ATEN Secure KVM Switch Series (Non-CAC Models) Security Target Version 1.1 2022-03-08 Prepared for: ATEN 3F, No. 125, Section 2, Datung Road, Sijhih District, New Taipei City, 221 Taiwan Prepared by: Common Criteria Testing Laboratory 6841 Benjamin Franklin Drive Columbia, Maryland 21046 Security Target Version 1.1 2022-03-08 i Revision History Version Author Modifications 0.1 Leidos Initial Version 0.2 Leidos Minor update to add adapters 0.3 Leidos Updates for validator check-in comments 1.0 Leidos Minor updates for evaluator comments 1.1 Leidos Updates for validator check-out comments Security Target Version 1.1 2022-03-08 ii Table of Contents 1 Security Target Introduction.................................................................................................................1 1.1 Security Target, Target of Evaluation, and Common Criteria Identification..................................1 1.2 Conformance Claims.......................................................................................................................2 1.3 Conventions....................................................................................................................................3 1.3.1 Terminology ............................................................................................................................3 1.3.2 Acronyms.................................................................................................................................5 2 TOE Description ....................................................................................................................................7 2.1 Product Overview...........................................................................................................................7 2.2 TOE Overview .................................................................................................................................7 2.3 TOE Architecture ............................................................................................................................7 2.3.1 Physical Boundary .................................................................................................................11 2.4 Logical Boundary ..........................................................................................................................12 2.4.1 Security Audit........................................................................................................................13 2.4.2 User Data Protection.............................................................................................................13 2.4.3 Identification and Authentication.........................................................................................13 2.4.4 Security Management...........................................................................................................13 2.4.5 Protection of the TSF.............................................................................................................13 2.4.6 TOE Access ............................................................................................................................14 2.5 TOE Documentation .....................................................................................................................14 3 Security Problem Definition................................................................................................................15 4 Security Objectives .............................................................................................................................16 4.1 Security Objectives for the Operational Environment .................................................................16 5 IT Security Requirements....................................................................................................................17 5.1 Extended Requirements...............................................................................................................17 5.2 TOE Security Functional Requirements (PSD, MOD_AO_V1.0, MOD_KM_V1.0).........................18 5.2.1 Security Audit (FAU)..............................................................................................................19 5.2.2 User Data Protection (FDP)...................................................................................................20 5.2.3 Identification and Authentication (FIA).................................................................................24 5.2.4 Security Management (FMT).................................................................................................25 5.2.5 Protection of the TSF (FPT)....................................................................................................25 5.2.6 TOE Access (FTA)...................................................................................................................26 5.3 TOE Security Functional Requirements (DP Models) ...................................................................27 5.3.1 User Data Protection (FDP)...................................................................................................27 5.4 TOE Security Functional Requirements (H Models) .....................................................................28 5.4.1 User Data Protection (FDP)...................................................................................................28 5.5 TOE Security Functional Requirements (D Models) .....................................................................29 5.5.1 User Data Protection (FDP)...................................................................................................29 5.6 TOE Security Assurance Requirements ........................................................................................30 6 TOE Summary Specification................................................................................................................31 6.1 Security Audit (FAU_GEN.1) .........................................................................................................31 6.2 User Data Protection....................................................................................................................32 6.2.1 FDP_AFL_EXT.1 – Audio Filtration.........................................................................................32 Security Target Version 1.1 2022-03-08 iii 6.2.2 FDP_APC_EXT.1 (All Iterations); FDP_UDF_EXT.1/AO – Unidirectional Data Flow (Audio Output); FDP_UDF_EXT.1/KM – Unidirectional Data Flow (Keyboard/Mouse); FDP_UDF_EXT.1/VI – Unidirectional Data Flow (Video Output);..........................................................................................32 6.2.3 FDP_CDS_EXT.1 – Connected Displays Supported................................................................33 6.2.4 FDP_FIL_EXT.1/KM – Device Filtering (Keyboard/Mouse); FDP_PDC_EXT.3/KM – Authorized Connection Protocols (Keyboard/Mouse) ..........................................................................................33 6.2.5 FDP_PDC_EXT.1 – Peripheral Device Connection; FDP_PDC_EXT.2/AO – Peripheral Device Connection (Audio Output); FDP_PDC_EXT.2/KM – Authorized Devices (Keyboard/Mouse); FDP_PDC_EXT.2/VI – Peripheral Device Connection (Video Output).................................................34 6.2.6 FDP_PUD_EXT.1 – Powering Unauthorized Devices.............................................................35 6.2.7 FDP_RIP.1/KM – Residual Information Protection (Keyboard Data), FDP_RIP_EXT.1 – Residual Information Protection and FDP_RIP_EXT.2 – Purge of Residual Information....................35 6.2.8 FDP_SWI_EXT.1 – PSD Switching; FDP_SWI_EXT.2 – PSD Switching Methods; FDP_SWI_EXT.3 – Tied Switching..................................................................................................................................36 6.2.9 TOE Video Security Function.................................................................................................36 6.3 Identification and Authentication (FIA_UAU.2/ FIA_UID.2).........................................................38 6.4 Security Management ..................................................................................................................38 6.4.1 FMT_MOF.1 – Management of Security Functions Behavior...............................................38 6.4.2 FMT_SMF.1 – Specification of Management Functions .......................................................38 6.4.3 FMT_SMR.1 – Security Roles.................................................................................................39 6.5 Protection of the TSF....................................................................................................................39 6.5.1 FPT_FLS_EXT.1 – Failure with Preservation of Secure State.................................................39 6.5.2 FPT_NTA_EXT.1 – No Access to TOE .....................................................................................40 6.5.3 FPT_PHP.1 – Passive Detection of Physical Attack and FPT_PHP.3 – Resistance to Physical Attack 40 6.5.4 FPT_STM.1 Reliable Time Stamps .........................................................................................40 6.5.5 FPT_TST.1 – TSF Testing and FPT_TST_EXT.1 – TSF Testing..................................................40 6.6 TOE Access....................................................................................................................................42 6.6.1 FTA_CIN_EXT.1 – Continuous Indications.............................................................................42 7 Protection Profile Claims ....................................................................................................................44 8 Rationale.............................................................................................................................................46 8.1 TOE Summary Specification Rationale .........................................................................................46 Appendix A Letter of Volatility....................................................................................................................48 List of Figures and Tables Figure 1: Simplified Block Diagram of a 2-Port KVM TOE ...........................................................................10 Figure 2: Representative ATEN Secure KVM Switch TOE Model in its environment..................................12 Table 1: ATEN Secure KVM Switch TOE Models ...........................................................................................1 Table 2: Terms and Definitions .....................................................................................................................3 Security Target Version 1.1 2022-03-08 iv Table 3: Acronyms.........................................................................................................................................5 Table 4: ATEN Secure KVM Switch Console Interfaces and TOE Models......................................................8 Table 5: ATEN Secure KVM Switch Computer Interfaces and TOE Models ..................................................9 Table 6: Security Objectives for the Operational Environment..................................................................16 Table 7: TOE Security Functional Components...........................................................................................18 Table 8: Audio Filtration Specifications ......................................................................................................20 Table 9: TOE Security Functional Components (DP Models)......................................................................27 Table 10: TOE Security Functional Components (H Models)......................................................................28 Table 11: TOE Security Functional Components (D Models)......................................................................29 Table 12: Assurance Components...............................................................................................................30 Table 13: Supported protocols by port.......................................................................................................34 Table 14: DP Models ...................................................................................................................................36 Table 15: H Models .....................................................................................................................................37 Table 16: D Models .....................................................................................................................................37 Table 17: SFR Protection Profile Sources...................................................................................................44 Table 18: Security Functions vs. Requirements Mapping...........................................................................46 Security Target Version 1.1 2022-03-08 1 1 Security Target Introduction This section identifies the Security Target (ST) and Target of Evaluation (TOE) identification, ST conventions, ST conformance claims, and the ST organization. The TOE is ATEN Secure KVM Switch Series (Non-CAC Models) provided by ATEN. The Security Target contains the following additional sections: • TOE Description (Section 2) • Security Problem Definition (Section 3) • Security Objectives (Section 4) • IT Security Requirements(Section 5) • TOE Summary Specification (Section 6) • Protection Profile Claims (Section 7) • Rationale (Section 8) 1.1 Security Target, Target of Evaluation, and Common Criteria Identification ST Title: ATEN Secure KVM Switch Series (Non-CAC Models) Security Target ST Version: Version 1.1 ST Date: 2022-03-08 Target of Evaluation (TOE) Identification: ATEN Secure KVM Switch Series (Non-CAC Models) TOE Versions: The following table identifies the model numbers per configuration. The firmware version for all models is v1.1.101. Table 1: ATEN Secure KVM Switch TOE Models Configuration 2-Port 4-Port 8-Port DisplayPort Single Head CS1182DP4 CS1184DP4 CS1188DP4 Dual Head CS1142DP4 CS1144DP4 CS1148DP4 HDMI Single Head CS1182H4 CS1184H4 N/A Dual Head CS1142H4 CS1144H4 N/A DVI Single Head CS1182D4 CS1184D4 CS1188D4 Dual Head CS1142D4 CS1144D4 CS1148D4 The TOE includes a wired remote controller: Remote Peripheral Selector (RPS) that is available to customers as an additional purchase. This device has the same firmware version as the models above. TOE Developer: ATEN Evaluation Sponsor: ATEN CC Identification: Common Criteria for Information Technology Security Evaluation, Version 3.1, Revision 5, April 2017. Security Target Version 1.1 2022-03-08 2 1.2 Conformance Claims This ST and the TOE it describes are conformant to the following CC specifications: • Common Criteria for Information Technology Security Evaluation Part 2: Security Functional Components, Version 3.1 Revision 5, April 2017 • Part 2 Extended • Common Criteria for Information Technology Security Evaluation Part 3: Security Assurance Components, Version 3.1 Revision 5, April 2017 • Part 3 Conformant This ST and the TOE it describes claim exact conformance to the following PP-Configuration: PP- Configuration for Peripheral Sharing Device, Analog Audio Output Devices, Keyboard/Mouse Devices, and Video/Display Devices, 19 July 2019 (CFG_PSD-AO-KM-VI_V1.0) This PP-Configuration includes the following components: • Protection Profile for Peripheral Sharing Device, Version 4.0, 19 July 2019 (PP_PSD_V4.0) or [PSD] o including the following optional and selection-based SFRs: FAU_GEN.1, FDP_RIP_EXT.2, FDP_SWI_EXT.2, FIA_UAU.2, FIA_UID.2, FMT_MOF.1, FMT_SMF.1, FMT_SMR.1, FPT_PHP.3, FPT_STM.1, and FTA_CIN_EXT.1. • PP-Module for Analog Audio Output Devices, Version 1.0, 19 July 2019 (MOD_AO_V1.0). • PP-Module for Keyboard/Mouse Devices, Version 1.0, 19 July 2019 (MOD_KM_V1.0) o including the following optional and selection-based SFRs: FDP_FIL_EXT.1/KM, FDP_RIP.1/KM, and FDP_SWI_EXT.3. • PP-Module for Video/Display Devices, Version 1.0, 19 July 2019 (MOD_VI_V1.0) o including the following selection-based SFRs: FDP_CDS_EXT.1, FDP_IPC_EXT.1, FDP_SPR_EXT.1/DP(DP), FDP_SPR_EXT.1/DVI-I(D), and FDP_SPR_EXT.1/HDMI(H). The following NIAP Technical Decisions are applicable to the claimed Protection Profile and Modules: • TD0593 – Equivalency Arguments for PSD • TD0586 – DisplayPort and HDMI Interfaces in FDP_IPC_EXT.1 • TD0585 – Update to FDP_APC_EXT.1 Audio Output Tests • TD0584 – Update to FDP APC_EXT.1 Video Tests • TD0583 – FPT_PHP.3 modified for PSD remote controllers • TD0557 – Correction to Audio Filtration Specification Table in FDP_AFL_EXT.1 • TD0539 – Incorrect Selection Trigger in FTA_CIN_EXT.1 in MOD_VI_V1.0 The TOE does not fit the Combiner Use Case and so the specific assignment required by the VI Module does not apply. • TD0518 – Typographical Error in Dependency Table • TD0514 – Correction to MOD_VI FDP_APC_EXT.1 Test 3 Step 6 • TD0507 – Clarification on USB Plug Type • TD0506 – Missing Steps to Disconnect and Reconnect Display Security Target Version 1.1 2022-03-08 3 1.3 Conventions The Security Functional Requirements included in this section are derived from Part 2 of the Common Criteria for Information Technology Security Evaluation, Version 3.1, Revision 5, with additional extended functional components. The CC defines operations on Security Functional Requirements: assignments, selections, assignments within selections, iterations, and refinements. This document retains all operations completed by the PP author (i.e. selections/assignments they already filled out). These are formatted as italicized text. This document uses the following font conventions to identify iterations, extended SFRs and operations performed by the ST author: • Refinement operation (denoted by bold text and underline) is used to add details to a requirement, and thus further restricts a requirement. • Selection (denoted by italicized bold text): is used to select one or more options provided by the [CC] in stating a requirement. Selection operations completed in the PP are shown in brackets. • Assignment operation (denoted by bold text) is used to assign a specific value to an unspecified parameter, such as the length of a password. Showing the value in square brackets indicates assignment. Assignments within Selections are denoted by italicized bold text). • Iteration operation is identified with a slash (‘/’) and an identifier (e.g. “/KM”). Additional iterations made by the ST author are defined with a reference in parentheses to the specific TOE models they apply to, e.g. “(DP)” indicates the SFR only applies to DisplayPort models. Though technically not an iteration FDP_IPC_EXT.1, also uses this convention to clarify that this requirement only applies to certain models. • Extended SFRs are identified by having a label “EXT” after the SFR name. 1.3.1 Terminology Table 2: Terms and Definitions Term Definition Aligned Detected and accepted the connection by the KVM. Assurance Grounds for confidence that a TOE meets the SFRs. Authorized Peripheral A Peripheral Device that is both technically supported and administratively permitted to have an active interface with the PSD. Combiner (multi-viewer) A PSD with video integration functionality that is used to simultaneously display output from multiple personal computers (PCs). Common Criteria (CC) Common Criteria for Information Technology Security Evaluation. Common Evaluation Methodology (CEM) Common Evaluation Methodology for Information Technology Security Evaluation. Computer Interface The PSD’s physical receptacle or port for connecting to a computer. Configurable Device Filtration (CDF) A PSD function that filters traffic based on properties of a connected peripheral device and criteria that are configurable by an Administrator. Connected Computer A computing device connected to a PSD. May be a personal computer, server, tablet, or any other computing device. Security Target Version 1.1 2022-03-08 4 Term Definition Connected Peripheral A Peripheral that is connected to a PSD. Connection A physical or logical conduit that enables Devices to interact through respective interfaces. May consist of one or more physical (e.g., a cable) or logical (e.g., a protocol) components. Connector The plug on a Connection that attaches to a Computer or Peripheral Interface. Device An information technology product. In the context of this PP, a Device is a PSD, a Connected Computer, or a Connected Peripheral. Display A device that visually outputs user data, such as a monitor. Interface A shared boundary across which two or more Devices exchange information through a Connection. KM A type of PSD that shares a keyboard and pointing device between Connected Computers. A KM may optionally include an analog audio device. KVM A type of PSD that shares a keyboard, video, and pointing device between Connected Computers. A KVM may optionally include an analog audio device and user authentication device. Letter of Volatility A letter issued by the manufacturer outlining whether onboard memory can store data when the device is powered off (non‐volatile) or not (volatile). Monitoring The ability of a User to receive an indicator of the current Active Interface. Non-Selected Computer A Connected Computer that has no Active Interfaces with the PSD. Peripheral Interface The PSD’s physical receptacle or port for connecting to a Peripheral Device. Peripheral/Peripheral Device A Device with access that can be Shared or Filtered by a PSD. Protection Profile (PP) An implementation‐independent set of security requirements for a category of products. Remote Controller Remote component of the PSD that extends the controls and indications through a cable. Secure State An operating condition in which the PSD disables all connected peripheral and connected computer interfaces when the correctness of its functions cannot be ensured. Security Assurance Requirement (SAR) A requirement to assure the security of the TOE. Security Functional Requirement (SFR) A requirement for security enforcement by the TOE. Security Target (ST) Implementation‐independent documentation that describes a TOE, its Operational Environment, and its claimed security functionality. Selected Computer A Connected Computer that has Active Interfaces with the PSD. Supported Peripheral A Peripheral Device that is technically supported by the PSD. Target of Evaluation(TOE) A product or component, consisting of hardware, software, and/or firmware, that claims to implement certain security functionality in a specific and well-defined manner. Security Target Version 1.1 2022-03-08 5 Term Definition TOE Security Functionality (TSF) The combined hardware, software, and firmware capabilities of a TOE that are responsible for implementation of its claimed SFRs. TOE Security Functionality Interface (TSFI) Any external interface between the TOE and its Operational Environment that has a security‐relevant purpose or is used to transmit security‐relevant data. TOE Summary Specification (TSS) Documentation contained within the Security Target that provides the reader with a description of how the TOE implements the claimed SFRs. User A person that interacts with a PSD (or a process or mechanism acting on behalf of a person). User Authentication Device A Peripheral Device that is used to affirm the identity of a User attempting to authenticate to a computer (e.g., smart card reader, biometric authentication device, proximity card reader). User Data Information that the User inputs to the Connected Computer or is output to the User from the Connected Computer (and including user authentication and credential information) 1.3.2 Acronyms Table 3: Acronyms Acronym Definition ARC Audio Return Channel AUX Display Port Auxiliary Channel CAC Common Access Card CDF Configurable Device Filtering CEC Consumer Electronics Control DVI Digital Visual Interface EDID Extended Display Identification Data EEPROM Electrically Erasable Programmable Read-Only Memory FIPS Federal Information Processing Standards HD High Definition HDCP High‐bandwidth Digital Content Protection HDMI High Definition Multimedia Interface HEAC HDMI Ethernet Audio Control HEC HDMI Ethernet Channel HID Human Interface Device HPD Hot Plug Detect IT Information Technology KVM Keyboard, Video, and Mouse LED Light-Emitting Diode MCCS Hot Plug Detect Security Target Version 1.1 2022-03-08 6 Acronym Definition PC Personal Computer PSD Peripheral Sharing Device RPS Remote Port Selector SFP Security Function Policy USB Universal Serial Bus Security Target Version 1.1 2022-03-08 7 2 TOE Description 2.1 Product Overview The TOE is the ATEN Secure KVM Switch Series (non CAC Models). Each of the sixteen models identified in Section 1.1 is a Peripheral Sharing Device that include console ports and computer ports. The console ports are used to connect a single set of peripherals, including a mouse, keyboard, speaker, and one or two video displays (depending on specific device type) to the TOE. The TOE’s computer ports are connected to up to 2, 4, or 8 separate computers (again depending on specific device type). The user can then securely switch the connected console peripherals between any of the connected computers while preventing unauthorized data flows or leakage between computers. The TOE supports manual port switching using a press and release a port selection push button (on the switch, or on the Remote Port Selector (RPS) if connected and aligned) to bring the KVM focus to the computer attached to its corresponding port. 2.2 TOE Overview The TOE is the ATEN Secure Switch series of products without CAC. The TOE allows users to connect a single set of peripherals to its console ports to interact with multiple computers that are connected to it via its computer ports. Controls on the TOE chassis or on the RPS allow the user to select which of the connected computers is ‘active’ such that the peripherals connected to the console can be used to interact with the selected computer. The TOE’s console ports support USB keyboard and mouse, analog audio out (speakers), and depending on model, DisplayPort, HDMI or DVI-I display. The TOE’s computer ports support USB keyboard and mouse, analog audio, and depending on model, DisplayPort, HDMI, or DVI-I display. The TOE includes multiple models, all with the same basic functionality. The differences between models are: • The type of display interface supported on the console ports (DisplayPort, HDMI or DVI-I) • The type of display interface supported on the computer ports (DisplayPort, HDMI, or DVI-I) • The number of sets of computer ports, which determines how many computers can be connected to the TOE at one time (up to 2, 4, or 8) 2.3 TOE Architecture The ATEN Secure KVM series are KVM switches with the following characteristics: • 2/4/8 port USB DisplayPort single and dual display for DisplayPort (6 devices) • 2/4 port USB HDMI single and dual display for HDMI (4 devices) • 2/4/8 port USB DVI single and dual display for DVI (6 devices). The Secure KVM Switch products allow for the connection of a mouse, keyboard, and one or two video displays (depending on specific device type) to the Secure KVM Switch, which is then connected to 2, up to 4, or up to 8 separate computers (again depending on specific device type). The user can then switch the connected peripherals between any of the connected computers using a push button on the front of Security Target Version 1.1 2022-03-08 8 the device or on the RPS. The selected device is always identifiable by a bright orange LED associated with the applicable selection button. To interface with connected computers, the Secure KVM Switch products support analog audio output and USB connections for the keyboard/mouse device. Depending on model, they support DisplayPort, DVI-I, or HDMI for the computer video display interface. The switched peripherals on the console side are analog audio output, USB keyboard and mouse, and DisplayPort, HDMI or DVI-I video output (depending on model). Separate USB cables are used to connect the keyboard/mouse combination to the connected computers. The Secure KVM Switch products supporting DisplayPort convert the DisplayPort video signal to HDMI. The HDMI signal inside the KVM will be converted again to DisplayPort signal for output to the connected video display(s) and the AUX channel is monitored and converted to EDID. The Secure KVM Switch products also support audio output connections from the computers to a connected audio output device. Only speaker connections are supported and the use of an analog microphone or line-in audio device is prohibited. The tables below identify the interfaces of the Secure KVM console and computer ports according to model number. Table 4: ATEN Secure KVM Switch Console Interfaces and TOE Models Model No. Console Video Output Interface Console Keyboard Console Mouse Console Audio output DisplayPort HDMI DVI-I USB 1.1/2.0 USB 1.1/2.0 3.5mm Analog Audio output (Speaker) CS1182DP4 • • • • CS1142DP4 • • • • CS1182H4 • • • • CS1142H4 • • • • CS1182D4 • • • • CS1142D4 • • • • CS1184DP4 • • • • CS1144DP4 • • • • CS1184H4 • • • • CS1144H4 • • • • CS1184D4 • • • • CS1144D4 • • • • CS1188DP4 • • • • CS1148DP4 • • • • CS1188D4 • • • • CS1148D4 • • • • Security Target Version 1.1 2022-03-08 9 Table 5: ATEN Secure KVM Switch Computer Interfaces and TOE Models Model No. Computer Video Input Interface Computer Keyboard / Mouse Computer Audio Input DisplayPort HDMI DVI-I USB 1.1/2.0 3.5mm Analog Audio Input (Speaker) CS1182DP4 • • • CS1142DP4 • • • CS1182H4 • • • CS1142H4 • • • CS1182D4 • • • CS1142D4 • • • CS1184DP4 • • • CS1144DP4 • • • CS1184H4 • • • CS1144H4 • • • CS1184D4 • • • CS1144D4 • • • CS1188DP4 • • • CS1148DP4 • • • CS1188D4 • • • CS1148D4 • • • The ATEN Secure KVM products implement a secure isolation design for all models to share a single set of peripheral components. Each peripheral has its own dedicated data path. USB keyboard and mouse peripherals are filtered and emulated. DisplayPort video from the selected computer is converted internally to HDMI, then back to DisplayPort for communication with the connected video display and the AUX channel is monitored and converted to EDID. The Secure KVM Switch products are designed to enforce the allowed and disallowed data flows between user peripheral devices and connected computers as specified in [PSD]. Data leakage is prevented across the TOE to avoid compromise of the user's information. The Secure KVM Switch products automatically clear the internal TOE keyboard and mouse buffers. Figure 1 shows the data path design using a 2-Port KVM as an example. Security Target Version 1.1 2022-03-08 10 Figure 1: Simplified Block Diagram of a 2-Port KVM TOE As shown in Figure 1 above, the internal components of the KVM consist of switches, emulators, USB host controllers, processors, and embedded with non-updateable firmware v1.1.101. The internal hardware components are identified in Appendix A and include the manufacturer and the part number. The data flow of USB keyboard/mouse is controlled by the host controller for console HID keyboard and pointing devices. Details of the data flow architecture are provided in the proprietary Secure KVM Isolation Document. All keyboard and mouse connections are filtered first, and only authorized devices will be allowed. The TOE emulates data from authorized USB keyboard and mouse to USB data for computer sources. The TOEs proprietary design ensures there is no possibility of data leakage from a user’s peripheral output device to the input device; ensures that no unauthorized data flows from the monitor to a connected computer; and unidirectional buffers ensure that the audio data can travel only from the selected computer to the audio device. There is no possibility of data leakage between computers or from a peripheral device connected to a console port to a non-selected computer. Each connected computer has its own independent Device Controller, power circuit, and EEPROM. Additionally, keyboard and mouse are always switched together. All Secure KVM Switch components including the RPS, feature hardware security mechanisms including tamper-evident labels, always active chassis-intrusion detection, and tamper-proof hardware construction, while software security includes restricted USB connectivity (non-Human Interface Devices (HIDs) are ignored when switching), an isolated channel per port that makes it impossible for data to be communicated between computers, and automatic clearing of the keyboard and mouse buffer. Security Target Version 1.1 2022-03-08 11 A detailed description of the TOE security features can be found in Section 6 (TOE Summary Specification). 2.3.1 Physical Boundary The TOE includes the RPS and hardware models identified in Section 1.1 along with embedded firmware v1.1.101 and corresponding documentation identified in Section 2.5 below. An optional KVM cable set (not supplied with the TOE) is available as a separate purchase. The KVM cable sets are built for the KVM connection to the PCs, providing better compatibility. Users can connect the KVM and PCs using their own cable sets as long as the protocols are compatible but the vendor cable sets are recommended. The TOE was tested using the cable sets mentioned above and the following adapters: • UC32381 (USB-C to HDMI converter) • UC3239 (USB-C to DP converter) • VC986 (Active DP-to-HDMI adapter) • VC965 (Active DP-to-DVI adapter) While the cable sets and adapters were supplied, they were not included in the evaluation because they are considered part of the operational environment, along with the switched PCs, peripheral devices, DisplayPort / HDMI / DVI-I monitors, USB keyboard, USB mouse, 3.5mm audio output (e.g. speakers) and the host computers. The following figure shows a representative TOE and its environment. In particular, it shows a four port, single-head KVM and its connections. Security Target Version 1.1 2022-03-08 12 Figure 2: Representative ATEN Secure KVM Switch TOE Model in its environment The ATEN Secure KVM devices do not include any wireless interfaces. The ATEN Secure KVM devices have been tested and found to comply with the radio frequency emissions limits for a Class A digital device, pursuant to Part 15 of the Federal Communications Commission rules. If not installed and used in accordance with the guidance instructions, the device may cause harmful interference to radio communications. This evaluation did not test for RFI leakage of information. 2.4 Logical Boundary This section summarizes the security functions provided by the TOE: • Security Audit • User Data Protection • Identification and authentication • Security Management • Protection of the TSF • TOE Access Security Target Version 1.1 2022-03-08 13 2.4.1 Security Audit The TOE generates audit records for the authorized administrator actions. Each audit record records a standard set of information such as date and time of the event, type of event, and the outcome (success or failure) of the event. 2.4.2 User Data Protection The TOE controls and isolates information flowing between the peripheral device interfaces and a computer interface. The peripheral devices supported include USB keyboard; USB mouse; audio output; and (depending on device type) DisplayPort, DVI-I, or HDMI video. Some TOE models accept DisplayPort signals at the computer interface and internally convert the signals to HDMI signals and then convert back to DisplayPort for output to the console interface. The TOE authorizes peripheral device connections with the TOE console ports based on the peripheral device type. The TOE ensures that any previous information content of a resource is made unavailable upon the deallocation of the resource from a TOE computer interface immediately after the TOE switches to another selected computer and on start-up of the TOE. The TOE provides a Reset to Factory Default function allowing authenticated authorized Administrators to remove all settings previously configured by the Administrator (such as USB device whitelist/blacklist). Once the Reset to Factory Default function has been completed, the Secure KVM will terminate the Administrator Logon mode, purge keyboard/mouse buffer, and power cycle the Secure KVM automatically. 2.4.3 Identification and Authentication The TOE provides an identification and authentication function for the administrative user to perform administrative functions such as configuring the keyboard/mouse device filtering blacklist. The authorized administrator must logon by providing a valid password. 2.4.4 Security Management The management functions are restricted to the authorized administrator and allow the TOE to be configured to reject specific USB keyboard/mouse devices using CDF blacklist parameters. Additionally, the TOE provides security management functions to Reset to Factory Default and to change the administrator password. 2.4.5 Protection of the TSF The TOE runs a suite of self-tests during initial startup and after activating the reset button that includes a test of the basic TOE hardware and firmware integrity; a test of the basic computer-to-computer isolation; and a test of critical security functions (i.e., user control and anti-tampering). The TOE provides users with the capability to verify the integrity of the TSF and the TSF functionality. The TOE resists physical attacks on the main TOE enclosure as well as the RPS enclosure for the purpose of gaining access to the internal components or to damage the anti-tampering battery by becoming Security Target Version 1.1 2022-03-08 14 permanently disabled. The TOE preserves a secure state by disabling the TOE when there is a failure of the power on self-test, or a failure of the anti-tampering function. The TOE provides unambiguous detection of physical tampering that might compromise the TSF. The TSF provides the capability to determine whether physical tampering with the TSF's devices or TSF's elements has occurred. 2.4.6 TOE Access The TOE displays a continuous visual indication of the computer to which the user is currently connected, including on power up, and on reset. 2.5 TOE Documentation There are several documents that provide information and guidance for the deployment and usage of the TOE. In particular, the following guides reference the security-related guidance material for all devices in the evaluated configuration. Guidance Documentation: • ATEN PSD PP v4.0 Secure KVM Switch Series 2/4/8-Port USB DVI/HDMI/DisplayPort Single/Dual Display PP v4.0 Secure KVM Switch Administrator Guide, Version 1.03, 2021-1-25 • ATEN PSD PP v4.0 Secure KVM Switch Series 2/4/8-Port USB DVI/HDMI/DisplayPort Single/Dual Display PP v4.0 Secure KVM Switch User Manual, Version 1.03, 2021-1-25 • ATEN PSD PP v4.0 Secure KVM Switch Series 2/4/8-Port USB DVI/HDMI/DisplayPort Single/Dual Display PP v4.0 Secure KVM Switch Admin Log Audit Code, Version 1.03, 2021-1-25 TOE Documentation: • PP4.0 Secure KVM Isolation Document, Version 1.1 (Proprietary) o Note: The PP4.0 Secure KVM Isolation Document is proprietary as permitted by PSD 4.0 Annex D.1 Isolation Document and Assessment. o The isolation document supplements the security target Section 6 TOE Summary Specification in order to demonstrate the TOE provides isolation between connected computers. In particular, the isolation document describes how the TOE mitigates the risk of each unauthorized data flow listed in PSD 4.0 Annex D and Evaluation Activities specified in the PP v4.0 and modules. Security Target Version 1.1 2022-03-08 15 3 Security Problem Definition This security target includes by reference the Security Problem Definition from the [PSD], [MOD_AO_V1.0], and [MOD_VI_V1.0]. The Security Problem Definition consists of threats that a conformant TOE is expected to address and assumptions about the operational environment of the TOE. In general, the [PSD] has presented a Security Problem Definition appropriate for peripheral sharing devices. The ATEN Secure KVM Switch Series supports KVM (USB Keyboard/Mouse, analog audio (out), DisplayPort, DVI-I and HDMI video) peripheral switch functionality by combining a 2/4/8 port KVM switch, and an audio output port. As such, the [PSD] Security Problem Definition applies to the TOE. Security Target Version 1.1 2022-03-08 16 4 Security Objectives Like the Security Problem Definition, this Security Target includes by reference the Security Objectives from the [PSD], [MOD_VI_V1.0], [MOD_AO_V1.0], and [MOD_KM_V1.0]. The [PSD], [MOD_AO_V1.0], and [MOD_VI_V1.0] security objectives for the operational environment are reproduced below, since these objectives characterize technical and procedural measures each consumer must implement in their operational environment. In general, the [PSD] has presented a Security Objectives statement appropriate for peripheral sharing devices. Consequently, the [PSD] security objectives are suitable for the TOE. 4.1 Security Objectives for the Operational Environment Table 6: Security Objectives for the Operational Environment Objective Description OE.NO_MICROPHONES (from [MOD_AO_V1.0]) The operational environment is expected to ensure that microphones are not plugged into the TOE audio output interfaces. OE.NO_SPECIAL_ANALOG_CAPABILITIES (from [MOD_VI_V1.0]) The operational environment will not have special analog data collection cards or peripherals such as analog to digital interface, high performance audio interface, or a component with digital signal processing or analog video capture functions. OE. NO_TEMPEST (from [PSD]) The operational environment will not use TEMPEST approved equipment. OE.NO_WIRELESS_DEVICES (from [PSD]) The operational environment will not include wireless keyboards, mice, audio, user authentication, or video devices. OE.PHYSICAL (from [PSD]) The operational environment will provide physical security, commensurate with the value of the PSD and the data that transits it. OE.TRUSTED_ADMIN (from [PSD]) The operational environment will ensure that trusted PSD Administrators and users are appropriately trained. OE.TRUSTED_CONFIG (from [PSD]) The operational environment will ensure that administrators configuring the PSD and its operational environment follow the applicable security configuration guidance. Security Target Version 1.1 2022-03-08 17 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 Protection Profile: [PSD] and the modules: [MOD_AO_V1.0], [MOD_KM_V1.0], and [MOD_VI_V1.0], and include some of the optional and selection-based SFRs. As a result, refinements and operations already performed in that PP and modules are not identified (e.g., highlighted) here, rather the requirements have been copied from that PP and any residual operations have been completed herein. Of particular note, the [PSD] and modules made a number of refinements and completed some of the SFR operations defined in the CC and that PP should be consulted to identify those changes if necessary. The SARs are the set of SARs specified in [PSD]. 5.1 Extended Requirements All of the extended requirements in this ST have been drawn from the [PSD] and the modules: [MOD_AO_V1.0], [MOD_KM_V1.0], and [MOD_VI_V1.0]. The [PSD] and modules define the following extended SFRs and since they are not redefined in this ST, the [PSD] and associated modules should be consulted for more information in regard to those CC extensions. • FDP_AFL_EXT.1 – Audio Filtration • FDP_APC_EXT.1 – Active PSD Connections • FDP_CDS_EXT.1 – Connected Displays Supported • FDP_FIL_EXT.1/KM – Device Filtering (Keyboard/Mouse) • FDP_IPC_EXT.1(DP) – Internal Protocol Conversion • FDP_PDC_EXT.1 – Peripheral Device Connection • FDP_PDC_EXT.2/AO – Peripheral Device Connection (Audio Output) • FDP_PDC_EXT.2/KM – Authorized Devices (Keyboard/Mouse) • FDP_PDC_EXT.2/VI – Peripheral Device Connection (Video Output) • FDP_PDC_EXT.3/KM – Authorized Connection Protocols (Keyboard/Mouse) • FDP_PDC_EXT.3/VI(DP) – Authorized Connection Protocols (DP Models) • FDP_PDC_EXT.3/VI(H) – Authorized Connection Protocols (H Models) • FDP_PDC_EXT.3/VI(D) – Authorized Connection Protocols (D Models) • FDP_PUD_EXT.1 – Powering Unauthorized Devices • FDP_RIP_EXT.1 – Residual Information Protection • FDP_RIP_EXT.2 – Purge of Residual Information • FDP_SPR_EXT.1/DP(DP) – Sub-Protocol Rules (DisplayPort Protocol) • FDP_SPR_EXT.1/DVI-I(D) – Sub-Protocol Rules (DVI-I Protocol) • FDP_SPR_EXT.1/HDMI(H) – Sub-Protocol Rules (HDMI Protocol) • FDP_SWI_EXT.1 – PSD Switching • FDP_SWI_EXT.2 – PSD Switching Methods • FDP_SWI_EXT.3 – Tied Switching • FDP_UDF_EXT.1/AO – Unidirectional Data Flow (Audio Output) Security Target Version 1.1 2022-03-08 18 • FDP_UDF_EXT.1/KM – Unidirectional Data Flow (Keyboard/Mouse) • FDP_UDF_EXT.1/VI – Unidirectional Data Flow (Video Output) • FPT_FLS_EXT.1 – Failure with Preservation of Secure State • FPT_NTA_EXT.1 – No Access to TOE • FPT_TST_EXT.1 – TSF Testing • FTA_CIN_EXT.1 – Continuous Indications 5.2 TOE Security Functional Requirements (PSD, MOD_AO_V1.0, MOD_KM_V1.0) This section identifies the TOE Security Functional Requirements for the PSD 4.0, and modules [MOD_AO_V1.0], [MOD_KM_V1.0]. Section 5.3 identifies the requirements for the Video/Display Device Module. Tables 7, 9, 10 and 11 identify the SFRs that are satisfied by the TOE. Table 7: TOE Security Functional Components Requirement Class Requirement Component FAU: Security Audit FAU_GEN.1 – Audit Data Generation FDP: User Data Protection FDP_AFL_EXT.1 – Audio Filtration FDP_APC_EXT.1/AO – Active PSD Connections (Audio Output) FDP_APC_EXT.1/KM – Active PSD Connections (Keyboard/Mouse) FDP_APC_EXT.1/VI – Active PSD Connections (Video/Display) FDP_CDS_EXT.1 – Connected Displays Supported FDP_FIL_EXT.1/KM – Device Filtering (Keyboard/Mouse) FDP_PDC_EXT.1 – Peripheral Device Connection FDP_PDC_EXT.2/AO – Peripheral Device Connection (Audio Output) FDP_PDC_EXT.2/KM – Authorized Devices (Keyboard/Mouse) FDP_PDC_EXT.2/VI – Peripheral Device Connection (Video Output) FDP_PDC_EXT.3/KM – Authorized Connection Protocols (Keyboard/Mouse) FDP_PUD_EXT.1 – Powering Unauthorized Devices FDP_RIP.1/KM – Residual Information Protection (Keyboard Data) FDP_RIP_EXT.1 – Residual Information Protection FDP_RIP_EXT.2 – Purge of Residual Information FDP_SWI_EXT.1 – PSD Switching Security Target Version 1.1 2022-03-08 19 Requirement Class Requirement Component FDP_SWI_EXT.2 – PSD Switching Methods FDP_SWI_EXT.3 – Tied Switching FDP_UDF_EXT.1/AO – Unidirectional Data Flow (Audio Output) FDP_UDF_EXT.1/KM – Unidirectional Data Flow (Keyboard/Mouse) FDP_UDF_EXT.1/VI – Unidirectional Data Flow (Video Output) FIA: Identification and Authentication FIA_UAU.2 – User Authentication Before Any Action FIA_UID.2 – User Identification Before Any Action FMT: Security Management FMT_MOF.1 – Management of Security Functions Behavior FMT_SMF.1 – Specification of Management Functions FMT_SMR.1 – Security Roles FPT: Protection of the TSF FPT_FLS_EXT.1 – Failure with Preservation of Secure State FPT_NTA_EXT.1 – No Access to TOE FPT_PHP.1 – Passive Detection of Physical Attack FPT_PHP.3 – Resistance to Physical Attack FPT_STM.1 Reliable Time Stamps FPT_TST.1 – TSF Testing FPT_TST_EXT.1 – TSF Testing FTA: TOE Access FTA_CIN_EXT.1 – Continuous Indications 5.2.1 Security Audit (FAU) 5.2.1.1 Audit Data Generation (FAU_GEN.1) FAU_GEN.1.1 The TSF shall be able to generate an audit record of the following auditable events: a. Start‐up and shutdown of the audit functions; b. All auditable events for the [not specified] level of audit; and c. [administrator login, administrator logout, self‐test failures, peripheral device acceptance and rejections, [modification of the TOE keyboard, mouse filtering blacklist, Reset to Factory Default, view audit logs, change password]]. FAU_GEN.1.2 The TSF shall record within each audit record at least the following information: Security Target Version 1.1 2022-03-08 20 a. Date and time of the event, type of event, subject identity (if applicable), and the outcome (success or failure) of the event; and b. For each audit event type, based on the auditable event definitions of the functional components included in the PP/ST, [no other information]. 5.2.2 User Data Protection (FDP) 5.2.2.1 Audio Filtration (FDP_AFL_EXT.1) FDP_AFL_EXT.1.1 The TSF shall ensure outgoing audio signals are filtered as per [Audio Filtration Specifications table1 ]. Table 8: Audio Filtration Specifications Frequency (kHz) Minimum Attenuation (dB) Maximum Voltage After Attenuation 14 23.9 127.65 mV 15 26.4 95.73 mV 16 30.8 57.68 mV 17 35.0 35.57 mV 18 38.8 22.96 mV 19 43.0 14.15 mV 20 46.0 10.02 mV 30 71.4 0.53 mV 40 71.4 0.53 mV 50 71.4 0.53 mV 60 71.4 0.53 mV 5.2.2.2 Active PSD Connections (Audio Output) (FDP_APC_EXT.1/AO) FDP_APC_EXT.1.1/AO The TSF shall route user data only from the interfaces selected by the user. FDP_APC_EXT.1.2/AO The TSF shall ensure that no data or electrical signals flow between connected computers whether the TOE is powered on or powered off. FDP_APC_EXT.1.3/AO The TSF shall ensure that no data transits the TOE when the TOE is powered off. FDP_APC_EXT.1.4/AO The TSF shall that no data transits the TOE when the TOE is in a failure state. Application Note: This SFR is originally defined in the Base-PP but is refined and iterated to apply to the audio output interface per section 5.1.2 of the Audio Output PP-Module. 1 TD0557 modified the Maximum Voltage After Attenuation for 30-60 kHz to 0.53 mV in Table 8. Security Target Version 1.1 2022-03-08 21 5.2.2.3 Active PSD Connections (Keyboard/Mouse) (FDP_APC_EXT.1/KM) FDP_APC_EXT.1.1/KM The TSF shall route user data only to the interfaces selected by the user. FDP_APC_EXT.1.2/KM The TSF shall ensure that no data or electrical signals flow between connected computers whether the TOE is powered on or powered off. FDP_APC_EXT.1.3/KM The TSF shall ensure that no data transits the TOE when the TOE is powered off. FDP_APC_EXT.1.4/KM The TSF shall that no data transits the TOE when the TOE is in a failure state Application Note: This SFR is originally defined in the Base-PP but is refined and iterated to apply to the keyboard/mouse interface per section 5.1.2 of the Keyboard/Mouse PP- Module. 5.2.2.4 Active PSD Connections (Video/Display) (FDP_APC_EXT.1/VI) FDP_APC_EXT.1.1/VI The TSF shall route user data only from the interfaces selected by the user. FDP_APC_EXT.1.2/VI The TSF shall ensure that no data or electrical signals flow between connected computers whether the TOE is powered on or powered off. FDP_APC_EXT.1.3/VI The TSF shall ensure that no data transits the TOE when the TOE is powered off. FDP_APC_EXT.1.4/VI The TSF shall that no data transits the TOE when the TOE is in a failure state. Application Note: This SFR is originally defined in the Base-PP but is refined and iterated to apply to the video interface per section 5.1.2 of the Video/Display PP-Module. 5.2.2.5 Connected Displays Supported (FDP_CDS_EXT.1) FDP_CDS_EXT.1.1 The TSF shall support [one connected display for TOE models beginning with CS1182, CS1184, CS1188, multiple connected displays for all other TOE models] at a time. 5.2.2.6 Device Filtering (Keyboard/Mouse) (FDP_FIL_EXT.1/KM) FDP_FIL_EXT.1.1/KM The TSF shall have [configurable] device filtering for [keyboard, mouse] interfaces. FDP_FIL_EXT.1.2/KM The TSF shall consider all [PSD KM] blacklisted devices as unauthorized devices for [keyboard, mouse] interfaces in peripheral device connections. FDP_FIL_EXT.1.3/KM The TSF shall consider all [PSD KM] whitelisted devices as authorized devices for [keyboard, mouse] interfaces in peripheral device connections only if they are not on the [PSD KM] blacklist or otherwise unauthorized. 5.2.2.7 Peripheral Device Connection (FDP_PDC_EXT.1) FDP_PDC_EXT.1.1 The TSF shall reject connections with unauthorized devices upon TOE power up and upon connection of a peripheral device to a powered‐on TOE. Security Target Version 1.1 2022-03-08 22 FDP_PDC_EXT.1.2 The TSF shall reject connections with devices presenting unauthorized interface protocols upon TOE power up and upon connection of a peripheral device to a powered‐on TOE. FDP_PDC_EXT.1.3 The TOE shall have no external interfaces other than those claimed by the TSF. FDP_PDC_EXT.1.4 The TOE shall not have wireless interfaces. FDP_PDC_EXT.1.5 The TOE shall provide a visual or auditory indication to the User when a peripheral is rejected. 5.2.2.8 Peripheral Device Connection (Audio Output) (FDP_PDC_EXT.2/AO) FDP_PDC_EXT.2.1/AO The TSF shall allow connections with authorized devices as defined in [Appendix E of the AO Module] and [ • authorized devices and functions as defined in the PP‐Module for Keyboard/Mouse Devices, • authorized devices as defined in the PP‐Module for Video/Display Devices, ] upon TOE power up and upon connection of a peripheral device to a powered- on TOE. FDP_PDC_EXT.2.2/AO The TSF shall allow connections with authorized devices presenting authorized interface protocols as defined in [Appendix E of the AO Module] and [ • authorized devices presenting authorized interface protocols as defined in the PP‐Module for Keyboard/Mouse Devices, • authorized devices presenting authorized interface protocols as defined in the PP‐Module for Video/Display Devices, ] upon TOE power up and upon connection of a peripheral device to a powered- on TOE. 5.2.2.9 Authorized Devices (Keyboard/Mouse) (FDP_PDC_EXT.2/KM) FDP_PDC_EXT.2.1/KM The TSF shall allow connections with authorized devices and functions as defined in [Appendix E of the KM Module] and [ • authorized devices as defined in the PP‐Module for Audio Output Devices, • authorized devices as defined in the PP‐Module for Video/Display Devices, ] upon TOE power up and upon connection of a peripheral device to a powered- on TOE. FDP_PDC_EXT.2.2/KM The TSF shall allow connections with authorized devices presenting authorized interface protocols as defined in [Appendix E of the KM Module] and [ • authorized devices presenting authorized interface protocols as defined in the PP‐Module for Audio Output Devices, Security Target Version 1.1 2022-03-08 23 • authorized devices presenting authorized interface protocols as defined in the PP‐Module for Video/Display Devices, ] upon TOE power up and upon connection of a peripheral device to a powered- on TOE. 5.2.2.10 Peripheral Device Connection (Video Output) (FDP_PDC_EXT.2/VI) FDP_PDC_EXT.2.1/VI The TSF shall allow connections with authorized devices as defined in [Appendix E of the VI Module] and [ • authorized devices as defined in the PP‐Module for Audio Output Devices, • authorized devices and functions as defined in the PP‐Module for Keyboard/Mouse Devices, ] upon TOE power up and upon connection of a peripheral device to a powered- on TOE. FDP_PDC_EXT.2.2/VI The TSF shall allow connections with authorized devices presenting authorized interface protocols as defined in [Appendix E of the VI Module] and [ • authorized devices presenting authorized interface protocols as defined in the PP‐Module for Audio Output Devices, • authorized devices presenting authorized interface protocols as defined in the PP‐Module for Keyboard/Mouse Devices, ] upon TOE power up and upon connection of a peripheral device to a powered- on TOE. 5.2.2.11 Authorized Connection Protocols (Keyboard/Mouse) (FDP_PDC_EXT.3/KM) FDP_PDC_EXT.3.1/KM The TSF shall have interfaces for the [USB (keyboard), USB (mouse)] protocols. FDP_PDC_EXT.3.2/KM The TSF shall apply the following rules to the supported protocols: [the TSF shall emulate any keyboard or mouse device functions from the TOE to the connected computer]. 5.2.2.12 Powering Unauthorized Devices (FDP_PUD_EXT.1) FDP_PUD_EXT.1.1 The TSF shall not provide power to any unauthorized device connected to the analog audio peripheral interface. 5.2.2.13 Residual Information Protection (Keyboard Data) (FDP_RIP.1/KM) FDP_RIP.1.1/KM The TSF shall ensure that any keyboard data in volatile memory is purged upon switching computers. 5.2.2.14 Residual Information Protection (FDP_RIP_EXT.1) FDP_RIP_EXT.1.1 The TSF shall ensure that no user data is written to TOE non‐volatile memory or storage. Security Target Version 1.1 2022-03-08 24 5.2.2.15 Purge of Residual Information (FDP_RIP_EXT.2) FDP_RIP_EXT.2.1 The TOE shall have a purge memory or restore factory defaults function accessible to the administrator to delete all TOE stored configuration and settings except for logging. 5.2.2.16 PSD Switching (FDP_SWI_EXT.1) FDP_SWI_EXT.1.1 The TSF shall ensure that [switching can be initiated only through express user action]. 5.2.2.17 PSD Switching Methods (FDP_SWI_EXT.2) FDP_SWI_EXT.2.1 The TSF shall ensure that no switching can be initiated through automatic port scanning, control through a connected computer, or control through keyboard shortcuts. FDP_SWI_EXT.2.2 The TSF shall ensure that switching can be initiated only through express user action using [console buttons, wired remote control]. 5.2.2.18 Tied Switching (FDP_SWI_EXT.3) FDP_SWI_EXT.3.1 The TSF shall ensure that [connected keyboard and mouse peripheral devices] are always switched together to the same connected computer. 5.2.2.19 Unidirectional Data Flow (Audio Output) (FDP_UDF_EXT.1/AO) FDP_UDF_EXT.1.1/AO The TSF shall ensure [analog audio output data] transits the TOE unidirectionally from [the TOE analog audio output computer] interface to [the TOE analog audio output peripheral] interface. 5.2.2.20 Unidirectional Data Flow (Keyboard/Mouse) (FDP_UDF_EXT.1/KM) FDP_UDF_EXT.1.1/KM The TSF shall ensure [keyboard, mouse] data transits the TOE unidirectionally from the [TOE [keyboard, mouse]] peripheral interface(s) to the [TOE [keyboard, mouse]] interface. 5.2.2.21 Unidirectional Data Flow (Video Output) (FDP_UDF_EXT.1/VI) FDP_UDF_EXT.1.1/VI The TSF shall ensure [video] data transits the TOE unidirectionally from the [TOE computer video] interface to the [TOE peripheral device display] interface. 5.2.3 Identification and Authentication (FIA) 5.2.3.1 User Authentication Before Any Action (FIA_UAU.2) FIA_UAU.2.1 The TSF shall require each administrator to be successfully authenticated before allowing any other TSF‐mediated actions on behalf of that administrator. Security Target Version 1.1 2022-03-08 25 5.2.3.2 User Identification Before Any Action (FIA_UID.2) FIA_UID.2.1 The TSF shall require each administrator to be successfully identified before allowing any other TSF‐mediated actions on behalf of that administrator. 5.2.4 Security Management (FMT) 5.2.4.1 Management of Security Functions Behavior (FMT_MOF.1) FMT_MOF.1.1 The TSF shall restrict the ability to [modify the behavior of] the functions [TOE keyboard and mouse filtering blacklist, Reset to Factory Default, view audit logs, change password] to [the authorized administrators]. 5.2.4.2 Specification of Management Functions (FMT_SMF.1) FMT_SMF.1.1 The TOE shall be capable of performing the following management functions: [modify TOE keyboard and mouse filtering blacklist, Reset to Factory Default, view audit logs, change password]. 5.2.4.3 Security Roles (FMT_SMR.1) FMT_SMR.1.1 The TSF shall maintain the roles [administrators]. FMT_SMR.1.2 The TSF shall be able to associate users with roles. 5.2.5 Protection of the TSF (FPT) 5.2.5.1 Failure with Preservation of Secure State (FPT_FLS_EXT.1) FPT_FLS_EXT.1.1 The TSF shall preserve a secure state when the following types of failures occur: failure of the power‐on self‐test and [failure of the anti-tamper function]. 5.2.5.2 No Access to TOE (FPT_NTA_EXT.1) FPT_NTA_EXT.1.1 TOE firmware, software, and memory shall not be accessible via the TOE’s external ports, with the following exceptions: [the Extended Display Identification Data (EDID) memory of Video TOEs may be accessible from connected computers; the configuration data, settings, and logging data that may be accessible by authorized administrators]. 5.2.5.3 Passive Detection of Physical Attack (FPT_PHP.1) FPT_PHP.1.1 The TSF shall provide unambiguous detection of physical tampering that might compromise the TSF. FPT_PHP.1.2 The TSF shall provide the capability to determine whether physical tampering with the TSF’s devices or TSF’s elements has occurred. Security Target Version 1.1 2022-03-08 26 5.2.5.4 Resistance to Physical Attack (FPT_PHP.3) FPT_PHP.3.1 The TSF shall resist [a physical attack for the purpose of gaining access to the internal components, to damage the anti‐tamper battery, to drain or exhaust the anti‐tamper battery] to the [TOE enclosure and any remote controllers] by the attacked component becoming permanently disabled. 5.2.5.5 Reliable Time Stamps (FPT_STM.1) FPT_STM.1.1 The TSF shall be able to provide reliable time stamps. 5.2.5.6 TSF Testing (FPT_TST.1) FPT_TST.1.1 The TSF shall run a suite of self‐tests [during initial start‐up and at the conditions [upon reset button activation]] to demonstrate the correct operation of [user control functions and [active anti‐tamper functionality]]. FPT_TST.1.2 The TSF shall provide authorized users with the capability to verify the integrity of [TSF data]. FPT_TST.1.3 The TSF shall provide authorized users with the capability to verify the integrity of [TSF]. 5.2.5.7 TSF Testing (FPT_TST_EXT.1) FPT_TST_EXT.1.1 The TSF shall respond to a self‐test failure by providing users with a [visual] indication of failure and by shutdown of normal TSF functions. 5.2.6 TOE Access (FTA) 5.2.6.1 Continuous Indications (FTA_CIN_EXT.1) FTA_CIN_EXT.1.1 The TSF shall display a visible indication of the selected computers at all times when the TOE is powered. FTA_CIN_EXT.1.22 The TSF shall implement the visible indication using the following mechanism: easily visible graphical and/or textual markings of each source video on the display, [a button, a panel with lights]. Application Note: The refined text: “easily visible graphical and/or textual markings of each source video on the display”, is added per the Video/Display Devices Module. 2 TD0539 clarifies that the mandatory selection (refined by the VI-Module) applies if the TOE fits the Combiner Use Case selecting “multiple connected displays” in FDP_CDS_EXT.1.1. The TOE does not fit the Combiner User Case but rather selects “multiple connected displays” because some models support dual-displays from a single source video feed. Therefore, the selection does not apply. Security Target Version 1.1 2022-03-08 27 Application Note: The selected computer is indicated with a panel with lights that corresponds to the computer selection buttons. Each port has its own Port LED. FTA_CIN_EXT.1.3 The TSF shall ensure that while the TOE is powered the current switching status is reflected by [multiple indicators which never display conflicting information]. Application Note: As indicated in FTA_CIN_EXT.1.2, the TOE has a light panel that shows the selected computer. There is no situation in which the selected computer will be indicated with the light panel and a different computer will be indicated with the selection button. 5.3 TOE Security Functional Requirements (DP Models) The following table identifies the [MOD_VI_V1.0] SFRs that are satisfied by DP Models, which include the following: • CS1182DP4, • CS1184DP4, • CS1188DP4, • CS1142DP4, • CS1144DP4, and • CS1148DP4. Table 9: TOE Security Functional Components (DP Models) Requirement Class Requirement Component FDP: User Data Protection FDP_IPC_EXT.1(DP) – Internal Protocol Conversion FDP_PDC_EXT.3/VI(DP) – Authorized Connection Protocols (DP Models) FDP_SPR_EXT.1/DP(DP) – Sub-Protocol Rules (DisplayPort Protocol) (DP Models) 5.3.1 User Data Protection (FDP) 5.3.1.1 Internal Protocol Conversion (FDP_IPC_EXT.1(DP)) FDP_IPC_EXT.1.1(DP) The TSF shall convert the [DisplayPort] protocol at the [DisplayPort computer video interface] into the [HDMI] protocol within the TOE. FDP_IPC_EXT.1.2(DP) The TSF shall output the [HDMI] protocol from inside the TOE to [peripheral display interface(s)] as [DisplayPort protocol]. 5.3.1.2 Authorized Connection Protocols (Video Output) (DP Models) (FDP_PDC_EXT.3/VI(DP)) FDP_PDC_EXT.3.1/VI(DP) The TSF shall have interfaces for the [DisplayPort] protocols. Security Target Version 1.1 2022-03-08 28 FDP_PDC_EXT.3.2/VI(DP) The TSF shall apply the following rules to the supported protocols: [the TSF shall read the connected display EDID information once during power‐on or reboot]. 5.3.1.3 Sub-Protocol Rules (DisplayPort Protocol) (DP Models) FDP_SPR_EXT.1/DP(DP)) FDP_SPR_EXT.1.1/DP(DP) The TSF shall apply the following rules for the [DisplayPort] protocol: • block the following video/display sub‐protocols: o [CEC, o EDID from computer to display, o HDCP, o MCCS] • allow the following video/display sub‐protocols: o [EDID from display to computer, o HPD from display to computer, o Link Training]. 5.4 TOE Security Functional Requirements (H Models) The following table identifies the [MOD_VI_V1.0] SFRs that are satisfied by H models which includes the following: • CS1182H4, • CS1184H4, • CS1142H4, and • CS1144H4. Table 10: TOE Security Functional Components (H Models) Requirement Class Requirement Component FDP: User Data Protection FDP_PDC_EXT.3/VI(H) – Authorized Connection Protocols (H Models) FDP_SPR_EXT.1/HDMI(H) – Sub-Protocol Rules (HDMI Protocol) (H Models) 5.4.1 User Data Protection (FDP) 5.4.1.1 Authorized Connection Protocols (Video Output) (H Models) (FDP_PDC_EXT.3/VI(H)) FDP_PDC_EXT.3.1/VI(H) The TSF shall have interfaces for the [HDMI] protocols. FDP_PDC_EXT.3.2/VI(H) The TSF shall apply the following rules to the supported protocols: [the TSF shall read the connected display EDID information once during power‐on or reboot]. Security Target Version 1.1 2022-03-08 29 5.4.1.2 Sub‐Protocol Rules (HDMI Protocol) (H Models) (FDP_SPR_EXT.1/HDMI(H)) FDP_SPR_EXT.1.1/HDMI(H) The TSF shall apply the following rules for the [HDMI] protocol: • block the following video/display sub‐protocols: o [ARC, o CEC, o EDID from computer to display, o HDCP, o HEAC, o HEC, o MCCS] • allow the following video/display sub‐protocols: o [EDID from display to computer, o HPD from display to computer]. 5.5 TOE Security Functional Requirements (D Models) The following table identifies the [MOD_VI_V1.0] SFRs that are satisfied by D models which includes the following: • CS1182D4, • CS1184D4, • CS1188D4, • CS1142D4, • CS1144D4, and • CS1148D4. Table 11: TOE Security Functional Components (D Models) Requirement Class Requirement Component FDP: User Data Protection FDP_PDC_EXT.3/VI(D) – Authorized Connection Protocols (D Models) FDP_SPR_EXT.1/DVI-I(D)– Sub-Protocol Rules (DVI-I Protocol) (D Models) 5.5.1 User Data Protection (FDP) 5.5.1.1 Authorized Connection Protocols (Video Output) (D Models) (FDP_PDC_EXT.3/VI(D)) FDP_PDC_EXT.3.1/VI(D) The TSF shall have interfaces for the [DVI‐I] protocols. FDP_PDC_EXT.3.2/VI(D) The TSF shall apply the following rules to the supported protocols: [the TSF shall read the connected display EDID information once during power‐on or reboot]. Security Target Version 1.1 2022-03-08 30 5.5.1.2 Sub‐Protocol Rules (DVI‐I Protocol) (D Models) (FDP_SPR_EXT.1/DVI-I(D)) FDP_SPR_EXT.1.1/DVI-I(D) The TSF shall apply the following rules for the [DVI‐I] protocol: • block the following video/display sub‐protocols: o [ARC, o CEC, o EDID from computer to display, o HDCP, o HEAC, o HEC, o MCCS] • allow the following video/display sub‐protocols: o [EDID from display to computer, o HPD from display to computer]. 5.6 TOE Security Assurance Requirements The security assurance requirements for the TOE are included by reference from the [PSD]. Table 12: Assurance Components Requirement Class Requirement Component Security Target (ASE) Conformance Claims (ASE_CCL.1) Extended Components Definition (ASE_ECD.1) ST Introduction (ASE_INT.1) Security Objectives (ASE_OBJ.2) Derived Security Requirements (ASE_REQ.2) Security Problem Definition (ASE_SPD.1) TOE Summary Specification (ASE_TSS.1) Development (ADV) Basic Functional Specification (ADV_FSP.1) Guidance Documents (AGD) Operational User Guidance (AGD_OPE.1) Preparative Procedures (AGD_PRE.1) Life Cycle Support (ALC) Labeling of the TOE (ALC_CMC.1) TOE CM Coverage (ALC_CMS.1) Tests (ATE) Independent Testing – Conformance (ATE_IND.1) Vulnerability Assessment (AVA) Vulnerability Survey (AVA_VAN.1) Security Target Version 1.1 2022-03-08 31 6 TOE Summary Specification This chapter describes the following security functions: • Security Audit • User Data Protection • Identification and authentication • Security management • Protection of the TSF • TOE Access 6.1 Security Audit (FAU_GEN.1) The TOE logs security events such as start-up and shutdown of the audit functions; power cycle events, self‐test failures; peripheral device acceptance and rejections; and administrator actions (login, logout, blacklist/whitelist configuration, password changes, and Reset to Factory Default events). Start-up and shutdown of the audit functions occurs with startup and shutdown of the product. The audit function cannot be started or stopped separately from the product. After a successful Administrator Logon, the logs can be viewed in the text editor by entering the command [LIST]. The event logs are divided into two types: critical and non-critical. The Log Data Area displays the critical and non-critical Log data. Each logged event is recorded with Date, Time, a code that indicates the type of event and the outcome (success or failure) of the event. The critical audit events recorded and identified in the code include: • administrator logon events (login failed, last login ok), • administrator actions (password changes, Reset to Factory Default), • KVM locked due to Administrator’s failed attempts to login, • peripheral device rejections, • all failed self-tests except button jam. Non-critical audit events include: • power-cycle events, • administrator logon ok and logout, • configuration of the whitelist/blacklist, • peripheral device acceptance, • button jam test failure, and • all passing self-tests. During normal operation, the TOE provides administrator access to all audit records. ATEN's assistance is required to read audit records from an inoperable switch. Security Target Version 1.1 2022-03-08 32 The logs are stored on EEPROM on the KVM PCBoard component of the TOE. The logs can be extracted by the authorized administrator by entering Administrator Logon mode, logging on, and then issuing the command [LIST]. The TOE extracts the log data and displays them using the text editor. The administrator can view the logs but cannot erase or delete any of the information. The TOE stores the critical event logs only for the most recent occurrence of events. The TOE stores a maximum of thirty-two critical events. The logging feature can accommodate a maximum of thirty-two non-critical audit events. A new non- critical log entry will overwrite the oldest one (for example, the thirty-third log entry will overwrite the first log). 6.2 User Data Protection The TOE enforces data isolation and the User Data Protection SFP on TOE computer interfaces and TOE peripheral device interfaces by controlling the data flow and user data transiting the TOE. The TOE supports the following types of devices: USB Keyboard and Mouse, analog audio speakers, and depending on model, DisplayPort, HDMI or DVI-I display. All other devices are rejected. The TOE accepts DisplayPort signals at the computer interface, internally converts it to HDMI and then converts the signals back to DisplayPort for output to the console interface. Refer to the two interface tables in Section 2.2 for details on TOE computer peripherals and connected computer port interfaces for each specific TOE model. The TOE ensures that any previous information content of a resource is made unavailable upon the deallocation of the resource from the TOE computer interfaces immediately after a TOE switch to another selected computer and on start-up of the TOE. The Appendix A Letter of Volatility provides assurance that no user data remains in the TOE after power down. 6.2.1 FDP_AFL_EXT.1 – Audio Filtration The TOE’s audio function implementation filters the audio passing through the TOE in accordance with Table 8: Audio Filtration Specifications above. 6.2.2 FDP_APC_EXT.1 (All Iterations); FDP_UDF_EXT.1/AO – Unidirectional Data Flow (Audio Output); FDP_UDF_EXT.1/KM – Unidirectional Data Flow (Keyboard/Mouse); FDP_UDF_EXT.1/VI – Unidirectional Data Flow (Video Output); The TOE routes audio and video data only from the selected computer to the attached peripherals and routes the keyboard and mouse data only to the selected computer from the attached peripherals. Each supported peripheral (i.e. video signals and input data (i.e. HID data)) has its own dedicated data path implemented in circuitry. This ensures the data is isolated and only routed in the correct direction. When the read/write transactions are finished, the micro-controller disables the EDID switch. This ensures there will be no unauthorized data flow from the monitor to a connected computer. For audio data output, the unidirectional buffers make sure that the audio data can travel only from the selected computer to the audio device. Security Target Version 1.1 2022-03-08 33 All Keyboard and Mouse connections are filtered first, and only the authorized devices pre-defined in the TOE’s whitelist will be allowed. The data input by the authorized USB Keyboard and Mouse will be emulated by TOE to USB data for computer sources. No data or electrical signals flow between connected computers at any time. Each connected computer has its own independent Device Controller, power circuit, and EEPROM. No data transits the TOE when the TOE is powered off or when the TOE is in a failure state. 6.2.3 FDP_CDS_EXT.1 – Connected Displays Supported The TOE supports connected displays from a single source video feed (either single-head or multi-head). Because of this, the single selected source video feed is always the same channel and indication of the selected channel is through the channel selection LEDs on the TOE chassis. The DisplayPort models CS1182DP4, CS1184DP4, and CS1188DP4 each support one connected display. While CS1142DP4, CS1144DP4, and CS1148DP4 each support two connected displays at a time. The HDMI models CS1182H4 and CS1184H4 each support one connected display. While CS1142H4 and CS1144H4 each support two connected displays at a time. The DVI models CS1182D4, CS1184D4, and CS1188D4 each support one connected display. While CS1142D4, CS1144D4, and CS1148D4 each support two connected displays at a time. 6.2.4 FDP_FIL_EXT.1/KM – Device Filtering (Keyboard/Mouse); FDP_PDC_EXT.3/KM – Authorized Connection Protocols (Keyboard/Mouse) The TOE supports authorized USB keyboard and mouse peripherals as defined in Table 13: Supported protocols by port below. Keyboard/mouse peripherals are filtered and emulated. Device filtering for keyboard/mouse interfaces is configurable. Keyboard/mouse blacklisted devices are unauthorized devices. Whitelisted devices are authorized devices for the keyboard/mouse interfaces in peripheral device connections. The TOE does not define any whitelisted devices that are also blacklisted devices. The KVM includes a built in allowed list (whitelist) for the USB Keyboard/ Mouse Ports. Only the default- authorized devices can be blacklisted by the administrator for the USB Keyboard/Mouse Ports. The USB Keyboard/Mouse Ports do not support a “whitelist” function. The configurable HID device function enables authorized administrators to assign a blacklist for HID devices. To blacklist a keyboard/mouse device, the admin connects the HID device that they want blacklisted directly to the Mouse Port (do not connect it to the KVM via a USB hub), and performs the configuration via administrator functions. After configuration, the blacklisted HID device will be rejected by both Keyboard/ Mouse Ports. The Reset KVM to Default function will clear the blacklist created by the Secure KVM administrator functions. The TOE emulates data from authorized USB Keyboard and Mouse protocol interfaces to USB connected computers. Security Target Version 1.1 2022-03-08 34 6.2.5 FDP_PDC_EXT.1 – Peripheral Device Connection; FDP_PDC_EXT.2/AO – Peripheral Device Connection (Audio Output); FDP_PDC_EXT.2/KM – Authorized Devices (Keyboard/Mouse); FDP_PDC_EXT.2/VI – Peripheral Device Connection (Video Output) The TOE allows the authorized devices and protocols for the PSD Console Ports as identified in the table below upon TOE power up and upon connection of a peripheral device to a powered-on TOE. The console USB keyboard and mouse ports are interchangeable, meaning you can connect a keyboard to the mouse port and vice versa. For optimal operation, the User Manual suggests connecting the USB keyboard to console’s USB keyboard port and the USB mouse to console’s USB mouse port. The DisplayPort-interfaced TOE models convert DisplayPort supported protocols (version 1.1 or higher with filtration) to the HDMI protocol. Since the TOE converts DisplayPort signals at the computer interface to HDMI signals at the console interface, DisplayPort is not identified as an authorized protocol for the PSD console port. TOE models with HDMI source are capable of embedding digital audio into digital video data transmission. DisplayPort-interfaced TOEs support digital audio embedded in the video. The DisplayPort signal is converted to HDMI, and both digital audio and Video is allowed to monitor. Digital audio embedded in DisplayPort Video will be kept with HDMI video. DVI Secure KVM Models do not have the ability to embed digital audio into digital video data transmission. The TOE does not allow any other user data transmission to or from any other external entities including wireless devices. The TOE only recognizes those peripherals with an authorized interface type as described below and all other peripherals will be denied both upon TOE power up and upon connection of a peripheral device to a powered‐on TOE. Peripheral LEDs (one per port) are located on the front (except video LEDs are located on the back) and provide a continuous visual indication of the status of the function associated with that port. The LED flashes when a connected peripheral is rejected. Specifically the TOE supports the following peripherals on the console interfaces: Table 13: Supported protocols by port PSD Console Port Authorized Devices Authorized Protocol Keyboard Standard 108 key wired keyboard and keypad USB 1.1/2.0 Display Display, Video or KVM extender DisplayPort, HDMI, DVI-I Mouse/Point Device Standard 2-button, 3-button, and 5-button wired mouse or trackball USB 1.1/2.0 Audio Out Analog amplified speakers, digital audio embedded inside the video Analog audio output, HDMI Additionally, the KVM has interfaces for AC power, reset (button), and LED indicators. The LEDs consist of Video, Num Lock, Caps Lock, Scroll Lock, power LEDs, and Port LEDs. For dual-display models there are two LEDs. Video LED(s) light green when the video connection(s) are up and running. The Video LEDs flash Security Target Version 1.1 2022-03-08 35 when a non-qualified monitor is connected. The Num Lock LED, Caps Lock LED, and Scroll Lock LED on the keyboard are disabled. The Port LEDs indicate Port selection/connection status. All LEDs are located on the RPS and on the front panel of the main KVM except the Video LED(s) that are located on the back panel. The TOE does not allow any other user data transmission to or from external entities. Non-HID functions of a composite USB device; internal Hub; docking protocols; and analog microphone or audio line inputs are not supported by the TOE. During KVM operation, non-standard keyboards with integrated USB hubs and/or other USB-integrated devices may not be fully supported due to the strict security standards and policy for the ATEN Secure KVM Switch. If supported, only basic (HID) keyboard operations will function. 6.2.6 FDP_PUD_EXT.1 – Powering Unauthorized Devices The TOE does not supply power to any device connected to the analog audio output interface. 6.2.7 FDP_RIP.1/KM – Residual Information Protection (Keyboard Data), FDP_RIP_EXT.1 – Residual Information Protection and FDP_RIP_EXT.2 – Purge of Residual Information No user data is written to TOE non‐volatile memory or storage. User keyboard data is purged and not available to the next connected TOE computer interface when the TOE is switched to a different computer. The data input by the authorized keyboard/mouse will be kept in the console authorized keyboard/mouse buffer (in the microcontroller). Once the TOE is power cycled, reset, or port switching is detected, the data in the console authorized keyboard/mouse buffer will be deleted immediately, and not processed for emulation. Please refer to the Proprietary Isolation Document for more detail. The TOE provides two functions to delete TOE stored configuration and settings. After logging in, authorized administrators can use the Reset to Factory Default management function (not to be confused with the front panel reset button). When a successfully authenticated authorized Administrator performs Reset to Factory Default, all settings previously configured by the Administrator (such as USB device blacklist) will be cleaned and reset to factory default settings. Once the Reset to Factory Default function has been completed, the Secure KVM will terminate the Administrator Logon mode, purge keyboard/mouse buffer, and power cycle the Secure KVM automatically. After a successful self-test, the KVM port focus will be switched to Port 1. Audit logs are retained and a log is generated for Reset to Factory Default. The TOE also provides non-administrative users a front panel Reset button allowing the user to delete TOE stored configuration and settings. Performing the reset function by pressing the Reset button for more than 5 seconds, purges the Keyboard/Mouse buffer; and the switch performs a self-test and switches to Port 1. CDF configured by Administrator, logs, Administrative tasks, or other secure functions are not affected by the front panel Reset function. The Letter of Volatility is provided in Appendix A identifies the TOE components that have non-volatile memory and provides details of the memory and its use. Security Target Version 1.1 2022-03-08 36 6.2.8 FDP_SWI_EXT.1 – PSD Switching; FDP_SWI_EXT.2 – PSD Switching Methods; FDP_SWI_EXT.3 – Tied Switching The keyboard, mouse, video, and audio ports are always switched together to the same connected computer using a push button on the front of the device or the wired PSD remote control. As such, the keyboard and mouse are always switched together and there are no options to switch peripherals independently from the keyboard and mouse. When the PSD is attached to a 2-Port Secure KVM Switch, only pushbuttons numbered 1 and 2 will be detected and functional. When the PSD is attached to a 4- Port Secure KVM Switch, only pushbuttons numbered 1, 2, 3, and 4 will be detected and functional. When the PSD is attached to an 8-Port Secure KVM Switch, all eight pushbuttons will be detected and functional. The TOE does not allow switching to be initiated through automatic port scanning, control through a connected computer, or control through keyboard shortcuts. 6.2.9 TOE Video Security Function In addition to the Base-PP SFRs and SFRs related to the Video Function described above, the TOE video input and output features in this section are also implemented in the TOE video subsystem (depending on the video protocols supported by the model). The TOE video auxiliary channel (AUX) path blocks information flows other than the minimal set required to establish the video link. Unauthorized DisplayPort transactions are prevented by disassembling the DisplayPort AUX channel transactions to block all unauthorized transactions. The TOE video function filters the AUX channel by converting it to EDID only. DisplayPort video is converted into HDMI video stream. Monitor’s EDID is, through EDID channel, read, filtered, and sent to Port’s EDID EEPROM for EDID emulation. All AUX channel threats are mitigated through the conversion from DisplayPort to HDMI protocols. All types of traffic not authorized by the referenced PP are blocked by this TOE function, as the emulated EEPROM would only support valid EDID read requests from connected computers. 6.2.9.1 DP Models The following TOE models support DP 1.2 video input and output, and one or two displays. Table 14: DP Models Configuration 2-Port 4-Port 8-Port DisplayPort Single Head CS1182DP4 CS1184DP4 CS1188DP4 Dual Head CS1142DP4 CS1144DP4 CS1148DP4 These models accept DisplayPort for the computer video display interface. The TOE will convert the DP signal to HDMI inside the TOE and then back to DisplayPort for output to the console display(s). The TOE rejects communication of EDID information from computer to display, as well as CEC, HDCP, and MCCS communications. The TOEs video EDID read procedure is activated once during power‐on or reboot in order to read the connected display EDID information. Security Target Version 1.1 2022-03-08 37 EDID from display to computer, HPD from display to computer, and Link Training are allowed for the DisplayPort interface. The TOE blocks CEC, EDID from computer to display, HDCP, and MCCS video/display sub‐protocols. The DP Models satisfy the following SFRs: • FDP_IPC_EXT.1(DP) – Internal Protocol Conversion • FDP_PDC_EXT.3/VI(DP)- Authorized Connection Protocols (Video Output) (DP Model) • FDP_SPR_EXT.1/DP(DP) – Sub-Protocol Rules (DisplayPort Protocol) (DP Module) 6.2.9.2 H Models The following TOE models support HDMI video input/output, and one or two displays. Table 15: H Models Configuration 2-Port 4-Port 8-Port HDMI Single Head CS1182H4 CS1184H4 N/A Dual Head CS1142H4 CS1144H4 N/A The TOEs video EDID read procedure is activated once during power‐on or reboot in order to read the connected display EDID information. EDID from display to computer, and HPD from display to computer are allowed for the HDMI interface. The TOE blocks ARC, CEC, EDID from computer to display, HDCP, HEAC, HEC and MCCS video/display sub‐ protocols. The H Models satisfy the following SFRs: • FDP_PDC_EXT.3/VI(H)- Authorized Connection Protocols (Video Output) (H Model) • FDP_SPR_EXT.1/HDMI(H) – Sub-Protocol Rules (HDMI Protocol) (H Module) 6.2.9.3 D Models The following TOE models support DVI-I video input/output, and one or two displays. Table 16: D Models Configuration 2-Port 4-Port 8-Port DVI Single Head CS1182D4 CS1184D4 CS1188D4 Dual Head CS1142D4 CS1144D4 CS1148D4 The TOEs video EDID read procedure is activated once during power‐on or reboot in order to read the connected display EDID information. EDID from display to computer, and HPD from display to computer are allowed for the DVI-I interface. The TOE blocks ARC, CEC, EDID from computer to display, HDCP, HEAC, HEC and MCCS video/display sub‐ protocols. Security Target Version 1.1 2022-03-08 38 The D Models satisfy the following SFRs: • FDP_PDC_EXT.3/VI(D)- Authorized Connection Protocols (Video Output) (D Models) • FDP_SPR_EXT.1/DVI-I(D) – Sub-Protocol Rules (DVI-I Protocol) (D Models) 6.3 Identification and Authentication (FIA_UAU.2/ FIA_UID.2) Authentication is required to perform administrator functions such as configuring the keyboard/mouse device filtering (i.e. CDF) blacklist. The authorized administrator is identified and authenticated through the logon function. The authorized administrator logs on by entering the Administrator Logon mode as described in the administrator guide and providing a valid password. The administrator guide states that the administrator must change the password after the first successful logon. 6.4 Security Management The TOE provides management functions to configure the keyboard/ mouse filtering (i.e. CDF), to return the device to factory setting, to view audit logs and to change the administrator password; and restricts access to these management functions to the authorized administrator. 6.4.1 FMT_MOF.1 – Management of Security Functions Behavior The TOE restricts the management functions such as the ability to modify the HID device filtering blacklist to the authorized administrator. The authorized administrator must successfully authenticate by providing a valid password. There is no login name parameter for the login function. Customers are provided with a default password. The administrator guide states that the administrator must change the password after the first successful logon. The password is case sensitive and new passwords must contain at least 1 lower case letter, at least 1 upper case letter, at least 1 numeric character, and at least 1 special character. The supported special characters are: !"#$%&' ()*+,-./ :;<=>? @ [\]^_ ` {|}~ (including “space”). Additionally, the password length must be at least 8 characters but no longer than 22 characters. With three failed attempts to log in, the administrator logon mode will be terminated and locked for 15 minutes. With nine failed log in attempts, the Secure KVM Switch will become permanently inoperable. There is no mechanism to restore a lost/forgotten password. 6.4.2 FMT_SMF.1 – Specification of Management Functions The TOE provides security management functions to configure the keyboard/mouse device filtering (i.e. CDF), to return the device to factory setting, to view audit logs and to change the administrator password. The TOE provides the authorized administrator with the ability to assign blacklist definitions for keyboard/ mouse devices. Once successfully authenticated, the Administrator can choose to add a device to the keyboard/ mouse devices blacklist. If a device is on the whitelist, the TOE considers the device as authorized. Otherwise, if the device is on the blacklist or is not on any list it is considered unauthorized. If a device is on both blacklist and whitelist, the USB device will be considered a blacklisted device. Security Target Version 1.1 2022-03-08 39 The TOE provides a security management function to Reset to Factory Default3 (not to be confused with the front panel reset button). When a successfully authenticated authorized Administrator performs Reset to Factory Default, settings previously configured by the Administrator (such as USB keyboard/mouse device blacklist) will be cleaned and reset to factory default settings. Once the Reset to Factory Default function has been completed, the Secure KVM will terminate the Administrator Logon mode, purge keyboard/mouse buffer, and power cycle the Secure KVM automatically. After a successful self-test, the KVM port focus will be switched to Port 1. The Reset to Factory Default does not affect or erase Log data nor does it affect the previously changed Administrator password. 6.4.3 FMT_SMR.1 – Security Roles The TOE maintains a single administrator role. All other users are non-administrative users. A properly authenticated administrator has the ability to view audit records, Reset to factory defaults, change password, and configure keyboard/ mouse filtering (i.e. CDF). Users without an administrator role cannot use these function and are not required to authenticate. 6.5 Protection of the TSF In order to mitigate potential tampering and replacement, the TOE is designed to ensure that any replacement may be detected, any physical modification is evident, and any logical modification may be prevented. Access to the TOE firmware, software, or its memory via its accessible ports is prevented. No access is available to modify the TOE or its memory. To mitigate the risk that a potential attacker will tamper with a TOE and then reprogram it with altered functionality, the TOE software is contained in one- time-programmable read-only memory permanently attached (non-socketed) to a circuit assembly. The TOE’s operational code is not upgradeable through any of the TOE external or internal ports. The TOE’s KVM has two tamper-evident labels printed with the TOEs unique product serial number and the vendor’s specific design. One label is applied to the side of the device and the other to the bottom of the chassis, over the screw used to secure the front-top cover to the enclosure. The side-label is clearly visible to the user operating the TOE and the other label can be clearly seen when the device is turned over. The optional Remote Port Selector (RPS) includes its own tamper-evident tape to provide visual indications of intrusion to the RPS enclosure. Any attempt to open the KVM or RPS enclosures sufficient to gain access to internal components will change the labels to a tampered state. 6.5.1 FPT_FLS_EXT.1 – Failure with Preservation of Secure State The TOE preserves a secure state by disabling the TOE when the following types of failures occur: failure of the power on self-test and failure of the anti-tampering function. The behavior as described below for FPT_PHP.1 and FPT_PHP.3 will occur if the Secure KVM Switch self-test fails or its security function detects a breach. 3 Vendor guidance documents also refer to this as ‘Reset KVM to Default’. Security Target Version 1.1 2022-03-08 40 6.5.2 FPT_NTA_EXT.1 – No Access to TOE The TOE firmware, software, and memory is not accessible from the TOE’s external ports, with the following exceptions: • the Extended Display Identification Data (EDID) memory for Video is accessible from connected computers; • the configuration data, settings, and logging data is accessible by authorized administrators. 6.5.3 FPT_PHP.1 – Passive Detection of Physical Attack and FPT_PHP.3 – Resistance to Physical Attack The TOE becomes permanently inoperable and all front panel or RPS LEDs (except for Power LED) flash constantly when a chassis intrusion, such as removal of the device cover, is detected. These indications cannot be turned off by the TOE user and the guidance documentation instructs the user to stop using the TOE, remove it from service and contact ATEN. The KVM and RPS contain internal batteries with a minimum lifetime of five years, are non-replaceable, and cannot be accessed without opening the device enclosure. The TOE’s anti-tampering function is triggered when the battery is damaged or exhausted, permanently disabling the switch. See Section 6.5.5 for additional details. The admin guide instructs users to never attempt to replace the battery or open the switch or RPS enclosure. If a mechanical intrusion is detected on the switch, the switch (without RPS connected) will be permanently disabled and all the front panel LEDs (except the Power LED) will flash continuously. A mechanical intrusion is detected by a pressure switch that trips when the enclosure is opened. If a mechanical intrusion is detected by the RPS (connected with the switch and aligned), this will permanently disable both the RPS itself and the switch, and all LEDs (on RPS) and the front panel LEDs except the Power LED (on switch) will flash continuously. To disable the KVM in the event of an aligned RPS, the RPS will send a "tampering command" to the KVM. 6.5.4 FPT_STM.1 Reliable Time Stamps The TOE includes its own time clock to provide reliable time stamps for its auditing functions and for measuring the lockout duration following three failed authentication attempts. The developer sets the time to UTC (Coordinated Universal Time) during manufacturing. 6.5.5 FPT_TST.1 – TSF Testing and FPT_TST_EXT.1 – TSF Testing The Secure KVM Switch TOE self-tests include memory tests, firmware integrity tests, and tests of push- button functioning. The TOE executes self-tests during boot (after a power-on, Reset to Factory Default, or the reset button is pressed). The self-test function runs independently at each one of the TOE micro- controllers following power up. The KVM performs self-tests first before enabling the peripheral switching function. Before self-tests have completed successfully, the data paths between peripherals and connected computers are blocked and no data flow is allowed. The following details the particular self-tests: Security Target Version 1.1 2022-03-08 41 • Firmware integrity: the TOE validates the integrity of firmware by calculating the checksum of the firmware binary file and comparing to a pre-calculated value that is stored in the TOE. Upon a failure, the TOE will be in a failure state (permanently inoperable). • Accessibility of internal memory of the micro-controller: the TOE writes a block of predefined data to SRAM and then reads the block out to compare if it is identical. TOE. Upon a failure, the TOE will be in a failure state (permanently inoperable). • Computer interfaces isolation functionality: the TOE validates correct functionality of isolation by generating data flow on one port and checking that it is not received on another port. TOE. Upon a failure, the TOE will be in a failure state (permanently inoperable). • Key stuck test (KVM front panel Push button jam test): the TOE will check that the status of all button values in the micro-controller to ensure the push buttons are operational. Upon a test failure, the TOE does not shut down, and the front panel Port LED of that jammed button port will flash. The TOE will resume operable once after the key stuck is fixed and power cycled. • Anti-tampering mechanism test: the TOE will verify if the tamper detection switch is triggered (includes KVM and RPS battery is damaged or exhausted tests). Upon a test failure, the TOE will be in a failure state (permanently inoperable). • RPS connection self-tests. Upon a test failure, the TOE does not shut down. The anti-tampering self-tests include the correct operation and tampering of the internal KVM and RPS batteries. • A KVM detecting tampering during normal operation will trigger the KVM inoperable. • A connected and aligned RPS detecting tampering (including damaged or exhausted battery) during normal operation will trigger the RPS inoperable and also directly trigger the KVM inoperable in parallel. • A damaged or exhausted KVM battery will be detected during self-test will trigger the KVM permanently inoperable. RPS Connection test failure results from the following: • Connecting a “tampered” RPS to KVM (before KVM power-up) → This RPS was already tampered before connecting to KVM, and therefore the RPS will not be detected and aligned with the KVM → The TOE does not shut down. • Connecting a RPS with battery damaged or exhausted to KVM (before KVM power-up) → This RPS will not be detected and aligned with the KVM → The TOE does not shutdown. • Connecting any other cable, RPS from other vendors, etc. → will not be detected by KVM → TOE does not shutdown. Though the RPS Connection test failures do not result in a TOE shut down, this does not affect the TSF because the TOE can function normally without a remote control connected and the TSF does not interface with the remote control while it is in a failure state. This means that a compromised remote control cannot be used as a vector to operate the TOE maliciously. Connecting a normal (non-tampered) and functional RPS, before KVM power-up, will be detected and aligned with KVM after KVM boots up and results in RPS connection self-test PASS. The status indicators on the KVM are as follows: Security Target Version 1.1 2022-03-08 42 • For a Key stuck test failure, the front panel Port LED of that jammed button port will flash. • For all other Self-test failures (Firmware integrity, Accessibility of internal memory of the micro- controller, Computer interfaces isolation functionality, Anti-tampering mechanism) all front panel LEDs (except for Power LED) flash. The RPS LEDs flash indicators operate as follows: • Connecting a “tampered” RPS before KVM power-up → The KVM will detect that the RPS is tampered and reject the connection with RPS → The RPS LEDs flash. • Connecting a RPS with battery damaged or exhausted to KVM before KVM power-up → The KVM will detect the RPS battery status and reject the connection with RPS → The RPS LEDs flash. • A connected and aligned RPS will flash all LEDs when it is tampered during normal operation. A Push button jam self-test failure may be recoverable if the button jam is temporary. Guidance documentation instructs the user to verify the KVM installation, push buttons, and power cycle the Secure KVM Switch in order to attempt to recover. This is the only self-test that may be recoverable. If the button jam is permanent (for example, the push button is broken and truly stuck), the KVM remains disabled since it fails the button jam self-test. Users can verify the integrity of the TOE by triggering a self-test (e.g. by powering on or rebooting the TOE) and examining the front panel LEDs for self-test failures as identified above. The TOE performs self-tests as described above to demonstrate the correct operation of active anti‐ tamper functionality (see also 6.5.3 FPT_PHP). 6.6 TOE Access The TOE display a continuous visual indication of the computer to which the user is currently connected, and displays the indicator on power up, and on reset. 6.6.1 FTA_CIN_EXT.1 – Continuous Indications The TOE displays continuous visual indicators of the computer to which the user is currently connected at all times when the TOE is powered. The Port LEDs on the Secure KVM Switch are located on the front panel (of the switch) and the upper-left side of each push button (of the RPS) provide a continuous visual indication of the selected Port and corresponding selected computer (bright orange) and the connection status of all other connected computers (dim orange indicates the connected computer is running). If a RPS is detected and aligned with KVM, the status of KVM will reflect on both the KVM front panel LEDs and RPS front panel LEDs. On power up and reset, Port 1 is selected by default. The TOE supports connected displays from a single source video feed (either single-head or multi-head). Because of this, the single selected source video feed is always the same channel as all other peripherals, and indication of the selected channel is indicated through the channel selection LEDs on the TOE chassis. Security Target Version 1.1 2022-03-08 43 The TOE has a reset button that resets the switch to the default settings when pressed. The switch is then powered up and behaves as described above. Security Target Version 1.1 2022-03-08 44 7 Protection Profile Claims This ST is conformant to the Protection Profile [PSD], including the following optional and selection-based SFRs: FAU_GEN.1, FDP_RIP_EXT.2, FDP_SWI_EXT.2, FIA_UAU.2, FIA_UID.2, FMT_MOF.1, FMT_SMF.1, FMT_SMR.1, FPT_PHP.3, FPT_STM.1, and FTA_CIN_EXT.1. The ST is also conformant to the following PP-Modules • PP-Module for Analog Audio Output Devices, Version 1.0, 19 July 2019 [MOD_AO_V1.0]. • PP-Module for Keyboard/Mouse Devices, Version 1.0, 19 July 2019 [MOD_KM_V1.0], including the following optional and selection-based SFRs: FDP_FIL_EXT.1/KM, FDP_RIP.1/KM, and FDP_SWI_EXT.3 • PP-Module for Video/Display Devices, Version 1.0, 19 July 2019 [MOD_VI_V1.0], including the following selection-based SFRs: FDP_CDS_EXT.1, FDP_IPC_EXT.1(DP), FDP_SPR_EXT.1/DP(DP), FDP_SPR_EXT.1/DVI-I(D), and FDP_SPR_EXT.1/HDMI(H) As explained in Section 3, the Security Problem Definition of the [PSD] and modules have been included in this ST by reference. As explained in Section 4, Security Objectives, the Security Objectives of the [PSD] and modules have been included by reference in this ST. The following table identifies all the Security Functional Requirements (SFRs) in this ST, drawn from the [PSD]. The only operations performed on the SFRs drawn from the [PSD] are assignment and selection operations. Table 17 identifies the SFRs that are satisfied by the TOE. Table 17: SFR Protection Profile Sources Requirement Class Requirement Component Source FAU: Security Audit FAU_GEN.1: Audit Data Generation [PSD] FDP: User Data Protection FDP_AFL_EXT.1 – Audio Filtration [MOD_AO_V1.0] FDP_APC_EXT.1 – Active PSD Connections [PSD] FDP_CDS_EXT.1 – Connected Displays Supported [MOD_VI_V1.0] FDP_FIL_EXT.1/KM – Device Filtering (Keyboard/Mouse) [MOD_KM_V1.0] FDP_IPC_EXT.1(DP) – Internal Protocol Conversion [MOD_VI_V1.0] FDP_PDC_EXT.1 – Peripheral Device Connection [PSD] FDP_PDC_EXT.2/AO – Peripheral Device Connection (Audio Output) [MOD_AO_V1.0] FDP_PDC_EXT.2/KM – Authorized Devices (Keyboard/Mouse) [MOD_KM_V1.0] FDP_PDC_EXT.2/VI – Peripheral Device Connection (Video Output) [MOD_VI_V1.0] FDP_PDC_EXT.3/KM – Authorized Connection Protocols (Keyboard/Mouse) [MOD_KM_V1.0] Security Target Version 1.1 2022-03-08 45 Requirement Class Requirement Component Source FDP_PDC_EXT.3/VI(DP) – Authorized Connection Protocols (Video Output) (DP Models) [MOD_VI_V1.0] FDP_PDC_EXT.3/VI(H) – Authorized Connection Protocols (Video Output) (H Models) [MOD_VI_V1.0] FDP_PDC_EXT.3/VI(D) – Authorized Connection Protocols (Video Output) (D Models) [MOD_VI_V1.0] FDP_PUD_EXT.1 – Powering Unauthorized Devices [MOD_AO_V1.0] FDP_RIP.1/KM – Residual Information Protection (Keyboard Data) [MOD_KM_V1.0] FDP_RIP_EXT.1 – Residual Information Protection [PSD] FDP_RIP_EXT.2 – Purge of Residual Information [PSD] FDP_SPR_EXT.1/DP(DP) – Sub-Protocol Rules (DisplayPort Protocol) (DP Models) [MOD_VI_V1.0] FDP_SPR_EXT.1/DVI-I(D) – Sub-Protocol Rules (DVI-I Protocol) (D Models) [MOD_VI_V1.0] FDP_SPR_EXT.1/HDMI(H) – Sub-Protocol Rules (HDMI Protocol) (H Models) [MOD_VI_V1.0] FDP_SWI_EXT.1 – PSD Switching [PSD] FDP_SWI_EXT.2 – PSD Switching Methods [PSD] FDP_SWI_EXT.3 – Tied Switching [MOD_KM_V1.0] FDP_UDF_EXT.1/AO – Unidirectional Data Flow (Audio Output) [MOD_AO_V1.0] FDP_UDF_EXT.1/KM – Unidirectional Data Flow (Keyboard/Mouse) [MOD_KM_V1.0] FDP_UDF_EXT.1/VI – Unidirectional Data Flow (Video Output) [MOD_VI_V1.0] FIA: Identification and Authentication FIA_UAU.2 – User Authentication Before Any Action [PSD] FIA_UID.2 – User Identification Before Any Action [PSD] FMT: Security Management FMT_MOF.1 – Management of Security Functions Behavior [PSD] FMT_SMF.1 – Specification of Management Functions [PSD] FMT_SMR.1 – Security Roles [PSD] FPT: Protection of the TSF FPT_FLS_EXT.1 – Failure with Preservation of Secure State [PSD] FPT_NTA_EXT.1 – No Access to TOE [PSD] FPT_PHP.1 – Passive Detection of Physical Attack [PSD] FPT_PHP.3 – Resistance to Physical Attack [PSD] FPT_STM.1 Reliable Time Stamps [PSD] FPT_TST.1 – TSF Testing [PSD] FPT_TST_EXT.1 – TSF Testing [PSD] FTA: TOE Access FTA_CIN_EXT.1 – Continuous Indications [PSD] Security Target Version 1.1 2022-03-08 46 8 Rationale This security target includes by reference the [PSD], [MOD_AO_V1.0], [MOD_KM_V1.0], and [MOD_VI_V1.0] Security Problem Definitions, Security Objectives, and Security Assurance Requirements. The security target makes no additions to the [PSD] or listed modules assumptions. The [PSD] and listed module’s security functional requirements have been reproduced with the Protection Profile operations completed. Operations on the security requirements follow [PSD] and the module’s application notes and assurance activities. Consequently, [PSD] and the module’s rationale applies but is incomplete. The TOE Summary Specification rationale below serves to complete the rationale required for the security target. 8.1 TOE Summary Specification Rationale Each subsection in Section 6, the TOE Summary Specification, describes a security function of the TOE. Each description is followed with rationale that indicates which requirements are satisfied by aspects of the corresponding security function. The set of security functions work together to satisfy all of the security functions and assurance requirements. Furthermore, all of the security functions are necessary in order for the TSF to provide the required security functionality. This Section in conjunction with Section 6, the TOE Summary Specification, provides evidence that the security functions are suitable to meet the TOE security requirements. The collection of security functions work together to provide all of the security requirements. The security functions described in the TOE summary specification are all necessary for the required security functionality in the TSF. Table 18 demonstrates the relationship between security requirements and security functions. Table 18: Security Functions vs. Requirements Mapping Specifications Security Audit User Data Protection Identification and Authentication Security Management Protection of the TSF TOE Access FAU_GEN.1 X FDP_AFL_EXT.1 X FDP_APC_EXT.1 X FDP_CDS_EXT.1 X FDP_FIL_EXT.1/KM X FDP_IPC_EXT.1(DP) X FDP_PDC_EXT.1 X FDP_PDC_EXT.2/AO X FDP_PDC_EXT.2/KM X FDP_PDC_EXT.2/VI X FDP_PDC_EXT.3/KM X Security Target Version 1.1 2022-03-08 47 Specifications Security Audit User Data Protection Identification and Authentication Security Management Protection of the TSF TOE Access FDP_PDC_EXT.3/VI(DP) X FDP_PDC_EXT.3/VI(H) X FDP_PDC_EXT.3/VI(D) X FDP_PUD_EXT.1 X FDP_RIP.1/KM X FDP_RIP_EXT.1 X FDP_RIP_EXT.2 X FDP_SPR_EXT.1/DP(DP) X FDP_SPR_EXT.1/DVI-I(D) X FDP_SPR_EXT.1/HDMI(H) X FDP_SWI_EXT.1 X FDP_SWI_EXT.2 X FDP_UDF_EXT.1/AO X FDP_UDF_EXT.1/KM X FDP_UDF_EXT.1/VI X FIA_UAU.2 X FIA_UID.2 X FMT_SMF.1 X FMT_SMR.1 X FPT_FLS_EXT.1 X FPT_NTA_EXT.1 X FPT_PHP.1 X FPT_PHP.3 X FPT_STM.1 X FPT_TST.1 X FPT_TST_EXT.1 X FTA_CIN_EXT.1 X Security Target Version 1.1 2022-03-08 48 Appendix A Letter of Volatility Item No. Component type, Manufacturer, and Part number Memory Type Memory Size Memory Technology User Data 1 System Controller Host Controller ATEN SICG8021A Embedded RAM (1) Undisclosed Volatile May contain user data 2 Host Controller Device Emulators ATEN SICG8022A Embedded RAM(1) Undisclosed Volatile May contain user data 3 System EEPROM ATMEL AT24C512 EEPROM(2) 512K bits Non-volatile No user data 4 System Flash EON EN29LV040A Flash(3) 512K Bytes Non-volatile No user data 5 EDID Emulator ROHM BR24G02-3 EEPROM(4) 256 Bytes Non-volatile No user data 6 DP Video Controller Flash MXIC MX25L4006E Flash(5) 4 Mbits Non-volatile No user data 7 HDMI2.0 Switch Embedded 32K Bytes Volatile No user data Security Target Version 1.1 2022-03-08 49 ITE IT66354 RAM (6) Remarks (1) The Embedded RAM may contain user data. The Embedded RAM is cleared and user keyboard/mouse data is purged when the Secure KVM powers-off or power-cycles, after switching ports, after a KVM reset (reboot), or a trigger of the tamper-proof mechanism is detected. (2) The EEPROM does not contain user data. User settings, Secure KVM configuration, and audit records are kept in EEPROM. The user settings and the Secure KVM configuration will be reset to KVM default settings after a Reset to Factory Default. but the audit records remain unchanged after a Reset to Factory Default, KVM reset (reboot), or power-cycle. (3) The Flash does not contain user data. Firmware code is stored in the Flash and cannot be updated or rewritten. The firmware code remains unchanged after a Reset to Factory Default, KVM reset (reboot), or power-cycle. (4) The EDID ROM does not contain user data. It is for PC Read EDID ROM. The EDID data will be cleared after a KVM reset (reboot) or power-cycle. (5) (DisplayPort models only) The Flash does not contain user data. The firmware code for the HDMI to DP Converter used is stored in the Flash, remaining unchanged after a Reset to Factory Default, KVM reset (reboot), or power-cycle. (6) The switch’s internal EDID RAM does not contain user data. It is for PC Read EDID. The EDID data will be cleared after a KVM reset (reboot) or power-cycle. All components are powered by the Secure KVM only.