use chrono::Utc; use num_traits::FromPrimitive; use rocket::serde::json::Json; use rocket::{ form::{Form, FromForm}, Route, }; use serde_json::Value; use crate::{ api::{ core::accounts::{PreloginData, RegisterData, _prelogin, _register}, core::log_user_event, core::two_factor::{duo, email, email::EmailTokenData, yubikey}, ApiResult, EmptyResult, JsonResult, JsonUpcase, }, auth::{ClientHeaders, ClientIp}, db::{models::*, DbConn}, error::MapResult, mail, util, CONFIG, }; pub fn routes() -> Vec { routes![login, prelogin, identity_register] } #[post("/connect/token", data = "")] async fn login(data: Form, client_header: ClientHeaders, mut conn: DbConn) -> JsonResult { let data: ConnectData = data.into_inner(); let mut user_uuid: Option = None; let login_result = match data.grant_type.as_ref() { "refresh_token" => { _check_is_some(&data.refresh_token, "refresh_token cannot be blank")?; _refresh_login(data, &mut conn).await } "password" => { _check_is_some(&data.client_id, "client_id cannot be blank")?; _check_is_some(&data.password, "password cannot be blank")?; _check_is_some(&data.scope, "scope cannot be blank")?; _check_is_some(&data.username, "username cannot be blank")?; _check_is_some(&data.device_identifier, "device_identifier cannot be blank")?; _check_is_some(&data.device_name, "device_name cannot be blank")?; _check_is_some(&data.device_type, "device_type cannot be blank")?; _password_login(data, &mut user_uuid, &mut conn, &client_header.ip).await } "client_credentials" => { _check_is_some(&data.client_id, "client_id cannot be blank")?; _check_is_some(&data.client_secret, "client_secret cannot be blank")?; _check_is_some(&data.scope, "scope cannot be blank")?; _check_is_some(&data.device_identifier, "device_identifier cannot be blank")?; _check_is_some(&data.device_name, "device_name cannot be blank")?; _check_is_some(&data.device_type, "device_type cannot be blank")?; _api_key_login(data, &mut user_uuid, &mut conn, &client_header.ip).await } t => err!("Invalid type", t), }; if let Some(user_uuid) = user_uuid { match &login_result { Ok(_) => { log_user_event( EventType::UserLoggedIn as i32, &user_uuid, client_header.device_type, &client_header.ip.ip, &mut conn, ) .await; } Err(e) => { if let Some(ev) = e.get_event() { log_user_event( ev.event as i32, &user_uuid, client_header.device_type, &client_header.ip.ip, &mut conn, ) .await } } } } login_result } async fn _refresh_login(data: ConnectData, conn: &mut DbConn) -> JsonResult { // Extract token let token = data.refresh_token.unwrap(); // Get device by refresh token let mut device = Device::find_by_refresh_token(&token, conn).await.map_res("Invalid refresh token")?; let scope = "api offline_access"; let scope_vec = vec!["api".into(), "offline_access".into()]; // Common let user = User::find_by_uuid(&device.user_uuid, conn).await.unwrap(); let orgs = UserOrganization::find_confirmed_by_user(&user.uuid, conn).await; let (access_token, expires_in) = device.refresh_tokens(&user, orgs, scope_vec); device.save(conn).await?; let result = json!({ "access_token": access_token, "expires_in": expires_in, "token_type": "Bearer", "refresh_token": device.refresh_token, "Key": user.akey, "PrivateKey": user.private_key, "Kdf": user.client_kdf_type, "KdfIterations": user.client_kdf_iter, "KdfMemory": user.client_kdf_memory, "KdfParallelism": user.client_kdf_parallelism, "ResetMasterPassword": false, // TODO: according to official server seems something like: user.password_hash.is_empty(), but would need testing "scope": scope, "unofficialServer": true, }); Ok(Json(result)) } async fn _password_login( data: ConnectData, user_uuid: &mut Option, conn: &mut DbConn, ip: &ClientIp, ) -> JsonResult { // Validate scope let scope = data.scope.as_ref().unwrap(); if scope != "api offline_access" { err!("Scope not supported") } let scope_vec = vec!["api".into(), "offline_access".into()]; // Ratelimit the login crate::ratelimit::check_limit_login(&ip.ip)?; // Get the user let username = data.username.as_ref().unwrap().trim(); let mut user = match User::find_by_mail(username, conn).await { Some(user) => user, None => err!("Username or password is incorrect. Try again", format!("IP: {}. Username: {}.", ip.ip, username)), }; // Set the user_uuid here to be passed back used for event logging. *user_uuid = Some(user.uuid.clone()); // Check password let password = data.password.as_ref().unwrap(); if !user.check_valid_password(password) { err!( "Username or password is incorrect. Try again", format!("IP: {}. Username: {}.", ip.ip, username), ErrorEvent { event: EventType::UserFailedLogIn, } ) } // Change the KDF Iterations if user.password_iterations != CONFIG.password_iterations() { user.password_iterations = CONFIG.password_iterations(); user.set_password(password, None, false, None); if let Err(e) = user.save(conn).await { error!("Error updating user: {:#?}", e); } } // Check if the user is disabled if !user.enabled { err!( "This user has been disabled", format!("IP: {}. Username: {}.", ip.ip, username), ErrorEvent { event: EventType::UserFailedLogIn } ) } let now = Utc::now().naive_utc(); if user.verified_at.is_none() && CONFIG.mail_enabled() && CONFIG.signups_verify() { if user.last_verifying_at.is_none() || now.signed_duration_since(user.last_verifying_at.unwrap()).num_seconds() > CONFIG.signups_verify_resend_time() as i64 { let resend_limit = CONFIG.signups_verify_resend_limit() as i32; if resend_limit == 0 || user.login_verify_count < resend_limit { // We want to send another email verification if we require signups to verify // their email address, and we haven't sent them a reminder in a while... user.last_verifying_at = Some(now); user.login_verify_count += 1; if let Err(e) = user.save(conn).await { error!("Error updating user: {:#?}", e); } if let Err(e) = mail::send_verify_email(&user.email, &user.uuid).await { error!("Error auto-sending email verification email: {:#?}", e); } } } // We still want the login to fail until they actually verified the email address err!( "Please verify your email before trying again.", format!("IP: {}. Username: {}.", ip.ip, username), ErrorEvent { event: EventType::UserFailedLogIn } ) } let (mut device, new_device) = get_device(&data, conn, &user).await; let twofactor_token = twofactor_auth(&user.uuid, &data, &mut device, ip, conn).await?; if CONFIG.mail_enabled() && new_device { if let Err(e) = mail::send_new_device_logged_in(&user.email, &ip.ip.to_string(), &now, &device.name).await { error!("Error sending new device email: {:#?}", e); if CONFIG.require_device_email() { err!( "Could not send login notification email. Please contact your administrator.", ErrorEvent { event: EventType::UserFailedLogIn } ) } } } // Common let orgs = UserOrganization::find_confirmed_by_user(&user.uuid, conn).await; let (access_token, expires_in) = device.refresh_tokens(&user, orgs, scope_vec); device.save(conn).await?; let mut result = json!({ "access_token": access_token, "expires_in": expires_in, "token_type": "Bearer", "refresh_token": device.refresh_token, "Key": user.akey, "PrivateKey": user.private_key, //"TwoFactorToken": "11122233333444555666777888999" "Kdf": user.client_kdf_type, "KdfIterations": user.client_kdf_iter, "KdfMemory": user.client_kdf_memory, "KdfParallelism": user.client_kdf_parallelism, "ResetMasterPassword": false,// TODO: Same as above "scope": scope, "unofficialServer": true, }); if let Some(token) = twofactor_token { result["TwoFactorToken"] = Value::String(token); } info!("User {} logged in successfully. IP: {}", username, ip.ip); Ok(Json(result)) } async fn _api_key_login( data: ConnectData, user_uuid: &mut Option, conn: &mut DbConn, ip: &ClientIp, ) -> JsonResult { // Validate scope let scope = data.scope.as_ref().unwrap(); if scope != "api" { err!("Scope not supported") } let scope_vec = vec!["api".into()]; // Ratelimit the login crate::ratelimit::check_limit_login(&ip.ip)?; // Get the user via the client_id let client_id = data.client_id.as_ref().unwrap(); let client_user_uuid = match client_id.strip_prefix("user.") { Some(uuid) => uuid, None => err!("Malformed client_id", format!("IP: {}.", ip.ip)), }; let user = match User::find_by_uuid(client_user_uuid, conn).await { Some(user) => user, None => err!("Invalid client_id", format!("IP: {}.", ip.ip)), }; // Set the user_uuid here to be passed back used for event logging. *user_uuid = Some(user.uuid.clone()); // Check if the user is disabled if !user.enabled { err!( "This user has been disabled (API key login)", format!("IP: {}. Username: {}.", ip.ip, user.email), ErrorEvent { event: EventType::UserFailedLogIn } ) } // Check API key. Note that API key logins bypass 2FA. let client_secret = data.client_secret.as_ref().unwrap(); if !user.check_valid_api_key(client_secret) { err!( "Incorrect client_secret", format!("IP: {}. Username: {}.", ip.ip, user.email), ErrorEvent { event: EventType::UserFailedLogIn } ) } let (mut device, new_device) = get_device(&data, conn, &user).await; if CONFIG.mail_enabled() && new_device { let now = Utc::now().naive_utc(); if let Err(e) = mail::send_new_device_logged_in(&user.email, &ip.ip.to_string(), &now, &device.name).await { error!("Error sending new device email: {:#?}", e); if CONFIG.require_device_email() { err!( "Could not send login notification email. Please contact your administrator.", ErrorEvent { event: EventType::UserFailedLogIn } ) } } } // Common let orgs = UserOrganization::find_confirmed_by_user(&user.uuid, conn).await; let (access_token, expires_in) = device.refresh_tokens(&user, orgs, scope_vec); device.save(conn).await?; info!("User {} logged in successfully via API key. IP: {}", user.email, ip.ip); // Note: No refresh_token is returned. The CLI just repeats the // client_credentials login flow when the existing token expires. let result = json!({ "access_token": access_token, "expires_in": expires_in, "token_type": "Bearer", "Key": user.akey, "PrivateKey": user.private_key, "Kdf": user.client_kdf_type, "KdfIterations": user.client_kdf_iter, "KdfMemory": user.client_kdf_memory, "KdfParallelism": user.client_kdf_parallelism, "ResetMasterPassword": false, // TODO: Same as above "scope": scope, "unofficialServer": true, }); Ok(Json(result)) } /// Retrieves an existing device or creates a new device from ConnectData and the User async fn get_device(data: &ConnectData, conn: &mut DbConn, user: &User) -> (Device, bool) { // On iOS, device_type sends "iOS", on others it sends a number // When unknown or unable to parse, return 14, which is 'Unknown Browser' let device_type = util::try_parse_string(data.device_type.as_ref()).unwrap_or(14); let device_id = data.device_identifier.clone().expect("No device id provided"); let device_name = data.device_name.clone().expect("No device name provided"); let mut new_device = false; // Find device or create new let device = match Device::find_by_uuid_and_user(&device_id, &user.uuid, conn).await { Some(device) => device, None => { new_device = true; Device::new(device_id, user.uuid.clone(), device_name, device_type) } }; (device, new_device) } async fn twofactor_auth( user_uuid: &str, data: &ConnectData, device: &mut Device, ip: &ClientIp, conn: &mut DbConn, ) -> ApiResult> { let twofactors = TwoFactor::find_by_user(user_uuid, conn).await; // No twofactor token if twofactor is disabled if twofactors.is_empty() { return Ok(None); } TwoFactorIncomplete::mark_incomplete(user_uuid, &device.uuid, &device.name, ip, conn).await?; let twofactor_ids: Vec<_> = twofactors.iter().map(|tf| tf.atype).collect(); let selected_id = data.two_factor_provider.unwrap_or(twofactor_ids[0]); // If we aren't given a two factor provider, asume the first one let twofactor_code = match data.two_factor_token { Some(ref code) => code, None => err_json!(_json_err_twofactor(&twofactor_ids, user_uuid, conn).await?, "2FA token not provided"), }; let selected_twofactor = twofactors.into_iter().find(|tf| tf.atype == selected_id && tf.enabled); use crate::api::core::two_factor as _tf; use crate::crypto::ct_eq; let selected_data = _selected_data(selected_twofactor); let mut remember = data.two_factor_remember.unwrap_or(0); match TwoFactorType::from_i32(selected_id) { Some(TwoFactorType::Authenticator) => { _tf::authenticator::validate_totp_code_str(user_uuid, twofactor_code, &selected_data?, ip, conn).await? } Some(TwoFactorType::Webauthn) => { _tf::webauthn::validate_webauthn_login(user_uuid, twofactor_code, conn).await? } Some(TwoFactorType::YubiKey) => _tf::yubikey::validate_yubikey_login(twofactor_code, &selected_data?).await?, Some(TwoFactorType::Duo) => { _tf::duo::validate_duo_login(data.username.as_ref().unwrap().trim(), twofactor_code, conn).await? } Some(TwoFactorType::Email) => { _tf::email::validate_email_code_str(user_uuid, twofactor_code, &selected_data?, conn).await? } Some(TwoFactorType::Remember) => { match device.twofactor_remember { Some(ref code) if !CONFIG.disable_2fa_remember() && ct_eq(code, twofactor_code) => { remember = 1; // Make sure we also return the token here, otherwise it will only remember the first time } _ => { err_json!( _json_err_twofactor(&twofactor_ids, user_uuid, conn).await?, "2FA Remember token not provided" ) } } } _ => err!( "Invalid two factor provider", ErrorEvent { event: EventType::UserFailedLogIn2fa } ), } TwoFactorIncomplete::mark_complete(user_uuid, &device.uuid, conn).await?; if !CONFIG.disable_2fa_remember() && remember == 1 { Ok(Some(device.refresh_twofactor_remember())) } else { device.delete_twofactor_remember(); Ok(None) } } fn _selected_data(tf: Option) -> ApiResult { tf.map(|t| t.data).map_res("Two factor doesn't exist") } async fn _json_err_twofactor(providers: &[i32], user_uuid: &str, conn: &mut DbConn) -> ApiResult { use crate::api::core::two_factor; let mut result = json!({ "error" : "invalid_grant", "error_description" : "Two factor required.", "TwoFactorProviders" : providers, "TwoFactorProviders2" : {} // { "0" : null } }); for provider in providers { result["TwoFactorProviders2"][provider.to_string()] = Value::Null; match TwoFactorType::from_i32(*provider) { Some(TwoFactorType::Authenticator) => { /* Nothing to do for TOTP */ } Some(TwoFactorType::Webauthn) if CONFIG.domain_set() => { let request = two_factor::webauthn::generate_webauthn_login(user_uuid, conn).await?; result["TwoFactorProviders2"][provider.to_string()] = request.0; } Some(TwoFactorType::Duo) => { let email = match User::find_by_uuid(user_uuid, conn).await { Some(u) => u.email, None => err!("User does not exist"), }; let (signature, host) = duo::generate_duo_signature(&email, conn).await?; result["TwoFactorProviders2"][provider.to_string()] = json!({ "Host": host, "Signature": signature, }); } Some(tf_type @ TwoFactorType::YubiKey) => { let twofactor = match TwoFactor::find_by_user_and_type(user_uuid, tf_type as i32, conn).await { Some(tf) => tf, None => err!("No YubiKey devices registered"), }; let yubikey_metadata: yubikey::YubikeyMetadata = serde_json::from_str(&twofactor.data)?; result["TwoFactorProviders2"][provider.to_string()] = json!({ "Nfc": yubikey_metadata.Nfc, }) } Some(tf_type @ TwoFactorType::Email) => { use crate::api::core::two_factor as _tf; let twofactor = match TwoFactor::find_by_user_and_type(user_uuid, tf_type as i32, conn).await { Some(tf) => tf, None => err!("No twofactor email registered"), }; // Send email immediately if email is the only 2FA option if providers.len() == 1 { _tf::email::send_token(user_uuid, conn).await? } let email_data = EmailTokenData::from_json(&twofactor.data)?; result["TwoFactorProviders2"][provider.to_string()] = json!({ "Email": email::obscure_email(&email_data.email), }) } _ => {} } } Ok(result) } #[post("/accounts/prelogin", data = "")] async fn prelogin(data: JsonUpcase, conn: DbConn) -> Json { _prelogin(data, conn).await } #[post("/accounts/register", data = "")] async fn identity_register(data: JsonUpcase, conn: DbConn) -> JsonResult { _register(data, conn).await } // https://github.com/bitwarden/jslib/blob/master/common/src/models/request/tokenRequest.ts // https://github.com/bitwarden/mobile/blob/master/src/Core/Models/Request/TokenRequest.cs #[derive(Debug, Clone, Default, FromForm)] #[allow(non_snake_case)] struct ConnectData { #[field(name = uncased("grant_type"))] #[field(name = uncased("granttype"))] grant_type: String, // refresh_token, password, client_credentials (API key) // Needed for grant_type="refresh_token" #[field(name = uncased("refresh_token"))] #[field(name = uncased("refreshtoken"))] refresh_token: Option, // Needed for grant_type = "password" | "client_credentials" #[field(name = uncased("client_id"))] #[field(name = uncased("clientid"))] client_id: Option, // web, cli, desktop, browser, mobile #[field(name = uncased("client_secret"))] #[field(name = uncased("clientsecret"))] client_secret: Option, #[field(name = uncased("password"))] password: Option, #[field(name = uncased("scope"))] scope: Option, #[field(name = uncased("username"))] username: Option, #[field(name = uncased("device_identifier"))] #[field(name = uncased("deviceidentifier"))] device_identifier: Option, #[field(name = uncased("device_name"))] #[field(name = uncased("devicename"))] device_name: Option, #[field(name = uncased("device_type"))] #[field(name = uncased("devicetype"))] device_type: Option, #[allow(unused)] #[field(name = uncased("device_push_token"))] #[field(name = uncased("devicepushtoken"))] _device_push_token: Option, // Unused; mobile device push not yet supported. // Needed for two-factor auth #[field(name = uncased("two_factor_provider"))] #[field(name = uncased("twofactorprovider"))] two_factor_provider: Option, #[field(name = uncased("two_factor_token"))] #[field(name = uncased("twofactortoken"))] two_factor_token: Option, #[field(name = uncased("two_factor_remember"))] #[field(name = uncased("twofactorremember"))] two_factor_remember: Option, } fn _check_is_some(value: &Option, msg: &str) -> EmptyResult { if value.is_none() { err!(msg) } Ok(()) }