Secure Automation and Continuous Monitoring (SACM) Terminology
Fraunhofer SIT
Rheinstrasse 75
Darmstadt
64295
Germany
henk.birkholz@sit.fraunhofer.de
Oracle Corporation
4180 Network Circle
Santa Clara
CA
95054
USA
jarrett.lu@oracle.com
Cisco Systems
3550 Cisco Way
San Jose
CA
95134
USA
ncamwing@cisco.com
Security
SACM Working Group
Internet-Draft
This memo documents terminology used in the documents produced by SACM (Security Automation and Continuous Monitoring).
Our goal with this document is to improve our agreement on the terminology used in documents produced by the IETF Working Group for Security Automation and Continuous Monitoring. Agreeing on terminology should help reach consensus on which problems we’re trying to solve, and propose solutions and decide which ones to use.
This section describes terms that have been defined by other RFC’s and defines new ones. The predefined terms will reference the RFC and where appropriate will be annotated with the specific context by which the term is used in SACM.
Defined by the ITU in as “a statement made by an entity without accompanying evidence of its validity”. In the context of SACM, an assertion is a collection result that includes metadata about the data source (and optionally a timestamp indicating the point in time the assertion was created at). The validity of an assertion cannot be verified.
Defined in as “the process of collecting posture for a set of capabilities on the endpoint (e.g., host-based firewall) such that the appropriate validators may evaluate the posture against compliance policy.”
Within SACM the use of the term is expanded to support other uses of collected posture (e.g. reporting, network enforcement, vulnerability detection, license management). The phrase “set of capabilities on the endpoint” includes: hardware and software installed on the endpoint.”
Defined in as “a system resource that is (a) required to be protected by an information system’s security policy, (b) intended to be protected by a countermeasure, or (c) required for a system’s mission”. In the scope of SACM, an asset can be composed of other assets. Examples of Assets include: Endpoints, Software, Guidance, or X.509 public key certificates. An asset is not necessarily owned by an organization.
The process by which assets are provisioned, updated, maintained and deprecated.
Defined in as “data element including any requisite meta-data describing an observed, expected, or the operational status of an endpoint feature (e.g., anti-virus software is currently in use).” If not indicated otherwise, attributes in SACM are represented and processed as attribute value pairs.
Defined in as “the process of verifying a claim that a system entity or system resource has a certain attribute value.”
Defined in as “an approval that is granted to a system entity to access a system resource.”
A broker is a specific controller type that contains control plane functions to provide and/or connect services on behalf of other SACM components via interfaces on the control plane. A broker may provide, for example, authorization services and find, upon request, SACM components providing requested services.
In a capability “defines a set of features that are available from a managed entity. Examples of “managed entities” are NSFs and Controllers, where NSF Capabilities and Controller Capabilities define functionality of an NSF and a Controller that may, but do not have to, be used, respectively. All Capabilities are announced through the Registration Interface.”
In the context of SACM, the extent of a SACM component’s ability is enabled by the functions it is composed of. Capabilities are announced by a SACM component via the SACM component registration task and can be discovered by or negotiated with other SACM components. For example, the capability of a SACM Provider may be to provide endpoint management data, or only a subset of that data.
Information about a target endpoint that is produced by a collector conducting a collection task. A collection result is composed of one or more endpoint attributes.
The task by which endpoint attributes and/or corresponding attribute values about a target endpoint are collected. The collection tasks are targeted at specific target endpoints and therefore are targeted tasks.
There are three types of frequency collection tasks can be conducted with:
ad-hoc, e.g. triggered by a specific event or a query
scheduled, e.g. in regular intervals, such as every minute or weekly
continuously, e.g. a network behavior observation
There are three types of collection methods, each requiring an appropriate set of functions to be included in the SACM component conducting the collection task:
Self-Reporting: A SACM component located on the target endpoint itself conducts the collection task.
Remote-Acquisition: A SACM component located on an Endpoint different from the target endpoint conducts the collection task via interfaces available on the target endpoint, e.g. SNMP/NETCONF or WMI.
Behavior-Observation: A SACM component located on an Endpoint different from the target endpoint observes network traffic related to the target endpoint and conducts the collection task via interpretation of that network traffic.
A piece of software that acquires information about one or
more target endpoints by conducting collection tasks. A collector
provides acquired information to SACM components in the form of collection
results. A SACM component that consumes collection results may take on the
role of a provider and publish the collection results in a SACM domain.
(TBD: A collector may not be a SACM component and therefore not part of
a SACM domain).
The discrepancy of endpoint attributes representing the actual composition of a target endpoint (is-state) and its intended composition (should-state) in the scope of a valid target endpoint composition (could-state) due to continuous alteration of a target endpoint’s composition over time. Configuration drift exists for both hardware components and software components. Typically, the frequency and scale of configuration drift of software components is significantly higher than the configuration drift of hardware components.
A consumer is a SACM role that is assigned to a SACM component that contains functions to receive information from other SACM components.
Typically used as a term in the context of routing, e.g. . In the context of SACM, the control plane is an architectural component providing common control functions to all SACM components, including authentication, authorization, capability discovery or negotiation. The control plane orchestrates the flow on the data plane according to guidance and/or input from the management plane. SACM components with interfaces to the control plane have knowledge of the capabilities of other SACM components within a SACM domain.
A controller is a SACM role that is assigned to a SACM component containing control plane functions that manage and facilitate information sharing or execute on security functions. There are three types of SACM controllers: Broker, Proxy, and Repository. Depending on its type, a controller can also contain functions that have interfaces on the data plane.
Defined in as “the property that data is not disclosed to system entities unless they have been authorized to know the data.”
Data that is being transported via a network. Data in motion requires a data model to encode data in order to be transported. Typically, data in motion is serialized (marshalling) into a transport encoding by a provider of information and deserialized (unmarshalling) by a consumer of information.
SACM architecture and corresponding models focus on data in motion.
Data that is stored in a repository. Data at rest requires a data model to encode data in order to be stored. In the context of SACM, data at rest located on a SACM component can be provided to other SACM components via discoverable capabilities.
In the context of SACM, data models for data at rest are out of scope.
Defined in as “the property that data has not been changed, destroyed, or lost in an unauthorized or accidental manner.”
One or more properties that enable a SACM component to identify the SACM component that initially acquired or produced data about a (target) endpoint (e.g. via collection from a data source).
Typically used as a term in the context of routing (and used as a synonym for forwarding plane, e.g. ). In the context of SACM, the data plane is an architectural component providing operational functions to enable a SACM component to provide and consume SACM statements and therefore SACM content (the “payload”). The data plane is used to conduct distributed SACM tasks by transporting SACM content using transporting encodings and corresponding operations defined by SACM data models.
A historical record of the sources, origins and evolution of data that is influenced by inputs, entities, functions and processes.
One or more properties that enable a SACM component to identify an (target) endpoint that is claimed to be the original source of received data.
Defined in as “any computing device that can be connected to a network. Such devices normally are associated with a particular link layer address before joining the network and potentially an IP address once on the network. This includes: laptops, desktops, servers, cell phones, or any device that may have an IP address.”
To further clarify the definition, an endpoint is any physical or virtual device that may have a network address. Note that, network infrastructure devices (e.g. switches, routers, firewalls), which fit the definition, are also considered to be endpoints within this document.
Physical endpoints are always composites that are composed of hardware components and software components. Virtual endpoints are composed entirely of software components and rely on software components that provide functions equivalent to hardware components.
The SACM architecture differentiates two essential categories of endpoints: Endpoints whose security posture is intended to be assessed (target endpoints) and endpoints that are specifically excluded from endpoint posture assessment (excluded endpoints).
Based on the definition of an asset, an endpoint is a type of asset.
In the context of SACM, endpoint attributes are information elements that describe a characteristic of a target endpoint. Endpoint Attributes typically constitute atomic information elements (AVP) that can be bundled into composite information elements (e.g. information about a specific network interface can be represented via a set of multiple AVP).
The task by which a profile is composed out of endpoint attributes that describe the desired or expected posture of a type or class of target endpoints or even an individual target endpoint. The result of this task is an endpoint profile that is required as guidance for the tasks of endpoint classification or posture assessment.
The task by which a discovered target endpoint is classified. Endpoint classification requires guidance in the form of an endpoint profile, discovery results and potentially collection results. Types, classes or the characteristics of an individual target endpoint are defined via endpoint profiles.
An enterprise IT capability managing endpoint identity, endpoint information, and associated metadata on an ongoing basis.
The task by which endpoint attributes are evaluated.
The resulting value from having evaluated a set of posture attributes.
A specific designation, which is assigned to an endpoint that is not supposed to be the subject of a collection task (and therefore is not a target endpoint). Typically but not necessarily, endpoints that contain a SACM component (and are therefore part of the SACM domain) are designated as excluded endpoints. Target endpoints that contain a SACM component cannot be designated as excluded endpoints and are part of the SACM domain.
The required state of an endpoint that is to be compared against. Sets of expected endpoint states are transported as guidance in target endpoint profiles via the management plane. This, for example, can be a policy, but also a recorded past state. An expected state is represented can be represented via a atomic information element or an composite information element that represents a set of multiple attribute value pairs.
A behavioral aspect or capacity of a particular SACM component, which belies that SACM component’s purpose. For example, a SACM function with interfaces on the control plane can provide a brokering function to other SACM components. Via data plane interfaces, a function can act as a provider and/or as a consumer of information. SACM functions can be propagated as the capabilities of a SACM component and can be discovered by or negotiated with other SACM components.
Input instructions to processes and tasks, such as collecting, assessing or reporting. Guidance influences the behavior of a SACM component and is considered content of the management plane. Guidance can be manually or automatically generated or provided. Typically, the tasks that provide guidance to SACM components have a low-frequency and tend to be be sporadic. A prominent example of guidance are target endpoint profiles, but guidance can have many forms, including:
Configuration, e.g. a SACM component’s name, or a CMDB’s IPv6 address.
Profiles, e.g. a set of expected states for network behavior associated with target endpoints employed by specific users.
Policies, e.g. an interval to refresh the registration of a SACM component, or a list of required capabilities for SACM components in a specific location.
Hardware components are the distinguishable physical components that compose an endpoint. The composition of an endpoint can be changed over time by adding or removing hardware components. In essence, every physical endpoint is potentially a composite of multiple hardware components, typically resulting in a hierarchical composition of hardware components. The composition of hardware components is based on interconnects provided by specific hardware types (e.g. mainboard is a hardware type that provides local busses as an interconnect). In general, a hardware component can be distinguished by its serial number. Occasionally, hardware components are refered to as power sucking aliens.
The list of hardware components that compose a specific endpoint representing its hardware configuration.
Hardware types define specific and distinguishable categories of hardware components that can be part of endpoints, e.g. CPU or 802.11p interface. Typically, hardware types can be distinguished by their vendor assigned names, names of standards used, or a model name.
An information model is an abstract representation of data, their properties, relationships between data and the operations that can be performed on the data. While there is some overlap with a data model, distinguishes an information model as being protocol and implementation neutral whereas a data model would provide such details. The purpose of the SACM information model is to ensure interoperability between SACM data models (that are used as transport encoding) and to provide a standardized set of information elements for communication between SACM components.
For now this is a Place-Holder. Is an interaction model that defines, for example, the operations on the control plane, such as registration or SACM component discovery, required?
Internal Collector: a collector that runs on a target endpoint to acquire information from that target endpoint. (TBD: An internal collector is not a SACM component and therefore not part of a SACM domain).
An architectural component providing common functions to steer the behavior of SACM components, e.g. its behavior on the control plane. Prominent examples include: modification of the configuration of a SACM component or updating a target endpoint profile that resides on an evaluator. In essence, guidance is transported via the management plane. Typically, a SACM component can fulfill its purpose without continuous input from the management plane. In contrast, without continuous availability of control plane functions a typical SACM component could not function properly. In general, interaction on the management plane is less frequent and less regular than on the control plane. Input via the management plane can be manual (e.g. via a CLI), or can be automated via management plane functions that are part of other SACM components.
Network addresses are layer specific and follow layer specific address schemes. Each interface of a specific layer can be associated with one or more addresses appropriate for that layer. There is no guarantee that an address is globally unique. In general, there is a scope to an address in which it is intended to be unique.
Examples include: physical Ethernet port with a MAC address, layer 2 VLAN interface with a MAC address, layer 3 interface with multiple IPv6 addresses, layer 3 tunnel ingress or egress with an IPv4 address.
An endpoint is connected to a network via one or more interfaces. Interfaces can be physical or virtual. Interfaces of an endpoint can operate on different layers, most prominently what is now commonly called layer 2 and 3. Within a layer, interfaces can be nested.
On layer 2, a root interface is typically associated with a physical interface port and nested interfaces are virtual interfaces. In the case of a virtual endpoint, a root interface can be a virtual interface. Virtual layer 2 interfaces of one or more endpoints can also
constitute an aggregated group of links that act as one. On layer 3, nested interfaces typically constitute virtual tunnels or networks.
Examples include: physical Ethernet port, layer 2 VLAN interface, a MC-LAG setup, layer 3 Point-to-Point tunnel ingress or egress.
Defined in as “configuration and/or status of hardware or software on an endpoint as it pertains to an organization’s security policy.”
This term is used within the scope of SACM to represent the configuration and state information that is collected from a target endpoint in the form of endpoint attributes (e.g. software/hardware inventory, configuration settings, dynamically assigned addresses). This information may constitute one or more posture attributes.
Defined in as “attributes describing the configuration or status (posture) of a feature of the endpoint. A Posture Attribute represents a single property of an observed state. For example, a Posture Attribute might describe the version of the operating system installed on the system.”
Within this document this term represents a specific assertion about endpoint configuration or state (e.g. configuration setting, installed software, hardware) represented via endpoint attributes. The phrase “features of the endpoint” highlighted above refers to installed software or software components.
A provider is a SACM role that is assigned to a SACM component that contains functions to provide information to other SACM components.
A proxy is a specific controller type that provides data plane and control plane functions, information, or services on behalf of another component, which is not directly participating in the SACM architecture.
A repository is a specific controller type that contains functions to consume, store and provide information of a particular kind - typically data transported on the data plane, but potentially also data and metadata from the control and management plane. A single repository may provide the functions of more than one specific repository type (i.e. configuration baseline repository, assessment results repository, etc.)
A component is defined in as “an encapsulation of software that communicates using Interfaces. A Component may be implemented by hardware and/or Software, and be represented using a set of classes. In general, a Component encapsulates a set of data structures as well as a set of algorithms that implement the functions that it provides.”
In the context of SACM, a set of SACM functions composes a SACM component. A SACM component conducts SACM tasks, acting on control plane, data plane and/or management plane via corresponding SACM interfaces. SACM defines a set of standard components (e.g. a collector, a broker, or a data store). A SACM component contains at least a basic set of control plane functions and can contain data plane and management plane functions. A SACM component residing on an endpoint assigns one or more SACM roles to the corresponding endpoint due to the SACM functions it is composed of. A SACM component “resides on” an endpoint and an endpoint “contains” a SACM component, correspondingly. For example, a SACM component that is composed solely of functions that provide information would only take on the role of a provider.
The task of brokering appropriate SACM components according to their capabilities or roles on reques.
Input: Query
Output: a list of SACM components including metadata
Endpoints that include a SACM component compose a SACM domain. (To be revised, additional definition content TBD, possible dependencies to SACM architecture)
An interface is defined in as “A set of operations one object knows it can invoke on, and expose to, another object. This decouples the implementation of the operation from its specification. An interface is a subset of all operations that a given object implements. The same object may have multiple types of interfaces to serve different purposes.”
In the context of SACM, SACM Funktions provide SACM Interfaces on the management, control, or data plane. Operations a SACM Interface provides are based on corresponding data model defined by SACM. SACM Interfaces are used for communication between SACM components.
A role is defined in as “an abstraction of a Component that models context-specific views and responsibilities of an object as separate role objects that can be statically or dynamically attached to (and removed from) the object that the role object describes. This provides three important benefits. First, it enables different behavior to be supported by the same Component for different contexts. Second, it enables the behavior of a Component to be adjusted dynamically (i.e., at runtime, in response)to changes in context, by using one or more Roles to define the behavior desired for each context. Third, it decouples the Roles of a Component from the Applications that use that Component.”
In the context of SACM, SACM roles are associated with SACM components and are defined by the set of functions and interfaces a SACM component includes. There are three SACM roles: provider, consumer, and controller. The roles associated with a SACM component are determined by the purpose of the SACM functions and corresponding SACM interfaces the SACM component is composed of.
The process of which security alerts can be automated through the use of different tools to monitor, evaluate and analyze endpoint and network traffic for the purposes of detecting misconfigurations, misbehaviors or threats.
A generic software package (e.g. a text editor).
A software package installed on an endpoint, including a unique serial number if present (e.g. a text editor associated with a unique license key).
A running instance of the software component (e.g. on a multi-user system, one logged-in user has one instance of a text editor running and another logged-in user has another instance of the same text editor running, or on a single-user system, a user could have multiple independent instances of the same text editor running).
The output of a provider, e.g. a report or an assertion acquired via a collection result from a collector, that includes metadata about the data origin and the point in time the statement was created at. A statement can be accompanied by evidence of the validity of its metadata.
The entity seeking to be authenticated by the Management Plane for the purpose of participating in the SACM architecture.
Defined in as “data contained in an information system; or a service provided by a system; or a system capacity, such as processing power or communication bandwidth; or an item of system equipment (i.e., hardware, firmware, software, or documentation); or a facility that houses system operations and equipment.
A target endpoint is an “endpoint under assessment” (even if it is not actively under assessment at all times) or “endpoint of interest”. Every endpoint that is not specifically designated as an excluded endpoint is a target endpoint. A target endpoint is not part of a SACM domain unless it contains a SACM component (e.g. a SACM component that publishes collection results coming from an internal collector).
A target endpoint is similar to a device that is a Target of Evaluation (TOE) as defined in Common Criteria.
A set of endpoint attributes about a target endpoint that was encountered in a SACM domain, which are associated with a target endpoint by being included in the corresponding record. A characterization record is intended to be a representation of an endpoint. It cannot be assured that a record distinctly represents a single target endpoint unless a set of one or more endpoint attributes that compose a unique set of identifying endpoint attributes are included in the record. Otherwise, the set of identifying attributes included in a record can match more than one target endpoints, which are - in consequence - indistinguishable to a SACM domain until more qualifying endpoint attributes can be acquired and added to the record. A characterization record is maintained over time in order to assert that acquired endpoint attributes are either about an endpoint that was encountered before or an endpoint that has not been encountered before in a SACM domain. A characterization record can include, for example, acquired configuration, state or observed behavior of a specific target endpoint. Multiple and even conflicting instances of this information can be included in a characterization record by using timestamps and/or data origins to differentiate them. The endpoint attributes included in a characterization record can be used to re-identify a distinct target endpoint over time. Classes or profiles can be associated with a characterization record via the Classification Task in order to guide collection, evaluation or remediation tasks.
An ongoing task of continuously adding acquired endpoint attributes to a corresponding record. The TE characterization task manages the representation of encountered target endpoints in the SACM domain in the form of characterization records. For example, the output of a target endpoint discovery task or a collection task can be processed by the characterization task and added to the record. The TE characterization Task also manages these representations of target endpoints encountered in the SACM domain by splitting or merging the corresponding records as new or more refined endpoint attributes become available.
Input: discovered target endpoint attributes, endpoint attribute collection, existing characterization records
Output: target endpoint characterization records
The task of associating a class from an extensible list of classes with an endpoint characterization record. TE classes function as guidance for collection, evaluation, remediation and security posture assessment in general.
Input: endpoint characterization records (without classification), guidance (how to classify a record)
Output: endpoint characterization records (with classification)
The ongoing task of detecting previously unknown interaction of a potential target endpoint in the SACM domain. TE Discovery is not directly targeted at a specific target endpoint and therefore an un-targeted task. SACM Components conducting the discovery task as a part of their function are typically distributed and located, for example, on infrastructure components or collect from those remotely via appropriate interfaces. Examples of infrastructure components that are of interest to the discovery task include routers, switches, VM hosting or VM managing components, AAA servers, or servers handling dynamic address distribution.
Input: endpoint attributes acquired via local or remote interfaces
Output: endpoint attributes including metadata such as data source or data origin
The target endpoint discovery task and the collection tasks can result in a set of identifying endpoint attributes added to a corresponding Characterization Record. This subset of the endpoint attributes included in the record is used as a target endpoint identifier, by which a specific target endpoint can be referenced. Depending on the available identifying attributes, this reference can be ambiguous and is a “best-effort” mechanism. Every distinct set of identifying endpoint attributes can be associated with a target endpoint label that is unique in a SACM domain.
An artificially created id that references a distinct set of identifying attributes (Target Endpoint Identifier). A target endpoint label is unique in a SACM domain and created by a SACM component that provides the appropriate function as a capability.
A bundle of expected or desired configurations and states (typically a composition of endpoint attribute value pairs) that can be associated with a target endpoint. The corresponding task by which the association with a target endpoint takes places is the endpoint classification. The task by which an endpoint profile is created is the endpoint characterization. A type or class of target endpoints is defined within a target endpoint profile, e.g. printer, smartphone, or an office PC.
A SACM task is conducted by one or more SACM functions that reside on a SACM component (e.g. a collection task or endpoint characterization). A SACM task can be triggered by other operations or functions (e.g. a query from another SACM component or an unsolicited push on the data plane due to an ongoing subscription). A task is part of a SACM process chain. A task starts at a given point in time and ends in a deterministic state. With the exception of a collection task, a SACM task consumes SACM statements provided by other SACM components. The output of a task is a result that can be provided (e.g. published) on the data plane. There following tasks are defined by SACM:
Target Endpoint Discovery
Target Endpoint Characterization
Target Endpoint Classification
Collection
Evaluation [TBD]
Information Sharing [TBD]
SACM Component Discovery
SACM Component Authentication [TBD]
SACM Component Authorization [TBD]
SACM Component Registration [TBD]
Defined in as “with respect to a data object, a label or marking in which is recorded the time (time of day or other instant of elapsed time) at which the label or marking was affixed to the data object” and as “with respect to a recorded network event, a data field in which is recorded the time (time of day or other instant of elapsed time) at which the event took place.”.
This term is used in SACM to describe a recorded point in time at which an endpoint attribute is created or updated by a target endpoint and observed, transmitted or processed by a SACM component. Timestamps can be created by target endpoints or SACM components and are associated with endpoint attributes provided or consumed by SACM components. Outside of the domain of SACM components the assurance of correctness of time stamps is typically significantly lower than inside a SACM domain. In general, it cannot be simply assumed that the source of time a target endpoint uses is synchronized or trustworthy.
The process of determining whether a set of endpoints is vulnerable according to the information contained in the vulnerability description information.
Information pertaining to the existence of a flaw or flaws in software, hardware, and/or firmware, which could potentially have an adverse impact on enterprise IT functionality and/or security. Vulnerability description information should contain enough information to support vulnerability detection.
A type of guidance extracted from vulnerability description information that describes the specific mechanisms of vulnerability detection that is used by an enterprise’s vulnerability management capability to determine if a vulnerability is present on an endpoint.
An enterprise IT capability managing endpoint vulnerabilities and associated metadata on an ongoing basis by ingesting vulnerability description information and vulnerability detection data, and performing a vulnerability assessment.
This memo includes no request to IANA.
This memo documents terminology for security automation. While it is about security, it does not affect security.
Changes from version 00 to version 01:
Added simple list of terms extracted from UC draft -05. It is expected that comments will be received on this list of terms as to whether they should be kept in this document. Those that are kept will be appropriately defined or cited.
Changes from version 01 to version 02:
Added Vulnerability, Vulnerability Management, xposure, Misconfiguration, and Software flaw.
Changes from version 02 to version 03:
Removed Section 2.1. Cleaned up some editing nits; broke terms into 2 sections (predefined and newly defined terms). Added some of the relevant terms per the proposed list discussed in the IETF 89 meeting.
Changes from version 03 to version 04:
TODO
Changes from version 04 to version 05:
TODO
Changes from version 05 to version 06:
Updated author information.
Combined “Pre-defined Terms” with “New Terms and Definitions”.
Removed “Requirements language”.
Removed unused reference to use case draft; resulted in removal of normative references.
Removed introductory text from Section 1 indicating that this document is intended to be temporary.
Added placeholders for missing change log entries.
Changes from version 06 to version 07:
Added Contributors section.
Updated author list.
Changed title from “Terminology for Security Assessment” to “Secure Automation and Continuous Monitoring (SACM) Terminology”.
Changed abbrev from “SACM-Terms” to “SACM Terminology”.
Added appendix The Attic to stash terms for future updates.
Added Authentication, Authorization, Data Confidentiality, Data Integrity, Data Origin, Data Provenance, SACM Component, SACM Component Discovery, Target Endpoint Discovery.
Major updates to Building Block, Function, SACM Role, Target Endpoint.
Minor updates to Broker, Capability, Collection Task, Evaluation Task, Posture.
Relabeled Role to SACM Role, Endpoint Target to Target Endpoint, Endpoint Discovery to Endpoint Identification.
Moved Asset Targeting, Client, Endpoint Identification to The Attic.
Endpoint Attributes added as a TODO.
Changed the structure of the Change Log.
Changes from version 07 to version 08:
Added Assertion, Collection Result, Collector, Excluded Endpoint, Internal Collector, Network Address, Network Interface, SACM Domain, Statement, Target Endpoint Identifier, Target Endpoint Label, Timestamp.
Major updates to Attributes, Broker, Collection Task, Consumer, Controller, Control Plane, Endpoint Attributes, Expected Endpoint State, SACM Function, Provider, Proxy, Repository, SACM Role, Target Endpoint.
Minor updates to Asset, Building Block, Data Origin, Data Source, Data Provenance, Endpoint, Management Plane, Posture, Posture Attribute, SACM Component, SACM Component Discovery, Target Endpoint Discovery.
Relabeled Function to SACM Function.
Changes from version 08 to version 09:
Updated author list.
Added Data Plane, Endpoint Characterization, Endpoint Classification, Guidance, Interaction Model, Software Component, Software Instance, Software Package, Statement, Target Endpoint Profile, SACM Task.
Removed Building Block.
Major updates to Control Plane, Endpoint Attribute, Expected Endpoint State, Information Model, Management Plane.
Minor updates to Attribute, Capabilities, SACM Function, SACM Component, Collection Task.
Moved Asset Characterization to The Attic.
Changes from version 09 to version 10:
Added Configuration Drift, Data in Motion, Data at Rest, Endpoint Management Capability, Hardware Component, Hardware Inventory, Hardware Type, SACM Interface, Target Endpoint Characterization Record, Target Endpoint Characterization Task, Target Endpoint Classification Task, Target Endpoint Discovery Task, Vulnerability Description Information, Vulnerability Detection Data, Vulnerability Management Capability, Vulnerability Assessment
Added references to i2nsf definitions in Capability, SACM Component, SACM Interface, SACM Role
Added i2nsf Terminology I-D Reference
Major Updates to Endpoint, SACM Task, Target Endpoint Identifier
Minor Updates to Guidance, SACM Component Discovery, Target Endpoint Label, Target Endpoint Profile
Relabled SACM Task
Removed Target Endpoint Discovery
Interface to Network Security Functions (I2NSF) Terminology
This document defines a set of terms that are used for the Interface to Network Security Functions (I2NSF) effort.
On the Difference between Information Models and Data Models
There has been ongoing confusion about the differences between Information Models and Data Models for defining managed objects in network management. This document explains the differences between these terms by analyzing how existing network management model specifications (from the IETF and other bodies such as the International Telecommunication Union (ITU) or the Distributed Management Task Force (DMTF)) fit into the universe of Information Models and Data Models. This memo documents the main results of the 8th workshop of the Network Management Research Group (NMRG) of the Internet Research Task Force (IRTF) hosted by the University of Texas at Austin. This memo provides information for the Internet community.
Internet Security Glossary, Version 2
This Glossary provides definitions, abbreviations, and explanations of terminology for information system security. The 334 pages of entries offer recommendations to improve the comprehensibility of written material that is generated in the Internet Standards Process (RFC 2026). The recommendations follow the principles that such writing should (a) use the same term or definition whenever the same concept is mentioned; (b) use terms in their plainest, dictionary sense; (c) use terms that are already well-established in open publications; and (d) avoid terms that either favor a particular vendor or favor a particular technology or mechanism over other, competing techniques that already exist or could be developed. This memo provides information for the Internet community.
Network Endpoint Assessment (NEA): Overview and Requirements
This document defines the problem statement, scope, and protocol requirements between the components of the NEA (Network Endpoint Assessment) reference model. NEA provides owners of networks (e.g., an enterprise offering remote access) a mechanism to evaluate the posture of a system. This may take place during the request for network access and/or subsequently at any time while connected to the network. The learned posture information can then be applied to a variety of compliance-oriented decisions. The posture information is frequently useful for detecting systems that are lacking or have out-of-date security protection mechanisms such as: anti-virus and host-based firewall software. In order to provide context for the requirements, a reference model and terminology are introduced. This memo provides information for the Internet community.
Protecting the Router Control Plane
This memo provides a method for protecting a router's control plane from undesired or malicious traffic. In this approach, all legitimate router control plane traffic is identified. Once legitimate traffic has been identified, a filter is deployed in the router's forwarding plane. That filter prevents traffic not specifically identified as legitimate from reaching the router's control plane, or rate-limits such traffic to an acceptable level.Note that the filters described in this memo are applied only to traffic that is destined for the router, and not to all traffic that is passing through the router. This document is not an Internet Standards Track specification; it is published for informational purposes.
ITU-T X.1252 (04/2010)
The following terms are stashed for now and will be updated later:
Asset characterization is the process of defining attributes that describe properties of an identified asset.
Asset targeting is the use of asset identification and categorization information to drive human-directed, automated decision making for data collection and analysis in support of endpoint posture assessment.
An architectural component receiving services from another architectural component.
The process by which an endpoint can be identified.