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As I understand it, the following chain of events occurs in OAuth 2 in order for Site-A to access User's information on Site-B.

  1. Site-A registers with Site-B, and obtains a Secret and an ID.
  2. When User tells Site-A to access Site-B, User is sent to Site-B where he tells Site-B that he would indeed like to give Site-A permissions to specific information.
  3. Site-B redirects User back to Site-A, along with an Authorization Code.
  4. Site-A then passes that Authorization Code along with its Secret back to Site-B in return for a Security Token.
  5. Site-A then makes requests to Site-B on behalf of User by bundling the Security Token along with requests.

How does all of this work in terms of security and encryption, on a high level? How does OAuth 2 protect against things like replay attacks using the Security Token?

share|improve this question
oauth2 simply explained here: – Paolo Aug 26 '14 at 15:52
Read the spec: You might be surprised how understandable it is. It is also correct which may not be too bad. – Kris Vandermotten Oct 12 '14 at 10:22
This question and its (current) answers all focus on one particular "grant type" in OAuth 2.0 (i.e. code) but there are other grant types defined in OAuth 2.0 that are relevant for different use cases (e.g. non-user related ones). – Hans Z. Dec 28 '14 at 21:50
Oh, why not replace "Site B" with something more readable like "IdProvider Site"? – Yurii Aug 19 '15 at 14:16

How OAuth 2.0 works in real life:

So I was driving by Olaf's bakery on my way to work and I saw the most delicious donut in the window, I mean the thing was dripping chocolatey goodness. So I went inside and demanded "I must have that donut!". He said sure that will be $30.

Yeah I know $30 for one donut! It must be delicious! I reached for my wallet when suddenly I hear the chef yell "NO! No donut for you". I asked why? He said he only accepts bank transfers.

Seriously? Yep, he was serious. I almost walked away right there, but then the donut called out to me. It said "Eat me, I'm delicious..." Who am I not to obey orders from a donut.

So I said ok. He hands me a note with his name on it (the chef not the donut), "Tell them Olaf sent you". He wrote his name on the note, I don't know why he said that, but ok.

So I drive an hour and a half to my bank. I hand the note to the cashier, I tell her Olaf sent me. She gives one of those looks, the kind of look that says "I can read".

She takes my note, asks for my id, then asks me how much money is ok to give him. I tell her $30 dollars. She does some scribbling and hands me another note. This one has a bunch of numbers on it, I guess that's how they keep track of the notes.

At this point I'm starving. I rush out of there, an hour and a half later I'm standing in front of Olaf with my hand extended to his face. He takes my note, looks it over and says "I'll be back".

I thought he was getting my donut, but after 30 minutes I started to get suspicious. So I asked the guy behind the counter "Where's Olaf?". He says "He went to get money". "What do you mean?", "He take note to bank".

Huh. So Olaf took the note that the bank gave me and went back to the bank to take out money from my account. Because he has the note that the bank gave me, the bank knows he's the guy I was talking about. And they know to only give them $30 because I told them that's all I would allow them to give him.

It must have took me a long time to figure that out because by the time I looked up there was Olaf standing in front of me finally handing me my donut. Before I left I had to ask "Olaf, did you always sell donuts this way?", "No, I used to do it different."

Huh. As I walked to the car my phone rings. I didn't bother answering, it was probably my job calling to fire me, my boss is such a ***. Besides I was caught up thinking about this whole process I just went through.

I mean think about it, I was able to let Olaf take $30 out of my bank account without having to give him my account information. And I didn't have to worry that he would take too much because I already told the bank he was only allowed to take $30. And the bank knew he was the right guy because he had the note they gave me and I gave to Olaf.

Ok, sure I would rather have given him $30 from my pocket. But now that he has that note I could just tell the bank to let him withdraw $30 each week, then I can just show up at the bakery and I don't have to go to the bank anymore. I could even order the donut by phone.

Of course I'd never do that - that donut was disgusting.

I wonder if this approach has broader application. He mentioned this was his second approach, I could call it Olaf 2.0. Anyway I better get home, I gotta start looking for a new job. But not before I get one of those strawberry shakes from that new place across town, I need something to wash away that taste of that donut.

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:clap: :clap: :clap: :clap: – jocull Nov 26 '15 at 21:48
I see what you did there. – Ternary Jan 5 at 20:39
up vote 85 down vote accepted

Based on what I've read, this is how it all works:

The general flow outlined in the question is correct. In step 2, User X is authenticated, and is also authorizing Site A's access to User X's information on Site B. In step 4, the site passes its Secret back to Site B, authenticating itself, as well as the Authorization Code, indicating what it's asking for (User X's access token).

Overall, OAuth 2 actually is a very simple security model, and encryption never comes directly into play. Instead, both the Secret and the Security Token are essentially passwords, and the whole thing is secured only by the security of the https connection.

OAuth 2 has no protection against replay attacks of the Security Token or the Secret. Instead, it relies entirely on Site B being responsible with these items and not letting them get out, and on them being sent over https while in transit (https will protect URL parameters).

The purpose of the Authorization Code step is simply convenience, and the Authorization Code is not especially sensitive on its own. It provides a common identifier for User X's access token for Site A when asking Site B for User X's access token. Just User X's user id on Site B would not have worked, because there could be many outstanding access tokens waiting to be handed out to different sites at the same time.

share|improve this answer
You've overlooked an important function of the authorization code. Why not just return the refresh token (what you call the Security Token) immediately, instead of having the extra step of swapping the authorization code for it? Because capturing the refresh token would allow replay attacks, whereas the authorization code can only be used once. – Maurice Naftalin May 11 '11 at 4:12
OK, @mauricen, that makes sense.... But couldn't the replay attack happen just as well with the refresh token, since that's what ends up being passed with each request? – Mr Mikkél Jul 20 '12 at 7:44
The authorization code is passed via the user, so (for example) could be stored as a cookie (see…). The refresh token passes directly between the two sites, so is much less vulnerable. – Maurice Naftalin Nov 22 '12 at 9:18
Out of curiosity, does OAuth return any unique identifiers for the program to use? For example, I am currently relying on the MAC address for user identification, but with that said, MACs are unreliable/easilySpoofed/etc. I may just scrap the MAC address identification mechanism and go OAuth if it does allow me to uniquely identify users. – theGreenCabbage Feb 11 '14 at 15:45
Notice in this diagram: that the "Secret" is not shown, only the Client Identifier (ID in the question). Why is the Secret important and why is it not included in the RFC? Also in the question there is also the local state which is recommended to be passed in the initial transmission of the Client Id (A), and the redirect back to the client along with the authorization code to protect against XSSF. – David Williams Jun 30 '14 at 23:08

OAuth is a protocol with which a 3-party app can access your data stored in another website without your account and password. For a more official definition, refer to the Wiki or specification.

Here is a use case demo:

  1. I login to LinkedIn and want to connect some friends who are in may Gmail contacts. LinkedIn supports this, so I click this button:
    Add Connection

  2. A web page pops up, and it shows the Gmail login page, when I enter my account and password:
    Add Connection

  3. Gmail then shows a consent page where I click "Accept": Add Connection

  4. Now LinkedIn can access my contacts in Gmail: Add Connection

Below is a flowchart of the example above:

Add Connection

Step 1: LinkedIn requests a token from Gmail's Authorization Server.

Step 2: The Gmail authorization server authenticates the resource owner and shows the user the consent page. (the user needs to login to Gmail if they are not already logged-in)

Step 3: User grants the request for LinkedIn to access the Gmail data.

Step 4: the Gmail authorization server responds back with an access token.

Step 5: LinkedIn calls the Gmail API with this access token.

Step 6: The Gmail resource server returns your contacts if the access token is valid. (The token will be verified by the Gmail resource server)

You can get more from details about OAuth here.

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All your images have gone missing. Any chance you can load them to stack.imgur? – ChrisF Oct 16 '15 at 20:28

The other answer is very detailed and addresses the bulk of the questions raised by the OP.

To elaborate, and specifically to address the OP's question of "How does OAuth 2 protect against things like replay attacks using the Security Token?", there are two additional protections in the official recommendations for implementing OAuth 2:

1) Tokens will usually have a short expiration period (

A short expiration time for tokens is a means of protection against the following threats:

  • replay...

2) When the token is used by Site A, the recommendation is that it will be presented not as URL parameters but in the Authorization request header field (

Clients SHOULD make authenticated requests with a bearer token using the "Authorization" request header field with the "Bearer" HTTP authorization scheme. ...

The "application/x-www-form-urlencoded" method SHOULD NOT be used except in application contexts where participating browsers do not have access to the "Authorization" request header field. ...

URI Query Parameter... is included to document current use; its use is not recommended, due to its security deficiencies

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