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I am just getting started working with Google API and OAuth2. When the client authorizes my app I am given a "refresh token" and a short lived "access token". Now every time the access token expires, I can POST my refresh token to Google and they will give me a new access token.

My question is what is the purpose of the access token expiring? Why can't there just be a long lasting access token instead of the refresh token?

Also, does the refresh token expire?

See Using OAuth 2.0 to Access Google APIs for more info on Google OAuth2 workflow.

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This is very much implementation specific, but the general idea is to allow providers to issue short term access tokens with long term refresh tokens. Why?

  • Many providers support bearer tokens which are very weak security-wise. By making them short-lived and requiring refresh, they limit the time an attacker can abuse a stolen token.
  • Large scale deployment don't want to perform a database lookup every API call, so instead they issue self-encoded access token which can be verified by decryption. However, this also means there is no way to revoke these tokens so they are issued for a short time and must be refreshed.
  • The refresh token requires client authentication which makes it stronger. Unlike the above access tokens, it is usually implemented with a database lookup.
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    Two questions: 1) In the case of mobile apps, does the requirement for client authentication make it stronger at all? Because the client_secret is part of the application source code, so it is not at all secret. Assuming that the access token is also shared only via TLS (and your first bullet point does not apply) is there any extra security? 2) Assuming that all this holds in our scenario (only TLS, no self-encoded unrevokable tokens), is it okay to issue access tokens that don't expire? – Thilo Jul 6 '12 at 6:31
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    What is a bearer token, and what does it have to do with refresh and access tokens? – allyourcode Nov 11 '12 at 22:14
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    @Thilo I think the idea is that access tokens need not be revokable. As Eran points out, this makes it possible for the requested service to decide whether to service a request <em>without having to look up the access token in some database</em>. AFAICT, that is the real benefit of separating refresh tokens and access tokens. – allyourcode Nov 11 '12 at 22:32
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    How is an access (bearer?) token short-lived? If I make a request with an expired bearer token, the refresh token will return a fresh bearer token. Likewise, if I steal somebody's token from their cookies, and spoof my own cookie with that token, I send it to the server, it will refresh and send me a new one. What's to stop that? Don't say IP Address or even MAC, because that's unreasonable. – Suamere Sep 24 '15 at 18:57
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    @Suamere , that was explained already. The bearer tokens are validated by a crypto process that doesn't touch the authentication database, making them much more efficient for frequent resource access. The refresh tokens are validated in a process that involves checking the database to make sure it is still valid. Now think about how gmail works. If someone logs into your account from an unexpected geographical location you can get an alert. You can see all locations that may have currently valid refresh tokens. You can log out of all locations, invalidating all those other refresh tokens. – Bon Dec 5 '15 at 18:19
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A couple of scenarios might help illustrate the purpose of access and refresh tokens and the engineering trade-offs in designing an oauth2 (or any other auth) system:

Web app scenario

In the web app scenario you have a couple of options:

  1. if you have your own session management, store both the access_token and refresh_token against your session id in session state on your session state service. When a page is requested by the user that requires you to access the resource use the access_token and if the access_token has expired use the refresh_token to get the new one.

Let's imagine that someone manages to hijack your session. The only thing that is possible is to request your pages.

  1. if you don't have session management, put the access_token in a cookie and use that as a session. Then, whenever the user requests pages from your web server send up the access_token. Your app server could refresh the access_token if need be.

Comparing 1 and 2:

In 1, access_token and refresh_token only travel over the wire on the way between the authorzation server (google in your case) and your app server. This would be done on a secure channel. A hacker could hijack the session but they would only be able to interact with your web app. In 2, the hacker could take the access_token away and form their own requests to the resources that the user has granted access to. Even if the hacker gets a hold of the access_token they will only have a short window in which they can access the resources.

Either way the refresh_token and clientid/secret are only known to the server making it impossible from the web browser to obtain long term access.

Let's imagine you are implementing oauth2 and set a long timeout on the access token:

In 1) There's not much difference here between a short and long access token since it's hidden in the app server. In 2) someone could get the access_token in the browser and then use it to directly access the user's resources for a long time.

Mobile scenario

On the mobile, there are a couple of scenarios that I know of:

  1. Store clientid/secret on the device and have the device orchestrate obtaining access to the user's resources.

  2. Use a backend app server to hold the clientid/secret and have it do the orchestration. Use the access_token as a kind of session key and pass it between the client and the app server.

Comparing 1 and 2

In 1) Once you have clientid/secret on the device they aren't secret any more. Anyone can decompile and then start acting as though they are you, with the permission of the user of course. The access_token and refresh_token are also in memory and could be accessed on a compromised device which means someone could act as your app without the user giving their credentials. In this scenario the length of the access_token makes no difference to the hackability since refresh_token is in the same place as access_token. In 2) the clientid/secret nor the refresh token are compromised. Here the length of the access_token expiry determines how long a hacker could access the users resources, should they get hold of it.

Expiry lengths

Here it depends upon what you're securing with your auth system as to how long your access_token expiry should be. If it's something particularly valuable to the user it should be short. Something less valuable, it can be longer.

Some people like google don't expire the refresh_token. Some like stackflow do. The decision on the expiry is a trade-off between user ease and security. The length of the refresh token is related to the user return length, i.e. set the refresh to how often the user returns to your app. If the refresh token doesn't expire the only way they are revoked is with an explicit revoke. Normally, a log on wouldn't revoke.

Hope that rather length post is useful.

  • about MOBILE SCENARIO it dosent matter if you store the client id in your server. so anyone else app just can send request to your server and could access the users resources throug yours server, so its the same – Amir Bar Dec 1 '14 at 15:43
  • true, but then they only have access to the facilities you provide, rather than full access to the underlying token. I.e. they can impersonate your app. Often, the tokens can have broad permissions, whereas you only require a subset. Holding onto the token in the backend provides further restriction, should you need it. – Ed Sykes Jul 30 '15 at 10:20
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It is essentially a security measure. If your app is compromised, the attacker will only have access to the short-lived access token and no way to generate a new one.

Refresh tokens also expire but they are supposed to live much longer than the access token.

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    But wouldn't the attacker also have access to the refresh token? and can than use that to create a new access token? – levi Aug 11 '11 at 21:27
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    @levi, the hacker cannot use the refresh token to create a new access token because the client ID and client secret are needed along with the refresh token in order to generate the new access token. – Spike Feb 8 '12 at 20:43
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    @Spike True, but doesn't the app have the client id and secret embedded in it as well? – Andy Jul 25 '12 at 12:49
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    So it provides some protection from packet sniffing, as long as the intercept only catches ordinary data requests (Chuck only gets the access token)? That sounds a little weak; the black hat just has to wait for a bit until the user requests a new access token and then he'll get the client ID, secret, and refresh token. – user565869 Feb 14 '13 at 17:21
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    This may just me being retarded here, but if this is sent over SSL doesn't that add to another possible layer of security. I guess I am assuming everyone knows what SSL is. – Damon Drake Jun 18 '13 at 20:30
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In addition to the other responses:

Once obtained, Access Tokens are typically sent along with every request from Clients to protected Resource Servers. This induce a risk for access token stealing and replay (assuming of course that access tokens are of type "Bearer" (as defined in the initial RFC6750).

Examples of those risks, in real life:

  • Resource Servers generally are distributed application servers and typically have lower security levels compared to Authorization Servers (lower SSL/TLS config, less hardening, etc.). Authorization Servers on the other hand are usually considered as critical Security infrastructure and are subject to more severe hardening.

  • Access Tokens may show up in HTTP traces, logs, etc. that are collected legitimately for diagnostic purposes on the Resource Servers or clients. Those traces can be exchanged over public or semi-public places (bug tracers, service-desk, etc.).

  • Backend RS applications can be outsourced to more or less trustworthy third-parties.

The Refresh Token, on the other hand, is typically transmitted only twice over the wires, and always between the client and the Authorization Server: once when obtained by client, and once when used by client during refresh (effectively "expiring" the previous refresh token). This is a drastically limited opportunity for interception and replay.

Last thought, Refresh Tokens offer very little protection, if any, against compromised clients.

  • You somewhat touched on this, but I would emphasize that the larger attack surface for obtaining (or conversely inadvertently divulging) tokens is in application logs or nefariously-added resource services (not a MITM attack today). Just about everywhere in a common API backend has access to the access token used (if it has access to the HttpRequest etc object). Only TWO code paths in the system has access to the refresh token - the one that generates it in the first place, and the one that exchanges it for a new access token. That is a significant attack surface difference. – Tom Dibble Jun 5 at 4:55

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