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// Module dependencies.
var SessionStrategy = require('./strategies/session')
, SessionManager = require('./sessionmanager');
/**
* Create a new `Authenticator` object.
*
* @public
* @class
*/
function Authenticator() {
this._key = 'passport';
this._strategies = {};
this._serializers = [];
this._deserializers = [];
this._infoTransformers = [];
this._framework = null;
this.init();
}
/**
* Initialize authenticator.
*
* Initializes the `Authenticator` instance by creating the default `{@link SessionManager}`,
* {@link Authenticator#use `use()`}'ing the default `{@link SessionStrategy}`, and
* adapting it to work as {@link https://github.com/senchalabs/connect#readme Connect}-style
* middleware, which is also compatible with {@link https://expressjs.com/ Express}.
*
* @private
*/
Authenticator.prototype.init = function() {
this.framework(require('./framework/connect')());
this.use(new SessionStrategy({ key: this._key }, this.deserializeUser.bind(this)));
this._sm = new SessionManager({ key: this._key }, this.serializeUser.bind(this));
};
/**
* Register a strategy for later use when authenticating requests. The name
* with which the strategy is registered is passed to {@link Authenticator#authenticate `authenticate()`}.
*
* @public
* @param {string} [name=strategy.name] - Name of the strategy. When specified,
* this value overrides the strategy's name.
* @param {Strategy} strategy - Authentication strategy.
* @returns {this}
*
* @example <caption>Register strategy.</caption>
* passport.use(new GoogleStrategy(...));
*
* @example <caption>Register strategy and override name.</caption>
* passport.use('password', new LocalStrategy(function(username, password, cb) {
* // ...
* }));
*/
Authenticator.prototype.use = function(name, strategy) {
if (!strategy) {
strategy = name;
name = strategy.name;
}
if (!name) { throw new Error('Authentication strategies must have a name'); }
this._strategies[name] = strategy;
return this;
};
/**
* Deregister a strategy that was previously registered with the given name.
*
* In a typical application, the necessary authentication strategies are
* registered when initializing the app and, once registered, are always
* available. As such, it is typically not necessary to call this function.
*
* @public
* @param {string} name - Name of the strategy.
* @returns {this}
*
* @example
* passport.unuse('acme');
*/
Authenticator.prototype.unuse = function(name) {
delete this._strategies[name];
return this;
};
/**
* Adapt this `Authenticator` to work with a specific framework.
*
* By default, Passport works as {@link https://github.com/senchalabs/connect#readme Connect}-style
* middleware, which makes it compatible with {@link https://expressjs.com/ Express}.
* For any app built using Express, there is no need to call this function.
*
* @public
* @param {Object} fw
* @returns {this}
*/
Authenticator.prototype.framework = function(fw) {
this._framework = fw;
return this;
};
/**
* Create initialization middleware.
*
* Returns middleware that initializes Passport to authenticate requests.
*
* As of v0.6.x, it is typically no longer necessary to use this middleware. It
* exists for compatiblity with apps built using previous versions of Passport,
* in which this middleware was necessary.
*
* The primary exception to the above guidance is when using strategies that
* depend directly on `passport@0.4.x` or earlier. These earlier versions of
* Passport monkeypatch Node.js `http.IncomingMessage` in a way that expects
* certain Passport-specific properties to be available. This middleware
* provides a compatibility layer for this situation.
*
* @public
* @param {Object} [options]
* @param {string} [options.userProperty='user'] - Determines what property on
* `req` will be set to the authenticated user object.
* @param {boolean} [options.compat=true] - When `true`, enables a compatibility
* layer for packages that depend on `passport@0.4.x` or earlier.
* @returns {function}
*
* @example
* app.use(passport.initialize());
*/
Authenticator.prototype.initialize = function(options) {
options = options || {};
return this._framework.initialize(this, options);
};
/**
* Create authentication middleware.
*
* Returns middleware that authenticates the request by applying the given
* strategy (or strategies).
*
* Examples:
*
* passport.authenticate('local', function(err, user) {
* if (!user) { return res.redirect('/login'); }
* res.end('Authenticated!');
* })(req, res);
*
* @public
* @param {string|string[]|Strategy} strategy
* @param {Object} [options]
* @param {boolean} [options.session=true]
* @param {boolean} [options.keepSessionInfo=false]
* @param {string} [options.failureRedirect]
* @param {boolean|string|Object} [options.failureFlash=false]
* @param {boolean|string} [options.failureMessage=false]
* @param {boolean|string|Object} [options.successFlash=false]
* @param {string} [options.successReturnToOrRedirect]
* @param {string} [options.successRedirect]
* @param {boolean|string} [options.successMessage=false]
* @param {boolean} [options.failWithError=false]
* @param {string} [options.assignProperty]
* @param {boolean} [options.authInfo=true]
* @param {function} [callback]
* @returns {function}
*
* @example <caption>Authenticate username and password submitted via HTML form.</caption>
* app.get('/login/password', passport.authenticate('local', { successRedirect: '/', failureRedirect: '/login' }));
*
* @example <caption>Authenticate bearer token used to access an API resource.</caption>
* app.get('/api/resource', passport.authenticate('bearer', { session: false }));
*/
Authenticator.prototype.authenticate = function(strategy, options, callback) {
return this._framework.authenticate(this, strategy, options, callback);
};
/**
* Create third-party service authorization middleware.
*
* Returns middleware that will authorize a connection to a third-party service.
*
* This middleware is identical to using {@link Authenticator#authenticate `authenticate()`}
* middleware with the `assignProperty` option set to `'account'`. This is
* useful when a user is already authenticated (for example, using a username
* and password) and they want to connect their account with a third-party
* service.
*
* In this scenario, the user's third-party account will be set at
* `req.account`, and the existing `req.user` and login session data will be
* be left unmodified. A route handler can then link the third-party account to
* the existing local account.
*
* All arguments to this function behave identically to those accepted by
* `{@link Authenticator#authenticate}`.
*
* @public
* @param {string|string[]|Strategy} strategy
* @param {Object} [options]
* @param {function} [callback]
* @returns {function}
*
* @example
* app.get('/oauth/callback/twitter', passport.authorize('twitter'));
*/
Authenticator.prototype.authorize = function(strategy, options, callback) {
options = options || {};
options.assignProperty = 'account';
var fn = this._framework.authorize || this._framework.authenticate;
return fn(this, strategy, options, callback);
};
/**
* Middleware that will restore login state from a session.
*
* Web applications typically use sessions to maintain login state between
* requests. For example, a user will authenticate by entering credentials into
* a form which is submitted to the server. If the credentials are valid, a
* login session is established by setting a cookie containing a session
* identifier in the user's web browser. The web browser will send this cookie
* in subsequent requests to the server, allowing a session to be maintained.
*
* If sessions are being utilized, and a login session has been established,
* this middleware will populate `req.user` with the current user.
*
* Note that sessions are not strictly required for Passport to operate.
* However, as a general rule, most web applications will make use of sessions.
* An exception to this rule would be an API server, which expects each HTTP
* request to provide credentials in an Authorization header.
*
* Examples:
*
* app.use(connect.cookieParser());
* app.use(connect.session({ secret: 'keyboard cat' }));
* app.use(passport.initialize());
* app.use(passport.session());
*
* Options:
* - `pauseStream` Pause the request stream before deserializing the user
* object from the session. Defaults to _false_. Should
* be set to true in cases where middleware consuming the
* request body is configured after passport and the
* deserializeUser method is asynchronous.
*
* @param {Object} options
* @return {Function} middleware
* @api public
*/
Authenticator.prototype.session = function(options) {
return this.authenticate('session', options);
};
// TODO: Make session manager pluggable
/*
Authenticator.prototype.sessionManager = function(mgr) {
this._sm = mgr;
return this;
}
*/
/**
* Registers a function used to serialize user objects into the session.
*
* Examples:
*
* passport.serializeUser(function(user, done) {
* done(null, user.id);
* });
*
* @api public
*/
Authenticator.prototype.serializeUser = function(fn, req, done) {
if (typeof fn === 'function') {
return this._serializers.push(fn);
}
// private implementation that traverses the chain of serializers, attempting
// to serialize a user
var user = fn;
// For backwards compatibility
if (typeof req === 'function') {
done = req;
req = undefined;
}
var stack = this._serializers;
(function pass(i, err, obj) {
// serializers use 'pass' as an error to skip processing
if ('pass' === err) {
err = undefined;
}
// an error or serialized object was obtained, done
if (err || obj || obj === 0) { return done(err, obj); }
var layer = stack[i];
if (!layer) {
return done(new Error('Failed to serialize user into session'));
}
function serialized(e, o) {
pass(i + 1, e, o);
}
try {
var arity = layer.length;
if (arity == 3) {
layer(req, user, serialized);
} else {
layer(user, serialized);
}
} catch(e) {
return done(e);
}
})(0);
};
/**
* Registers a function used to deserialize user objects out of the session.
*
* Examples:
*
* passport.deserializeUser(function(id, done) {
* User.findById(id, function (err, user) {
* done(err, user);
* });
* });
*
* @api public
*/
Authenticator.prototype.deserializeUser = function(fn, req, done) {
if (typeof fn === 'function') {
return this._deserializers.push(fn);
}
// private implementation that traverses the chain of deserializers,
// attempting to deserialize a user
var obj = fn;
// For backwards compatibility
if (typeof req === 'function') {
done = req;
req = undefined;
}
var stack = this._deserializers;
(function pass(i, err, user) {
// deserializers use 'pass' as an error to skip processing
if ('pass' === err) {
err = undefined;
}
// an error or deserialized user was obtained, done
if (err || user) { return done(err, user); }
// a valid user existed when establishing the session, but that user has
// since been removed
if (user === null || user === false) { return done(null, false); }
var layer = stack[i];
if (!layer) {
return done(new Error('Failed to deserialize user out of session'));
}
function deserialized(e, u) {
pass(i + 1, e, u);
}
try {
var arity = layer.length;
if (arity == 3) {
layer(req, obj, deserialized);
} else {
layer(obj, deserialized);
}
} catch(e) {
return done(e);
}
})(0);
};
/**
* Registers a function used to transform auth info.
*
* In some circumstances authorization details are contained in authentication
* credentials or loaded as part of verification.
*
* For example, when using bearer tokens for API authentication, the tokens may
* encode (either directly or indirectly in a database), details such as scope
* of access or the client to which the token was issued.
*
* Such authorization details should be enforced separately from authentication.
* Because Passport deals only with the latter, this is the responsiblity of
* middleware or routes further along the chain. However, it is not optimal to
* decode the same data or execute the same database query later. To avoid
* this, Passport accepts optional `info` along with the authenticated `user`
* in a strategy's `success()` action. This info is set at `req.authInfo`,
* where said later middlware or routes can access it.
*
* Optionally, applications can register transforms to proccess this info,
* which take effect prior to `req.authInfo` being set. This is useful, for
* example, when the info contains a client ID. The transform can load the
* client from the database and include the instance in the transformed info,
* allowing the full set of client properties to be convieniently accessed.
*
* If no transforms are registered, `info` supplied by the strategy will be left
* unmodified.
*
* Examples:
*
* passport.transformAuthInfo(function(info, done) {
* Client.findById(info.clientID, function (err, client) {
* info.client = client;
* done(err, info);
* });
* });
*
* @api public
*/
Authenticator.prototype.transformAuthInfo = function(fn, req, done) {
if (typeof fn === 'function') {
return this._infoTransformers.push(fn);
}
// private implementation that traverses the chain of transformers,
// attempting to transform auth info
var info = fn;
// For backwards compatibility
if (typeof req === 'function') {
done = req;
req = undefined;
}
var stack = this._infoTransformers;
(function pass(i, err, tinfo) {
// transformers use 'pass' as an error to skip processing
if ('pass' === err) {
err = undefined;
}
// an error or transformed info was obtained, done
if (err || tinfo) { return done(err, tinfo); }
var layer = stack[i];
if (!layer) {
// if no transformers are registered (or they all pass), the default
// behavior is to use the un-transformed info as-is
return done(null, info);
}
function transformed(e, t) {
pass(i + 1, e, t);
}
try {
var arity = layer.length;
if (arity == 1) {
// sync
var t = layer(info);
transformed(null, t);
} else if (arity == 3) {
layer(req, info, transformed);
} else {
layer(info, transformed);
}
} catch(e) {
return done(e);
}
})(0);
};
/**
* Return strategy with given `name`.
*
* @param {String} name
* @return {Strategy}
* @api private
*/
Authenticator.prototype._strategy = function(name) {
return this._strategies[name];
};
/**
* Expose `Authenticator`.
*/
module.exports = Authenticator;