Network Working Group R. Housley Internet-Draft Vigil Security, LLC Intended status: Informational S. Ashmore Expires: April 23, 2010 National Security Agency C. Wallace Cygnacom Solutions October 20, 2009 Cryptographic Message Syntax (CMS) Content Constraints Extension draft-housley-cms-content-constraints-extn-02 Status of this Memo This Internet-Draft is submitted to IETF in full conformance with the provisions of BCP 78 and BCP 79. This document may contain material from IETF Documents or IETF Contributions published or made publicly available before November 10, 2008. The person(s) controlling the copyright in some of this material may not have granted the IETF Trust the right to allow modifications of such material outside the IETF Standards Process. 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The list of Internet-Draft Shadow Directories can be accessed at http://www.ietf.org/shadow.html. This Internet-Draft will expire on April 23, 2010. Copyright Notice Copyright (c) 2009 IETF Trust and the persons identified as the Housley, et al. Expires April 23, 2010 [Page 1] Internet-Draft CMS Content Constraints October 2009 document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents in effect on the date of publication of this document (http://trustee.ietf.org/license-info). Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Housley, et al. Expires April 23, 2010 [Page 2] Internet-Draft CMS Content Constraints October 2009 Abstract This document specifies the syntax and semantics for the Cryptographic Message Syntax (CMS) content constraints extension. This extension is used to determine whether a public key is appropriate to use in the processing of a protected content. In particular, the CMS content constraints extension is one part of the authorization decision; it is used when validating a digital signature on a CMS SignedData content or validating a message authentication code (MAC) on a CMS AuthenticatedData content or CMS AuthEnvelopedData content. The signed or authenticated content type is identified by an ASN.1 object identifier, and this extension indicates the content types that the public key is authorized to validate. If the authorization check is successful, the CMS content constraints extension also provides default values for absent attributes. Housley, et al. Expires April 23, 2010 [Page 3] Internet-Draft CMS Content Constraints October 2009 Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.1. CMS Data Structures . . . . . . . . . . . . . . . . . . . 6 1.2. CMS Content Constraints Model . . . . . . . . . . . . . . 9 1.3. Attribute Processing . . . . . . . . . . . . . . . . . . . 11 1.4. Abstract Syntax Notation . . . . . . . . . . . . . . . . . 13 1.5. Terminology . . . . . . . . . . . . . . . . . . . . . . . 13 2. CMS Content Constraints Extension . . . . . . . . . . . . . . 14 3. Certification Path Processing . . . . . . . . . . . . . . . . 18 3.1. Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . 18 3.2. Initialization . . . . . . . . . . . . . . . . . . . . . . 19 3.3. Basic Certificate Processing . . . . . . . . . . . . . . . 19 3.4. Preparation for Certificate i+1 . . . . . . . . . . . . . 21 3.5. Wrap-up procedure . . . . . . . . . . . . . . . . . . . . 21 3.6. Outputs . . . . . . . . . . . . . . . . . . . . . . . . . 22 4. CMS Content Constraints Processing . . . . . . . . . . . . . . 23 4.1. Collection of signer or originator information . . . . . . 25 4.1.1. Signature or MAC Verification . . . . . . . . . . . . 25 4.2. Collection of Attributes . . . . . . . . . . . . . . . . . 25 4.3. Leaf node classification . . . . . . . . . . . . . . . . . 26 4.4. Content Type and Constraint Checking . . . . . . . . . . . 27 4.4.1. Inputs . . . . . . . . . . . . . . . . . . . . . . . . 27 4.4.2. Processing . . . . . . . . . . . . . . . . . . . . . . 27 4.4.3. Outputs . . . . . . . . . . . . . . . . . . . . . . . 28 5. Subordination Processing in TAMP . . . . . . . . . . . . . . . 29 6. Security Considerations . . . . . . . . . . . . . . . . . . . 32 7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 33 8. References . . . . . . . . . . . . . . . . . . . . . . . . . . 34 8.1. Normative References . . . . . . . . . . . . . . . . . . . 34 8.2. Informative References . . . . . . . . . . . . . . . . . . 34 Appendix A. ASN.1 Modules . . . . . . . . . . . . . . . . . . . . 36 A.1. ASN.1 Module Using 1993 Syntax . . . . . . . . . . . . . . 36 A.2. ASN.1 Module Using 1988 Syntax . . . . . . . . . . . . . . 38 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 39 Housley, et al. Expires April 23, 2010 [Page 4] Internet-Draft CMS Content Constraints October 2009 1. Introduction The CMS SignedData [RFC3852] construct is used to sign many things, including cryptographic module firmware packages [RFC4108] and certificate management messages [RFC5272]. Similarly, the CMS AuthenticatedData and CMS AuthEnvelopedData constructs provide authentication, which can be affiliated with an originator's static public key. This document assumes a particular authorization model, where each originator is associated with one or more authorized content types. A CMS SignedData, AuthenticatedData, or AuthEnvelopedData will be considered valid only if the signature or message authentication code (MAC) verification process is successful and the originator is authorized for the encapsulated content type. For example, one originator might be acceptable for verifying signatures on firmware packages, but that same originator may be unacceptable for verifying signatures on certificate management messages. An originator's constraints are derived from the certification path used to validate the originator's public key. Constraints are associated with trust anchors [TAF] and constraints are optionally included in public key certificates [RFC5280]. Using the CMS Content Constraints (CCC) extension, a trust anchor lists the content types for which it may be used. A trust anchor may also include further constraints associated with each of the content types. Certificates in a certification path may contain a CCC extension that further constrains the subjects in the certification path. Delegation of authorizations is accomplished using the CCC certificate extension. An entity may delegate none, some or all of its authorizations to another entity by issuing it a certificate with an appropriate CCC extension. Absence of a CCC certificate extension in a certificate means that the subject is not authorized for any content type. If the entity is an end entity, it may perform CCC delegation, i.e., though the use of proxy certificates. However, usage of proxy certificates is not described in this specification. While processing the certification path, relying parties MUST ensure that authorizations of a subject of a certificate are constrained by the authorizations of the Issuer of that certificate. In other words, when a content signature or MAC is validated, checks must be performed to ensure that the encapsulated content type is within the permitted set for the trust anchor (TA) and each certificate in the path and that the constraints associated with the specific content type, if any, are satisfied by the TA and each certificate in the path. Housley, et al. Expires April 23, 2010 [Page 5] Internet-Draft CMS Content Constraints October 2009 1.1. CMS Data Structures CMS encapsulation can be used to compose structures of arbitrary breadth and depth. This is achieved using a variety of content types that achieve different compositional goals. A content type is an arbritrary structure that is identified using an object identifier. This document defines two categories of content types: intermediate content types and leaf content types. Intermediate content types are encapsulate one or more additional content types. Leaf content types are not used for encapsulation. CCC is not used to constrain MIME encapsulated data. SignedData [RFC3852] and ContentCollection [RFC4073] are examples of intermediate content types. FirmwarePkgData [RFC4108] and TSTInfo [RFC3161] are examples of leaf content types. Protocol designers may provide an indication regarding the classification of content types within the protocol. Four documents define the primary intermediate content types: RFC 3852 [RFC3852]: Cryptographic Message Syntax (CMS) - SignedData - EnvelopedData - EncryptedData - DigestedData - AuthenticatedData RFC 5083 [RFC5083]: The Cryptographic Message Syntax (CMS) AuthEnvelopedData Content Type - AuthEnvelopedData RFC 4073 [RFC4073]: Protecting Multiple Contents with the Cryptographic Message Syntax (CMS) - ContentCollection - ContentWithAttributes RFC 3274 [RFC3274]: Compressed Data Content Type for Cryptographic Message Syntax (CMS) - CompressedData When using the CMS, the outermost structure is always ContentInfo. ContentInfo consists of an object identifier and an associated Housley, et al. Expires April 23, 2010 [Page 6] Internet-Draft CMS Content Constraints October 2009 content. The object identifier describes the structure of the content. Object identifiers are used throughout the CMS family of specifications to identify structures. Using the content types listed above, ignoring for the moment ContentCollection, encapsulation can be used to create structures of arbitrary depth. Two examples based on [RFC4108] are shown in Figure 1 and Figure 2. When ContentCollection is used in conjunction with the other content types, tree-like structures can be defined, as shown in Figure 3. The examples in Figures 1, 2, and 3 can each be represented as a tree: the root node is the outermost ContentInfo, and the leaf nodes are the encapsulated contents. The trees are shown in Figure 4. Housley, et al. Expires April 23, 2010 [Page 7] Internet-Draft CMS Content Constraints October 2009 +---------------------------------------------------------+ | ContentInfo | | | | +-----------------------------------------------------+ | | | SignedData | | | | | | | | +-------------------------------------------------+ | | | | | FirmwarePackage | | | | | | | | | | | | | | | | | +-------------------------------------------------+ | | | +-----------------------------------------------------+ | +---------------------------------------------------------+ Figure 1. Example of a Signed Firmware Package. +---------------------------------------------------------+ | ContentInfo | | | | +-----------------------------------------------------+ | | | SignedData | | | | | | | | +-------------------------------------------------+ | | | | | EncryptedData | | | | | | | | | | | | +---------------------------------------------+ | | | | | | | FirmwarePackage | | | | | | | | | | | | | | | | | | | | | | | +---------------------------------------------+ | | | | | +-------------------------------------------------+ | | | +-----------------------------------------------------+ | +---------------------------------------------------------+ Figure 2. Example of a Signed and Encrypted Firmware Package. These examples do not illustrate all of the details of the CMS structures; most CMS protecting content types, and some leaf-node content types, contain attributes. These attributes can influence processing and handling of the CMS protecting content type or the encapsulated content type. Throughout this document, paths through the tree structure from a root node to a leaf node in a CMS-protected message are referred to as CMS paths. Housley, et al. Expires April 23, 2010 [Page 8] Internet-Draft CMS Content Constraints October 2009 +---------------------------------------------------------+ | ContentInfo | | | | +-----------------------------------------------------+ | | | SignedData | | | | | | | | +-------------------------------------------------+ | | | | | ContentCollection | | | | | | | | | | | | +----------------------+ +--------------------+ | | | | | | | SignedData | | SignedData | | | | | | | | | | | | | | | | | | +------------------+ | | +----------------+ | | | | | | | | | EncryptedData | | | | Firmware | | | | | | | | | | | | | | Package | | | | | | | | | | +--------------+ | | | | | | | | | | | | | | | Firmware | | | | +----------------+ | | | | | | | | | | Package | | | +--------------------+ | | | | | | | | | | | | | | | | | | | | +--------------+ | | | | | | | | | +------------------+ | | | | | | | +----------------------+ | | | | | +-------------------------------------------------+ | | | +-----------------------------------------------------+ | +---------------------------------------------------------+ Figure 3. Example of Two Firmware Packages in a Collection. 1.2. CMS Content Constraints Model The CCC extension is used to restrict the types of content for which a particular public key can be used to verify a signature or MAC. Trust in a public key is established by building and validating a certification path from a trust anchor to the subject public key. Section 6 of [RFC5280] describes the algorithm for certification path validation, and the basic path validation algorithm is augmented, as described in Section 3 of this document, to include processing required to determine the CMS content constraints that have been delegated to the subject public key. If the subject public key is explicitly trusted (the public key belongs to a trust anchor), then any CMS content constraints associated with the trust anchor are used directly. If the subject public key is not explicitly trusted, then the CMS content constraints are determined by calculating the intersection of the CMS content constraints included in all the certificates in a valid certification path from the trust anchor to the subject public key, including those associated with the trust anchor. Housley, et al. Expires April 23, 2010 [Page 9] Internet-Draft CMS Content Constraints October 2009 +---------------------------------------------------------+ | | | CMS PATH RESULTING CMS PATH RESULTING | | FROM FIGURE 1. FROM FIGURE 2. | | | | ContentInfo ContentInfo | | | | | | V V | | SignedData SignedData | | | | | | V V | | FirmwarePackage EncryptedData | | | | | V | | FirmwarePackage | | | | | | CMS PATHS RESULTING FROM FIGURE 3. | | | | ContentInfo | | | | | V | | SignedData | | | | | V | | ContentCollection | | | | | +----------+--------------+ | | | | | | V V | | SignedData SignedData | | | | | | V V | | EncryptedData FirmwarePackage | | | | | V | | FirmwarePackage | | | +---------------------------------------------------------+ Figure 4. Example CMS Path Structures. The CMS enables the use of multiple nested signatures or MACs. Each signature or MAC can protect and associate attributes with an encapsulated data object. The CMS content constraints extension is associated with a public key, and that public key is used to verify a signature or a MAC. Housley, et al. Expires April 23, 2010 [Page 10] Internet-Draft CMS Content Constraints October 2009 The CMS content constraints mechanism can be used to limit the use of the subject public key to verify signatures on or authenticate one or more specific content types. Furthermore, within each permitted content type, a permitted set of values can be expressed for one or more specific attribute types. When a leaf content type is encapsulated by multiple intermediate authentication layers, the signer or originator closest to a leaf node must be authorized for the leaf content type and must be authorized to serve as a source for the leaf content type; outer signers or originators need not be authorized to serve as a source, but must be authorized for the leaf content type. All signers or originators must be authorized for the attributes that appear in a CMS path. A signer or originator may be constrained to use a specific set of attribute values for some attribute types when producing a particular content type. If a signer or originator is constrained for a particular attribute that does not appear in a protected content of the type for which the constraint is defined, the constraint serves as a default attribute, i.e., the payload should be processed as if an attribute equal to the constraint appeared in the protected content. However, in some cases, the processing rules for a particular content type may disallow the usage of default values for some attribute types and require a signer to explicitly assert the attribute to satisfy the constraint. Signer constraints are output for use in leaf node processing or other processing not addressed by this specification. Three models for processing attributes were considered: o Each signer or originator must be authorized for attributes it asserts o Each signer or originator must be authorized for attributes it asserts and attributes contained in the content it authenticates o All signers or originators must be authorized for the attributes appearing in the CMS path. The third model is used in this specification. 1.3. Attribute Processing This specification defines a mechanism for enforcing constraints on content types and attributes. Where content types are straightforward to process because there is precisely one content type of interest in a given CMS path, attributes are more Housley, et al. Expires April 23, 2010 [Page 11] Internet-Draft CMS Content Constraints October 2009 challenging. Attributes can be asserted at many different points in a CMS path. Some attributes may by their nature be applicable to a specific portion of a CMS path, for example, a ContentType and MessageDigest attributes apply to a specific SignerInfo object. Other attributes may apply to a less well-defined target, for example, a ContentCollection may appear as the ContentType within a ContentWithAttributes object. Since there is no automated means of determining what an arbitrary attribute applies to or how the attribute should be used, CCC processing simply collects attributes and makes them available for applications to use during leaf node processing. Implementations SHOULD refrain from collecting attributes that are known to be inapplicable to leaf node processing, for example, ContentType and MessageDigest attributes. Some attributes contain multiple values. Attribute constraints expressed in a CCC extension may contain multiple values. Attributes expressed in a constraint that do not appear in a CMS path are returned as default attributes. Default attributes may have multiple values. Attributes are returned to an application via two output variables: cms_effective_attributes and cms_default_attributes. Attribute may be absent, present with one value or present with multiple values in a CMS path and/or in CMS content constraints. A summary of the resulting nine possible combinations is below. Attribute absent in CMS path; absent in cms_constraints: no action. Attribute absent in CMS path; single value in cms_constraints: the value from cms_constraints is added to cms_default_attributes. Attribute absent in CMS path; multiple values in cms_constraints: the values from cms_constraints are added to cms_default_attributes. Attribute is present with a single value in CMS path; absent in cms_constraints: the value from CMS path is returned in cms_effective_attributes. Attribute is present with a single value in CMS path; single value in cms_constraints: the value from CMS path must match the value from cms_constraints. If successful match, the value is returned in cms_effective_attribute. If no match, constraints processing fails. Attribute is present with a single value in CMS path; multiple values in cms_constraints: the value from CMS path must match a Housley, et al. Expires April 23, 2010 [Page 12] Internet-Draft CMS Content Constraints October 2009 value from cms_constraints. If successful match, the value from the CMS path is returned in cms_effective_attribute. If no match, constraints processing fails. Attribute is present with a multiple values in CMS path; absent in cms_constraints: the values from CMS path is returned in cms_effective_attributes. Attribute is present with a multiple values; single value in cms_constraints: the values from CMS path must match the value from cms_constraints (i.e., all values must be identical). If successful match, the values from the CMS path are returned in cms_effective_attribute. If no match, constraints processing fails. Attribute is present with a multiple values; multiple values in cms_constraints: each value from CMS path must match a value from cms_constraints. If each comparison is successful, the values from the CMS path is returned in cms_effective_attribute. If a comparison fails, constraints processing fails. 1.4. Abstract Syntax Notation All X.509 certificate [RFC5280] extensions are defined using ASN.1 [X.680][X.690]. CMS content types [RFC3852] are also defined using ASN.1. CMS uses the Attribute type. The syntax of Attribute is compatible with X.501 [X.501]. 1.5. Terminology The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119]. Housley, et al. Expires April 23, 2010 [Page 13] Internet-Draft CMS Content Constraints October 2009 2. CMS Content Constraints Extension The CMS content constraints extension MAY be critical, and it MUST appear at most one time in a trust anchor or certificate. The CMS content constraints extension is identified by the id-pe- cmsContentConstraints object identifier: id-pe-cmsContentConstraints OBJECT IDENTIFIER ::= { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) pe(1) 18 } The CMS content constraints extension provides a mechanism to constrain authorization during delegation. If the CMS content constraints extension is not present, then the subject of the trust anchor or certificate is not authorized for any content type, with an exception for apex trust anchors which are implicitly authorized for all content types. A certificate issuer may use the CMS content constraints extension for one or more of the following purposes: o Limit the certificate subject to a subset of the content types for which the certificate issuer is authorized o Add constraints to a previously unconstrained content type o Add additional constraints to a previously constrained content type. The syntax for the CMS content constraints extension is: CMSContentConstraints ::= SEQUENCE SIZE (1..MAX) OF ContentTypeConstraint ContentTypeConstraint ::= SEQUENCE { contentType OBJECT IDENTIFIER, canSource BOOLEAN DEFAULT TRUE, attrConstraints AttrConstraintList OPTIONAL } AttrConstraintList ::= SEQUENCE SIZE (1..MAX) OF AttrConstraint AttrConstraint ::= SEQUENCE { attrType AttributeType, attrValues SET SIZE (1..MAX) OF AttributeValue } id-ct-anyContentType OBJECT IDENTIFIER ::= { iso(1) member-body(2) Housley, et al. Expires April 23, 2010 [Page 14] Internet-Draft CMS Content Constraints October 2009 us(840) rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) ct(1) 0 } The CMSContentConstraints is a list of permitted content types and associated constraints. A particular content type MUST NOT appear more than once in a CMSContentConstraints. When the extension is present, the certificate subject is being authorized by the certificate issuer to sign or authenticate the content types listed in the permitted list as long as the provided constraints, if any, are met. The relying party MUST ensure that the certificate issuer is authorized to delegate the privileges. When the extension is absent, the certificate subject is not authorized for any content type. The special id-ct-anyContentType value indicates the certificate subject is being authorized for any content type without any constraints. The id-ct-anyContentType object identifier can be used in trust anchors when the trust anchor is unconstrained. Where id- ct-anyContentType is asserted in the contentType field, canSource and attrConstraints MUST BE absent, indicating the trust anchor can serve as a source for any content type without any constraints. The fields of the ContentTypeConstraint type have the following meanings: contentType is an object identifier that specifies a permitted content type. When the extension appears in an end entity certificate, it indicates that a content of this type can be verified using the public key in the certificate. When the extension appears in a certification authority (CA) certificate, it indicates that a content of this type can be verified using the public key in the CA certificate or the public key in an appropriately authorized subordinate certificate. For example, this field contains id-ct-firmwarePackage when the public key can be used to verify digital signatures on firmware packages defined in [RFC4108]. A particular content type MUST NOT appear more than once in the list. The CMS content types need not be included in the list of permitted content types. These content types are always authorized to facilitate the use of CMS in the protection of content, and they MUST NOT appear in the contentType field. The always authorized content types are: id-signedData, Housley, et al. Expires April 23, 2010 [Page 15] Internet-Draft CMS Content Constraints October 2009 id-envelopedData, id-digestedData, id-encryptedData, id-ct-authEnvelopedData, id-ct-authData, id-ct-compressedData, id-ct-contentCollection id-ct-contentWithAttrs. canSource is a Boolean flag. If the canSource flag is FALSE, then the subject cannot be the innermost authenticator of the specified content type. Regardless of the flag value, a subject can sign or authenticate a content that is already authenticated (when SignedData, AuthenticatedData, or AuthEnvelopedData is already present). attrConstraints is an optional field that contains constraints that are specific to the content type. If the attrConstraints field is absent, the public key can be used to verify the specified content type without further checking. If the attrConstraints field is present, then the public key can only be used to verify the specified content type if all of the constraints are satisfied. A particular constraint type, i.e., attrValues structure for a particular attribute type, MUST NOT appear more than once in the attrConstraints for a specified content type. Constraints are checked by matching the values in the constraint against the corresponding attribute value in the content. Constraints processing fails if the attribute is present and the value is not one of the values provided in the constraint. Constraint checking is described fully in section 4. The fields of the AttrConstraint type have the following meanings: attrType is an AttributeType, which is an object identifier that names an attribute. For a content encapsulated in a CMS SignedData, AuthenticatedData, or AuthEnvelopedData to satisfy the constraint, if the attributes that are covered by the signature or MAC include an attribute of the same type, then the attribute value must be equal to one of the values supplied in the attrValues field. Attributes that are not covered by the signature or MAC are not checked against constraints. Housley, et al. Expires April 23, 2010 [Page 16] Internet-Draft CMS Content Constraints October 2009 Attribute types that do not appear as an AttrConstraint are unconstrained, i.e., the signer or originator is free to assert any value. attrValues is a set of AttributeValue. The structure of each of the values in attrValues is determined by attrType. Constraint checking is described fully in section 4. Housley, et al. Expires April 23, 2010 [Page 17] Internet-Draft CMS Content Constraints October 2009 3. Certification Path Processing When CMS content constraints are used for authorization, the processing described in this section SHOULD be included in the certification path validation. The processing is presented as an augmentation to the certification path validation algorithm described in section 6 of [RFC5280]. Alternative implementations are possible but MUST yield the same results as described below. Certification path processing validates the binding between the subject and subject public key. If a valid certification path cannot be found, then the corresponding CMS path MUST be rejected. 3.1. Inputs Two boolean values are provided as input. The inhibitAnyContentType flag is used to govern processing of the special id-ct-anyContentType value. When inhibitAnyContentType is true, id-ct-anyContentType is not considered to match a content type. When inhibitAnyContentType is false, id-ct-anyContentType is consider to match any content type. The absenceEqualsUnconstrained flag is used to govern the meaning of CCC absence. When absenceEqualsUnconstrained is true, a trust anchor without a CCC extension is considered to be unconstrained and a certificate without a CCC extension is considered to have the same CCC privileges as its issuer. When absenceEqualsUnconstrained is false, a trust anchor or certificate without a CCC extension is not authorized for any content types. Neither of these flags has any bearing on apex trust anchors, which are always unconstrained by definition. If the trust anchor used for path validation is authorized, then the trust anchor MAY include a CCC extension. The trust anchor may be constrained or unconstrained. If unconstrained, the trust anchor must either include a CMS Content Constraints extension containing the special id-ct-anyContentType value and inhibitAnyContentType is false or the trust anchor must have no CCC extension and absenceEqualsUnconstrained is set to true. As noted above, in some cases, a particular CMS Content Constraints definition may be implied by the trust anchor information or application context (e.g., an apex trust anchor). If the trust anchor does not contain a CMS Content Constraints structure and absenceEqualsUnconstrained is false, the CMS content constraints processing fails due to invalid input. If the trust anchor contains a CCC extension with a single entry containing id-ct-anyContentType and inhibitAnyContentType is true, the CMS content constraints processing fails due to invalid input. The content type of the protected content being verified can be provided as input along with the set of attributes collected from the Housley, et al. Expires April 23, 2010 [Page 18] Internet-Draft CMS Content Constraints October 2009 CMS path in order to determine if the certification path is valid for a signed CMS object. Alternatively, the id-ct-anyContentType value can be provided as the content type input, along with an empty set of attributes, to determine the full set of constraints associated with a public key in the end entity certificate in the certification path being validated. Trust anchors may produce CMS-protected contents. When validating messages originated by a trust anchor, certification path validation as described in section 6 of [RFC5280] is not necessary but constraints processing must still be performed for the trust anchor. In such cases, the initialization and wrap-up steps described below can be performed to determine if the public key in the trust anchor is appropriate to use in the processing of a protected content. 3.2. Initialization Create an input variable named cms_content_type and set it equal to the content type provided as input. Create an input variable named cms_effective_attributes and set it equal to the set of attributes provided as input. Create a state variable named working_permitted_content_types. The initial value of working_permitted_content_types is the permitted content type list from the trust anchor, including any associated constraints. Create an state variable of type SEQUENCE OF AttrConstraint named subject_default_attributes and initialize it to empty. Create an state variable of type SEQUENCE OF ContentTypeConstraint named subject_constraints and initialize it to empty. 3.3. Basic Certificate Processing If the CCC extension is not present in the certificate and absenceEqualsUnconstrained is false, then working_permitted_content_types is set to empty. If the CCC extension is not present in the certificate and absenceEqualsUnconstrained is true, then working_permitted_content_types is unchanged. If the CCC extension is present and includes a single permitted content type equal to the special id-ct-anyContentType value and inhibitAnyContentType is false, no action is taken and working_permitted_content_types is unchanged. If the CCC extension is present and includes a single permitted content type equal to the Housley, et al. Expires April 23, 2010 [Page 19] Internet-Draft CMS Content Constraints October 2009 special id-ct-anyContentType value and inhibitAnyContentType is true, then working_permitted_content_types is set to empty. If the CMS content constraints extension is present in the certificate, the extension contains a list of two or more permitted content types, one of which is the special id-ct-anyContentType value and inhibitAnyContenType is true, discard the id-ct-anyContentType element from the list of permitted content types. If the CMS content constraints extension is present in the certificate, the extension contains a list of permitted content types, and working_permitted_content_types contains the id-ct- anyContentType special value, assign working_permitted_content_types the value of the CMS content constraints extension. If the CMS content constraints extension is present in the certificate, the extension contains a list of permitted content types, and working_permitted_content_types does not contain the id- ct-anyContentType special value, then the processing actions to be performed for each entry in the permitted content type list sequence in the CMS content constraints extension are as follows: - If the CMS content constraints extension includes a content type that is not present in working_permitted_content_types, no action is taken based on this entry. working_permitted_content_types is unchanged. - If the CMS content constraints extension includes a content type that is already present in working_permitted_content_types, then the constraints in the CMS content constraints extension can further reduce the authorization by adding constraints to previously unconstrained attributes or by removing attribute values from the attrValues set of a constrained attribute. The canSource flag is set to FALSE unless it is TRUE in the working_permitted_content_types entry and in the extension. The processing actions to be performed for each entry in the AttrConstraintList follow: -- If the CMS content constraints extension includes an attribute type that is not present in working_permitted_content_types for this content type, add the attribute type and the associated set of attribute values to working_permitted_content_types entry for the content type. -- If the CMS content constraints extension includes an attribute type that is already present in Housley, et al. Expires April 23, 2010 [Page 20] Internet-Draft CMS Content Constraints October 2009 working_permitted_content_types for this content type, then compute the intersection of the set of attribute values from the working_permitted_content_types and the set of attribute values from the CMS content constraints extension. If the intersection contains at least one attribute value, then the set of attribute values in working_permitted_content_types entry for this content type is assigned the intersection. If the intersection is empty, then the entry associated with the content type is removed from working_permitted_content_types. Remove each entry in working_permitted_content_types that includes a content type that is not present in the CMS content constraints extension. 3.4. Preparation for Certificate i+1 No additional action associated with the CMS content constraints extension is taken during this phase of certification path validation as described in section 6 of [RFC5280]. 3.5. Wrap-up procedure If cms_content_type equals the special value anyContentType, the CCC processing portion of path validation succeeds. Set subject_constraints equal to working_permitted_content_types. If cms_content_type is not equal to the special value anyContentType, perform the following steps: - If working_permitted_content_types is equal to the special value anyContentType, set subject_constraints equal to working_permitted_content_types; the CCC processing portion of path validation succeeds. - If cms_content_type does not equal the content type of an entry in working_permitted_content_types, constraints processing fails and path validation fails. - If cms_content_type equals the content type of an entry in working_permitted_content_types, add the entry from working_permitted_content_types to subject_constraints. - If the attrConstraints field of the corresponding entry in working_permitted_content_types is absent; the CCC processing portion of path validation succeeds. - If the attrConstraints field of the corresponding entry in working_permitted_content_types is present, then constraints must be checked. For each attrType in the attrConstraints, the Housley, et al. Expires April 23, 2010 [Page 21] Internet-Draft CMS Content Constraints October 2009 constraint is satisfied if either the attribute type is absent from cms_effective_attributes or each attribute value in the attrValues field of the corresponding entry in cms_effective_attributes is equal to one of the values for this attribute type in the attrConstraints field. If cms_effective_attributes does not contain an attribute of that type, then the entry from attrConstraints is added to the subject_default_attributes for use in processing the payload. 3.6. Outputs If certification path validation processing succeeds, return the value of the subject_constraints and subject_default_attributes variables. Housley, et al. Expires April 23, 2010 [Page 22] Internet-Draft CMS Content Constraints October 2009 4. CMS Content Constraints Processing CMS content constraints processing consists of four primary activities: - Collection of Signer or Originator Keys - Collection of Attributes - Leaf node classification - Content Type and Constraint Checking Processing is performed for each CMS path from the root node of a CMS-protected content to a leaf node, proceeding from the root node to the leaf node. Each path is processed independently of the other paths. Thus, it is possible that some leaf nodes in a content collection may be acceptable while other nodes are not acceptable. The processing described in this section applies to CMS paths that contain at least one SignedData, AuthEnvelopedData, or AuthenticatedData node. Since countersignatures are defined as not having a content, CMS content constraints are not used with countersignatures. Signer or originator public keys are collected when verifying signatures or message authentication codes (MACs). These keys will be used to determine the constraints of each signer or originator by building and validating a certification path to the public key. Public key values, public key certificates or public key identifiers are accumulated in a state variable named cms_public_keys, which is either initialized to empty or to an application provided set of keys when processing begins. The variable will be updated each time a SignedData, AuthEnvelopedData, or AuthenticatedData node is encountered in the CMS path. All authenticated attributes appearing in a CMS path are collected, beginning with the attributes protected by the first SignedData, AuthEnvelopedData, or AuthenticatedData and proceeding to the leaf node. During processing, attributes collected from the nodes in the CMS path are maintained in a state variable named cms_effective_attributes and default attributes derived from message originator authorizations are collected in a state variable named cms_default_attributes. A default attribute value comes from a constraint that does not correspond to an attribute contained in the CMS path. When processing begins, cms_effective_attributes and cms_default_attributes are initialized to empty. Alternatively, cms_effective_attributes may be initialized to an application- provided sequence of attributes. The cms_effective_attributes value Housley, et al. Expires April 23, 2010 [Page 23] Internet-Draft CMS Content Constraints October 2009 will be updated each time an attribute set is encountered in a SignedData, AuthEnvelopedData, AuthenticatedData or (authenticated) ContentWithAttributes node while processing a CMS path. The output of content type and constraint checking always includes a set of attributes collected from the various nodes in a CMS path. When processing terminates at an encrypted node, the set of signer or originator public keys is also returned. When processing terminates at a leaf node, a set of default attribute values is also returned along with a set of constraints that apply to the CMS-protected content. When processing terminates at an encrypted node, the attributes and public keys are returned and may be used as inputs for CMS content constraints processing of the decrypted payload contents. An application may elect to discard some attributes before processing an encrypted payload. For example, attributes that do not apply to the leaf node may be discarded, for example, MessageDigest and ContentType attributes are related to a specific signature layer and may be discarded. This section describes the processing of a CMS path. The output from CMS Content Constraints processing will depend on the type of the leaf node that terminates the CMS path. Four different output variables are possible. The conditions under which each is returned is described in the following sections. The variables are: cms_public_keys is a list of public key values, public key certificates or public key identifiers. Information maintained in cms_public_keys will be used to perform the certification path operations required to determine if a particular signer or originator is authorized to produce a specific object. cms_effective_attributes contains the attributes collected from the nodes in a CMS path. cms_effective_attributes is a SEQUENCE OF Attribute, which is the same as the AttrConstraintList structure except that it may have zero entries in the sequence. cms_default_attributes contains default attributes derived from message signer or originator authorizations. A default attribute value is taken from a constraint that does not correspond to an attribute contained in the CMS path. cms_default_attributes is a SEQUENCE OF Attribute, which is the same as the AttrConstraintList structure except that it may have zero entries in the sequence. Housley, et al. Expires April 23, 2010 [Page 24] Internet-Draft CMS Content Constraints October 2009 cms_constraints contains the constraints associated with the message signer or originator for the content type of the protected content terminating a CMS path. cms_constraints is a SEQUENCE OF Attribute, which is the same as the AttrConstraintList structure except that it may have zero entries in the sequence. Though not explicitly discussed in this document, CMS content constraints can be applied to CMS-protected contents featuring multiple parallel signers, for example where there is more than one SignerInfo, each carrying a signature from a different party, within a single SignedData content. In such cases, each SignerInfo must be processed as if it were the only SignerInfo, and the CMS content constraints must be met in order for that signature to be considered valid. Unlike signers represented in distinct SignedData contents, signers represented by multiple SignerInfos within a single SignedData are not considered to be collaborating with regard to a particular content. Each parallel signer is evaluated independently; no relationship to the other signers in the set of SignerInfos implied. A content is considered valid only if there is at least one valid CMS path employing one SignerInfo within each SignedData content, even when more than one SignerInfo is present. 4.1. Collection of signer or originator information Signer or originator constraints are identified using the public keys to verify each SignedData, AuthEnvelopedData, or AuthenticatedData layer encountered in a CMS path. The public key value, public key certificate or public key identifier of each signer or originator are collected in a state variable named cms_public_keys. Constraints are determined by building and validating a certification path for each public key after the content type and attributes of the CMS-protected object have been identified. 4.1.1. Signature or MAC Verification The signature or MAC generated by the originator MUST be verified. If signature or MAC verification fails, then the CMS path containing the signature or MAC MUST be rejected. Signature and MAC verification procedures are defined in [RFC3852][RFC5083]. The public key or public key certificate used to verify each signature or MAC in a CMS path is added to the cms_public_keys state variable for use in content type and constraint checking. 4.2. Collection of Attributes Attributes are collected from all authenticated nodes in a CMS path. That is, attributes are not collected from content types that are unauthenticated, i.e., those that are not covered by a SignedData, Housley, et al. Expires April 23, 2010 [Page 25] Internet-Draft CMS Content Constraints October 2009 AuthEnvelopedData, or AuthenticatedData layer. Additionally, an application may specify a set of attributes that it has authenticated, perhaps from processing one or more content types that encapsulate a CMS-protected content. If the content is not a leaf node in a CMS path, and it contains attributes, then add the attributes to cms_effective_attributes. Leaf node attributes may be checked independent of the CCC processing, but such processing is not addressed in this document. 4.3. Leaf node classification The type of leaf node that terminates a CMS path determines the types of information that is returned and the type of processing that is performed. There are two types of leaf nodes: encrypted leaf nodes and payload leaf nodes. A node in a CMS path is a leaf node if the content type of the node is not one of the following content types: id-signedData (SignedData), id-digestedData (DigestedData), id-ct-authData (AuthenticatedData), id-ct-compressedData (CompressedData), id-ct-contentCollection (ContentCollection), and id-ct-contentWithAttrs (ContentWithAttributes). A leaf node is an encrypted leaf node if the content type of the node is one of the following content types: id-encryptedData (EncryptedData), id-envelopedData (EnvelopedData), and id-ct-authEnvelopedData (AuthEnvelopedData). All other leaf nodes are payload leaf nodes, since no further CMS encapsulation can occur beyond that node. However, specifications may define content types that provide protection similar to the CMS content types, may augment the lists of possible leaf nodes and encrypted leaf nodes or may define some encrypted types as payload leaf nodes. When an encrypted leaf node is encountered, processing terminates and Housley, et al. Expires April 23, 2010 [Page 26] Internet-Draft CMS Content Constraints October 2009 returns information that may be used as input when processing the decrypted contents. Content type and constraints checking are only performed for payload leaf nodes. When an encrypted leaf node terminates a CMS path, the attributes collected in cms_effective_attributes are returned along with the public key information collected in cms_public_keys. When a payload leaf node terminates a CMS path, content type and constraint checking must be performed, as described in the next section. 4.4. Content Type and Constraint Checking 4.4.1. Inputs The inputs to content type and constraint checking are the values collected in cms_public_keys and cms_effective_attributes from a CMS path along with the payload leaf node that terminates the CMS path. 4.4.2. Processing When a payload leaf node is encountered in a CMS path and a signed or authenticated content type is present in the CMS path, content type and constraint checking MUST be performed. Content type and constraint checking need not be performed for CMS paths that do not contain at least one SignedData, AuthEnvelopedData, or AuthenticatedData content type. The cms_effective_attributes and cms_public_keys variables are used to perform constraint checking. Two additional state variables are used during the processing: cms_constraints and cms_default_attributes, both of which are initialized to empty. The steps required to perform content type and constraint checking are below. For each public key in cms_public_keys, build and validate a certification path from a trust anchor to the public key, providing the content type of the payload leaf node and cms_effective_attributes as input. If path validation is successful, add the contents of subject_default_attributes to cms_default_attributes. The subject_constraints variable returned from certification path validation will contain a single entry. If the subject_constraints entry is equal to the special value anyContentType, content type and constraints checking succeeds. If the subject_constraints entry is not equal to the special value anyContentType, for each entry in the attrConstraints field of the entry in subject_constraints, If there is an entry in cms_constraints with the same attrType value, add the value from the attrValues entry to the entry in Housley, et al. Expires April 23, 2010 [Page 27] Internet-Draft CMS Content Constraints October 2009 cms_constraints if that value does not already appear. If there is no entry in cms_constraints with the same attrType value, add a new entry to cms_constraints equal to the entry from the attrConstraints field. If the value of canSource field of the entry in the subject_constraints variable for the public key used to verify the signature or MAC closest to the payload leaf node is set to FALSE, constraints checking fails and the CMS path MUST be rejected. If no valid certification path can be found, constraints checking fails and the CMS path MUST be rejected. 4.4.3. Outputs When a payload leaf node is encountered and content type and constraint checking succeeds, return cms_constraints, cms_default_attributes and cms_effective_attributes for use in leaf node payload processing. When an encrypted leaf node is encountered and constraint checking is not performed, return cms_public_keys and cms_effective_attributes for use in continued processing (as described in section 4.3.1). The cms_effective_attributes list may contain multiple instances of the same attribute type. An instance of an attribute may contain multiple values. Leaf node processing, which might take advantage of these effective attributes, needs to describe the proper handling of this situation. Leaf node processing is described in other documents, and it is expected to be specific to a particular content type. The cms_default_attributes list may contain attributes with multiple values. Payload processing, which might take advantage of these default attributes, needs to describe the proper handling of this situation. Payload processing is described in other documents, and it is expected to be specific to a particular content type. Housley, et al. Expires April 23, 2010 [Page 28] Internet-Draft CMS Content Constraints October 2009 5. Subordination Processing in TAMP TAMP [TAMP] does not define an authorization mechanism. CCC can be used to authorize TAMP message signers and to delegate TAMP message signing authority. TAMP requires trust anchors managed by a TAMP message signer to be subordinate to the signer. This section describes subordination processing for CCC extensions of trust anchors contained in a TrustAnchorUpdate message where CCC is used to authorize TAMP messages. For a Trust Anchor Update message that is not signed with the apex trust anchor operational public key to be valid, the digital signature MUST be validated using a management trust anchor associated with the id-ct-TAMP-update content type, either directly or via an X.509 certification path originating with an authorized trust anchor. The following subordination checks MUST also be performed as part of validation. Each Trust Anchor Update message contains one or more individual updates, each of which is used to add, modify or remove a trust anchor. For each individual update the constraints of the TAMP message signer MUST be greater than or equal to the constraints of the trust anchor in the update. The constraints of the TAMP message signer and the to-be-updated trust anchor are determined based on the applicable CMS Content Constraints. Specifically, the constraints of the TAMP message signer are determined as described in section 3 above passing the special value id-ct-anyContentType and an empty set of attributes as input; the constraints of the to-be-updated trust anchor are determined as described below. If the constraints of a trust anchor in an update exceed the constraints of the signer, that update MUST be rejected. Each update is considered and accepted or rejected individually without regard to other updates in the TAMP message. The constraints of the to-be-updated trust anchors are determined as follows: o If the to-be-updated trust anchor is the subject of an add operation, the constraints are read from the CMSContentConstraints extension of the corresponding trust anchor in the update. o If the to-be-updated trust anchor is the subject of a remove operation, the trust anchor is located in the message recipient's trust anchor store using the public key included in the update. o If the to-be-updated trust anchor is the subject of a change operation, the trust anchor has two distinct sets of constraints that MUST be checked. The trust anchor's pre-change constraints are determined by locating the trust anchor in the message recipient's trust anchor store using the public key included in Housley, et al. Expires April 23, 2010 [Page 29] Internet-Draft CMS Content Constraints October 2009 the update and reading the constraints from the CMSContentConstraints extension in the trust anchor. The trust anchor's post-change constraints are read from the CMSContentConstraints extension of the corresponding TBSCertificateChangeInfo or the TrustAnchorChangeInfo in the update. If the CMSContentConstraints extension is not present, then the trust anchor's post-change constraints are equivalent to the trust anchor's pre-change constraints. The following steps can be used to determine if a Trust Anchor Update message signer is authorized to manage each to-be-updated trust anchor contained in a Trust Anchor Update message. o The TAMP message signer's CMS Content Constraints are determined as described in section 3 above passing the special value id-ct- anyContentType and an empty set of attributes as input. The message signer MUST be authorized for the Trust Anchor Update message. This can be confirmed using the steps described in section 4 above. o The constraints of each to-be-updated trust anchor in the TAMP message MUST be checked against the message signer's constraints (represented in the message signer's subject_constraints computed above) using the following steps. For change operations, the following steps MUST be performed for the trust anchor's pre- change constraints and the trust anchor's post-change constraints. * If the to-be-updated trust anchor is unconstrained, the message signer MUST also be unconstrained, i.e., the message signer's subject_constraints MUST be set to the special value anyContentType. If the to-be-updated trust anchor is unconstrained and the message signer is not, then the message signer is not authorized to manage the trust anchor and the update MUST be rejected. * The message signer's authorization for each permitted content type MUST be checked using the state variables and procedures similar to those described in sections 3.2 and 3.3 above. For each permitted content type in the to-be-updated trust anchor's constraints, + Set cms_effective_attributes equal to the value of the attrConstraints field from the permitted content type. + If the content type does not match an entry in the message signer's subject_constraints, the message signer is not authorized to manage the trust anchor and the update MUST be rejected. Note, the special value id-ct-anyContentType Housley, et al. Expires April 23, 2010 [Page 30] Internet-Draft CMS Content Constraints October 2009 produces a match for all content types with the resulting matching entry containing the content type, canSource set to TRUE and attrConstraints absent. + If the content type matches an entry in the message signer's subject_constraints, the canSource field of the entry is FALSE and the canSource field in the to-be-updated trust anchor's privilege is TRUE, the message signer is not authorized to manage the trust anchor and the update MUST be rejected. + If the content type matches an entry in the message signer's subject_constraints and the entry's attrConstraints field is present, then constraints MUST be checked. For each attrType in the entry's attrConstraints, a corresponding attribute MUST be present in cms_effective_attributes containing values from the entry's attrConstraints. If values appear in the corresponding attribute that are not in the entry's attrConstraints or if there is no corresponding attribute, the message signer is not authorized to manage the trust anchor and the update MUST be rejected. Once these steps are completed, if the update has not been rejected, then the message signer is authorized to manage the to-be-updated trust anchor. Note that a management trust anchor that has only the id-ct-TAMP- update permitted content type is useful only for managing identity trust anchors. It can sign a Trust Anchor Update message, but it cannot impact a management trust anchor that is associated with any other content type. Housley, et al. Expires April 23, 2010 [Page 31] Internet-Draft CMS Content Constraints October 2009 6. Security Considerations For any given certificate, multiple certification paths may exist, and each one can yield different results for CMS content constraints processing. For example, default attributes can change when multiple certification paths exist as each path can potentially have different attribute requirements or default values. Compromise of a trust anchor private key permits unauthorized parties to generate signed messages that will be acceptable to all applications that use a trust anchor store containing the corresponding management trust anchor. For example, if the trust anchor is authorized to sign firmware packages, then the unauthorized private key holder can generate firmware that may be successfully installed and used by applications that trust the management trust anchor. For implementations that support validation of TAMP messages using X.509 certificates, it is possible for the TAMP message signer to have more than one possible certification path that will authorize it to sign Trust Anchor Update messages, with each certification path resulting in different CMS Content Constraints. The update is authorized if the processing below succeeds for any one certification path of the TAMP message signer. The resulting subject_constraints variable is used to check each to-be-updated trust anchor contained in the update message. CMS does not provide a mechanism for indicating that an attribute applies to a particular content within a ContentCollection or a set CMS layers. For sake of simplicity, this specification collects all attributes that appear in a CMS path. These attributes are processed as part of CCC processing and are made available for use in processing leaf node contents. This can result in collection of attributes that have no relationship with the leaf node contents. CMS does not provide a means for indicating what element within a CMS message an attribute applies to. For example, a MessageDigest attribute included in a SignedData signedAttributes collection applies to a specific signature but a Firmware Package Identifier attribute appearing in the same list of attributes describes the encapsulated content. As such, CCC treats all attributes as applying to the encapsulated content type. Care should be taken to avoid provisioning trust anchors or certificates that include constraints on attribute types that are never used to describe a leaf content type, such as a MessageDigest attribute. Housley, et al. Expires April 23, 2010 [Page 32] Internet-Draft CMS Content Constraints October 2009 7. IANA Considerations There are no IANA considerations. Please delete this section prior to RFC publication. Housley, et al. Expires April 23, 2010 [Page 33] Internet-Draft CMS Content Constraints October 2009 8. References 8.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC3274] Gutmann, P., "Compressed Data Content Type for Cryptographic Message Syntax (CMS)", RFC 3274, June 2002. [RFC3852] Housley, R., "Cryptographic Message Syntax (CMS)", RFC 3852, July 2004. [RFC4073] Housley, R., "Protecting Multiple Contents with the Cryptographic Message Syntax (CMS)", RFC 4073, May 2005. [RFC5083] Housley, R., "Cryptographic Message Syntax (CMS) Authenticated-Enveloped-Data Content Type", RFC 5083, November 2007. [RFC5280] Cooper, D., Santesson, S., Farrell, S., Boeyen, S., Housley, R., and W. Polk, "Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile", RFC 5280, May 2008. [X.680] "ITU-T Recommendation X.680: Information Technology - Abstract Syntax Notation One", 1997. [X.690] "ITU-T Recommendation X.690 Information Technology - ASN.1 encoding rules: Specification of Basic Encoding Rules (BER), Canonical Encoding Rules (CER) and Distinguished Encoding Rules (DER)", 1997. 8.2. Informative References [PKIXASN1] Hoffman, P. and J. Schaad, "New ASN.1 Modules for PKIX", in progress. [RFC3161] Adams, C., Cain, P., Pinkas, D., and R. Zuccherato, "Internet X.509 Public Key Infrastructure Time-Stamp Protocol (TSP)", RFC 3161, August 2001. [RFC4108] Housley, R., "Using Cryptographic Message Syntax (CMS) to Protect Firmware Packages", RFC 4108, August 2005. [RFC5272] Schaad, J. and M. Myers, "Certificate Management over CMS (CMC)", RFC 5272, June 2008. Housley, et al. Expires April 23, 2010 [Page 34] Internet-Draft CMS Content Constraints October 2009 [TAF] Housley, R., Wallace, C., and S. Ashmore, "Trust Anchor Format", in progress. [TAMP] Housley, R., Wallace, C., and S. Ashmore, "Trust Anchor Management Protocol (TAMP)", in progress. [X.208] "ITU-T Recommendation X.208 - Specification of Abstract Syntax Notation One (ASN.1)", 1988. Housley, et al. Expires April 23, 2010 [Page 35] Internet-Draft CMS Content Constraints October 2009 Appendix A. ASN.1 Modules Appendix A.1 provides the normative ASN.1 definitions for the structures described in this specification using ASN.1 as defined in [X.680]. Appendix A.2 provides a module using ASN.1 as defined in [X.208]. The module in A.2 removes usage of newer ASN.1 features that provide support for limiting the types of elements that may appear in certain SEQUENCE and SET constructions. Otherwise, the modules are compatible in terms of encoded representation, i.e., the modules are bits-on-the-wire compatible aside from the limitations on SEQUENCE and SET constituents. A.2 is included as a courtesy to developers using ASN.1 compilers that do not support current ASN.1. A.1 references an ASN.1 module from [PKIXASN1]. A.1. ASN.1 Module Using 1993 Syntax Housley, et al. Expires April 23, 2010 [Page 36] Internet-Draft CMS Content Constraints October 2009 CMSContentConstraintsCertExtn { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) cmsContentConstr-93(42) } DEFINITIONS IMPLICIT TAGS ::= BEGIN IMPORTS EXTENSION, ATTRIBUTE FROM PKIX-CommonTypes -- from [PKIXASN1] { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) id-mod-pkixCommon(43) } ; id-ct-anyContentType OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) ct(1) 0 } cmsContentConstraints EXTENSION ::= { SYNTAX CMSContentConstraints IDENTIFIED BY id-pe-cmsContentConstraints } id-pe-cmsContentConstraints OBJECT IDENTIFIER ::= { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) pe(1) 18 } CMSContentConstraints ::= SEQUENCE SIZE (1..MAX) OF ContentTypeConstraint ContentTypeConstraint ::= SEQUENCE { contentType OBJECT IDENTIFIER, canSource BOOLEAN DEFAULT TRUE, attrConstraints AttrConstraintList OPTIONAL } CONSTRAINT ::= ATTRIBUTE Constraint { CONSTRAINT:ConstraintList } ::= SEQUENCE { attrType CONSTRAINT. &id({ConstraintList}), attrValues SET SIZE (1..MAX) OF CONSTRAINT. &Type({ConstraintList}{@attrType}) } SupportedConstraints CONSTRAINT ::= { ... } AttrConstraintList { CONSTRAINT:ConstraintList } ::= SET SIZE (1..MAX) OF Constraint {{ SupportedConstraints }} END Housley, et al. Expires April 23, 2010 [Page 37] Internet-Draft CMS Content Constraints October 2009 A.2. ASN.1 Module Using 1988 Syntax CMSContentConstraintsCertExtn-88 { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) cmsContentConstr-88(41) } DEFINITIONS IMPLICIT TAGS ::= BEGIN IMPORTS AttributeType, AttributeValue FROM PKIX1Explicit88 -- from [RFC5280] { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) id-mod(0) id-pkix1-explicit(18) } ; id-ct-anyContentType OBJECT IDENTIFIER ::= { iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-9(9) smime(16) ct(1) 0} -- Extension object identifier id-pe-cmsContentConstraints OBJECT IDENTIFIER ::= { iso(1) identified-organization(3) dod(6) internet(1) security(5) mechanisms(5) pkix(7) pe(1) 18 } -- CMS Content Constraints Extension CMSContentConstraints ::= SEQUENCE SIZE (1..MAX) OF ContentTypeConstraint ContentTypeConstraint ::= SEQUENCE { contentType OBJECT IDENTIFIER, canSource BOOLEAN DEFAULT TRUE, attrConstraints AttrConstraintList OPTIONAL } AttrConstraintList ::= SEQUENCE SIZE (1..MAX) OF AttrConstraint AttrConstraint ::= SEQUENCE { attrType AttributeType, attrValues SET SIZE (1..MAX) OF AttributeValue } END Housley, et al. Expires April 23, 2010 [Page 38] Internet-Draft CMS Content Constraints October 2009 Authors' Addresses Russ Housley Vigil Security, LLC 918 Spring Knoll Drive Herndon, VA 20170 Email: housley@vigilsec.com Sam Ashmore National Security Agency Suite 6751 9800 Savage Road Fort Meade, MD 20755 Email: srashmo@radium.ncsc.mil Carl Wallace Cygnacom Solutions Suite 5200 7925 Jones Branch Drive McLean, VA 22102 Email: cwallace@cygnacom.com Housley, et al. Expires April 23, 2010 [Page 39]