Internet-Draft | CoTS | October 2022 |
Wallace, et al. | Expires 13 April 2023 | [Page] |
Trust anchor (TA) stores may be used for several purposes in the Remote Attestation Procedures (RATS) architecture including verifying endorsements, reference values, digital letters of approval, attestations, or public key certificates. This document describes a Concise Reference Integrity Manifest (CoRIM) extension that may be used to convey optionally constrained trust anchor stores containing optionally constrained trust anchors in support of these purposes.¶
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-wallace-rats-concise-ta-stores/.¶
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The RATS architecture [I-D.draft-ietf-rats-architecture] uses the definition of a trust anchor from [RFC6024]: "A trust anchor represents an authoritative entity via a public key and associated data. The public key is used to verify digital signatures, and the associated data is used to constrain the types of information for which the trust anchor is authoritative." In the context of RATS, a trust anchor may be a public key or a symmetric key. This document focuses on trust anchors that are represented as public keys.¶
The Concise Reference Integrity Manifest (CoRIM) [I-D.draft-birkholz-rats-corim] specification defines a binary encoding for reference values using the Concise Binary Object Representation (CBOR) [RFC8949]. Amongst other information, a CoRIM may include key material for use in verifying evidence from an attesting environment (see section 3.11 in [I-D.draft-birkholz-rats-corim]). The extension in this document aims to enable public key material to be decoupled from reference data for several reasons, described below.¶
Trust anchor (TA) and certification authority (CA) public keys may be less dynamic than the reference data that comprises much of a reference integrity manifest (RIM). For example, TA and CA lifetimes are typically fairly long while software versions change frequently. Conveying keys less frequently and indepedent from reference data enables a reduction in size of RIMs used to convey dynamic information and may result in a reduction in the size of aggregated data transferred to a verifier. CoRIMs themselves are signed and some means of conveying CoRIM verification keys is required, though ultimately some out-of-band mechanism is required at least for bootstrapping purposes. Relying parties may verify attestations from both hardware and software sources and some trust anchors may be used to verify attestations from both hardware and software sources, as well. The verification information included in a CoRIM optionally includes a trust anchor, leaving trust anchor management to other mechanisms. Additionally, the CoRIM verification-map structure is tied to CoMIDs, leaving no simple means to convey verification information for CoSWIDs [I-D.draft-ietf-sacm-coswid].¶
This document defines means to decouple TAs and CAs from reference data and adds support for constraining the use of trust anchors, chiefly by limiting the environments to which a set of trust anchors is applicable. This constraints mechanism is similar to that in [fido-metadata] and [fido-service] and should align with existing attestation verification practices that tend to use per-vendor trust anchors. TA store instances may be further constrained using coarse-grained purpose values or a set of finer-grained permitted or excluded claims. The trust anchor formats supported by this draft allow for per-trust anchor constraints, if desired. Conveyance of trust anchors is the primary goal, CA certificates may optionally be included for convenience.¶
This document aims to support different PKI architectures including scenarios with various combinations of the following characteristics:¶
Subsequent specifications may define extensions to express constraints as well as processing rules for evaluating constraints expressed in TA stores, TAs, CA certificates and end entity (EE) certificates. Support for constraints is intended to enable misissued certificates to be rejected at verification time. Any public key that can be used to verify a certificate is assumed to also support verification of revocation information, subject to applicable constraints defined by the revocation mechanism.¶
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.¶
Within RATS, trust anchors may be used to verify digital signatures for a variety of objects, including entity attestation tokens (EATs), CoRIMs, X.509 CA certificates (possibly containing endorsement information), X.509 EE certificates (possibly containing endorsement or attestation information), other attestation data, digital letters of approval [dloa], revocation information, etc. Depending on context, a raw public key may suffice or additional information may be required, such as subject name or subject public key identifier information found in an X.509 certificate. Trust anchors are usually aggregated into sets that are referred to as "trust anchor stores". Different trust anchor stores may serve different functional purposes.¶
Historically, trust anchors and trust anchor stores are not constrained other than by the context(s) in which a trust anchor store is used. The path validation algorithm in [RFC5280] only lists name, public key, public key algorithm and public key parameters as the elements of "trust anchor information". However, there are environments that do constrain trust anchor usage. The RPKI uses extensions from trust anchor certificates as defined in [RFC3779]. FIDO provides a type of constraint by grouping attestation verification root certificates by authenticator model in [fido-metadata].¶
This document aims to support each of these types of models by allowing constrained or unconstrained trust anchors to be grouped by abstract purpose, i.e., similar to traditional trust anchor stores, or grouped by a set of constraints, such as vendor name.¶
An unsigned concise TA stores object is a list of one or more TA stores, each represented below as a concise-ta-store-map element.¶
concise-ta-stores concise-ta-store-map #1 ... concise-ta-store-map #n¶
Each TA store instance identifies a target environment and features one or more public keys. Optional constraints on usage may be defined as well.¶
concise-ta-store-map language store-identity target environment abstract coarse-grained constraints on TA store usage concrete fine-grained constraints on TA store usage public keys (possibly included per-instance constraints)¶
The following sections define the structures to support the concepts shown above.¶
The concise-ta-stores type is the root element for distrbuting sets of trust anchor stores. It contains one or more concise-ta-store-map elements where each element in the list identifies the environments for which a given set of trust anchors is applicable, along with any constraints.¶
concise-ta-stores = [+ concise-ta-store]¶
The $concise-tag-type-choice [I-D.draft-birkholz-rats-corim] is extended to include the concise-ta-stores structure. As shown in Section 4 of [I-D.draft-birkholz-rats-corim], the $concise-tag-type-choice type is used within the unsigned-corim-map structure, which is used within COSE-Sign1-corim structure. The COSE-Sign1-corim provides for integrity of the CoTS data. CoTS structures are not intended for use as stand-alone, unsigned structures. The signature on a CoTS instance SHOULD be verified using a TA associated with the cots purpose (Section 3.3.1).¶
$concise-tag-type-choice /= #6.TBD(bytes .cbor concise-ta-stores)¶
A concise-ta-store-map is a trust anchor store where the applicability of the store is established by the tastore.environment field with optional constraints on use of trust anchors found in the tastore.keys field defined by the tastore.purpose, tastore.perm_claims and tastore.excl_claims fields.¶
concise-ta-store-map = { ? tastore.language => language-type ? tastore.store-identity => tag-identity-map tastore.environments => environment-group-list ? tastore.purposes => [+ $$tas-list-purpose] ? tastore.perm_claims => [+ $$claims-set-claims] ? tastore.excl_claims => [+ $$claims-set-claims] tastore.keys => cas-and-tas-map } ; concise-ta-store-map indices tastore.language = 0 tastore.store-identity = 1 tastore.environment = 2 tastore.purpose = 3 tastore.perm_claims = 4 tastore.excl_claims = 5 tastore.keys = 6¶
The following describes each member of the concise-ta-store-map.¶
A textual language tag that conforms with the IANA Language Subtag Registry [IANA.language-subtag-registry].¶
A composite identifier containing identifying attributes that enable global unique identification of a TA store instance across versions and facilitate linking from other artifacts. The tag-identity-map type is defined in [I-D.draft-birkholz-rats-corim].¶
A list of environment definitions that limit the contexts for which the tastore.keys list is applicable. If the tastore.environment is empty, TAs in the tastore.keys list may be used for any environment.¶
Contains a list of purposes (Section 3.3.1) for which the tastore.keys list may be used. When absent, TAs in the tastore.keys list may be used for any purpose. This field is simliar to the extendedKeyUsage extension defined in [RFC5280]. The initial list of purposes are: cots, corim, comid, coswid, eat, key-attestation, certificate¶
Contains a list of claim values (Section 3.3.2) [I-D.draft-ietf-rats-eat] for which tastore.keys list MAY be used to verify. When this field is absent, TAs in the tastore.keys list MAY be used to verify any claim subject to other restrictions.¶
Contains a list of claim values (Section 3.3.2) [I-D.draft-ietf-rats-eat] for which tastore.keys list MUST NOT be used to verify. When this field is absent, TAs in the tastore.keys list may be used to verify any claim subject to other restrictions.¶
Contains a list of one or more TAs and an optional list of one or more CA certificates.¶
The perm_claims and excl_claims constraints MAY alternatively be expressed as extensions in a TA or CA. Inclusion of support here is intended as an aid for environments that find CBOR encoding support more readily available than DER encoding support.¶
The cas-and-tas-map container provides the means of representing trust anchors and, optionally, CA certificates.¶
trust-anchor = [ format => $pkix-ta-type data => bstr ] cas-and-tas-map = { tastore.tas => [ + trust-anchor ] ? tastore.cas => [ + pkix-cert-data ] } ; cas-and-tas-map indices tastore.tas = 0 tastore.cas = 1 ; format values $pkix-ta-type /= tastore.pkix-cert-type $pkix-ta-type /= tastore.pkix-tainfo-type $pkix-ta-type /= tastore.pkix-spki-type tastore.pkix-cert-type = 0 tastore.pkix-tainfo-type = 1 tastore.pkix-spki-type = 2 ; certificate type pkix-cert-data = bstr¶
The tastore.tas element is used to convey one or more trust anchors and an optional set of one or more CA certificates. TAs are implicitly trusted, i.e., no verification is required prior to use. However, limitations on the use of the TA may be asserted in the corresponding concise-ta-store-map or within the TA itself. The tastore.cas field provides certificates that may be useful in the context where the corresponding concise-ta-store-map is used. These certificates are not implicitly trusted and MUST be validated to a trust anchor before use. End entity certificates SHOULD NOT appear in the tastore.cas list.¶
The structure of the data contained in the data field of a trust-anchor is indicated by the format field. The pkix-cert-type is used to represent a binary, DER-encoded X.509 Certificate as defined in section 4.1 of [RFC5280]. The pkix-key-type is used to represent a binary, DER-encoded SubjectPublicKeyInfo as defined in section 4.1 of [RFC5280]. The pkix-tainfo-type is used to represent a binary, DER-encoded TrustAnchorInfo as defined in section 2 of [RFC5914].¶
The $pkix-ta-type provides an extensible means for representing trust anchor information. It is defined here as supporting the pkix-cert-type, pkix-spki-type or pkix-tainfo-type. The pkix-spki-type may be used where only a raw pubilc key is necessary. The pkix-cert-type may be used for most purposes, including scenarios where a raw public key is sufficient and those where additional information from a certificate is required. The pkix-tainfo-type is included to support scenarios where constraints information is directly associated with a public key or certificate (vs. constraints for a TA set as provided by tastore.purpose, tastore.perm_claims and tastore.excl_claims).¶
The pkix-cert-data type is used to represent a binary, DER-encoded X.509 Certificate.¶
In CoRIM, "composite devices or systems are represented by a collection of Concise Module Identifiers (CoMID) and Concise Software Identifiers (CoSWID)". For trust anchor management purposes, targeting specific devices or systems may be too granular. For example, a trust anchor or set of trust anchors may apply to multiple device models or versions. The environment-map definition as used in a CoRIM is tightly bound to a CoMID. To allow for distribution of key material applicable to a specific or range of devices or software, the envrionment-group-list and environment-group-map are defined as below. These aim to enable use of coarse-grained naturally occurring values, like vendor, make, model, etc. to determine if a set of trust anchors is applicable to an environment.¶
environment-group-list = [* environment-group-list-map] environment-group-list-map = { ? tastore.environment_map => environment-map, ? tastore.concise_swid_tag => abbreviated-swid-tag, ? tastore.named_ta_store => named-ta-store, } ; environment-group-list-map indices tastore.environment_map = 0 tastore.abbreviated_swid_tag = 1 tastore.named_ta_store = 2¶
An environment-group-list is a list of one or more environment-group-list-map elements that are used to determine if a given context is applicable. An empty list signifies all contexts SHOULD be considered as applicable.¶
An environment-group-list-map is one of environment-map[I-D.draft-birkholz-rats-corim], abbreviated-swid-tag-map (Section 3.2.2) or named-ta-store (Section 3.2.3).¶
As defined in [I-D.draft-birkholz-rats-corim], an envirionment-map may contain class-map, $instance-id-type-choice, $group-id-type-choice.¶
QUESTION: Should the above dispense with environment_map and concise_swid_tag and use or define some identity-focused structure with information common to both (possibly class-map from [I-D.draft-birkholz-rats-corim])? If not, should a more complete CoMID representation be used (instead of environment_map)?¶
The abbreviated-swid-tag-map allows for expression of fields from a concise-swid-tag [I-D.draft-ietf-sacm-coswid] with all fields except entity designated as optional, compared to the concise-swid-tag definition that requires tag-id, tag-version and software-name to be present.¶
abbreviated-swid-tag-map = { ? tag-id => text / bstr .size 16, ? tag-version => integer, ? corpus => bool, ? patch => bool, ? supplemental => bool, ? software-name => text, ? software-version => text, ? version-scheme => $version-scheme, ? media => text, ? software-meta => one-or-more<software-meta-entry>, entity => one-or-more<entity-entry>, ? link => one-or-more<link-entry>, ? payload-or-evidence, * $$coswid-extension, global-attributes, }¶
This specification allows for defining sets of trust anchors that are associated with an arbitrary name instead of relative to information typically expressed in a CoMID or CoSWID. Relying parties MUST be configured using the named-ta-store value to select a corresponding concise-ta-store-map for use.¶
named-ta-store = tstr¶
The $$tas-list-purpose type provides an extensible means of expressions actions for which the corresponding keys are applicable. For example, trust anchors in a concise-ta-store-map with purpose field set to eat may not be used to verify certification paths. Extended key usage values corresponding to each purpose listed below (except for certificate) are defined in a companion specification.¶
$$tas-list-purpose /= "cots" $$tas-list-purpose /= "corim" $$tas-list-purpose /= "coswid" $$tas-list-purpose /= "eat" $$tas-list-purpose /= "key-attestation" $$tas-list-purpose /= "certificate" $$tas-list-purpose /= "dloa"¶
TODO - define verification targets for each purpose. QUESTION - should this have a registry?¶
A concise-ta-store-map may include lists of permitted and/or excluded claims [I-D.draft-ietf-rats-eat] that limit the applicability of trust anchors present in a cas-and-tas-map. A subsequent specification will define processing rules for evaluating constraints expressed in TA stores, TAs, CA certificates and end entity certificates.¶
When verifying a signature using a public key that chains back to a concise-ta-stores instance, elements in the concise-ta-stores array are processed beginning with the first element and proceeding until either a matching set is found that serves the desired purpose or no more elements are available. Each element is evaluated relative to the context, i.e., environment, purpose, artifact contents, etc.¶
For example, when verifying a CoRIM, each element in a triples-group MUST have an environment value that matches an environment-group-list-map element associated with the concise-ta-store-map containing the trust anchor used to verify the CoMID. Similarly, when verifying a CoSWID, the values in a abbreviated-swid-tag element from the concise-ta-store-map MUST match the CoSWID tag being verified. When verifying a certificate with DICE attestation extension, the information in each DiceTcbInfo element MUST be consistent with an environment-group-list-map associated with the concise-ta-store-map.¶
[I-D.draft-birkholz-rats-corim] defers verification rules to [RFC8152] and this document follows suit with the additional recommendation that the public key used to verify the RIM SHOULD be present in or chain to a public key present in a concise-ta-store-map with purpose set to cots.¶
The CDDL definitions present in this document are provided below. Definitions from [I-D.draft-birkholz-rats-corim] are not repeated here.¶
concise-ta-stores = [+ concise-ta-store-map] $concise-tag-type-choice /= #6.TBD(bytes .cbor concise-ta-stores) concise-ta-store-map = { ? tastore.language => language-type ? tastore.store-identity => tag-identity-map tastore.environments => environment-group-list ? tastore.purposes => [+ $$tas-list-purpose] ? tastore.perm_claims => [+ $$claims-set-claims] ? tastore.excl_claims => [+ $$claims-set-claims] tastore.keys => cas-and-tas-map } ; concise-ta-store-map indices tastore.language = 0 tastore.store-identity = 1 tastore.environment = 2 tastore.purpose = 3 tastore.perm_claims = 4 tastore.excl_claims = 5 tastore.keys = 6 trust-anchor = [ format => $pkix-ta-type data => bstr ] cas-and-tas-map = { tastore.tas => [ + trust-anchor ] ? tastore.cas => [ + pkix-cert-type ] } ; cas-and-tas-map indices tastore.tas = 0 tastore.cas = 1 ; format values $pkix-ta-type /= tastore.pkix-cert-type $pkix-ta-type /= tastore.pkix-tainfo-type $pkix-ta-type /= tastore.pkix-spki-type tastore.pkix-cert-type = 0 tastore.pkix-tainfo-type = 1 tastore.pkix-spki-type = 2 ; certificate type pkix-cert-data = bstr environment-group-list = [* environment-group-list-map] environment-group-list-map = { ? environment-map => environment-map, ? concise-swid-tag => abbreviated-swid-tag, ? named-ta-store => named-ta-store, } abbreviated-swid-tag = { ? tag-version => integer, ? corpus => bool, ? patch => bool, ? supplemental => bool, ? software-name => text, ? software-version => text, ? version-scheme => $version-scheme, ? media => text, ? software-meta => one-or-more<software-meta-entry>, ? entity => one-or-more<entity-entry>, ? link => one-or-more<link-entry>, ? payload-or-evidence, * $$coswid-extension, global-attributes, } named-ta-store = tstr $tas-list-purpose /= "cots" $tas-list-purpose /= "corim" $tas-list-purpose /= "comid" $tas-list-purpose /= "coswid" $tas-list-purpose /= "eat" $tas-list-purpose /= "key-attestation" $tas-list-purpose /= "certificate" $tas-list-purpose /= "dloa"¶
The following examples are isolated concise-ta-store-map instances shown as JSON for ease of reading. The final example is an ASCII hex representation of a CBOR-encoded concise-ta-stores instance containing each example below (and using a placeholder value for the concise-ta-stores tag).¶
The TA store below contains a TA from a single organization ("Zesty Hands, Inc,") that is used to verify CoRIMs for that organization. Because this TA does not verify certificates, a bare public key is appropriate. It features a tag identity field containing a UUID for the tag identity and a version indication.¶
{ "tag-identity": { "id": "ab0f44b1-bfdc-4604-ab4a-30f80407ebcc", "version": 5 }, "environments": [ { "environment": { "class": { "vendor": "Worthless Sea, Inc." } } } ], "keys": { "tas": [ { "format": 2, "data": "MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAErYoMAdqe2gJT3CvCcifZxyE9+ N8T6Jy5zbeo5LYtnOipmi1wXA9/gNtlwAbRCRQitH/GEcvUaGlzPZxIOITV/g==" } ] } }¶
The TA store below features three TAs from different organizations grouped as a TA store with the name "Miscellaneous TA Store". The first TA is an X.509 certificate. The second and third TAs are TrustAnchorInfo objects containing X.509 certificates. Though not shown in this example, constraints could be added to the TrustAnchorInfo elements, i.e., to restrict verification to attestations asserting a specific vendor name. It features a tag identity field containing a string as the tag identity with no version field present.¶
{ "tag-identity": { "id": "some_tag_identity" }, "environments": [ { "namedtastore": "Miscellaneous TA Store" } ], "keys": { "tas": [ { "format": 0, "data": " MIIBvTCCAWSgAwIBAgIVANCdkL89UlzHc9Ui7XfVniK7pFuIMAoGCCqGSM49BAMCMD4 xCzAJBgNVBAYMAlVTMRAwDgYDVQQKDAdFeGFtcGxlMR0wGwYDVQQDDBRFeGFtcGxlIF RydXN0IEFuY2hvcjAeFw0yMjA1MTkxNTEzMDdaFw0zMjA1MTYxNTEzMDdaMD4xCzAJB gNVBAYMAlVTMRAwDgYDVQQKDAdFeGFtcGxlMR0wGwYDVQQDDBRFeGFtcGxlIFRydXN0 IEFuY2hvcjBZMBMGByqGSM49AgEGCCqGSM49AwEHA0IABONRqhA5JAekvQN8oLwRVND nAfBnTznLLE+SEGks677sHSeXfcVhZXUeDiN7/fsVNumaiEWRQpZh3zXPwL8rUMyjPz A9MB0GA1UdDgQWBBQBXEXJrLBGKnFd1xCgeMAVSfEBPzALBgNVHQ8EBAMCAoQwDwYDV R0TAQH/BAUwAwEB/zAKBggqhkjOPQQDAgNHADBEAiALBidABsfpzG0lTL9Eh9b6AUbq nzF+koEZbgvppvvt9QIgVoE+bhEN0j6wSPzePjLrEdD+PEgyjHJ5rbA11SPq/1M=" }, { "format": 1, "data": " ooICtjCCArIwWTATBgcqhkjOPQIBBggqhkjOPQMBBwNCAASXz21w12owQAx58euratY WiHEkhxDU9MEgetrvAtGYZxNnkfLCsp9vLcw8ISXC8tL97k9ZCUtnr0MzLw37XKRABB T22tHlEou/DenpU0Ozccb3/+fibjCCAj0wUjELMAkGA1UEBgwCVVMxGjAYBgNVBAoME Vplc3R5IEhhbmRzLCBJbmMuMScwJQYDVQQDDB5aZXN0eSBIYW5kcywgSW5jLiBUcnVz dCBBbmNob3KgggHlMIIBi6ADAgECAhQL3EqgUXlQPljyddVSRnNHvK1MzAKBggqhkjO PQQDAjBSMQswCQYDVQQGDAJVUzEaMBgGA1UECgwRWmVzdHkgSGFuZHMsIEluYy4xJzA lBgNVBAMMHlplc3R5IEhhbmRzLCBJbmMuIFRydXN0IEFuY2hvcjAeFw0yMjA1MTkxNT EzMDdaFw0zMjA1MTYxNTEzMDdaMFIxCzAJBgNVBAYMAlVTMRowGAYDVQQKDBFaZXN0e SBIYW5kcywgSW5jLjEnMCUGA1UEAwweWmVzdHkgSGFuZHMsIEluYy4gVHJ1c3QgQW5j aG9yMFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEl89tcNdqMEAMefHrq2rWFohxJIc Q1PTBIHra7wLRmGcTZ5HywrKfby3MPCElwvLS/e5PWQlLZ69DMy8N+1ykQKM/MD0wHQ YDVR0OBBYEFPba0eUSi78N6elTQ7Nxxvf/5+JuMAsGA1UdDwQEAwIChDAPBgNVHRMBA f8EBTADAQH/MAoGCCqGSM49BAMCA0gAMEUCIB2li+f6RCxs2EnvNWciSpIDwiUViWay Gv1A8xks80eYAiEAmCez4KGrolFKOZT6bvqf1sYQuJBfvtk/y1JQdUvoqlg=" }, { "format": 1, "data": " ooIC1TCCAtEwWTATBgcqhkjOPQIBBggqhkjOPQMBBwNCAATN0f5kzywEzZOYbaV23O3 N8cku39JoLNjlHPwECbXDDWp0LpAO1z248/hoy6UW/TZMTPPR/93XwHsG16mSFy8XBB SKhM/5gJWjvDbW7qUY1peNm9cfYDCCAlwwXDELMAkGA1UEBgwCVVMxHzAdBgNVBAoMF lNub2JiaXNoIEFwcGFyZWwsIEluYy4xLDAqBgNVBAMMI1Nub2JiaXNoIEFwcGFyZWws IEluYy4gVHJ1c3QgQW5jaG9yoIIB+jCCAZ+gAwIBAgIUEBuTRGXAEEVEHhu4xafAnqm +qYgwCgYIKoZIzj0EAwIwXDELMAkGA1UEBgwCVVMxHzAdBgNVBAoMFlNub2JiaXNoIE FwcGFyZWwsIEluYy4xLDAqBgNVBAMMI1Nub2JiaXNoIEFwcGFyZWwsIEluYy4gVHJ1c 3QgQW5jaG9yMB4XDTIyMDUxOTE1MTMwOFoXDTMyMDUxNjE1MTMwOFowXDELMAkGA1UE BgwCVVMxHzAdBgNVBAoMFlNub2JiaXNoIEFwcGFyZWwsIEluYy4xLDAqBgNVBAMMI1N ub2JiaXNoIEFwcGFyZWwsIEluYy4gVHJ1c3QgQW5jaG9yMFkwEwYHKoZIzj0CAQYIKo ZIzj0DAQcDQgAEzdH+ZM8sBM2TmG2ldtztzfHJLt/SaCzY5Rz8BAm1ww1qdC6QDtc9u PP4aMulFv02TEzz0f/d18B7BtepkhcvF6M/MD0wHQYDVR0OBBYEFIqEz/mAlaO8Ntbu pRjWl42b1x9gMAsGA1UdDwQEAwIChDAPBgNVHRMBAf8EBTADAQH/MAoGCCqGSM49BAM CA0kAMEYCIQC2cf43f3PPlCO6/dxv40ftIgxxToKHF72UzENv7+y4ygIhAIGtC/r6SG aFMaP7zD2EloBuIXTtyWu8Hwl+YGdXRY93" } ] } }¶
The TA Store below features one TA with an environment targeting CoSWIDs with entity named "Zesty Hands, Inc," and one permitted EAT claim for software named "Bitter Paper".¶
{ "environments": [ { "swidtag": { "entity": [ { "entity-name": "Zesty Hands, Inc.", "role": "softwareCreator" } ] } } ], "permclaims": [ { "swname": "Bitter Paper" } ], "keys": { "tas": [ { "format": 0, "data": " MIIB5TCCAYugAwIBAgIUC9xKoFF5UD5Y8nXVUkZzR7yvtTMwCgYIKoZIzj0EAwI wUjELMAkGA1UEBgwCVVMxGjAYBgNVBAoMEVplc3R5IEhhbmRzLCBJbmMuMScwJQ YDVQQDDB5aZXN0eSBIYW5kcywgSW5jLiBUcnVzdCBBbmNob3IwHhcNMjIwNTE5M TUxMzA3WhcNMzIwNTE2MTUxMzA3WjBSMQswCQYDVQQGDAJVUzEaMBgGA1UECgwR WmVzdHkgSGFuZHMsIEluYy4xJzAlBgNVBAMMHlplc3R5IEhhbmRzLCBJbmMuIFR ydXN0IEFuY2hvcjBZMBMGByqGSM49AgEGCCqGSM49AwEHA0IABJfPbXDXajBADH nx66tq1haIcSSHENT0wSB62u8C0ZhnE2eR8sKyn28tzDwhJcLy0v3uT1kJS2evQ zMvDftcpECjPzA9MB0GA1UdDgQWBBT22tHlEou/DenpU0Ozccb3/+fibjALBgNV HQ8EBAMCAoQwDwYDVR0TAQH/BAUwAwEB/zAKBggqhkjOPQQDAgNIADBFAiAdpYv n+kQsbNhJ7zVnIkqSA8IlFYlmshr9QPMZLPNHmAIhAJgns+Chq6JRSjmU+m76n9 bGELiQX77ZP8tSUHVL6KpY" } ] } }¶
The dump below shows the COSE-Sign1-corim contents from the ASCII hex above. A full base64-encoded version of this example is given in Appendix A.¶
18([h' A3012603746170706C69636174696F6E2F72696D2B63626F72085841A200A20 07441434D45204C7464207369676E696E67206B657901D8207468747470733A 2F2F61636D652E6578616D706C6501A200C11A61CE480001C11A69546780', {}, h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h' 19E82D7A5C7A73B44F06305AECF0EF8CF8764286323F6D2BA27D7291F92FF5B 0CF789F6FF88B7E2EE8EF262B4FA1DFD7D7AFB0AE2C0062C98DB332243B3E99 94'])¶
As a profile of CoRIM, the security considerations from [I-D.draft-birkholz-rats-corim] apply.¶
As a means of managing trust anchors, the security considerations from [RFC6024] and [RFC5934] apply. a CoTS signer is roughly analogous to a "management trust anchor" as described in [RFC5934].¶
IANA is requested to allocate tags in the "CBOR Tags" registry [IANA.cbor-tags], preferably with the specific value requested:¶
Tag | Data Item | Semantics |
---|---|---|
507 | tagged array | Concise Trust Anchor Stores (CoTS) |
TODO acknowledge.¶
The base64 encoded data below represents a signed CoRIM that features a concise-ta-stores containing the three examples shown above.¶
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