Internet-Draft | COSE Key Thumbprint | August 2023 |
Isobe & Tschofenig | Expires 8 February 2024 | [Page] |
This specification defines a method for computing a hash value over a COSE Key. It defines which fields in a COSE Key structure are used in the hash computation, the method of creating a canonical form of the fields, and how to hash the byte sequence. The resulting hash value can be used for identifying or selecting a key that is the subject of the thumbprint.¶
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This specification defines a method for computing a hash value (a.k.a. digest) over a COSE Key structure [RFC9052]. It defines which fields in a COSE Key structure are used in the hash computation, the method of creating a canonical form for those fields, and how to hash the byte sequence. The resulting hash value can be used for identifying or selecting the key that is the subject of the thumbprint, for instance, by using the COSE Key Thumbprint value as a "kid" (key ID) value.¶
This specification only defines how thumbprints of COSE keys are created.¶
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.¶
The thumbprint of a COSE Key MUST be computed as follows:¶
The resulting value is the COSE Key Thumbprint with H of the COSE Key. The details of this computation are further described in subsequent sections.¶
Only the required parameters of a key's representation are used when computing its COSE Key Thumbprint value. This section summarizes the required parameters.¶
The "kty" (label: 1) element MUST be present for all key types and the integer value found in the IANA COSE Key Types registry MUST be used. The tstr data type is not used with the kty element.¶
Many COSE Key parameters depend on the chosen key type. The subsection below list the required parameters for commonly used key types.¶
The required parameters for elliptic curve public keys that use the OKP key type, such as X25519, are:¶
The required parameters for elliptic curve public keys that use the EC2 key type, such as NIST P-256, are:¶
Details can be found in Section 7.1 of [RFC9053].¶
Note: [RFC9052] offers both compressed as well as uncompressed point representations. For interoperability, implementations following this specification MUST use the uncompressed point representation. Hence, the y-coordinate is expressed as a bstr. An implementation that uses the compressed point representation MUST compute the uncompressed representation for the purpose of the thumbprint calculation.¶
The required parameters for an RSA public key are:¶
The required parameters for a symmetric key are:¶
Optional parameters of COSE Keys are intentionally not included in the COSE Key Thumbprint computation so that their absence or presence in the COSE Key does not alter the resulting value. The COSE Key Thumbprint value is a digest of the parameters required to represent the key as a COSE Key -- not of additional data that may also accompany the key.¶
Optional parameters are not included so that the COSE Key Thumbprint refers to a key -- not a key with an associated set of key attributes. Different application contexts might or might not include different subsets of optional attributes about the key in the COSE Key structure. If these were included in the calculation of the COSE Key Thumbprint, the values would be different for those COSE Keys, even though the keys are the same. The benefit of including only the required parameters is that the COSE Key Thumbprint of any COSE Key representing the key remains the same, regardless of any other attributes that are present.¶
Different kinds of thumbprints could be defined by other specifications that might include some or all additional COSE Key parameters, if use cases arise where such different kinds of thumbprints would be useful.¶
A specific hash function must be chosen by an application to compute the hash value of the hash input. For example, SHA-256 [RFC6234] might be used as the hash function by the application. While SHA-256 is a good default choice at the time of writing, the hash function of choice can be expected to change over time as the cryptographic landscape evolves.¶
Note that in many cases, only the party that creates a key will need to know the hash function used. A typical usage is for the producer of the key to use the thumbprint value as a "kid" (key ID) value. In this case, the consumer of the "kid" treats it as an opaque value that it uses to select the key.¶
However, in some cases, multiple parties will be reproducing the COSE Key Thumbprint calculation and comparing the results. In these cases, the parties will need to know which hash function was used and use the same one.¶
A key need not be in COSE Key format to create a COSE Key Thumbprint of it. The only prerequisites are that the COSE Key representation of the key be defined and the party creating the COSE KEY Thumbprint be in possession of the necessary key material.¶
COSE Key Thumbprint values are computed on the COSE Key element required to represent a key, rather than all members of a COSE Key that the key is represented in. Thus, they are more analogous to applications that use digests of X.509 Subject Public Key Info (SPKI) values, which are defined in Section 4.1.2.7 of [RFC5280], than to applications that use digests of complete certificate values, as the "x5t" (X.509 certificate SHA-1 thumbprint) [RFC9360] value defined for X.509 certificate objects does. While logically equivalent to a digest of the SPKI representation of the key, a COSE Key Thumbprint is computed over the CBOR representation of that key, rather than over an ASN.1 representation of it.¶
This section demonstrates the COSE Key Thumbprint computation for the following example COSE Key containing an ECC public key.¶
For better readability, the example is first presented in JSON (with the long line broken for display purposes only).¶
{ / kty set to EC2 = Elliptic Curve Keys / 1:2, / crv set to P-256 / -1:1, / public key: x-coordinate / -2:h'65eda5a12577c2bae829437fe338701a10aaa375e1bb5b5de108de439c0 8551d', / public key: y-coordinate / -3:h'1e52ed75701163f7f9e40ddf9f341b3dc9ba860af7e0ca7ca7e9eecd008 4d19c', / kid / 2:'meriadoc.brandybuck@buckland.example' }¶
The example above corresponds to the following CBOR encoding (with link breaks added for display purposes only):¶
A50102200121582065EDA5A12577C2BAE829437FE338701A10AAA375E1BB5B5DE108D E439C08551D2258201E52ED75701163F7F9E40DDF9F341B3DC9BA860AF7E0CA7CA7E9 EECD0084D19C0258246D65726961646F632E6272616E64796275636B406275636B6C6 16E642E6578616D706C65¶
Not all of the parameters from the example above are used in the COSE Key Thumbprint since the required parameters of an elliptic curve public key are:¶
The required order based on Section 4.2.1 of [RFC8949] is:¶
The resulting COSE Key structure, in CBOR diagnostic format with line-breaks added for better readability, with the minimum parameters in the correct order are.¶
{ 1:2, -1:1, -2:h'65eda5a12577c2bae829437fe338701a 10aaa375e1bb5b5de108de439c08551d', -3:h'1e52ed75701163f7f9e40ddf9f341b3d c9ba860af7e0ca7ca7e9eecd0084d19c' }¶
In CBOR encoding the result is (with line-breaks added for display purposes only):¶
A40102200121582065EDA5A12577C2BAE829437FE338701A10AAA375E1BB5B5DE 108DE439C08551D2258201E52ED75701163F7F9E40DDF9F341B3DC9BA860AF7E0 CA7CA7E9EECD0084D19C¶
Using SHA-256, the resulting thumbprint is:¶
496bd8afadf307e5b08c64b0421bf9dc01528a344a43bda88fadd1669da253ec¶
A COSE Key Thumbprint will only uniquely identify a particular key if a single unambiguous COSE Key representation for that key is defined and used when computing the COSE Key Thumbprint.¶
If two asymmetric keys are used by different parties with different key identifiers then the COSE Key Thumbprints will still be equal since the key identifier itself is not included in the thumbprint calculation (similarly to other optional parameters in the COSE_Key structure). When the inclusion of certain optinal parameters in the thumbprint calcuation is important for a given application, this specification is not the appropriate choice.¶
To promote interoperability among implementations, the SHA-256 hash algorithm is mandatory to implement.¶
While thumbprint values are valuable for identifying legitimate keys, comparing thumbprint values is not a reliable means of excluding the use of particular keys (or transformations thereof). The reason is that an attacker may supply a key that is a transformation of a key in order to have it appear to be a different key. For instance, if a legitimate RSA key uses a modulus value N and an attacker supplies a key with modulus 3*N, the modified key would still work about 1/3 of the time, but would appear to be a different key.¶
Producing thumbprints of symmetric keys needs to be done with care. Developers MUST ensure that the symmetric key has sufficient entropy to prevent attackers to precompute tables of symmetric keys with their corresponding hash values. This can be prevented if the symmetric key is a randomly selected key of at least 128 bit length. Using thumbprints with passwords (i.e. low-entropy secrets) is dangerous and MUST be avoided. If a developer is unable to determine whether all symmetric keys used in an application have sufficient entropy, then thumbprints of symmetric keys MUST NOT be used. In general, using thumbprints of symmetric keys should only be used in special applications. In most other deployment scenarios it is more appropriate to utilize a different naming scheme for key identifiers.¶
There are no actions for IANA.¶
We would like to thank the authors of [RFC7638] for their work on the JSON Web Key (JWK) Thumbprint specification. This document applies JWK Thumbprints to COSE Key structures.¶
Additionally, we would like to thank Carsten Bormann, Orie Steele, Ilari Liusvaara, Laurence Lundblade, Daisuke Ajitomi, Michael Richardson, Mike Jones, and Brendan Moran for their feedback.¶