Nessus Agent 8.0.0 Security Target, Version 1.0 04 December 2020
Nessus Agent 8.0.0
Security Target
Version 1.0
04 December 2020
Prepared for:
Tenable, Inc.
7021 Columbia Gateway Dr.
Columbia, MD 21046
Prepared by:
Accredited Testing and Evaluation Labs
6841 Benjamin Franklin Drive
Columbia, MD 21046
Nessus Agent 8.0.0 Security Target, Version 1.0 04 December 2020
Contents
1 Security Target Introduction.................................................................................................................1
1.1 Security Target, TOE and CC Identification.....................................................................................1
1.2 Conformance Claims.......................................................................................................................1
1.3 Conventions....................................................................................................................................4
1.3.1 Terminology ............................................................................................................................4
1.3.2 Acronyms.................................................................................................................................5
2 Product and TOE Description................................................................................................................7
2.1 Introduction....................................................................................................................................7
2.2 Product Overview...........................................................................................................................7
2.3 TOE Overview .................................................................................................................................7
2.4 TOE Architecture ............................................................................................................................8
2.4.1 Physical Boundary ...................................................................................................................8
2.4.2 Logical Boundary...................................................................................................................10
2.4.2.1 Timely Security Updates ................................................................................................10
2.4.2.2 Cryptographic Support...................................................................................................10
2.4.2.3 User Data Protection......................................................................................................10
2.4.2.4 Identification and Authentication..................................................................................11
2.4.2.5 Security Management....................................................................................................11
2.4.2.6 Privacy............................................................................................................................11
2.4.2.7 Protection of the TSF .....................................................................................................11
2.4.2.8 Trusted Path/Channels ..................................................................................................11
2.5 TOE Documentation .....................................................................................................................11
3 Security Problem Definition................................................................................................................13
4 Security Objectives .............................................................................................................................14
5 IT Security Requirements....................................................................................................................15
5.1 Extended Requirements...............................................................................................................15
5.2 TOE Security Functional Requirements........................................................................................16
5.2.1 Cryptographic Support (FCS).................................................................................................17
5.2.1.1 FCS_CKM.1(1) Cryptographic Asymmetric Key Generation...........................................17
5.2.1.2 FCS_CKM.2 Cryptographic Key Establishment...............................................................17
5.2.1.3 FCS_CKM_EXT.1 Cryptographic Key Generation Services .............................................17
5.2.1.4 FCS_COP.1(1) Cryptographic Operation – Encryption/Decryption................................17
5.2.1.5 FCS_COP.1(2) Cryptographic Operation – Hashing........................................................18
5.2.1.6 FCS_COP.1(3) Cryptographic Operation – Signing.........................................................18
5.2.1.7 FCS_COP.1(4) Cryptographic Operation – Keyed-Hash Message Authentication.........18
5.2.1.8 FCS_HTTPS_EXT.1/Client HTTPS Protocol......................................................................18
5.2.1.9 FCS_RBG_EXT.1 Random Bit Generation Services.........................................................19
5.2.1.10 FCS_RBG_EXT.2 Random Bit Generation from Application...........................................19
5.2.1.11 FCS_STO_EXT.1 Storage of Credentials.........................................................................19
5.2.1.12 FCS_TLS_EXT.1 TLS Protocol (TLS Package)...................................................................19
5.2.1.13 FCS_TLSC_EXT.1 TLS Client Protocol (TLS Package) ......................................................19
5.2.1.14 FCS_TLSC_EXT.5 TLS Client Support for Supported Groups Extension (TLS Package)...20
5.2.2 User Data Protection (FDP)...................................................................................................20
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5.2.2.1 FDP_DAR_EXT.1 Encryption of Sensitive Application Data............................................20
5.2.2.2 FDP_DEC_EXT.1 Access to Platform Resources .............................................................20
5.2.2.3 FDP_NET_EXT.1 Network Communications...................................................................21
5.2.3 Identification and Authentication (FIA).................................................................................21
5.2.3.1 FIA_X509_EXT.1 X.509 Certificate Validation................................................................21
5.2.3.2 FIA_X509_EXT.2 X.509 Certificate Authentication ........................................................22
5.2.4 Security Management (FMT).................................................................................................22
5.2.4.1 FMT_CFG_EXT.1 Secure by Default Configuration ........................................................22
5.2.4.2 FMT_MEC_EXT.1 Supported Configuration Mechanism ...............................................22
5.2.4.3 FMT_SMF.1 Specification of Management Functions...................................................22
5.2.5 Privacy (FPR)..........................................................................................................................22
5.2.5.1 FPR_ANO_EXT.1 User Consent for Transmission of Personally Identifiable Information
22
5.2.6 Protection of the TSF (FPT)....................................................................................................23
5.2.6.1 FPT_AEX_EXT.1 Anti-Exploitation Capabilities...............................................................23
5.2.6.2 FPT_API_EXT.1 Use of Supported Services and APIs ....................................................23
5.2.6.3 FPT_IDV_EXT.1 Software Identification and Versions ..................................................23
5.2.6.4 FPT_LIB_EXT.1 Use of Third Party Libraries ...................................................................23
5.2.6.5 FPT_TUD_EXT.1 Integrity for Installation and Update...................................................23
5.2.6.6 FPT_TUD_EXT.2 Integrity for Installation and Update...................................................24
5.2.7 Trusted Path/Channels (FTP).................................................................................................24
5.2.7.1 FTP_DIT_EXT.1 Protection of Data in Transit.................................................................24
5.3 TOE Security Assurance Requirements ........................................................................................24
6 TOE Summary Specification................................................................................................................25
6.1 Timely Security Updates...............................................................................................................25
6.2 Cryptographic Support .................................................................................................................25
6.3 User Data Protection....................................................................................................................28
6.4 Identification and Authentication ................................................................................................29
6.5 Security Management ..................................................................................................................29
6.6 Privacy ..........................................................................................................................................30
6.7 Protection of the TSF....................................................................................................................30
6.8 Trusted Path/Channels.................................................................................................................31
7 Protection Profile Claims ....................................................................................................................33
8 Rationale.............................................................................................................................................34
8.1 TOE Summary Specification Rationale .........................................................................................34
Appendix A TOE Usage of Third-Party Components.............................................................................36
A.1 Platform APIs................................................................................................................................36
A.2 Third-Party Libraries.....................................................................................................................37
Tables
Table 1: Terms and Definitions .....................................................................................................................4
Table 2: Acronyms.........................................................................................................................................5
Table 3: TOE Security Functional Components...........................................................................................16
Table 4: Assurance Components.................................................................................................................24
Table 5: Cryptographic Functions ...............................................................................................................25
Table 6: TOE Network Usage ......................................................................................................................28
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Table 7: Security Functions vs. Requirements Mapping.............................................................................34
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1 Security Target Introduction
The Security Target (ST) contains the following additional sections:
 Product and TOE Description (Section 2)
 Security Problem Definition (Section 3)
 Security Objectives (Section 4)
 IT Security Requirements (Section 5)

 The TLS Package does contain evaluation activities for how to evaluate its SFR claims as part of
the evaluation of ASE_TSS.1, AGD_OPE.1, AGD_PRE.1, and ATE_IND.1. All Security Functional
Requirements specified by the TLS Package will be evaluated in the manner specified in that
package.
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 TOE Summary Specification (Section 0)

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 Protection Profile Claims (Section 0)
 This ST is conformant to the Protection Profile for Application Software, Version 1.3, 1 March
2019 (App PP) and Functional Package for Transport Layer Security (TLS), Version 1.1, February
12, 2019 (TLS Package) along with all applicable errata and interpretations from the certificate
issuing scheme.
The TOE consists of a software application that runs on a Linux operating system as its platform.
As explained in section 3, Security Problem Definition, the Security Problem Definition of the App PP has
been included by reference into this ST.
As explained in section 4, Security Objectives, the Security Objectives of the App PP has been included by
reference into this ST.
All claimed SFRs are defined in the App PP and TLS Package. All mandatory SFRs are claimed. No optional
or objective SFRs are claimed. Selection-based SFR claims are consistent with the selections made in the
mandatory SFRs that prompt their inclusion.
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 Rationale (Section 0)
 TOE Usage of Third-Party Components (Appendix A)
1.1 Security Target, TOE and CC Identification
ST Title –Nessus Agent 8.0.0 Security Target
ST Version – Version 1.0
ST Date – 04 December 2020
TOE Identification –Nessus Agent 8.0.0, supported on RHEL 7 and Windows Server 2016
TOE Developer – Tenable, Inc.
Evaluation Sponsor – Tenable, Inc.
CC Identification – Common Criteria for Information Technology Security Evaluation, Version 3.1, Revision
5, April 2017
1.2 Conformance Claims
This ST and the TOE it describes are conformant to the following CC specifications:
 Protection Profile for Application Software, Version 1.3, 01 March 2019 (App PP) with the following
optional and selection-based SFRs:
o FCS_CKM.1(1)
o FCS_CKM.2
o FCS_COP.1(1)
o FCS_COP.1(2)
o FCS_COP.1(3)
o FCS_COP.1(4)
o FCS_HTTPS_EXT.1/Client (as specified in NIAP TD0473)
o FCS_RBG_EXT.2
o FIA_X509_EXT.1
o FIA_X509_EXT.2
 Functional Package for Transport Layer Security (TLS), Version 1.1, February 12, 2019 (TLS
Package) with the following optional and selection-based SFRs:
o FCS_TLSC_EXT.1
o FCS_TLSC_EXT.5
 The following NIAP Technical Decisions apply to the TOE and have been accounted for in the ST
development and the conduct of the evaluation, or were considered to be non-applicable:
TD0416: Correction to FCS_RBG_EXT.1 Test Activity
o No change to ST; affects only test evaluation activities.
TD0427: Reliable Time Source
o No change to ST; the ST includes the PP’s assumptions by reference and therefore any changes
to the assumptions are implicitly made.
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TD0434: Windows Desktop Applications Test
o No change to ST; affects only evaluation activities.
TD0435: Alternative to SELinux for FPT_AEX_EXT.1.3
o No change to ST; affects only evaluation activities.
TD0437: Supported Configuration Mechanism
o Changes text selection for FMT_MEC_EXT.1.1. This change has been applied to this ST.
TD0442: Updated TLS Ciphersuites for TLS Package
o No change to ST; affects selections in FCS_TLSC_EXT.1 that are not applicable to the TOE.
TD0444: IPsec Selections
o No change to ST; affects selections in FTP_DIT_EXT.1.1 that are not applicable to the TOE.
TD0445: User Modifiable File Definition
o No change to ST; affects the evaluation of FPT_AEX_EXT.1 for the Windows platform version
of the TOE.
TD0465: Configuration Storage for .NET Apps
o No change to ST; the TD modifies evaluation activities only.
TD0469: Modification of test activity for FCS_TLSS_EXT.1.1 test 4.1
o N/A; the TOE does not claim TLS server functionality.
TD0473: Support for Client or Server TOEs in FCS_HTTPS_EXT
o Changes FCS_HTTPS_EXT.1. This change has been applied to the ST.
TD0486: Removal of PP-Module for VPN Clients from allowed-with list
o N/A; the TOE does not have VPN Client functionality so no attempt was made to claim the
VPN Client PP-Module. This TD modifies selections in FDP_DAR_EXT.1.1, but the ST does not
choose any of the modified selections so there is no change to the SFR.
TD0498: Application Software PP Security Objectives and Requirements Rationale
o No change to ST; the TD modified portions of the App PP that were not reproduced in the ST.
TD0499: Testing with pinned certificates
o No change to ST; affects only evaluation activities. Additionally, the TOE does not support
pinned certificates.
TD0510: Obtaining random bytes for iOS/macOS
o N/A; the TOE does not use iOS or macOS as its platform.
TD0513: CA Certificate loading
o No change to ST; affects only evaluation activities.
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TD0515: Use Android APK manifest in test
o N/A; the TOE does not include an Android platform version.
TD0519: Linux symbolic links and FMT_CFG_EXT.1
o No change to ST; affects only evaluation activities.
TD0521: Updates to Certificate Revocation (FIA_X509_EXT.1)
o Changes FIA_X509_EXT.1.1. This change has been applied to the ST. Note that the TD also
added selections to FIA_X509_EXT.1.1. However, none of these added selections were
applicable to the TOE and were therefore not selected.
TD0540: Expanded AES Modes in FCS_COP
o No change to ST; affects selections in FCS_COP.1(1) that are not applicable to the TOE.
TD0543: FMT_MEC_EXT.1 evaluation activity update
o No change to ST; affects only evaluation activities.
TD0544: Alternative testing methods for FPT_AEX_EXT.1.1
o No change to ST; affects only evaluation activities.
TD0548: Integrity for installation tests in AppSW PP 1.3
o No change to ST; affects only evaluation activities.
TD0554: iOS/iPadOS/Android AppSW Virus Scan
o No change to ST; affects only evaluation activities.
 Common Criteria for Information Technology Security Evaluation Part 2: Security functional
components, Version 3.1, Revision 5, April 2017.
o Part 2 Extended
 Common Criteria for Information Technology Security Evaluation Part 3: Security assurance
components, Version 3.1 Revision 5, April 2017.
o Part 3 Extended
1.3 Conventions
The following conventions have been applied in this document:
 Security Functional Requirements – Part 2 of the CC defines the approved set of operations that may
be applied to functional requirements: iteration, assignment, selection, and refinement.
o Iteration: allows a component to be used more than once with varying operations. An iterated
SFR is indicated by a number in parentheses placed at the end of the component. For example,
FCS_COP.1(1) through FCS_COP.1(4) indicate that the ST includes four iterations of the
FCS_COP.1 requirement: (1), (2), (3), and (4).
o Assignment: allows the specification of an identified parameter. Assignments are indicated
using italics and are surrounded by brackets (e.g., [assignment item]). Note that an
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assignment within a selection would be identified in both italics and underline, with the
brackets themselves underlined since they are explicitly part of the selection text, unlike the
brackets around the selection itself (e.g., [selection item, [assignment item inside selection]]).
o Selection: allows the specification of one or more elements from a list. Selections are
indicated using underlines and are surrounded by brackets (e.g., [selection item]).
o Refinement: allows technical changes to a requirement to make it more restrictive and allows
non-technical changes to grammar and formatting. Refinements are indicated using bold, for
additions, and strike-through, for deletions (e.g., “… all objects …” or “… some big things …”).
Note that minor grammatical changes that do not involve the addition or removal of entire
words (e.g., for consistency of quantity such as changing “meets” to “meet”) do not have
formatting applied.
 Other sections of the ST – Other sections of the ST use bolding to highlight text of special interest,
such as captions.
 The ST does not show operations that have been completed by the PP authors, though it does
preserve brackets to show where such operations have been made.
1.3.1 Terminology
The following terms and abbreviations are used in this ST:
Table 1: Terms and Definitions
Term Definition
Log Correlation Engine An environmental component that is responsible for collecting log data from
a variety of sources and aggregating it into a single collection of results.
Nessus Agent The TOE; an application that is installed on an endpoint system to collect
details about that system’s configuration and behavior.
Nessus Network Monitor An environmental component that collects and analyzes raw network
traffic.
Nessus/Nessus Manager An environmental component that conducts remote scans of systems to
collect data about their configuration and behavior and is used to deploy
and collect data from the TOE.
Platform A general-purpose computer on which the TOE is installed.
Scan The process by which the TOE actively collects data from a target system.
Tenable.sc (SecurityCenter) An environmental component that functions as a centralized aggregator for
data collected by the TOE and by other environmental components.
1.3.2 Acronyms
Table 2: Acronyms
Term Definition
AES Advanced Encryption Standard
ASLR Address Space Layout Randomization
CA Certificate Authority
CAVP Cryptographic Algorithm Validation Program
CBC Cipher Block Chaining
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CC Common Criteria for Information Technology Security Evaluation
CCECG Common Criteria Evaluated Configuration Guidance
CEM Common Evaluation Methodology for Information Technology Security
CN Common Name
CTR Counter (cryptographic mode)
CVE Common Vulnerabilities and Exposures
DRBG Deterministic Random Bit Generator
EAR Entropy Analysis Report
ECC Elliptic Curve Cryptography
ECDHE Elliptic Curve Diffie-Hellman (Ephemeral)
ECDSA Elliptic Curve Digital Signature Algorithm
FIPS Federal Information Processing Standard
FQDN Fully Qualified Domain Name
GB Gigabyte
GCM Galois/Counter Mode
HMAC Hashed Message Authentication Code
IOPS Input/Output Operations Per Second
LCE Log Correlation Engine
NIAP National Information Assurance Partnership
NIST National Institute of Standards and Technology
NNM Nessus Network Monitor
OCSP Online Certificate Status Protocol
OE Operational Environment
OID Original Issue Document
OS Operating System
PII Personally Identifiable Information
PKI Public Key Infrastructure
PP Protection Profile
RAM Random Access Memory
RSA Rivest, Shamir and Adleman (algorithm for public-key cryptography)
SAN Subject Alternative Name
SAR Security Assurance Requirement
SFR Security Functional Requirement
SHA Secure Hash Algorithm
SSL Secure Sockets Layer
ST Security Target
TCP Transmission Control Protocol
TLS Transport Layer Security
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TOE Target of Evaluation
TSF TOE Security Function
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2 Product and TOE Description
2.1 Introduction
Nessus Agent 8.0.0 (Nessus Agent) is a software product that is designed to be installed on an endpoint
system to facilitate local scanning of that system. Local scanning allows Nessus Agent to collect detailed
information about the system’s hardware, software, and configuration, which can be used to determine
compliance with organizational security policies and whether potential exploitable vulnerabilities are
present on that system.
Nessus Agent is deployed and configured by an environmental instance of Nessus Manager, which also
collects scan results from Nessus Agent for aggregation and analysis. Nessus Manager in turn will transmit
this data to an environmental instance of Tenable.sc (SecurityCenter), where it can be combined with
network traffic and system log data to provide a comprehensive window into the security posture of an
organization.
The TOE conforms to the App PP and TLS Package. As such, the security-relevant functionality of the
product is limited to the claimed requirements in those standards. The security-relevant functionality is
described in sections 2.3 and 2.4. The product overview in section 2.2 below is intended to provide the
reader with an overall summary of the entire product so that its intended usage is clear. The subset of the
product functionality that is within the evaluation scope is subsequently described in the sections that
follow it.
2.2 Product Overview
Nessus Agent is a vulnerability management product that is designed to provide visibility into system
assets. The product is used to collect data from endpoint systems in an organization (e.g. Windows and
Linux workstations). Nessus Agent complements the functionality of Nessus Manager, which can perform
remote scanning of these systems, by collecting more detailed data that local access is required to obtain.
Nessus Manager is responsible for the distribution and configuration of the various instances of Nessus
Agent that may be present in an organization’s environment. Nessus Agent will transmit its completed
scan results to the environmental instance of Nessus Manager that configured it. This data can be used
by Nessus Manager and by Tenable.sc to analyze the potential vulnerabilities of specific systems or to
diagnose patterns that are applicable to multiple systems.
Nessus Agent also supports plugins, which can be downloaded and added to the product to detect specific
vulnerabilities.
2.3 TOE Overview
The Target of Evaluation (TOE) for Nessus Agent consists of the mandatory functionality prescribed by the
App PP and TLS Package, as well as some selection-based functionality where needed.
The logical boundary is summarized in section 2.4.2 below. In general, the following Nessus Agent
capabilities are considered to be within the scope of the TOE:
 Protection of sensitive data at rest: the TOE uses encryption to protect sensitive data.
 Protection of data in transit: the TOE secures data in transit between itself and its operational
environment using TLS and HTTPS.
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 Trusted updates: the TOE provides visibility into its current running version and the vendor
distributes updates to it that are digitally signed so that administrators can securely maintain up-
to-date software.
 Cryptographic services: the TOE includes an implementation of OpenSSL with NIST-validated
algorithm services that it uses to secure data at rest and in transit.
 Secure interaction with operating system: the TOE is designed to interact with underlying host
operating system platforms in such a way that the TOE cannot be used as an attack vector to
compromise an operating system.
The TOE’s scanning and data collection capabilities are outside the scope of the TOE (aside from the
trusted channel used to transmit the collected data), as is any other product behavior that is not described
in the App PP or TLS Package. The content and execution of plugins is similarly excluded from the TOE,
although they are discussed in the context of network communications because the TSF must use platform
network resources to acquire them.
2.4 TOE Architecture
The Nessus Agent TOE consists of the Nessus Agent application, which is a C application. The TOE has both
Linux and Windows platform versions.
2.4.1 Physical Boundary
The TOE consists of the following components, as shown in Figure 1 below:
 Nessus Agent 8.0.0
Figure 1 shows the TOE in a sample deployment with other Tenable applications in its operational
environment.
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Figure 1 - TOE Boundary
SecurityCenter
Nessus Manager
Nessus Network
Monitor
Log
Configuration
Engine
Remote Admin
Remote Log
Sources
TCP/8835 (HTTPS)
Network Assets
Nessus Agent
Monitored Client
TOE Component
Environmental Component
TSF Interface
Non-TSF Interface
TCP/443 (HTTPS)
TCP/8834 (HTTPS)
TCP/8834 (HTTPS)
TCP/8835 (HTTPS)
TCP/8836 (HTTPS)
TCP/1243 (HTTPS)
TCP/8834 (HTTPS)
TCP/22 (SSH)
various
various
TSF-relevant remote interfaces are shown in Figure 1. Note that the TOE consists of exactly one instance
of Nessus Agent. However, it is expected that in a typical deployment, many instances of the Nessus Agent
application will be deployed on organizational systems. This does not affect the security claims made by
the TOE because there is no direct interface from one instance of Nessus Agent to another.
The TOE has the following system requirements for its host platform:
 1x dual-core CPU (any dual-core CPU’s clock speed is sufficient)
 under 1 GB RAM
 under 1 GB disk storage
 15-50 IOPS disk speed
These system requirements reflect the lightest usage scenarios for the TOE. Additional factors such as
network size and storage retention requirements will affect the system requirements for a particular
deployment. Refer to the relevant TOE documentation (as referenced in section 2.5) for the specific
system requirements that apply to a given deployment.
The following network port must be open for the TOE to function, but the specific port is configurable if
the default port cannot be used:
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 TCP/8834 (for communications with Nessus Manager)
The TOE’s operational environment includes the following:
 Other Tenable components (an instance of Nessus Manager – Tenable.sc, Nessus Network
Monitor, and Log Correlation Engine are expected to be present in the TOE’s operational
environment because they all contribute to the same overall capability but the TOE does not
interact with these applications directly).
 Platform (hardware and software) on which the TOE is hosted.
o The TOE is capable of running on a general-purpose Windows or Linux operating system
on standard consumer-grade hardware on either a physical or virtual machine. For the
evaluated configuration, the TOE was tested on virtualized instances of Windows Server
2016 and RHEL 7, each running on VMware ESXi 6.5 on a system using an AMD Ryzen
Threadripper 1950X processor with the Zen microarchitecture.
 Full disk encryption is required for the TOE platform to ensure adequate data-at-rest protection.
2.4.2 Logical Boundary
This section summarizes the security functions provided by the TOE:
 Timely Security Updates
 Cryptographic Support
 User Data Protection
 Identification and Authentication
 Security Management
 Privacy
 Protection of the TSF
 Trusted Path/Channels
2.4.2.1 Timely Security Updates
The TOE developer has internal mechanisms for receiving reports of security flaws, tracking product
vulnerabilities, and distributing software updates to customers in a timely manner.
2.4.2.2 Cryptographic Support
The TOE implements cryptography to protect data in transit. The TOE does not store credential data on
the local system so no separate data at rest protection mechanism is implemented.
For data in transit, the TOE implements TLS/HTTPS as a client to communicate with an instance of Nessus
Manager in the operational environment. The TOE’s TLS client does not support mutual authentication.
The TOE implements all cryptography used for this function using its own implementations of OpenSSL
with NIST-approved algorithms. The TOE’s DRBG is seeded using entropy from the underlying OS platform.
2.4.2.3 User Data Protection
The TOE is compatible with the use of platform full disk encryption to protect sensitive data at rest.
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The TOE relies on the network connectivity and system log capabilities of its host OS platform. The TOE
supports application-initiated uses of the network. The TOE also access various system resources as part
of conducting system scans. Specifically, the TOE supports local scanning of the system that it is installed
on.
2.4.2.4 Identification and Authentication
The TOE supports X.509 certificate validation as part of establishing TLS and HTTPS connections. The TOE
supports various certificate validity checking methods and can also check certificate revocation status
using OCSP. If the validity status of a certificate cannot be determined, the certificate will be accepted. All
other cases where a certificate is found to be invalid will result in rejection without an administrative
override.
2.4.2.5 Security Management
Both the TOE binary components themselves and the configuration settings they use are stored in
locations recommended by the platform vendors.
The TOE does not include a direct user interface to manage its functionality. Security-relevant
configuration of the TOE is initiated from the Nessus Manager application in the TOE’s operational
environment. This configuration relates to the circumstances under which the TOE will transmit data
about the local system’s hardware, software, and configuration information (i.e., scan results) back to its
operational environment.
2.4.2.6 Privacy
The TOE does not handle personally identifiable information (PII) of any individuals.
2.4.2.7 Protection of the TSF
The TOE enforces various mechanisms to prevent itself from being used as an attack vector to its host OS
platform. Each TOE platform version (Windows and Linux) implements address space layout
randomization (ASLR), does not allocate any memory with both write and execute permissions, does not
write user-modifiable files to directories that contain executable files, is compiled using stack overflow
protection, and is compatible with the security features of its host OS platform.
Each TOE platform version contains libraries and invokes system APIs that are well-known and explicitly
identified.
The TOE has a mechanism to determine its current software version. Software updates to the TOE can be
acquired by leveraging its OS platform or through its connection with the environmental Nessus Manager
application. The format of the software update is dependent on the TOE platform version. All updates are
digitally signed to guarantee their authenticity and integrity.
2.4.2.8 Trusted Path/Channels
The TOE encrypts sensitive data in transit between itself and its operational environment using TLS and
HTTPS.
2.5 TOE Documentation
Tenable provides the following product documentation in support of the installation and secure use of
the TOE:
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 Nessus Agent 8.0.x User Guide, Last Updated: October 29, 2020
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3 Security Problem Definition
This ST includes by reference the Security Problem Definition, composed of threats and assumptions, from
the App PP, including the inclusion of A.PLATFORM as required by TD0427. The Common Criteria also
provides for organizational security policies to be part of a security problem definition, but no such policies
are defined in the App PP.
As a functional package, the TLS Package does not contain a Security Problem Definition. The TOE’s use of
TLS is intended to mitigate the T.NETWORK_ATTACK and T.NETWORK_EAVESDROP threats defined by the
App PP.
In general, the threat model of the App PP is designed to protect against the following:
 Disclosure of sensitive data at rest or in transit that the user has a reasonable expectation of security
for.
 Excessive or poorly-implemented interfaces with the underlying platform that allow an application to
be used as an intrusion point to a system.
This threat model is applicable to the TOE because aggregated and analyzed vulnerability scan results
could show an attacker what system weaknesses are present in the environment if they were able to
obtain this data. It is also applicable because the TOE is a collection of executable binaries that an attacker
could attempt to use to compromise the underlying OS platform if it was designed in such a manner that
this exploitation was possible.
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4 Security Objectives
Like the Security Problem Definition, this ST includes by reference the security objectives defined in the
App PP. This includes security objectives for the TOE (used to mitigate threats) and for its operational
environment (used to satisfy assumptions).
As a functional package, the TLS Package does not contain a Security Problem Definition. The TOE’s use of
TLS is intended to satisfy the O.PROTECTED_COMMS objective of the App PP by implementing a specific
method by which network communications are protected.
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5 IT Security Requirements
This section defines the Security Functional Requirements (SFRs) and Security Assurance Requirements
(SARs) that serve to represent the security functional claims for the Target of Evaluation (TOE) and to
scope the evaluation effort.
The SFRs have all been drawn from the following Protection Profiles (PP) and Functional Packages:
 Protection Profile for Application Software, Version 1.3, March 1, 2019
 Functional Packages for Transport Layer Security (TLS), Version 1.1, February 12, 2019
As a result, any selection, assignment, or refinement operations already performed by that PP on the
claimed SFRs are not identified here (i.e., they are not formatted in accordance with the conventions
specified in section 1.3 of this ST). Formatting conventions are only applied on SFR text that was chosen
at the ST author’s discretion.
5.1 Extended Requirements
All of the extended requirements in this ST have been drawn from the App PP and TLS Package. These
documents define the following extended SAR and extended SFRs; since they have not been redefined in
this ST, the App PP and TLS Package should be consulted for more information regarding these extensions
to CC Parts 2 and 3.
Defined in App PP:
 ALC_TSU_EXT.1 Timely Security Updates
 FCS_CKM_EXT.1 Cryptographic Key Generation Services
 FCS_HTTPS_EXT.1/Client HTTPS Protocol (as specified in NIAP TD0473)
 FCS_RBG_EXT.1 Random Bit Generation Services
 FCS_RBG_EXT.2 Random Bit Generation from Application
 FCS_STO_EXT.1 Storage of Credentials
 FDP_DAR_EXT.1 Encryption of Sensitive Application Data
 FDP_DEC_EXT.1 Access to Platform Resources
 FDP_NET_EXT.1 Network Communications
 FIA_X509_EXT.1 X.509 Certificate Validation
 FIA_X509_EXT.2 X.509 Certificate Authentication
 FMT_CFG_EXT.1 Secure by Default Configuration
 FMT_MEC_EXT.1 Supported Configuration Mechanism
 FPR_ANO_EXT.1 User Consent for Transmission of Personally Identifiable Information
 FPT_AEX_EXT.1 Anti-Exploitation Capabilities
 FPT_API_EXT.1 Use of Supported Services and APIs
 FPT_IDV_EXT.1 Software Identification and Versions
 FPT_LIB_EXT.1 Use of Third Party Libraries
 FPT_TUD_EXT.1 Integrity for Installation and Update
 FPT_TUD_EXT.2 Integrity for Installation and Update
 FTP_DIT_EXT.1 Protection of Data in Transit
Defined in TLS Package:
 FCS_TLS_EXT.1 TLS Protocol
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 FCS_TLSC_EXT.1 TLS Client Protocol
 FCS_TLSC_EXT.5 TLS Client Support for Supported Groups Extension
5.2 TOE Security Functional Requirements
The following table identifies the SFRs that are satisfied by the TOE.
Table 3: TOE Security Functional Components
Requirement Class Requirement Component
FCS: Cryptographic Support FCS_CKM.1(1) Cryptographic Asymmetric Key Generation
FCS_CKM.2 Cryptographic Key Establishment
FCS_CKM_EXT.1 Cryptographic Key Generation Services
FCS_COP.1(1) Cryptographic Operation – Encryption/Decryption
FCS_COP.1(2) Cryptographic Operation – Hashing
FCS_COP.1(3) Cryptographic Operation – Signing
FCS_COP.1(4) Cryptographic Operation – Keyed-Hash Message Authentication
FCS_HTTPS_EXT.1/Client HTTPS Protocol
FCS_RBG_EXT.1 Random Bit Generation Services
FCS_RBG_EXT.2 Random Bit Generation from Application
FCS_STO_EXT.1 Storage of Credentials
FCS_TLS_EXT.1 TLS Protocol (TLS Package)
FCS_TLSC_EXT.1 TLS Client Protocol (TLS Package)
FCS_TLSC_EXT.5 TLS Client Support for Supported Groups Extension (TLS
Package)
FDP: User Data Protection FDP_DAR_EXT.1 Encryption of Sensitive Application Data
FDP_DEC_EXT.1 Access to Platform Resources
FDP_NET_EXT.1 Network Communications
FIA: Identification and
authentication
FIA_X509_EXT.1 X.509 Certificate Validation
FIA_X509_EXT.2 X.509 Certificate Authentication
FMT: Security Management FMT_CFG_EXT.1 Secure by Default Configuration
FMT_MEC_EXT.1 Supported Configuration Mechanism
FMT_SMF.1 Specification of Management Functions
FPR: Privacy FPR_ANO_EXT.1 User Consent for Transmission of Personally Identifiable
Information
FPT: Protection of the TSF FPT_AEX_EXT.1 Anti-Exploitation Capabilities
FPT_API_EXT.1 Use of Supported Services and APIs
FPT_IDV_EXT.1 Software Identification and Versions
FPT_LIB_EXT.1 Use of Third Party Libraries
FPT_TUD_EXT.1 Integrity for Installation and Update
FPT_TUD_EXT.2 Integrity for Installation and Update
FTP: Trusted Path/Channels FTP_DIT_EXT.1 Protection of Data in Transit
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5.2.1 Cryptographic Support (FCS)
5.2.1.1 FCS_CKM.1(1) Cryptographic Asymmetric Key Generation
FCS_CKM.1.1(1) The application shall [
 implement functionality
] to generate asymmetric cryptographic keys in accordance with a specified
cryptographic key generation algorithm [
 [ECC schemes] using [“NIST curves” P-256, P-384 and [no other curves]] that
meet the following: [FIPS PUB 186-4, “Digital Signature Standard (DSS)”,
Appendix B.4]
].
5.2.1.2 FCS_CKM.2 Cryptographic Key Establishment
FCS_CKM.2.1 The application shall [implement functionality] to perform cryptographic key
establishment in accordance with a specified cryptographic key establishment
method: [
 [Elliptic curve-based key establishment schemes] that meet the following:
[NIST Special Publication 800-56A, “Recommendation for Pair-Wise Key
Establishment Schemes Using Discrete Logarithm Cryptography”]
].
5.2.1.3 FCS_CKM_EXT.1 Cryptographic Key Generation Services
FCS_CKM_EXT.1.1 The application shall [
 Implement asymmetric key generation
].
5.2.1.4 FCS_COP.1(1) Cryptographic Operation – Encryption/Decryption
FCS_COP.1.1(1)1
The application shall perform encryption/decryption in accordance with a
specified cryptographic algorithm [
 AES-CBC (as defined in NIST SP 800-38A) mode,
 AES-GCM (as defined in NIST SP 800-38D) mode
] and cryptographic key sizes [128-bit, 256-bit].
1
This SFR is modified by TD0543 but this ST does not claim any of the selections that were added by the
TD.
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5.2.1.5 FCS_COP.1(2) Cryptographic Operation – Hashing
FCS_COP.1.1(2) The application shall perform cryptographic hashing services in accordance with
a specified cryptographic algorithm [
 SHA-256,
 SHA-384
] and message digest sizes [
 256,
 384
] bits that meet the following: FIPS Pub 180-4.
5.2.1.6 FCS_COP.1(3) Cryptographic Operation – Signing
FCS_COP.1.1(3) The application shall perform cryptographic signature services (generation and
verification) in accordance with a specified cryptographic algorithm [
 RSA schemes using cryptographic key sizes of 2048-bit or greater that meet
the following: FIPS PUB 186-4, “Digital Signature Standard (DSS)”, Section 4
].
5.2.1.7 FCS_COP.1(4) Cryptographic Operation – Keyed-Hash Message Authentication
FCS_COP.1.1(4) The application shall perform keyed-hash message authentication in accordance
with a specified cryptographic algorithm
 HMAC-SHA-256
and [
 SHA-384
] with key sizes [256 bits, 384 bits] and message digest sizes 256 and [384] bits
that meet the following: FIPS Pub 198-1 The Keyed-Hash Message Authentication
Code and FIPS Pub 180-4 Secure Hash Standard.
5.2.1.8 FCS_HTTPS_EXT.1/Client HTTPS Protocol2
FCS_HTTPS_EXT.1.1/Client The application shall implement the HTTPS protocol that complies with RFC
2818.
FCS_HTTPS_EXT.1.2/Client The application shall implement HTTPS using TLS as defined in the TLS
package.
FCS_HTTPS_EXT.1.3/Client The application shall [not establish the application-initiated connection] if the
peer certificate is deemed invalid.
2
As specified in NIAP TD0473.
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5.2.1.9 FCS_RBG_EXT.1 Random Bit Generation Services
FCS_RBG_EXT.1.1 The application shall [
 implement DRBG functionality
] for its cryptographic operations.
5.2.1.10 FCS_RBG_EXT.2 Random Bit Generation from Application
FCS_RBG_EXT.2.1 The application shall perform all deterministic random bit generation (DRBG)
services in accordance with NIST Special Publication 800-90A using [CTR_DRBG
(AES)].
FCS_RBG_EXT.2.2 The deterministic RBG shall be seeded by an entropy source that accumulates
entropy from a platform-based DRBG and [
 no other noise source
] with a minimum of [
 256 bits
] of entropy at least equal to the greatest security strength (according to NIST SP
800-57) of the keys and hashes that it will generate.
5.2.1.11 FCS_STO_EXT.1 Storage of Credentials
FCS_STO_EXT.1.1 The application shall [
 not store any credentials
] to non-volatile memory.
5.2.1.12 FCS_TLS_EXT.1 TLS Protocol (TLS Package)
FCS_TLS_EXT.1.1 The product shall implement [
 TLS as a client,
].
5.2.1.13 FCS_TLSC_EXT.1 TLS Client Protocol (TLS Package)
FCS_TLSC_EXT.1.13
The product shall implement TLS 1.2 (RFC 5246) and [no earlier TLS versions] as a
client that supports the cipher suites [
 TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256 as defined in RFC 5289,
 TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256 as defined in RFC 5289,
 TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384 as defined in RFC 5289,
 TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384 as defined in RFC 5289]
3
This SFR is modified by TD0442 but this ST does not claim any of the selections that were added by the
TD.
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and also supports functionality for [
 none
].
FCS_TLSC_EXT.1.2 The product shall verify that the presented identifier matches the reference
identifier according to RFC 6125.
FCS_TLSC_EXT.1.3 The product shall not establish a trusted channel if the server certificate is invalid
[
 with no exceptions
].
5.2.1.14 FCS_TLSC_EXT.5 TLS Client Support for Supported Groups Extension (TLS
Package)
FCS_TLSC_EXT.5.1 The product shall present the Supported Groups Extension in the Client Hello with
the supported groups [
 secp256r1,
 secp384r1].
5.2.2 User Data Protection (FDP)
5.2.2.1 FDP_DAR_EXT.1 Encryption of Sensitive Application Data
FDP_DAR_EXT.1.14
The application shall [
 leverage platform-provided functionality to encrypt sensitive data
] in non-volatile memory.
5.2.2.2 FDP_DEC_EXT.1 Access to Platform Resources
FDP_DEC_EXT.1.1 The application shall restrict its access to [
 network connectivity
].
FDP_DEC_EXT.1.2 The application shall restrict its access to [
 [system configuration]
].
4
This SFR is modified by TD0486 but this ST does not claim any of the selections that were added by the
TD.
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5.2.2.3 FDP_NET_EXT.1 Network Communications
FDP_NET_EXT.1.1 The application shall restrict network communication to [
 [application-initiated network communication for
o transmission of scan results to Nessus Manager,
o periodic polling of Nessus Manager to determine if scan needs to be
initiated or if binary/plugin updates need to be acquired,
o check for and download of binary and plugin updates from Nessus
Manager
]
].
5.2.3 Identification and Authentication (FIA)
5.2.3.1 FIA_X509_EXT.1 X.509 Certificate Validation
FIA_X509_EXT.1.15
The application shall [implement functionality] to validate certificates in
accordance with the following rules:
 RFC 5280 certificate validation and certificate path validation.
 The certificate path must terminate with a trusted CA certificate.
 The application shall validate a certificate path by ensuring the presence of
the basicConstraints extension, that the CA flag is set to TRUE for all CA
certificates, and that any path constraints are met.
 The application shall validate that any CA certificate includes caSigning
purpose in the key usage field.
 The application shall validate the revocation status of the certificate using
[the Online Certificate Status Protocol (OCSP) as specified in RFC 2560].
 The application shall validate the extendedKeyUsage (EKU) field according to
the following rules:
o Certificates used for trusted updates and executable code integrity
verification shall have the Code Signing purpose (id-kp 3 with OID
1.3.6.1.5.5.7.3.3) in the extendedKeyUsage field.
o Server certificates presented for TLS shall have the Server Authentication
purpose (id-kp 1 with OID 1.3.6.1.5.5.7.3.1) in the extendedKeyUsage
field.
o Client certificates presented for TLS shall have the Client Authentication
purpose (id-kp 2 with OID 1.3.6.1.5.5.7.3.2) in the extendedKeyUsage
field.
o S/MIME certificates presented for email encryption and signature shall
have the Email Protection purpose (id-kp 4 with OID 1.3.6.1.5.5.7.3.4) in
the extendedKeyUsage field.
5
As specified in NIAP TD0521.
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o OCSP certificates presented for OCSP responses shall have the OCSP
Signing purpose (id-kp 9 with OID 1.3.6.1.5.5.7.3.9) in the
extendedKeyUsage field.
o Server certificates presented for EST shall have the CMC Registration
Authority (RA) purpose (id-kp-cmcRA with OID 1.3.6.1.5.5.7.3.28) in the
extendedKeyUsage field.
FIA_X509_EXT.1.2 The application shall treat a certificate as a CA certificate only if the
basicConstraints extension is present and the CA flag is set to TRUE.
5.2.3.2 FIA_X509_EXT.2 X.509 Certificate Authentication
FIA_X509_EXT.2.1 The application shall use X.509v3 certificates as defined by RFC 5280 to support
authentication for [HTTPS, TLS].
FIA_X509_EXT.2.2 When the application cannot establish a connection to determine the validity of
a certificate, the application shall [accept the certificate].
5.2.4 Security Management (FMT)
5.2.4.1 FMT_CFG_EXT.1 Secure by Default Configuration
FMT_CFG_EXT.1.1 The application shall provide only enough functionality to set new credentials
when configured with default credentials or no credentials.
FMT_CFG_EXT.1.2 The application shall be configured by default with file permissions which protect
the application’s binaries and data files from modification by normal unprivileged
users.
5.2.4.2 FMT_MEC_EXT.1 Supported Configuration Mechanism
FMT_MEC_EXT.1.1 The application shall [invoke the mechanisms recommended by the platform
vendor for storing and setting configuration options].6
5.2.4.3 FMT_SMF.1 Specification of Management Functions
FMT_SMF.1.1 The TSF shall be capable of performing the following management functions [
 enable/disable the transmission of any information describing the system's
hardware, software, or configuration].
5.2.5 Privacy (FPR)
5.2.5.1 FPR_ANO_EXT.1 User Consent for Transmission of Personally Identifiable
Information
FPR_ANO_EXT.1.1 The application shall [
 not transmit PII over a network
6
Modified from original App PP definition by TD0437
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].
5.2.6 Protection of the TSF (FPT)
5.2.6.1 FPT_AEX_EXT.1 Anti-Exploitation Capabilities
FPT_AEX_EXT.1.1 The application shall not request to map memory at an explicit address except for
[no exceptions].
FPT_AEX_EXT.1.2 The application shall [
 not allocate any memory region with both write and execute permissions
].
FPT_AEX_EXT.1.3 The application shall be compatible with security features provided by the
platform vendor.
FPT_AEX_EXT.1.4 The application shall not write user-modifiable files to directories that contain
executable files unless explicitly directed by the user to do so.
FPT_AEX_EXT.1.5 The application shall be compiled with stack-based buffer overflow protection
enabled.
5.2.6.2 FPT_API_EXT.1 Use of Supported Services and APIs
FPT_API_EXT.1.1 The application shall use only documented platform APIs.
5.2.6.3 FPT_IDV_EXT.1 Software Identification and Versions
FPT_IDV_EXT.1.1 The application shall be versioned with [[semantic versioning (SemVer)]].
5.2.6.4 FPT_LIB_EXT.1 Use of Third Party Libraries
FPT_LIB_EXT.1.1 The application shall be packaged with only [third-party libraries listed in
Appendix A.2].
Application Note: The TOE uses a large number of third-party libraries so this information has been
provided in an Appendix for readability purposes.
5.2.6.5 FPT_TUD_EXT.1 Integrity for Installation and Update
FPT_TUD_EXT.1.1 The application shall [leverage the platform] to check for updates and patches to
the application software.
Application Note: The TOE may leverage the platform specifically to check for updates when
communicating with the environmental Nessus Manager.
FPT_TUD_EXT.1.2 The application shall [provide the ability, leverage the platform] to query the
current version of the application software.
FPT_TUD_EXT.1.3 The application shall not download, modify, replace, or update its own binary
code.
FPT_TUD_EXT.1.4 The application installation package and its updates shall be digitally signed such
that its platform can cryptographically verify them prior to installation.
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FPT_TUD_EXT.1.5 The application is distributed [as an additional software package to the platform
OS].
5.2.6.6 FPT_TUD_EXT.2 Integrity for Installation and Update
FPT_TUD_EXT.2.1 The application shall be distributed using the format of the platform-supported
package manager.
FPT_TUD_EXT.2.2 The application shall be packaged such that its removal results in the deletion of
all traces of the application, with the exception of configuration settings, output
files, and audit/log events.
5.2.7 Trusted Path/Channels (FTP)
5.2.7.1 FTP_DIT_EXT.1 Protection of Data in Transit
FTP_DIT_EXT.1.1 The application shall [
 encrypt all transmitted [sensitive data] with [HTTPS in accordance with
FCS_HTTPS_EXT.1/Client, TLS as defined in the TLS Package]
] between itself and another trusted IT product.
5.3 TOE Security Assurance Requirements
The security assurance requirements for the TOE are included by reference to the App PP.
Table 4: Assurance Components
Requirement Class Requirement Component
ADV: Development ADV_FSP.1 Basic Functional Specification
AGD: Guidance Documentation AGD_OPE.1 Operational User Guidance
AGD_PRE.1 Preparative Procedures
ALC: Life-cycle Support ALC_CMC.1 Labeling of the TOE
ALC_CMS.1 TOE CM coverage
ALC_TSU_EXT.1 Timely Security Updates
ATE: Tests ATE_IND.1 Independent Testing – Conformance
AVA: Vulnerability Assessment AVA_VAN.1 Vulnerability Survey
As a functional package, the TLS Package does not define its own SARs. The expectation is that all SARs
required by the App PP will apply to the entire TOE, including the portions addressed by the TLS Package.
Consequently, the evaluation activities specified in the App PP apply to the entire TOE evaluation,
including any changes made to them by subsequent NIAP Technical Decisions as summarized in section
1.2 above.
The TLS Package does contain evaluation activities for how to evaluate its SFR claims as part of the
evaluation of ASE_TSS.1, AGD_OPE.1, AGD_PRE.1, and ATE_IND.1. All Security Functional Requirements
specified by the TLS Package will be evaluated in the manner specified in that package.
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6 TOE Summary Specification
This chapter describes the security functions of the TOE:
 Timely Security Updates
 Cryptographic Support
 User Data Protection
 Identification and Authentication
 Security Management
 Privacy
 Protection of the TSF
 Trusted Path/Channels
6.1 Timely Security Updates
Tenable supports a timely security update process for the TOE In addition to their own internal research,
the product vendor supports disclosure of potential issues using community forums, direct engagement,
and the Tenable support channel. For issues where there is a potential security concern, the support
channel uses HTTPS for secure disclosure.
When an issue is reported, Tenable will determine its applicability to the product. The length of time
needed to make this determination depends on the complexity of the issue and the extent to which it can
be reproduced; well-documented issues such as exposure to a published CVE can be made quickly. If found
to be a security issue, a patch is released within 30 days. Tenable monitors the third-party components
used by the TOE for potential security issues as well. However, an issue with a dependent component may
not be addressed if found not to be applicable to the TOE. For example, the issue may be in a library that
is part of a larger package that the TOE uses, but the TOE does not include that specific library.
Security updates to the TOE are delivered as regular update packages in the same manner as a functional
update. This process is described in section 6.7 below.
6.2 Cryptographic Support
The TOE uses cryptography to secure data in transit between itself and its operational environment.
All TOE cryptographic services are implemented by the OpenSSL cryptographic library. The TOE uses
OpenSSL 1.1.1d. The cryptographic algorithms supplied by the TOE are NIST-validated. The following table
identifies the cryptographic algorithms used by the TSF, the associated standards to which they conform,
and the NIST certificates that demonstrate that the claimed conformance has been met.
Table 5: Cryptographic Functions
Functions Standards Certificates
FCS_CKM.1(1) Cryptographic Asymmetric Key Generation
ECC key pair generation (NIST curves P-256,
P-384)
FIPS PUB 186-4 CAVP cert # C1600
FCS_CKM.2 Cryptographic Key Establishment
ECDSA based key establishment NIST SP 800-56A CAVP cert # C1601
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Functions Standards Certificates
FCS_COP.1(1) Cryptographic Operation – Encryption/Decryption
AES-CBC, AES-GCM (128, 256 bits) CBC as defined in NIST SP 800-
38A
GCM as defined in NIST SP 800-
38D
CAVP cert # C1600
FCS_COP.1(2) Cryptographic Operation – Hashing
SHA-256 and SHA-384 (digest sizes 256 and
384 bits)
FIPS PUB 180-4 CAVP cert # C1600
FCS_COP.1(3) Cryptographic Operation – Signing
RSA (2048-bit or greater) FIPS PUB 186-4, Section 4 CAVP cert # C1600
FCS_COP.1(4) Cryptographic Operation – Keyed Hash Message Authentication
HMAC-SHA-256 and SHA-384 FIPS PUB 198-1
FIPS PUB 180-4
CAVP cert # C1600
FCS_RBG_EXT.2 Random Bit Generation from Application
CTR_DRBG
DRBG (256 bits)
NIST SP 800-90A
NIST SP 800-57
CAVP cert # C1600
The TOE generates asymmetric keys in support of trusted communications. The TSF generates ECC keys
using P-256 and P-384. These keys are generated in support of the ECDHE key establishment schemes that
are used for TLS/HTTPS communications. To ensure sufficient key strength, the TOE also implements
DRBG functionality for key generation, using the AES-CTR_DRBG. The proprietary Entropy Analysis Report
(EAR) describes how the TSF extracts random data from software-based sources to ensure that an amount
of entropy that is at least equal to the strength of the generated keys is present (i.e., at least 256 bits
when the largest supported keys are generated) when seeding the DRBG for key generation purposes.
The Windows platform version of the TOE relies on a third-party entropy source provided by the platform
vendor. The Linux platform version of the TOE relies on the OS platform entropy source as well.
Specifically, random numbers are obtained from the following platform APIs, depending on the platform
used:
 Windows: SystemPRNG
 Linux: invocation of /dev/random pseudo-device
In both cases, it is assumed that these platforms provide at least 256 bits of entropy.
The TOE uses TLS 1.2 for client communications. The TLS client implementations support the following TLS
cipher suites in the TOE’s evaluated configuration:
 TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256
 TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA256
 TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384
 TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384
All supported ciphersuites use elliptic curves as the method of key establishment. The TSF presents
secp256r1 and secp384r1 as the supported values in the Supported Groups extension and uses the same
NIST curves for key establishment.
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As part of certificate validation in the establishment of TLS connectivity, the TOE will validate the reference
identifier of a presented server certificate. This is done through validation of the Common Name (CN) and
Subject Alternative Name (SAN) certificate fields, the latter of which is expected to contain the FQDN of
the external system that is presenting the certificate to the TOE. The reference identifier is established by
configuration. IP addresses are not supported. Wildcards are only supported for the left-most label
immediately preceding the public suffix. Certificate pinning is not supported. All digital signatures used
for the establishment of TLS communications use 2048-bit RSA.
The TOE uses TLS client functionality for communications between the TOE and an instance of the Nessus
Manager application in the operational environment. This communication does not use mutually-
authenticated TLS. The TOE’s implementation of HTTPS conforms to RFC 2818. The connection will be
rejected if certificate validation fails.
The TOE does not store any credentials so no specific method of secure credential storage is implemented.
The Cryptographic Support security function is designed to satisfy the following security functional
requirements:
 FCS_CKM.1(1) – The TOE uses a NIST-validated implementation to generate asymmetric keys in
support of TLS communications.
 FCS_CKM.2 – The TOE performs NIST-validated key establishment in support of TLS
communications.
 FCS_CKM_EXT.1 – The TOE implements its own cryptographic functionality.
 FCS_COP.1(1) – The TOE uses a NIST-validated implementation to perform AES encryption and
decryption in support of TLS communications.
 FCS_COP.1(2) – The TOE uses a NIST-validated implementation to perform cryptographic hashing
in support of TLS communications.
 FCS_COP.1(3) – The TOE uses a NIST-validated implementation to generate and verify RSA digital
signatures in support of TLS communications.
 FCS_COP.1(4) – The TOE uses a NIST-validated implementation to perform HMAC functions in
support of TLS communications.
 FCS_HTTPS_EXT.1/Client – The TOE implements HTTPS as a client to secure data in transit.
 FCS_RBG_EXT.1 – The TOE implements its own random bit generation services.
 FCS_RBG_EXT.2 – The TOE uses a NIST-validated implementation to generate pseudo-random bits
and this implementation is seeded with sufficiently strong entropy collected from the operational
environment.
 FCS_STO_EXT.1 – The TOE does not store any credential data that requires cryptographic
protection.
 FCS_TLS_EXT.1 – The TOE implements TLS to secure data in transit.
 FCS_TLSC_EXT.1 – The TOE implements TLS as a client.
 FCS_TLSC_EXT.5 – The TOE’s TLS client implementation presents supported elliptic curves to the
server in the Supported Groups extension when an ECDHE cipher suites is negotiated.
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6.3 User Data Protection
The App PP defines ‘sensitive data’ as follows: “Sensitive data may include all user or enterprise data or
may be specific application data such as emails, messaging, documents, calendar items, and contacts.
Sensitive data must minimally include PII, credentials, and keys. Sensitive data shall be identified in the
application’s TSS by the ST author.”
Based on this definition, the only sensitive data stored by the TOE is system scan results. This data is not
maintained persistently on the platform because it is discarded after its transmission to the environmental
Nessus Manager application. However, it may temporarily reside in local storage in the event of the TOE’s
inability to communicate with Nessus Manager.
In the evaluated configuration, the TOE will be installed on a platform that has full disk encryption
enabled. All data at rest is ultimately secured by the operational environment’s platform encryption
functionality.
The underlying platform functionality that the TOE interacts with include network connectivity, system
configuration, and system logs. The TOE uses network connectivity for connections to the environmental
Nessus Manager application. The TOE accesses system configuration to collect data about the local system
for subsequent analysis.
The TOE uses environmental network capabilities to communicate with the environmental Nessus
Manager application in its operational environment. The following table highlights the TOE’s network
usage.
Table 6: TOE Network Usage
Component User-Initiated Externally-Initiated TOE-Initiated
Nessus Agent None None Transmission of scan results
to Nessus Manager
Periodic polling of Nessus
Manager to determine if
scan needs to be initiated or
if binary/plugin updates
need to be acquired
Check for and download of
binary and plugin updates
from Nessus Manager
The User Data Protection security function is designed to satisfy the following security functional
requirements:
 FDP_DAR_EXT.1 – Sensitive data at rest is protected by full disk encryption of the TOE’s underlying
OS platform.
 FDP_DEC_EXT.1 – The TOE’s use of platform services is well understood by users prior to
authorizing the TOE activity.
 FDP_NET_EXT.1 – The TOE communicates over the network for well-defined purposes. The use of
network resources is initiated by the TOE.
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6.4 Identification and Authentication
The TOE uses X.509 certificates for validation of the Nessus Manager TLS server certificate.
The TOE implements the following functional behavior for its usage of X.509 certificates:
 Certificate validation and certificate path validation is performed in accordance with RFC 5280.
 The certificate path is checked to ensure that it terminates with a trusted CA certificate.
 The certificate path is validated by ensuring the presence of the basicConstraints extension, that
the CA flag is set to TRUE for all CA certificates, and that any path constraints are met.
 Any CA certificate is validated by ensuring that the key usage field includes the caSigning purpose.
 Revocation status is checked using OCSP in accordance with RFC 2560.
 The application shall validate the extendedKeyUsage field according to the following rules:
o Certificates used for trusted updates and executable code integrity verification shall have the
Code Signing purpose (id-kp 3 with OID 1.3.6.1.5.5.7.3.3) in the extendedKeyUsage field.
o Server certificates presented for TLS shall have the Server Authentication purpose (id-kp 1
with OID 1.3.6.1.5.5.7.3.1) in the extendedKeyUsage field.
o Client certificates presented for TLS shall have the Client Authentication purpose (id-kp 2 with
OID 1.3.6.1.5.5.7.3.2) in the extendedKeyUsage field.
o S/MIME certificates presented for email encryption and signature shall have the Email
Protection purpose (id-kp 4 with OID 1.3.6.1.5.5.7.3.4) in the extendedKeyUsage field.
In the event that the revocation status of a certificate cannot be verified (i.e. the OCSP responder cannot
be reached), the TOE will accept the certificate.
Because the TOE’s use of the certificate validation function is to validate the authenticity of remote
endpoints, the TSF chooses what certificates to use based on what is presented to it as part of establishing
the TLS session. The TOE is only assigned one certificate for its own use, so there is only one certificate
that it will present in cases where a remote entity may need to validate it.
The Identification and Authentication security function is designed to satisfy the following security
functional requirements:
 FIA_X509_EXT.1 – X.509 certificates are validated by the TSF when establishing trusted
communications.
 FIA_X509_EXT.2 – X.509 certificates are used for TLS. When revocation status of a certificate
cannot be determined, the TSF accepts the certificate by default.
6.5 Security Management
The TOE does not provide a direct user interface for configuration of the TOE. All configuration is initiated
from the operational environment, using an instance of Nessus Manager that is connected to the TOE.
The TOE is installed into the following location, depending on the platform version:
 Windows: C:\Program Files\Tenable\nessus_agent
 Linux: /opt/nessus_agent
All directories containing TOE software and data are configured by default in such a manner that nothing
is world-writable on Linux and Administrator privileges are required to access them on Windows.
Configuration settings that affect the TOE’s interaction with the host OS platform are stored in /etc for
Linux and the Windows Registry for Windows.
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The TOE supports the following security-relevant management functions:
 Configuration of transmission of system’s hardware, software, or configuration information
o Conducts system scans of local systems. The environmental Nessus Manager can be used to
manually initiate a scan or to define a schedule that causes the TOE to initiate scanning at the
specified times and intervals.
The Security Management security function is designed to satisfy the following security functional
requirements:
 FMT_CFG_EXT.1 – The TOE does not include functionality that uses administrative credentials.
The TOE is protected from direct modification by untrusted users via their host OS platforms.
 FMT_MEC_EXT.1 – Configuration settings for the TOE are stored in appropriate locations for each
supported host OS platform.
 FMT_SMF.1 – Administrators can use an environmental application to configure the collection of
system data from the TOE’s operational environment.
6.6 Privacy
The TOE’s primary function is to examine an organizational asset for configuration or operational states
that may indicate the presence of a vulnerability or misuse of organizational resources. To this end, the
TOE transmits data about system configuration to its operational environment for aggregation, analysis,
and reporting. The TOE is not responsible for the collection or transmission of PII.
The Privacy security function is designed to satisfy the following security functional requirements:
 FPR_ANO_EXT.1 – The TOE prevents the unnoticed/unauthorized transmission of PII across a
network by not having functionality that is intended for such transmissions.
6.7 Protection of the TSF
The TOE implements several mechanisms to protect against exploitation. The TOE implements address
space layout randomization (ASLR) through the use of the /DYNAMICBASE (Windows) and –fPIC (Linux)
compiler flags and rely fully its underlying host platforms to perform memory mapping. The TOE also does
not use both PROT_WRITE and PROT_EXEC on the same memory regions. There is no situation where the
TSF maps memory to an explicit address. The TOE is written in C. The TOE is compiled with stack overflow
protection whether it is intended for use on Linux or Windows. The Linux platform version is compiled
with –fstack-protector-strong and the Windows platform version is compiled with /GS.
Both platform versions of the TOE are designed to run on host OS platforms where platform security
features have been enabled (e.g. Windows Defender Export Guard, SELinux enabled and enforcing). The
TOE uses only documented platform APIs. Appendix A.1 lists the APIs used by the TOE. The TOE also makes
use of third-party libraries. Appendix A.2 lists the libraries used by the TOE. The TOE is versioned using
semver (Semantic Versioning) in the format x.y(.z) where x is the major version, y is the minor version,
and the optional z is the patch version; SWID is not used. The TOE is a standalone application that is not
natively bundled as part of a host OS.
The TOE can identify its current running versions through both platform and TSF-mediated methods. The
Linux platform version of the TOE is installed as an RPM and will identify its version in RPM itself. The TOE
will also return its version information if its binary is invoked with the –v flag on the OS platform regardless
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of which platform version it is. An administrator can also check the version of the TOE using the
environmental instance of Nessus Manager that is connected to the TOE to check the TOE’s version.
The TOE can leverage its OS platform to check for software updates and acquire them if they are available.
In this case, candidate updates are obtained by the administrator downloading them directly from
Tenable’s website or through a package manager such as yum. However, since a typical deployment may
include a large number of Nessus Agent instances, it is also possible to leverage the Nessus Manager
platform to obtain a software update for the TOE. The TOE can check for an available update when
communicating with Nessus Manager. The candidate update is initially obtained from the operational
environment via an administrator downloading it from Tenable’s site, but the administrator is then able
to place it on the environmental Nessus Manager so that the TOE obtain it from there. The TOE will not
download, modify, replace, or update its own binary code. The TOE is packaged as an .rpm file for Linux
and an .exe file for Windows. Each are digitally signed by Tenable using 2048-bit RSA. Removing
(uninstalling) the product will remove all executable code from the host system.
The Protection of the TSF security function is designed to satisfy the following security functional
requirements:
 FPT_AEX_EXT.1 – The TOE interacts with its host OS platform in a manner that does not expose
the system to memory-related exploitation.
 FPT_API_EXT.1 – The TOE uses documented platform APIs.
 FPT_IDV_EXT. 1 – The TOE is versioned using semver.
 FPT_LIB_EXT.1 – The set of third-party libraries used by the TOE is well-defined.
 FPT_TUD_EXT.1 – There is a well-defined method for checking what version of the TOE is currently
installed and whether updates to it are available. Updates are signed by the vendor and validated
by the host OS platform prior to installation.
 FPT_TUD_EXT.2 – The TOE can be updated through installation packages.
6.8 Trusted Path/Channels
In the evaluated configuration, the TOE uses both its own cryptographic implementation and its host OS
platform to encrypt sensitive data in transit. Listed below is the external interface to the TOE that relies
on trusted communications.
Between TOE and environmental Tenable components:
 Between Nessus Manager and TOE
o Communications use TLS/HTTPS (TOE is client and Nessus Manager is server)
o Configurable TCP port, 8834 is default
o Used by Nessus Manager to collect local scan results from the TOE
The Trusted Path/Channels security function is designed to satisfy the following security functional
requirements:
 FTP_DIT_EXT.1 – The TOE relies on its own mechanisms to secure data in transit between itself
and its operational environment.
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7 Protection Profile Claims
This ST is conformant to the Protection Profile for Application Software, Version 1.3, 1 March 2019 (App
PP) and Functional Package for Transport Layer Security (TLS), Version 1.1, February 12, 2019 (TLS
Package) along with all applicable errata and interpretations from the certificate issuing scheme.
The TOE consists of a software application that runs on a Linux operating system as its platform.
As explained in section 3, Security Problem Definition, the Security Problem Definition of the App PP has
been included by reference into this ST.
As explained in section 4, Security Objectives, the Security Objectives of the App PP has been included by
reference into this ST.
All claimed SFRs are defined in the App PP and TLS Package. All mandatory SFRs are claimed. No optional
or objective SFRs are claimed. Selection-based SFR claims are consistent with the selections made in the
mandatory SFRs that prompt their inclusion.
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8 Rationale
This Security Target includes by reference the App PP Security Problem Definition, Security Objectives,
and Security Assurance Requirements. The Security Target does not add, remove, or modify any of these
items. Security Functional Requirements have been reproduced with the Protection Profile operations
completed. All selections, assignments, and refinements made on the claimed Security Functional
Requirements have been performed in a manner that is consistent with what is permitted by the App PP
and TLS Package. The proper set of selection-based requirements have been claimed based on the
selections made in the mandatory requirements. Consequently, the claims made by this Security Target
are sufficient to address the TOE’s security problem. Rationale for the sufficiency of the TOE Summary
Specification is provided below.
8.1 TOE Summary Specification Rationale
This section in conjunction with Section 0, the
The TLS Package does contain evaluation activities for how to evaluate its SFR claims as part of the
evaluation of ASE_TSS.1, AGD_OPE.1, AGD_PRE.1, and ATE_IND.1. All Security Functional Requirements
specified by the TLS Package will be evaluated in the manner specified in that package.
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TOE Summary Specification, provides evidence that the security functions meet the TOE security
requirements. Each description includes rationale indicating which requirements the corresponding
security functions satisfy. The combined security functions work together to satisfy all of the security
requirements. The security functions described in Section 6 are necessary for the TSF to enforce the
required security functionality. Table 7 demonstrates the relationship between security requirements and
functions.
Table 7: Security Functions vs. Requirements Mapping
Cryptographic
Support
User
Data
Protection
Identification
and
Authentication
Security
Management
Privacy
Protection
of
the
TSF
Trusted
Path/Channels
FCS_CKM.1(1) X
FCS_CKM.2 X
FCS_CKM_EXT.1 X
FCS_COP.1(1) X
FCS_COP.1(2) X
FCS_COP.1(3) X
FCS_COP.1(4) X
FCS_HTTPS_EXT.1/Client X
FCS_RBG_EXT.1 X
FCS_RBG_EXT.2 X
FCS_STO_EXT.1 X
FCS_TLS_EXT.1 X
FCS_TLSC_EXT.1 X
FCS_TLSC_EXT.5 X
FDP_DAR_EXT.1 X
FDP_DEC_EXT.1 X
FDP_NET_EXT.1 X
FIA_X509_EXT.1 X
FIA_X509_EXT.2 X
FMT_CFG_EXT.1 X
FMT_MEC_EXT.1 X
FMT_SMF.1 X
FPR_ANO_EXT.1 X
FPT_AEX_EXT.1 X
FPT_API_EXT.1 X
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Cryptographic
Support
User
Data
Protection
Identification
and
Authentication
Security
Management
Privacy
Protection
of
the
TSF
Trusted
Path/Channels
FPT_IDV_EXT.1 X
FPT_LIB_EXT.1 X
FPT_TUD_EXT.1 X
FPT_TUD_EXT.2 X
FTP_DIT_EXT.1 X
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Appendix A TOE Usage of Third-Party Components
This Appendix lists the platform APIs and third-party libraries that are used by the TOE.
A.1 Platform APIs
Listed below are the platform APIs used by the TOE. Note that these APIs do not necessarily relate to the
TOE functionality claimed in the Security Target; however, since they are bundled with the product itself
they are disclosed since a vulnerability in outside the logical boundary of the product could still present
an exploitable vulnerability.
Windows:
CrtSetDbgFlag,_heapmin,_set_invalid_parameter_handler,_strtoi64,_unix2windows_64,_wtoi,_wtoi64,
accept, AllocateAndInitializeSid,bind, CheckTokenMembership, CloseHandle,
CloseServiceHandle,closesocket, CoCreateInstance, CoInitializeEx, CoInitializeSecurity,
CompareStringW,connect, ControlService, CoSetProxyBlanket, CoUninitialize, CreateEvent, CreateFile,
CreateFileA, CreatePipe, CreateProcess, CreateService, CreateThread,
CreateToolhelp32Snapshot,ctime_s, DeleteFileA, DeleteService, EnterCriticalSection,
EnumServicesStatus, FileTimeToSystemTime, FindClose, FindFirstFileA, FindNextFile, FormatMessage,
FreeLibrary, FreeSid, GetComputerNameA, GetConsoleMode, GetCurrentProcess, GetCurrentProcessId,
GetCurrentThreadId,getenv, GetExitCodeProcess, GetFileAttributes, GetFileSize, GetFileVersionInfoExW,
GetFileVersionInfoSizeExW, GetLastError, GetModuleHandle, GetProcAddress, GetProcessHeap,
GetProcessId, GetSecurityDescriptorControl, GetSecurityInfo, GetServiceDisplayNameA,getsockname,
GetStdHandle, GetSystemTimeAsFileTime, GetTcpTable, GetTimeZoneInformation, GetUserName,
GetVersionEx, GetWindowsDirectoryA, GlobalMemoryStatusEx, HeapAlloc, HeapFree, HeapLock,
HeapReAlloc, HeapSetInformation, HeapUnlock, HeapWalk,htonl,htons, IEnumWbemClassObject_Next,
IEnumWbemClassObject_Release, IsValidSecurityDescriptor, IsWindowsServer,
IWbemCallResult_GetCallStatus, IWbemCallResult_GetResultObject, IWbemCallResult_Release,
IWbemClassObject_BeginEnumeration, IWbemClassObject_EndEnumeration, IWbemClassObject_Get,
IWbemClassObject_GetMethod, IWbemClassObject_Next, IWbemClassObject_Put,
IWbemClassObject_QueryInterface, IWbemClassObject_Release, IWbemClassObject_SpawnInstance,
IWbemLocator_ConnectServer, IWbemLocator_Release, IWbemServices_AddRef,
IWbemServices_ExecMethod, IWbemServices_ExecQuery, IWbemServices_GetObject,
IWbemServices_Release, LeaveCriticalSection,listen, LoadLibrary, LocalFree,localtime_s, LsaClose,
LsaEnumerateAccountsWithUserRight, LsaFreeMemory, LsaLookupNames, LsaLookupSids,
LsaOpenPolicy, LsaQueryDomainInformationPolicy, LsaQueryInformationPolicy,lstrlenW,memset,
Module32First, Module32Next, MultiByteToWideChar, NetApiBufferFree, NetGroupGetUsers,
NetLocalGroupGetMembers, NetServerEnum, NetServerGetInfo, NetSessionEnum, NetShareEnum,
NetUserGetGroups, NetUserGetInfo, NetUserGetLocalGroups, NetUserModalsGet, NetWkstaGetInfo,
NetWkstaUserEnum, OpenProcess, OpenSCManagerA, OpenService, PdhAddCounterA,
PdhCollectQueryData, PdhOpenQueryA, poll, QueryServiceObjectSecurity, QueryServiceStatus,
RaiseException, ReadConsole, ReadFile, recv, RegCloseKey, RegCreateKeyExA, RegEnumKeyA,
RegEnumKeyExA, RegEnumValueA, RegGetKeySecurity, RegOpenKeyA, RegOpenKeyExA,
RegQueryInfoKeyA, RegQueryValueExA, RegSetValueExA, SafeArrayAccessData, SafeArrayCreateVector,
SafeArrayGetDim, SafeArrayGetLBound, SafeArrayGetUBound, SafeArrayUnaccessData,
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SamCloseHandle, SamConnect, SamFreeMemory, SamOpenDomain, SamQueryInformationDomain,
saturate, send, SetConsoleCtrlHandler, SetConsoleMode, SetFilePointer, SetHandleInformation,
SetLastError, setsockopt, SetStdHandle, SetUnhandledExceptionFilter, SHGetFolderPath, Sleep, socket,
StackWalk64, StartService, SysAllocStringByteLen, SysAllocStringLen, SysFreeString, SysStringLen,
SystemTimeToFileTime, SystemTimeToTzSpecificLocalTime, TerminateProcess, time,
TzSpecificLocalTimeToSystemTime, VariantClear, VerQueryValueA, vsnprintf_s, w32_change_privilege,
WaitForSingleObject, WideCharToMultiByte, WriteFile, WSACleanup, WSAGetLastError, WSAStartup,
ZeroMemory, GetAdaptersAddresses, GetAdaptersInfo, SHGetS(pecialFolderPath, lrand48,
GetTickCount64, QueryPerformanceFrequency, QueryPerformanceCounter, GetTickCount,
GetUserNameW, DnsQuery_UTF8, DnsRecordListFree, SetPriorityClass, BCryptGenRandom
Linux:
Used by plugins:
cat, grep, echo, wc, find, ps, type, uname, ls, awk, sysinfo, sysctl, which, strings, head, echo, test, read,
readlink, rm, chmod, od, tr, sh, cut, sort, tee, chown, do, while, if, hexdump, strcat, tail, sed, xargs, dd,
netstat, ifconfig, ip, hostname
Used by plugins, to test specific platforms/applications:
init, unzip, nwmgr, lanscan, docker, cli, dhcpd, unzip, equery, xl, sqlite3, db2ls, db2level, db2, md5sum,
sha256sum, sha1sum, yara, lsof, cmdagent, nails, sc, sc4, vmware-view, loginsight, bash, dmidecode,
wget, curl, rpm, cfservd, prelink, netstat, rmsock, inpcb, proctree, service, dpkg, iptables, lsmod,
openssl, splunk, namei, java, dd
Used by Nessus bug report generator:
uname, dmesg, tail, killall, sh, uptime, ls, ps, grep, xargs, netstat, arp, df, cat, tail, rpm, free, ifconfig, du,
tar
A.2 Third-Party Libraries
Listed below are the third-party libraries used by the TOE. Note that these libraries do not necessarily
relate to the TOE functionality claimed in the Security Target; however, since they are bundled with the
product itself they are disclosed since a vulnerability in outside the logical boundary of the product could
still present an exploitable vulnerability.
Apache FOP, chart.js, DataTables, expat, Flatiron Director, Font Awesome, GLYPHICONS, Handlebars,
jemalloc, jQuery, jQuery Cookie, jQuery FileUpload, jQuery HotKeys, jQuery scroll.To, jQuery tipsy,
jQuery UI, JSONSL, less.js, libbzip2, libjpeg, libpcap, libpcre, libxml2, libxmlsec, libxslt, List.js, moment,
OpenSSL, SEE, Select2, Snappy, snprintf.c, SQLite, Underscore,js, WinPCAP, ZIPVFS, zlib