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According to RFC6750-The OAuth 2.0 Authorization Framework: Bearer Token Usage, the bearer token is:

A security token with the property that any party in possession of the token (a "bearer") can use the token in any way that any other party in possession of it can.

To me this definition is vague and I can't find any specification.

  • Suppose I am implementing an authorization provider, can I supply any kind of string for the bearer token?
  • Can it be a random string?
  • Does it have to be a base64 encoding of some attributes?
    Should it be hashed?
  • And does the service provider need to query the authorization provider in order to validate this token?

Thank you for any pointer.

  • Suppose I am implementing an authorisation provider, can I supply any kind of string for the bearer token? Can it be a random string?. Access Tokens are issued via Auth0's OAuth 2.0 endpoints: /authorize and /oauth/token. You can use any OAuth 2.0-compatible library to obtain Access Tokens. If you do not already have a preferred OAuth 2.0 library, Auth0 provides libraries for many languages and frameworks. – Bharathkumar V Apr 8 '18 at 14:09
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Bearer Token
A security token with the property that any party in possession of the token (a "bearer") can use the token in any way that any other party in possession of it can. Using a bearer token does not require a bearer to prove possession of cryptographic key material (proof-of-possession).

The Bearer Token or Refresh token is created for you by the Authentication server. When a user authenticates your application (client) the authentication server then goes and generates for you a Bearer Token (refresh token) which you can then use to get an Access Token.

The Bearer Token is normally some kind of secret value created by the authentication server. It isn't random; it is created based upon the user giving you access and the client your application getting access.

In order to access an API for example you need to use an Access Token. Access tokens are short lived (around an hour). You use the bearer token to get a new Access token. To get an access token you send the Authentication server this bearer token along with your client id. This way the server knows that the application using the bearer token is the same application that the bearer token was created for. Example: I can't just take a bearer token created for your application and use it with my application it wont work because it wasn't generated for me.

Google Refresh token looks something like this: 1/mZ1edKKACtPAb7zGlwSzvs72PvhAbGmB8K1ZrGxpcNM

copied from comment: I don't think there are any restrictions on the bearer tokens you supply. Only thing I can think of is that its nice to allow more than one. For example a user can authenticate the application up to 30 times and the old bearer tokens will still work. oh and if one hasn't been used for say 6 months I would remove it from your system. It's your authentication server that will have to generate them and validate them so how it's formatted is up to you.

Update:

A Bearer Token is set in the Authorization header of every Inline Action HTTP Request. For example:

POST /rsvp?eventId=123 HTTP/1.1
Host: events-organizer.com
Authorization: Bearer AbCdEf123456
Content-Type: application/x-www-form-urlencoded
User-Agent: Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/1.0 (KHTML, like Gecko; Gmail Actions)

rsvpStatus=YES

The string "AbCdEf123456" in the example above is the bearer authorization token. This is a cryptographic token produced by the authentication server. All bearer tokens sent with actions have the issue field, with the audience field specifying the sender domain as a URL of the form https://. For example, if the email is from noreply@example.com, the audience is https://example.com.

If using bearer tokens, verify that the request is coming from the authentication server and is intended for the the sender domain. If the token doesn't verify, the service should respond to the request with an HTTP response code 401 (Unauthorized).

Bearer Tokens are part of the OAuth V2 standard and widely adopted by many APIs.

  • Let me rephrase my question: Suppose I am implementing an authorisation server, are there restriction for the bearer tokens I will supply ? – Alex Beaupré Sep 15 '14 at 13:15
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    @Freerider brearer token is valid until the user removes it Access token is only good for around an hour in most cases. – DaImTo Sep 15 '14 at 13:46
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    @ Xavier Egea Bearer token is basically your refresh token and not the access token . – Akhil Nambiar Sep 7 '17 at 6:02
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    Bearer token doesn't mean its a refresh token @AqeelSmith tools.ietf.org/html/rfc6750#section-6.1.1 – Suman Kundu Oct 16 '18 at 9:50
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    The first paragraph implies that a Bearer token is a refresh token and not an access token. This is not the case. From the Bearer token spec "This specification describes how to make protected resource requests when the OAuth access token is a bearer token." RFC6750 – Daniel Nov 13 '18 at 4:43
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As I read your question, I have tried without success to search on the Internet how Bearer tokens are encrypted or signed. I guess bearer tokens are not hashed (maybe partially, but not completely) because in that case it will not be possible to decrypt it and retrieve users properties from it.

But your question seems to be trying to find answers on Bearer token functionality:

Suppose I am implementing an authorization provider, can I supply any kind of string for the bearer token? Can it be a random string? Does it has to be a base64 encoding of some attributes ? Should it be hashed?

So, I'll try to explain how Bearer tokens and Refresh tokens work:

When user requests to the server for a token sending user and password through SSL, the server returns two things: an Access token and a Refresh token.

Access token is a Bearer token that you will have to add in all request headers to be authenticated as a concrete user.

Authorization: Bearer <access_token>

Access token is an encrypted string with all User properties, Claims and Roles that you wish. (You can check that the size of a token increases if you add more roles or claims). Once the Resource Server receives an acccess token, it will be able to decrypt it and read these user properties. This way, the user will be validated and granted along all the application.

Access tokens have a short expiration (ie. 30 minutes). If access tokens had a long expiration it would be a problem, because theorically there is no possibility to revoke it. So imagine a user with a role="Admin" that changes to "User". If a user keeps the old token with role="Admin" he will be able to access till the token expiration with Admin rights. That's why access token has a short expiration.

But, one issue comes in mind. If access token has short expiration, we have to send every short period the user and password. Is this secure? No, it isn't. We should avoid it. That's when Refresh tokens appear to solve this problem.

Refresh tokens are stored in DB and will have long expiration (example: 1 month).

A user can get a new access token (when it expires, every 30 minutes for example) using a refresh token, that the user had received in the first request for token. When an access token expires, the client must send a refresh token. If this refresh token exists in DB, the server will return to the client a new access token and another refresh token (and will replace the old refresh token by the new one).

In case a user acess token has been compromised, the refresh token of that user must be deleted from DB. This way the token will be valid only till the access token expires, because when the hacker tries to get a new access token sending the refresh token, this action will be denied.

  • I don't understand this part: "Once the Authorization Server receive an access token, it will be able to decrypt it and read these user properties. This way, the user will be validated and granted along all the application". Isn't authorization server the one that grants access token, not receive it? I'm trying to get my head around this subject and a lot of examples makes a clear distinct between Authorization server and Resource server. What I have understood is that you get Access token from Authorization server and then pass it along with every request that you make to the resource server? – kivikall Oct 10 '17 at 11:33
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    @kivikall You are right. I've changed it in the answer. The Resource Server receives the token (The token that the Authorization Server has encrypted in the token creation process) in every request and decrypts it. – Xavier Egea Oct 14 '17 at 18:10
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    @kivikall Actually, to decrypt a token should be something related to the authorization, so it should belong to the Authorization Server. That's why a wrote it in the answer. But in practice, this would mean that in every request you have to validate with the Authorization Server the token received (maybe performing another request). So, to avoid loss of performance, it's better to give some of the functionality to decrypt the token to the Resource Server. Check the next link: stackoverflow.com/questions/12296017/… – Xavier Egea Oct 14 '17 at 18:10
  • But on every request the Resource Server should check if the provided AccessToken is valid against the Authorization Server. So if a role changes the change can be reflected immediately by the Auth Server, right? Also why would we delete the RefreshToken if the AccessToken was compromised? The RefreshToken cannot be calculated based on the AccessToken, so when it expires the hacker is blocked again. – mandarin Dec 5 '18 at 9:41
  • As I said, the access token contains user information, like the role. If a user role changes, this change will be reflected in the next token when the current token expires. This means that in a short period of time (till access token expiration) the user will mantain the same role and the Auth Server will allow it because the token is still valid. Regarding the second question, deleting a Refresh Token makes the user insert their credentials again. This is what we want if an access token is compomised. In other case, a hacker can be authorized till the refreshtoken expiration (for ex.1 month) – Xavier Egea Dec 5 '18 at 9:58
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Bearer token is one or more repetition of alphabet, digit, "-" , "." , "_" , "~" , "+" , "/" followed by 0 or more "=".

RFC 6750 2.1. Authorization Request Header Field (Format is ABNF (Augmented BNF))

The syntax for Bearer credentials is as follows:

     b64token    = 1*( ALPHA / DIGIT /
                       "-" / "." / "_" / "~" / "+" / "/" ) *"="
     credentials = "Bearer" 1*SP b64token

It looks like Base64 but according to Should the token in the header be base64 encoded?, it is not.

Digging a bit deeper in to "HTTP/1.1, part 7: Authentication"**, however, I see that b64token is just an ABNF syntax definition allowing for characters typically used in base64, base64url, etc.. So the b64token doesn't define any encoding or decoding but rather just defines what characters can be used in the part of the Authorization header that will contain the access token.

References

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