Express 3.x support is ending soon
This series will continue to receive only security updates and bug fixes until July 2015. It is highly recommended to upgrade to Express 4.x.
3.x API
express()
Creates an Express application. The express()
function is a top-level function exported by the express module.
var express = require('express');
var app = express();
app.get('/', function(req, res){
res.send('hello world');
});
app.listen(3000);
Application
app.set(name, value)
Assigns setting name
to value
.
app.set('title', 'My Site');
app.get('title');
// => "My Site"
app.get(name)
Get setting name
value.
app.get('title');
// => undefined
app.set('title', 'My Site');
app.get('title');
// => "My Site"
app.enable(name)
Set setting name
to true
.
app.enable('trust proxy');
app.get('trust proxy');
// => true
app.disable(name)
Set setting name
to false
.
app.disable('trust proxy');
app.get('trust proxy');
// => false
app.enabled(name)
Check if setting name
is enabled.
app.enabled('trust proxy');
// => false
app.enable('trust proxy');
app.enabled('trust proxy');
// => true
app.disabled(name)
Check if setting name
is disabled.
app.disabled('trust proxy');
// => true
app.enable('trust proxy');
app.disabled('trust proxy');
// => false
app.configure([env], callback)
Conditionally invoke callback
when env
matches app.get('env')
,
aka process.env.NODE_ENV
. This method remains for legacy reasons, and is effectively
an if
statement as illustrated in the following snippets. These functions are not
required in order to use app.set()
and other configuration methods.
// all environments
app.configure(function(){
app.set('title', 'My Application');
})
// development only
app.configure('development', function(){
app.set('db uri', 'localhost/dev');
})
// production only
app.configure('production', function(){
app.set('db uri', 'n.n.n.n/prod');
})
Is effectively sugar for:
// all environments
app.set('title', 'My Application');
// development only
if ('development' == app.get('env')) {
app.set('db uri', 'localhost/dev');
}
// production only
if ('production' == app.get('env')) {
app.set('db uri', 'n.n.n.n/prod');
}
app.use([path], function)
Use the given middleware function
, with optional mount path
,
defaulting to “/”.
var express = require('express');
var app = express();
// simple logger
app.use(function(req, res, next){
console.log('%s %s', req.method, req.url);
next();
});
// respond
app.use(function(req, res, next){
res.send('Hello World');
});
app.listen(3000);
The “mount” path is stripped and is not visible
to the middleware function
. The main effect of this feature is that
mounted middleware may operate without code changes regardless of its “prefix”
pathname.
A route will match any path, which follows its path immediately with either a “/
” or a “.
”. For example: app.use('/apple', ...)
will match /apple, /apple/images, /apple/images/news, /apple.html, /apple.html.txt, and so on.
Here’s a concrete example, take the typical use-case of serving files in ./public
using the express.static()
middleware:
// GET /javascripts/jquery.js
// GET /style.css
// GET /favicon.ico
app.use(express.static(__dirname + '/public'));
Say for example you wanted to prefix all static files with “/static”, you could
use the “mounting” feature to support this. Mounted middleware functions are not
invoked unless the req.url
contains this prefix, at which point
it is stripped when the function is invoked. This affects this function only,
subsequent middleware will see req.url
with “/static” included
unless they are mounted as well.
// GET /static/javascripts/jquery.js
// GET /static/style.css
// GET /static/favicon.ico
app.use('/static', express.static(__dirname + '/public'));
The order of which middleware are “defined” using app.use()
is
very important, they are invoked sequentially, thus this defines middleware
precedence. For example usually express.logger()
is the very
first middleware you would use, logging every request:
app.use(express.logger());
app.use(express.static(__dirname + '/public'));
app.use(function(req, res){
res.send('Hello');
});
Now suppose you wanted to ignore logging requests for static files, but to
continue logging routes and middleware defined after logger()
,
you would simply move static()
above:
app.use(express.static(__dirname + '/public'));
app.use(express.logger());
app.use(function(req, res){
res.send('Hello');
});
Another concrete example would be serving files from multiple directories, giving precedence to “./public” over the others:
app.use(express.static(__dirname + '/public'));
app.use(express.static(__dirname + '/files'));
app.use(express.static(__dirname + '/uploads'));
settings
The following settings are provided to alter how Express will behave:
env
Environment mode, defaults to process.env.NODE_ENV or “development”trust proxy
Enables reverse proxy support, disabled by defaultjsonp callback name
Changes the default callback name of ?callback=json replacer
JSON replacer callback, null by defaultjson spaces
JSON response spaces for formatting, defaults to 2 in development, 0 in productioncase sensitive routing
Enable case sensitivity, disabled by default, treating “/Foo” and “/foo” as the samestrict routing
Enable strict routing, by default “/foo” and “/foo/” are treated the same by the routerview cache
Enables view template compilation caching, enabled in production by defaultview engine
The default engine extension to use when omittedviews
The view directory path, defaulting to “process.cwd() + ‘/views’”
app.engine(ext, callback)
Register the given template engine callback
as ext
By default will require()
the engine based on the
file extension. For example if you try to render
a “foo.jade” file Express will invoke the following internally,
and cache the require()
on subsequent calls to increase
performance.
app.engine('jade', require('jade').__express);
For engines that do not provide .__express
out of the box -
or if you wish to “map” a different extension to the template engine
you may use this method. For example mapping the EJS template engine to
“.html” files:
app.engine('html', require('ejs').renderFile);
In this case EJS provides a .renderFile()
method with
the same signature that Express expects: (path, options, callback)
,
though note that it aliases this method as ejs.__express
internally
so if you’re using “.ejs” extensions you dont need to do anything.
Some template engines do not follow this convention, the consolidate.js library was created to map all of node’s popular template engines to follow this convention, thus allowing them to work seemlessly within Express.
var engines = require('consolidate');
app.engine('haml', engines.haml);
app.engine('html', engines.hogan);
app.param([name], callback)
Map logic to route parameters. For example when :user
is present in a route path you may map user loading logic to automatically
provide req.user
to the route, or perform validations
on the parameter input.
The following snippet illustrates how the callback
is much like middleware, thus supporting async operations, however
providing the additional value of the parameter, here named as id
.
An attempt to load the user is then performed, assigning req.user
,
otherwise passing an error to next(err)
.
app.param('user', function(req, res, next, id){
User.find(id, function(err, user){
if (err) {
next(err);
} else if (user) {
req.user = user;
next();
} else {
next(new Error('failed to load user'));
}
});
});
Alternatively you may pass only a callback
, in which
case you have the opportunity to alter the app.param()
API.
For example the express-params
defines the following callback which allows you to restrict parameters to a given
regular expression.
This example is a bit more advanced, checking if the second argument is a regular expression, returning the callback which acts much like the “user” param example.
app.param(function(name, fn){
if (fn instanceof RegExp) {
return function(req, res, next, val){
var captures;
if (captures = fn.exec(String(val))) {
req.params[name] = captures;
next();
} else {
next('route');
}
}
}
});
The method could now be used to effectively validate parameters, or also parse them to provide capture groups:
app.param('id', /^\d+$/);
app.get('/user/:id', function(req, res){
res.send('user ' + req.params.id);
});
app.param('range', /^(\w+)\.\.(\w+)?$/);
app.get('/range/:range', function(req, res){
var range = req.params.range;
res.send('from ' + range[1] + ' to ' + range[2]);
});
app.VERB(path, [callback...], callback)
The app.VERB()
methods provide the routing functionality
in Express, where VERB is one of the HTTP verbs, such
as app.post()
. Multiple callbacks may be given, all are treated
equally, and behave just like middleware, with the one exception that
these callbacks may invoke next('route')
to bypass the
remaining route callback(s). This mechanism can be used to perform pre-conditions
on a route then pass control to subsequent routes when there is no reason to proceed
with the route matched.
The following snippet illustrates the most simple route definition possible. Express translates the path strings to regular expressions, used internally to match incoming requests. Query strings are not considered when peforming these matches, for example “GET /” would match the following route, as would “GET /?name=tobi”.
app.get('/', function(req, res){
res.send('hello world');
});
Regular expressions may also be used, and can be useful if you have very specific restraints, for example the following would match “GET /commits/71dbb9c” as well as “GET /commits/71dbb9c..4c084f9”.
app.get(/^\/commits\/(\w+)(?:\.\.(\w+))?$/, function(req, res){
var from = req.params[0];
var to = req.params[1] || 'HEAD';
res.send('commit range ' + from + '..' + to);
});
Several callbacks may also be passed, useful for re-using middleware that load resources, perform validations, etc.
app.get('/user/:id', user.load, function(){
// ...
})
These callbacks may be passed within arrays as well, these arrays are simply flattened when passed:
var middleware = [loadForum, loadThread];
app.get('/forum/:fid/thread/:tid', middleware, function(){
// ...
})
app.post('/forum/:fid/thread/:tid', middleware, function(){
// ...
})
app.all(path, [callback...], callback)
This method functions just like the app.VERB()
methods,
however it matches all HTTP verbs.
This method is extremely useful for
mapping “global” logic for specific path prefixes or arbitrary matches.
For example if you placed the following route at the top of all other
route definitions, it would require that all routes from that point on
would require authentication, and automatically load a user. Keep in mind
that these callbacks do not have to act as end points, loadUser
can perform a task, then next()
to continue matching subsequent
routes.
app.all('*', requireAuthentication, loadUser);
Or the equivalent:
app.all('*', requireAuthentication)
app.all('*', loadUser);
Another great example of this is white-listed “global” functionality. Here the example is much like before, however only restricting paths prefixed with “/api”:
app.all('/api/*', requireAuthentication);
app.locals
Application local variables are provided to all templates rendered within the application. This is useful for providing helper functions to templates, as well as app-level data.
app.locals.title = 'My App';
app.locals.strftime = require('strftime');
The app.locals
object is a JavaScript Function
,
which when invoked with an object will merge properties into itself, providing
a simple way to expose existing objects as local variables.
app.locals({
title: 'My App',
phone: '1-250-858-9990',
email: 'me@myapp.com'
});
app.locals.title
// => 'My App'
app.locals.email
// => 'me@myapp.com'
A consequence of the app.locals
Object being ultimately a Javascript Function Object is that you must not reuse existing (native) named properties for your own variable names, such as name, apply, bind, call, arguments, length, constructor
.
app.locals({name: 'My App'});
app.locals.name
// => return 'app.locals' in place of 'My App' (app.locals is a Function !)
// => if name's variable is used in a template, a ReferenceError will be returned.
The full list of native named properties can be found in many specifications. The JavaScript specification introduced original properties, some of which still recognized by modern engines, and the EcmaScript specification then built on it and normalized the set of properties, adding new ones and removing deprecated ones. Check out properties for Functions and Objects if interested.
By default Express exposes only a single app-level local variable, settings
.
app.set('title', 'My App');
// use settings.title in a view
app.render(view, [options], callback)
Render a view
with a callback responding with
the rendered string. This is the app-level variant of res.render()
,
and otherwise behaves the same way.
app.render('email', function(err, html){
// ...
});
app.render('email', { name: 'Tobi' }, function(err, html){
// ...
});
app.routes
The app.routes
object houses all of the routes defined mapped
by the associated HTTP verb. This object may be used for introspection capabilities,
for example Express uses this internally not only for routing but to provide default
behaviour unless app.options()
is used. Your application
or framework may also remove routes by simply by removing them from this object.
console.log(app.routes)
{ get:
[ { path: '/',
method: 'get',
callbacks: [Object],
keys: [],
regexp: /^\/\/?$/i },
{ path: '/user/:id',
method: 'get',
callbacks: [Object],
keys: [{ name: 'id', optional: false }],
regexp: /^\/user\/(?:([^\/]+?))\/?$/i } ],
delete:
[ { path: '/user/:id',
method: 'delete',
callbacks: [Object],
keys: [Object],
regexp: /^\/user\/(?:([^\/]+?))\/?$/i } ] }
app.listen()
Bind and listen for connections on the given host and port, this method is identical to node’s http.Server#listen().
var express = require('express');
var app = express();
app.listen(3000);
The app
returned by express()
is in fact a JavaScript
Function
, designed to be passed to node’s http servers as a callback
to handle requests. This allows you to provide both HTTP and HTTPS versions of
your app with the same codebase easily, as the app does not inherit from these,
it is simply a callback:
var express = require('express');
var https = require('https');
var http = require('http');
var app = express();
http.createServer(app).listen(80);
https.createServer(options, app).listen(443);
The app.listen()
method is simply a convenience method defined as,
if you wish to use HTTPS or provide both, use the technique above.
app.listen = function(){
var server = http.createServer(this);
return server.listen.apply(server, arguments);
};
Request
req.params
This property is an array containing properties mapped to the named route “parameters”.
For example if you have the route /user/:name
, then the “name” property
is available to you as req.params.name
. This object defaults to {}
.
// GET /user/tj
req.params.name
// => "tj"
When a regular expression is used for the route definition, capture groups
are provided in the array using req.params[N]
, where N
is the nth capture group. This rule is applied to unnamed wild-card matches
with string routes such as /file/*
:
// GET /file/javascripts/jquery.js
req.params[0]
// => "javascripts/jquery.js"
req.query
This property is an object containing the parsed query-string,
defaulting to {}
.
// GET /search?q=tobi+ferret
req.query.q
// => "tobi ferret"
// GET /shoes?order=desc&shoe[color]=blue&shoe[type]=converse
req.query.order
// => "desc"
req.query.shoe.color
// => "blue"
req.query.shoe.type
// => "converse"
req.body
This property is an object containing the parsed request body. This feature
is provided by the bodyParser()
middleware, though other body
parsing middleware may follow this convention as well. This property
defaults to {}
when bodyParser()
is used.
// POST user[name]=tobi&user[email]=tobi@learnboost.com
req.body.user.name
// => "tobi"
req.body.user.email
// => "tobi@learnboost.com"
// POST { "name": "tobi" }
req.body.name
// => "tobi"
req.files
This property is an object of the files uploaded. This feature
is provided by the bodyParser()
middleware, though other body
parsing middleware may follow this convention as well. This property
defaults to {}
when bodyParser()
is used.
For example if a file field was named “image”,
and a file was uploaded, req.files.image
would contain
the following File
object:
{ size: 74643,
path: '/tmp/8ef9c52abe857867fd0a4e9a819d1876',
name: 'edge.png',
type: 'image/png',
hash: false,
lastModifiedDate: Thu Aug 09 2012 20:07:51 GMT-0700 (PDT),
_writeStream:
{ path: '/tmp/8ef9c52abe857867fd0a4e9a819d1876',
fd: 13,
writable: false,
flags: 'w',
encoding: 'binary',
mode: 438,
bytesWritten: 74643,
busy: false,
_queue: [],
_open: [Function],
drainable: true },
length: [Getter],
filename: [Getter],
mime: [Getter] }
The bodyParser()
middleware utilizes the
node-formidable
module internally, and accepts the same options. An example of this
is the keepExtensions
formidable option, defaulting to false
which in this case gives you the filename “/tmp/8ef9c52abe857867fd0a4e9a819d1876” void of
the “.png” extension. To enable this, and others you may pass them to bodyParser()
:
app.use(express.bodyParser({ keepExtensions: true, uploadDir: '/my/files' }));
req.param(name)
Return the value of param name
when present.
// ?name=tobi
req.param('name')
// => "tobi"
// POST name=tobi
req.param('name')
// => "tobi"
// /user/tobi for /user/:name
req.param('name')
// => "tobi"
Lookup is performed in the following order:
req.params
req.body
req.query
Direct access to req.body
, req.params
,
and req.query
should be favoured for clarity - unless
you truly accept input from each object.
req.route
The currently matched Route
containing
several properties such as the route’s original path
string, the regexp generated, and so on.
app.get('/user/:id?', function(req, res){
console.log(req.route);
});
Example output from the previous snippet:
{ path: '/user/:id?',
method: 'get',
callbacks: [ [Function] ],
keys: [ { name: 'id', optional: true } ],
regexp: /^\/user(?:\/([^\/]+?))?\/?$/i,
params: [ id: '12' ] }
req.cookies
This object requires the cookieParser()
middleware for use.
It contains cookies sent by the user-agent. If no cookies are sent, it
defaults to {}
.
// Cookie: name=tj
req.cookies.name
// => "tj"
req.signedCookies
This object requires the cookieParser(secret)
middleware for use.
It contains signed cookies sent by the user-agent, unsigned and ready for use.
Signed cookies reside in a different object to show developer intent; otherwise,
a malicious attack could be placed on req.cookie
values (which are easy to spoof).
Note that signing a cookie does not make it “hidden” or encrypted; this simply
prevents tampering (because the secret used to sign is private). If no signed
cookies are sent, it defaults to {}
.
// Cookie: user=tobi.CP7AWaXDfAKIRfH49dQzKJx7sKzzSoPq7/AcBBRVwlI3
req.signedCookies.user
// => "tobi"
req.get(field)
Get the case-insensitive request header field
. The “Referrer” and “Referer” fields are interchangeable.
req.get('Content-Type');
// => "text/plain"
req.get('content-type');
// => "text/plain"
req.get('Something');
// => undefined
p Aliased as req.header(field)
.
req.accepts(types)
Check if the given types
are acceptable, returning
the best match when true, otherwise undefined
- in which
case you should respond with 406 “Not Acceptable”.
The type
value may be a single mime type string
such as “application/json”, the extension name
such as “json”, a comma-delimited list or an array. When a list
or array is given the best match, if any is returned.
// Accept: text/html
req.accepts('html');
// => "html"
// Accept: text/*, application/json
req.accepts('html');
// => "html"
req.accepts('text/html');
// => "text/html"
req.accepts('json, text');
// => "json"
req.accepts('application/json');
// => "application/json"
// Accept: text/*, application/json
req.accepts('image/png');
req.accepts('png');
// => undefined
// Accept: text/*;q=.5, application/json
req.accepts(['html', 'json']);
req.accepts('html, json');
// => "json"
req.accepted
Return an array of Accepted media types ordered from highest quality to lowest.
[ { value: 'application/json',
quality: 1,
type: 'application',
subtype: 'json' },
{ value: 'text/html',
quality: 0.5,
type: 'text',
subtype: 'html' } ]
req.is(type)
Check if the incoming request contains the “Content-Type”
header field, and it matches the give mime type
.
// With Content-Type: text/html; charset=utf-8
req.is('html');
req.is('text/html');
req.is('text/*');
// => true
// When Content-Type is application/json
req.is('json');
req.is('application/json');
req.is('application/*');
// => true
req.is('html');
// => false
req.ip
Return the remote address, or when “trust proxy” is enabled - the upstream address.
req.ip
// => "127.0.0.1"
req.ips
When “trust proxy” is true
, parse
the “X-Forwarded-For” ip address list
and return an array, otherwise an empty
array is returned.
For example if the value were “client, proxy1, proxy2”
you would receive the array ["client", "proxy1", "proxy2"]
where “proxy2” is the furthest down-stream.
req.path
Returns the request URL pathname.
// example.com/users?sort=desc
req.path
// => "/users"
req.host
Returns the hostname from the “Host” header field (void of portno).
// Host: "example.com:3000"
req.host
// => "example.com"
req.fresh
Check if the request is fresh - aka Last-Modified and/or the ETag still match, indicating that the resource is “fresh”.
req.fresh
// => true
req.stale
Check if the request is stale - aka Last-Modified and/or the ETag do not match, indicating that the resource is “stale”.
req.stale
// => true
req.xhr
Check if the request was issued with the “X-Requested-With” header field set to “XMLHttpRequest” (jQuery etc).
req.xhr
// => true
req.protocol
Return the protocol string “http” or “https” when requested with TLS. When the “trust proxy” setting is enabled the “X-Forwarded-Proto” header field will be trusted. If you’re running behind a reverse proxy that supplies https for you this may be enabled.
js req.protocol // => “http” ~~~
req.secure
Check if a TLS connection is established. This is a short-hand for:
'https' == req.protocol;
req.subdomains
Return subdomains as an array.
// Host: "tobi.ferrets.example.com"
req.subdomains
// => ["ferrets", "tobi"]
req.originalUrl
This property is much like req.url
, however it retains
the original request url, allowing you to rewrite req.url
freely for internal routing purposes. For example the “mounting” feature
of app.use() will rewrite req.url
to
strip the mount point.
// GET /search?q=something
req.originalUrl
// => "/search?q=something"
req.acceptedLanguages
Return an array of Accepted languages ordered from highest quality to lowest.
Accept-Language: en;q=.5, en-us
// => ['en-us', 'en']
req.acceptedCharsets
Return an array of Accepted charsets ordered from highest quality to lowest.
Accept-Charset: iso-8859-5;q=.2, unicode-1-1;q=0.8
// => ['unicode-1-1', 'iso-8859-5']
req.acceptsCharset(charset)
Check if the given charset
are acceptable.
req.acceptsLanguage(lang)
Check if the given lang
are acceptable.
Response
res.status(code)
Chainable alias of node’s res.statusCode=
.
res.status(404).sendfile('path/to/404.png');
res.set(field, [value])
Set header field
to value
, or pass an object to set multiple fields at once.
res.set('Content-Type', 'text/plain');
res.set({
'Content-Type': 'text/plain',
'Content-Length': '123',
'ETag': '12345'
})
Aliased as res.header(field, [value])
.
res.get(field)
Get the case-insensitive response header field
.
res.get('Content-Type');
// => "text/plain"
res.cookie(name, value, [options])
Set cookie name
to value
, which may be a string or object converted to JSON. The path
option defaults to “/”.
res.cookie('name', 'tobi', { domain: '.example.com', path: '/admin', secure: true });
res.cookie('rememberme', '1', { expires: new Date(Date.now() + 900000), httpOnly: true });
The maxAge
option is a convenience option for setting “expires”
relative to the current time in milliseconds. The following is equivalent to
the previous example.
res.cookie('rememberme', '1', { maxAge: 900000, httpOnly: true })
An object may be passed which is then serialized as JSON, which is
automatically parsed by the bodyParser()
middleware.
res.cookie('cart', { items: [1,2,3] });
res.cookie('cart', { items: [1,2,3] }, { maxAge: 900000 });
Signed cookies are also supported through this method. Simply
pass the signed
option. When given res.cookie()
will use the secret passed to express.cookieParser(secret)
to sign the value.
res.cookie('name', 'tobi', { signed: true });
Later you may access this value through the req.signedCookie object.
res.clearCookie(name, [options])
Clear cookie name
. The path
option defaults to “/”.
res.cookie('name', 'tobi', { path: '/admin' });
res.clearCookie('name', { path: '/admin' });
res.redirect([status], url)
Redirect to the given url
with optional status
code
defaulting to 302 “Found”.
res.redirect('/foo/bar');
res.redirect('http://example.com');
res.redirect(301, 'http://example.com');
res.redirect('../login');
Express supports a few forms of redirection, first being a fully qualified URI for redirecting to a different site:
res.redirect('http://google.com');
The second form is the pathname-relative redirect, for example
if you were on http://example.com/admin/post/new
, the
following redirect to /admin
would land you at http://example.com/admin
:
res.redirect('/admin');
This next redirect is relative to the mount
point of the application. For example
if you have a blog application mounted at /blog
, ideally it has no knowledge of
where it was mounted, so where a redirect of /admin/post/new
would simply give you
http://example.com/admin/post/new
, the following mount-relative redirect would give
you http://example.com/blog/admin/post/new
:
res.redirect('admin/post/new');
Pathname relative redirects are also possible. If you were
on http://example.com/admin/post/new
, the following redirect
would land you at http//example.com/admin/post
:
res.redirect('..');
The final special-case is a back
redirect, redirecting back to
the Referer (or Referrer), defaulting to /
when missing.
res.redirect('back');
res.location
Set the location header.
res.location('/foo/bar');
res.location('foo/bar');
res.location('http://example.com');
res.location('../login');
res.location('back');
You can use the same kind of urls
as in res.redirect()
.
For example, if your application is mounted at /blog
,
the following would set the location
header to
/blog/admin
:
res.location('admin')
res.charset
Assign the charset. Defaults to “utf-8”.
res.charset = 'value';
res.send('<p>some html</p>');
// => Content-Type: text/html; charset=value
res.send([body|status], [body])
Send a response.
res.send(new Buffer('whoop'));
res.send({ some: 'json' });
res.send('<p>some html</p>');
res.send(404, 'Sorry, we cannot find that!');
res.send(500, { error: 'something blew up' });
res.send(200);
This method performs a myriad of useful tasks for simple non-streaming responses such as automatically assigning the Content-Length unless previously defined and providing automatic HEAD and HTTP cache freshness support.
When a Buffer
is given
the Content-Type is set to “application/octet-stream”
unless previously defined as shown below:
res.set('Content-Type', 'text/html');
res.send(new Buffer('<p>some html</p>'));
When a String
is given the
Content-Type is set defaulted to “text/html”:
res.send('<p>some html</p>');
When an Array
or Object
is
given Express will respond with the JSON representation:
res.send({ user: 'tobi' })
res.send([1,2,3])
Finally when a Number
is given without
any of the previously mentioned bodies, then a response
body string is assigned for you. For example 200 will
respond will the text “OK”, and 404 “Not Found” and so on.
res.send(200)
res.send(404)
res.send(500)
res.json([status|body], [body])
Send a JSON response. This method is identical
to res.send()
when an object or
array is passed, however it may be used for
explicit JSON conversion of non-objects (null, undefined, etc),
though these are technically not valid JSON.
res.json(null)
res.json({ user: 'tobi' })
res.json(500, { error: 'message' })
res.jsonp([status|body], [body])
Send a JSON response with JSONP support. This method is identical
to res.json()
however opts-in to JSONP callback
support.
res.jsonp(null)
// => null
res.jsonp({ user: 'tobi' })
// => { "user": "tobi" }
res.jsonp(500, { error: 'message' })
// => { "error": "message" }
By default the JSONP callback name is simply callback
,
however you may alter this with the jsonp callback name
setting. The following are some examples of JSONP responses using the same
code:
// ?callback=foo
res.jsonp({ user: 'tobi' })
// => foo({ "user": "tobi" })
app.set('jsonp callback name', 'cb');
// ?cb=foo
res.jsonp(500, { error: 'message' })
// => foo({ "error": "message" })
res.type(type)
Sets the Content-Type to the mime lookup of type
,
or when “/” is present the Content-Type is simply set to this
literal value.
res.type('.html');
res.type('html');
res.type('json');
res.type('application/json');
res.type('png');
p Aliased as res.contentType(type)
.
res.format(object)
Performs content-negotiation on the request Accept header
field when present. This method uses req.accepted
, an array of
acceptable types ordered by their quality values, otherwise the
first callback is invoked. When no match is performed the server
responds with 406 “Not Acceptable”, or invokes the default
callback.
The Content-Type is set for you when a callback is selected,
however you may alter this within the callback using res.set()
or res.type()
etcetera.
The following example would respond with { "message": "hey" }
when the Accept header field is set to “application/json” or “/json”,
however if “/*” is given then “hey” will be the response.
res.format({
'text/plain': function(){
res.send('hey');
},
'text/html': function(){
res.send('<p>hey</p>');
},
'application/json': function(){
res.send({ message: 'hey' });
}
});
In addition to canonicalized MIME types you may also use extnames mapped to these types, providing a slightly less verbose implementation:
res.format({
text: function(){
res.send('hey');
},
html: function(){
res.send('<p>hey</p>');
},
json: function(){
res.send({ message: 'hey' });
}
});
res.attachment([filename])
Sets the Content-Disposition header field to “attachment”. If
a filename
is given then the Content-Type will be
automatically set based on the extname via res.type()
,
and the Content-Disposition’s “filename=” parameter will be set.
res.attachment();
// Content-Disposition: attachment
res.attachment('path/to/logo.png');
// Content-Disposition: attachment; filename="logo.png"
// Content-Type: image/png
res.sendfile(path, [options], [fn]])
Transfer the file at the given path
.
Automatically defaults the Content-Type response header field based
on the filename’s extension. The callback fn(err)
is
invoked when the transfer is complete or when an error occurs.
Options:
maxAge
in milliseconds defaulting to 0root
root directory for relative filenames
This method provides fine-grained support for file serving as illustrated in the following example:
app.get('/user/:uid/photos/:file', function(req, res){
var uid = req.params.uid
, file = req.params.file;
req.user.mayViewFilesFrom(uid, function(yes){
if (yes) {
res.sendfile('/uploads/' + uid + '/' + file);
} else {
res.send(403, 'Sorry! you cant see that.');
}
});
});
res.download(path, [filename], [fn])
Transfer the file at path
as an “attachment”,
typically browsers will prompt the user for download. The
Content-Disposition “filename=” parameter, aka the one
that will appear in the brower dialog is set to path
by default, however you may provide an override filename
.
When an error has ocurred or transfer is complete the optional
callback fn
is invoked. This method uses res.sendfile()
to transfer the file.
res.download('/report-12345.pdf');
res.download('/report-12345.pdf', 'report.pdf');
res.download('/report-12345.pdf', 'report.pdf', function(err){
if (err) {
// handle error, keep in mind the response may be partially-sent
// so check res.headerSent
} else {
// decrement a download credit etc
}
});
res.links(links)
Join the given links
to populate the “Link” response header field.
res.links({
next: 'http://api.example.com/users?page=2',
last: 'http://api.example.com/users?page=5'
});
p yields:
Link: <http://api.example.com/users?page=2>; rel="next",
<http://api.example.com/users?page=5>; rel="last"
res.locals
Response local variables are scoped to the request, thus only available to the view(s) rendered during that request / response cycle, if any. Otherwise this API is identical to app.locals.
This object is useful for exposing request-level information such as the request pathname, authenticated user, user settings etcetera.
app.use(function(req, res, next){
res.locals.user = req.user;
res.locals.authenticated = ! req.user.anonymous;
next();
});
res.render(view, [locals], callback)
Render a view
with a callback responding with
the rendered string. When an error occurs next(err)
is invoked internally. When a callback is provided both the possible error
and rendered string are passed, and no automated response is performed.
res.render('index', function(err, html){
// ...
});
res.render('user', { name: 'Tobi' }, function(err, html){
// ...
});
Middleware
basicAuth()
Basic Authentication middleware, populating req.user
with the username.
Simple username and password:
app.use(express.basicAuth('username', 'password'));
Callback verification:
app.use(express.basicAuth(function(user, pass){
return 'tj' == user && 'wahoo' == pass;
}));
Async callback verification, accepting fn(err, user)
,
in this case req.user
will be the user object passed.
app.use(express.basicAuth(function(user, pass, fn){
User.authenticate({ user: user, pass: pass }, fn);
}))
bodyParser()
Request body parsing middleware supporting JSON, urlencoded,
and multipart requests. This middleware is simply a wrapper
for the json()
, urlencoded()
, and
multipart()
middleware.
app.use(express.bodyParser());
// is equivalent to:
app.use(express.json());
app.use(express.urlencoded());
app.use(express.multipart());
For security sake, it’s better to disable file upload if your application
doesn’t need it. To do this, use only the needed middleware, i.e. don’t use
the bodyParser
and multipart()
middleware:
app.use(express.json());
app.use(express.urlencoded());
If your application needs file upload you should set up a strategy for dealing with those files.
compress()
Compress response data with gzip / deflate. This middleware should be placed “high” within the stack to ensure all responses may be compressed.
app.use(express.logger());
app.use(express.compress());
app.use(express.methodOverride());
app.use(express.bodyParser());
cookieParser()
Parses the Cookie header field and populates req.cookies
with an object keyed by the cookie names. Optionally you may enabled
signed cookie support by passing a secret
string.
app.use(express.cookieParser());
app.use(express.cookieParser('some secret'));
cookieSession()
Provides cookie-based sessions, and populates req.session
.
This middleware takes the following options:
key
cookie name defaulting toconnect.sess
secret
prevents cookie tamperingcookie
session cookie settings, defaulting to{ path: '/', httpOnly: true, maxAge: null }
proxy
trust the reverse proxy when setting secure cookies (via “x-forwarded-proto”)
app.use(express.cookieSession());
To clear a cookie simply assign the session to null before responding:
req.session = null
csrf()
CSRF protection middleware.
By default this middleware generates a token named “_csrf”
which should be added to requests which mutate
state, within a hidden form field, query-string etc. This
token is validated against req.csrfToken()
.
The default value
function checks req.body
generated
by the bodyParser()
middleware, req.query
generated
by query()
, and the “X-CSRF-Token” header field.
This middleware requires session support, thus should be added
somewhere below session()
.
directory()
Directory serving middleware, serves the given path
.
This middleware may be paired with static()
to serve
files, providing a full-featured file browser.
app.use(express.directory('public'))
app.use(express.static('public'))
This middleware accepts the following options:
hidden
display hidden (dot) files. Defaults to false.icons
display icons. Defaults to false.filter
Apply this filter function to files. Defaults to false.