Wednesday, August 26, 2020

PKCE: What Can(Not) Be Protected


This post is about PKCE [RFC7636], a protection mechanism for OAuth and OpenIDConnect designed for public clients to detect the authorization code interception attack.
At the beginning of our research, we wrongly believed that PKCE protects mobile and native apps from the so called „App Impersonation" attacks. Considering our ideas and after a short discussion with the authors of the PKCE specification, we found out that PKCE does not address this issue.
In other words, the protection of PKCE can be bypassed on public clients (mobile and native apps) by using a maliciously acting app.

OAuth Code Flow


In Figure 1, we briefly introduce how the OAuth flow works on mobile apps and show show the reason why we do need PKCE.
In our example the user has two apps installed on the mobile phone: an Honest App and an Evil App. We assume that the Evil App is able to register the same handler as the Honest App and thus intercept messages sent to the Honest App. If you are more interested in this issue, you can find more information here [1].

Figure 1: An example of the "authorization code interception" attack on mobile devices. 

Step 1: A user starts the Honest App and initiates the authentication via OpenID Connect or the authorization via OAuth. Consequentially, the Honest App generates an Auth Request containing the OpenID Connect/OAuth parameters: client_id, state, redirect_uri, scope, authorization_grant, nonce, …. 
Step 2: The Browser is called and the Auth Request is sent to the Authorization Server (usually Facebook, Google, …).
  • The Honest App could use a Web View browser. However, the current specification clearly advice to use the operating system's default browser and avoid the usage of Web Views [2]. In addition, Google does not allow the usage of Web View browser since August 2016 [3].
Step 3: We asume that the user is authenticated and he authorizes the access to the requested resources. As a result, the Auth Response containing the code is sent back to the browser.

Step 4: Now, the browser calls the Honest App registered handler. However, the Evil App is registered on this handler too and receives the code.

Step 5: The Evil App sends the stolen code to the Authorization Server and receives the corresponding access_token in step 6. Now, the Evil App can access the authorized ressources.
  • Optionally, in step 5 the App can authenticate on the Authorization Server via client_id, client_secret. Since, Apps are public clients they do not have any protection mechanisms regarding the storage of this information. Thus, an attacker can easy get this information and add it to the Evil App.

    Proof Key for Code Exchange - PKCE (RFC 7636)

    Now, let's see how PKCE does prevent the attack. The basic idea of PKCE is to bind the Auth Request in Step 1 to the code redemption in Step 5. In other words, only the app generated the Auth Request is able to redeem the generated code.


    Figure 2: PKCE - RFC 7636 

    Step 1: The Auth Request is generated as previosly described. Additionally, two parameters are added:
    • The Honest App generates a random string called code_verifier
    • The Honest App computes the code_challenge=SHA-256(code_verifier)
    • The Honest App specifies the challenge_method=SHA256

    Step 2: The Authorization Server receives the Auth Request and binds the code to the received code_challenge and challenge_method.
    • Later in Step 5, the Authorzation Server expects to receive the code_verifier. By comparing the SHA-256(code_verifier) value with the recieved code_challenge, the Authorization Server verifies that the sender of the Auth Request ist the same as the sender of the code.
    Step 3-4: The code leaks again to the Evil App.

    Step 5: Now, Evil App must send the code_verifier together with the code. Unfortunatelly, the App does not have it and is not able to compute it. Thus, it cannot redeem the code.

     PKCE Bypass via App Impersonation

    Again, PKCE binds the Auth Request to the coderedemption.
    The question rises, if an Evil App can build its own Auth Request with its own code_verifier, code_challenge and challenge_method.The short answer is – yes, it can.

    Figure 3: Bypassing PKCE via the App Impersonation attack
    Step 1: The Evil App generates an Auth Request. The Auth Request contains the client_id and redirect_uri of the Honest App. Thus, the User and the Authorization Server cannot recognize that the Evil App initiates this request. 

    Step 2-4: These steps do not deviate from the previous description in Figure 2.

    Step 5: In Step 5 the Evil App sends the code_verifier used for the computation of the code_challenge. Thus, the stolen code can be successfully redeemed and the Evil App receives the access_token and id_token.

    OAuth 2.0 for Native Apps

    The attack cannot be prevented by PKCE. However, the IETF working group is currently working on a Draft describing recommendations for using OAuth 2.0 for native apps.

    References

    Vladislav Mladenov
    Christian Mainka (@CheariX)

    Read more


    1. Blackhat Hacker Tools
    2. Usb Pentest Tools
    3. Game Hacking
    4. Hack Tools For Pc
    5. Hacking Tools 2019
    6. Hackers Toolbox
    7. Hack Tools
    8. Hack Apps
    9. Hacking Tools For Games
    10. Hack Tools 2019
    11. Tools For Hacker
    12. Hack Tools 2019
    13. Hacker Tools Hardware
    14. Hacker Tools Github
    15. Bluetooth Hacking Tools Kali
    16. Hack Tools Online
    17. Install Pentest Tools Ubuntu
    18. Growth Hacker Tools
    19. Hacking Tools And Software
    20. Install Pentest Tools Ubuntu
    21. Hacking Tools For Games
    22. Top Pentest Tools
    23. New Hack Tools
    24. Pentest Tools Tcp Port Scanner
    25. Hack Website Online Tool
    26. Hacking Tools Windows 10
    27. Beginner Hacker Tools
    28. Hacking Tools For Games
    29. Free Pentest Tools For Windows
    30. Hacker Tools
    31. Hacker Tools Linux
    32. Hack Tools For Pc
    33. Hackrf Tools
    34. Hacker Tools 2020
    35. Pentest Tools Alternative
    36. Hacking Tools For Windows
    37. Nsa Hack Tools
    38. Tools 4 Hack
    39. Hacker Tools
    40. Pentest Tools Url Fuzzer
    41. Usb Pentest Tools
    42. Tools For Hacker
    43. Hacker Tools Apk
    44. How To Make Hacking Tools
    45. Tools For Hacker
    46. Pentest Tools List
    47. Hacker Tools Windows
    48. Best Hacking Tools 2019
    49. Pentest Tools Url Fuzzer
    50. Hacker Tools Apk
    51. Hacking Tools For Windows
    52. Hacker Tools For Pc
    53. Hacker Search Tools
    54. Pentest Reporting Tools
    55. Pentest Tools Review
    56. Pentest Tools Tcp Port Scanner
    57. Hackers Toolbox
    58. Pentest Tools Download
    59. Hack Tools For Ubuntu
    60. Hacking Tools Pc
    61. Pentest Tools Subdomain
    62. Hacking Tools For Windows
    63. Hacking Tools Pc
    64. Hack Tools 2019
    65. Hack Tools Download
    66. Hacker Tools List
    67. Hacks And Tools
    68. Beginner Hacker Tools
    69. Pentest Tools Framework
    70. How To Make Hacking Tools
    71. Pentest Tools Port Scanner
    72. Tools Used For Hacking
    73. Hacker Tools 2019
    74. Hacker Hardware Tools
    75. Hacking Tools Github
    76. Computer Hacker
    77. Hacker Tools 2019

    0 Comments:

    Post a Comment

    << Home