SACM D. Haynes
Internet-Draft The MITRE Corporation
Intended status: Standards Track J. Fitzgerald-McKay
Expires: August 3, 2018 Department of Defense
L. Lorenzin
Pulse Secure
January 30, 2018
Endpoint Compliance Profile
draft-ietf-sacm-ecp-01
Abstract
This document specifies the Endpoint Compliance Profile, a high-level
specification that describes a specific combination and application
of IETF and TNC protocols and interfaces specifically designed to
support ongoing assessment of endpoint posture and the controlled
exposure of collected posture information to appropriate security
applications. This document is an extension of the Trusted Computing
Group's Endpoint Compliance Profile Version 1.0 specification.
Status of This Memo
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This Internet-Draft will expire on August 3, 2018.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 4
1.1. Preventative Posture Assessments . . . . . . . . . . . . 4
1.2. All Network-Connected Endpoints are Endpoints . . . . . . 5
1.3. All Endpoints on the Network Must be Uniquely Identified 5
1.4. Standardized Data Models . . . . . . . . . . . . . . . . 6
1.5. Secure Standardized Protocols . . . . . . . . . . . . . . 6
1.6. Posture Information Must Be Stored . . . . . . . . . . . 6
1.7. Posture Information Can Be Shared . . . . . . . . . . . . 7
1.8. Enterprise Asset Posture Information Belongs to the
Enterprise . . . . . . . . . . . . . . . . . . . . . . . 7
1.9. Keywords . . . . . . . . . . . . . . . . . . . . . . . . 7
2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 7
3. Assumptions . . . . . . . . . . . . . . . . . . . . . . . . . 8
4. Endpoint Compliance Profile . . . . . . . . . . . . . . . . . 10
4.1. Posture Assessments . . . . . . . . . . . . . . . . . . . 10
4.2. Data Storage . . . . . . . . . . . . . . . . . . . . . . 11
4.3. Data Sharing . . . . . . . . . . . . . . . . . . . . . . 11
5. ECP Components . . . . . . . . . . . . . . . . . . . . . . . 11
5.1. Endpoint . . . . . . . . . . . . . . . . . . . . . . . . 12
5.1.1. Posture Collector . . . . . . . . . . . . . . . . . . 12
5.1.2. Posture Collection Engine . . . . . . . . . . . . . . 13
5.2. Posture Manager . . . . . . . . . . . . . . . . . . . . . 13
5.2.1. Posture Validator . . . . . . . . . . . . . . . . . . 13
5.2.2. Posture Collection Manager . . . . . . . . . . . . . 13
5.3. Repository . . . . . . . . . . . . . . . . . . . . . . . 14
5.4. Evaluator . . . . . . . . . . . . . . . . . . . . . . . . 14
5.5. Orchestrator . . . . . . . . . . . . . . . . . . . . . . 14
6. ECP Transactions . . . . . . . . . . . . . . . . . . . . . . 15
6.1. Provisioning . . . . . . . . . . . . . . . . . . . . . . 15
6.2. Discovery and Validation . . . . . . . . . . . . . . . . 15
6.3. Event Driven Collection . . . . . . . . . . . . . . . . . 15
6.4. Querying . . . . . . . . . . . . . . . . . . . . . . . . 15
6.5. Data Storage . . . . . . . . . . . . . . . . . . . . . . 15
6.6. Data Sharing . . . . . . . . . . . . . . . . . . . . . . 16
7. ECP Implementations . . . . . . . . . . . . . . . . . . . . . 17
7.1. IETF NEA ECP Implementation . . . . . . . . . . . . . . . 17
7.1.1. Endpoint Pre-Provisioning . . . . . . . . . . . . . . 17
7.1.2. Endpoint . . . . . . . . . . . . . . . . . . . . . . 18
7.1.2.1. Posture Collector . . . . . . . . . . . . . . . . 18
7.1.2.2. Posture Collection Engine . . . . . . . . . . . . 18
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7.1.3. Posture Manager . . . . . . . . . . . . . . . . . . . 19
7.1.3.1. Posture Validator . . . . . . . . . . . . . . . . 19
7.1.3.2. Posture Collection Manager . . . . . . . . . . . 19
7.1.4. Repository . . . . . . . . . . . . . . . . . . . . . 19
7.1.5. Administrative Interface and API . . . . . . . . . . 20
7.1.6. IETF SACM SWAM Extension to the IETF NEA ECP
Implementation . . . . . . . . . . . . . . . . . . . 20
7.1.6.1. Endpoint Pre-Provisioning . . . . . . . . . . . . 20
7.1.6.2. SWID Tags . . . . . . . . . . . . . . . . . . . . 20
7.1.6.3. SWID Posture Collectors and Posture Validators . 21
7.1.6.4. Repository . . . . . . . . . . . . . . . . . . . 22
7.2. IETF NETMOD ECP Implementation . . . . . . . . . . . . . 22
8. ECP Use Cases . . . . . . . . . . . . . . . . . . . . . . . . 22
8.1. Hardware Asset Management . . . . . . . . . . . . . . . . 22
8.2. Software Asset Management . . . . . . . . . . . . . . . . 23
8.3. Vulnerability Searches . . . . . . . . . . . . . . . . . 23
8.4. Threat Detection and Analysis . . . . . . . . . . . . . . 23
9. Non-supported Use Cases . . . . . . . . . . . . . . . . . . . 24
10. Endpoint Compliance Profile Examples . . . . . . . . . . . . 24
10.1. Continuous Posture Assessment of an Endpoint . . . . . . 24
10.1.1. Change on Endpoint Triggers Posture Assessment . . . 25
10.2. Administrator Searches for Vulnerable Endpoints . . . . 27
11. Profile Requirements . . . . . . . . . . . . . . . . . . . . 28
12. Future Work . . . . . . . . . . . . . . . . . . . . . . . . . 29
13. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 30
14. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 31
15. Security Considerations . . . . . . . . . . . . . . . . . . . 31
15.1. Security Benefits of Endpoint Compliance Profile . . . . 32
15.2. Threat Model . . . . . . . . . . . . . . . . . . . . . . 34
15.2.1. Endpoint Attacks . . . . . . . . . . . . . . . . . . 34
15.2.2. Network Attacks . . . . . . . . . . . . . . . . . . 35
15.2.3. Posture Manager Attacks . . . . . . . . . . . . . . 35
15.2.4. Repository Attacks . . . . . . . . . . . . . . . . . 35
15.3. Countermeasures . . . . . . . . . . . . . . . . . . . . 36
15.3.1. Countermeasures for Endpoint Attacks . . . . . . . . 36
15.3.2. Countermeasures for Network Attacks . . . . . . . . 37
15.3.3. Countermeasures for Posture Manager Attacks . . . . 37
15.3.4. Countermeasures for Repository Attacks . . . . . . . 38
16. Privacy-Considerations . . . . . . . . . . . . . . . . . . . 38
17. Change Log . . . . . . . . . . . . . . . . . . . . . . . . . 39
17.1. -00 to -01 . . . . . . . . . . . . . . . . . . . . . . . 39
17.2. -01 to -02 . . . . . . . . . . . . . . . . . . . . . . . 39
17.3. -02 to -00 . . . . . . . . . . . . . . . . . . . . . . . 39
17.4. -00 to -01 . . . . . . . . . . . . . . . . . . . . . . . 39
18. References . . . . . . . . . . . . . . . . . . . . . . . . . 39
18.1. Informative References . . . . . . . . . . . . . . . . . 39
18.2. Normative References . . . . . . . . . . . . . . . . . . 40
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 41
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1. Introduction
The Endpoint Compliance Profile (ECP) builds on prior work from the
IETF NEA WG, the IETF NETMOD WG, and the Trusted Computing Group
[TNC]Trusted Network Communications (TNC) WG to standardize the
collection, storage and sharing of posture information from network-
connected endpoints, including user endpoints, servers, and
infrastructure. The first generation of this specification focuses
on reducing the security exposure of a network by enabling event-
driven posture collection, as well as standardized querying for
additional endpoint data as needed. Standardized collection improves
network security by confirming that endpoints are known and
authorized, and are compliant with network policy.
When ECP is used, posture collectors running on the target endpoint
gather posture information as changes occur on the endpoint, and
forward this information to a posture manager, which stores it in a
repository. This information is gathered while the target endpoint
is already connected to the network. Administrators will query the
repository to determine the posture status of an endpoint.
Building and maintaining a continuously updated repository of
information using the ECP enables network owners and administrators
to perform the asset, vulnerability, and configuration management
tasks that are the basis for robust network security.
The ECP also describes how to expose information--such as endpoint
purpose, the software that is supposed to be running on an endpoint,
and the activities an endpoint is supposed to be performing--to
sensors that are looking for indicators of attacks and malicious
activity on the network. The ECP does not set requirements for this
future-leaning work; it instead sets requirements for building a data
repository that best enhances decision-making by these sensors.
Therefore, while data sharing components are included in ECP diagrams
and high-level capability descriptions, vendors are free to
experiment with best approaches for sharing data beyond the
repository. Suggestions and ideas for future integration are
captured in the Section 12 section of this document.
1.1. Preventative Posture Assessments
The value of continuous endpoint posture assessment is well
established. Security experts have for years identified asset
management and vulnerability remediation as a critical step for
preventing intrusions. Application whitelisting, patching
applications and operating systems, and using the latest versions of
applications top the Defense Signals Directorate's "Top 4 Mitigations
to Protect Your ICT System". [DSD] "Inventory of Authorized and
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Unauthorized Endpoints", "Inventory of Authorized and Unauthorized
Software", and "Continuous Vulnerability Assessment and Remediation"
are Critical Controls 1, 2, and 4, respectively, of the CIS "20
Critical Security Controls". [CIS] While there are commercially
available solutions that attempt to address these security controls,
these solutions do not run on all types of endpoints; consistently
interoperate with other tools that could make use of the data
collected; collect posture information from all types of endpoints in
a consistent, standardized schema; or require vetted, standardized
protocols that have been evaluated by the international community for
cryptographic soundness.
As is true of most solutions offered today, the solution found in the
ECP does not attempt to solve the lying endpoint problem. An
endpoint that has already been infected with malicious software can
provide false information about its identity and the software it is
running. The primary purpose of the ECP is not to detect infected
endpoints; rather, it focuses on ensuring that healthy endpoints
remain healthy by keeping software up-to-date and patched. The first
goal of the ECP is to help an administrator easily determine which
endpoints require some follow-up action. By sharing posture
information with sensors on the network, ECP aids in the detection of
attacks on endpoints and drives follow-up actions.
1.2. All Network-Connected Endpoints are Endpoints
As defined by [I-D.ietf-sacm-terminology], an endpoint is any
physical or virtual computing endpoint that can be connected to a
network. Posture assessment against policy is equally, if not more,
important for continuously connected endpoints, such as enterprise
workstations and infrastructure endpoints, as it is for sporadically
connected endpoints. Continuously connected endpoints are just as
likely to fall out of compliance with policy, and a standardized
posture assessment method is necessary to ensure they can be properly
handled.
1.3. All Endpoints on the Network Must be Uniquely Identified
Many administrators struggle to identify what endpoints are connected
to the network at any given time. By requiring a standardized method
of endpoint identity, the Endpoint Compliance Profile will enable
administrators to answer the basic question, "What is on my network?"
Unique endpoint identification also enables the comparison of current
and past endpoint posture assessments, by allowing administrators to
correlate assessments from the same endpoint. This makes it easier
to flag suspicious changes in endpoint posture for manual or
automatic review, and helps to swiftly identify malicious changes to
endpoint applications.
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1.4. Standardized Data Models
The ECP requires the use of standardized data models for the exchange
of posture information. This helps to ensure that the posture
information sent from endpoints to the repository can be easily
stored, due to their known format, and shared with authorized
endpoints and users. Standardized data models also enable collection
from myriad types of endpoints. Such standardization saves vendors
time and money--time that does not have to be spent integrating new
data models into the enterprise's reporting mechanisms, and money
that does not have to be spent on developing tools to parse
information from each type of endpoint connected to the network.
Standardized data models also enable the development of standardized
client software. This allows endpoint vendors to include their own
client software that can interoperate with posture assessment
infrastructure and thus not have to introduce third party code in
their products.
1.5. Secure Standardized Protocols
Posture information must be sent over mature, standardized protocols
to ensure the confidentiality and authenticity of this data while in
transit. Conformant implementations of the ECP include [RFC6876] and
[I-D.ietf-netconf-yang-push] for communication between the target
endpoint and the posture manager. These protocols allow networks
that implement this solution to collect large amounts of posture
information from an endpoint to make decisions about that endpoint's
compliance with some policy. The ECP offers a solution for all
endpoints already connected to the network. Periodic assessments and
automated reporting of changes to endpoint posture allow for
instantaneous identification of connected endpoints that are no
longer compliant to some policy.
1.6. Posture Information Must Be Stored
Posture information must be stored by the repository and must be
exposed to an interface at the posture manager. Standard data models
enable standard queries from an interface exposed to an administrator
at the posture manager console. A repository must retain any current
posture information retrieved from the target endpoint and store it
indexed by the unique identifier for the endpoint. Any posture
validator specified by this profile must be able to ascertain from
its corresponding posture collector whether the posture information
is up to date. An interface on the posture manager must support a
request to the posture validator to obtain up-to-date information
when an endpoint is connected. This interface must also support the
ability to make a standard set of queries about the posture
information stored by the repository. In the future, some forms of
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posture information might be retained at the endpoint. The interface
on the server must accommodate the ability to make a request through
the posture validator to the corresponding posture collector about
the posture of the target endpoint. Standard data models and
protocols also enable the security of posture assessment results. By
storing these results indexed under the endpoint's unique
identification, secure storage itself enables endpoint posture
information correlation, and ensures that the enterprise's
repositories always offer the freshest, most up-to-date view of the
enterprise's endpoint posture information possible.
1.7. Posture Information Can Be Shared
By exposing posture information using a standard interface and API,
other security and operational components have a high level of
insight into the enterprise's endpoints and the software installed on
them. This will support innovation in the areas of asset management,
vulnerability scanning, and administrative interfaces, as any
authorized infrastructure endpoint can interact with the posture
information.
1.8. Enterprise Asset Posture Information Belongs to the Enterprise
Owners and administrators must have complete control of posture
information, policy, and endpoint mitigation. Standardized data
models, protocols and interfaces help to ensure that this posture
information is not locked in proprietary databases, but is made
available to its owners. This enables administrators to develop as
nuanced a policy as necessary to keep their networks secure.
1.9. Keywords
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119]. This
specification does not distinguish blocks of informative comments and
normative requirements. Therefore, for the sake of clarity, note
that lower case instances of must, should, etc. do not indicate
normative requirements.
2. Terminology
This document uses terms as defined in [I-D.ietf-sacm-terminology]
unless otherwise specified.
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3. Assumptions
Here are the assumptions that the Endpoint Compliance Profile makes
about other components in the SACM architecture.
o Existence of a posture manager and repository: The Endpoint
Compliance Profile assumes that a posture manager and repository
exist.
o Endpoint posture information availability: The Endpoint Compliance
Profile assumes that an endpoint has posture information in
standardized data model that can be communicated to the posture
manager.
o Certificate provisioning: In order to implement the most secure
endpoint identification option, the Endpoint Compliance Profile
assumes that the enterprise has set up a certificate root
authority, and has provisioned each endpoint with an endpoint
identification certificate. This is not required if an enterprise
chooses to use other endpoint authentication methods.
In addition, the Endpoint Compliance Profile makes the following
assumptions about the SACM ecosystem:
o All network-connected endpoints are endpoints: As defined by [I-
D.ietf-sacm-terminology], an endpoint is any physical or virtual
computing endpoint that can be connected to a network. Posture
assessment against policy is equally, if not more, important for
continuously connected endpoints, such as enterprise workstations
and infrastructure endpoints, as it is for sporadically connected
endpoints. Continuously connected endpoints are just as likely to
fall out of compliance with policy, and a standardized posture
assessment method is necessary to ensure they can be properly
handled.
o All endpoints on the network must be uniquely identified: Many
administrators struggle to identify what endpoints are connected
at any given time. By requiring a standardized method of endpoint
identity, the Endpoint Compliance Profile will enable
administrators to answer the basic question, "What is on my
network?" Unique endpoint identification also enables the
comparison of current and past endpoint posture assessments, by
allowing administrators to correlate assessments from the same
endpoint. This makes it easier to flag suspicious changes in
endpoint posture for manual or automatic review, and helps to
swiftly identify malicious changes to endpoint applications.
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o Posture assessments must occur over secure, standardized
protocols: Endpoint identity and application information is very
valuable, both to administrators and to attackers. Therefore, it
must be kept confidential, using secure protocols to transport it
from the endpoint to the posture manager. Additionally, it is
critical that only authorized parties be capable of requesting
information, receiving information, or taking action to change an
endpoint's connectivity status. Relying on standardized protocols
to provide this security enables greater interoperability and
compatibility between endpoints, and allows for the development of
compliance testing to ensure that each endpoint operates securely
and in conformance with appropriate specifications. A standards
body provides a process for experts in protocols and cryptography
to evaluate the soundness of protocols and security management
procedures; a set of security standards allows an enterprise to
make the most effective use of their investment in a security
management infrastructure.
o Posture assessment results must be formatted using standardized
data models: Well-known, standard data models allow for a
universal language for generating compliance reports. With each
endpoint speaking the same language, the Endpoint Compliance
Profile enables information sharing between user endpoints and
infrastructure endpoints, and between infrastructure endpoints
that perform different security tasks.
o Posture information must be stored by the repository and must be
exposed to an interface at the posture manager: Standard data
models enable standard queries from an interface exposed to an
administrator at the posture manager console. A repository must
retain any current posture information retrieved from the endpoint
and store it indexed by the unique identifier for the endpoint.
Any posture validator specified by this profile must be able to
ascertain from its corresponding posture collector whether the
posture information is up to date. An interface on the posture
manager must support a request to the posture validator to obtain
up-to-date information when an endpoint is connected. This
interface must also support the ability to make a standard set of
queries about the posture information stored by the repository.
In the future, some forms of posture information might be retained
at the endpoint. The interface on the posture manager must
accommodate the ability to make a request through the posture
validator to the corresponding posture collector about the posture
of the endpoint. Standard data models and protocols also enable
the security of posture assessment results. By storing these
results indexed under the endpoint's unique identifier, secure
storage itself enables endpoint posture information correlation,
and ensures that the enterprise's repositories always offer the
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freshest, most up-to-date view of the enterprise's endpoint
posture information possible.
o Posture information can be shared: By exposing posture information
using a standard interface and API, other security and operational
components have a high level of insight into the enterprise's
endpoints and the software installed on them. This will support
innovation in the areas of asset management, vulnerability
scanning, and administrative interfaces, as any authorized
infrastructure endpoint can interact with the posture information.
o Owners and administrators must have complete control of posture
information, policy, and endpoint mitigation: Enterprise asset
posture information belongs to the enterprise. Standardized data
models, protocols and interfaces help to ensure that this posture
information is not locked in proprietary databases, but is made
available to its owners. This enables administrators to develop
as nuanced a policy as necessary to keep their networks secure.
4. Endpoint Compliance Profile
The Endpoint Compliance Profile describes how IETF data models and
protocols can be used to support the posture assessment of endpoints
on a network. This profile does not generate new data models or
protocols; rather, it offers a full end-to-end solution for posture
assessment, as well as a fresh perspective on how existing standards
can be leveraged against vulnerabilities.
4.1. Posture Assessments
The Endpoint Compliance Profile 1.0 describes how IETF and TNC data
models and protocols make it possible to perform posture assessments
against all network-connected endpoints by:
1. uniquely identifying the endpoint;
2. collecting and assessing posture based on data from the endpoint;
3. creating a secure, authenticated, confidential channel between
the endpoint and the posture manager;
4. enabling the endpoint to notify the posture manager about changes
to its configuration;
5. enabling the posture manager to request information about the
configuration of the endpoint; and
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6. storing the posture information in a repository linked to the
identifier for the endpoint.
4.2. Data Storage
The Endpoint Compliance Profile 1.0 focuses on being able to collect
posture information from an endpoint and store it in a repository.
This makes posture information from a network's endpoints available
to authorized parties. Uses of this data are innumerable -
vulnerability management, asset management, software asset
management, and configuration management solutions, analytics tools,
endpoints that need to make connectivity decisions, and metrics
reporting scripts, among others, are all able to reference the data
stored in the repository to achieve their purposes. Currently, the
Endpoint Compliance Profile 1.0 does not specify a protocol or
interfaces to access stored posture information. This needs to be
addressed in a future revision to make collected posture information
accessible to components in a standardized manner. Until then,
vendors are free to implement a repository and the protocols and
interfaces used to interact with it in a way that makes the most
sense for them.
4.3. Data Sharing
The Endpoint Compliance Profile 1.0 aims to facilitate the sharing of
posture information between components to enable asset management,
software asset management, and configuration management use cases as
well as support analytic, access control, remediation, and reporting
processes. However, the Endpoint Compliance Profile 1.0 does not
currently specify a protocol for communicating this information
between components to support these use cases and processes. This
needs to be addressed in a future revision.
[I-D.ietf-mile-xmpp-grid] which is publish/subscribe protocol being
developed in the IETF MILE WG may be a potential candidate for
sharing information between components.
5. ECP Components
To perform posture assessment, data storage, and data sharing, ECP
defines a number of components. Some of these components reside on
the target endpoint. Others reside on a posture manager that manages
communications with the target endpoint and stores the target
endpoint's posture information in a repository.
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Posture Manager Endpoint
Orchestrator +---------------+ +---------------+
+--------+ | | | |
| | | +-----------+ | | +-----------+ |
| |<---->| | Posture | | | | Posture | |
| | pub/ | | Validator | | | | Collector | |
| | sub | +-----------+ | | +-----------+ |
+--------+ | | | | | |
| | | | | |
Evaluator Repository | | | | | |
+------+ +--------+ | +-----------+ |<-------| +-----------+ |
| | | | | | Posture | | report | | Posture | |
| | | | | | Collection| | | | Collection| |
| |<-----> | |<---->| | Manager | | query | | Engine | |
| |request/| | store| +-----------+ |------->| +-----------+ |
| |respond | | | | | |
| | | | | | | |
+------+ +--------+ +---------------+ +---------------+
Figure 1: ECP Components
5.1. Endpoint
An endpoint is defined in [RFC6876]. In the Endpoint Compliance
Profile, the endpoint is monitored by the enterprise and is the
target of posture assessments. To support these posture assessments,
posture information is collected via posture collectors.
5.1.1. Posture Collector
A posture collector is responsible for monitoring and gathering
posture information from the target endpoint. This component reports
changes to posture information as they occur. This event-driven
collection provides network administrators up-to-date insight into
the state of the network as the network state changes, which enables
continuous monitoring of the network. Posture collectors can also be
queried supporting ad-hoc collection, addressed below as "querying"
which can be used to refresh information about the target endpoint,
or to ask a specific question about posture information.
Furthermore, a posture collector may process posture information
before it is communicated to the posture manager. An endpoint may
have one or more posture collectors depending on the type of endpoint
and what posture information is being monitored and collected.
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5.1.2. Posture Collection Engine
The posture collection engine is located on the target endpoint. It
receives queries from a posture collection manager and directs them
to the appropriate posture collector on the target endpoint. It also
sends collected posture information to the posture manager where it
can be received by the posture collection manager and distributed to
the appropriate posture validator where it can be sanity checked and
stored in the repository. The posture collection engine also
contains a capability that sets up exchanges between the target
endpoint and posture manager. This capability makes the posture
collection engine responsible for performing the client-side portion
of encryption handshakes, and for locating authorized posture
managers with which to communicate.
5.2. Posture Manager
The posture manager is an endpoint that collects, validates, and
enriches posture information received about a target endpoint. It
also stores the posture information it receives in the repository.
The posture manager does not evaluate the posture information.
5.2.1. Posture Validator
A posture validator receives data from a posture collector, performs
basic sanity checking, and stores that data in the repository. It
can also send queries to a posture collector. There is a posture
validator for every posture collector.
5.2.2. Posture Collection Manager
A posture collection manager is a lightweight and extensible
component that facilitates the coordination and execution of posture
collection requests using collection mechanisms deployed across the
enterprise. The posture collection manager may query and retrieve
guidance from the repository to guide the collection of posture
information from the target endpoint.
The posture collection manager also contains a capability that sets
up exchanges between the target endpoint and the posture manager, and
manages data sent to and from posture validators. It is also
responsible for performing the server-side portion of encryption
handshakes. It is also responsible for performing the server-side
portion of encryption handshakes.
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5.3. Repository
The repository hosts guidance, endpoint identification information,
and posture information reported by target endpoints where it is made
available to authorized components and persisted over a period of
time set by the administrator. Information stored in the repository
will be accessible to authorized parties via a standard
administrative interface as well as through a standardized API. The
repository may be a standalone component or may be located on the
posture manager.
Currently, the Endpoint Compliance Profile does not provide a
standardized interface or API for accessing the information contained
within the repository. A future revision of the Endpoint Compliance
Profile may specify a standardized interface and API for components
to interact with the repository.
5.4. Evaluator
The evaluator assesses the posture status of a target endpoint by
comparing collected posture information against the desired state of
the target endpoint specified in guidance. The evaluator queries and
retrieves the appropriate guidance from the repository as well as
queries and retrieves the posture information required for the
assessment from the repository. If the required posture information
is not available in the repository, the evaluator may request the
posture information from the posture collection engine, which will
result in the collection of additional posture information from the
target endpoint. This information is subsequently stored in the
repository where it is made available to the evaluator and other
components. The results of the assessment are stored in the
repository where they are available to tools and administrators for
follow-up actions, further evaluation, and historical purposes.
5.5. Orchestrator
The orchestrator provides a publish/subscribe interface for the
repository so that infrastructure endpoints can subscribe to and
receive published posture assessment results from the repository
regarding endpoint posture changes.
The Endpoint Compliance Profile 1.0 does not currently define an
orchestrator component nor does it specify a standardized publish/
subscribe interface for this purpose. Future revisions of the
Endpoint Compliance Profile may specify such an interface.
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6. ECP Transactions
6.1. Provisioning
An endpoint is provisioned with one or more attributes that will
serve as its unique identifier on the network as well as the
components necessary to interact with the posture manager. The
endpoint is deployed on the network.
NOTE: TO BE EXPANDED
6.2. Discovery and Validation
If necessary, the target endpoint finds and validates the posture
manager. The posture collection engine on the target endpoint and
posture collection manager on the posture manager complete a TLS
handshake, during which endpoint identity information is exchanged.
6.3. Event Driven Collection
The posture assessment is initiated when a posture collector on the
target endpoint notices that relevant posture information on the
endpoint has changed. The posture collector notified the posture
collection engine, which initiates a posture assessment information
exchange with the posture collection manager.
6.4. Querying
The posture assessment is initiated by the posture validator. This
can occur because:
1. policy states that a previous assessment has aged out or become
invalid, or
2. the posture validator is alerted by a sensor or an administrator
(via the posture manager's user interface) that an assessment
must be completed
6.5. Data Storage
Once posture information is received by the posture manager, it is
forwarded to the repository. The repository could be co-located with
the posture manager, or there could be direct or brokered
communication between the posture manager and the repository. The
posture information is stored in the repository along with past
posture information collected about the target endpoint.
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6.6. Data Sharing
Because the target endpoint posture information was sent in
standards-based data models over secure, standardized protocols, and
then stored in a centralized repository linked to unique endpoint
identifiers, authorized parties are able to access the posture
information. Such authorized parties may include, but are not
limited to, administrators or endpoint owners (via the server's
administrative interface), evaluators that access the repository
directly, and orchestrators that rely on publish/subscribe
communications with the repository.
Posture Manager Endpoint
Orchestrator +---------------+ +---------------+
+--------+ | | | |
| | | +-----------+ | | +-----------+ |
| |<---->| | Posture | | | | Posture | |
| | pub/ | | Validator | | | | Collector | |
| | sub | +-----------+ | | +-----------+ |
+--------+ | | | | | |
| | | | | |
Evaluator Repository | | | | | |
+------+ +--------+ | +-----------+ |<-------| +-----------+ |
| | | | | | Posture | | report | | Posture | |
| | | | | | Collection| | | | Collection| |
| |<-----> | |<-----| | Manager | | query | | Engine | |
| |request/| | store| +-----------+ |------->| +-----------+ |
| |respond | | | | | |
| | | | | | | |
+------+ +--------+ +---------------+ +---------------+
+--------------------------------+
| Administrative Interface |
| and API |
+--------------------------------+
Figure 2: Exposing Data to the Network
It should be noted that the neither the Endpoint Compliance Profile
nor the protocols, interfaces, and data models that it references
provide solutions to the repository, evaluator, and orchestrator
components and capabilities listed above. However, these
capabilities are useful and solutions for them should be pursued in
the future.
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7. ECP Implementations
The following sections describe implementations of the Endpoint
Compliance Profile leveraging the IETF NEA and IETF NETMOD
architectures.
7.1. IETF NEA ECP Implementation
These requirements are written with a view to performing a posture
assessment on an endpoint; as the Endpoint Compliance Profile grows
and evolves, these requirements will be expanded to address issues
that arise. Note that these requirements refer to defined components
of the NEA architecture. As with the NEA architecture, vendors have
discretion as to how these NEA components map to separate pieces of
software or endpoints.
7.1.1. Endpoint Pre-Provisioning
An endpoint is provisioned with a machine certificate that will serve
as its unique identifier on the network as well as the components
necessary to interact with the posture manager. This includes a
posture collection engine to manage requests from the posture manager
and the posture collectors necessary to collect the posture
information of importance to the enterprise. The endpoint is
deployed on the network.
The target endpoint SHOULD authenticate to the posture manager using
a machine certificate during the establishment of the outer tunnel
achieved with the posture transport protocol defined in [RFC6876].
[IF-IMV] specifies how to pull an endpoint identifier out of a
machine certificate. An endpoint identifier SHOULD be created in
conformance with [IF-IMV] from a machine certificate sent via
[RFC6876].
In the future, the identity could be a hardware certificate compliant
with [IEEE-802-1ar]; ideally, this identifier SHOULD be associated
with the identity of a hardware cryptographic module, in accordance
with [IEEE-802-1ar], if present on the endpoint. The enterprise
SHOULD stand up a certificate root authority; install its root
certificate on endpoints and on the posture manager; and provision
the endpoints and the posture manager with machine certificates. The
target endpoint MAY authenticate to the posture manager using a
combination of the machine account and password; however, this is
less secure and not recommended.
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7.1.2. Endpoint
The endpoint MUST conform to [RFC5793], which levies a number of
requirements against the endpoint. An endpoint that complies with
these requirements will be able to:
1. attempt to initiate a session with the posture manager if the
posture makes a request to send an update to posture manager;
2. notify the posture collector if no PT-TLS session with the
posture manager can be created;
3. notify the posture collector when a PT-TLS session is
established; and
4. receive information from the posture collectors, forward this
information to the server via the posture collection engine.
7.1.2.1. Posture Collector
Any posture collector used in an Endpoint Compliance Profile solution
MUST be conformant with [IF-IMC]; an Internet-Draft, under
development, that is a subset of the TCG TNC Integrity Measurement
Collector interface [IF-IMC] and will be submitted in the near
future.
7.1.2.2. Posture Collection Engine
In the original IETF NEA ECP implementation, the endpoint contained
posture collector(s), a posture broker client, and posture transport
client(s). However, in this draft, the functionality of the posture
broker client and posture transport client(s) have been combined into
what is now called the posture collection engine. This was done
because there is currently no standard interface to handle the
communication between the posture broker client and posture transport
client(s) meaning vendors will need to define proprietary interfaces
that will not be interoperable.
The endpoint MUST conform to [IF-IMC] to enable communications
between the posture collection engine and the posture collectors on
the endpoint.
The posture collection engine MUST implement PT-TLS.
The posture collection engine MUST support the use of machine
certificates for TLS at each endpoint consistent with the
requirements stipulated in [RFC6876] and [Server-Discovery].
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The posture collection engine MUST be able to locate an authorized
posture manager, and switch to a new posture manager when required by
the network, in conformance with [Server-Discovery].
7.1.3. Posture Manager
The posture manager MUST conform to all requirements in the
[RFC5793].
7.1.3.1. Posture Validator
Any posture validator used in an Endpoint Compliance Profile solution
MUST be conformant with [IF-IMV]; an Internet-Draft, under
development, that is a subset of the TCG TNC Integrity Measurement
Verifier interface [IF-IMV] and will be submitted in the near future.
7.1.3.2. Posture Collection Manager
In the original IETF NEA ECP implementation, the posture manager
contained posture validators(s), a posture broker server, and posture
transport servers(s). Similar to the approach take on the endpoint,
in this draft, the functionality of the posture broker server and
posture transport servers(s) have been combined into what is now
called the posture collection manager. This was done because there
is currently no standard interface to handle the communication
between the posture broker server and posture transport servers(s)
meaning vendors will need to define proprietary interfaces that will
not be interoperable.
The posture manager MUST conform to [IF-IMV]. Conformance to
[IF-IMV] enables the posture manager to obtain endpoint identity
information from the posture collection manager, and pass this
information to any posture validators on the posture manager.
The posture collection manager MUST implement PT-TLS.
The posture collection manager MUST support the use of machine
certificates for TLS at each endpoint consistent with the
requirements stipulated in [RFC6876] and [Server-Discovery].
7.1.4. Repository
ECP 1.0 requires a simple administrative interface for the
repository. Posture validators on the posture manager receive the
target endpoint posture information via PA-TNC [RFC5792] messages
sent from corresponding posture collectors on the target endpoint and
store this information in the repository linked to the identity of
the target endpoint where the posture collectors are located.
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7.1.5. Administrative Interface and API
An interface is necessary to allow administrators to manage the
endpoints and software used in the Endpoint Compliance Profile. This
interface SHOULD be accessible either on or through (as in the case
of a remotely hosted interface) the posture manager. Using this
interface, an authorized user or administrator SHOULD be able to:
o Query the repository
o Send commands to the posture validators, requesting information
from the associated posture collectors residing on network
endpoints
o Update the policy that resides on the posture manager
An API is necessary to allow infrastructure endpoints and software
access to the information stored in the repository. Using this API,
an authorized endpoint SHOULD be able to:
o Query the repository
7.1.6. IETF SACM SWAM Extension to the IETF NEA ECP Implementation
This section defines the requirements associated with the software
asset management extension [I-D.ietf-sacm-nea-swima-patnc] to the
IETF NEA ECP implementation.
7.1.6.1. Endpoint Pre-Provisioning
This section defines the requirements associated with implementing
SWIMA.
The following requirements assume that the platform or OS vendor
supports the use of SWID tags and has identified a standard directory
location for the SWID tags to be located as specified by [SWID].
7.1.6.2. SWID Tags
The primary content for the Endpoint Compliance Profile 1.0 is the
information conveyed in the elements of a SWID tag.
The endpoint MUST have SWID tags stored in a directory specified in
[SWID]. The tags SHOULD be provided by the software vendor; they MAY
also be generated by:
o the software installer; or
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o third-party software that creates tags based on the applications
it sees installed on the endpoint.
The elements in the SWID tag MUST be populated as specified in
[SWID]. These tags, and the directory in which they are stored, MUST
be updated as software is added, removed, or updated.
7.1.6.3. SWID Posture Collectors and Posture Validators
7.1.6.3.1. The SWID Posture Collector
For the Endpoint Compliance Profile, the SWID posture collector MUST
be conformant with [I-D.ietf-sacm-nea-swima-patnc], which includes
requirements for:
1. Collecting SWID tags from the SWID directory
2. Monitoring the SWID directory for changes
3. Initiating a session with the posture manager to report changes
to the directory
4. Maintaining a list of changes to the SWID directory when updates
take place and no PT-TLS connection can be created with the
posture manager
5. Responding to a request for SWID tags from the SWID Posture
Validator on the posture manager
6. Responding to a query from the SWID posture validator as to
whether all updates have been sent
The SWID posture collector is not responsible for detecting that the
SWID directory was not updated when an application was either
installed or uninstalled.
7.1.6.3.2. The SWID Posture Validator
Conformance to [I-D.ietf-sacm-nea-swima-patnc] enables the SWID
posture validator to:
1. Send messages to the SWID posture collector (at the behest of the
administrator at the posture manager console) requesting updates
for SWID tags located on endpoint
2. Ask the SWID posture collector whether all updates to the SWID
directory located at the posture manager have been sent
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3. Compare an endpoint's SWID posture information to policy, and
make a recommendation to the NEA server about the endpoint
In addition to these requirements, a SWID posture validator used in
conformance with this profile MUST be capable of passing information
from the posture assessment results and the endpoint identity
associated with those results to the repository for storage.
7.1.6.4. Repository
The administrative interface SHOULD enable an administrator to:
1. Query which endpoints have reported SWID tags for a particular
application
2. Query which SWID tags are installed on an endpoint
3. Query tags based on characteristics, such as vendor, publisher,
etc.
7.2. IETF NETMOD ECP Implementation
NOTE: TO BE WRITTEN
8. ECP Use Cases
The following sections describe the different use cases supported by
the Endpoint Compliance Profile.
8.1. Hardware Asset Management
Using the administrative interface on the posture manager, an
authorized user can learn:
o what endpoints are connected to the network at any given time; and
o what SWID tags were reported for the endpoints.
The ability to answer these questions offers a standards-based
approach to asset management, which is a vital part of enterprise
processes such as compliance report generation for the Federal
Information Security Modernization Act (FISMA), Payment Card Industry
Data Security Standard (PCI DSS), Health Insurance Portability and
Accountability Act (HIPAA), etc.
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8.2. Software Asset Management
The administrative interface on the posture manager provides the
ability for authorized users and infrastructure to know which
software is installed on which endpoints on the enterprise's network.
This allows the enterprise to answer questions about what software is
installed to determine if it is licensed or prohibited. This
information can also drive other use cases such as:
o vulnerability management: knowing what software is installed
supports the ability to determine which endpoints contain
vulnerable software and need to be patched.
o configuration management: knowing which security controls need to
be applied to harden installed software and better protect
endpoints.
8.3. Vulnerability Searches
The administrative interface also provides the ability for authorized
users or infrastructure to locate endpoints running software for
which vulnerabilities have been announced. Because of
1. the unique IDs assigned to each endpoint; and
2. the rich application data provided in the endpoints' posture
information,
the repository can be queried to find all endpoints running a
vulnerable application. Endpoints suspected of being vulnerable can
be addressed by the administrator or flagged for further scrutiny.
8.4. Threat Detection and Analysis
The repository's standardized API allows authorized infrastructure
endpoints and software to search endpoint posture assessment
information for evidence that an endpoint's software inventory has
changed, and can make endpoint software inventory data available to
other endpoints. This automates security data sharing in a way that
expedites the correlation of relevant network data, allowing
administrators and infrastructure endpoints to identify odd endpoint
behavior and configuration using secure, standards-based data models
and protocols.
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9. Non-supported Use Cases
Several use cases, including but not limited to these, are not
covered by the Endpoint Compliance Profile 1.0:
o Gathering non-standardized types of posture information: The
Endpoint Compliance Profile does not prevent administrators from
collecting posture information in proprietary formats from the
endpoint; however it does not set requirements for doing so.
o Solving the lying endpoint problem: The Endpoint Compliance
Profile does not address the lying endpoint problem; the Profile
makes no assertions that it can catch an endpoint that is, either
maliciously or accidentally, reporting false posture information
to the posture manager. However, other solutions may be able to
use the posture information collected using the capabilities
described in this profile to catch an endpoint in a lie. For
example, a sensor may be able to compare the posture information
it has collected on an endpoint's activity on the network to what
the endpoint reported to the server and flag discrepancies.
However, these capabilities are not described in this profile.
10. Endpoint Compliance Profile Examples
10.1. Continuous Posture Assessment of an Endpoint
Endpoint Posture Manager
+----------------+ +----------------+
| | | |
| +------------+ | | +------------+ |
| | SWID | | | | SWID | |
| | Posture | | | | Posture | |
| | Collector | | | | Validator | |
| +------------+ | | +------------+ |
| | | | | |
| | IF-IMC | | | IF-IMV |
| | | | | |
| +------------+ | | +------------+ |
| | Posture | | | | Posture | |
| | Collection | | | | Collection | |
| | Engine | |<------>| | Manager | |
| +------------+ | PT-TLS | +------------+ |
| | | |
+----------------+ +----------------+
Figure 3: Continuous Posture Assessment of an Endpoint
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10.1.1. Change on Endpoint Triggers Posture Assessment
A new application is installed on the endpoint, and the SWID
directory is updated. This triggers an update from the SWID posture
collector to the SWID posture validator. The message is sent down
the NEA stack, encapsulated by NEA protocols until it is sent by the
posture transport client to the posture transport server. The
posture transport server then forwards it up through the stack, where
the layers of encapsulation are removed until the SWID Message
arrives at the SWID posture validator.
Endpoint Posture Manager
+----------------+ +----------------+
| | | |
| +------------+ | | +------------+ |
| | SWID | | | | SWID | |
| | Posture | | | | Posture | |
| | Collector | | | | Validator | |
| +------------+ | | +------------+ |
| | | SWIMA for | | |
| | IF-IMC | PA-TNC | | IF-IMV |
| | | | | |
| +------------+ | PB-TNC {SWIMA | +------------+ |
| | Posture | | for PA-TNC} | | Posture | |
| | Collection | |<--------------->| | Collection | |
| | Engine | | PT-TLS {PB-TNC | | Manager | |
| +------------+ | {SWIMA for | +------------+ |
| | PA-TNC}} | |
+----------------+ +----------------+
Figure 4: Compliance Protocol Encapsulation
The SWID posture validator stores the new tag information in the
repository. If the tag indicates that the endpoint is compliant to
the policy, then the process is complete until the next time an
update is needed (either because policy states that the endpoint must
submit posture assessment results periodically or because an
install/uninstall/update on the endpoint triggers a posture
assessment).
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Endpoint Posture Manager
+----------------+ +----------------+
| | | |
| +------------+ | | +------------+ |
| | SWID | | | | SWID |-|-+
| | Posture | | | | Posture | | |
| | Collector | | | | Validator | | |
| +------------+ | | +------------+ | |
| | | | | | | Repository
| | IF-IMC | | | IF-IMV | | +--------+
| | | | | | | | |
| +------------+ | | +------------+ | | | |
| | Posture | | | | Posture | | +---->| |
| | Collection | | | | Collection | | | |
| | Engine | |<------>| | Manager | | | |
| +------------+ | | +------------+ | | |
| | | | +--------+
+----------------+ +----------------+
Figure 5: Storing SWIDs in the Repository
If the endpoint has fallen out of compliance with a policy, the
server can alert the administrator via the posture manager's
administrative interface. The administrator can then take steps to
address the problem. If the administrator has already established a
policy for automatically addressing this problem, that policy will be
followed.
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(")
__|__
+-->|
Endpoint Posture Manager | / \
+----------------+ +----------------+ |
| | | | |
| +------------+ | | +------------+ | |
| | SWID | | | | SWID |-|-+
| | Posture | | | | Posture | |
| | Collector | | | | Validator | |
| +------------+ | | +------------+ |
| | | | | | Repository
| | IF-IMC | | | IF-IMV | +--------+
| | | | | | | |
| +------------+ | | +------------+ | | |
| | Posture | | | | Posture | | | |
| | Collection | | | | Collection | | | |
| | Engine | |<------>| | Manager | | +--------+
| +------------+ | | +------------+ |
| | | |
+----------------+ +----------------+
Figure 6: Server Alerts Network Admin
10.2. Administrator Searches for Vulnerable Endpoints
An announcement is made that a particular version of a piece of
software has a vulnerability. The administrator uses the
Administrative Interface on the server to search the repository for
endpoints that reported the SWID tag for the vulnerable software.
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(")
__|__
+-->|
Endpoint Posture Manager | / \
+----------------+ +----------------+ |
| | | | |
| +------------+ | | +------------+ | |
| | SWID | | | | SWID |-|-+
| | Posture | | | | Posture | |
| | Collector | | | | Validator | |
| +------------+ | | +------------+ |
| | | | | | Repository
| | IF-IMC | | | IF-IMV | +--------+
| | | | | | | |
| +------------+ | | +------------+ | | |
| | Posture | | | | Posture | |------>| |
| | Collection | | | | Collection | | | |
| | Engine | |<------>| | Manager | | | |
| +------------+ | | +------------+ | +--------+
| | | |
+----------------+ +----------------+
Figure 7: Admin Searches for Vulnerable Endpoints
The repository returns a list of entries in the matching the
administrator's search. The administrator can then address the
vulnerable endpoints by taking some follow-up action such as removing
it from the network, quarantining it, or updating the vulnerable
software.
11. Profile Requirements
Here are the requirements that the Endpoint Compliance Profile
protocol must meet in order to successfully fit in the SACM
architecture.
o Meets the needs of SACM use cases: The Endpoint Compliance Profile
must support the use cases described in [RFC7632] as they apply to
endpoint self-reporting and endpoint posture assessment.
o Efficient: To minimize user frustration, it is essential to
minimize delays by making endpoint posture information collection,
transmission, and assessment as brief and efficient as possible.
o Extensible: The Endpoint Compliance Profile needs to expand over
time as new features are added to the SACM architecture. The
solution must allow new features to be added easily, providing for
a smooth transition and allowing newer and older architectural
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components to continue to work together. Further, the Endpoint
Compliance Profile and the specifications referenced here must
define safe extensibility mechanisms that enable innovation
without breaking interoperability.
o Easy to implement: The Endpoint Compliance Profile should be easy
for vendors to implement in their products, and should result in
products that are easy for administrators to implement on their
networks. Products conformant to the Endpoint Compliance Profile
should interoperate seamlessly, and be simple to integrate into
existing network infrastructure.
o Easy to use: The Endpoint Compliance Profile should describe a
simple, integrated user interface that administrators can use to
perform the activities listed in the profile's use cases. The
Endpoint Compliance Profile should not constrain innovation by
specifying details of the user interface but rather functional
requirements.
o Platform-independent: Since network environments may contain many
different types of endpoints, the solution should operate
independently of the endpoint platform.
o Scalable: The Endpoint Compliance Profile must be designed to
scale to very large numbers of endpoints.
12. Future Work
This section captures ideas for future work related to ECP that might
be of interest to the IETF SACM WG. These ideas are listed in no
particular order.
o Integratate the IETF NETMOD Yang Push architecture.
o Add support endpoint types beyond workstations, servers, and
network infrastructure devices.
o Examine the integration of [I-D.ietf-mile-xmpp-grid].
o Define a standard interface and API for interacting with the
repository. Requirements to consider include: creating a secure
channel between a publisher and the repository, creating a secure
channel between a subscriber and the repository, and the types of
interactions that must be supported between publishers and
subscribers to a repository.
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o Define a standard interface for communications between the posture
broker client and posture transport client(s) as well as the
posture broker server and posture transport server(s).
o Retention of posture information on the target endpoint.
o Define an orchestrator component as well as publish/subscribe
interface for it.
o Define an evaluator component as well as an interface for it.
13. Acknowledgements
The authors wish to thank all of those in the TCG TNC work group who
contributed to development of the TNC ECP specification upon which
this document is based.
+-----------------------+-------------------------------------------+
| Member | Organization |
+-----------------------+-------------------------------------------+
| Padma Krishnaswamy | Battelle Memorial Institute |
| | |
| Eric Fleischman | Boeing |
| | |
| Richard Hill | Boeing |
| | |
| Steven Venema | Boeing |
| | |
| Nancy Cam-Winget | Cisco Systems |
| | |
| Scott Pope | Cisco Systems |
| | |
| Max Pritikin | Cisco Systems |
| | |
| Allan Thompson | Cisco Systems |
| | |
| Nicolai Kuntze | Fraunhofer Institute for Secure |
| | Information Technology (SIT) |
| | |
| Ira McDonald | High North |
| | |
| Dr. Andreas Steffen | HSR University of Applied Sciences |
| | Rapperswil |
| | |
| Josef von Helden | Hochschule Hannover |
| | |
| James Tan | Infoblox |
| | |
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| Steve Hanna (TNC-WG | Juniper Networks |
| Co-Chair) | |
| | |
| Cliff Kahn | Juniper Networks |
| | |
| Lisa Lorenzin | Juniper Networks |
| | |
| Atul Shah (TNC-WG Co- | Microsoft |
| Chair) | |
| | |
| Jon Baker | MITRE |
| | |
| Charles Schmidt | MITRE |
| | |
| Rainer Enders | NCP Engineering |
| | |
| Dick Wilkins | Phoenix Technologies |
| | |
| David Waltermire | NIST |
| | |
| Mike Boyle | U.S. Government |
| | |
| Emily Doll | U.S. Government |
| | |
| Jessica Fitzgerald- | U.S. Government |
| McKay | |
| | |
| Mary Lessels | U.S. Government |
| | |
| Chris Salter | U.S. Government |
+-----------------------+-------------------------------------------+
Table 1: Members of the TNC Work Group that Contributed to the
Document
14. IANA Considerations
This document does not define any new IANA registries. However, this
document does reference other documents that do define IANA
registries. As a result, the IANA Considerations section of the
referenced documents should be consulted.
15. Security Considerations
The Endpoint Compliance Profile offers substantial improvements in
endpoint security, as evidenced by the Australian Defense Signals
Directorate's analysis that 85% of targeted cyber intrusions can be
prevented through application whitelisting, patching applications and
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operating systems, and using the latest versions of applications.
[DSD] Despite these gains, some security risks continue to exist and
must be considered.
To ensure that these benefits and risks are properly understood, this
Security Considerations section includes an analysis of the benefits
provided by the Endpoint Compliance Profile (Section 15.1), the
attacks that may be mounted against systems that implement the
Endpoint Compliance Profile (Section 15.2), and the countermeasures
that may be used to prevent or mitigate these attacks (Section 15.3).
Overall, a substantial reduction in cyber risk can be achieved.
15.1. Security Benefits of Endpoint Compliance Profile
Security weaknesses of the components for this profile should be
considered in light of the practical considerations that must be
addressed to have a viable solution.
Posture assessment has two parts: assessment and follow-up actions.
The point of posture assessment is to ensure that authorized users
are using authorized software configured to be as resilient as
possible against an attack.
Posture assessment answers the question whether the endpoint is
healthy. Our goal for posture assessment is to make it harder for an
adversary to execute code on one of our endpoints. This profile
represents an important first step in reaching that goal. If we keep
our endpoints healthier, we are able to prevent more attacks on our
endpoints and thus on our information systems.
The goal of ECP is to address posture assessment in stages. Stage 1
is the ability to ascertain whether all endpoints are authorized and
whether all applications are authorized and up to date. Stage 2 will
attempt to address the harder problem of whether all software is
configured safely. Eventually, the goal is to also address
remediation which is currently out-of-scope for the SACM WG; that
presents a far greater security challenge than reporting, since
remediation implies the ability of a remote party to modify software
or its settings on endpoints.
A second security consideration is how to gain visibility over every
type of endpoint and every piece of software installed on the
endpoint. This is a problem of scaling and observation. A solution
is needed that can report from every type of endpoint. All software
on the endpoint has to be discovered. Information about the software
has to be up to date and accurate. The information that is
discovered has to be reported in a consistent format, so
administrators do not have to squander time deciphering proprietary
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systems and the information can be made readily useful for other
security automation purposes.
ECP is based on a model of a standards-based schema, a standards-
based set of protocols and interfaces, and the existence of an
oversight group, the IETF, that can update the data models and
protocols to meet new use cases and security issues that may be
discovered.
The data elements in the schema determine what work can be done
consistently for every endpoint and every piece of software. How the
data gets populated is an important consideration. ECP leverages the
SWID tags from ISO 19770-2 because the tag originates with a single
authoritative source, the application vendor itself. Moreover, there
is a natural incentive for the vendor to create this content, since
it makes it easier for enterprises and vendors to track whether
software is licensed. Practical considerations are security
considerations. A sustainable business model for obtaining all the
necessary content is a fundamental requirement.
The NEA model is based on having a NEA client run on an endpoint that
publishes posture information to a server. The advantages are easy
to list. A platform vendor can implement its own NEA client and have
it be compatible with the NEA server from a different vendor. The
interfaces are layered on top of mature protocols such as TLS. TLS
is the protocol of choice for ECP, since:
o it has proven secure properties,
o it can be implemented on most types of endpoints,
o it allows the gathering of large amounts of information when a
endpoint is connected, and
o it enables use of a mechanism to ensure that the client is
authenticated (authorized) - a client certificate - which also
provides a consistent identifier.
Mature protocols that can be implemented on most types of endpoints
and a standards-based schema with a sustainable business model are
both critical security considerations for compliance.
Additionally, it is important to consider the future stages for ECP
such as a posture assessment being followed up by some action (e.g.
remediation, alert, etc.). Ensuring that clients are taking
instructions only from authorized parties will be critical. Inasmuch
as it is practical, enterprises will want to use the same
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infrastructure and investment in PKI to send those instructions to a
client.
Likewise, as more information with more value is gathered from
endpoints, we will also want to ensure that this information is only
released to authorized applications and parties. For the next stage
of ECP, SACM may want to define an interface on the repository that
can be queried by other security automation applications to make it
easier to detect attacks and for other security automation
applications. This interface has to be standards-based for
enterprises to reap the benefits of innovation that can be achieved
by making the enterprise's data available to other tools and
services.
15.2. Threat Model
This section lists the attacks that can be mounted on an Endpoint
Compliance Profile environment. The following section (Section 15.3)
describes countermeasures.
Because the Endpoint Compliance Profile describes a specific use case
for NEA components, many security considerations for these components
are addressed in more detail in the technical specifications:
[I-D.ietf-sacm-nea-swima-patnc], [IF-IMC], [RFC5793],
[Server-Discovery], [RFC6876], [IF-IMV].
15.2.1. Endpoint Attacks
While the Endpoint Compliance Profile provides substantial
improvements in endpoint security as described in Section 15.1, a
certain percentage of endpoints will always get compromised. For
this reason, all parties must regard data coming from endpoints as
potentially unreliable or even malicious. An analogy can be drawn
with human testimony in an investigation or trial. Human testimony
is essential but must be regarded with suspicion.
o Compromise of endpoint: A compromised endpoint may report false
information to confuse or even provide maliciously crafted
information with a goal of infecting others.
o Putting bad information in SWID directory: Even if an endpoint is
not completely compromised, some of the software running on it may
be unreliable or even malicious. This software, potentially
including the SWID generation or discovery tool, or malicious
software pretending to be a SWID generation or discovery tool, can
place incorrect or maliciously crafted information into the SWID
directory. Endpoint users may even place such information in the
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directory, whether motivated by curiosity or confusion or a desire
to bypass restrictions on their use of the endpoint.
o Identity spoofing (impersonation): A compromised endpoint may
attempt to impersonate another endpoint to gain its privileges or
to besmirch the reputation of that other endpoint.
15.2.2. Network Attacks
A variety of attacks can be mounted using the network. Generally,
the network cannot be trusted.
o Eavesdropping, modification, injection, replay, deletion
o Traffic analysis
o Denial of service and blocking traffic
15.2.3. Posture Manager Attacks
The posture manager is a critical security element and therefore
merits considerable scrutiny.
o Compromised trusted manager: A compromised posture manager or a
malicious party that is able to impersonate a posture manager can
incorrectly grant or deny access to endpoints, place incorrect
information into the repository, or send malicious messages to
endpoints.
o Misconfiguration of posture manager: Accidental or purposeful
misconfiguration of a trusted posture manager can cause effects
that are similar to those listed for compromised trusted posture
manager.
o Malicious untrusted posture manager: An untrusted posture manager
cannot mount any significant attacks because all properly
implemented endpoints will refuse to engage in any meaningful
dialog with such a posture manager.
15.2.4. Repository Attacks
The repository is also an important security element and therefore
merits careful scrutiny.
o Putting bad information into trusted repository: An authorized
repository client such as a server may be able to put incorrect
information into a trusted repository or delete or modify
historical information, causing incorrect decisions about endpoint
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security. Placing maliciously crafted data in the repository
could even lead to compromise of repository clients, if they fail
to carefully check such data.
o Compromised trusted repository: A compromised trusted repository
or a malicious untrusted repository that is able to impersonate a
trusted repository can lead to effects similar to those listed for
"Putting bad information into trusted repository". Further, a
compromised trusted repository can report different results to
different repository clients or deny access to the repository for
selected repository clients.
o Misconfiguration of trusted repository: Accidental or purposeful
misconfiguration of a trusted repository can deny access to the
repository or result in loss of historical data.
o Malicious untrusted repository: An untrusted repository cannot
mount any significant attacks because all properly implemented
repository clients will refuse to engage in any meaningful dialog
with such a repository.
15.3. Countermeasures
This section lists the countermeasures that can be used in an
Endpoint Compliance Profile environment.
15.3.1. Countermeasures for Endpoint Attacks
This profile is in and of itself a countermeasure for a compromised
endpoint. A primary defense for an endpoint is to run up to date
software configured to be run as safely as possible.
Ensuring that anti-virus signatures are up to date and that a
firewall is configured are also protections for an endpoint that are
supported by the current NEA specifications.
Endpoints that have hardware cryptographic modules that are
provisioned by the enterprise, in accordance with [IEEE-802-1ar], can
protect the private keys used for authentication and help prevent
adversaries from stealing credentials that can be used for
impersonation. Future versions of the Endpoint Compliance Profile
may want to discuss in greater detail how to use a hardware
cryptographic module, in accordance with [IEEE-802-1ar], to protect
credentials and to protect the integrity of the code that executes
during the bootstrap process.
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15.3.2. Countermeasures for Network Attacks
To address network attacks, [RFC6876] includes required encryption,
authentication, integrity protection, and replay protection.
[Server-Discovery] also includes authorization checks to ensure that
only authorized servers are trusted by endpoints. Any unspecified or
not yet specified network protocols employed in the Endpoint
Compliance Profile (e.g. the protocol used to interface with the
repository) should include similar protections.
These protections reduce the scope of the network threat to traffic
analysis and denial of service. Countermeasures for traffic analysis
(e.g. masking) are usually impractical but may be employed.
Countermeasures for denial of service (e.g. detecting and blocking
particular sources) SHOULD be used when appropriate to detect and
block denial of service attacks. These are routine practices in
network security.
15.3.3. Countermeasures for Posture Manager Attacks
Because of the serious consequences of posture manager compromise,
posture managers SHOULD be especially well hardened against attack
and minimized to reduce their attack surface. They SHOULD be
monitored using the NEA protocols to ensure the integrity of the
behavior and analysis data stored on the posture manager and SHOULD
utilize a [IEEE-802-1ar]compliant hardware cryptographic module for
identity and/or integrity measurements of the posture manager. They
should be well managed to minimize vulnerabilities in the underlying
platform and in systems upon which the posture manager depends.
Network security measures such as firewalls or intrusion detection
systems may be used to monitor and limit traffic to and from the
posture manager. Personnel with administrative access to the posture
manager should be carefully screened and monitored to detect problems
as soon as possible. Posture manager administrators should not use
password-based authentication but should instead use non-reusable
credentials and multi-factor authentication (where available).
Physical security measures should be employed to prevent physical
attacks on posture managers.
To ease detection of posture manager compromise should it occur,
posture manager behavior should be monitored to detect unusual
behavior (such as a server reboot, unusual traffic patterns, or other
odd behavior). Endpoints should log and/or notify users and/or
administrators when peculiar posture manager behavior is detected.
To aid forensic investigation, permanent read-only audit logs of
security-relevant information pertaining to posture manager
(especially administrative actions) should be maintained. If posture
manager compromise is detected, the posture manager's certificate
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should be revoked and careful analysis should be performed of the
source and impact of this compromise. Any reusable credentials that
may have been compromised should be reissued.
Endpoints can reduce the threat of server compromise by minimizing
the number of trusted posture managers, using the mechanisms
described in [Server-Discovery].
15.3.4. Countermeasures for Repository Attacks
If the host for the repository is located on its own endpoint, it
should be protected with the same measures taken to protect the
posture manager. In this circumstance, all messages between the
posture manager and repository should be protected with a mature
security protocol such as TLS or IPsec.
The repository can aid in the detection of compromised endpoints if
an adversary cannot tamper with its contents. For instance, if an
endpoint reports that it does not have an application with a known
vulnerability installed, an administrator can check whether the
endpoint might be lying by querying the repository for the history of
what applications were installed on the endpoint.
To help prevent tampering with the information in the repository:
1. Only authorized parties should have privilege to run code on the
endpoint and to change the repository.
2. If a separate endpoint hosts the repository, then the
functionality of that endpoint should be limited to hosting the
repository. The firewall on the repository should only allow
access to the posture manager and to any endpoint authorized for
administration.
3. The repository should ideally use "write once" media to archive
the history of what was placed in the repository, to include a
snapshot of the current status of applications on endpoints.
16. Privacy-Considerations
The Endpoint Compliance Profile specifically addresses the collection
of posture data from enterprise endpoints by an enterprise network.
As such, privacy is not going to often arise as a concern for those
deploying this solution.
A possible exception may be the concerns a user may have when
attempting to connect a personal endpoint (such as a phone or mobile
endpoint) to an enterprise network. The user may not want to share
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certain details, such as an endpoint identifier or SWID tags, with
the enterprise. The user can configure their NEA client to reject
requests for this information; however, it is possible that the
enterprise policy will not allow the user's endpoint to connect to
the network without providing the requested data.
17. Change Log
17.1. -00 to -01
There are no textual changes associated with this revision. This
revision simply reflects a resubmission of the document so that it
remains in active status.
17.2. -01 to -02
Added references to the Software Inventory Message and Attributes
(SWIMA) for PA-TNC I-D.
Replaced references to PC-TNC with IF-IMC.
Removed erroneous hyphens from a couple of section titles.
Made a few minor editorial changes.
17.3. -02 to -00
Draft adopted by IETF SACM WG.
17.4. -00 to -01
Significant edits to up-level the draft to describe SACM collection
over multiple different protocols.
Replaced references to SANS with CIS.
Made other minor editorial changes.
18. References
18.1. Informative References
[CIS] http://www.cisecurity.org/controls/, "CIS Critical
Security Controls".
[DSD] http://www.dsd.gov.au/publications/csocprotect/
top_4_mitigations.htm, "Top 4 Mitigation Strategies to
Protect Your ICT System", November 2012.
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[IEEE-802-1ar]
Institute of Electrical and Electronics Engineers, "IEEE
802.1ar", December 2009.
[RFC5209] Sangster, P., Khosravi, H., Mani, M., Narayan, K., and J.
Tardo, "Network Endpoint Assessment (NEA): Overview and
Requirements", RFC 5209, DOI 10.17487/RFC5209, June 2008,
<https://www.rfc-editor.org/info/rfc5209>.
[TNC] Trusted Computing Group, "TCG Trusted Network Connect TNC
Architecture for Interoperability, Version 1.5", February
2012.
18.2. Normative References
[I-D.ietf-mile-xmpp-grid]
Cam-Winget, N., Appala, S., Pope, S., and P. Saint-Andre,
"Using XMPP for Security Information Exchange", draft-
ietf-mile-xmpp-grid-04 (work in progress), October 2017.
[I-D.ietf-netconf-yang-push]
Clemm, A., Voit, E., Prieto, A., Tripathy, A., Nilsen-
Nygaard, E., Bierman, A., and B. Lengyel, "YANG Datastore
Subscription", draft-ietf-netconf-yang-push-12 (work in
progress), December 2017.
[I-D.ietf-sacm-nea-swima-patnc]
Schmidt, C., Haynes, D., Coffin, C., Waltermire, D., and
J. Fitzgerald-McKay, "Software Inventory Message and
Attributes (SWIMA) for PA-TNC", draft-ietf-sacm-nea-swima-
patnc-01 (work in progress), September 2017.
[I-D.ietf-sacm-terminology]
Waltermire, D., Montville, A., Harrington, D., and N. Cam-
Winget, "Terminology for Security Assessment", draft-ietf-
sacm-terminology-05 (work in progress), August 2014.
[IF-IMC] Trusted Computing Group, "TCG Trusted Network Connect TNC
IF-IMC, Version 1.3", February 2013.
[IF-IMV] Trusted Computing Group, "TCG Trusted Network Connect TNC
IF-IMV, Version 1.4", December 2014.
[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>.
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[RFC5792] Sangster, P. and K. Narayan, "PA-TNC: A Posture Attribute
(PA) Protocol Compatible with Trusted Network Connect
(TNC)", RFC 5792, DOI 10.17487/RFC5792, March 2010,
<https://www.rfc-editor.org/info/rfc5792>.
[RFC5793] Sahita, R., Hanna, S., Hurst, R., and K. Narayan, "PB-TNC:
A Posture Broker (PB) Protocol Compatible with Trusted
Network Connect (TNC)", RFC 5793, DOI 10.17487/RFC5793,
March 2010, <https://www.rfc-editor.org/info/rfc5793>.
[RFC6876] Sangster, P., Cam-Winget, N., and J. Salowey, "A Posture
Transport Protocol over TLS (PT-TLS)", RFC 6876,
DOI 10.17487/RFC6876, February 2013,
<https://www.rfc-editor.org/info/rfc6876>.
[RFC7632] Waltermire, D. and D. Harrington, "Endpoint Security
Posture Assessment: Enterprise Use Cases", RFC 7632,
DOI 10.17487/RFC7632, September 2015,
<https://www.rfc-editor.org/info/rfc7632>.
[Server-Discovery]
Trusted Computing Group, "DRAFT: TCG Trusted Network
Connect PDP Discovery and Validation, Version 1.0",
October 2015.
[SWID] "Information technology--Software asset management--Part
2: Software identification tag", ISO/IEC 9899:1999, 2009.
Authors' Addresses
Danny Haynes
The MITRE Corporation
202 Burlington Road
Bedford, MA 01730
USA
Email: dhaynes@mitre.org
Jessica Fitzgerald-McKay
Department of Defense
9800 Savage Road
Ft. Meade, Maryland
USA
Email: jmfitz2@nsa.gov
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Lisa Lorenzin
Pulse Secure
2700 Zanker Rd., Suite 200
San Jose, CA 95134
US
Email: llorenzin@pulsesecure.net
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