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IETF RFC 9677
Last modified on Thursday, October 31st, 2024 Permanent link to RFC 9677 Search GitHub Wiki for RFC 9677 Show other RFCs mentioning RFC 9677 Internet Engineering Task Force (IETF) F. Fieau Request for Comments: 9677 E. Stephan Category: Standards Track Orange ISSN: 2070-1721 G. Bichot C. Neumann Broadpeak October 2024 Content Delivery Network Interconnection (CDNI) Metadata for Delegated Credentials Abstract The delivery of content over HTTPS involving multiple Content Delivery Networks (CDNs) raises credential management issues. This document defines metadata in the Content Delivery Network Interconnection (CDNI) Control and Metadata interface to set up HTTPS delegation using delegated credentials from an upstream CDN (uCDN) to a downstream CDN (dCDN). Status of This Memo This is an Internet Standards Track document. This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 7841. Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at https://www.rfc-editor.org/info/RFC 9677. Copyright Notice Copyright (c) 2024 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 Revised BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Revised BSD License. Table of Contents 1. Introduction 2. Terminology 3. CDNI Footprint and Capabilities Advertisement Interface (FCI) Capabilities Object for Delegated Credentials 3.1. FCI.DelegatedCredentials 3.2. Expected Usage of the Property Number of Supported Delegated Credentials 4. CDNI Metadata Interface (MI) Metadata Object for Delegated Credentials 5. Delegated Credentials Call Flow 6. IANA Considerations 6.1. CDNI MI.DelegatedCredentials Payload Type 6.2. CDNI FCI.DelegatedCredentials Payload Type 7. Security Considerations 8. Privacy Considerations 9. References 9.1. Normative References 9.2. Informative References Authors' Addresses 1. Introduction Content delivery over HTTPS utilizing one or more Content Delivery Networks (CDNs) along the delivery path necessitates the management of credentials. This requirement is particularly pertinent when an entity delegates the delivery of content via HTTPS to another trusted entity. This document specifies the CDNI Metadata interface for establishing HTTPS delegation through the use of delegated credentials, as defined in [RFC 9345], between an upstream CDN (uCDN) and a downstream CDN (dCDN). 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 BCP 14 [RFC 2119] [RFC 8174] when, and only when, they appear in all capitals, as shown here. This document uses terminology from the CDNI specifications -- CDNI framework [RFC 7336], CDNI requirements [RFC 7337], and CDNI Metadata interface [RFC 8006]. 3. CDNI Footprint and Capabilities Advertisement Interface (FCI) Capabilities Object for Delegated Credentials A dCDN should advertise its supported delegation methods using the Footprint and Capabilities Advertisement interface (FCI) as defined in [RFC 8008]. The FCI.Metadata object enables a dCDN to communicate its capabilities and the Metadata interface (MI) objects it supports. To indicate support for delegated credentials, the dCDN should announce the support for MI.DelegatedCredentials, as illustrated in the example below. { "capabilities": [ { "capability-type": "FCI.Metadata", "capability-value": { "metadata": [ "MI.DelegatedCredentials", "... other supported MI objects ..." ] }, "footprints": [ "Footprint objects" ] } ] } This document also defines an object that informs the uCDN of the number of delegated credentials supported by the dCDN, enabling the uCDN to supply the appropriate number of delegated credentials. To this end, the FCI object, FCI.DelegationCredentials, is introduced. 3.1. FCI.DelegatedCredentials The FCI.DelegationCredentials object enables advertising the maximum number of delegated credentials supported by the dCDN. This number typically (but not necessarily) corresponds to the number of servers designated by the dCDN to support delegated credentials. The property PrivateKeyEncryptionKey contains a public key provided by the dCDN that MUST be used by the uCDN to encrypt private keys whenever such private keys are transmitted to the dCDN using MI.DelegatedCredentials (see Section 4). Property: number-delegated-certs-supported Description: Number of delegated credentials supported by the dCDN. Type: integer Mandatory-to-Specify: Yes Property: PrivateKeyEncryptionKey Description: Public key in JSON Web Key (JWK) format [RFC 7517] of the dCDN to be used by the uCDN to encrypt private keys. Type: string Mandatory-to-Specify: No The following is an example of the FCI.DelegatedCredentials. { "capabilities": [ { "capability-type": "FCI.DelegatedCredentials", "capability-value": { "number-delegated-certs-supported": 10 } "footprints": [ <Footprint objects> ] } ] } 3.2. Expected Usage of the Property Number of Supported Delegated Credentials The dCDN uses the FCI.DelegatedCredentials object to announce the number of servers that support delegated credentials. When the uCDN receives the FCI.DelegatedCredentials object, it can issue the supported number of delegated credentials to the dCDN. When configuring the dCDN, the uCDN MAY decide to provide less than the maximum supported delegated credentials to the dCDN. Note that, within a dCDN, different deployment possibilities of the delegated credentials on the endpoints exist. The dCDN MAY use one single delegated credential and deploy it on multiple endpoints. Alternatively, the dCDN MAY deploy a different delegated credential for each endpoint (provided that the uCDN delivers enough different delegated credentials). This choice is at the discretion of the dCDN and depends on the number of delegated credentials provided by the uCDN. The FCI.DelegationCredentials object does not address expiry or renewal of delegated credentials. Once the uCDN has provided delegated credentials via the MI, the uCDN SHOULD monitor the provided credentials and their expiry times and SHOULD refresh dCDN credentials via the MI in a timely manner. The uCDN may decide not to monitor the validity period of delegated credentials and not to refresh the credentials, for example, in cases of short-term one-shot deployments or once it has decided to deprovision a dCDN. If the delegated credential is not renewed on time by the uCDN, the servers of the dCDN that only have expired delegated credentials MUST refuse any new TLS connection that requires an up-to-date delegated credential. 4. CDNI Metadata Interface (MI) Metadata Object for Delegated Credentials As expressed in [RFC 9345], when an uCDN has delegated to a dCDN, the dCDN presents the "delegated_credential" (rather than its own certificate) during the TLS handshake [RFC 8446] to the User Agent. This implies that the dCDN is also in the possession of the private key corresponding to the public key in DelegatedCredential.cred [RFC 9345]. This allows the User Agent to verify the signature in a CertificateVerify message (Section 4.4.3 of [RFC 8446]) sent and signed by the dCDN. This section defines the MI.DelegatedCredentials object containing an array of delegated credentials and optionally the corresponding private keys. The CDNI MI [RFC 8006] describes the CDNI metadata distribution mechanisms according to which a dCDN can retrieve the MI.DelegatedCredentials object from the uCDN. The properties of the MI.DelegatedCredentials object are as follows: Property: delegated-credentials Description: Array of delegated credentials Type: Array of DelegatedCredentialObject objects Mandatory-to-Specify: Yes The DelegatedCredentialObject object is composed of the following properties: Property: delegated-credential Description: Base64-encoded (as defined in Section 4 of [RFC 4648]) version of a CertificateEntry as defined in Section 4.4.2 of [RFC 8446]. The CertificateEntry MUST contain a DelegatedCredential structure (as defined in [RFC 9345]) using the extension in the CertificateEntry of its end-entity certificate (see Section 4.1.1 of [RFC 9345]). Type: string Mandatory-to-Specify: Yes Property: private-key Description: Encrypted private key corresponding to the public key contained in the DelegatedCredential. The envelope format for this property is JSON Web Encryption (JWE) [RFC 7516] using the base64 compact serialization (Section 7.1 of [RFC 7516]). Type: string Mandatory-to-Specify: No The private-key property is not mandatory. If not specified, it is assumed that the dCDN generated the public-private key pair for the delegated credential itself and provided the public key information with an out-of-band mechanism to the uCDN. See Section 7 for constraints regarding the usage of the private key. If the private-key property is used, the transported private key MUST be encrypted using the PrivateKeyEncryptionKey specified in FCI.DelegatedCredentials. The envelope format for this property MUST use JWE [RFC 7516] using the base64 compact serialization (Section 7.1 of [RFC 7516]), whereas the private key is included as JWE Ciphertext in the JWE. The JWE content-type field MAY be used to signal the media type of the encrypted key. Below, please see an example of an MI.DelegatedCredentials object. { "generic-metadata-type": "MI.DelegatedCredentials", "generic-metadata-value": { "delegated-credentials": [ {"delegated-credential": "cBBfm8KK6pPz/tdgKyedwA... iXCCIAmzMM0R8FLI3Ba0UQ=="}, {"delegated-credential": "4pyIGtjFdys1+9y/4sS/Fg... J+h9lnRY/xgmi65RLGKoRw=="}, {"delegated-credential": "6PWFO0g2AXvUaULXLObcVA... HXoldT/qaYCCNEyCc8JM2A=="} ] } } 5. Delegated Credentials Call Flow An example call-flow using delegated credentials is depicted in Figure 1. The steps are as follows. 1. It is assumed that the uCDN has been provisioned and configured with a certificate. Note that it is out of scope of CDNI and the present document how and from where (e.g., which Content Service Provider) the uCDN acquired its certificate. 2. The uCDN generates a set of delegated credentials (here it is assumed that public keys of the dCDN are known). Note that the uCDN may generate this material at different points in time, e.g., in advance to have a pool of delegated credentials or on demand when the dCDN announces its maximum number of supported delegated credentials. 3. Using the CDNI FCI [RFC 8008], the dCDN advertises MI.DelegatedCredentials capabilities to the uCDN. The dCDN further uses FCI.DelegatedCredentials to advertise the maximum number of supported delegated credentials. 4. Using the CDNI MI [RFC 8006], the dCDN acquires the MI.DelegatedCredentials, retrieving an array of delegated credentials. 5. The client establishes a TLS connection with an endpoint of the dCDN according to [RFC 9345] using the delegated credentials retrieved in step 4. 6. When some delegated credentials are about to expire, the uCDN uses the CDNI MI [RFC 8006] to provide new, valid delegated credentials. User-Agent dCDN uCDN | | | | | [1. uCDN acquires its certificate | | out of scope of CDNI] | | | | | [2. generation of | | delegated credentials] | | | | 3. CDNI FCI used to | advertise support of MI.DelegatedCredentials | and announce number of delegated credentials | supported using FCI.DelegatedCredentials | |-------------------->+ | | | | 4. CDNI MI used to | provide the MI.DelegatedCredentials object | |<--------------------+ | | | . . . [5. TLS handshake according | to [RFC 9345]] . | |<------------------->| | | | | . . . | 6. Some delegated credentials about to expire. | CDNI MI used to | provide new MI.DelegatedCredentials object | |<--------------------+ | | | Figure 1: Example Call Flow of Delegated Credentials in CDNI 6. IANA Considerations IANA has registered the following payload types in the "CDNI Payload Types" registry in the "Content Delivery Network Interconnection (CDNI) Parameters" registry group. +==========================+===========+ | Payload Type | Reference | +==========================+===========+ | MI.DelegatedCredentials | RFC 9677 | +--------------------------+-----------+ | FCI.DelegatedCredentials | RFC 9677 | +--------------------------+-----------+ Table 1 Sections 6.1 and 6.2 provide additional necessary information for the registration of those CDNI payload types (see Section 2.2 of [RFC 7736]). 6.1. CDNI MI.DelegatedCredentials Payload Type Purpose: The purpose of this payload type is to distinguish delegated credentials MI objects. Interface: MI/FCI Encoding: See Section 4. 6.2. CDNI FCI.DelegatedCredentials Payload Type Purpose: The purpose of this payload type is to advertise the number of delegated credentials needed (and any associated capability advertisement). Interface: FCI Encoding: See Section 3.1. 7. Security Considerations The extensions defined enable providing delegated credentials to dCDNs. A delegated credential can only be used by a dCDN if it is in possession of the associated private key. Similarly, an attacker requires access to the private key in order to exploit a delegated credential and impersonate dCDN nodes. Thus, leakage of only the delegated credential without the private key represents a limited security risk. Delegated credentials and associated private keys are short-lived (per default, the maximum validity period is set to 7 days in [RFC 9345]) and as such a single leaked delegated credential with its private key represents a limited security risk. Still, it is NOT RECOMMENDED to send private keys through the MI. Omitting the private key further limits the possible ways an attacker could exploits the delegated credential. If this recommendation is not followed, i.e., the private key is communicated via the MI, the transported private key MUST be encrypted within a JWE envelope using the encryption key (PrivateKeyEncryptionKey) provided within the FCI.DelegatedCredentials by the dCDN. The JWE encryption key (PrivateKeyEncryptionKey) MUST have a strength equal to or larger than the private key it is encrypting for transport. Note that the specified encryption method does not offer forward secrecy. If the dCDN's encryption key becomes compromised in the future, then all encrypted JWEs will become compromised. Due to the short-lived nature of delegated credentials, the impact is limited. It is also important to ensure that an attacker is not able to systematically retrieve a consecutive or consistent set of delegated credentials and associated private keys. Such an attack would allow the attacker to systematically impersonate dCDN nodes. The MI objects defined in the present document are transferred via the interfaces defined in CDNI [RFC 8006]. [RFC 8006] describes how to secure these interfaces, protecting the integrity and confidentiality, as well as ensuring the authenticity of the dCDN and uCDN, which should prevent an attacker from systematically retrieving delegated credentials and associated private keys. 8. Privacy Considerations The FCI and MI objects and the information defined in the present document do not contain any personally identifiable information (PII). As such, this document does not change or alter the confidentiality and privacy considerations outlined in Section 8.2 of [RFC 8006] and Section 7 of [RFC 8008]. A single or systematic retrieval of delegated credentials and associated private keys would allow the attacker to decrypt any data sent by the end user intended for the end service, which may include PII. 9. References 9.1. Normative References [RFC 2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC 2119, March 1997, <https://www.rfc-editor.org/info/RFC 2119>. [RFC 4648] Josefsson, S., "The Base16, Base32, and Base64 Data Encodings", RFC 4648, DOI 10.17487/RFC 4648, October 2006, <https://www.rfc-editor.org/info/RFC 4648>. [RFC 7516] Jones, M. and J. Hildebrand, "JSON Web Encryption (JWE)", RFC 7516, DOI 10.17487/RFC 7516, May 2015, <https://www.rfc-editor.org/info/RFC 7516>. [RFC 7517] Jones, M., "JSON Web Key (JWK)", RFC 7517, DOI 10.17487/RFC 7517, May 2015, <https://www.rfc-editor.org/info/RFC 7517>. [RFC 8006] Niven-Jenkins, B., Murray, R., Caulfield, M., and K. Ma, "Content Delivery Network Interconnection (CDNI) Metadata", RFC 8006, DOI 10.17487/RFC 8006, December 2016, <https://www.rfc-editor.org/info/RFC 8006>. [RFC 8008] Seedorf, J., Peterson, J., Previdi, S., van Brandenburg, R., and K. Ma, "Content Delivery Network Interconnection (CDNI) Request Routing: Footprint and Capabilities Semantics", RFC 8008, DOI 10.17487/RFC 8008, December 2016, <https://www.rfc-editor.org/info/RFC 8008>. [RFC 8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC 8174, May 2017, <https://www.rfc-editor.org/info/RFC 8174>. [RFC 8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol Version 1.3", RFC 8446, DOI 10.17487/RFC 8446, August 2018, <https://www.rfc-editor.org/info/RFC 8446>. [RFC 9345] Barnes, R., Iyengar, S., Sullivan, N., and E. Rescorla, "Delegated Credentials for TLS and DTLS", RFC 9345, DOI 10.17487/RFC 9345, July 2023, <https://www.rfc-editor.org/info/RFC 9345>. 9.2. Informative References [RFC 7336] Peterson, L., Davie, B., and R. van Brandenburg, Ed., "Framework for Content Distribution Network Interconnection (CDNI)", RFC 7336, DOI 10.17487/RFC 7336, August 2014, <https://www.rfc-editor.org/info/RFC 7336>. [RFC 7337] Leung, K., Ed. and Y. Lee, Ed., "Content Distribution Network Interconnection (CDNI) Requirements", RFC 7337, DOI 10.17487/RFC 7337, August 2014, <https://www.rfc-editor.org/info/RFC 7337>. [RFC 7736] Ma, K., "Content Delivery Network Interconnection (CDNI) Media Type Registration", RFC 7736, DOI 10.17487/RFC 7736, December 2015, <https://www.rfc-editor.org/info/RFC 7736>. Authors' Addresses Frédéric Fieau Orange 40-48, avenue de la République 92320 Châtillon France Email: frederic.fieau@orange.com Emile Stephan Orange 2, avenue Pierre Marzin 22300 Lannion France Email: emile.stephan@orange.com Guillaume Bichot Broadpeak 3771 Boulevard des Alliés 35510 Cesson-Sévigné France Email: guillaume.bichot@broadpeak.tv Christoph Neumann Broadpeak 3771 Boulevard des Alliés 35510 Cesson-Sévigné France Email: christoph.neumann@broadpeak.tv RFC TOTAL SIZE: 22771 bytes PUBLICATION DATE: Thursday, October 31st, 2024 LEGAL RIGHTS: The IETF Trust (see BCP 78) |