What is the difference between token authentication and authentication using cookies?

I am trying to implement the Ember Auth Rails Demo but I do not understand the reasons behind using token authentication as described in the Ember Auth FAQ on the question "Why token authentication?"

  • 4
    A Token can be given to your mobile app and stored in a variable (by you) for later use or saved (by you) via JavaScript in your browser for use in SPA requests. A Cookie is generally used in a browser (by the browser).
    – tinmac
    Commented Sep 15, 2015 at 13:18
  • 4
    See article auth0.com/blog/cookies-vs-tokens-definitive-guide written in 2016. Commented Apr 25, 2017 at 12:00
  • Cookie itself cannot do authentication. It's done by store token inside cookie. Commented Feb 7, 2021 at 15:05
  • 1
    i think your doubt will be cleared here link Commented Mar 31, 2023 at 6:38

9 Answers 9


HTTP is stateless. In order to authorize you, you have to "sign" every single request you're sending to server.

Token authentication

  • A request to the server is signed by a "token" - usually it means setting specific HTTP headers, however, they can be sent in any part of the HTTP request (POST body, etc.)

  • Pros:

    • You can authorize only the requests you wish to authorize. (Cookies - even the authorization cookie are sent for every single request.)
    • Immune to XSRF (Short example of XSRF - I'll send you a link in email that will look like <img src="http://bank.example?withdraw=1000&to=myself" />, and if you're logged in via cookie authentication to bank.example, and bank.example doesn't have any means of XSRF protection, I'll withdraw money from your account simply by the fact that your browser will trigger an authorized GET request to that url.) Note there are anti forgery measure you can do with cookie-based authentication - but you have to implement those.
    • Cookies are bound to a single domain. A cookie created on the domain foo.example can't be read by the domain bar.example, while you can send tokens to any domain you like. This is especially useful for single page applications that are consuming multiple services that are requiring authorization - so I can have a web app on the domain myapp.example that can make authorized client-side requests to myservice1.example and to myservice2.example.
  • Cons:

    • You have to store the token somewhere; while cookies are stored "out of the box". The locations that comes to mind are localStorage (con: the token is persisted even after you close browser window), sessionStorage (pro: the token is discarded after you close browser window, con: opening a link in a new tab will render that tab anonymous) and cookies (Pro: the token is discarded after you close the browser window. If you use a session cookie you will be authenticated when opening a link in a new tab, and you're immune to XSRF since you're ignoring the cookie for authentication, you're just using it as token storage. Con: cookies are sent out for every single request. If this cookie is not marked as https only, you're open to man in the middle attacks.)
    • It is slightly easier to do XSS attack against token based authentication (i.e. if I'm able to run an injected script on your site, I can steal your token; however, cookie based authentication is not a silver bullet either - while cookies marked as http-only can't be read by the client, the client can still make requests on your behalf that will automatically include the authorization cookie.)
    • Requests to download a file, which is supposed to work only for authorized users, requires you to use File API. The same request works out of the box for cookie-based authentication.

Cookie authentication

  • A request to the server is always signed in by authorization cookie.
  • Pros:
    • Cookies can be marked as "http-only" which makes them impossible to be read on the client side. This is better for XSS-attack protection.
    • Comes out of the box - you don't have to implement any code on the client side.
  • Cons:
    • Bound to a single domain. (So if you have a single page application that makes requests to multiple services, you can end up doing crazy stuff like a reverse proxy.)
    • Vulnerable to XSRF. You have to implement extra measures to make your site protected against cross site request forgery.
    • Are sent out for every single request, (even for requests that don't require authentication).

Overall, I'd say tokens give you better flexibility, (since you're not bound to single domain). The downside is you have to do quite some coding by yourself.

  • 3
    Thanks @ondrej-svejdar. It is by far the best answer! I would only argue with "quite some coding" part. There is good number of libraries available for pretty much any language. So unless you really want to know mechanics of JWT implementation there is no need to start from scratch. Commented Aug 9, 2016 at 15:13
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    Are send out for every single request Tokens are send for every request too Commented Dec 21, 2016 at 8:56
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    @EugenKonkov no. not necessearly. Only if you add the header. cookies are sent from browser if you want or if you don't want
    – Royi Namir
    Commented Apr 26, 2017 at 8:34
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    @Zack - it does matter. Problem with cookies is they're appended to request by browser automatically. Tokens on the other hand are appended to XHR request by javascript. It is impossible for evildomain.com to get access to local storage for mysite.com (btw. I don't recommend local storage as a place to store tokens) or to ram (I assume you mean javascript variable here containing the token) because the variable is sandboxed in different browser window. Commented Jul 10, 2017 at 8:24
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    crazy stuff like a reverse proxy. Overall, great answer, but I feel this part is somewhat misleading. Reverse proxying an API underneath a single URL endpoint is not crazy, and sometimes required (had to once for a SPA website to support IE9 clients). Having a separate endpoint for your API is great for spreading load, especially in a SPA website, or scenario where your API is heavily used by other applications. Labeling reverse proxy as "crazy stuff" is a tad much. Commented Dec 4, 2018 at 18:44

For Googlers:

  • DO NOT mix statefulness with state transfer mechanisms


  • Stateful = save authorization info on server side, this is the traditional way
  • Stateless = save authorization info on client side, along with a signature to ensure integrity


  • Cookie = a special header with special treatment (access, storage, expiration, security, auto-transfer) by browsers
  • Custom Headers = e.g. Authorization, are just headers without any special treatment, client has to manage all aspects of the transfer
  • Other. Other transfer mechanisms may be utilized, e.g. query string was a choice to transfer auth ID for a while but was abandoned for its insecurity


  • "Stateful authorization" means the server stores and maintains user authorization info on server, making authorizations part of the application state
  • This means client only need to keep an "auth ID" and the server can read auth detail from its database
  • This implies that server keeps a pool of active auths (users that are logged in) and will query this info for every request
  • "Stateless authorization" means the server does not store and maintain user auth info, it simply does not know which users are signed in, and rely on the client to produce auth info
  • Client will store complete auth info like who you are (user ID), and possibly permissions, expiration time, etc., this is more than just auth ID, so it is given a new name token
  • Obviously client cannot be trusted, so auth data is stored along with a signature generated from hash(data + secret key), where secret key is only known to server, so the integrity of token data can be verified
  • Note that token mechanism merely ensures integrity, but not confidentiality, client has to implement that
  • This also means for every request client has to submit a complete token, which incurs extra bandwidth


  • "Cookie" is just a header, but with some preloaded operations on browsers
  • Cookie can be set by server and auto-saved by client, and will auto-send for same domain
  • Cookie can be marked as httpOnly thus prevent client JavaScript access
  • Preloaded operations may not be available on platforms other than browsers (e.g. mobile), which may lead to extra efforts
  • "Custom headers" are just custom headers without preloaded operations
  • Client is responsible to receive, store, secure, submit and update the custom header section for each requests, this may help prevent some simple malicious URL embedding


  • There is no magic, auth state has to be stored somewhere, either at server or client
  • You may implement stateful/stateless with either cookie or other custom headers
  • When people talk about those things their default mindset is mostly: stateless = token + custom header, stateful = auth ID + cookie; these are NOT the only possible options
  • They have pros and cons, but even for encrypted tokens you should not store sensitive info

A typical web app is mostly stateless, because of its request/response nature. The HTTP protocol is the best example of a stateless protocol. But since most web apps need state, in order to hold the state between server and client, cookies are used such that the server can send a cookie in every response back to the client. This means the next request made from the client will include this cookie and will thus be recognized by the server. This way the server can maintain a session with the stateless client, knowing mostly everything about the app's state, but stored in the server. In this scenario at no moment does the client hold state, which is not how Ember.js works.

In Ember.js things are different. Ember.js makes the programmer's job easier because it holds indeed the state for you, in the client, knowing at every moment about its state without having to make a request to the server asking for state data.

However, holding state in the client can also sometimes introduce concurrency issues that are simply not present in stateless situations. Ember.js, however, deals also with these issues for you; specifically ember-data is built with this in mind. In conclusion, Ember.js is a framework designed for stateful clients.

Ember.js does not work like a typical stateless web app where the session, the state and the corresponding cookies are handled almost completely by the server. Ember.js holds its state completely in Javascript (in the client's memory, and not in the DOM like some other frameworks) and does not need the server to manage the session. This results in Ember.js being more versatile in many situations, e.g. when your app is in offline mode.

Obviously, for security reasons, it does need some kind of token or unique key to be sent to the server everytime a request is made in order to be authenticated. This way the server can look up the send token (which was initially issued by the server) and verify if it's valid before sending a response back to the client.

In my opinion, the main reason why to use an authentication token instead of cookies as stated in Ember Auth FAQ is primarily because of the nature of the Ember.js framework and also because it fits more with the stateful web app paradigm. Therefore the cookie mechanism is not the best approach when building an Ember.js app.

I hope my answer will give more meaning to your question.

  • 101
    I still don't understand why a token is better/different than a cookie. One way or another you are sending something to the api server that identifies a valid session. Assuming you are running everything on a single domain (and even if ember and your api are on different servers all you have to do to accomplish this is run behind a cdn, which you should probably do anyway) what advantage do tokens offer that warrants the extra setup work and extra susceptibility to timing attacks? Commented Nov 10, 2013 at 2:27
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    Agreed with Michael Johnston. This answer keeps explaining what token-based authentication is but actually did not answer the question. The closest relevant info I can see is in the last bit "because of the nature of the ember.js framework and also because it fits more with the statefull web app paradigm" but that's not much of an answer at all. I have the same question.
    – Daniel
    Commented May 24, 2014 at 4:49
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    I agree with both of the comments here... In fact, I feel that whole "it's the ember way" is a bit of a cop-out
    – Grapho
    Commented Aug 7, 2014 at 15:24
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    I honestly think statefulness is a red herring in regards to cookie vs. a token submitted via other means. I think it conflates the notions of user evidence with other user profile information. I could use a cookie just the same as an HTTP header or other channel for submitting a token. I think the difference is more about sidestepping issues related to single origin policy for cookies or taking away the burden of implementing a cookie container from native clients of your back end. Commented Jan 2, 2015 at 18:05
  • 25
    don't advertise ember.js focus on the question asked.. sorry to be rude. Commented Feb 10, 2017 at 7:23
  • Tokens need to be stored somewhere (local/session storage or cookies)

  • Tokens can expire like cookies, but you have more control

  • Local/session storage won't work across domains, use a marker cookie

  • Preflight requests will be sent on each CORS request

  • When you need to stream something, use the token to get a signed request

  • It's easier to deal with XSS than XSRF

  • The token gets sent on every request, watch out its size

  • If you store confidential info, encrypt the token

  • JSON Web Tokens can be used in OAuth

  • Tokens are not silver bullets, think about your authorization use cases carefully



  • 18
    It's not clear if your points are for Cookies or Tokens, which way round are they? Commented Feb 17, 2015 at 13:30
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    I don't understand why you "have more control" over tokens than you do over cookies.
    – Aaron
    Commented Jun 21, 2015 at 18:10
  • @onsmith From what I understand there is more than single bullet point here. Firstly, cookie is sent with every request. Sending tokens is triggered by javascript code. They are not sent automatically. Also, in accordance to the rfc section 4 looks like JWT is designd as a container used for transferring security claims based between parties. Which provides more granular control as well as enables ability to generate authentication tokens for 3rd party with set of permissions allowing them to use them on your behalf. Commented Aug 9, 2016 at 15:39

I believe that there is some confusion here. The significant difference between cookie based authentication and what is now possible with HTML5 Web Storage is that browsers are built to send cookie data whenever they are requesting resources from the domain that set them. You can't prevent that without turning off cookies. Browsers do not send data from Web Storage unless code in the page sends it. And pages can only access data that they stored, not data stored by other pages.

So, a user worried about the way that their cookie data might be used by Google or Facebook might turn off cookies. But, they have less reason to turn off Web Storage (until the advertisers figure a way to use that as well).

So, that's the difference between cookie based and token based, the latter uses Web Storage.


Token based authentication is stateless, server need not store user information in the session. This gives ability to scale application without worrying where the user has logged in. There is web Server Framework affinity for cookie based while that is not an issue with token based. So the same token can be used for fetching a secure resource from a domain other than the one we are logged in which avoids another uid/pwd authentication.

Very good article here:



Use Token when...

Federation is desired. For example, you want to use one provider (Token Dispensor) as the token issuer, and then use your api server as the token validator. An app can authenticate to Token Dispensor, receive a token, and then present that token to your api server to be verified. (Same works with Google Sign-In. Or Paypal. Or Salesforce.com. etc)

Asynchrony is required. For example, you want the client to send in a request, and then store that request somewhere, to be acted on by a separate system "later". That separate system will not have a synchronous connection to the client, and it may not have a direct connection to a central token dispensary. a JWT can be read by the asynchronous processing system to determine whether the work item can and should be fulfilled at that later time. This is, in a way, related to the Federation idea above. Be careful here, though: JWT expire. If the queue holding the work item does not get processed within the lifetime of the JWT, then the claims should no longer be trusted.

Cient Signed request is required. Here, request is signed by client using his private key and server would validate using already registered public key of the client.


One of the primary differences is that cookies are subject to Same Origin Policy whereas tokens are not. This creates all kinds of down stream effects.

Since cookies are only sent to and from a particular host that host must bear the burden of authenticating the user and the user must create an account with security data with that host in order to be verifiable.

Tokens on the other hand are issued and are not subject to same origin policy. The issuer can be literally anybody and it is up to the host to decide which issuers to trust. An issuer like Google and Facebook is typically well trusted so a host can shift the burden of authenticating the user (including storing all user security data) to another party and the user can consolidate their personal data under a specific issuer and not have to remember a bunch of different passwords for each host they interact with.

This allows for single sign on scenarios that reduce overall friction in the user experience. In theory the web also becomes more secure as specialised identity providers emerge to provide auth services instead of having every ma and pa website spinning up their own, likely half baked, auth systems. And as these providers emerge the cost of providing secure web resources for even very basic resources trends towards zero.

So in general tokens reduce the friction and costs associated with providing authentication and shifts the burden of the various aspects of a secure web to centralised parties better able to both implement and maintain security systems.


Session cookies rely on you having a personal secret shared with a database on the other end that stores the fact that you are logged in. There is nothing fancy here, just a passphrase to identify what your session is, though the details can vary.

An auth token uses fancy cryptography to eliminate the need of a database that stores your login state, by issuing a document with what you are allowed to do until which date, with a signature by a given provider.

To give an analogy, a cookie is like a membership card, where the reception checking it has to phone in or query a database to check that you are a member. While an auth token is like a check with a signature and an expiration date. The security then comes from the signature based on the assumption that it is difficult to fake, without having to directly ask the issuer.

In both cases, those deal with authorization, not authentication. Anyone with the membership card or the check gets the access right, they don't prove who you are, just that you have the right to the resource you ask for. Because of this, they have to be carefully guarded against theft, and this is especially true of the auth token which is harder to revoke.

  • 1
    You're talking about JWTs. Not all tokens need to be self-signed and can act exactly as a session ID
    – Pithikos
    Commented May 4, 2023 at 20:56

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