(|o| o.org_uuid.clone()).collect(); // Create the JWT claims struct, to send to the client use crate::auth::{encode_jwt, LoginJwtClaims, DEFAULT_VALIDITY, JWT_LOGIN_ISSUER}; let claims = LoginJwtClaims { nbf: time_now.timestamp(), exp: (time_now + *DEFAULT_VALIDITY).timestamp(), iss: JWT_LOGIN_ISSUER.to_string(), sub: user.uuid.clone(), premium: true, name: user.name.clone(), email: user.email.clone(), email_verified: !CONFIG.mail_enabled() || user.verified_at.is_some(), // --- // Disabled these keys to be added to the JWT since they could cause the JWT to get too large // Also These key/value pairs are not used anywhere by either Vaultwarden or Bitwarden Clients // Because these might get used in the future, and they are added by the Bitwarden Server, lets keep it, but then commented out // See: https://github.com/dani-garcia/vaultwarden/issues/4156 // --- // orgowner, // orgadmin, // orguser, // orgmanager, sstamp: user.security_stamp.clone(), device: self.uuid.clone(), scope, amr: vec!["Application".into()], }; (encode_jwt(&claims), DEFAULT_VALIDITY.num_seconds()) } pub fn is_push_device(&self) -> bool { matches!(DeviceType::from_i32(self.atype), DeviceType::Android | DeviceType::Ios) } pub fn is_registered(&self) -> bool { self.push_uuid.is_some() } } use crate::db::DbConn; use crate::api::EmptyResult; use crate::error::MapResult; /// Database methods impl Device { pub async fn save(&mut self, conn: &mut DbConn) -> EmptyResult { self.updated_at = Utc::now().naive_utc(); db_run! { conn: sqlite, mysql { crate::util::retry( || diesel::replace_into(devices::table).values(DeviceDb::to_db(self)).execute(conn), 10, ).map_res("Error saving device") } postgresql { let value = DeviceDb::to_db(self); crate::util::retry( || diesel::insert_into(devices::table).values(&value).on_conflict((devices::uuid, devices::user_uuid)).do_update().set(&value).execute(conn), 10, ).map_res("Error saving device") } } } pub async fn delete_all_by_user(user_uuid: &str, conn: &mut DbConn) -> EmptyResult { db_run! { conn: { diesel::delete(devices::table.filter(devices::user_uuid.eq(user_uuid))) .execute(conn) .map_res("Error removing devices for user") }} } pub async fn find_by_uuid_and_user(uuid: &str, user_uuid: &str, conn: &mut DbConn) -> Option { db_run! { conn: { devices::table .filter(devices::uuid.eq(uuid)) .filter(devices::user_uuid.eq(user_uuid)) .first::(conn) .ok() .from_db() }} } pub async fn find_by_user(user_uuid: &str, conn: &mut DbConn) -> Vec { db_run! { conn: { devices::table .filter(devices::user_uuid.eq(user_uuid)) .load::(conn) .expect("Error loading devices") .from_db() }} } pub async fn find_by_uuid(uuid: &str, conn: &mut DbConn) -> Option { db_run! { conn: { devices::table .filter(devices::uuid.eq(uuid)) .first::(conn) .ok() .from_db() }} } pub async fn clear_push_token_by_uuid(uuid: &str, conn: &mut DbConn) -> EmptyResult { db_run! { conn: { diesel::update(devices::table) .filter(devices::uuid.eq(uuid)) .set(devices::push_token.eq::>(None)) .execute(conn) .map_res("Error removing push token") }} } pub async fn find_by_refresh_token(refresh_token: &str, conn: &mut DbConn) -> Option { db_run! { conn: { devices::table .filter(devices::refresh_token.eq(refresh_token)) .first::(conn) .ok() .from_db() }} } pub async fn find_latest_active_by_user(user_uuid: &str, conn: &mut DbConn) -> Option { db_run! { conn: { devices::table .filter(devices::user_uuid.eq(user_uuid)) .order(devices::updated_at.desc()) .first::(conn) .ok() .from_db() }} } pub async fn find_push_devices_by_user(user_uuid: &str, conn: &mut DbConn) -> Vec { db_run! { conn: { devices::table .filter(devices::user_uuid.eq(user_uuid)) .filter(devices::push_token.is_not_null()) .load::(conn) .expect("Error loading push devices") .from_db() }} } pub async fn check_user_has_push_device(user_uuid: &str, conn: &mut DbConn) -> bool { db_run! { conn: { devices::table .filter(devices::user_uuid.eq(user_uuid)) .filter(devices::push_token.is_not_null()) .count() .first::(conn) .ok() .unwrap_or(0) != 0 }} } } pub enum DeviceType { Android = 0, Ios = 1, ChromeExtension = 2, FirefoxExtension = 3, OperaExtension = 4, EdgeExtension = 5, WindowsDesktop = 6, MacOsDesktop = 7, LinuxDesktop = 8, ChromeBrowser = 9, FirefoxBrowser = 10, OperaBrowser = 11, EdgeBrowser = 12, IEBrowser = 13, UnknownBrowser = 14, AndroidAmazon = 15, Uwp = 16, SafariBrowser = 17, VivaldiBrowser = 18, VivaldiExtension = 19, SafariExtension = 20, Sdk = 21, Server = 22, } impl fmt::Display for DeviceType { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { DeviceType::Android => write!(f, "Android"), DeviceType::Ios => write!(f, "iOS"), DeviceType::ChromeExtension => write!(f, "Chrome Extension"), DeviceType::FirefoxExtension => write!(f, "Firefox Extension"), DeviceType::OperaExtension => write!(f, "Opera Extension"), DeviceType::EdgeExtension => write!(f, "Edge Extension"), DeviceType::WindowsDesktop => write!(f, "Windows Desktop"), DeviceType::MacOsDesktop => write!(f, "MacOS Desktop"), DeviceType::LinuxDesktop => write!(f, "Linux Desktop"), DeviceType::ChromeBrowser => write!(f, "Chrome Browser"), DeviceType::FirefoxBrowser => write!(f, "Firefox Browser"), DeviceType::OperaBrowser => write!(f, "Opera Browser"), DeviceType::EdgeBrowser => write!(f, "Edge Browser"), DeviceType::IEBrowser => write!(f, "Internet Explorer"), DeviceType::UnknownBrowser => write!(f, "Unknown Browser"), DeviceType::AndroidAmazon => write!(f, "Android Amazon"), DeviceType::Uwp => write!(f, "UWP"), DeviceType::SafariBrowser => write!(f, "Safari Browser"), DeviceType::VivaldiBrowser => write!(f, "Vivaldi Browser"), DeviceType::VivaldiExtension => write!(f, "Vivaldi Extension"), DeviceType::SafariExtension => write!(f, "Safari Extension"), DeviceType::Sdk => write!(f, "SDK"), DeviceType::Server => write!(f, "Server"), } } } impl DeviceType { pub fn from_i32(value: i32) -> DeviceType { match value { 0 => DeviceType::Android, 1 => DeviceType::Ios, 2 => DeviceType::ChromeExtension, 3 => DeviceType::FirefoxExtension, 4 => DeviceType::OperaExtension, 5 => DeviceType::EdgeExtension, 6 => DeviceType::WindowsDesktop, 7 => DeviceType::MacOsDesktop, 8 => DeviceType::LinuxDesktop, 9 => DeviceType::ChromeBrowser, 10 => DeviceType::FirefoxBrowser, 11 => DeviceType::OperaBrowser, 12 => DeviceType::EdgeBrowser, 13 => DeviceType::IEBrowser, 14 => DeviceType::UnknownBrowser, 15 => DeviceType::AndroidAmazon, 16 => DeviceType::Uwp, 17 => DeviceType::SafariBrowser, 18 => DeviceType::VivaldiBrowser, 19 => DeviceType::VivaldiExtension, 20 => DeviceType::SafariExtension, 21 => DeviceType::Sdk, 22 => DeviceType::Server, _ => DeviceType::UnknownBrowser, } } }