| Internet-Draft | In-Band Key Consistency Checks | July 2023 |
| Pauly & Wood | Expires 11 January 2024 | [Page] |
This document describes an in-band key consistency enforcement mechanism for Privacy Pass deployments wherein the Attester is split from the Issuer and Origin.¶
This note is to be removed before publishing as an RFC.¶
Status information for this document may be found at https://datatracker.ietf.org/doc/draft-pw-privacypass-in-band-consistency/.¶
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Key and configuration consistency is an important preqrequisite for guaranteeing security properties of Privacy Pass. In particular, privacy informally depends on Clients using an Issuer key that many, if not all, other Clients use. If a Client were to receive an Issuer key that was specific to them, or restricted to a small set of Clients, then use of that Issuer key could be used to learn targeted information about the Client. Clients that share the same Issuer key are said to have a consisten key.¶
[CONSISTENCY] describes general patterns for implementing consistency in protocols such as Privacy Pass, and [K-CHECK] describes a protocol-agnostic mechanism for implementing consistency checks that can apply to Privacy Pass. K-Check is an orthogonal protocol for checking consistency of a given key that runs out-of-band of Privacy Pass.¶
This document specifies an in-band consistency check for Privacy Pass. It is only applicable to deployments where the Attester is split from the Origin and Issuer. This is because the Attester is responsible for enforcing consistency on behalf of many Clients.¶
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 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.¶
In Privacy Pass deployment models where the Attester is split from the Origin and Issuer, Clients interact with the Attester to run the issuance protocol for obtaining tokens. In particular, Clients obtain tokens from the Issuer by sending token requests to the Attester, which forwards token requests to the Issuer. As an active, on-path participant in the issuance protocol, the Attester is capable of applying enforcement checks for these token requests. This section describes a simple key consistency enforcement check to ensure that all Clients behind the Attester share a consistent view of the Issuer key.¶
Upon receipt of a token request, which contains a key ID as described in [PRIVACYPASS-ISSUANCE], an Attester does the following:¶
Attesters can update their cached copy of Issuer token directories independently of token requests. Attesters SHOULD refresh their cached copy of the Issuer directory when it becomes invalid (according to cache control headers).¶
Attesters SHOULD enforce that Issuer directories contain few keys suitable for use at any given point in time, and penalize or reject Issuers that advertise too many keys. This is because Clients and Origins may choose different keys from this directory based on their local state, e.g., their clock, and too many keys could be misused for the purposes of partitioning Client anonymity sets.¶
Unlike K-Check, in which Clients can check key consistency against the first valid key in an Issuer private token directory, the Attester consistency check in this document needs to allow for greater flexibility, in particular because Client diversity and differences may lead to different key selections. Attesters need to balance this flexibility against the overall privacy goals of this consistency check. Admitting an unbounded number of keys in the Issuer's directory effectively renders the consistency check meaningless, as each Client could be given a unique key that belongs to the directory set.¶
This document has no IANA actions.¶
This document was the product of the consistency design team in the Privacy Pass working group.¶