loopback/common/models/user.js

1427 lines
48 KiB
JavaScript

// Copyright IBM Corp. 2014,2019. All Rights Reserved.
// Node module: loopback
// This file is licensed under the MIT License.
// License text available at https://opensource.org/licenses/MIT
/*!
* Module Dependencies.
*/
'use strict';
var g = require('../../lib/globalize');
var isEmail = require('isemail');
var loopback = require('../../lib/loopback');
var utils = require('../../lib/utils');
var path = require('path');
var qs = require('querystring');
var SALT_WORK_FACTOR = 10;
var crypto = require('crypto');
// bcrypt's max length is 72 bytes;
// See https://github.com/kelektiv/node.bcrypt.js/blob/45f498ef6dc6e8234e58e07834ce06a50ff16352/src/node_blf.h#L59
var MAX_PASSWORD_LENGTH = 72;
var bcrypt;
try {
// Try the native module first
bcrypt = require('bcrypt');
// Browserify returns an empty object
if (bcrypt && typeof bcrypt.compare !== 'function') {
bcrypt = require('bcryptjs');
}
} catch (err) {
// Fall back to pure JS impl
bcrypt = require('bcryptjs');
}
var DEFAULT_TTL = 1209600; // 2 weeks in seconds
var DEFAULT_RESET_PW_TTL = 15 * 60; // 15 mins in seconds
var DEFAULT_MAX_TTL = 31556926; // 1 year in seconds
var assert = require('assert');
var debug = require('debug')('loopback:user');
/**
* Built-in User model.
* Extends LoopBack [PersistedModel](#persistedmodel-new-persistedmodel).
*
* Default `User` ACLs.
*
* - DENY EVERYONE `*`
* - ALLOW EVERYONE `create`
* - ALLOW OWNER `deleteById`
* - ALLOW EVERYONE `login`
* - ALLOW EVERYONE `logout`
* - ALLOW OWNER `findById`
* - ALLOW OWNER `updateAttributes`
*
* @property {String} username Must be unique.
* @property {String} password Hidden from remote clients.
* @property {String} email Must be valid email.
* @property {Boolean} emailVerified Set when a user's email has been verified via `confirm()`.
* @property {String} verificationToken Set when `verify()` is called.
* @property {String} realm The namespace the user belongs to. See [Partitioning users with realms](http://loopback.io/doc/en/lb2/Partitioning-users-with-realms.html) for details.
* @property {Object} settings Extends the `Model.settings` object.
* @property {Boolean} settings.emailVerificationRequired Require the email verification
* process before allowing a login.
* @property {Number} settings.ttl Default time to live (in seconds) for the `AccessToken` created by `User.login() / user.createAccessToken()`.
* Default is `1209600` (2 weeks)
* @property {Number} settings.maxTTL The max value a user can request a token to be alive / valid for.
* Default is `31556926` (1 year)
* @property {Boolean} settings.realmRequired Require a realm when logging in a user.
* @property {String} settings.realmDelimiter When set a realm is required.
* @property {Number} settings.resetPasswordTokenTTL Time to live for password reset `AccessToken`. Default is `900` (15 minutes).
* @property {Number} settings.saltWorkFactor The `bcrypt` salt work factor. Default is `10`.
* @property {Boolean} settings.caseSensitiveEmail Enable case sensitive email.
*
* @class User
* @inherits {PersistedModel}
*/
module.exports = function(User) {
/**
* Create access token for the logged in user. This method can be overridden to
* customize how access tokens are generated
*
* Supported flavours:
*
* ```js
* createAccessToken(ttl, cb)
* createAccessToken(ttl, options, cb);
* createAccessToken(options, cb);
* // recent addition:
* createAccessToken(data, options, cb);
* ```
*
* @options {Number|Object} [ttl|data] Either the requested ttl,
* or an object with token properties to set (see below).
* @property {Number} [ttl] The requested ttl
* @property {String[]} [scopes] The access scopes granted to the token.
* @param {Object} [options] Additional options including remoting context
* @callback {Function} cb The callback function
* @param {String|Error} err The error string or object
* @param {AccessToken} token The generated access token object
* @promise
*
*/
User.prototype.createAccessToken = function(ttl, options, cb) {
if (cb === undefined && typeof options === 'function') {
// createAccessToken(ttl, cb)
cb = options;
options = undefined;
}
cb = cb || utils.createPromiseCallback();
let tokenData;
if (typeof ttl !== 'object') {
// createAccessToken(ttl[, options], cb)
tokenData = {ttl};
} else if (options) {
// createAccessToken(data, options, cb)
tokenData = ttl;
} else {
// createAccessToken(options, cb);
tokenData = {};
}
var userSettings = this.constructor.settings;
tokenData.ttl = Math.min(tokenData.ttl || userSettings.ttl, userSettings.maxTTL);
this.accessTokens.create(tokenData, options, cb);
return cb.promise;
};
function splitPrincipal(name, realmDelimiter) {
var parts = [null, name];
if (!realmDelimiter) {
return parts;
}
var index = name.indexOf(realmDelimiter);
if (index !== -1) {
parts[0] = name.substring(0, index);
parts[1] = name.substring(index + realmDelimiter.length);
}
return parts;
}
/**
* Normalize the credentials
* @param {Object} credentials The credential object
* @param {Boolean} realmRequired
* @param {String} realmDelimiter The realm delimiter, if not set, no realm is needed
* @returns {Object} The normalized credential object
*/
User.normalizeCredentials = function(credentials, realmRequired, realmDelimiter) {
var query = {};
credentials = credentials || {};
if (!realmRequired) {
if (credentials.email) {
query.email = credentials.email;
} else if (credentials.username) {
query.username = credentials.username;
}
} else {
if (credentials.realm) {
query.realm = credentials.realm;
}
var parts;
if (credentials.email) {
parts = splitPrincipal(credentials.email, realmDelimiter);
query.email = parts[1];
if (parts[0]) {
query.realm = parts[0];
}
} else if (credentials.username) {
parts = splitPrincipal(credentials.username, realmDelimiter);
query.username = parts[1];
if (parts[0]) {
query.realm = parts[0];
}
}
}
return query;
};
/**
* Login a user by with the given `credentials`.
*
* ```js
* User.login({username: 'foo', password: 'bar'}, function (err, token) {
* console.log(token.id);
* });
* ```
*
* If the `emailVerificationRequired` flag is set for the inherited user model
* and the email has not yet been verified then the method will return a 401
* error that will contain the user's id. This id can be used to call the
* `api/verify` remote method to generate a new email verification token and
* send back the related email to the user.
*
* @param {Object} credentials username/password or email/password
* @param {String[]|String} [include] Optionally set it to "user" to include
* the user info
* @callback {Function} callback Callback function
* @param {Error} err Error object
* @param {AccessToken} token Access token if login is successful
* @promise
*/
User.login = function(credentials, include, fn) {
var self = this;
if (typeof include === 'function') {
fn = include;
include = undefined;
}
fn = fn || utils.createPromiseCallback();
include = (include || '');
if (Array.isArray(include)) {
include = include.map(function(val) {
return val.toLowerCase();
});
} else {
include = include.toLowerCase();
}
var realmDelimiter;
// Check if realm is required
var realmRequired = !!(self.settings.realmRequired ||
self.settings.realmDelimiter);
if (realmRequired) {
realmDelimiter = self.settings.realmDelimiter;
}
var query = self.normalizeCredentials(credentials, realmRequired,
realmDelimiter);
if (realmRequired && !query.realm) {
var err1 = new Error(g.f('{{realm}} is required'));
err1.statusCode = 400;
err1.code = 'REALM_REQUIRED';
fn(err1);
return fn.promise;
}
if (!query.email && !query.username) {
var err2 = new Error(g.f('{{username}} or {{email}} is required'));
err2.statusCode = 400;
err2.code = 'USERNAME_EMAIL_REQUIRED';
fn(err2);
return fn.promise;
}
self.findOne({where: query}, function(err, user) {
var defaultError = new Error(g.f('login failed'));
defaultError.statusCode = 401;
defaultError.code = 'LOGIN_FAILED';
function tokenHandler(err, token) {
if (err) return fn(err);
if (Array.isArray(include) ? include.indexOf('user') !== -1 : include === 'user') {
// NOTE(bajtos) We can't set token.user here:
// 1. token.user already exists, it's a function injected by
// "AccessToken belongsTo User" relation
// 2. ModelBaseClass.toJSON() ignores own properties, thus
// the value won't be included in the HTTP response
// See also loopback#161 and loopback#162
token.__data.user = user;
}
fn(err, token);
}
if (err) {
debug('An error is reported from User.findOne: %j', err);
fn(defaultError);
} else if (user) {
user.hasPassword(credentials.password, function(err, isMatch) {
if (err) {
debug('An error is reported from User.hasPassword: %j', err);
fn(defaultError);
} else if (isMatch) {
if (self.settings.emailVerificationRequired && !user.emailVerified) {
// Fail to log in if email verification is not done yet
debug('User email has not been verified');
err = new Error(g.f('login failed as the email has not been verified'));
err.statusCode = 401;
err.code = 'LOGIN_FAILED_EMAIL_NOT_VERIFIED';
err.details = {
userId: user.id,
};
fn(err);
} else {
if (user.createAccessToken.length === 2) {
user.createAccessToken(credentials.ttl, tokenHandler);
} else {
user.createAccessToken(credentials.ttl, credentials, tokenHandler);
}
}
} else {
debug('The password is invalid for user %s', query.email || query.username);
fn(defaultError);
}
});
} else {
debug('No matching record is found for user %s', query.email || query.username);
fn(defaultError);
}
});
return fn.promise;
};
/**
* Logout a user with the given accessToken id.
*
* ```js
* User.logout('asd0a9f8dsj9s0s3223mk', function (err) {
* console.log(err || 'Logged out');
* });
* ```
*
* @param {String} accessTokenID
* @callback {Function} callback
* @param {Error} err
* @promise
*/
User.logout = function(tokenId, fn) {
fn = fn || utils.createPromiseCallback();
var err;
if (!tokenId) {
err = new Error(g.f('{{accessToken}} is required to logout'));
err.statusCode = 401;
process.nextTick(fn, err);
return fn.promise;
}
this.relations.accessTokens.modelTo.destroyById(tokenId, function(err, info) {
if (err) {
fn(err);
} else if ('count' in info && info.count === 0) {
err = new Error(g.f('Could not find {{accessToken}}'));
err.statusCode = 401;
fn(err);
} else {
fn();
}
});
return fn.promise;
};
User.observe('before delete', function(ctx, next) {
// Do nothing when the access control was disabled for this user model.
if (!ctx.Model.relations.accessTokens) return next();
var AccessToken = ctx.Model.relations.accessTokens.modelTo;
var pkName = ctx.Model.definition.idName() || 'id';
ctx.Model.find({where: ctx.where, fields: [pkName]}, function(err, list) {
if (err) return next(err);
var ids = list.map(function(u) { return u[pkName]; });
ctx.where = {};
ctx.where[pkName] = {inq: ids};
AccessToken.destroyAll({userId: {inq: ids}}, next);
});
});
/**
* Compare the given `password` with the users hashed password.
*
* @param {String} password The plain text password
* @callback {Function} callback Callback function
* @param {Error} err Error object
* @param {Boolean} isMatch Returns true if the given `password` matches record
* @promise
*/
User.prototype.hasPassword = function(plain, fn) {
fn = fn || utils.createPromiseCallback();
if (this.password && plain) {
bcrypt.compare(plain, this.password, function(err, isMatch) {
if (err) return fn(err);
fn(null, isMatch);
});
} else {
fn(null, false);
}
return fn.promise;
};
/**
* Change this user's password.
*
* @param {*} userId Id of the user changing the password
* @param {string} oldPassword Current password, required in order
* to strongly verify the identity of the requesting user
* @param {string} newPassword The new password to use.
* @param {object} [options]
* @callback {Function} callback
* @param {Error} err Error object
* @promise
*/
User.changePassword = function(userId, oldPassword, newPassword, options, cb) {
if (cb === undefined && typeof options === 'function') {
cb = options;
options = undefined;
}
cb = cb || utils.createPromiseCallback();
// Make sure to use the constructor of the (sub)class
// where the method is invoked from (`this` instead of `User`)
this.findById(userId, options, (err, inst) => {
if (err) return cb(err);
if (!inst) {
const err = new Error(`User ${userId} not found`);
Object.assign(err, {
code: 'USER_NOT_FOUND',
statusCode: 401,
});
return cb(err);
}
inst.changePassword(oldPassword, newPassword, options, cb);
});
return cb.promise;
};
/**
* Change this user's password (prototype/instance version).
*
* @param {string} oldPassword Current password, required in order
* to strongly verify the identity of the requesting user
* @param {string} newPassword The new password to use.
* @param {object} [options]
* @callback {Function} callback
* @param {Error} err Error object
* @promise
*/
User.prototype.changePassword = function(oldPassword, newPassword, options, cb) {
if (cb === undefined && typeof options === 'function') {
cb = options;
options = undefined;
}
cb = cb || utils.createPromiseCallback();
this.hasPassword(oldPassword, (err, isMatch) => {
if (err) return cb(err);
if (!isMatch) {
const err = new Error('Invalid current password');
Object.assign(err, {
code: 'INVALID_PASSWORD',
statusCode: 400,
});
return cb(err);
}
this.setPassword(newPassword, options, cb);
});
return cb.promise;
};
/**
* Set this user's password after a password-reset request was made.
*
* @param {*} userId Id of the user changing the password
* @param {string} newPassword The new password to use.
* @param {Object} [options] Additional options including remoting context
* @callback {Function} callback
* @param {Error} err Error object
* @promise
*/
User.setPassword = function(userId, newPassword, options, cb) {
assert(userId != null && userId !== '', 'userId is a required argument');
assert(!!newPassword, 'newPassword is a required argument');
if (cb === undefined && typeof options === 'function') {
cb = options;
options = undefined;
}
cb = cb || utils.createPromiseCallback();
// Make sure to use the constructor of the (sub)class
// where the method is invoked from (`this` instead of `User`)
this.findById(userId, options, (err, inst) => {
if (err) return cb(err);
if (!inst) {
const err = new Error(`User ${userId} not found`);
Object.assign(err, {
code: 'USER_NOT_FOUND',
statusCode: 401,
});
return cb(err);
}
inst.setPassword(newPassword, options, cb);
});
return cb.promise;
};
/**
* Set this user's password. The callers of this method
* must ensure the client making the request is authorized
* to change the password, typically by providing the correct
* current password or a password-reset token.
*
* @param {string} newPassword The new password to use.
* @param {Object} [options] Additional options including remoting context
* @callback {Function} callback
* @param {Error} err Error object
* @promise
*/
User.prototype.setPassword = function(newPassword, options, cb) {
assert(!!newPassword, 'newPassword is a required argument');
if (cb === undefined && typeof options === 'function') {
cb = options;
options = undefined;
}
cb = cb || utils.createPromiseCallback();
try {
this.constructor.validatePassword(newPassword);
} catch (err) {
cb(err);
return cb.promise;
}
// We need to modify options passed to patchAttributes, but we don't want
// to modify the original options object passed to us by setPassword caller
options = Object.assign({}, options);
// patchAttributes() does not allow callers to modify the password property
// unless "options.setPassword" is set.
options.setPassword = true;
const delta = {password: newPassword};
this.patchAttributes(delta, options, (err, updated) => cb(err));
return cb.promise;
};
/**
* Returns default verification options to use when calling User.prototype.verify()
* from remote method /user/:id/verify.
*
* NOTE: the User.getVerifyOptions() method can also be used to ease the
* building of identity verification options.
*
* ```js
* var verifyOptions = MyUser.getVerifyOptions();
* user.verify(verifyOptions);
* ```
*
* This is the full list of possible params, with example values
*
* ```js
* {
* type: 'email',
* mailer: {
* send(verifyOptions, options, cb) {
* // send the email
* cb(err, result);
* }
* },
* to: 'test@email.com',
* from: 'noreply@email.com'
* subject: 'verification email subject',
* text: 'Please verify your email by opening this link in a web browser',
* headers: {'Mime-Version': '1.0'},
* template: 'path/to/template.ejs',
* templateFn: function(verifyOptions, options, cb) {
* cb(null, 'some body template');
* }
* redirect: '/',
* verifyHref: 'http://localhost:3000/api/user/confirm',
* host: 'localhost'
* protocol: 'http'
* port: 3000,
* restApiRoot= '/api',
* generateVerificationToken: function (user, options, cb) {
* cb(null, 'random-token');
* }
* }
* ```
*
* NOTE: param `to` internally defaults to user's email but can be overriden for
* test purposes or advanced customization.
*
* Static default params can be modified in your custom user model json definition
* using `settings.verifyOptions`. Any default param can be programmatically modified
* like follows:
*
* ```js
* customUserModel.getVerifyOptions = function() {
* const base = MyUser.base.getVerifyOptions();
* return Object.assign({}, base, {
* // custom values
* });
* }
* ```
*
* Usually you should only require to modify a subset of these params
* See `User.verify()` and `User.prototype.verify()` doc for params reference
* and their default values.
*/
User.getVerifyOptions = function() {
const defaultOptions = {
type: 'email',
from: 'noreply@example.com',
};
return Object.assign({}, this.settings.verifyOptions || defaultOptions);
};
/**
* Verify a user's identity by sending them a confirmation message.
* NOTE: Currently only email verification is supported
*
* ```js
* var verifyOptions = {
* type: 'email',
* from: 'noreply@example.com'
* template: 'verify.ejs',
* redirect: '/',
* generateVerificationToken: function (user, options, cb) {
* cb('random-token');
* }
* };
*
* user.verify(verifyOptions);
* ```
*
* NOTE: the User.getVerifyOptions() method can also be used to ease the
* building of identity verification options.
*
* ```js
* var verifyOptions = MyUser.getVerifyOptions();
* user.verify(verifyOptions);
* ```
*
* @options {Object} verifyOptions
* @property {String} type Must be `'email'` in the current implementation.
* @property {Function} mailer A mailer function with a static `.send() method.
* The `.send()` method must accept the verifyOptions object, the method's
* remoting context options object and a callback function with `(err, email)`
* as parameters.
* Defaults to provided `userModel.email` function, or ultimately to LoopBack's
* own mailer function.
* @property {String} to Email address to which verification email is sent.
* Defaults to user's email. Can also be overriden to a static value for test
* purposes.
* @property {String} from Sender email address
* For example `'noreply@example.com'`.
* @property {String} subject Subject line text.
* Defaults to `'Thanks for Registering'` or a local equivalent.
* @property {String} text Text of email.
* Defaults to `'Please verify your email by opening this link in a web browser:`
* followed by the verify link.
* @property {Object} headers Email headers. None provided by default.
* @property {String} template Relative path of template that displays verification
* page. Defaults to `'../../templates/verify.ejs'`.
* @property {Function} templateFn A function generating the email HTML body
* from `verify()` options object and generated attributes like `options.verifyHref`.
* It must accept the verifyOptions object, the method's remoting context options
* object and a callback function with `(err, html)` as parameters.
* A default templateFn function is provided, see `createVerificationEmailBody()`
* for implementation details.
* @property {String} redirect Page to which user will be redirected after
* they verify their email. Defaults to `'/'`.
* @property {String} verifyHref The link to include in the user's verify message.
* Defaults to an url analog to:
* `http://host:port/restApiRoot/userRestPath/confirm?uid=userId&redirect=/``
* @property {String} host The API host. Defaults to app's host or `localhost`.
* @property {String} protocol The API protocol. Defaults to `'http'`.
* @property {Number} port The API port. Defaults to app's port or `3000`.
* @property {String} restApiRoot The API root path. Defaults to app's restApiRoot
* or `'/api'`
* @property {Function} generateVerificationToken A function to be used to
* generate the verification token.
* It must accept the verifyOptions object, the method's remoting context options
* object and a callback function with `(err, hexStringBuffer)` as parameters.
* This function should NOT add the token to the user object, instead simply
* execute the callback with the token! User saving and email sending will be
* handled in the `verify()` method.
* A default token generation function is provided, see `generateVerificationToken()`
* for implementation details.
* @callback {Function} cb Callback function.
* @param {Object} options remote context options.
* @param {Error} err Error object.
* @param {Object} object Contains email, token, uid.
* @promise
*/
User.prototype.verify = function(verifyOptions, options, cb) {
if (cb === undefined && typeof options === 'function') {
cb = options;
options = undefined;
}
cb = cb || utils.createPromiseCallback();
var user = this;
var userModel = this.constructor;
var registry = userModel.registry;
verifyOptions = Object.assign({}, verifyOptions);
// final assertion is performed once all options are assigned
assert(typeof verifyOptions === 'object',
'verifyOptions object param required when calling user.verify()');
// Shallow-clone the options object so that we don't override
// the global default options object
verifyOptions = Object.assign({}, verifyOptions);
// Set a default template generation function if none provided
verifyOptions.templateFn = verifyOptions.templateFn || createVerificationEmailBody;
// Set a default token generation function if none provided
verifyOptions.generateVerificationToken = verifyOptions.generateVerificationToken ||
User.generateVerificationToken;
// Set a default mailer function if none provided
verifyOptions.mailer = verifyOptions.mailer || userModel.email ||
registry.getModelByType(loopback.Email);
var pkName = userModel.definition.idName() || 'id';
verifyOptions.redirect = verifyOptions.redirect || '/';
var defaultTemplate = path.join(__dirname, '..', '..', 'templates', 'verify.ejs');
verifyOptions.template = path.resolve(verifyOptions.template || defaultTemplate);
verifyOptions.user = user;
verifyOptions.protocol = verifyOptions.protocol || 'http';
var app = userModel.app;
verifyOptions.host = verifyOptions.host || (app && app.get('host')) || 'localhost';
verifyOptions.port = verifyOptions.port || (app && app.get('port')) || 3000;
verifyOptions.restApiRoot = verifyOptions.restApiRoot || (app && app.get('restApiRoot')) || '/api';
var displayPort = (
(verifyOptions.protocol === 'http' && verifyOptions.port == '80') ||
(verifyOptions.protocol === 'https' && verifyOptions.port == '443')
) ? '' : ':' + verifyOptions.port;
if (!verifyOptions.verifyHref) {
const confirmMethod = userModel.sharedClass.findMethodByName('confirm');
if (!confirmMethod) {
throw new Error(
'Cannot build user verification URL, ' +
'the default confirm method is not public. ' +
'Please provide the URL in verifyOptions.verifyHref.'
);
}
const urlPath = joinUrlPath(
verifyOptions.restApiRoot,
userModel.http.path,
confirmMethod.http.path
);
verifyOptions.verifyHref =
verifyOptions.protocol +
'://' +
verifyOptions.host +
displayPort +
urlPath +
'?' + qs.stringify({
uid: '' + verifyOptions.user[pkName],
redirect: verifyOptions.redirect,
});
}
verifyOptions.to = verifyOptions.to || user.email;
verifyOptions.subject = verifyOptions.subject || g.f('Thanks for Registering');
verifyOptions.headers = verifyOptions.headers || {};
// assert the verifyOptions params that might have been badly defined
assertVerifyOptions(verifyOptions);
// argument "options" is passed depending on verifyOptions.generateVerificationToken function requirements
var tokenGenerator = verifyOptions.generateVerificationToken;
if (tokenGenerator.length == 3) {
tokenGenerator(user, options, addTokenToUserAndSave);
} else {
tokenGenerator(user, addTokenToUserAndSave);
}
function addTokenToUserAndSave(err, token) {
if (err) return cb(err);
user.verificationToken = token;
user.save(options, function(err) {
if (err) return cb(err);
sendEmail(user);
});
}
// TODO - support more verification types
function sendEmail(user) {
verifyOptions.verifyHref +=
verifyOptions.verifyHref.indexOf('?') === -1 ? '?' : '&';
verifyOptions.verifyHref += 'token=' + user.verificationToken;
verifyOptions.verificationToken = user.verificationToken;
verifyOptions.text = verifyOptions.text || g.f('Please verify your email by opening ' +
'this link in a web browser:\n\t%s', verifyOptions.verifyHref);
verifyOptions.text = verifyOptions.text.replace(/\{href\}/g, verifyOptions.verifyHref);
// argument "options" is passed depending on templateFn function requirements
var templateFn = verifyOptions.templateFn;
if (templateFn.length == 3) {
templateFn(verifyOptions, options, setHtmlContentAndSend);
} else {
templateFn(verifyOptions, setHtmlContentAndSend);
}
function setHtmlContentAndSend(err, html) {
if (err) return cb(err);
verifyOptions.html = html;
// Remove verifyOptions.template to prevent rejection by certain
// nodemailer transport plugins.
delete verifyOptions.template;
// argument "options" is passed depending on Email.send function requirements
var Email = verifyOptions.mailer;
if (Email.send.length == 3) {
Email.send(verifyOptions, options, handleAfterSend);
} else {
Email.send(verifyOptions, handleAfterSend);
}
function handleAfterSend(err, email) {
if (err) return cb(err);
cb(null, {email: email, token: user.verificationToken, uid: user[pkName]});
}
}
}
return cb.promise;
};
function assertVerifyOptions(verifyOptions) {
assert(verifyOptions.type, 'You must supply a verification type (verifyOptions.type)');
assert(verifyOptions.type === 'email', 'Unsupported verification type');
assert(verifyOptions.to, 'Must include verifyOptions.to when calling user.verify() ' +
'or the user must have an email property');
assert(verifyOptions.from, 'Must include verifyOptions.from when calling user.verify()');
assert(typeof verifyOptions.templateFn === 'function',
'templateFn must be a function');
assert(typeof verifyOptions.generateVerificationToken === 'function',
'generateVerificationToken must be a function');
assert(verifyOptions.mailer, 'A mailer function must be provided');
assert(typeof verifyOptions.mailer.send === 'function', 'mailer.send must be a function ');
}
function createVerificationEmailBody(verifyOptions, options, cb) {
var template = loopback.template(verifyOptions.template);
var body = template(verifyOptions);
cb(null, body);
}
/**
* A default verification token generator which accepts the user the token is
* being generated for and a callback function to indicate completion.
* This one uses the crypto library and 64 random bytes (converted to hex)
* for the token. When used in combination with the user.verify() method this
* function will be called with the `user` object as it's context (`this`).
*
* @param {object} user The User this token is being generated for.
* @param {object} options remote context options.
* @param {Function} cb The generator must pass back the new token with this function call.
*/
User.generateVerificationToken = function(user, options, cb) {
crypto.randomBytes(64, function(err, buf) {
cb(err, buf && buf.toString('hex'));
});
};
/**
* Confirm the user's identity.
*
* @param {Any} userId
* @param {String} token The validation token
* @param {String} redirect URL to redirect the user to once confirmed
* @callback {Function} callback
* @param {Error} err
* @promise
*/
User.confirm = function(uid, token, redirect, fn) {
fn = fn || utils.createPromiseCallback();
this.findById(uid, function(err, user) {
if (err) {
fn(err);
} else {
if (user && user.verificationToken === token) {
user.verificationToken = null;
user.emailVerified = true;
user.save(function(err) {
if (err) {
fn(err);
} else {
fn();
}
});
} else {
if (user) {
err = new Error(g.f('Invalid token: %s', token));
err.statusCode = 400;
err.code = 'INVALID_TOKEN';
} else {
err = new Error(g.f('User not found: %s', uid));
err.statusCode = 404;
err.code = 'USER_NOT_FOUND';
}
fn(err);
}
}
});
return fn.promise;
};
/**
* Create a short lived access token for temporary login. Allows users
* to change passwords if forgotten.
*
* @options {Object} options
* @prop {String} email The user's email address
* @property {String} realm The user's realm (optional)
* @callback {Function} callback
* @param {Error} err
* @promise
*/
User.resetPassword = function(options, cb) {
cb = cb || utils.createPromiseCallback();
var UserModel = this;
var ttl = UserModel.settings.resetPasswordTokenTTL || DEFAULT_RESET_PW_TTL;
options = options || {};
if (typeof options.email !== 'string') {
var err = new Error(g.f('Email is required'));
err.statusCode = 400;
err.code = 'EMAIL_REQUIRED';
cb(err);
return cb.promise;
}
try {
if (options.password) {
UserModel.validatePassword(options.password);
}
} catch (err) {
return cb(err);
}
var where = {
email: options.email,
};
if (options.realm) {
where.realm = options.realm;
}
UserModel.findOne({where: where}, function(err, user) {
if (err) {
return cb(err);
}
if (!user) {
err = new Error(g.f('Email not found'));
err.statusCode = 404;
err.code = 'EMAIL_NOT_FOUND';
return cb(err);
}
// create a short lived access token for temp login to change password
// TODO(ritch) - eventually this should only allow password change
if (UserModel.settings.emailVerificationRequired && !user.emailVerified) {
err = new Error(g.f('Email has not been verified'));
err.statusCode = 401;
err.code = 'RESET_FAILED_EMAIL_NOT_VERIFIED';
return cb(err);
}
if (UserModel.settings.restrictResetPasswordTokenScope) {
const tokenData = {
ttl: ttl,
scopes: ['reset-password'],
};
user.createAccessToken(tokenData, options, onTokenCreated);
} else {
// We need to preserve backwards-compatibility with
// user-supplied implementations of "createAccessToken"
// that may not support "options" argument (we have such
// examples in our test suite).
user.createAccessToken(ttl, onTokenCreated);
}
function onTokenCreated(err, accessToken) {
if (err) {
return cb(err);
}
cb();
UserModel.emit('resetPasswordRequest', {
email: options.email,
accessToken: accessToken,
user: user,
options: options,
});
}
});
return cb.promise;
};
/*!
* Hash the plain password
*/
User.hashPassword = function(plain) {
this.validatePassword(plain);
var salt = bcrypt.genSaltSync(this.settings.saltWorkFactor || SALT_WORK_FACTOR);
return bcrypt.hashSync(plain, salt);
};
User.validatePassword = function(plain) {
var err;
if (!plain || typeof plain !== 'string') {
err = new Error(g.f('Invalid password.'));
err.code = 'INVALID_PASSWORD';
err.statusCode = 422;
throw err;
}
// Bcrypt only supports up to 72 bytes; the rest is silently dropped.
var len = Buffer.byteLength(plain, 'utf8');
if (len > MAX_PASSWORD_LENGTH) {
err = new Error(g.f('The password entered was too long. Max length is %d (entered %d)',
MAX_PASSWORD_LENGTH, len));
err.code = 'PASSWORD_TOO_LONG';
err.statusCode = 422;
throw err;
}
};
User._invalidateAccessTokensOfUsers = function(userIds, options, cb) {
if (typeof options === 'function' && cb === undefined) {
cb = options;
options = {};
}
if (!Array.isArray(userIds) || !userIds.length)
return process.nextTick(cb);
var accessTokenRelation = this.relations.accessTokens;
if (!accessTokenRelation)
return process.nextTick(cb);
var AccessToken = accessTokenRelation.modelTo;
var query = {userId: {inq: userIds}};
var tokenPK = AccessToken.definition.idName() || 'id';
if (options.accessToken && tokenPK in options.accessToken) {
query[tokenPK] = {neq: options.accessToken[tokenPK]};
}
// add principalType in AccessToken.query if using polymorphic relations
// between AccessToken and User
var relatedUser = AccessToken.relations.user;
var isRelationPolymorphic = relatedUser && relatedUser.polymorphic &&
!relatedUser.modelTo;
if (isRelationPolymorphic) {
query.principalType = this.modelName;
}
AccessToken.deleteAll(query, options, cb);
};
/*!
* Setup an extended user model.
*/
User.setup = function() {
// We need to call the base class's setup method
User.base.setup.call(this);
var UserModel = this;
// max ttl
this.settings.maxTTL = this.settings.maxTTL || DEFAULT_MAX_TTL;
this.settings.ttl = this.settings.ttl || DEFAULT_TTL;
UserModel.setter.email = function(value) {
if (!UserModel.settings.caseSensitiveEmail && typeof value === 'string') {
this.$email = value.toLowerCase();
} else {
this.$email = value;
}
};
UserModel.setter.password = function(plain) {
if (typeof plain !== 'string') {
return;
}
if ((plain.indexOf('$2a$') === 0 || plain.indexOf('$2b$') === 0) && plain.length === 60) {
// The password is already hashed. It can be the case
// when the instance is loaded from DB
this.$password = plain;
} else {
this.$password = this.constructor.hashPassword(plain);
}
};
// Make sure emailVerified is not set by creation
UserModel.beforeRemote('create', function(ctx, user, next) {
var body = ctx.req.body;
if (body && body.emailVerified) {
body.emailVerified = false;
}
next();
});
UserModel.remoteMethod(
'login',
{
description: 'Login a user with username/email and password.',
accepts: [
{arg: 'credentials', type: 'object', required: true, http: {source: 'body'}},
{arg: 'include', type: ['string'], http: {source: 'query'},
description: 'Related objects to include in the response. ' +
'See the description of return value for more details.'},
],
returns: {
arg: 'accessToken', type: 'object', root: true,
description:
g.f('The response body contains properties of the {{AccessToken}} created on login.\n' +
'Depending on the value of `include` parameter, the body may contain ' +
'additional properties:\n\n' +
' - `user` - `U+007BUserU+007D` - Data of the currently logged in user. ' +
'{{(`include=user`)}}\n\n'),
},
http: {verb: 'post'},
}
);
UserModel.remoteMethod(
'logout',
{
description: 'Logout a user with access token.',
accepts: [
{arg: 'access_token', type: 'string', http: function(ctx) {
var req = ctx && ctx.req;
var accessToken = req && req.accessToken;
var tokenID = accessToken ? accessToken.id : undefined;
return tokenID;
}, description: 'Do not supply this argument, it is automatically extracted ' +
'from request headers.',
},
],
http: {verb: 'all'},
}
);
UserModel.remoteMethod(
'prototype.verify',
{
description: 'Trigger user\'s identity verification with configured verifyOptions',
accepts: [
{arg: 'verifyOptions', type: 'object', http: ctx => this.getVerifyOptions()},
{arg: 'options', type: 'object', http: 'optionsFromRequest'},
],
http: {verb: 'post'},
}
);
UserModel.remoteMethod(
'confirm',
{
description: 'Confirm a user registration with identity verification token.',
accepts: [
{arg: 'uid', type: 'string', required: true},
{arg: 'token', type: 'string', required: true},
{arg: 'redirect', type: 'string'},
],
http: {verb: 'get', path: '/confirm'},
}
);
UserModel.remoteMethod(
'resetPassword',
{
description: 'Reset password for a user with email.',
accepts: [
{arg: 'options', type: 'object', required: true, http: {source: 'body'}},
],
http: {verb: 'post', path: '/reset'},
}
);
UserModel.remoteMethod(
'changePassword',
{
description: 'Change a user\'s password.',
accepts: [
{arg: 'id', type: 'any', http: getUserIdFromRequestContext},
{arg: 'oldPassword', type: 'string', required: true, http: {source: 'form'}},
{arg: 'newPassword', type: 'string', required: true, http: {source: 'form'}},
{arg: 'options', type: 'object', http: 'optionsFromRequest'},
],
http: {verb: 'POST', path: '/change-password'},
}
);
const setPasswordScopes = UserModel.settings.restrictResetPasswordTokenScope ?
['reset-password'] : undefined;
UserModel.remoteMethod(
'setPassword',
{
description: 'Reset user\'s password via a password-reset token.',
accepts: [
{arg: 'id', type: 'any', http: getUserIdFromRequestContext},
{arg: 'newPassword', type: 'string', required: true, http: {source: 'form'}},
{arg: 'options', type: 'object', http: 'optionsFromRequest'},
],
accessScopes: setPasswordScopes,
http: {verb: 'POST', path: '/reset-password'},
}
);
function getUserIdFromRequestContext(ctx) {
const token = ctx.req.accessToken;
if (!token) return;
const hasPrincipalType = 'principalType' in token;
if (hasPrincipalType && token.principalType !== UserModel.modelName) {
// We have multiple user models related to the same access token model
// and the token used to authorize reset-password request was created
// for a different user model.
const err = new Error(g.f('Access Denied'));
err.statusCode = 403;
throw err;
}
return token.userId;
}
UserModel.afterRemote('confirm', function(ctx, inst, next) {
if (ctx.args.redirect !== undefined) {
if (!ctx.res) {
return next(new Error(g.f('The transport does not support HTTP redirects.')));
}
ctx.res.location(ctx.args.redirect);
ctx.res.status(302);
}
next();
});
// default models
assert(loopback.Email, 'Email model must be defined before User model');
UserModel.email = loopback.Email;
assert(loopback.AccessToken, 'AccessToken model must be defined before User model');
UserModel.accessToken = loopback.AccessToken;
UserModel.validate('email', emailValidator, {
message: g.f('Must provide a valid email'),
});
// Realm users validation
if (UserModel.settings.realmRequired && UserModel.settings.realmDelimiter) {
UserModel.validatesUniquenessOf('email', {
message: 'Email already exists',
scopedTo: ['realm'],
});
UserModel.validatesUniquenessOf('username', {
message: 'User already exists',
scopedTo: ['realm'],
});
} else {
// Regular(Non-realm) users validation
UserModel.validatesUniquenessOf('email', {message: 'Email already exists'});
UserModel.validatesUniquenessOf('username', {message: 'User already exists'});
}
return UserModel;
};
/*!
* Setup the base user.
*/
User.setup();
// --- OPERATION HOOKS ---
//
// Important: Operation hooks are inherited by subclassed models,
// therefore they must be registered outside of setup() function
// Access token to normalize email credentials
User.observe('access', function normalizeEmailCase(ctx, next) {
if (!ctx.Model.settings.caseSensitiveEmail && ctx.query.where &&
ctx.query.where.email && typeof(ctx.query.where.email) === 'string') {
ctx.query.where.email = ctx.query.where.email.toLowerCase();
}
next();
});
User.observe('before save', function rejectInsecurePasswordChange(ctx, next) {
const UserModel = ctx.Model;
if (!UserModel.settings.rejectPasswordChangesViaPatchOrReplace) {
// In legacy password flow, any DAO method can change the password
return next();
}
if (ctx.isNewInstance) {
// The password can be always set when creating a new User instance
return next();
}
const data = ctx.data || ctx.instance;
const isPasswordChange = 'password' in data;
// This is the option set by `setPassword()` API
// when calling `this.patchAttritubes()` to change user's password
if (ctx.options.setPassword) {
// Verify that only the password is changed and nothing more or less.
if (Object.keys(data).length > 1 || !isPasswordChange) {
// This is a programmer's error, use the default status code 500
return next(new Error(
'Invalid use of "options.setPassword". Only "password" can be ' +
'changed when using this option.'
));
}
return next();
}
if (!isPasswordChange) {
return next();
}
const err = new Error(
'Changing user password via patch/replace API is not allowed. ' +
'Use changePassword() or setPassword() instead.'
);
err.statusCode = 401;
err.code = 'PASSWORD_CHANGE_NOT_ALLOWED';
next(err);
});
User.observe('before save', function prepareForTokenInvalidation(ctx, next) {
if (ctx.isNewInstance) return next();
if (!ctx.where && !ctx.instance) return next();
var pkName = ctx.Model.definition.idName() || 'id';
var where = ctx.where;
if (!where) {
where = {};
where[pkName] = ctx.instance[pkName];
}
ctx.Model.find({where: where}, ctx.options, function(err, userInstances) {
if (err) return next(err);
ctx.hookState.originalUserData = userInstances.map(function(u) {
var user = {};
user[pkName] = u[pkName];
user.email = u.email;
user.password = u.password;
return user;
});
var emailChanged;
if (ctx.instance) {
// Check if map does not return an empty array
// Fix server crashes when try to PUT a non existent id
if (ctx.hookState.originalUserData.length > 0) {
emailChanged = ctx.instance.email !== ctx.hookState.originalUserData[0].email;
} else {
emailChanged = true;
}
if (emailChanged && ctx.Model.settings.emailVerificationRequired) {
ctx.instance.emailVerified = false;
}
} else if (ctx.data.email) {
emailChanged = ctx.hookState.originalUserData.some(function(data) {
return data.email != ctx.data.email;
});
if (emailChanged && ctx.Model.settings.emailVerificationRequired) {
ctx.data.emailVerified = false;
}
}
next();
});
});
User.observe('after save', function invalidateOtherTokens(ctx, next) {
if (!ctx.instance && !ctx.data) return next();
if (!ctx.hookState.originalUserData) return next();
var pkName = ctx.Model.definition.idName() || 'id';
var newEmail = (ctx.instance || ctx.data).email;
var newPassword = (ctx.instance || ctx.data).password;
if (!newEmail && !newPassword) return next();
if (ctx.options.preserveAccessTokens) return next();
var userIdsToExpire = ctx.hookState.originalUserData.filter(function(u) {
return (newEmail && u.email !== newEmail) ||
(newPassword && u.password !== newPassword);
}).map(function(u) {
return u[pkName];
});
ctx.Model._invalidateAccessTokensOfUsers(userIdsToExpire, ctx.options, next);
});
};
function emailValidator(err, done) {
var value = this.email;
if (value == null)
return;
if (typeof value !== 'string')
return err('string');
if (value === '') return;
if (!isEmail.validate(value))
return err('email');
}
function joinUrlPath(args) {
var result = arguments[0];
for (var ix = 1; ix < arguments.length; ix++) {
var next = arguments[ix];
result += result[result.length - 1] === '/' && next[0] === '/' ?
next.slice(1) : next;
}
return result;
}