OAuth                                                         W. Denniss
Internet-Draft                                                    Google
Intended status: Standards Track                              J. Bradley
Expires: May 3, 2018                                       Ping Identity
                                                                M. Jones
                                                               Microsoft
                                                           H. Tschofenig
                                                             ARM Limited
                                                        October 30, 2017


  OAuth 2.0 Device Flow for Browserless and Input Constrained Devices
                    draft-ietf-oauth-device-flow-07

Abstract

   This OAuth 2.0 authorization flow for browserless and input
   constrained devices, often referred to as the device flow, enables
   OAuth clients to request user authorization from devices that have an
   Internet connection, but don't have an easy input method (such as a
   smart TV, media console, picture frame, or printer), or lack a
   suitable browser for a more traditional OAuth flow.  This
   authorization flow instructs the user to perform the authorization
   request on a secondary device, such as a smartphone.  There is no
   requirement for communication between the constrained device and the
   user's secondary device.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF).  Note that other groups may also distribute
   working documents as Internet-Drafts.  The list of current Internet-
   Drafts is at https://datatracker.ietf.org/drafts/current/.

   Internet-Drafts are draft documents valid for a maximum of six months
   and may be updated, replaced, or obsoleted by other documents at any
   time.  It is inappropriate to use Internet-Drafts as reference
   material or to cite them other than as "work in progress."

   This Internet-Draft will expire on May 3, 2018.








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Copyright Notice

   Copyright (c) 2017 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents
   (https://trustee.ietf.org/license-info) in effect on the date of
   publication of this document.  Please review these documents
   carefully, as they describe your rights and restrictions with respect
   to this document.  Code Components extracted from this document must
   include Simplified BSD License text as described in Section 4.e of
   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.

Table of Contents

   1.  Introduction  . . . . . . . . . . . . . . . . . . . . . . . .   3
   2.  Terminology . . . . . . . . . . . . . . . . . . . . . . . . .   5
   3.  Protocol  . . . . . . . . . . . . . . . . . . . . . . . . . .   5
     3.1.  Device Authorization Request  . . . . . . . . . . . . . .   5
     3.2.  Device Authorization Response . . . . . . . . . . . . . .   6
     3.3.  User Interaction  . . . . . . . . . . . . . . . . . . . .   7
       3.3.1.  Non-textual Verification URI Optimization . . . . . .   8
     3.4.  Device Access Token Request . . . . . . . . . . . . . . .   9
     3.5.  Device Access Token Response  . . . . . . . . . . . . . .  10
   4.  Discovery Metadata  . . . . . . . . . . . . . . . . . . . . .  11
   5.  Security Considerations . . . . . . . . . . . . . . . . . . .  11
     5.1.  User Code Brute Forcing . . . . . . . . . . . . . . . . .  11
     5.2.  Device Trustworthiness  . . . . . . . . . . . . . . . . .  11
     5.3.  Remote Phishing . . . . . . . . . . . . . . . . . . . . .  11
     5.4.  Session Spying  . . . . . . . . . . . . . . . . . . . . .  12
     5.5.  Non-confidential Clients  . . . . . . . . . . . . . . . .  12
     5.6.  Non-Visual Code Transmission  . . . . . . . . . . . . . .  12
   6.  Usability Considerations  . . . . . . . . . . . . . . . . . .  12
     6.1.  User Code Recommendations . . . . . . . . . . . . . . . .  13
     6.2.  Non-Browser User Interaction  . . . . . . . . . . . . . .  13
   7.  IANA Considerations . . . . . . . . . . . . . . . . . . . . .  14
     7.1.  OAuth URI Registration  . . . . . . . . . . . . . . . . .  14
       7.1.1.  Registry Contents . . . . . . . . . . . . . . . . . .  14
     7.2.  OAuth Extensions Error Registration . . . . . . . . . . .  14
       7.2.1.  Registry Contents . . . . . . . . . . . . . . . . . .  14
     7.3.  OAuth 2.0 Authorization Server Metadata . . . . . . . . .  14
       7.3.1.  Registry Contents . . . . . . . . . . . . . . . . . .  15
   8.  Normative References  . . . . . . . . . . . . . . . . . . . .  15
   Appendix A.  Acknowledgements . . . . . . . . . . . . . . . . . .  15
   Appendix B.  Document History . . . . . . . . . . . . . . . . . .  16
   Authors' Addresses  . . . . . . . . . . . . . . . . . . . . . . .  17



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1.  Introduction

   This OAuth 2.0 protocol flow for browserless and input constrained
   devices, often referred to as the device flow, enables OAuth clients
   to request user authorization from devices that have an internet
   connection, but don't have an easy input method (such as a smart TV,
   media console, picture frame, or printer), or lack a suitable browser
   for a more traditional OAuth flow.  This authorization flow instructs
   the user to perform the authorization request on a secondary device,
   such as a smartphone.

   The device flow is not intended to replace browser-based OAuth in
   native apps on capable devices (like smartphones).  Those apps should
   follow the practices specified in OAuth 2.0 for Native Apps OAuth 2.0
   for Native Apps [RFC8252].

   The only requirements to use this flow are that the device is
   connected to the Internet, and able to make outbound HTTPS requests,
   be able to display or otherwise communicate a URI and code sequence
   to the user, and that the user has a secondary device (e.g., personal
   computer or smartphone) from which to process the request.  There is
   no requirement for two-way communication between the OAuth client and
   the user-agent, enabling a broad range of use-cases.

   Instead of interacting with the end-user's user-agent, the client
   instructs the end-user to use another computer or device and connect
   to the authorization server to approve the access request.  Since the
   client cannot receive incoming requests, it polls the authorization
   server repeatedly until the end-user completes the approval process.






















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      +----------+                                +----------------+
      |          |>---(A)-- Client Identifier --->|                |
      |          |                                |                |
      |          |<---(B)-- Verification Code, --<|                |
      |          |              User Code,        |                |
      |          |         & Verification URI     |                |
      |  Device  |                                |                |
      |  Client  |         Client Identifier &    |                |
      |          |>---(E)-- Verification Code --->|                |
      |          |    polling...                  |                |
      |          |>---(E)-- Verification Code --->|                |
      |          |                                |  Authorization |
      |          |<---(F)-- Access Token --------<|     Server     |
      +----------+  (w/ Optional Refresh Token)   |                |
            v                                     |                |
            :                                     |                |
           (C) User Code & Verification URI       |                |
            :                                     |                |
            v                                     |                |
      +----------+                                |                |
      | End-user |                                |                |
      |    at    |<---(D)-- User authenticates -->|                |
      |  Browser |                                |                |
      +----------+                                +----------------+

                          Figure 1: Device Flow.

   The device flow illustrated in Figure 1 includes the following steps:

      (A) The client requests access from the authorization server and
      includes its client identifier in the request.

      (B) The authorization server issues a verification code, an end-
      user code, and provides the end-user verification URI.

      (C) The client instructs the end-user to use its user-agent
      (elsewhere) and visit the provided end-user verification URI.  The
      client provides the end-user with the end-user code to enter in
      order to grant access.

      (D) The authorization server authenticates the end-user (via the
      user-agent) and prompts the end-user to grant the client's access
      request.  If the end-user agrees to the client's access request,
      the end-user enters the end-user code provided by the client.  The
      authorization server validates the end-user code provided by the
      end-user.





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      (E) While the end-user authorizes (or denies) the client's request
      (step D), the client repeatedly polls the authorization server to
      find out if the end-user completed the end-user authorization
      step.  The client includes the verification code and its client
      identifier.

      (F) Assuming the end-user granted access, the authorization server
      validates the verification code provided by the client and
      responds back with the access token.

2.  Terminology

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
   "OPTIONAL" in this document are to be interpreted as described in
   [RFC2119].

   Device Authorization Endpoint:
      The authorization server's endpoint capable of issuing device
      verification codes, user codes, and verification URLs.

   Device Verification Code:
      A short-lived token representing an authorization session.

   End-User Verification Code:
      A short-lived token which the device displays to the end user, is
      entered by the end-user on the authorization server, and is thus
      used to bind the device to the end-user.

3.  Protocol

3.1.  Device Authorization Request

   The client initiates the flow by requesting a set of verification
   codes from the authorization server by making an HTTP "POST" request
   to the device authorization endpoint.  The client constructs the
   request with the following parameters, encoded with the "application/
   x-www-form-urlencoded" content type:

   client_id
      REQUIRED.  The client identifier as described in Section 2.2 of
      [RFC6749].

   scope
      OPTIONAL.  The scope of the access request as described by
      Section 3.3 of [RFC6749].





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   For example, the client makes the following HTTPS request (line
   breaks are for display purposes only):

      POST /device_authorization HTTP/1.1
      Host: server.example.com
      Content-Type: application/x-www-form-urlencoded

      client_id=459691054427

   Parameters sent without a value MUST be treated as if they were
   omitted from the request.  The authorization server MUST ignore
   unrecognized request parameters.  Request and response parameters
   MUST NOT be included more than once.

3.2.  Device Authorization Response

   In response, the authorization server generates a device verification
   code and an end-user code that are valid for a limited time, and
   includes them in the HTTP response body using the "application/json"
   format with a 200 (OK) status code.  The response contains the
   following parameters:

   device_code
      REQUIRED.  The device verification code.

   user_code
      REQUIRED.  The end-user verification code.

   verification_uri
      REQUIRED.  The end-user verification URI on the authorization
      server.  The URI should be short and easy to remember as end-users
      will be asked to manually type it into their user-agent.

   verification_uri_complete
      OPTIONAL.  A verification URI that includes the "user_code" (or
      other information with the same function as the "user_code"),
      designed for non-textual transmission.

   expires_in
      OPTIONAL.  The lifetime in seconds of the "device_code" and
      "user_code".

   interval
      OPTIONAL.  The minimum amount of time in seconds that the client
      SHOULD wait between polling requests to the token endpoint.

   For example:




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   HTTP/1.1 200 OK
   Content-Type: application/json
   Cache-Control: no-store

   {
     "device_code":"GMMhmHCXhWEzkobqIHGG_EnNYYsAkukHspeYUk9E8",
     "user_code":"WDJB-MJHT",
     "verification_uri":"https://www.example.com/device",
     "verification_uri_complete":"https://www.example.com/device?user_code=WDJB-MJHT",
     "expires_in" : 1800,
     "interval": 5
   }

3.3.  User Interaction

   After receiving a successful Authorization Response, the client
   displays or otherwise communicates the "user_code" and the
   "verification_uri" to the end-user, and instructs them to visit the
   URI in a user agent on a secondary device (for example, in a browser
   on their mobile phone), and enter the user code.

                  +-----------------------------------------------+
                  |                                               |
                  |  Using a browser on another device, visit:    |
                  |  https://example.com/device                   |
                  |                                               |
                  |  And enter the code:                          |
                  |  WDJB-MJHT                                    |
                  |                                               |
                  +-----------------------------------------------+

                    Figure 2: Example User Instruction

   The authorizing user navigates to the "verification_uri" and
   authenticates with the authorization server in a secure TLS-protected
   session.  The authorization server prompts the end-user to identify
   the device authorization session by entering the "user_code" provided
   by the client.  The authorization server should then inform the user
   about the action they are undertaking, and ask them to approve or
   deny the request.  Once the user interaction is complete, the server
   informs the user to return to their device.

   During the user interaction, the device continuously polls the token
   endpoint with the "device_code", as detailed in Section 3.4, until
   the user completes the interaction, the code expires, or another
   error occurs.  The "device_code" is not intended for the end-user and
   MUST NOT be displayed or communicated.




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   Authorization servers supporting this specification MUST implement a
   user interaction sequence that starts with the user navigating to
   "verification_uri" and continues with them supplying the "user_code"
   at some stage during the interaction.  Other than that, the exact
   sequence and implementation of the user interaction is up to the
   authorization server, and is out of scope of this specification.

   It is NOT RECOMMENDED for authorization servers to include the user
   code in the verification URI ("verification_uri"), as this increases
   the length and complexity of the URI that the user must type.  The
   next section documents user interaction with
   "verification_uri_complete", which is designed to carry this
   information.

3.3.1.  Non-textual Verification URI Optimization

   When "verification_uri_complete" is included in the Authorization
   Response (Section 3.2), clients MAY present this URI in a non-textual
   manner using any method that results in the browser being opened with
   the URI, such as with QR codes or NFC, to save the user typing the
   URI.

   For usability reasons, it is RECOMMENDED for clients to still display
   the textual verification URI ("verification_uri") for users not able
   to use such a shortcut.  Clients MUST still display the "user_code",
   as the authorization server may still require the user to confirm it
   to disambiguate devices, or as a remote phishing mitigation (See
   Section 5.3).

                  +-------------------------------------------------+
                  |                                                 |
                  |  Using a browser on another     +------------+  |
                  |  device, visit:                 |[_]..  . [_]|  |
                  |  https://example.com/device     | .  ..   . .|  |
                  |                                 | . .  . ....|  |
                  |                                 |.   . . .   |  |
                  |  And enter the code:            |[_]. ... .  |  |
                  |  WDJB-MJHT                      +------------+  |
                  |                                                 |
                  +-------------------------------------------------+

   Figure 3: Example User Instruction With QR Code Representation of the
                         Complete Verification URI








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3.4.  Device Access Token Request

   After displaying instructions to the user, the client makes an Access
   Token Request to the token endpoint with a "grant_type" of
   "urn:ietf:params:oauth:grant-type:device_code".  This is an extension
   grant type (as defined by Section 4.5 of [RFC6749]) with the
   following parameters:

   grant_type
      REQUIRED.  Value MUST be set to "urn:ietf:params:oauth:grant-
      type:device_code".

   device_code
      REQUIRED.  The device verification code, "device_code" from the
      Device Authorization Response, defined in Section 3.2.

   client_id
      REQUIRED, if the client is not authenticating with the
      authorization server as described in Section 3.2.1. of [RFC6749].

   For example, the client makes the following HTTPS request (line
   breaks are for display purposes only):


      POST /token HTTP/1.1
      Host: server.example.com
      Content-Type: application/x-www-form-urlencoded

      grant_type=urn%3Aietf%3Aparams%3Aoauth%3Agrant-type%3Adevice_code
      &device_code=GMMhmHCXhWEzkobqIHGG_EnNYYsAkukHspeYUk9E8
      &client_id=459691054427


   If the client was issued client credentials (or assigned other
   authentication requirements), the client MUST authenticate with the
   authorization server as described in Section 3.2.1 of [RFC6749].
   Note that there are security implications of statically distributed
   client credentials, see Section 5.5.

   The response to this request is defined in Section 3.5.  Unlike other
   OAuth grant types, it is expected for the client to try the Access
   Token Request repeatedly in a polling fashion, based on the error
   code in the response.








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3.5.  Device Access Token Response

   If the user has approved the grant, the token endpoint responds with
   a success response defined in Section 5.1 of [RFC6749]; otherwise it
   responds with an error, as defined in Section 5.2 of [RFC6749].

   In addition to the error codes defined in Section 5.2 of [RFC6749],
   the following error codes are specific for the device flow:

   authorization_pending
      The authorization request is still pending as the end-user hasn't
      yet completed the user interaction steps (Section 3.3).  The
      client should repeat the Access Token Request to the token
      endpoint.

   slow_down
      The client is polling too quickly and should back off at a
      reasonable rate.

   expired_token
      The "device_code" has expired.  The client will need to make a new
      Device Authorization Request.

   The error codes "authorization_pending" and "slow_down" are
   considered soft errors.  The client should continue to poll the token
   endpoint by repeating the Device Token Request (Section 3.4) when
   receiving soft errors, increasing the time between polls if a
   "slow_down" error is received.  Other error codes are considered hard
   errors; the client should stop polling and react accordingly, for
   example, by displaying an error to the user.

   If the verification codes have expired, the server SHOULD respond
   with the standard OAuth error "invalid_grant".  Clients MAY then
   choose to start a new device authorization session.

   The interval at which the client polls MUST NOT be more frequent than
   the "interval" parameter returned in the Device Authorization
   Response (see Section 3.2).  If no interval was provided, the client
   MUST use a reasonable default polling interval.

   The assumption of this specification is that the secondary device the
   user is authorizing the request on does not have a way to communicate
   back to the OAuth client.  Only a one-way channel is required to make
   this flow useful in many scenarios.  For example, an HTML application
   on a TV that can only make outbound requests.  If a return channel
   were to exist for the chosen user interaction interface, then the
   device MAY wait until notified on that channel that the user has




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   completed the action before initiating the token request.  Such
   behavior is, however, outside the scope of this specification.

4.  Discovery Metadata

   Support for the device flow MAY be declared in the OAuth 2.0
   Authorization Server Metadata [I-D.ietf-oauth-discovery] with the
   following metadata:

   device_authorization_endpoint
      OPTIONAL.  URL of the authorization server's device authorization
      endpoint defined in Section 3.1.

5.  Security Considerations

5.1.  User Code Brute Forcing

   Since the user code is typed by the user, the entropy is typically
   less than would be used for the device code or other OAuth bearer
   token types.  It is therefore recommended that the server rate-limit
   user code attempts.  The user code SHOULD have enough entropy that
   when combined with rate limiting makes a brute-force attack
   infeasible.

5.2.  Device Trustworthiness

   Unlike other native application OAuth 2.0 flows, the device
   requesting the authorization is not the same as the device that the
   user grants access from.  Thus, signals from the approving user's
   session and device are not relevant to the trustworthiness of the
   client device.

5.3.  Remote Phishing

   It is possible for the device flow to be initiated on a device in an
   attacker's possession.  For example, the attacker might send an email
   instructing the target user to visit the verification URL and enter
   the user code.  To mitigate such an attack, it is RECOMMENDED to
   inform the user that they are authorizing a device during the user
   interaction step (see Section 3.3), and to confirm that the device is
   in their possession.

   For authorization servers that support the option specified in
   Section 3.3.1 for the client to append the user code to the
   authorization URI, it is particularly important to confirm that the
   device is in the user's possession, as the user no longer has to type
   the code manually.  One possibility is to display the code during the




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   authorization flow, and asking the user to verify that the same code
   is being displayed on the device they are setting up.

   The user code needs to have a long enough lifetime to be useable
   (allowing the user to retrieve their secondary device, navigate to
   the verification URI, login, etc.), but should be sufficiently short
   to limit the usability of a code obtained for phishing.  This doesn't
   prevent a phisher presenting a fresh token, particularly in the case
   they are interacting with the user in real time, but it does limit
   the viability of codes sent over email or SMS.

5.4.  Session Spying

   While the device is pending authorization, it may be possible for a
   malicious user to spy on the device user interface and hijack the
   session by completing the authorization faster than the user that
   initiated it.  Devices SHOULD take into account the operating
   environment when considering how to communicate the code to the user
   to reduce the chances it will be observed by a malicious user.

5.5.  Non-confidential Clients

   Most device clients are incapable of being confidential clients, as
   secrets that are statically included as part of an app distributed to
   multiple users cannot be considered confidential.  For such clients,
   the recommendations of Section 5.3.1 of [RFC6819] and Section 8.9 of
   [RFC8252] apply.

5.6.  Non-Visual Code Transmission

   There is no requirement that the user code be displayed by the device
   visually.  Other methods of one-way communication can potentially be
   used, such as text-to-speech audio, or Bluetooth Low Energy.  To
   mitigate an attack in which a malicious user can bootstrap their
   credentials on a device not in their control, it is RECOMMENDED that
   any chosen communication channel only be accessible by people in
   close proximity.  E.g., users who can see, or hear the device, or
   within range of a short-range wireless signal.

6.  Usability Considerations

   This section is a non-normative discussion of usability
   considerations.








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6.1.  User Code Recommendations

   For many users, their nearest Internet-connected device will be their
   mobile phone, and typically these devices offer input methods that
   are more time consuming than a computer keyboard to change the case
   or input numbers.  To improve usability (improving entry speed, and
   reducing retries), these limitations should be taken into account
   when selecting the user-code character set.

   One way to improve input speed is to restrict the character set to
   case-insensitive A-Z characters, with no digits.  These characters
   can typically be entered on a mobile keyboard without using modifier
   keys.  Further removing vowels to avoid randomly creating words
   results in the base-20 character set: "BCDFGHJKLMNPQRSTVWXZ".  Dashes
   or other punctuation may be included for readability.

   An example user code following this guideline, with an entropy of
   20^8: "WDJB-MJHT".

   Pure numeric codes are also a good choice for usability, especially
   for clients targeting locales where A-Z character keyboards are not
   used, through their length needs to be longer to maintain a high
   entropy.

   An example numeric user code, with an entropy of 10^9: "019-450-730".

   The server should ignore any characters like punctuation that are not
   in the user-code character set.  Provided that the character set
   doesn't include characters of different case, the comparison should
   be case insensitive.

6.2.  Non-Browser User Interaction

   Devices and authorization servers MAY negotiate an alternative code
   transmission and user interaction method in addition to the one
   described in Section 3.3.  Such an alternative user interaction flow
   could obviate the need for a browser and manual input of the code,
   for example, by using Bluetooth to transmit the code to the
   authorization server's companion app.  Such interaction methods can
   utilize this protocol, as ultimately, the user just needs to identify
   the authorization session to the authorization server; however, user
   interaction other than via the verification URI is outside the scope
   of this specification.








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7.  IANA Considerations

7.1.  OAuth URI Registration

   This specification registers the following values in the IANA "OAuth
   URI" registry [IANA.OAuth.Parameters] established by [RFC6755].

7.1.1.  Registry Contents

   o  URN: urn:ietf:params:oauth:grant-type:device_code
   o  Common Name: Device flow grant type for OAuth 2.0
   o  Change controller: IESG
   o  Specification Document: Section 3.1 of [[ this specification ]]

7.2.  OAuth Extensions Error Registration

   This specification registers the following values in the IANA "OAuth
   Extensions Error Registry" registry [IANA.OAuth.Parameters]
   established by [RFC6749].

7.2.1.  Registry Contents

   o  Error name: authorization_pending
   o  Error usage location: Token endpoint response
   o  Related protocol extension: [[ this specification ]]
   o  Change controller: IETF
   o  Specification Document: Section 3.5 of [[ this specification ]]

   o  Error name: slow_down
   o  Error usage location: Token endpoint response
   o  Related protocol extension: [[ this specification ]]
   o  Change controller: IETF
   o  Specification Document: Section 3.5 of [[ this specification ]]

   o  Error name: expired_token
   o  Error usage location: Token endpoint response
   o  Related protocol extension: [[ this specification ]]
   o  Change controller: IETF
   o  Specification Document: Section 3.5 of [[ this specification ]]

7.3.  OAuth 2.0 Authorization Server Metadata

   This specification registers the following values in the IANA "OAuth
   2.0 Authorization Server Metadata" registry [IANA.OAuth.Parameters]
   established by [I-D.ietf-oauth-discovery].






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7.3.1.  Registry Contents

   o  Metadata name: device_authorization_endpoint
   o  Metadata Description: The Device Authorization Endpoint.
   o  Change controller: IESG
   o  Specification Document: Section 4 of [[ this specification ]]

8.  Normative References

   [I-D.ietf-oauth-discovery]
              Jones, M., Sakimura, N., and J. Bradley, "OAuth 2.0
              Authorization Server Metadata", draft-ietf-oauth-
              discovery-05 (work in progress), January 2017.

   [IANA.OAuth.Parameters]
              IANA, "OAuth Parameters",
              <http://www.iana.org/assignments/oauth-parameters>.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119,
              DOI 10.17487/RFC2119, March 1997,
              <https://www.rfc-editor.org/info/rfc2119>.

   [RFC6749]  Hardt, D., Ed., "The OAuth 2.0 Authorization Framework",
              RFC 6749, DOI 10.17487/RFC6749, October 2012,
              <https://www.rfc-editor.org/info/rfc6749>.

   [RFC6755]  Campbell, B. and H. Tschofenig, "An IETF URN Sub-Namespace
              for OAuth", RFC 6755, DOI 10.17487/RFC6755, October 2012,
              <https://www.rfc-editor.org/info/rfc6755>.

   [RFC6819]  Lodderstedt, T., Ed., McGloin, M., and P. Hunt, "OAuth 2.0
              Threat Model and Security Considerations", RFC 6819,
              DOI 10.17487/RFC6819, January 2013,
              <https://www.rfc-editor.org/info/rfc6819>.

   [RFC8252]  Denniss, W. and J. Bradley, "OAuth 2.0 for Native Apps",
              BCP 212, RFC 8252, DOI 10.17487/RFC8252, October 2017,
              <https://www.rfc-editor.org/info/rfc8252>.

Appendix A.  Acknowledgements

   The starting point for this document was the Internet-Draft draft-
   recordon-oauth-v2-device, authored by David Recordon and Brent
   Goldman, which itself was based on content in draft versions of the
   OAuth 2.0 protocol specification removed prior to publication due to
   a then lack of sufficient deployment expertise.  Thank you to the




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   OAuth working group members who worked on this specification through
   2010.

   The following individuals contributed ideas, feedback, and wording
   that shaped and formed the final specification:

   Roshni Chandrashekhar, Marius Scurtescu, Breno de Medeiros, Stein
   Myrseth, Simon Moffatt, Brian Campbell, James Manger, Justin Richer,
   Ken Wang, Steven E.  Wright, Nat Sakimura, and Torsten Lodderstedt.

Appendix B.  Document History

   [[ to be removed by the RFC Editor before publication as an RFC ]]

   -07

   o  Replaced the "user_code" URI parameter optimization with
      verification_uri_complete following the IETF99 working group
      discussion.
   o  Added security consideration about spying.
   o  Required that device_code not be shown.
   o  Added text regarding a minimum polling interval.

   -06

   o  Clarified usage of the "user_code" URI parameter optimization
      following the IETF98 working group discussion.

   -05

   o  response_type parameter removed from authorization request.
   o  Added option for clients to include the user_code on the
      verification URI.
   o  Clarified token expiry, and other nits.

   -04

   o  Security & Usability sections.  OAuth Discovery Metadata.

   -03

   o  device_code is now a URN.  Added IANA Considerations

   -02

   o  Added token request & response specification.

   -01



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   o  Applied spelling and grammar corrections and added the Document
      History appendix.

   -00

   o  Initial working group draft based on draft-recordon-oauth-
      v2-device.

Authors' Addresses

   William Denniss
   Google
   1600 Amphitheatre Pkwy
   Mountain View, CA  94043
   USA

   Email: wdenniss@google.com
   URI:   http://wdenniss.com/device-flow


   John Bradley
   Ping Identity

   Email: ve7jtb@ve7jtb.com
   URI:   http://www.thread-safe.com/


   Michael B. Jones
   Microsoft

   Email: mbj@microsoft.com
   URI:   http://self-issued.info/


   Hannes Tschofenig
   ARM Limited
   Austria

   Email: Hannes.Tschofenig@gmx.net
   URI:   http://www.tschofenig.priv.at











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