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With the "Implicit" flow the client (likely a browser) will get a access token, after the Resource Owner (i.e. the user) gave access.

With the "Authorization Code" flow however, the client (usually a web server) does only get an authorization code after the Resource Owner (i.e. the user) gave access. With that authorization code the client then makes another call to the API passing client_id and client_secret together with the authorization code to obtain the access token. All well described here.

Both flows have the exact same result: an access token. However, the "Implicit" flow is much simpler.

The question: Why bother with "Authorization Code" flow, when "Implicit" flow seams to be fine? Why not also using "Implicit" for webserver?

It's more work both for the provider and the client.

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Check out stackoverflow.com/questions/7522831/… –  Jon Nylander Nov 14 '12 at 21:58
Thanks, read it already. Doesn't answer the question though. –  Aron Woost Nov 14 '12 at 22:01
Good question actually and rarely answered :) See below. –  Nivco Nov 14 '12 at 23:47
@AronWoost I think you misunderstand Server web app and browser app –  onmyway133 Apr 20 at 16:06
@entropy That was my question; why not using browser flow for the server as well. –  Aron Woost Apr 21 at 12:28
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2 Answers

up vote 21 down vote accepted

tl;dr: This is all because of security reasons.

OAuth 2.0 wanted to meet these two criteria:

  1. You want to allow developers to use non-HTTPS redirect URI because not all developers have an SSL enabled server and if they do it's not always properly configured (non-self signed, trusted SSL certificates, synchronised server clock...).
  2. You don't want hackers to be able to steal access/refresh tokens by intercepting requests.

Details below:

The implicit flow is only possible in a browser environment because of security reasons:

In the implicit flow the access token is passed as a hash fragment, only the browsers are aware of hash fragment. Browsers will pass the hash fragment directly to the destination webpage/the redirect URI which is the client's webpage (hash fragment are not part of the HTTP request) so you have to read the hash fragment using Javascript. Hash fragment cannot be intercepted by intermediary servers/routers (this is important).

In the authorization code flow it is not possible to pass an access token directly in a URL parameter because URL parameters are part of the HTTP Request, therefore any intermediary server/routers by which your request would pass (could be hundreds) could be able to read the access token if you are not using en encrypted connection (HTTPS) allowing what's known as Man-in-the-middle attacks.

Passing the access token directly in a URL param could in theory be possible but the auth sever would have to make sure the redirect URI is using HTTPS with TLS encryption and a 'trusted' SSL certificate to be sure that the destination server is correct and that the HTTP request is fully encrypted. Having all developers purchase an SSL certificate and properly configure SSL on their domain would be a huge pain and would slow adoption down tremendously. This is why an intermediary one-time-use authorization code is used as we are certain that only the developer will be able to exchange the auth code (because you need the client secret) and that the code will be useless to potential hackers intercepting the requests over unencrypted transactions (because they don't know the client secret).

You could also argue that the implicit flow is less secure, there are potential attack vectors like spoofing the domain upon redirect - for example by hijacking the IP address of the client's website. This is one of the reasons why the implicit flow only grants access tokens and never refresh tokens (which are more valuable). To remedy this issue, I advise you to use HTTPS whenever possible.

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Yeah, got it! The penny dropped with "hash fragment are not part of the HTTP request". Thats right! The hash token never goes over the wire, except from the SSL Resource Server. And you're also saying that the "Implicit" would be possible for servers, if the server would be SSL too, right? So in theory the Resource Server could restrict to redirect url to HTTPS only domains and it would be save (although this is not part of the OAuth2 draft). –  Aron Woost Nov 15 '12 at 13:09
Yup correct. The developers' server would need to be SSL thought my personal experience dealing with developers needing SSL certificate (it used to be mandatory to use Google Checkout push notifications in the past) indicated that many-many developers don't have SSL correctly configured. Also to be perfectly safe the SSL certificate should only be issued by a trusted source (not a self-signed certificate because they can be faked), so from Verisign or Comodo... Usually you have to purchase these etc... All these points show that relying on SSL from the common developer would be a huge pain. –  Nivco Nov 18 '12 at 1:31
PS: maybe you want to have a look at this one as well: stackoverflow.com/questions/13668361/… :) –  Aron Woost Dec 2 '12 at 10:45
"Browsers will pass the hash fragment directly to the destination webpage" -- you mean "will not pass", right? –  JW. Sep 14 '13 at 18:38
No: it "will pass" it. I meant what I wrote. What I meant by this is that the hash fragment is kept client side but never sent in the HTTP request (which is readable server side). It is kept client side so basically only readable on the destination webpage using Javascript. –  Nivco Sep 21 '13 at 23:43
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There is not much to add to Nivco's answer, but in one point I disagree:

(hash fragment are not part of the HTTP request) so you have to read the hash fragment using Javascript. Hash fragment cannot be intercepted by intermediary servers/routers (this is important).

Yes, the hash fragment is not sent in the request to the client app. But the hash fragment is included in the Location: response header within the 302 Redirect response from the authorization server where it could be sniffed. So I am not sure if this is the reason behind it.

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Thats not correct. SSL is a requirement with OAuth2. So the redirect is covert by encryption and can not be sniffed. –  Aron Woost Dec 15 '12 at 13:07
Yes, as Aron pointed out the 302 Redirect is returned by the OAuth 2.0 Server which is done over SSL (OAuth 2.0 servers must support SSL and be properly configured vs. OAuth 2.0 clients don't have to). Then when the 302 redirect is followed by the browser (possibly to a non SSL destination URL) the hash fragment is not part of the URL. –  Nivco Feb 7 '13 at 19:59
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