#![cfg_attr(feature = "unstable", feature(ip))] // The recursion_limit is mainly triggered by the json!() macro. // The more key/value pairs there are the more recursion occurs. // We want to keep this as low as possible, but not higher then 128. // If you go above 128 it will cause rust-analyzer to fail, #![recursion_limit = "200"] // When enabled use MiMalloc as malloc instead of the default malloc #[cfg(feature = "enable_mimalloc")] use mimalloc::MiMalloc; #[cfg(feature = "enable_mimalloc")] #[cfg_attr(feature = "enable_mimalloc", global_allocator)] static GLOBAL: MiMalloc = MiMalloc; #[macro_use] extern crate rocket; #[macro_use] extern crate serde; #[macro_use] extern crate serde_json; #[macro_use] extern crate log; #[macro_use] extern crate diesel; #[macro_use] extern crate diesel_migrations; use std::{ collections::HashMap, fs::{canonicalize, create_dir_all}, panic, path::Path, process::exit, str::FromStr, thread, }; use tokio::{ fs::File, io::{AsyncBufReadExt, BufReader}, }; #[cfg(unix)] use tokio::signal::unix::SignalKind; #[macro_use] mod error; mod api; mod auth; mod config; mod crypto; #[macro_use] mod db; mod http_client; mod mail; mod ratelimit; mod util; use crate::api::core::two_factor::duo_oidc::purge_duo_contexts; use crate::api::purge_auth_requests; use crate::api::{WS_ANONYMOUS_SUBSCRIPTIONS, WS_USERS}; pub use config::CONFIG; pub use error::{Error, MapResult}; use rocket::data::{Limits, ToByteUnit}; use std::sync::{atomic::Ordering, Arc}; pub use util::is_running_in_container; #[rocket::main] async fn main() -> Result<(), Error> { parse_args().await; launch_info(); let level = init_logging()?; check_data_folder().await; auth::initialize_keys().unwrap_or_else(|e| { error!("Error creating private key '{}'\n{e:?}\nExiting Vaultwarden!", CONFIG.private_rsa_key()); exit(1); }); check_web_vault(); create_dir(&CONFIG.icon_cache_folder(), "icon cache"); create_dir(&CONFIG.tmp_folder(), "tmp folder"); create_dir(&CONFIG.sends_folder(), "sends folder"); create_dir(&CONFIG.attachments_folder(), "attachments folder"); let pool = create_db_pool().await; schedule_jobs(pool.clone()); db::models::TwoFactor::migrate_u2f_to_webauthn(&mut pool.get().await.unwrap()).await.unwrap(); let extra_debug = matches!(level, log::LevelFilter::Trace | log::LevelFilter::Debug); launch_rocket(pool, extra_debug).await // Blocks until program termination. } const HELP: &str = "\ Alternative implementation of the Bitwarden server API written in Rust USAGE: vaultwarden [FLAGS|COMMAND] FLAGS: -h, --help Prints help information -v, --version Prints the app and web-vault version COMMAND: hash [--preset {bitwarden|owasp}] Generate an Argon2id PHC ADMIN_TOKEN backup Create a backup of the SQLite database You can also send the USR1 signal to trigger a backup PRESETS: m= t= p= bitwarden (default) 64MiB, 3 Iterations, 4 Threads owasp 19MiB, 2 Iterations, 1 Thread "; pub const VERSION: Option<&str> = option_env!("VW_VERSION"); async fn parse_args() { let mut pargs = pico_args::Arguments::from_env(); let version = VERSION.unwrap_or("(Version info from Git not present)"); if pargs.contains(["-h", "--help"]) { println!("Vaultwarden {version}"); print!("{HELP}"); exit(0); } else if pargs.contains(["-v", "--version"]) { config::SKIP_CONFIG_VALIDATION.store(true, Ordering::Relaxed); let web_vault_version = util::get_web_vault_version(); println!("Vaultwarden {version}"); println!("Web-Vault {web_vault_version}"); exit(0); } if let Some(command) = pargs.subcommand().unwrap_or_default() { if command == "hash" { use argon2::{ password_hash::SaltString, Algorithm::Argon2id, Argon2, ParamsBuilder, PasswordHasher, Version::V0x13, }; let mut argon2_params = ParamsBuilder::new(); let preset: Option = pargs.opt_value_from_str(["-p", "--preset"]).unwrap_or_default(); let selected_preset; match preset.as_deref() { Some("owasp") => { selected_preset = "owasp"; argon2_params.m_cost(19456); argon2_params.t_cost(2); argon2_params.p_cost(1); } _ => { // Bitwarden preset is the default selected_preset = "bitwarden"; argon2_params.m_cost(65540); argon2_params.t_cost(3); argon2_params.p_cost(4); } } println!("Generate an Argon2id PHC string using the '{selected_preset}' preset:\n"); let password = rpassword::prompt_password("Password: ").unwrap(); if password.len() < 8 { println!("\nPassword must contain at least 8 characters"); exit(1); } let password_verify = rpassword::prompt_password("Confirm Password: ").unwrap(); if password != password_verify { println!("\nPasswords do not match"); exit(1); } let argon2 = Argon2::new(Argon2id, V0x13, argon2_params.build().unwrap()); let salt = SaltString::encode_b64(&crypto::get_random_bytes::<32>()).unwrap(); let argon2_timer = tokio::time::Instant::now(); if let Ok(password_hash) = argon2.hash_password(password.as_bytes(), &salt) { println!( "\n\ ADMIN_TOKEN='{password_hash}'\n\n\ Generation of the Argon2id PHC string took: {:?}", argon2_timer.elapsed() ); } else { println!("Unable to generate Argon2id PHC hash."); exit(1); } } else if command == "backup" { match backup_sqlite().await { Ok(f) => { println!("Backup to '{f}' was successful"); exit(0); } Err(e) => { println!("Backup failed. {e:?}"); exit(1); } } } exit(0); } } async fn backup_sqlite() -> Result { use crate::db::{backup_database, DbConnType}; if DbConnType::from_url(&CONFIG.database_url()).map(|t| t == DbConnType::sqlite).unwrap_or(false) { // Establish a connection to the sqlite database let mut conn = db::DbPool::from_config() .expect("SQLite database connection failed") .get() .await .expect("Unable to get SQLite db pool"); let backup_file = backup_database(&mut conn).await?; Ok(backup_file) } else { err_silent!("The database type is not SQLite. Backups only works for SQLite databases") } } fn launch_info() { println!( "\ /--------------------------------------------------------------------\\\n\ | Starting Vaultwarden |" ); if let Some(version) = VERSION { println!("|{:^68}|", format!("Version {version}")); } println!( "\ |--------------------------------------------------------------------|\n\ | This is an *unofficial* Bitwarden implementation, DO NOT use the |\n\ | official channels to report bugs/features, regardless of client. |\n\ | Send usage/configuration questions or feature requests to: |\n\ | https://github.com/dani-garcia/vaultwarden/discussions or |\n\ | https://vaultwarden.discourse.group/ |\n\ | Report suspected bugs/issues in the software itself at: |\n\ | https://github.com/dani-garcia/vaultwarden/issues/new |\n\ \\--------------------------------------------------------------------/\n" ); } fn init_logging() -> Result { let levels = log::LevelFilter::iter().map(|lvl| lvl.as_str().to_lowercase()).collect::>().join("|"); let log_level_rgx_str = format!("^({levels})((,[^,=]+=({levels}))*)$"); let log_level_rgx = regex::Regex::new(&log_level_rgx_str)?; let config_str = CONFIG.log_level().to_lowercase(); let (level, levels_override) = if let Some(caps) = log_level_rgx.captures(&config_str) { let level = caps .get(1) .and_then(|m| log::LevelFilter::from_str(m.as_str()).ok()) .ok_or(Error::new("Failed to parse global log level".to_string(), ""))?; let levels_override: Vec<(&str, log::LevelFilter)> = caps .get(2) .map(|m| { m.as_str() .split(',') .collect::>() .into_iter() .flat_map(|s| match s.split('=').collect::>()[..] { [log, lvl_str] => log::LevelFilter::from_str(lvl_str).ok().map(|lvl| (log, lvl)), _ => None, }) .collect() }) .ok_or(Error::new("Failed to parse overrides".to_string(), ""))?; (level, levels_override) } else { err!(format!("LOG_LEVEL should follow the format info,vaultwarden::api::icons=debug, invalid: {config_str}")) }; // Depending on the main log level we either want to disable or enable logging for hickory. // Else if there are timeouts it will clutter the logs since hickory uses warn for this. let hickory_level = if level >= log::LevelFilter::Debug { level } else { log::LevelFilter::Off }; let diesel_logger_level: log::LevelFilter = if cfg!(feature = "query_logger") && std::env::var("QUERY_LOGGER").is_ok() { log::LevelFilter::Debug } else { log::LevelFilter::Off }; // Only show Rocket underscore `_` logs when the level is Debug or higher // Else this will bloat the log output with useless messages. let rocket_underscore_level = if level >= log::LevelFilter::Debug { log::LevelFilter::Warn } else { log::LevelFilter::Off }; // Only show handlebar logs when the level is Trace let handlebars_level = if level >= log::LevelFilter::Trace { log::LevelFilter::Trace } else { log::LevelFilter::Warn }; // Enable smtp debug logging only specifically for smtp when need. // This can contain sensitive information we do not want in the default debug/trace logging. let smtp_log_level = if CONFIG.smtp_debug() { log::LevelFilter::Debug } else { log::LevelFilter::Off }; let mut default_levels = HashMap::from([ // Hide unknown certificate errors if using self-signed ("rustls::session", log::LevelFilter::Off), // Hide failed to close stream messages ("hyper::server", log::LevelFilter::Warn), // Silence Rocket `_` logs ("_", rocket_underscore_level), ("rocket::response::responder::_", rocket_underscore_level), ("rocket::server::_", rocket_underscore_level), ("vaultwarden::api::admin::_", rocket_underscore_level), ("vaultwarden::api::notifications::_", rocket_underscore_level), // Silence Rocket logs ("rocket::launch", log::LevelFilter::Error), ("rocket::launch_", log::LevelFilter::Error), ("rocket::rocket", log::LevelFilter::Warn), ("rocket::server", log::LevelFilter::Warn), ("rocket::fairing::fairings", log::LevelFilter::Warn), ("rocket::shield::shield", log::LevelFilter::Warn), ("hyper::proto", log::LevelFilter::Off), ("hyper::client", log::LevelFilter::Off), // Filter handlebars logs ("handlebars::render", handlebars_level), // Prevent cookie_store logs ("cookie_store", log::LevelFilter::Off), // Variable level for hickory used by reqwest ("hickory_resolver::name_server::name_server", hickory_level), ("hickory_proto::xfer", hickory_level), ("diesel_logger", diesel_logger_level), // SMTP ("lettre::transport::smtp", smtp_log_level), ]); for (path, level) in levels_override.into_iter() { let _ = default_levels.insert(path, level); } if Some(&log::LevelFilter::Debug) == default_levels.get("lettre::transport::smtp") { println!( "[WARNING] SMTP Debugging is enabled (SMTP_DEBUG=true). Sensitive information could be disclosed via logs!\n\ [WARNING] Only enable SMTP_DEBUG during troubleshooting!\n" ); } let mut logger = fern::Dispatch::new().level(level).chain(std::io::stdout()); for (path, level) in default_levels { logger = logger.level_for(path.to_string(), level); } if CONFIG.extended_logging() { logger = logger.format(|out, message, record| { out.finish(format_args!( "[{}][{}][{}] {}", chrono::Local::now().format(&CONFIG.log_timestamp_format()), record.target(), record.level(), message )) }); } else { logger = logger.format(|out, message, _| out.finish(format_args!("{message}"))); } if let Some(log_file) = CONFIG.log_file() { #[cfg(windows)] { logger = logger.chain(fern::log_file(log_file)?); } #[cfg(unix)] { const SIGHUP: i32 = SignalKind::hangup().as_raw_value(); let path = Path::new(&log_file); logger = logger.chain(fern::log_reopen1(path, [SIGHUP])?); } } #[cfg(unix)] { if cfg!(feature = "enable_syslog") || CONFIG.use_syslog() { logger = chain_syslog(logger); } } if let Err(err) = logger.apply() { err!(format!("Failed to activate logger: {err}")) } // Catch panics and log them instead of default output to StdErr panic::set_hook(Box::new(|info| { let thread = thread::current(); let thread = thread.name().unwrap_or("unnamed"); let msg = match info.payload().downcast_ref::<&'static str>() { Some(s) => *s, None => match info.payload().downcast_ref::() { Some(s) => &**s, None => "Box", }, }; let backtrace = std::backtrace::Backtrace::force_capture(); match info.location() { Some(location) => { error!( target: "panic", "thread '{}' panicked at '{}': {}:{}\n{:}", thread, msg, location.file(), location.line(), backtrace ); } None => error!( target: "panic", "thread '{}' panicked at '{}'\n{:}", thread, msg, backtrace ), } })); Ok(level) } #[cfg(unix)] fn chain_syslog(logger: fern::Dispatch) -> fern::Dispatch { let syslog_fmt = syslog::Formatter3164 { facility: syslog::Facility::LOG_USER, hostname: None, process: "vaultwarden".into(), pid: 0, }; match syslog::unix(syslog_fmt) { Ok(sl) => logger.chain(sl), Err(e) => { error!("Unable to connect to syslog: {:?}", e); logger } } } fn create_dir(path: &str, description: &str) { // Try to create the specified dir, if it doesn't already exist. let err_msg = format!("Error creating {description} directory '{path}'"); create_dir_all(path).expect(&err_msg); } async fn check_data_folder() { let data_folder = &CONFIG.data_folder(); let path = Path::new(data_folder); if !path.exists() { error!("Data folder '{}' doesn't exist.", data_folder); if is_running_in_container() { error!("Verify that your data volume is mounted at the correct location."); } else { error!("Create the data folder and try again."); } exit(1); } if !path.is_dir() { error!("Data folder '{}' is not a directory.", data_folder); exit(1); } if is_running_in_container() && std::env::var("I_REALLY_WANT_VOLATILE_STORAGE").is_err() && !container_data_folder_is_persistent(data_folder).await { error!( "No persistent volume!\n\ ########################################################################################\n\ # It looks like you did not configure a persistent volume! #\n\ # This will result in permanent data loss when the container is removed or updated! #\n\ # If you really want to use volatile storage set `I_REALLY_WANT_VOLATILE_STORAGE=true` #\n\ ########################################################################################\n" ); exit(1); } } /// Detect when using Docker or Podman the DATA_FOLDER is either a bind-mount or a volume created manually. /// If not created manually, then the data will not be persistent. /// A none persistent volume in either Docker or Podman is represented by a 64 alphanumerical string. /// If we detect this string, we will alert about not having a persistent self defined volume. /// This probably means that someone forgot to add `-v /path/to/vaultwarden_data/:/data` async fn container_data_folder_is_persistent(data_folder: &str) -> bool { if let Ok(mountinfo) = File::open("/proc/self/mountinfo").await { // Since there can only be one mountpoint to the DATA_FOLDER // We do a basic check for this mountpoint surrounded by a space. let data_folder_match = if data_folder.starts_with('/') { format!(" {data_folder} ") } else { format!(" /{data_folder} ") }; let mut lines = BufReader::new(mountinfo).lines(); let re = regex::Regex::new(r"/volumes/[a-z0-9]{64}/_data /").unwrap(); while let Some(line) = lines.next_line().await.unwrap_or_default() { // Only execute a regex check if we find the base match if line.contains(&data_folder_match) { if re.is_match(&line) { return false; } // If we did found a match for the mountpoint, but not the regex, then still stop searching. break; } } } // In all other cases, just assume a true. // This is just an informative check to try and prevent data loss. true } fn check_web_vault() { if !CONFIG.web_vault_enabled() { return; } let index_path = Path::new(&CONFIG.web_vault_folder()).join("index.html"); if !index_path.exists() { error!( "Web vault is not found at '{}'. To install it, please follow the steps in: ", CONFIG.web_vault_folder() ); error!("https://github.com/dani-garcia/vaultwarden/wiki/Building-binary#install-the-web-vault"); error!("You can also set the environment variable 'WEB_VAULT_ENABLED=false' to disable it"); exit(1); } } async fn create_db_pool() -> db::DbPool { match util::retry_db(db::DbPool::from_config, CONFIG.db_connection_retries()).await { Ok(p) => p, Err(e) => { error!("Error creating database pool: {:?}", e); exit(1); } } } async fn launch_rocket(pool: db::DbPool, extra_debug: bool) -> Result<(), Error> { let basepath = &CONFIG.domain_path(); let mut config = rocket::Config::from(rocket::Config::figment()); config.temp_dir = canonicalize(CONFIG.tmp_folder()).unwrap().into(); config.cli_colors = false; // Make sure Rocket does not color any values for logging. config.limits = Limits::new() .limit("json", 20.megabytes()) // 20MB should be enough for very large imports, something like 5000+ vault entries .limit("data-form", 525.megabytes()) // This needs to match the maximum allowed file size for Send .limit("file", 525.megabytes()); // This needs to match the maximum allowed file size for attachments // If adding more paths here, consider also adding them to // crate::utils::LOGGED_ROUTES to make sure they appear in the log let instance = rocket::custom(config) .mount([basepath, "/"].concat(), api::web_routes()) .mount([basepath, "/api"].concat(), api::core_routes()) .mount([basepath, "/admin"].concat(), api::admin_routes()) .mount([basepath, "/events"].concat(), api::core_events_routes()) .mount([basepath, "/identity"].concat(), api::identity_routes()) .mount([basepath, "/icons"].concat(), api::icons_routes()) .mount([basepath, "/notifications"].concat(), api::notifications_routes()) .register([basepath, "/"].concat(), api::web_catchers()) .register([basepath, "/api"].concat(), api::core_catchers()) .register([basepath, "/admin"].concat(), api::admin_catchers()) .manage(pool) .manage(Arc::clone(&WS_USERS)) .manage(Arc::clone(&WS_ANONYMOUS_SUBSCRIPTIONS)) .attach(util::AppHeaders()) .attach(util::Cors()) .attach(util::BetterLogging(extra_debug)) .ignite() .await?; CONFIG.set_rocket_shutdown_handle(instance.shutdown()); tokio::spawn(async move { tokio::signal::ctrl_c().await.expect("Error setting Ctrl-C handler"); info!("Exiting Vaultwarden!"); CONFIG.shutdown(); }); #[cfg(unix)] { tokio::spawn(async move { let mut signal_user1 = tokio::signal::unix::signal(SignalKind::user_defined1()).unwrap(); loop { // If we need more signals to act upon, we might want to use select! here. // With only one item to listen for this is enough. let _ = signal_user1.recv().await; match backup_sqlite().await { Ok(f) => info!("Backup to '{f}' was successful"), Err(e) => error!("Backup failed. {e:?}"), } } }); } instance.launch().await?; info!("Vaultwarden process exited!"); Ok(()) } fn schedule_jobs(pool: db::DbPool) { if CONFIG.job_poll_interval_ms() == 0 { info!("Job scheduler disabled."); return; } let runtime = tokio::runtime::Runtime::new().unwrap(); thread::Builder::new() .name("job-scheduler".to_string()) .spawn(move || { use job_scheduler_ng::{Job, JobScheduler}; let _runtime_guard = runtime.enter(); let mut sched = JobScheduler::new(); // Purge sends that are past their deletion date. if !CONFIG.send_purge_schedule().is_empty() { sched.add(Job::new(CONFIG.send_purge_schedule().parse().unwrap(), || { runtime.spawn(api::purge_sends(pool.clone())); })); } // Purge trashed items that are old enough to be auto-deleted. if !CONFIG.trash_purge_schedule().is_empty() { sched.add(Job::new(CONFIG.trash_purge_schedule().parse().unwrap(), || { runtime.spawn(api::purge_trashed_ciphers(pool.clone())); })); } // Send email notifications about incomplete 2FA logins, which potentially // indicates that a user's master password has been compromised. if !CONFIG.incomplete_2fa_schedule().is_empty() { sched.add(Job::new(CONFIG.incomplete_2fa_schedule().parse().unwrap(), || { runtime.spawn(api::send_incomplete_2fa_notifications(pool.clone())); })); } // Grant emergency access requests that have met the required wait time. // This job should run before the emergency access reminders job to avoid // sending reminders for requests that are about to be granted anyway. if !CONFIG.emergency_request_timeout_schedule().is_empty() { sched.add(Job::new(CONFIG.emergency_request_timeout_schedule().parse().unwrap(), || { runtime.spawn(api::emergency_request_timeout_job(pool.clone())); })); } // Send reminders to emergency access grantors that there are pending // emergency access requests. if !CONFIG.emergency_notification_reminder_schedule().is_empty() { sched.add(Job::new(CONFIG.emergency_notification_reminder_schedule().parse().unwrap(), || { runtime.spawn(api::emergency_notification_reminder_job(pool.clone())); })); } if !CONFIG.auth_request_purge_schedule().is_empty() { sched.add(Job::new(CONFIG.auth_request_purge_schedule().parse().unwrap(), || { runtime.spawn(purge_auth_requests(pool.clone())); })); } // Clean unused, expired Duo authentication contexts. if !CONFIG.duo_context_purge_schedule().is_empty() && CONFIG._enable_duo() && !CONFIG.duo_use_iframe() { sched.add(Job::new(CONFIG.duo_context_purge_schedule().parse().unwrap(), || { runtime.spawn(purge_duo_contexts(pool.clone())); })); } // Cleanup the event table of records x days old. if CONFIG.org_events_enabled() && !CONFIG.event_cleanup_schedule().is_empty() && CONFIG.events_days_retain().is_some() { sched.add(Job::new(CONFIG.event_cleanup_schedule().parse().unwrap(), || { runtime.spawn(api::event_cleanup_job(pool.clone())); })); } // Periodically check for jobs to run. We probably won't need any // jobs that run more often than once a minute, so a default poll // interval of 30 seconds should be sufficient. Users who want to // schedule jobs to run more frequently for some reason can reduce // the poll interval accordingly. // // Note that the scheduler checks jobs in the order in which they // were added, so if two jobs are both eligible to run at a given // tick, the one that was added earlier will run first. loop { sched.tick(); runtime.block_on(tokio::time::sleep(tokio::time::Duration::from_millis(CONFIG.job_poll_interval_ms()))); } }) .expect("Error spawning job scheduler thread"); }