//! User sessions. //! //! Actix provides a general solution for session management. The //! [**SessionStorage**](struct.SessionStorage.html) //! middleware can be used with different backend types to store session //! data in different backends. //! //! By default, only cookie session backend is implemented. Other //! backend implementations can be added. //! //! [**CookieSessionBackend**](struct.CookieSessionBackend.html) //! uses cookies as session storage. `CookieSessionBackend` creates sessions //! which are limited to storing fewer than 4000 bytes of data, as the payload //! must fit into a single cookie. An internal server error is generated if a //! session contains more than 4000 bytes. //! //! A cookie may have a security policy of *signed* or *private*. Each has //! a respective `CookieSessionBackend` constructor. //! //! A *signed* cookie may be viewed but not modified by the client. A *private* //! cookie may neither be viewed nor modified by the client. //! //! The constructors take a key as an argument. This is the private key //! for cookie session - when this value is changed, all session data is lost. //! //! In general, you create a `SessionStorage` middleware and initialize it //! with specific backend implementation, such as a `CookieSessionBackend`. //! To access session data, //! [*HttpRequest::session()*](trait.RequestSession.html#tymethod.session) //! must be used. This method returns a //! [*Session*](struct.Session.html) object, which allows us to get or set //! session data. //! //! ```rust //! # extern crate actix_web; //! use actix_web::{actix, server, App, HttpRequest, Result}; //! use actix_web::middleware::session::{RequestSession, SessionStorage, CookieSessionBackend}; //! //! fn index(req: HttpRequest) -> Result<&'static str> { //! // access session data //! if let Some(count) = req.session().get::("counter")? { //! println!("SESSION value: {}", count); //! req.session().set("counter", count+1)?; //! } else { //! req.session().set("counter", 1)?; //! } //! //! Ok("Welcome!") //! } //! //! fn main() { //! actix::System::run(|| { //! server::new( //! || App::new().middleware( //! SessionStorage::new( // <- create session middleware //! CookieSessionBackend::signed(&[0; 32]) // <- create signed cookie session backend //! .secure(false) //! ))) //! .bind("127.0.0.1:59880").unwrap() //! .start(); //! # actix::System::current().stop(); //! }); //! } //! ``` use std::cell::RefCell; use std::collections::HashMap; use std::marker::PhantomData; use std::rc::Rc; use std::sync::Arc; use cookie::{Cookie, CookieJar, Key, SameSite}; use futures::future::{err as FutErr, ok as FutOk, FutureResult}; use futures::Future; use http::header::{self, HeaderValue}; use serde::de::DeserializeOwned; use serde::Serialize; use serde_json; use serde_json::error::Error as JsonError; use time::Duration; use error::{Error, ResponseError, Result}; use handler::FromRequest; use httprequest::HttpRequest; use httpresponse::HttpResponse; use middleware::{Middleware, Response, Started}; /// The helper trait to obtain your session data from a request. /// /// ```rust /// use actix_web::middleware::session::RequestSession; /// use actix_web::*; /// /// fn index(mut req: HttpRequest) -> Result<&'static str> { /// // access session data /// if let Some(count) = req.session().get::("counter")? { /// req.session().set("counter", count + 1)?; /// } else { /// req.session().set("counter", 1)?; /// } /// /// Ok("Welcome!") /// } /// # fn main() {} /// ``` pub trait RequestSession { /// Get the session from the request fn session(&self) -> Session; } impl RequestSession for HttpRequest { fn session(&self) -> Session { if let Some(s_impl) = self.extensions().get::>() { return Session(SessionInner::Session(Arc::clone(&s_impl))); } Session(SessionInner::None) } } /// The high-level interface you use to modify session data. /// /// Session object could be obtained with /// [`RequestSession::session`](trait.RequestSession.html#tymethod.session) /// method. `RequestSession` trait is implemented for `HttpRequest`. /// /// ```rust /// use actix_web::middleware::session::RequestSession; /// use actix_web::*; /// /// fn index(mut req: HttpRequest) -> Result<&'static str> { /// // access session data /// if let Some(count) = req.session().get::("counter")? { /// req.session().set("counter", count + 1)?; /// } else { /// req.session().set("counter", 1)?; /// } /// /// Ok("Welcome!") /// } /// # fn main() {} /// ``` pub struct Session(SessionInner); enum SessionInner { Session(Arc), None, } impl Session { /// Get a `value` from the session. pub fn get(&self, key: &str) -> Result> { match self.0 { SessionInner::Session(ref sess) => { if let Some(s) = sess.as_ref().0.borrow().get(key) { Ok(Some(serde_json::from_str(s)?)) } else { Ok(None) } } SessionInner::None => Ok(None), } } /// Set a `value` from the session. pub fn set(&self, key: &str, value: T) -> Result<()> { match self.0 { SessionInner::Session(ref sess) => { sess.as_ref() .0 .borrow_mut() .set(key, serde_json::to_string(&value)?); Ok(()) } SessionInner::None => Ok(()), } } /// Remove value from the session. pub fn remove(&self, key: &str) { match self.0 { SessionInner::Session(ref sess) => sess.as_ref().0.borrow_mut().remove(key), SessionInner::None => (), } } /// Clear the session. pub fn clear(&self) { match self.0 { SessionInner::Session(ref sess) => sess.as_ref().0.borrow_mut().clear(), SessionInner::None => (), } } } /// Extractor implementation for Session type. /// /// ```rust /// # use actix_web::*; /// use actix_web::middleware::session::Session; /// /// fn index(session: Session) -> Result<&'static str> { /// // access session data /// if let Some(count) = session.get::("counter")? { /// session.set("counter", count + 1)?; /// } else { /// session.set("counter", 1)?; /// } /// /// Ok("Welcome!") /// } /// # fn main() {} /// ``` impl FromRequest for Session { type Config = (); type Result = Session; #[inline] fn from_request(req: &HttpRequest, _: &Self::Config) -> Self::Result { req.session() } } struct SessionImplCell(RefCell>); /// Session storage middleware /// /// ```rust /// # extern crate actix_web; /// use actix_web::middleware::session::{CookieSessionBackend, SessionStorage}; /// use actix_web::App; /// /// fn main() { /// let app = App::new().middleware(SessionStorage::new( /// // <- create session middleware /// CookieSessionBackend::signed(&[0; 32]) // <- create cookie session backend /// .secure(false), /// )); /// } /// ``` pub struct SessionStorage(T, PhantomData); impl> SessionStorage { /// Create session storage pub fn new(backend: T) -> SessionStorage { SessionStorage(backend, PhantomData) } } impl> Middleware for SessionStorage { fn start(&self, req: &HttpRequest) -> Result { let mut req = req.clone(); let fut = self.0.from_request(&mut req).then(move |res| match res { Ok(sess) => { req.extensions_mut() .insert(Arc::new(SessionImplCell(RefCell::new(Box::new(sess))))); FutOk(None) } Err(err) => FutErr(err), }); Ok(Started::Future(Box::new(fut))) } fn response(&self, req: &HttpRequest, resp: HttpResponse) -> Result { if let Some(s_box) = req.extensions().get::>() { s_box.0.borrow_mut().write(resp) } else { Ok(Response::Done(resp)) } } } /// A simple key-value storage interface that is internally used by `Session`. pub trait SessionImpl: 'static { /// Get session value by key fn get(&self, key: &str) -> Option<&str>; /// Set session value fn set(&mut self, key: &str, value: String); /// Remove specific key from session fn remove(&mut self, key: &str); /// Remove all values from session fn clear(&mut self); /// Write session to storage backend. fn write(&self, resp: HttpResponse) -> Result; } /// Session's storage backend trait definition. pub trait SessionBackend: Sized + 'static { /// Session item type Session: SessionImpl; /// Future that reads session type ReadFuture: Future; /// Parse the session from request and load data from a storage backend. fn from_request(&self, request: &mut HttpRequest) -> Self::ReadFuture; } /// Session that uses signed cookies as session storage pub struct CookieSession { changed: bool, state: HashMap, inner: Rc, } /// Errors that can occur during handling cookie session #[derive(Fail, Debug)] pub enum CookieSessionError { /// Size of the serialized session is greater than 4000 bytes. #[fail(display = "Size of the serialized session is greater than 4000 bytes.")] Overflow, /// Fail to serialize session. #[fail(display = "Fail to serialize session")] Serialize(JsonError), } impl ResponseError for CookieSessionError {} impl SessionImpl for CookieSession { fn get(&self, key: &str) -> Option<&str> { if let Some(s) = self.state.get(key) { Some(s) } else { None } } fn set(&mut self, key: &str, value: String) { self.changed = true; self.state.insert(key.to_owned(), value); } fn remove(&mut self, key: &str) { self.changed = true; self.state.remove(key); } fn clear(&mut self) { self.changed = true; self.state.clear() } fn write(&self, mut resp: HttpResponse) -> Result { if self.changed { let _ = self.inner.set_cookie(&mut resp, &self.state); } Ok(Response::Done(resp)) } } enum CookieSecurity { Signed, Private, } struct CookieSessionInner { key: Key, security: CookieSecurity, name: String, path: String, domain: Option, secure: bool, http_only: bool, max_age: Option, same_site: Option, } impl CookieSessionInner { fn new(key: &[u8], security: CookieSecurity) -> CookieSessionInner { CookieSessionInner { security, key: Key::from_master(key), name: "actix-session".to_owned(), path: "/".to_owned(), domain: None, secure: true, http_only: true, max_age: None, same_site: None, } } fn set_cookie( &self, resp: &mut HttpResponse, state: &HashMap, ) -> Result<()> { let value = serde_json::to_string(&state).map_err(CookieSessionError::Serialize)?; if value.len() > 4064 { return Err(CookieSessionError::Overflow.into()); } let mut cookie = Cookie::new(self.name.clone(), value); cookie.set_path(self.path.clone()); cookie.set_secure(self.secure); cookie.set_http_only(self.http_only); if let Some(ref domain) = self.domain { cookie.set_domain(domain.clone()); } if let Some(max_age) = self.max_age { cookie.set_max_age(max_age); } if let Some(same_site) = self.same_site { cookie.set_same_site(same_site); } let mut jar = CookieJar::new(); match self.security { CookieSecurity::Signed => jar.signed(&self.key).add(cookie), CookieSecurity::Private => jar.private(&self.key).add(cookie), } for cookie in jar.delta() { let val = HeaderValue::from_str(&cookie.encoded().to_string())?; resp.headers_mut().append(header::SET_COOKIE, val); } Ok(()) } fn load(&self, req: &mut HttpRequest) -> HashMap { if let Ok(cookies) = req.cookies() { for cookie in cookies.iter() { if cookie.name() == self.name { let mut jar = CookieJar::new(); jar.add_original(cookie.clone()); let cookie_opt = match self.security { CookieSecurity::Signed => jar.signed(&self.key).get(&self.name), CookieSecurity::Private => { jar.private(&self.key).get(&self.name) } }; if let Some(cookie) = cookie_opt { if let Ok(val) = serde_json::from_str(cookie.value()) { return val; } } } } } HashMap::new() } } /// Use cookies for session storage. /// /// `CookieSessionBackend` creates sessions which are limited to storing /// fewer than 4000 bytes of data (as the payload must fit into a single /// cookie). An Internal Server Error is generated if the session contains more /// than 4000 bytes. /// /// A cookie may have a security policy of *signed* or *private*. Each has a /// respective `CookieSessionBackend` constructor. /// /// A *signed* cookie is stored on the client as plaintext alongside /// a signature such that the cookie may be viewed but not modified by the /// client. /// /// A *private* cookie is stored on the client as encrypted text /// such that it may neither be viewed nor modified by the client. /// /// The constructors take a key as an argument. /// This is the private key for cookie session - when this value is changed, /// all session data is lost. The constructors will panic if the key is less /// than 32 bytes in length. /// /// The backend relies on `cookie` crate to create and read cookies. /// By default all cookies are percent encoded, but certain symbols may /// cause troubles when reading cookie, if they are not properly percent encoded. /// /// # Example /// /// ```rust /// # extern crate actix_web; /// use actix_web::middleware::session::CookieSessionBackend; /// /// # fn main() { /// let backend: CookieSessionBackend = CookieSessionBackend::signed(&[0; 32]) /// .domain("www.rust-lang.org") /// .name("actix_session") /// .path("/") /// .secure(true); /// # } /// ``` pub struct CookieSessionBackend(Rc); impl CookieSessionBackend { /// Construct new *signed* `CookieSessionBackend` instance. /// /// Panics if key length is less than 32 bytes. pub fn signed(key: &[u8]) -> CookieSessionBackend { CookieSessionBackend(Rc::new(CookieSessionInner::new( key, CookieSecurity::Signed, ))) } /// Construct new *private* `CookieSessionBackend` instance. /// /// Panics if key length is less than 32 bytes. pub fn private(key: &[u8]) -> CookieSessionBackend { CookieSessionBackend(Rc::new(CookieSessionInner::new( key, CookieSecurity::Private, ))) } /// Sets the `path` field in the session cookie being built. pub fn path>(mut self, value: S) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().path = value.into(); self } /// Sets the `name` field in the session cookie being built. pub fn name>(mut self, value: S) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().name = value.into(); self } /// Sets the `domain` field in the session cookie being built. pub fn domain>(mut self, value: S) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().domain = Some(value.into()); self } /// Sets the `secure` field in the session cookie being built. /// /// If the `secure` field is set, a cookie will only be transmitted when the /// connection is secure - i.e. `https` pub fn secure(mut self, value: bool) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().secure = value; self } /// Sets the `http_only` field in the session cookie being built. pub fn http_only(mut self, value: bool) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().http_only = value; self } /// Sets the `same_site` field in the session cookie being built. pub fn same_site(mut self, value: SameSite) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().same_site = Some(value); self } /// Sets the `max-age` field in the session cookie being built. pub fn max_age(mut self, value: Duration) -> CookieSessionBackend { Rc::get_mut(&mut self.0).unwrap().max_age = Some(value); self } } impl SessionBackend for CookieSessionBackend { type Session = CookieSession; type ReadFuture = FutureResult; fn from_request(&self, req: &mut HttpRequest) -> Self::ReadFuture { let state = self.0.load(req); FutOk(CookieSession { changed: false, inner: Rc::clone(&self.0), state, }) } } #[cfg(test)] mod tests { use super::*; use application::App; use test; #[test] fn cookie_session() { let mut srv = test::TestServer::with_factory(|| { App::new() .middleware(SessionStorage::new( CookieSessionBackend::signed(&[0; 32]).secure(false), )).resource("/", |r| { r.f(|req| { let _ = req.session().set("counter", 100); "test" }) }) }); let request = srv.get().uri(srv.url("/")).finish().unwrap(); let response = srv.execute(request.send()).unwrap(); assert!(response.cookie("actix-session").is_some()); } #[test] fn cookie_session_extractor() { let mut srv = test::TestServer::with_factory(|| { App::new() .middleware(SessionStorage::new( CookieSessionBackend::signed(&[0; 32]).secure(false), )).resource("/", |r| { r.with(|ses: Session| { let _ = ses.set("counter", 100); "test" }) }) }); let request = srv.get().uri(srv.url("/")).finish().unwrap(); let response = srv.execute(request.send()).unwrap(); assert!(response.cookie("actix-session").is_some()); } }