SACM Working Group H. Birkholz
Internet-Draft Fraunhofer SIT
Intended status: Standards Track J. Fitzgerald-McKay
Expires: May 20, 2020 Department of Defense
C. Schmidt
The MITRE Corporation
D. Waltermire
NIST
November 17, 2019
Concise Software Identification Tags
draft-ietf-sacm-coswid-13
Abstract
ISO/IEC 19770-2:2015 Software Identification (SWID) tags provide an
extensible XML-based structure to identify and describe individual
software components, patches, and installation bundles. SWID tag
representations can be too large for devices with network and storage
constraints. This document defines a concise representation of SWID
tags: Concise SWID (CoSWID) tags. CoSWID supports the same features
as SWID tags, as well as additional semantics that allow CoSWIDs to
describe additional types of information, all in a more memory
efficient format.
Status of This Memo
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This Internet-Draft will expire on May 20, 2020.
Copyright Notice
Copyright (c) 2019 IETF Trust and the persons identified as the
document authors. All rights reserved.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1. The SWID and CoSWID Tag Lifecycle . . . . . . . . . . . . 4
1.2. Concise SWID Format . . . . . . . . . . . . . . . . . . . 7
1.3. Requirements Notation . . . . . . . . . . . . . . . . . . 7
2. Concise SWID Data Definition . . . . . . . . . . . . . . . . 7
2.1. Character Encoding . . . . . . . . . . . . . . . . . . . 8
2.2. Concise SWID Extensions . . . . . . . . . . . . . . . . . 9
2.3. The concise-swid-tag Group . . . . . . . . . . . . . . . 11
2.4. concise-swid-tag Co-constraints . . . . . . . . . . . . . 15
2.5. The global-attributes Group . . . . . . . . . . . . . . . 16
2.6. The entity-entry Group . . . . . . . . . . . . . . . . . 17
2.7. The link-entry Map . . . . . . . . . . . . . . . . . . . 18
2.8. The software-meta-entry Map . . . . . . . . . . . . . . . 22
2.9. The Resource Collection Definition . . . . . . . . . . . 26
2.9.1. The hash-entry Array . . . . . . . . . . . . . . . . 26
2.9.2. The resource-collection Group . . . . . . . . . . . . 26
2.9.3. The payload-entry Group . . . . . . . . . . . . . . . 29
2.9.4. The evidence-entry Group . . . . . . . . . . . . . . 30
2.10. Full CDDL Definition . . . . . . . . . . . . . . . . . . 30
3. Determining the Type of CoSWID . . . . . . . . . . . . . . . 36
4. CoSWID Indexed Label Values . . . . . . . . . . . . . . . . . 37
4.1. Version Scheme . . . . . . . . . . . . . . . . . . . . . 37
4.2. Entity Role Values . . . . . . . . . . . . . . . . . . . 38
4.3. Link Ownership Values . . . . . . . . . . . . . . . . . . 39
4.4. Link Rel Values . . . . . . . . . . . . . . . . . . . . . 40
4.5. Link Use Values . . . . . . . . . . . . . . . . . . . . . 42
5. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 43
5.1. CoSWID Items Registry . . . . . . . . . . . . . . . . . . 43
5.2. SWID/CoSWID Value Registries . . . . . . . . . . . . . . 46
5.2.1. Registration Proceedures . . . . . . . . . . . . . . 46
5.2.2. Private Use of Index and Name Values . . . . . . . . 46
5.2.3. Expert Review Guidelines . . . . . . . . . . . . . . 47
5.2.4. SWID/CoSWID Version Scheme Value Registry . . . . . . 47
5.2.5. SWID/CoSWID Entity Role Value Registry . . . . . . . 49
5.2.6. SWID/CoSWID Link Ownership Value Registry . . . . . . 50
5.2.7. SWID/CoSWID Link Relationship Value Registry . . . . 51
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5.2.8. SWID/CoSWID Link Use Value Registry . . . . . . . . . 53
5.3. swid+cbor Media Type Registration . . . . . . . . . . . . 54
5.4. CoAP Content-Format Registration . . . . . . . . . . . . 55
5.5. CBOR Tag Registration . . . . . . . . . . . . . . . . . . 55
5.6. URI Scheme Registrations . . . . . . . . . . . . . . . . 55
5.6.1. "swid" URI Scheme Registration . . . . . . . . . . . 56
5.6.2. "swidpath" URI Scheme Registration . . . . . . . . . 56
5.7. CoSWID Model for use in SWIMA Registration . . . . . . . 57
6. Security Considerations . . . . . . . . . . . . . . . . . . . 58
7. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 59
8. Change Log . . . . . . . . . . . . . . . . . . . . . . . . . 60
9. References . . . . . . . . . . . . . . . . . . . . . . . . . 64
9.1. Normative References . . . . . . . . . . . . . . . . . . 64
9.2. Informative References . . . . . . . . . . . . . . . . . 66
Appendix A. Signed Concise SWID Tags using COSE . . . . . . . . 67
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 68
1. Introduction
SWID tags, as defined in ISO-19770-2:2015 [SWID], provide a
standardized XML-based record format that identifies and describes a
specific release of software, a patch, or an installation bundle,
which are referred to as software components in this document.
Different software components, and even different releases of a
particular software component, each have a different SWID tag record
associated with them. SWID tags are meant to be flexible and able to
express a broad set of metadata about a software component.
SWID tags are used to support a number of processes including but not
limited to:
o Software Inventory Management, a part of a Software Asset
Management [SAM] process, which requires an accurate list of
discernible deployed software components.
o Vulnerability Assessment, which requires a semantic link between
standardized vulnerability descriptions and software components
installed on IT-assets [X.1520].
o Remote Attestation, which requires a link between reference
integrity measurements (RIM) and security logs of measured
software components [I-D.birkholz-rats-tuda].
While there are very few required fields in SWID tags, there are many
optional fields that support different uses. A SWID tag consisting
of only required fields might be a few hundred bytes in size;
however, a tag containing many of the optional fields can be many
orders of magnitude larger. Thus, real-world instances of SWID tags
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can be fairly large, and the communication of SWID tags in usage
scenarios, such as those described earlier, can cause a large amount
of data to be transported. This can be larger than acceptable for
constrained devices and networks. Concise SWID (CoSWID) tags
significantly reduce the amount of data transported as compared to a
typical SWID tag. This reduction is enabled through the use of the
Concise Binary Object Representation (CBOR) [RFC7049], which maps the
human-readable labels of SWID data items to more concise integer
labels (indices). The use of CBOR to express SWID information in
CoSWID tags allows both CoSWID and SWID tags to be part of an
enterprise security solution for a wider range of endpoints and
environments.
1.1. The SWID and CoSWID Tag Lifecycle
In addition to defining the format of a SWID tag record, ISO/IEC
19770-2:2015 defines requirements concerning the SWID tag lifecycle.
Specifically, when a software component is installed on an endpoint,
that software component's SWID tag is also installed. Likewise, when
the software component is uninstalled or replaced, the SWID tag is
deleted or replaced, as appropriate. As a result, ISO/IEC
19770-2:2015 describes a system wherein there is a correspondence
between the set of installed software components on an endpoint, and
the presence of the corresponding SWID tags for these components on
that endpoint. CoSWIDs share the same lifecycle requirements as a
SWID tag.
The SWID specification and supporting guidance provided in NIST
Internal Report (NISTIR) 8060: Guidelines for the Creation of
Interoperable SWID Tags [SWID-GUIDANCE] defines four types of SWID
tags: primary, patch, corpus, and supplemental. The following text
is paraphrased from these sources.
1. Primary Tag - A SWID or CoSWID tag that identifies and describes
an installed software component on an endpoint. A primary tag is
intended to be installed on an endpoint along with the
corresponding software component.
2. Patch Tag - A SWID or CoSWID tag that identifies and describes an
installed patch that has made incremental changes to a software
component installed on an endpoint. A patch tag is intended to
be installed on an endpoint along with the corresponding software
component patch.
3. Corpus Tag - A SWID or CoSWID tag that identifies and describes
an installable software component in its pre-installation state.
A corpus tag can be used to represent metadata about an
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installation package or installer for a software component, a
software update, or a patch.
4. Supplemental Tag - A SWID or CoSWID tag that allows additional
information to be associated with a referenced SWID tag. This
allows tools and users to record their own metadata about a
software component without modifying SWID primary or patch tags
created by a software provider.
The type of a tag is determined by specific data elements, which are
discussed in Section 3.
Corpus, primary, and patch tags have similar functions in that
they describe the existence and/or presence of different types of
software components (e.g., software installers, software
installations, software patches), and, potentially, different
states of these software components. Supplemental tags have the
same structure as other tags, but are used to provide information
not contained in the referenced corpus, primary, and patch tags.
All four tag types come into play at various points in the
software lifecycle and support software management processes that
depend on the ability to accurately determine where each software
component is in its lifecycle.
+------------+
v |
Software Software Software Software Software
Deployment -> Installation -> Patching -> Upgrading -> Removal
Corpus Primary Primary xPrimary xPrimary
Supplemental Supplemental Supplemental xSupplemental xSuplemental
Patch xPatch
Primary
Supplemental
Figure 1: Use of Tag Types in the Software Lifecycle
Figure 1 illustrates the steps in the software lifecycle and the
relationships among those lifecycle events supported by the four
types of SWID and CoSWID tags. The figure identifies the types of
tags that can be deployed and previously deployed tags that are
typically removed (indicated by an "x" prefix) at each lifecycle
stage, as follows:
* Software Deployment. Before the software component is
installed (i.e., pre-installation), and while the product is
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being deployed, a corpus tag provides information about the
installation files and distribution media (e.g., CD/DVD,
distribution package).
* Software Installation. A primary tag will be installed with
the software component (or subsequently created) to uniquely
identify and describe the software component. Supplemental
tags are created to augment primary tags with additional site-
specific or extended information. While not illustrated in the
figure, patch tags can also be installed during software
installation to provide information about software fixes
deployed along with the base software installation.
* Software Patching. A new patch tag is provided, when a patch
is applied to the software component, supplying details about
the patch and its dependencies. While not illustrated in the
figure, a corpus tag can also provide information about the
patch installer and patching dependencies that need to be
installed before the patch.
* Software Upgrading. As a software component is upgraded to a
new version, new primary and supplemental tags replace existing
tags, enabling timely and accurate tracking of updates to
software inventory. While not illustrated in the figure, a
corpus tag can also provide information about the upgrade
installer and dependencies that need to be installed before the
upgrade.
* Software Removal. Upon removal of the software component,
relevant SWID tags are removed. This removal event can trigger
timely updates to software inventory reflecting the removal of
the product and any associated patch or supplemental tags.
As illustrated in the figure, supplemental tags can be associated
with any corpus, primary, or patch tag to provide additional metadata
about an installer, installed software, or installed patch
respectively.
Understanding the use of CoSWIDs in the software lifecycle provides a
basis for understanding the information provided in a CoSWID and the
associated semantics of this information. Each of the different SWID
and CoSWID tag types provide different sets of information. For
example, a "corpus tag" is used to describe a software component's
installation image on an installation media, while a "patch tag" is
meant to describe a patch that modifies some other software
component.
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1.2. Concise SWID Format
This document defines the CoSWID tag format, which is based on CBOR.
CBOR-based CoSWID tags offer a more concise representation of SWID
information as compared to the XML-based SWID tag representation in
ISO-19770-2:2015. The structure of a CoSWID is described via the
Concise Data Definition Language (CDDL) [RFC8610]. The resulting
CoSWID data definition is aligned to the information able to be
expressed with the XML schema definition of ISO-19770-2:2015 [SWID].
This alignment allows both SWID and CoSWID tags to represent a common
set of software component information and allows CoSWID tags to
support the same uses as a SWID tag. To achieve this end, the CDDL
representation includes every SWID tag field and attribute.
The vocabulary, i.e., the CDDL names of the types and members used in
the CoSWID data definition, are mapped to more concise labels
represented as small integer values. The names used in the CDDL data
definition and the mapping to the CBOR representation using integer
labels is based on the vocabulary of the XML attribute and element
names defined in ISO/IEC 19770-2:2015.
1.3. Requirements Notation
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.
2. Concise SWID Data Definition
The following describes the general rules and processes for encoding
data using CDDL representation. Prior familiarity with CBOR and CDDL
concepts will be helpful in understanding this CoSWID data
definition.
This section describes the rules by which SWID tag XML is represented
in the CoSWID CDDL structure. The CamelCase [CamelCase] notation
used in the XML schema definition is changed to a hyphen-separated
notation [KebabCase] (e.g. ResourceCollection is named resource-
collection) in the CoSWID data definition. This deviation from the
original notation used in the XML representation reduces ambiguity
when referencing certain attributes in corresponding textual
descriptions. An attribute referred to by its name in CamelCase
notation explicitly relates to XML SWID tags; an attribute referred
to by its name in KebabCase notation explicitly relates to CBOR
CoSWID tags. This approach simplifies the composition of further
work that reference both XML SWID and CBOR CoSWID documents.
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In most cases, mapping attribute names between SWID and CoSWID can be
done automatically by converting between CamelCase and KebabCase
attribute names. However, some CoSWID CDDL attribute names show
greater variation relative to their corresponding SWID XML Schema
attributes. This is done when the change improves clarity in the
specification. For example the "name" and "version" SWID fields
corresponds to the "software-name" and "software-version" CoSWID
fields, respectively. As such, it is not always possible to
mechanically translate between corresponding attribute names in the
two formats. In such cases, a manual mapping will need to be used.
The 57 human-readable text labels of the CDDL-based CoSWID vocabulary
are mapped to integer indices via a block of rules at the bottom of
the definition. This allows a more concise integer-based form to be
stored or transported, as compared to the less efficient text-based
form of the original vocabulary.
In CBOR, an array is encoded using bytes that identify the array, and
the array's length or stop point (see [RFC7049]). To make items that
support 1 or more values, the following CDDL notion is used.
_name_ = (_label_: _data_ / [ 2* _data_ ])
The CDDL rule above allows either a single data item or an array of 2
or more data values to be provided. When a singleton data value is
provided, the CBOR markers for the array, array length, and stop
point are not needed, saving bytes. When two or more data values are
provided, these values are encoded as an array. This modeling
pattern is used frequently in the CoSWID CDDL data definition to
allow for more efficient encoding of singleton values.
The following subsections describe the different parts of the CoSWID
model.
2.1. Character Encoding
The CDDL "text" type is represented in CBOR as a major type 3, which
represents "a string of Unicode characters that [are] encoded as
UTF-8 [RFC3629]" (see [RFC7049] section 2.1). Thus both SWID and
CoSWID use UTF-8 for the encoding of characters in text strings.
To ensure that UTF-8 character strings are able to be encoded/decoded
and exchanged interoperably, text strings in CoSWID MUST be encoded
consistent with the Net-Unicode definition defined in [RFC5198].
All names registered with IANA according to requirements in section
Section 5.2 also need to be valid according to the XML Schema NMToken
data type (see [W3C.REC-xmlschema-2-20041028] section 3.3.4) to
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ensure compatibility with the SWID specification where these names
are used.
2.2. Concise SWID Extensions
The CoSWID data definition contains two features that are not
included in the SWID data definition on which it is based. These
features are:
o The explicit definition of types for some attributes in the ISO-
19770-2:2015 XML representation that are typically represented by
the "any attribute" in the SWID model. These are covered in
Section 2.5.
o The inclusion of extension points in the CoSWID data definition
using CDDL sockets (see [RFC8610] section 3.9). The use of CDDL
sockets allow for well-formed extensions to be defined in
supplementary CDDL descriptions that support additional uses of
CoSWID tags that go beyond the original scope of ISO-19770-2:2015
tags. This extension mechanism can also be used to update the
CoSWID format as revisions to ISO-19770-2 are published.
The following CDDL sockets (extension points) are defined in this
document, which allow the addition of new information structures to
their respective CDDL groups.
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+---------------------+-----------------------+---------------+
| Map Name | CDDL Socket | Defined in |
+---------------------+-----------------------+---------------+
| concise-swid-tag | $$coswid-extension | Section 2.3 |
| | | |
| entity-entry | $$entity-extension | Section 2.6 |
| | | |
| link-entry | $$link-extension | Section 2.7 |
| | | |
| software-meta-entry | $$meta-extension | Section 2.8 |
| | | |
| file-entry | $$file-extension | Section 2.9.2 |
| | | |
| directory-entry | $$directory-extension | Section 2.9.2 |
| | | |
| process-entry | $$process-extension | Section 2.9.2 |
| | | |
| resource-entry | $$resource-extension | Section 2.9.2 |
| | | |
| payload-entry | $$payload-extension | Section 2.9.3 |
| | | |
| evidence-entry | $$evidence-extension | Section 2.9.4 |
+---------------------+-----------------------+---------------+
Table 1: CoSWID CDDL Group Extension Points
The CoSWID Items Registry defined in Section 5.1 provides a
registration mechanism allowing new items, and their associated index
values, to be added to the CoSWID model through the use of the CDDL
sockets described in the table above. This registration mechanism
provides for well-known index values for data items in CoSWID
extensions, allowing these index values to be recognized by
implementations supporting a given extension.
The following additional CDDL sockets are defined in this document to
allow for adding new values to corresponding type-choices (i.e. to
represent enumerations) via custom CDDL data definitions.
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+------------------+-----------------+-------------+
| Enumeration Name | CDDL Socket | Defined in |
+------------------+-----------------+-------------+
| version-scheme | $version-scheme | Section 4.1 |
| | | |
| role | $role | Section 4.2 |
| | | |
| ownership | $ownership | Section 4.3 |
| | | |
| rel | $rel | Section 4.4 |
| | | |
| use | $use | Section 4.5 |
+------------------+-----------------+-------------+
Table 2: CoSWID CDDL Enumeration Extension Points
A number of SWID/CoSWID value registries are also defined in
Section 5.2 that allow new values to be registered with IANA for the
enumerations above. This registration mechanism supports the
definition of new well-known index values and names for new
enumeration values used by both SWID and CoSWID. This registration
mechanism allows new standardized enumerated values to be shared
between both specifications (and implementations) over time, and
references to the IANA registries will be added to the next revision
of [SWID].
2.3. The concise-swid-tag Group
The CDDL data definition for the root concise-swid-tag map is as
follows and this rule and its constraints MUST be followed when
creating or validating a CoSWID tag:
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concise-swid-tag = {
global-attributes,
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 => software-meta-entry / [ 2* software-meta-entry ],
entity => entity-entry / [ 2* entity-entry ],
? link => link-entry / [ 2* link-entry ],
? (( payload => payload-entry ) // ( evidence => evidence-entry )),
* $$coswid-extension
}
tag-id = 0
software-name = 1
entity = 2
evidence = 3
link = 4
software-meta = 5
payload = 6
corpus = 8
patch = 9
media = 10
supplemental = 11
tag-version = 12
software-version = 13
version-scheme = 14
$version-scheme /= multipartnumeric
$version-scheme /= multipartnumeric-suffix
$version-scheme /= alphanumeric
$version-scheme /= decimal
$version-scheme /= semver
$version-scheme /= uint / text
multipartnumeric = 1
multipartnumeric-suffix = 2
alphanumeric = 3
decimal = 4
semver = 16384
The following describes each member of the concise-swid-tag root map.
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o global-attributes: A list of items including an optional language
definition to support the processing of text-string values and an
unbounded set of any-attribute items. Described in Section 2.5.
o tag-id (index 0): A 16 byte binary string or textual identifier
uniquely referencing a software component. The tag identifier
MUST be globally unique. If represented as a 16 byte binary
string, the identifier MUST be a valid universally unique
identifier as defined by [RFC4122]. There are no strict
guidelines on how this identifier is structured, but examples
include a 16 byte GUID (e.g. class 4 UUID) [RFC4122], or a text
string appended to a DNS domain name to ensure uniqueness across
organizations.
o tag-version (index 12): An integer value that indicate the
specific release revision of the tag. Typically, the initial
value of this field is set to 0 and the value is monotonically
increased for subsequent tags produced for the same software
component release. This value allows a CoSWID tag producer to
correct an incorrect tag previously released without indicating a
change to the underlying software component the tag represents.
For example, the tag version could be changed to add new metadata,
to correct a broken link, to add a missing payload entry, etc.
When producing a revised tag, the new tag-version value MUST be
greater than the old tag-version value.
o corpus (index 8): A boolean value that indicates if the tag
identifies and describes an installable software component in its
pre-installation state. Installable software includes a
installation package or installer for a software component, a
software update, or a patch. If the CoSWID tag represents
installable software, the corpus item MUST be set to "true". If
not provided, the default value MUST be considered "false".
o patch (index 9): A boolean value that indicates if the tag
identifies and describes an installed patch that has made
incremental changes to a software component installed on an
endpoint. Typically, an installed patch has made a set of file
modifications to pre-installed software and does not alter the
version number or the descriptive metadata of an installed
software component. If a CoSWID tag is for a patch, the patch
item MUST be set to "true". If not provided, the default value
MUST be considered "false".
Note: If the software component's version number is modified, then
the correct course of action would be to replace the previous
primary tag for the component with a new primary tag that
reflected this new version. In such a case, the new tag would
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have a patch item value of "false" or would omit this item
completely.
o supplemental (index 11): A boolean value that indicates if the tag
is providing additional information to be associated with another
referenced SWID or CoSWID tag. This allows tools and users to
record their own metadata about a software component without
modifying SWID primary or patch tags created by a software
provider. If a CoSWID tag is a supplemental tag, the supplemental
item MUST be set to "true". If not provided, the default value
MUST be considered "false".
o software-name (index 1): This textual item provides the software
component's name. This name is likely the same name that would
appear in a package management tool.
o software-version (index 13): A textual value representing the
specific release or development version of the software component.
o version-scheme (index 14): An integer or textual value
representing the versioning scheme used for the software-version
item. If an integer value is used it MUST be an index value in
the range -256 to 65535. Integer values in the range -256 to -1
are reserved for testing and use in closed environments (see
section Section 5.2.2). Integer values in the range 0 to 65535
correspond to registered entries in the IANA "SWID/CoSWID Version
Scheme Value" registry (see section Section 5.2.4. If a string
value is used it MUST be a private use name as defined in section
Section 5.2.2. String values based on a Version Scheme Name from
the IANA "SWID/CoSWID Version Scheme Value" registry MUST NOT be
used, as these values are less concise than their index value
equivalent.
o media (index 10): This text value is a hint to the tag consumer to
understand what target platform this tag applies to. This item
represents a query as defined by the W3C Media Queries
Recommendation (see [W3C.REC-css3-mediaqueries-20120619]).
o software-meta (index 5): An open-ended map of key/value data
pairs. A number of predefined keys can be used within this item
providing for common usage and semantics across the industry. Use
of this map allows any additional attribute to be included in the
tag. It is expected that industry groups will use a common set of
attribute names to allow for interoperability within their
communities. Described in Section 2.8.
o entity (index 2): Provides information about one or more
organizations responsible for producing the CoSWID tag, and
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producing or releasing the software component referenced by this
CoSWID tag. Described in Section 2.6.
o link (index 4): Provides a means to establish relationship arcs
between the tag and another items. A given link can be used to
establish the relationship between tags or to reference another
resource that is related to the CoSWID tag, e.g. vulnerability
database association, ROLIE feed [RFC8322], MUD resource
[RFC8520], software download location, etc). This is modeled
after the HTML "link" element. Described in Section 2.7.
o payload (index 6): This item represents a collection of software
artifacts (described by child items) that compose the target
software. For example, these artifacts could be the files
included with an installer for a corpus tag or installed on an
endpoint when the software component is installed for a primary or
patch tag. The artifacts listed in a payload may be a superset of
the software artifacts that are actually installed. Based on user
selections at install time, an installation might not include
every artifact that could be created or executed on the endpoint
when the software component is installed or run. Described in
Section 2.9.3.
o evidence-entry (index 3): This item can be used to record the
results of a software discovery process used to identify untagged
software on an endpoint or to represent indicators for why
software is believed to be installed on the endpoint. In either
case, a CoSWID tag can be created by the tool performing an
analysis of the software components installed on the endpoint.
Described in Section 2.9.4.
o $$coswid-extension: This CDDL socket is used to add new
information structures to the concise-swid-tag root map. See
Section 2.2.
2.4. concise-swid-tag Co-constraints
The following co-constraints apply to the information provided in the
concise-swid-tag group.
o The patch and supplemental items MUST NOT both be set to "true".
o If the patch item is set to "true", the tag SHOULD contain at
least one link item (see section Section 2.7) with both the rel
item value of "patches" and an href item specifying an association
with the software that was patched.
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o If the supplemental item is set to "true", the tag SHOULD contain
at least one link item with both the rel item value of
"supplemental" and an href item specifying an association with the
software that is supplemented.
o If all of the corpus, patch, and supplemental items are "false",
or if the corpus item is set to "true", then a software-version
item MUST be included with a value set to the version of the
software component. This ensures that primary and corpus tags
have an identifiable software version.
2.5. The global-attributes Group
The global-attributes group provides a list of items, including an
optional language definition to support the processing of text-string
values, and an unbounded set of any-attribute items allowing for
additional items to be provided as a general point of extension in
the model.
The CDDL for the global-attributes follows:
global-attributes = (
? lang,
* any-attribute,
)
any-attribute = (
label => text / int / [ 2* text ] / [ 2* int ]
)
label = text / int
The following describes each child item of this group.
o lang (index 15): A textual language tag that conforms with IANA
"Language Subtag Registry" [RFC5646]. The context of the
specified language applies to all sibling and descendant textual
values, unless a descendant object has defined a different
language tag. Thus, a new context is established when a
descendant object redefines a new language tag. All textual
values within a given context MUST be considered expressed in the
specified language.
o any-attribute: This sub-group provides a means to include
arbitrary information via label ("key") value pairs. Labels can
be either a single integer or text string. Values can be a single
integer, a text string, or an array of integers or text strings.
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2.6. The entity-entry Group
The CDDL for the entity-entry group follows:
entity-entry = {
global-attributes,
entity-name => text,
? reg-id => any-uri,
role => $role / [ 2* $role ],
? thumbprint => hash-entry,
* $$entity-extension,
}
entity-name = 31
reg-id = 32
role = 33
thumbprint = 34
$role /= tag-creator
$role /= software-creator
$role /= aggregator
$role /= distributor
$role /= licensor
$role /= uint / text
tag-creator=1
software-creator=2
aggregator=3
distributor=4
licensor=5
The following describes each child item of this group.
o global-attributes: The global-attributes group described in
Section 2.5.
o entity-name (index 32): The textual name of the organizational
entity claiming the roles specified by the role item for the
CoSWID tag.
o reg-id (index 32): The registration id value is intended to
uniquely identify a naming authority in a given scope (e.g.
global, organization, vendor, customer, administrative domain,
etc.) for the referenced entity. The value of an registration ID
MUST be a RFC 3986 URI. The scope SHOULD be the scope of an
organization. In a given scope, the registration id MUST be used
consistently for CoSWID tag production.
o role (index 33): An integer or textual value representing the
relationship(s) between the entity, and this tag or the referenced
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software component. If an integer value is used it MUST be an
index value in the range -256 to 255. Integer values in the range
-256 to -1 are reserved for testing and use in closed environments
(see section Section 5.2.2). Integer values in the range 0 to 255
correspond to registered entries in the IANA "SWID/CoSWID Entity
Role Value" registry (see section Section 5.2.5. If a string
value is used it MUST be a private use name as defined in section
Section 5.2.2. String values based on a Role Name from the IANA
"SWID/CoSWID Entity Role Value" registry MUST NOT be used, as
these values are less concise than their index value equivalent.
The following additional requirements exist for the use of the
"role" item:
* An entity item MUST be provided with the role of "tag-creator"
for every CoSWID tag. This indicates the organization that
created the CoSWID tag.
* An entity item SHOULD be provided with the role of "software-
creator" for every CoSWID tag, if this information is known to
the tag creator. This indicates the organization that created
the referenced software component.
o thumbprint (index 34): The value of the thumbprint item provides
an integer-based hash algorithm identifier (hash-alg-id) and a
byte string value (hash-value) that contains the corresponding
hash value (i.e. the thumbprint) of the signing entity's public
key certificate. This provides an indicator of which entity
signed the CoSWID tag, which will typically be the tag creator.
If the hash-alg-id is not known, then the integer value "0" MUST
be used. This ensures parity between the SWID tag specification
[SWID], which does not allow an algorithm to be identified for
this field. See Section 2.9.1 for more details on the use of the
hash-entry data structure.
o $$entity-extension: This CDDL socket can be used to extend the
entity-entry group model. See Section 2.2.
2.7. The link-entry Map
The CDDL for the link-entry map follows:
link-entry = {
global-attributes,
? artifact => text,
href => any-uri,
? media => text,
? ownership => $ownership,
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rel => $rel,
? media-type => text,
? use => $use,
* $$link-extension,
}
media = 10
artifact = 37
href = 38
ownership = 39
rel = 40
media-type = 41
use = 42
$ownership /= shared
$ownership /= private
$ownership /= abandon
$ownership /= uint / text
shared=1
private=2
abandon=3
$rel /= ancestor
$rel /= component
$rel /= feature
$rel /= installationmedia
$rel /= packageinstaller
$rel /= parent
$rel /= patches
$rel /= requires
$rel /= see-also
$rel /= supersedes
$rel /= supplemental
$rel /= uint / text
ancestor=1
component=2
feature=3
installationmedia=4
packageinstaller=5
parent=6
patches=7
requires=8
see-also=9
supersedes=10
supplemental=11
$use /= optional
$use /= required
$use /= recommended
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$use /= uint / text
optional=1
required=2
recommended=3
The following describes each member of this map.
o global-attributes: The global-attributes group described in
Section 2.5.
o artifact (index: 37): To be used with rel="installation-media",
this item's value provides the path to the installer executable or
script that can be run to launch the referenced installation.
Links with the same artifact name MUST be considered mirrors of
each other, allowing the installation media to be acquired from
any of the described sources.
o href (index 38): A URI for the referenced resource. The "href"
item's value can be, but is not limited to, the following (which
is a slightly modified excerpt from [SWID]):
* If no URI scheme is provided, then the URI is to be interpreted
as being relative to the URI of the CoSWID tag. For example,
"./folder/supplemental.coswid".
* a physical resource location with any acceptable URI scheme
(e.g., file:// http:// https:// ftp://)
* a URI with "swid:" as the scheme refers to another SWID or
CoSWID by the referenced tag's tag-id. This URI needs to be
resolved in the context of the endpoint by software that can
lookup other SWID or CoSWID tags. For example, "swid:2df9de35-
0aff-4a86-ace6-f7dddd1ade4c" references the tag with the tag-id
value "2df9de35-0aff-4a86-ace6-f7dddd1ade4c".
* a URI with "swidpath:" as the scheme, which refers to another
CoSIWD via an XPATH query. This URI would need to be resolved
in the context of the system entity via software components
that can lookup other CoSWID tags and select the appropriate
tag based on an XPATH query [W3C.REC-xpath20-20101214].
Examples include:
+ swidpath://SoftwareIdentity[Entity/@regid='http://contoso.co
m'] would retrieve all SWID or CoSWID tags that include an
entity where the regid is "Contoso"
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+ swidpath://SoftwareIdentity[Meta/@persistentId='b0c55172-38e
9-4e36-be86-92206ad8eddb'] would match all SWID or CoSWID
tags with the persistent-id value
"b0c55172-38e9-4e36-be86-92206ad8eddb"
o media (index 10): A hint to the consumer of the link to what
target platform the link is applicable to. This item represents a
query as defined by the W3C Media Queries Recommendation (see
[W3C.REC-css3-mediaqueries-20120619]). See also media defined in
Section 2.3.
o ownership (index 39): An integer or textual value used when the
"href" item references another software component to indicate the
degree of ownership between the software component referenced by
the COSWID tag and the software component referenced by the link.
If an integer value is used it MUST be an index value in the range
-256 to 255. Integer values in the range -256 to -1 are reserved
for testing and use in closed environments (see section
Section 5.2.2). Integer values in the range 0 to 255 correspond
to registered entries in the IANA "SWID/CoSWID Link Ownership
Value" registry (see section Section 5.2.6. If a string value is
used it MUST be a private use name as defined in section
Section 5.2.2. String values based on a Ownership Type Name from
the IANA "SWID/CoSWID Link Ownership Value" registry MUST NOT be
used, as these values are less concise than their index value
equivalent.
o rel (index 40): An integer or textual value that identifies the
relationship between this CoSWID and the target resource
identified by the "href" item. If an integer value is used it
MUST be an index value in the range -256 to 65535. Integer values
in the range -256 to -1 are reserved for testing and use in closed
environments (see section Section 5.2.2). Integer values in the
range 0 to 65535 correspond to registered entries in the IANA
"SWID/CoSWID Link Relationship Value" registry (see section
Section 5.2.7. If a string value is used it MUST be either a
private use name as defined in section Section 5.2.2 or a
"Relation Name" from the IANA "Link Relation Types" registry:
https://www.iana.org/assignments/link-relations/link-
relations.xhtml as defined by [RFC8288]. When a string value
defined in the IANA "SWID/CoSWID Link Relationship Value" registry
matches a Relation Name defined in the IANA "Link Relation Types"
registry, the index value in the IANA "SWID/CoSWID Link
Relationship Value" registry MUST be used instead, as this
relationship has a specialized meaning in the context of a SWID/
CoSWID tag. String values based on a Relationship Type Name from
the IANA "SWID/CoSWID Link Relationship Value" registry MUST NOT
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be used, as these values are less concise than their index value
equivalent.
o media-type (index 41): A link can point to arbitrary resources on
the endpoint, local network, or Internet using the href item. Use
of this item supplies the resource consumer with a hint of what
type of resource to expect. Media types are identified by
referencing a "Name" from the IANA "Media Types" registry:
http://www.iana.org/assignments/media-types/media-types.xhtml.
o use (index 42): An integer or textual value used to determine if
the referenced software component has to be installed before
installing the software component identified by the COSWID tag.
If an integer value is used it MUST be an index value in the range
-256 to 255. Integer values in the range -256 to -1 are reserved
for testing and use in closed environments (see section
Section 5.2.2). Integer values in the range 0 to 255 correspond
to registered entries in the IANA "Link Use Value Value" registry
(see section Section 5.2.8. If a string value is used it MUST be
a private use name as defined in section Section 5.2.2. String
values based on an Link Use Type Name from the IANA "SWID/CoSWID
Link Use Value" registry MUST NOT be used, as these values are
less concise than their index value equivalent.
o $$link-extension: This CDDL socket can be used to extend the link-
entry map model. See Section 2.2.
2.8. The software-meta-entry Map
The CDDL for the software-meta-entry map follows:
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software-meta-entry = {
global-attributes,
? activation-status => text,
? channel-type => text,
? colloquial-version => text,
? description => text,
? edition => text,
? entitlement-data-required => bool,
? entitlement-key => text,
? generator => text,
? persistent-id => text,
? product => text,
? product-family => text,
? revision => text,
? summary => text,
? unspsc-code => text,
? unspsc-version => text,
* $$meta-extension,
}
activation-status = 43
channel-type = 44
colloquial-version = 45
description = 46
edition = 47
entitlement-data-required = 48
entitlement-key = 49
generator = 50
persistent-id = 51
product = 52
product-family = 53
revision = 54
summary = 55
unspsc-code = 56
unspsc-version = 57
The following describes each child item of this group.
o global-attributes: The global-attributes group described in
Section 2.5.
o activation-status (index 43): A textual value that identifies how
the software component has been activated, which might relate to
specific terms and conditions for its use (e.g. Trial,
Serialized, Licensed, Unlicensed, etc) and relate to an
entitlement. This attribute is typically used in supplemental
tags as it contains information that might be selected during a
specific install.
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o channel-type (index 44): A textual value that identfies which
sales, licensing, or marketing channel the software component has
been targeted for (e.g. Volume, Retail, OEM, Academic, etc).
This attribute is typically used in supplemental tags as it
contains information that might be selected during a specific
install.
o colloquial-version (index 45): A textual value for the software
component's informal or colloquial version. Examples may include
a year value, a major version number, or similar value that are
used to identify a group of specific software component releases
that are part of the same release/support cycle. This version can
be the same through multiple releases of a software component,
while the software-version specified in the concise-swid-tag group
is much more specific and will change for each software component
release. This version is intended to be used for string
comparison only and is not intended to be used to determine if a
specific value is earlier or later in a sequence.
o description (index 46): A textual value that provides a detailed
description of the software component. This value MAY be multiple
paragraphs separated by CR LF characters as described by
[RFC5198].
o edition (index 47): A textual value indicating that the software
component represents a functional variation of the code base used
to support multiple software components. For example, this item
can be used to differentiate enterprise, standard, or professional
variants of a software component.
o entitlement-data-required (index 48): A boolean value that can be
used to determine if accompanying proof of entitlement is needed
when a software license reconciliation process is performed.
o entitlement-key (index 49): A vendor-specific textual key that can
be used to identify and establish a relationship to an
entitlement. Examples of an entitlement-key might include a
serial number, product key, or license key. For values that
relate to a given software component install (i.e., license key),
a supplemental tag will typically contain this information. In
other cases, where a general-purpose key can be provided that
applies to all possible installs of the software component on
different endpoints, a primary tag will typically contain this
information.
o generator (index 50): The name (or tag-id) of the software
component that created the CoSWID tag. If the generating software
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component has a SWID or CoSWID tag, then the tag-id for the
generating software component SHOULD be provided.
o persistent-id (index 51): A globally unique identifier used to
identify a set of software components that are related. Software
components sharing the same persistent-id can be different
versions. This item can be used to relate software components,
released at different points in time or through different release
channels, that may not be able to be related through use of the
link item.
o product (index 52): A basic name for the software component that
can be common across multiple tagged software components (e.g.,
Apache HTTPD).
o product-family (index 53): A textual value indicating the software
components overall product family. This should be used when
multiple related software components form a larger capability that
is installed on multiple different endpoints. For example, some
software families may consist of server, client, and shared
service components that are part of a larger capability. Email
systems, enterprise applications, backup services, web
conferencing, and similar capabilities are examples of families.
Use of this item is not intended to represent groups of software
that are bundled or installed together. The persistent-id or link
items SHOULD be used to relate bundled software components.
o revision (index 54): A string value indicating an informal or
colloquial release version of the software. This value can
provide a different version value as compared to the software-
version specified in the concise-swid-tag group. This is useful
when one or more releases need to have an informal version label
that differs from the specific exact version value specified by
software-version. Examples can include SP1, RC1, Beta, etc.
o summary (index 55): A short description of the software component.
This MUST be a single sentence suitable for display in a user
interface.
o unspsc-code (index 56): An 8 digit UNSPSC classification code for
the software component. For more information see
https://www.unspsc.org/.
o unspsc-version (index 57): The version of UNSPSC used to define
the unspsc-code value.
o $$meta-extension: This CDDL socket can be used to extend the
software-meta-entry group model. See Section 2.2.
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2.9. The Resource Collection Definition
2.9.1. The hash-entry Array
CoSWID adds explicit support for the representation of hash entries
using algorithms that are registered in the IANA "Named Information
Hash Algorithm Registry" using the hash-entry member (label 58).
hash-entry = [ hash-alg-id: int, hash-value: bytes ]
The number used as a value for hash-alg-id MUST refer an ID in the
"Named Information Hash Algorithm Registry" (see
https://www.iana.org/assignments/named-information/named-
information.xhtml); other hash algorithms MUST NOT be used. The
hash-value MUST represent the raw hash value of the hashed resource
generated using the hash algorithm indicated by the hash-alg-id.
2.9.2. The resource-collection Group
A list of items both used in evidence (created by a software
discovery process) and payload (installed in an endpoint) content of
a CoSWID tag document to structure and differentiate the content of
specific CoSWID tag types. Potential content includes directories,
files, processes, or resources.
The CDDL for the resource-collection group follows:
resource-collection = (
? directory => directory-entry,
? file => file-entry,
? process => process-entry,
? resource => resource-entry,
)
filesystem-item = (
global-attributes,
? key => bool,
? location => text,
fs-name => text,
? root => text,
)
path-elements-entry = [ [ * file-entry ],
[ * directory-entry ],
]
file-entry = {
filesystem-item,
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? size => integer,
? file-version => text,
? hash => hash-entry,
* $$file-extension
}
directory-entry = {
filesystem-item,
path-elements => path-elements-entry,
* $$directory-extension
}
process-entry = {
global-attributes,
process-name => text,
? pid => integer,
* $$process-extension
}
resource-entry = {
global-attributes,
type => text,
* $$resource-extension
}
directory = 16
file = 17
process = 18
resource = 19
size = 20
file-version = 21
key = 22
location = 23
fs-name = 24
root = 25
path-elements = 26
process-name = 27
pid = 28
type = 29
The following describes each member of the groups and maps
illustrated above.
o filesystem-item: A list of common items used for representing the
filesystem root, relative location, name, and significance of a
file or directory item.
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o global-attributes: The global-attributes group described in
Section 2.5.
o directory (index 16): A directory item allows child directory and
file items to be defined within a directory hierarchy for the
software component.
o file (index 17): A file item allows details about a file to be
provided for the software component.
o process (index 18): A process item allows details to be provided
about the runtime behavior of the software component, such as
information that will appear in a process listing on an endpoint.
o resource (index 19): A resource item can be used to provide
details about an artifact or capability expected to be found on an
endpoint or evidence collected related to the software component.
This can be used to represent concepts not addressed directly by
the directory, file, or process items. Examples include: registry
keys, bound ports, etc. The equivalent construct in [SWID] is
currently under specified. As a result, this item might be
further defined through extension in the future.
o size (index 20): The file's size in bytes.
o file-version (index 21): The file's version as reported by
querying information on the file from the operating system.
o key (index 22): A boolean value indicating if a file or directory
is significant or required for the software component to execute
or function properly. These are files or directories that can be
used to affirmatively determine if the software component is
installed on an endpoint.
o location (index 23): The filesystem path where a file is expected
to be located when installed or copied. The location MUST be
either relative to the location of the parent directory item
(preferred) or relative to the location of the CoSWID tag if no
parent is defined. The location MUST NOT include a file's name,
which is provided by the fs-name item.
o fs-name (index 24): The name of the directory or file without any
path information.
o root (index 25): A filesystem-specific name for the root of the
filesystem. The location item is considered relative to this
location if specified. If not provided, the value provided by the
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location item is expected to be relative to its parent or the
location of the CoSWID tag if no parent is provided.
o path-elements (index 26): This group allows a hierarchy of
directory and file items to be defined in payload or evidence
items.
o process-name (index 27): The software component's process name as
it will appear in an endpoint's process list.
o pid (index 28): The process ID identified for a running instance
of the software component in the endpoint's process list. This is
used as part of the evidence item.
o type (index 29): A string indicating the type of resource.
o $$resource-collection-extension: This CDDL socket can be used to
extend the resource-collection group model. This can be used to
add new specialized types of resources. See Section 2.2.
o $$file-extension: This CDDL socket can be used to extend the file-
entry group model. See Section 2.2.
o $$directory-extension: This CDDL socket can be used to extend the
directory-entry group model. See Section 2.2.
o $$process-extension: This CDDL socket can be used to extend the
process-entry group model. See Section 2.2.
o $$resource-extension: This CDDL socket can be used to extend the
group model. See Section 2.2.
o $$-extension: This CDDL socket can be used to extend the resource-
entry group model. See Section 2.2.
2.9.3. The payload-entry Group
The CDDL for the payload-entry group follows:
payload-entry = {
global-attributes,
resource-collection,
* $$payload-extension
}
The following describes each child item of this group.
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o global-attributes: The global-attributes group described in
Section 2.5.
o resource-collection: The resource-collection group described in
Section 2.9.2.
o $$payload-extension: This CDDL socket can be used to extend the
payload-entry group model. See Section 2.2.
2.9.4. The evidence-entry Group
The CDDL for the evidence-entry group follows:
evidence-entry = {
global-attributes,
resource-collection,
? date => time,
? device-id => text,
* $$evidence-extension
}
date = 35
device-id = 36
The following describes each child item of this group.
o global-attributes: The global-attributes group described in
Section 2.5.
o resource-collection: The resource-collection group described in
Section 2.9.2.
o date (index 35): The date and time the information was collected
pertaining to the evidence item.
o device-id (index 36): The endpoint's string identifier from which
the evidence was collected.
o $$evidence-extension: This CDDL socket can be used to extend the
evidence-entry group model. See Section 2.2.
2.10. Full CDDL Definition
In order to create a valid CoSWID document the structure of the
corresponding CBOR message MUST adhere to the following CDDL data
definition.
concise-swid-tag = {
global-attributes,
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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 => software-meta-entry / [ 2* software-meta-entry ],
entity => entity-entry / [ 2* entity-entry ],
? link => link-entry / [ 2* link-entry ],
? (( payload => payload-entry ) // ( evidence => evidence-entry )),
* $$coswid-extension
}
any-uri = text
label = text / int
$version-scheme /= multipartnumeric
$version-scheme /= multipartnumeric-suffix
$version-scheme /= alphanumeric
$version-scheme /= decimal
$version-scheme /= semver
$version-scheme /= uint / text
any-attribute = (
label => text / int / [ 2* text ] / [ 2* int ]
)
global-attributes = (
? lang => text,
* any-attribute,
)
hash-entry = [ hash-alg-id: int,
hash-value: bytes ]
entity-entry = {
global-attributes,
entity-name => text,
? reg-id => any-uri,
role => $role / [ 2* $role ],
? thumbprint => hash-entry,
* $$entity-extension,
}
$role /= tag-creator
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$role /= software-creator
$role /= aggregator
$role /= distributor
$role /= licensor
$role /= uint / text
link-entry = {
global-attributes,
? artifact => text,
href => any-uri,
? media => text,
? ownership => $ownership,
rel => $rel,
? media-type => text,
? use => $use,
* $$link-extension
}
$ownership /= shared
$ownership /= private
$ownership /= abandon
$ownership /= uint / text
$rel /= ancestor
$rel /= component
$rel /= feature
$rel /= installationmedia
$rel /= packageinstaller
$rel /= parent
$rel /= patches
$rel /= requires
$rel /= see-also
$rel /= supersedes
$rel /= supplemental
$rel /= uint / text
$use /= optional
$use /= required
$use /= recommended
$use /= uint / text
software-meta-entry = {
global-attributes,
? activation-status => text,
? channel-type => text,
? colloquial-version => text,
? description => text,
? edition => text,
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? entitlement-data-required => bool,
? entitlement-key => text,
? generator => text,
? persistent-id => text,
? product => text,
? product-family => text,
? revision => text,
? summary => text,
? unspsc-code => text,
? unspsc-version => text,
* $$meta-extension,
}
resource-collection = (
? directory => directory-entry,
? file => file-entry,
? process => process-entry,
? resource => resource-entry,
* $$resource-collection-extension
)
file-entry = {
filesystem-item,
? size => integer,
? file-version => text,
? hash => hash-entry,
* $$file-extension
}
path-elements-entry = [ [ * file-entry ],
[ * directory-entry ],
]
directory-entry = {
filesystem-item,
path-elements => path-elements-entry,
* $$directory-extension
}
process-entry = {
global-attributes,
process-name => text,
? pid => integer,
* $$process-extension
}
resource-entry = {
global-attributes,
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type => text,
* $$resource-extension
}
filesystem-item = (
global-attributes,
? key => bool,
? location => text,
fs-name => text,
? root => text,
)
payload-entry = {
global-attributes,
resource-collection,
* $$payload-extension
}
evidence-entry = {
global-attributes,
resource-collection,
? date => time,
? device-id => text,
* $$evidence-extension
}
; "global map member" integer indexes
tag-id = 0
software-name = 1
entity = 2
evidence = 3
link = 4
software-meta = 5
payload = 6
hash = 7
corpus = 8
patch = 9
media = 10
supplemental = 11
tag-version = 12
software-version = 13
version-scheme = 14
lang = 15
directory = 16
file = 17
process = 18
resource = 19
size = 20
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file-version = 21
key = 22
location = 23
fs-name = 24
root = 25
path-elements = 26
process-name = 27
pid = 28
type = 29
entity-name = 31
reg-id = 32
role = 33
thumbprint = 34
date = 35
device-id = 36
artifact = 37
href = 38
ownership = 39
rel = 40
media-type = 41
use = 42
activation-status = 43
channel-type = 44
colloquial-version = 45
description = 46
edition = 47
entitlement-data-required = 48
entitlement-key = 49
generator = 50
persistent-id = 51
product = 52
product-family = 53
revision = 54
summary = 55
unspsc-code = 56
unspsc-version = 57
; "version-scheme" integer indexes
multipartnumeric = 1
multipartnumeric-suffix = 2
alphanumeric = 3
decimal = 4
semver = 16384
; "role" integer indexes
tag-creator=1
software-creator=2
aggregator=3
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distributor=4
licensor=5
; ownership integer indexes
shared=1
private=2
abandon=3
; "rel" integer indexes
ancestor=1
component=2
feature=3
installationmedia=4
packageinstaller=5
parent=6
patches=7
requires=8
see-also=9
supersedes=10
; supplemental=11 ; this is already defined earlier
; "use" integer indexes
optional=1
required=2
recommended=3
3. Determining the Type of CoSWID
The operational model for SWID and CoSWID tags was introduced in
Section 1.1, which described four different CoSWID tag types. The
following additional rules apply to the use of CoSWID tags to ensure
that created tags properly identify the tag type.
The first matching rule MUST determine the type of the CoSWID tag.
1. Primary Tag: A CoSWID tag MUST be considered a primary tag if the
corpus, patch, and supplemental items are "false".
2. Supplemental Tag: A CoSWID tag MUST be considered a supplemental
tag if the supplemental item is set to "true".
3. Corpus Tag: A CoSWID tag MUST be considered a corpus tag if the
corpus item is "true".
4. Patch Tag: A CoSWID tag MUST be considered a patch tag if the
patch item is "true".
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Note: Multiple of the corpus, patch, and supplemental items can have
values set as "true". The rules above provide a means to determine
the tag's type in such a case. For example, a SWID or CoSWID tag for
a patch installer might have both corpus and patch items set to
"true". In such a case, the tag is a "Corpus Tag". The tag
installed by this installer would have only the patch item set to
"true", making the installed tag type a "Patch Tag".
4. CoSWID Indexed Label Values
4.1. Version Scheme
The following table contains a set of values for use in the concise-
swid-tag group's version-scheme item. These values match the version
schemes defined in the ISO/IEC 19770-2:2015 [SWID] specification.
Index value indicates the value to use as the version-scheme item's
value. The Version Scheme Name provides human-readable text for the
value. The Definition describes the syntax of allowed values for
each entry.
+-------+-------------------------+---------------------------------+
| Index | Version Scheme Name | Definition |
+-------+-------------------------+---------------------------------+
| 1 | multipartnumeric | Numbers separated by dots, |
| | | where the numbers are |
| | | interpreted as integers (e.g., |
| | | 1.2.3, 1.4.5, 1.2.3.4.5.6.7) |
| | | |
| 2 | multipartnumeric+suffix | Numbers separated by dots, |
| | | where the numbers are |
| | | interpreted as integers with an |
| | | additional textual suffix |
| | | (e.g., 1.2.3a) |
| | | |
| 3 | alphanumeric | Strictly a string, sorting is |
| | | done alphanumerically |
| | | |
| 4 | decimal | A floating point number (e.g., |
| | | 1.25 is less than 1.3) |
| | | |
| 16384 | semver | Follows the [SEMVER] |
| | | specification |
+-------+-------------------------+---------------------------------+
Table 3: Version Scheme Values
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The values above are registered in the IANA "SWID/CoSWID Version
Scheme Value" registry defined in section Section 5.2.4. Additional
entries will likely be registered over time in this registry.
These version schemes have partially overlapping value spaces. The
following gudelines help to ensure that the most specific version-
scheme is used:
o "decimal" and "multipartnumeric" partially overlap in their value
space when a value matches a decimal number . When a corresponding
software-version item's value falls within this overlapping value
space, the "decimal" version scheme SHOULD be used.
o "multipartnumeric" and "semver" partially overlap in their value
space when a "multipartnumeric" value matches the semantic
versioning syntax. When a corresponding software-version item's
value falls within this overlapping value space, the "semver"
version scheme SHOULD be used.
o "alphanumeric" and other version schemes might overlap in their
value space. When a corresponding software-version item's value
falls within this overlapping value space, the other version
scheme SHOULD be used instead of "alphanumeric".
4.2. Entity Role Values
The following table indicates the index value to use for the entity-
entry group's role item (see Section 2.6). These values match the
entity roles defined in the ISO/IEC 19770-2:2015 [SWID]
specification. The "Index" value indicates the value to use as the
role item's value. The "Role Name" provides human-readable text for
the value. The "Definition" describes the semantic meaning of each
entry.
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+-------+-----------------+-----------------------------------------+
| Index | Role Name | Definition |
+-------+-----------------+-----------------------------------------+
| 1 | tagCreator | The person or organization that created |
| | | the containing SWID or CoSWID tag |
| | | |
| 2 | softwareCreator | The person or organization entity that |
| | | created the software component. |
| | | |
| 3 | aggregator | From [SWID], "An organization or system |
| | | that encapsulates software from their |
| | | own and/or other organizations into a |
| | | different distribution process (as in |
| | | the case of virtualization), or as a |
| | | completed system to accomplish a |
| | | specific task (as in the case of a |
| | | value added reseller)." |
| | | |
| 4 | distributor | From [SWID], "An entity that furthers |
| | | the marketing, selling and/or |
| | | distribution of software from the |
| | | original place of manufacture to the |
| | | ultimate user without modifying the |
| | | software, its packaging or its |
| | | labelling." |
| | | |
| 5 | licensor | From [SAM] as "software licensor", a |
| | | "person or organization who owns or |
| | | holds the rights to issue a software |
| | | license for a specific software |
| | | [component]" |
+-------+-----------------+-----------------------------------------+
Table 4: Entity Role Values
The values above are registered in the IANA "SWID/CoSWID Entity Role
Value" registry defined in section Section 5.2.5. Additional values
will likely be registered over time. Additionally, the index values
128 through 255 and the name prefix "x_" have been reserved for
private use.
4.3. Link Ownership Values
The following table indicates the index value to use for the link-
entry group's ownership item (see Section 2.7). These values match
the link ownership values defined in the ISO/IEC 19770-2:2015 [SWID]
specification. The "Index" value indicates the value to use as the
link-entry group ownership item's value. The "Ownership Type"
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provides human-readable text for the value. The "Definition"
describes the semantic meaning of each entry.
+-------+-----------+-----------------------------------------------+
| Index | Ownership | Definition |
| | Type | |
+-------+-----------+-----------------------------------------------+
| 1 | abandon | If the software component referenced by the |
| | | CoSWID tag is uninstalled, then the |
| | | referenced software SHOULD not be uninstalled |
| | | |
| 2 | private | If the software component referenced by the |
| | | CoSWID tag is uninstalled, then the |
| | | referenced software SHOULD be uninstalled as |
| | | well. |
| | | |
| 3 | shared | If the software component referenced by the |
| | | CoSWID tag is uninstalled, then the |
| | | referenced software SHOULD be uninstalled if |
| | | no other components sharing the software. |
+-------+-----------+-----------------------------------------------+
Table 5: Link Ownership Values
The values above are registered in the IANA "SWID/CoSWID Link
Ownership Value" registry defined in section Section 5.2.6.
Additional values will likely be registered over time. Additionally,
the index values 128 through 255 and the name prefix "x_" have been
reserved for private use.
4.4. Link Rel Values
The following table indicates the index value to use for the link-
entry group's rel item (see Section 2.7). These values match the
link rel values defined in the ISO/IEC 19770-2:2015 [SWID]
specification. The "Index" value indicates the value to use as the
link-entry group ownership item's value. The "Relationship Type"
provides human-readable text for the value. The "Definition"
describes the semantic meaning of each entry.
+-------+-------------------+---------------------------------------+
| Index | Relationship Type | Definition |
+-------+-------------------+---------------------------------------+
| 1 | ancestor | The link references a SWID/CoSWID tag |
| | | for a previous release of this |
| | | software. This can be useful to |
| | | define an upgrade path. |
| | | |
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| 2 | component | The link references a SWID/CoSWID tag |
| | | for a separate component of this |
| | | software. |
| | | |
| 3 | feature | The link references a configurable |
| | | feature of this software that can be |
| | | enabled or disabled without changing |
| | | the installed files. |
| | | |
| 4 | installationmedia | The link references the installation |
| | | package that can be used to install |
| | | this software. |
| | | |
| 5 | packageinstaller | The link references the installation |
| | | software needed to install this |
| | | software. |
| | | |
| 6 | parent | The link references a SWID/CoSWID tag |
| | | that is the parent of this |
| | | SWID/CoSWID tag. This relationship |
| | | can be used when multiple software |
| | | components are part of a software |
| | | bundle, where the "parent" is the |
| | | SWID/CoSWID tag for the bundle, and |
| | | each child is a "component". In such |
| | | a case, each child component can |
| | | provide a "parent" link relationship |
| | | to the bundle's SWID/CoSWID tag, and |
| | | the bundle can provide a "component" |
| | | link relationship to each child |
| | | software component. |
| | | |
| 7 | patches | The link references a SWID/CoSWID tag |
| | | that this software patches. Typically |
| | | only used for patch SWID/CoSWID tags |
| | | (see Section 1.1). |
| | | |
| 8 | requires | The link references a prerequisite |
| | | for installing this software. A patch |
| | | SWID/CoSWID tag (see Section 1.1) can |
| | | use this to represent base software |
| | | or another patch that needs to be |
| | | installed first. |
| | | |
| 9 | see-also | The link references other software |
| | | that may be of interest that relates |
| | | to this software. |
| | | |
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| 10 | supersedes | The link references another software |
| | | that this software replaces. A patch |
| | | SWID/CoSWID tag (see Section 1.1) can |
| | | use this to represent another patch |
| | | that this patch incorporates or |
| | | replaces. |
| | | |
| 11 | supplemental | The link references a SWID/CoSWID tag |
| | | that this tag supplements. Used on |
| | | supplemental SWID/CoSWID tags (see |
| | | Section 1.1). |
+-------+-------------------+---------------------------------------+
Table 6: Link Relationship Values
The values above are registered in the IANA "SWID/CoSWID Link
Relationship Value" registry defined in section Section 5.2.7.
Additional values will likely be registered over time. Additionally,
the index values 32768 through 65535 and the name prefix "x_" have
been reserved for private use.
4.5. Link Use Values
The following table indicates the index value to use for the link-
entry group's use item (see Section 2.7). These values match the
link use values defined in the ISO/IEC 19770-2:2015 [SWID]
specification. The "Index" value indicates the value to use as the
link-entry group use item's value. The "Use Type" provides human-
readable text for the value. The "Definition" describes the semantic
meaning of each entry.
+-------+-------------+---------------------------------------------+
| Index | Use Type | Definition |
+-------+-------------+---------------------------------------------+
| 1 | optional | From [SWID], "Not absolutely required; the |
| | | [Link]'d software is installed only when |
| | | specified." |
| | | |
| 2 | required | From [SWID], "The [Link]'d software is |
| | | absolutely required for an operation |
| | | software installation." |
| | | |
| 3 | recommended | From [SWID], "Not absolutely required; the |
| | | [Link]'d software is installed unless |
| | | specified otherwise." |
+-------+-------------+---------------------------------------------+
Table 7: Link Use Values
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The values above are registered in the IANA "SWID/CoSWID Link Use
Value" registry defined in section Section 5.2.8. Additional values
will likely be registered over time. Additionally, the index values
128 through 255 and the name prefix "x_" have been reserved for
private use.
5. IANA Considerations
This document has a number of IANA considerations, as described in
the following subsections. In summary, 6 new registries are
established with this request, with initial entries provided for each
registry. New values for 5 other registries are also requested.
5.1. CoSWID Items Registry
This registry uses integer values as index values in CBOR maps.
This document defines a new registry titled "CoSWID Items". Future
registrations for this registry are to be made based on [RFC8126] as
follows:
+------------------+-------------------------+
| Range | Registration Procedures |
+------------------+-------------------------+
| 0-32767 | Standards Action |
| | |
| 32768-4294967295 | Specification Required |
+------------------+-------------------------+
Table 8: CoSWID Items Registration Proceedures
All negative values are reserved for Private Use.
Initial registrations for the "CoSWID Items" registry are provided
below. Assignments consist of an integer index value, the item name,
and a reference to the defining specification.
+---------------+---------------------------+---------------+
| Index | Item Name | Specification |
+---------------+---------------------------+---------------+
| 0 | tag-id | RFC-AAAA |
| | | |
| 1 | software-name | RFC-AAAA |
| | | |
| 2 | entity | RFC-AAAA |
| | | |
| 3 | evidence | RFC-AAAA |
| | | |
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| 4 | link | RFC-AAAA |
| | | |
| 5 | software-meta | RFC-AAAA |
| | | |
| 6 | payload | RFC-AAAA |
| | | |
| 7 | hash | RFC-AAAA |
| | | |
| 8 | corpus | RFC-AAAA |
| | | |
| 9 | patch | RFC-AAAA |
| | | |
| 10 | media | RFC-AAAA |
| | | |
| 11 | supplemental | RFC-AAAA |
| | | |
| 12 | tag-version | RFC-AAAA |
| | | |
| 13 | software-version | RFC-AAAA |
| | | |
| 14 | version-scheme | RFC-AAAA |
| | | |
| 15 | lang | RFC-AAAA |
| | | |
| 16 | directory | RFC-AAAA |
| | | |
| 17 | file | RFC-AAAA |
| | | |
| 18 | process | RFC-AAAA |
| | | |
| 19 | resource | RFC-AAAA |
| | | |
| 20 | size | RFC-AAAA |
| | | |
| 21 | file-version | RFC-AAAA |
| | | |
| 22 | key | RFC-AAAA |
| | | |
| 23 | location | RFC-AAAA |
| | | |
| 24 | fs-name | RFC-AAAA |
| | | |
| 25 | root | RFC-AAAA |
| | | |
| 26 | path-elements | RFC-AAAA |
| | | |
| 27 | process-name | RFC-AAAA |
| | | |
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| 28 | pid | RFC-AAAA |
| | | |
| 29 | type | RFC-AAAA |
| | | |
| 31 | entity-name | RFC-AAAA |
| | | |
| 32 | reg-id | RFC-AAAA |
| | | |
| 33 | role | RFC-AAAA |
| | | |
| 34 | thumbprint | RFC-AAAA |
| | | |
| 35 | date | RFC-AAAA |
| | | |
| 36 | device-id | RFC-AAAA |
| | | |
| 37 | artifact | RFC-AAAA |
| | | |
| 38 | href | RFC-AAAA |
| | | |
| 39 | ownership | RFC-AAAA |
| | | |
| 40 | rel | RFC-AAAA |
| | | |
| 41 | media-type | RFC-AAAA |
| | | |
| 42 | use | RFC-AAAA |
| | | |
| 43 | activation-status | RFC-AAAA |
| | | |
| 44 | channel-type | RFC-AAAA |
| | | |
| 45 | colloquial-version | RFC-AAAA |
| | | |
| 46 | description | RFC-AAAA |
| | | |
| 47 | edition | RFC-AAAA |
| | | |
| 48 | entitlement-data-required | RFC-AAAA |
| | | |
| 49 | entitlement-key | RFC-AAAA |
| | | |
| 50 | generator | RFC-AAAA |
| | | |
| 51 | persistent-id | RFC-AAAA |
| | | |
| 52 | product | RFC-AAAA |
| | | |
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| 53 | product-family | RFC-AAAA |
| | | |
| 54 | revision | RFC-AAAA |
| | | |
| 55 | summary | RFC-AAAA |
| | | |
| 56 | unspsc-code | RFC-AAAA |
| | | |
| 57 | unspsc-version | RFC-AAAA |
| | | |
| 58-4294967295 | Unassigned | |
+---------------+---------------------------+---------------+
Table 9: CoSWID Items Inital Registrations
5.2. SWID/CoSWID Value Registries
The following IANA registries provide a mechanism for new values to
be added over time to common enumerations used by SWID and CoSWID.
5.2.1. Registration Proceedures
The following registries allow for the registration of index values
and names. New registrations will be permitted through either the
Standards Action policy or the Specification Required policy [BCP26].
The latter SHOULD be used only for registrations requested by SDOs
outside the IETF. New index values will be provided on a First Come
First Served as defined by [BCP26].
The following registries also reserve the integer-based index values
in the range of -1 to -256 for private use as defined by [BCP26] in
section 4.1. This allows values -1 to -24 to be expressed as a
single uint_8t in CBOR, and values -25 to -256 to be expressed using
an additional uint_8t in CBOR.
5.2.2. Private Use of Index and Name Values
The integer-based index values in the private use range (-1 to -256)
are intended for testing purposes and closed environments; values in
other ranges SHOULD NOT be assigned for testing.
For names that correspond to private use index values, an
Internationalized Domain Name prefix MUST be used to prevent name
conflicts using the form:
" domain.prefix-name "
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Where "domain.prefix" MUST be a valid Internationalized Domain Name
as defined by [RFC5892], and "name" MUST be a unique name within the
namespace defined by the "domain.prefix". Use of a prefix in this
way allows for a name to be used initially in the private use range,
and to be registered at a future point in time. This is consistent
with the guidance in [BCP178].
5.2.3. Expert Review Guidelines
Designated experts MUST ensure that new registration requests meet
the following additional guidelines:
o The requesting specification MUST provide a clear semantic
definition for the new entry. This definition MUST clearly
differentiate the requested entry from other previously registered
entries.
o The requesting specification MUST describe the intended use of the
entry, including any co-constraints that exist between the use of
the entry's index value or name, and other values defined within
the SWID/CoSWID model.
o Index values and names outside the private use space MUST NOT be
used without registration. This is considered squatting and
SHOULD be avoided. Designated experts MUST ensure that reviewed
specifications register all appropriate index values and names.
o Standards track documents MAY include entries registered in the
range reserved for entries under the Specification Required
policy. This can occur when a standards track document provides
further guidance on the use of index values and names that are in
common use, but were not registered with IANA. This situation
SHOULD be avoided.
o All registered names MUST be valid according to the XML Schema
NMTOKEN data type (see [W3C.REC-xmlschema-2-20041028] section
3.3.4). This ensures that registered names are compatible with
the SWID format [SWID] where they are used.
o Registration of vanity names SHOULD be discouraged. The
requesting specification MUST provide a description of how a
requested name will allow for use by multiple stakeholders.
5.2.4. SWID/CoSWID Version Scheme Value Registry
This document establishes a new registry titled "SWID/CoSWID Version
Scheme Values". This registry provides index values for use as
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version-scheme item values in this document and version scheme names
for use in [SWID].
[TO BE REMOVED: This registration should take place at the following
location: https://www.iana.org/assignments/swid]
This registry uses the registration proceedures defined in
Section 5.2.1 with the following associated ranges:
+-------------+-------------------------+
| Range | Registration Procedures |
+-------------+-------------------------+
| 0-16383 | Standards Action |
| | |
| 16384-65535 | Specification Required |
+-------------+-------------------------+
Table 10: CoSWID Version Scheme Registration Proceedures
Assignments MUST consist of an integer Index value, the Version
Scheme Name, and a reference to the defining specification.
Initial registrations for the "SWID/CoSWID Version Scheme Value"
registry are provided below, which are derived from the textual
version scheme names defined in [SWID].
+-------------+-------------------------+-----------------+
| Index | Version Scheme Name | Specification |
+-------------+-------------------------+-----------------+
| 0 | Reserved | |
| | | |
| 1 | multipartnumeric | See Section 4.1 |
| | | |
| 2 | multipartnumeric+suffix | See Section 4.1 |
| | | |
| 3 | alphanumeric | See Section 4.1 |
| | | |
| 4 | decimal | See Section 4.1 |
| | | |
| 5-16383 | Unassigned | |
| | | |
| 16384 | semver | [SEMVER] |
| | | |
| 16385-65535 | Unassigned | |
+-------------+-------------------------+-----------------+
Table 11: CoSWID Version Scheme Inital Registrations
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Registrations MUST conform to the expert review guidelines defined in
Section 5.2.3.
Designated experts MUST also ensure that newly requested entries
define a value space for the corresponding version item that is
unique from other previously registered entries. Note: The inital
registrations violate this requirement, but are included for
backwards compatibility with [SWID]. Guidelines on how to deconflict
these value spaces are defined in section Section 4.1.
5.2.5. SWID/CoSWID Entity Role Value Registry
This document establishes a new registry titled "SWID/CoSWID Entity
Role Values". This registry provides index values for use as entity-
entry role item values in this document and entity role names for use
in [SWID].
[TO BE REMOVED: This registration should take place at the following
location: https://www.iana.org/assignments/swid]
This registry uses the registration proceedures defined in
Section 5.2.1 with the following associated ranges:
+---------+-------------------------+
| Range | Registration Procedures |
+---------+-------------------------+
| 0-127 | Standards Action |
| | |
| 128-255 | Specification Required |
+---------+-------------------------+
Table 12: CoSWID Entity Role Registration Proceedures
Assignments consist of an integer Index value, a Role Name, and a
reference to the defining specification.
Initial registrations for the "SWID/CoSWID Entity Role Value"
registry are provided below, which are derived from the textual
entity role names defined in [SWID].
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+-------+-----------------+-----------------+
| Index | Role Name | Specification |
+-------+-----------------+-----------------+
| 0 | Reserved | |
| | | |
| 1 | tagCreator | See Section 4.2 |
| | | |
| 2 | softwareCreator | See Section 4.2 |
| | | |
| 3 | aggregator | See Section 4.2 |
| | | |
| 4 | distributor | See Section 4.2 |
| | | |
| 5 | licensor | See Section 4.2 |
| | | |
| 6-255 | Unassigned | |
+-------+-----------------+-----------------+
Table 13: CoSWID Entity Role Inital Registrations
Registrations MUST conform to the expert review guidlines defined in
Section 5.2.3.
5.2.6. SWID/CoSWID Link Ownership Value Registry
This document establishes a new registry titled "SWID/CoSWID Link
Ownership Values". This registry provides index values for use as
link-entry ownership item values in this document and link ownership
names for use in [SWID].
[TO BE REMOVED: This registration should take place at the following
location: https://www.iana.org/assignments/swid]
This registry uses the registration proceedures defined in
Section 5.2.1 with the following associated ranges:
+---------+-------------------------+
| Range | Registration Procedures |
+---------+-------------------------+
| 0-127 | Standards Action |
| | |
| 128-255 | Specification Required |
+---------+-------------------------+
Table 14: CoSWID Link Ownership Registration Proceedures
Assignments consist of an integer Index value, an Ownership Type
Name, and a reference to the defining specification.
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Initial registrations for the "SWID/CoSWID Link Ownership Value"
registry are provided below, which are derived from the textual
entity role names defined in [SWID].
+-------+---------------------+-----------------+
| Index | Ownership Type Name | Definition |
+-------+---------------------+-----------------+
| 0 | Reserved | |
| | | |
| 1 | abandon | See Section 4.3 |
| | | |
| 2 | private | See Section 4.3 |
| | | |
| 3 | shared | See Section 4.3 |
| | | |
| 4-255 | Unassigned | |
+-------+---------------------+-----------------+
Table 15: CoSWID Link Ownership Inital Registrations
Registrations MUST conform to the expert review guidlines defined in
Section 5.2.3.
5.2.7. SWID/CoSWID Link Relationship Value Registry
This document establishes a new registry titled "SWID/CoSWID Link
Relationship Values". This registry provides index values for use as
link-entry rel item values in this document and link ownership names
for use in [SWID].
[TO BE REMOVED: This registration should take place at the following
location: https://www.iana.org/assignments/swid]
This registry uses the registration proceedures defined in
Section 5.2.1 with the following associated ranges:
+-------------+-------------------------+
| Range | Registration Procedures |
+-------------+-------------------------+
| 0-32767 | Standards Action |
| | |
| 32768-65535 | Specification Required |
+-------------+-------------------------+
Table 16: CoSWID Link Relationship Registration Proceedures
Assignments consist of an integer Index value, the Relationship Type
Name, and a reference to the defining specification.
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Initial registrations for the "SWID/CoSWID Link Relationship Value"
registry are provided below, which are derived from the link
relationship values defined in [SWID].
+----------+------------------------+-----------------+
| Index | Relationship Type Name | Specification |
+----------+------------------------+-----------------+
| 0 | Reserved | |
| | | |
| 1 | ancestor | See Section 4.4 |
| | | |
| 2 | component | See Section 4.4 |
| | | |
| 3 | feature | See Section 4.4 |
| | | |
| 4 | installationmedia | See Section 4.4 |
| | | |
| 5 | packageinstaller | See Section 4.4 |
| | | |
| 6 | parent | See Section 4.4 |
| | | |
| 7 | patches | See Section 4.4 |
| | | |
| 8 | requires | See Section 4.4 |
| | | |
| 9 | see-also | See Section 4.4 |
| | | |
| 10 | supersedes | See Section 4.4 |
| | | |
| 11 | supplemental | See Section 4.4 |
| | | |
| 12-65535 | Unassigned | |
+----------+------------------------+-----------------+
Table 17: CoSWID Link Relationship Inital Registrations
Registrations MUST conform to the expert review guidlines defined in
Section 5.2.3.
Designated experts MUST also ensure that a newly requested entry
documents the URI schemes allowed to be used in an href associated
with the link relationship and the expected resolution behavior of
these URI schemes. This will help to ensure that SWID/CoSWID
applications are able to interoperate when resolving resources
referenced by a link of a given type.
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5.2.8. SWID/CoSWID Link Use Value Registry
This document establishes a new registry titled "SWID/CoSWID Link Use
Values". This registry provides index values for use as link-entry
use item values in this document and link use names for use in
[SWID].
[TO BE REMOVED: This registration should take place at the following
location: https://www.iana.org/assignments/swid]
This registry uses the registration proceedures defined in
Section 5.2.1 with the following associated ranges:
+---------+-------------------------+
| Range | Registration Procedures |
+---------+-------------------------+
| 0-127 | Standards Action |
| | |
| 128-255 | Specification Required |
+---------+-------------------------+
Table 18: CoSWID Link Use Registration Proceedures
Assignments consist of an integer Index value, the Link Use Type
Name, and a reference to the defining specification.
Initial registrations for the "SWID/CoSWID Link Use Value" registry
are provided below, which are derived from the link relationship
values defined in [SWID].
+-------+--------------------+-----------------+
| Index | Link Use Type Name | Specification |
+-------+--------------------+-----------------+
| 0 | Reserved | |
| | | |
| 1 | optional | See Section 4.5 |
| | | |
| 2 | required | See Section 4.5 |
| | | |
| 3 | recommended | See Section 4.5 |
| | | |
| 4-255 | Unassigned | |
+-------+--------------------+-----------------+
Table 19: CoSWID Link Use Inital Registrations
Registrations MUST conform to the expert review guidlines defined in
Section 5.2.3.
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5.3. swid+cbor Media Type Registration
IANA is requested to add the following to the IANA "Media Types"
registry.
Type name: application
Subtype name: swid+cbor
Required parameters: none
Optional parameters: none
Encoding considerations: Must be encoded as using [RFC7049]. See
RFC-AAAA for details.
Security considerations: See Section 6 of RFC-AAAA.
Interoperability considerations: Applications MAY ignore any key
value pairs that they do not understand. This allows backwards
compatible extensions to this specification.
Published specification: RFC-AAAA
Applications that use this media type: The type is used by software
asset management systems, vulnerability assessment systems, and in
applications that use remote integrity verification.
Fragment identifier considerations: Fragment identification for
application/swid+cbor is supported by using fragment identifiers as
specified by RFC-7049 section 7.5.
Additional information:
Magic number(s): first five bytes in hex: da 53 57 49 44
File extension(s): coswid
Macintosh file type code(s): none
Macintosh Universal Type Identifier code: org.ietf.coswid conforms to
public.data
Person & email address to contact for further information: Henk
Birkholz <henk.birkholz@sit.fraunhofer.de>
Intended usage: COMMON
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Restrictions on usage: None
Author: Henk Birkholz <henk.birkholz@sit.fraunhofer.de>
Change controller: IESG
5.4. CoAP Content-Format Registration
IANA is requested to assign a CoAP Content-Format ID for the CoSWID
media type in the "CoAP Content-Formats" sub-registry, from the "IETF
Review or IESG Approval" space (256..999), within the "CoRE
Parameters" registry [RFC7252]:
+-----------------------+----------+------+-----------+
| Media type | Encoding | ID | Reference |
+-----------------------+----------+------+-----------+
| application/swid+cbor | - | TBD1 | RFC-AAAA |
+-----------------------+----------+------+-----------+
Table 20: CoAP Content-Format IDs
5.5. CBOR Tag Registration
IANA is requested to allocate a tag in the "CBOR Tags" registry,
preferably with the specific value requested:
+------------+----------+-------------------------------------------+
| Tag | Data | Semantics |
| | Item | |
+------------+----------+-------------------------------------------+
| 1398229316 | map | Concise Software Identifier (CoSWID) |
| | | [RFC-AAAA] |
+------------+----------+-------------------------------------------+
Table 21: CoSWID CBOR Tag
5.6. URI Scheme Registrations
The ISO 19770-2:2015 SWID specification describes use of the "swid"
and "swidpath" URI schemes, which are currently in use in
implementations. This document continues this use for CoSWID. The
following subsections provide registrations for these schemes in to
ensure that a permanent registration exists for these schemes that is
suitable for use in the SWID and CoSWID specifications.
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5.6.1. "swid" URI Scheme Registration
There is a need for a scheme name that can be used in URIs that point
to a specific SWID/CoSWID tag by that tag's tag-id, such as the use
of the link entry as described in section Section 2.7) of this
document. Since this scheme is used in a standards track document
and an ISO standard, this scheme needs to be used without fear of
conflicts with current or future actual schemes. The scheme "swid"
is hereby registered as a 'permanent' scheme for that purpose.
The "swid" scheme is specified as follows:
Scheme syntax: The scheme speific part consists of a SWID or CoSWID
tag's tag-id that is URI encoded according to [RFC3986] section 2.1.
The following expression is a valid example:
<swid:2df9de35-0aff-4a86-ace6-f7dddd1ade4c>
Scheme semantics: URIs in the "swid" scheme are to be used to
reference a SWID or CoSWID tag by its tag-id. A tag-id referenced in
this way can be used to indentify the tag resource in the context of
where it is referenced from. For example, when a tag is installed on
a given device, that tag can reference related tags on the same
device using this URI scheme.
Encoding considerations: See Section 2.5 of [RFC3986] for guidelines.
Interoperability considerations: None.
Security considerations: None.
5.6.2. "swidpath" URI Scheme Registration
There is a need for a scheme name that can be used in URIs to
indentify a collection of specific SWID/CoSWID tags with data
elements that match an XPath expression, such as the use of the link
entry as described in section Section 2.7) of this document. Since
this scheme is used in a standards track document and an ISO
standard, this scheme needs to be used without fear of conflicts with
current or future actual schemes. The scheme "swidpath" is hereby
registered as a 'permanent' scheme for that purpose.
The "swidpath" scheme is specified as follows:
Scheme syntax: The scheme speific part consists of an XPath
expression as defined by [W3C.REC-xpath20-20101214]. The included
XPath expression will be URI encoded according to [RFC3986] section
2.1.
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Scheme semantics: URIs in the "swidpath" scheme are to be used
specify the data that must be found in a given SWID/CoSWID tag for
that tag to be considered a matching tag to be included in the
identified tag collection. Tags to be evaluated include all tags in
the context of where the tag is referenced from. For example, when a
tag is installed on a given device, that tag can reference related
tags on the same device using this URI scheme. A tag is matching if
the XPath evaluation result value has an effective boolean value of
"true" according to [W3C.REC-xpath20-20101214] section 2.4.3. rence
related tags on the same device using this URI scheme.
Encoding considerations: See Section 2.5 of [RFC3986] for guidelines.
Interoperability considerations: None.
Security considerations: None.
5.7. CoSWID Model for use in SWIMA Registration
The Software Inventory Message and Attributes (SWIMA) for PA-TNC
specification [RFC8412] defines a standardized method for collecting
an endpoint device's software inventory. A CoSWID can provide
evidence of software installation which can then be used and
exchanged with SWIMA. This registration adds a new entry to the IANA
"Software Data Model Types" registry defined by [RFC8412] to support
CoSWID use in SWIMA as follows:
Pen: 0
Integer: TBD2
Name: Concise Software Identifier (CoSWID)
Defining Specification: RFC-AAAA
Deriving Software Identifiers:
A Software Identifier generated from a CoSWID tag is expressed as a
concatenation of the form:
TAG_CREATOR_REGID "_" "_" UNIQUE_ID
Where TAG_CREATOR_REGID is the reg-id ietm value of the tag's entity
item having the role value of 1 (corresponding to "tag creator"), and
the UNIQUE_ID is the same tag's tag-id item. If the tag-id item's
value is expressed as a 16 byte binary string, the UNIQUE_ID MUST be
represented using the UUID string representation defined in [RFC4122]
including the "urn:uuid:" prefix.
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The TAG_CREATOR_REGID and the UNIQUE_ID are connected with a double
underscore (_), without any other connecting character or whitespace.
6. Security Considerations
SWID and CoSWID tags contain public information about software
components and, as such, do not need to be protected against
disclosure on an endpoint. Similarly, SWID/CoSWID tags are intended
to be easily discoverable by applications and users on an endpoint in
order to make it easy to identify and collect all of an endpoint's
SWID tags. As such, any security considerations regarding SWID/
CoSWID tags focus on the application of SWID/CoSWID tags to address
security challenges, and the possible disclosure of the results of
those applications.
A tag is considered "authoritative" if the SWID/CoSWID tag was
created by the software provider. An authoritative SWID/CoSWID tag
contains information about a software component provided by the
maintainer of the software component, who is expected to be an expert
in their own software. Thus, authoritative SWID/CoSWID tags can be
trusted to represent authoritative information about the software
component.
A signed SWID/CoSWID tag (see Appendix A) whose signature has been
validated can be relied upon to be unchanged since it was signed. By
contrast, the data contained in unsigned tags cannot be trusted to be
unmodified.
When an authoritative tag is signed, the software provider can be
authenticated as the originator of the signature. Having a signed
authoritative SWID/CoSWID tag can be useful when the information in
the tag needs to be trusted, such as when the tag is being used to
convey reference integrity measurements for software components.
SWID/CoSWID tags are designed to be easily added and removed from an
endpoint along with the installation or removal of software
components. On endpoints where addition or removal of software
components is tightly controlled, the addition or removal of SWID
tags can be similarly controlled. On more open systems, where many
users can manage the software inventory, SWID/CoSWID tags can be
easier to add or remove. On such systems, it can be possible to add
or remove SWID/CoSWID tags in a way that does not reflect the actual
presence or absence of corresponding software components. Similarly,
not all software products automatically install SWID/CoSWID tags, so
products can be present on an endpoint without providing a
corresponding SWID tag. As such, any collection of SWID/CoSWID tags
cannot automatically be assumed to represent either a complete or
fully accurate representation of the software inventory of the
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endpoint. However, especially on endpoint devices that more strictly
control the ability to add or remove applications, SWID/CoSWID tags
are an easy way to provide an preliminary understanding of that
endpoint's software inventory.
Any report of an endpoint's SWID/CoSWID tag collection provides
information about the software inventory of that endpoint. If such a
report is exposed to an attacker, this can tell them which software
products and versions thereof are present on the endpoint. By
examining this list, the attacker might learn of the presence of
applications that are vulnerable to certain types of attacks. As
noted earlier, SWID/CoSWID tags are designed to be easily
discoverable by an endpoint, but this does not present a significant
risk since an attacker would already need to have access to the
endpoint to view that information. However, when the endpoint
transmits its software inventory to another party, or that inventory
is stored on a server for later analysis, this can potentially expose
this information to attackers who do not yet have access to the
endpoint. For this reason, it is important to protect the
confidentiality of SWID/CoSWID tag information that has been
collected from an endpoint, not because those tags individually
contain sensitive information, but because the collection of SWID/
CoSWID tags and their association with an endpoint reveals
information about that endpoint's attack surface.
Finally, both the ISO-19770-2:2015 XML schema SWID definition and the
CoSWID data definition allow for the construction of "infinite" tags
with link item loops or tags that contain malicious content with the
intent of creating non-deterministic states during validation or
processing of those tags. While software providers are unlikely to
do this, SWID/CoSWID tags can be created by any party and the SWID/
CoSWID tags collected from an endpoint could contain a mixture of
vendor and non-vendor created tags. For this reason, tools that
consume SWID/CoSWID tags ought to treat the tag contents as
potentially malicious and employ input sanitizing and loop detection
on the tags they ingest.
7. Acknowledgments
This document draws heavily on the concepts defined in the ISO/IEC
19770-2:2015 specification. The authors of this document are
grateful for the prior work of the 19770-2 contributors.
We are also grateful to the careful reviews provided by ...
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8. Change Log
[THIS SECTION TO BE REMOVED BY THE RFC EDITOR.]
Changes in version 12:
o Addressed a bunch of minor editorial issues based on WGLC
feedback.
o Added text about the use of UTF-8 in CoSWID.
o Adjusted tag-id to allow for a UUID to be provided as a bstr.
o Cleaned up descriptions of index ranges throughout the document,
removing discussion of 8 bit, 16 bit, etc.
o Adjusted discussion of private use ranges to use negative integer
values and to be more clear throughout the document.
o Added discussion around resolving overlapping value spaces for
version schemes.
o Added a set of expert review guidelines for new IANA registries
created by this document.
o Added new registrations for the "swid" and "swidpath" URI schemes,
and for using CoSWID with SWIMA.
Changes from version 03 to version 11:
o Reduced representation complexity of the media-entry type and
removed the section describing the older data structure.
o Added more signature schemes from COSE
o Included a minimal required set of normative language
o Reordering of attribute name to integer label by priority
according to semantics.
o Added an IANA registry for CoSWID items supporting future
extension.
o Cleaned up IANA registrations, fixing some inconsistencies in the
table labels.
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o Added additional CDDL sockets for resource collection entries
providing for additional extension points to address future SWID/
CoSWID extensions.
o Updated section on extension points to address new CDDL sockets
and to reference the new IANA registry for items.
o Removed unused references and added new references to address
placeholder comments.
o Added table with semantics for the link ownership item.
o Clarified language, made term use more consistent, fixed
references, and replacing lowercase RFC2119 keywords.
Changes from version 02 to version 03:
o Updated core CDDL including the CDDL design pattern according to
RFC 8428.
Changes from version 01 to version 02:
o Enforced a more strict separation between the core CoSWID
definition and additional usage by moving content to corresponding
appendices.
o Removed artifacts inherited from the reference schema provided by
ISO (e.g. NMTOKEN(S))
o Simplified the core data definition by removing group and type
choices where possible
o Minor reordering of map members
o Added a first extension point to address requested flexibility for
extensions beyond the any-element
Changes from version 00 to version 01:
o Ambiguity between evidence and payload eliminated by introducing
explicit members (while still
o allowing for "empty" SWID tags)
o Added a relatively restrictive COSE envelope using cose_sign1 to
define signed CoSWID (single signer only, at the moment)
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o Added a definition how to encode hashes that can be stored in the
any-member using existing IANA tables to reference hash-algorithms
Changes since adopted as a WG I-D -00:
o Removed redundant any-attributes originating from the ISO-
19770-2:2015 XML schema definition
o Fixed broken multi-map members
o Introduced a more restrictive item (any-element-map) to represent
custom maps, increased restriction on types for the any-attribute,
accordingly
o Fixed X.1520 reference
o Minor type changes of some attributes (e.g. NMTOKENS)
o Added semantic differentiation of various name types (e,g. fs-
name)
Changes from version 06 to version 07:
o Added type choices/enumerations based on textual definitions in
19770-2:2015
o Added value registry request
o Added media type registration request
o Added content format registration request
o Added CBOR tag registration request
o Removed RIM appendix to be addressed in complementary draft
o Removed CWT appendix
o Flagged firmware resource collection appendix for revision
o Made use of terminology more consistent
o Better defined use of extension points in the CDDL
o Added definitions for indexed values
o Added IANA registry for Link use indexed values
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Changes from version 05 to version 06:
o Improved quantities
o Included proposals for implicit enumerations that were NMTOKENS
o Added extension points
o Improved exemplary firmware-resource extension
Changes from version 04 to version 05:
o Clarified language around SWID and CoSWID to make more consistent
use of these terms.
o Added language describing CBOR optimizations for single vs. arrays
in the model front matter.
o Fixed a number of grammatical, spelling, and wording issues.
o Documented extension points that use CDDL sockets.
o Converted IANA registration tables to markdown tables, reserving
the 0 value for use when a value is not known.
o Updated a number of references to their current versions.
Changes from version 03 to version 04:
o Re-index label values in the CDDL.
o Added a section describing the CoSWID model in detail.
o Created IANA registries for entity-role and version-scheme
Changes from version 02 to version 03:
o Updated CDDL to allow for a choice between a payload or evidence
o Re-index label values in the CDDL.
o Added item definitions
o Updated references for COSE, CBOR Web Token, and CDDL.
Changes from version 01 to version 02:
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o Added extensions for Firmware and CoSWID use as Reference
Integrity Measurements (CoSWID RIM)
o Changes meta handling in CDDL from use of an explicit use of items
to a more flexible unconstrained collection of items.
o Added sections discussing use of COSE Signatures and CBOR Web
Tokens
Changes from version 00 to version 01:
o Added CWT usage for absolute SWID paths on a device
o Fixed cardinality of type-choices including arrays
o Included first iteration of firmware resource-collection
9. References
9.1. Normative References
[BCP178] Saint-Andre, P., Crocker, D., and M. Nottingham,
"Deprecating the "X-" Prefix and Similar Constructs in
Application Protocols", BCP 178, RFC 6648,
DOI 10.17487/RFC6648, June 2012,
<https://www.rfc-editor.org/info/rfc6648>.
[BCP26] Cotton, M., Leiba, B., and T. Narten, "Guidelines for
Writing an IANA Considerations Section in RFCs", BCP 26,
RFC 8126, DOI 10.17487/RFC8126, June 2017,
<https://www.rfc-editor.org/info/rfc8126>.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
<https://www.rfc-editor.org/info/rfc2119>.
[RFC3629] Yergeau, F., "UTF-8, a transformation format of ISO
10646", STD 63, RFC 3629, DOI 10.17487/RFC3629, November
2003, <https://www.rfc-editor.org/info/rfc3629>.
[RFC3986] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform
Resource Identifier (URI): Generic Syntax", STD 66,
RFC 3986, DOI 10.17487/RFC3986, January 2005,
<https://www.rfc-editor.org/info/rfc3986>.
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[RFC5198] Klensin, J. and M. Padlipsky, "Unicode Format for Network
Interchange", RFC 5198, DOI 10.17487/RFC5198, March 2008,
<https://www.rfc-editor.org/info/rfc5198>.
[RFC5646] Phillips, A., Ed. and M. Davis, Ed., "Tags for Identifying
Languages", BCP 47, RFC 5646, DOI 10.17487/RFC5646,
September 2009, <https://www.rfc-editor.org/info/rfc5646>.
[RFC5892] Faltstrom, P., Ed., "The Unicode Code Points and
Internationalized Domain Names for Applications (IDNA)",
RFC 5892, DOI 10.17487/RFC5892, August 2010,
<https://www.rfc-editor.org/info/rfc5892>.
[RFC7049] Bormann, C. and P. Hoffman, "Concise Binary Object
Representation (CBOR)", RFC 7049, DOI 10.17487/RFC7049,
October 2013, <https://www.rfc-editor.org/info/rfc7049>.
[RFC7252] Shelby, Z., Hartke, K., and C. Bormann, "The Constrained
Application Protocol (CoAP)", RFC 7252,
DOI 10.17487/RFC7252, June 2014,
<https://www.rfc-editor.org/info/rfc7252>.
[RFC8126] Cotton, M., Leiba, B., and T. Narten, "Guidelines for
Writing an IANA Considerations Section in RFCs", BCP 26,
RFC 8126, DOI 10.17487/RFC8126, June 2017,
<https://www.rfc-editor.org/info/rfc8126>.
[RFC8152] Schaad, J., "CBOR Object Signing and Encryption (COSE)",
RFC 8152, DOI 10.17487/RFC8152, July 2017,
<https://www.rfc-editor.org/info/rfc8152>.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, <https://www.rfc-editor.org/info/rfc8174>.
[RFC8288] Nottingham, M., "Web Linking", RFC 8288,
DOI 10.17487/RFC8288, October 2017,
<https://www.rfc-editor.org/info/rfc8288>.
[RFC8412] Schmidt, C., Haynes, D., Coffin, C., Waltermire, D., and
J. Fitzgerald-McKay, "Software Inventory Message and
Attributes (SWIMA) for PA-TNC", RFC 8412,
DOI 10.17487/RFC8412, July 2018,
<https://www.rfc-editor.org/info/rfc8412>.
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[RFC8610] Birkholz, H., Vigano, C., and C. Bormann, "Concise Data
Definition Language (CDDL): A Notational Convention to
Express Concise Binary Object Representation (CBOR) and
JSON Data Structures", RFC 8610, DOI 10.17487/RFC8610,
June 2019, <https://www.rfc-editor.org/info/rfc8610>.
[SAM] "Information technology - Software asset management - Part
5: Overview and vocabulary", ISO/IEC 19770-5:2015,
November 2013.
[SEMVER] Preston-Werner, T., "Semantic Versioning 2.0.0", n.d.,
<https://semver.org/spec/v2.0.0.html>.
[SWID] "Information technology - Software asset management - Part
2: Software identification tag", ISO/IEC 19770-2:2015,
October 2015.
[W3C.REC-css3-mediaqueries-20120619]
Rivoal, F., "Media Queries", World Wide Web Consortium
Recommendation REC-css3-mediaqueries-20120619, June 2012,
<http://www.w3.org/TR/2012/REC-css3-mediaqueries-
20120619>.
[W3C.REC-xmlschema-2-20041028]
Biron, P. and A. Malhotra, "XML Schema Part 2: Datatypes
Second Edition", World Wide Web Consortium Recommendation
REC-xmlschema-2-20041028, October 2004,
<http://www.w3.org/TR/2004/REC-xmlschema-2-20041028>.
[W3C.REC-xpath20-20101214]
Berglund, A., Boag, S., Chamberlin, D., Fernandez, M.,
Kay, M., Robie, J., and J. Simeon, "XML Path Language
(XPath) 2.0 (Second Edition)", World Wide Web Consortium
Recommendation REC-xpath20-20101214, December 2010,
<http://www.w3.org/TR/2010/REC-xpath20-20101214>.
[X.1520] "Recommendation ITU-T X.1520 (2014), Common
vulnerabilities and exposures", April 2011.
9.2. Informative References
[CamelCase]
"UpperCamelCase", August 2014,
<http://wiki.c2.com/?CamelCase>.
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[I-D.birkholz-rats-tuda]
Fuchs, A., Birkholz, H., McDonald, I., and C. Bormann,
"Time-Based Uni-Directional Attestation", draft-birkholz-
rats-tuda-01 (work in progress), September 2019.
[KebabCase]
"KebabCase", December 2014,
<http://wiki.c2.com/?KebabCase>.
[RFC4122] Leach, P., Mealling, M., and R. Salz, "A Universally
Unique IDentifier (UUID) URN Namespace", RFC 4122,
DOI 10.17487/RFC4122, July 2005,
<https://www.rfc-editor.org/info/rfc4122>.
[RFC8322] Field, J., Banghart, S., and D. Waltermire, "Resource-
Oriented Lightweight Information Exchange (ROLIE)",
RFC 8322, DOI 10.17487/RFC8322, February 2018,
<https://www.rfc-editor.org/info/rfc8322>.
[RFC8520] Lear, E., Droms, R., and D. Romascanu, "Manufacturer Usage
Description Specification", RFC 8520,
DOI 10.17487/RFC8520, March 2019,
<https://www.rfc-editor.org/info/rfc8520>.
[SWID-GUIDANCE]
Waltermire, D., Cheikes, B., Feldman, L., and G. Witte,
"Guidelines for the Creation of Interoperable Software
Identification (SWID) Tags", NISTIR 8060, April 2016,
<https://doi.org/10.6028/NIST.IR.8060>.
Appendix A. Signed Concise SWID Tags using COSE
SWID tags, as defined in the ISO-19770-2:2015 XML schema, can include
cryptographic signatures to protect the integrity of the SWID tag.
In general, tags are signed by the tag creator (typically, although
not exclusively, the vendor of the software component that the SWID
tag identifies). Cryptographic signatures can make any modification
of the tag detectable, which is especially important if the integrity
of the tag is important, such as when the tag is providing reference
integrity measurements for files.
The ISO-19770-2:2015 XML schema uses XML DSIG to support
cryptographic signatures. CoSWID tags require a different signature
scheme than this. COSE (CBOR Object Signing and Encryption) provides
the required mechanism [RFC8152]. Concise SWID can be wrapped in a
COSE Single Signer Data Object (COSE_Sign1) that contains a single
signature. The following CDDL defines a more restrictive subset of
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header attributes allowed by COSE tailored to suit the requirements
of Concise SWID tags.
<CODE BEGINS>
signed-coswid = #6.18(COSE-Sign1-coswid)
cose-label = int / tstr
cose-values = any
protected-signed-coswid-header = {
1 => int, ; algorithm identifier
3 => "application/swid+cbor",
* cose-label => cose-values,
}
unprotected-signed-coswid-header = {
4 => bstr, ; key identifier
* cose-label => cose-values,
}
COSE-Sign1-coswid = [
protected: bstr .cbor protected-signed-coswid-header,
unprotected: unprotected-signed-coswid-header,
payload: bstr .cbor concise-swid-tag,
signature: bstr,
]
<CODE ENDS>
Optionally, the COSE_Sign structure that allows for more than one
signature to be applied to a CoSWID tag MAY be used. The
corresponding usage scenarios are domain-specific and require well-
defined application guidance. Representation of the corresponding
guidance is out-of-scope of this document.
Additionally, the COSE Header counter signature MAY be used as an
attribute in the unprotected header map of the COSE envelope of a
CoSWID. The application of counter signing enables second parties to
provide a signature on a signature allowing for a proof that a
signature existed at a given time (i.e., a timestamp).
Authors' Addresses
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Henk Birkholz
Fraunhofer SIT
Rheinstrasse 75
Darmstadt 64295
Germany
Email: henk.birkholz@sit.fraunhofer.de
Jessica Fitzgerald-McKay
Department of Defense
9800 Savage Road
Ft. Meade, Maryland
USA
Email: jmfitz2@nsa.gov
Charles Schmidt
The MITRE Corporation
202 Burlington Road
Bedford, Maryland 01730
USA
Email: cmschmidt@mitre.org
David Waltermire
National Institute of Standards and Technology
100 Bureau Drive
Gaithersburg, Maryland 20877
USA
Email: david.waltermire@nist.gov
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