IDMotion V2 Security Target - eTravel 2.4 - EAC-SAC
Public version
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IDMotion V2
eTravel 2.4 – EAC-SAC
Common Criteria / ISO 15408
Security Target – Public version
EAL5+
IDMotion V2 Security Target - eTravel 2.4 - EAC-SAC
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CONTENT
1. SECURITYTARGET INTRODUCTION .................................................................................................. 4
1.1 SECURITY TARGET REFERENCE ............................................................................................................... 4
1.2 TOE REFERENCE...................................................................................................................................... 4
1.3 IDENTIFICATION....................................................................................................................................... 5
1.4 SECURITY TARGET OVERVIEW ................................................................................................................. 6
1.5 REFERENCES ............................................................................................................................................ 7
1.5.1 External References......................................................................................................................... 7
1.5.2 Internal References ......................................................................................................................... 8
2. TOE OVERVIEW......................................................................................................................................... 9
2.1 TOE DESCRIPTION ................................................................................................................................... 9
2.2 TOE BOUNDARIES.................................................................................................................................. 11
2.3 TOE USAGE AND SECURITY FEATURES FOR OPERATIONAL USE.............................................................. 11
2.4 TOE LIFE-CYCLE .................................................................................................................................... 13
2.4.1 Actors ............................................................................................................................................ 13
2.4.2 TOE Life Cycle.............................................................................................................................. 14
2.4.3 Non-TOE hardware/software/firmware required by the TOE....................................................... 17
3. CONFORMANCE CLAIMS ..................................................................................................................... 18
3.1 CC CONFORMANCE CLAIM .................................................................................................................... 18
3.2 PP CLAIM,.............................................................................................................................................. 18
3.3 PACKAGE CLAIM.................................................................................................................................... 18
3.4 CONFORMANCE STATEMENT .................................................................................................................. 18
3.1 EVALUATION TYPE................................................................................................................................. 18
3.2 ADDITIONS FROM PP CLAIM................................................................................................................... 19
3.2.1 TOE Type ...................................................................................................................................... 19
3.2.2 The security problem..................................................................................................................... 19
3.2.3 Security objectives and Security Requirements............................................................................. 19
4. SECURITY PROBLEM DEFINITION.................................................................................................... 20
4.1 INTRODUCTION ...................................................................................................................................... 20
4.2 ASSUMPTIONS........................................................................................................................................ 25
4.3 THREATS................................................................................................................................................ 26
4.4 ORGANIZATIONAL SECURITY POLICIES.................................................................................................. 29
5. SECURITY OBJECTIVES........................................................................................................................ 32
5.1 SECURITY OBJECTIVES FOR THE TOE.................................................................................................... 32
5.2 SECURITY OBJECTIVES FOR THE OPERATIONAL ENVIRONMENT ............................................................ 35
5.3 SECURITY OBJECTIVE RATIONALE......................................................................................................... 39
5.3.1 Rationale between objectives and threats, assumptions, OSP ...................................................... 39
5.3.1.1 Compatibility between objectives for the environment ............................................................................. 41
5.3.2 Justifications for adding objectives on the environment ............................................................... 42
5.3.2.1 Additions to [PP-MRTD-EACV2] ............................................................................................................ 42
6. EXTENDED COMPONENTS DEFINITION.......................................................................................... 43
6.1 DEFINITION OF THE FAMILY FAU_SAS................................................................................................. 43
6.2 DEFINITION OF THE FAMILY FCS_RND................................................................................................. 43
6.3 DEFINITION OF THE FAMILY FIA_API ................................................................................................... 44
6.4 DEFINITION OF THE FAMILY FMT_LIM................................................................................................. 45
6.5 DEFINITION OF THE FAMILY FPT_EMS................................................................................................. 46
7. SECURITY REQUIREMENTS ................................................................................................................ 48
7.1 SECURITY FUNCTIONAL REQUIREMENTS FOR THE TOE......................................................................... 50
7.1.1 Class FAU Security Audit.............................................................................................................. 50
7.1.2 Class Cryptographic Support (FCS) ............................................................................................. 51
7.1.3 Class FIA Identification and Authentication................................................................................. 56
7.1.4 Class FDP User Data Protection.................................................................................................. 60
7.1.5 Class FTP Trusted Path/Channels................................................................................................ 62
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7.1.6 Class FMT Security Management ................................................................................................. 62
7.1.7 Class FPT Protection of the Security Functions ........................................................................... 66
7.2 SECURITY ASSURANCE REQUIREMENTS FOR THE TOE.......................................................................... 68
7.3 SECURITY REQUIREMENTS RATIONALE ................................................................................................. 69
7.3.1 Security Functional Requirements Rationale................................................................................ 69
7.3.2 Dependency Rationale................................................................................................................... 73
7.3.3 Security Assurance Requirements Rationale................................................................................. 76
7.3.4 Security Requirements – Mutual support and internal consistency .............................................. 76
8. TOE SUMMARY SPECIFICATION ....................................................................................................... 77
8.1 TOE SECURITY FUNCTIONS ................................................................................................................... 77
8.1.1 TSFs provided by the eTravel Software......................................................................................... 77
8.1.2 TSFs provided by the IFX_CCI_000014 ....................................................................................... 78
9. SFR RATIONALE...................................................................................................................................... 79
10. GLOSSARY AND ACRONYMS........................................................................................................... 83
FIGURES
Figure 1 - GMF overview ..................................................................................................................................... 10
Figure 2: TOE Boundaries .................................................................................................................................... 11
Figure 3: Advanced Inspection Procedure ............................................................................................................ 24
TABLES
Table 1: Identification of the actors ...................................................................................................................... 13
Table 2: Product and TOE life-cycle phases......................................................................................................... 14
Table 3: Primary assets ......................................................................................................................................... 20
Table 4: Secondary assets ..................................................................................................................................... 21
Table 5: Subjects and external entities.................................................................................................................. 24
Table 6: Security Objective Rationale .................................................................................................................. 39
Table 7: FCS_CKM.1/DH_PACE refinements..................................................................................................... 51
Table 8: FCS_CKM.1/Session refinement............................................................................................................ 52
Table 9: FCS_COP.1/PACE_ENC refinements.................................................................................................... 53
Table 10: FCS_COP.1/PACE_MAC refinements................................................................................................. 53
Table 11: FCS_COP.1/PACE_CAM refinements............................................................................................... 53
Table 12: FCS_COP.1/CA_ENC refinements ...................................................................................................... 54
Table 13: FCS_COP.1/SIG_VER refinements ..................................................................................................... 54
Table 14: FCS_COP.1/CA_MAC refinements ..................................................................................................... 54
Table 15: FCS_COP.1/AA refinements ................................................................................................................ 55
Table 16: Overview on authentication SFR .......................................................................................................... 56
Table 17: FIA_AFL.1/PACE refinements ............................................................................................................ 56
Table 18: FPT_TST refinements........................................................................................................................... 67
Table 19: Security functional requirement rationale ............................................................................................. 70
Table 20: Security functional requirement dependencies ..................................................................................... 75
Table 21: SAR Dependencies ............................................................................................................................... 76
Table 22: Security Functions provided by the MULTOS V4.5.2 Software .......................................................... 77
Table 23: Security Functions provided by the Infineon IFX_CCI_000014 .......................................................... 78
Table 24: Rationale table of functional requirements and security functions ....................................................... 80
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1. SECURITYTARGET INTRODUCTION
1.1 SECURITY TARGET REFERENCE
Title : eTravel EAC-SAC Security Target
Version : 1.1
ST Reference : ST_D1430932_P
Origin : Gemalto
Author : Franck OHAYON
IT Security Evaluation
scheme :
Thales
IT Security
Certification scheme :
Agence Nationale de la Sécurité des Systèmes d’Information
(ANSSI)
1.2 TOE REFERENCE
Product Name : eTravel v2.4 (EAC-SAC)
Security Controllers : IFX_CCI_000014 (SLC52-GDA448)
TOE Name : eTravel v2.4 (EAC-SAC) on MULTOS V4.5.2
TOE Technical Product Reference*: T1036817
TOE documentation : Guidance [AGD]
* Note: PDM reference
The TOE identification is provided by the Card Production Life Cycle Data (CPLCD). These data are
available by executing a dedicated command.
The TOE and the product differ, as further explained in §2 TOE :
 The TOE is the eTravel v2.4 (EAC-SAC) on MULTOS V4.5.2.
 The IDMotion V2 product also includes other applications.
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1.3 IDENTIFICATION
The TOE identification is provided by the Card Production Life Cycle Data (CPLCD). These data are
available by executing the command GetData
Field Description – Value
CLA* '00' / '0C'
INS 'CA’
P1 ‘9F’
P2 ‘7F’
Lc Absent
Data field Absent
Le ‘2A’
(*) When secure messaging is used, bits b3 & b4 in CLA byte of APDU commands must be set. These
bits indicate that APDU is formatted in Secure Messaging mode with command header authenticated.
Therefore, a CLA Byte ‘00’ is changed to ‘0C’ under SM & a CLA byte ‘80’ is changed to ‘8C’ under SM:
The eTravel (including GMF - XX) identification part is given by the application version ID Motion
V2 and the sub-iteration as defined in the get Data response table below:
For this product, the ID Motion V2 version is: 2401 and the IC Fabricator is: 4090
Length Description When set
2 IC Fabricator:
‘4090’ – Infineon
‘FFFF’ – Win32
Static values initialized in
FlashMask during GMF
installation
2 IC Type – to be provided by component group
2 Operating System Identifier – mask/application version:
ID Motion V2: ’24 XX’ (value 2401 – YY=24 for eTravel v2.4,
XX sub-iteration 01 for GMF v1.0). This identifier binds a
product release to a given version of GMF MEL application
Initialized in GMF MEL
application code during
installation
1 Operating System Identifier: MULTOS ic_type_byte1 value These values are retrieved
on card from MULTOS
Operating system during
application creation
1 MULTOS amd_version (LSB byte)2
2 Operating System release level: the MULTOS amd_identifier3
8 mcd_number, as retrieved by GET MULTOS DATA command
2 IC Module Fabricator
These values are retrieved
from the Gemalto AMD block
during application creation.
The AMD block is loaded
during pre-perso (pre-
enablement)
2 IC Module Packaging Date
2 ICC Manufacturer4
2 IC Embedding Date
2 IC Pre-personalizer
2 IC Pre-personalization Date
4 IC Pre-personalization Equipment Identifier
2 IC Personalizer Set by the personalizer
during off-card ALU
generation
2 IC Personalization Date
4 IC Personalization Equipment Identifier
1 The ic_type_byte is a unique identifier for a MULTOS mask. It is usually retrieved with the GET
MANUFACTURER DATA command
2 The amd_version is usually retrieved through the GET CONFIGURATION DATA command (tag 0400)
3 This value is usually retrieved through the GET CONFIGURATION DATA command (tag 0400)
4 The ICC Manufacturer, IC Embedding Date, and IC Pre-personalization information are stored in the
ID Motion AMD block. They are written to the AMD block during the product pre-enablement (pre-
personalization phase) and read from there during the GMF installation.
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1.4 SECURITY TARGET OVERVIEW
This Security Target defines the security objectives and requirements for the contact/contactless chip of
machine readable travel documents (MRTD) based on the requirements and recommendations of the
International Civil Aviation Organization (ICAO). It addresses the advanced security methods
Supplementary Access Control and Extended Access Control as well as the advanced authentication
mechanisms Chip Authentication and Active Authentication.
The Security Target is based on Protection Profile Machine Readable Travel Document with “ICAO
Application”, Extended Access Control [PP-MRTD-EACV2].
The Security Target defines the security requirements for the TOE. The main security objective is to
provide the secure enforcing functions and mechanisms to maintain the integrity and confidentiality of
the MRTD application and data during its life cycle.
Note that the the security is based on crypto libraries developed by Gemalto
The main objectives of this ST are:
 To introduce TOE and the MRTD application,
 To define the scope of the TOE and its security features,
 To describe the security environment of the TOE, including the assets to be protected
and the threats to be countered by the TOE and its environment during the product
development, production and usage.
 To describe the security objectives of the TOE and its environment supporting in terms
of integrity and confidentiality of application data and programs and of protection of the
TOE.
 To specify the security requirements which includes the TOE security functional
requirements, the TOE assurance requirements and TOE security functions.
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1.5 REFERENCES
1.5.1 External References
[ASM-EAC] Technical Guideline – Advanced Security Mechanisms for Machine Readable Travel Documents
– Extended Access Control (EAC),
Version 1.0, TR-03110
[BIO] BIOMETRICS DEPLOYMENT OF MACHINE READABLE TRAVEL DOCUMENTS,
Technical Report, Development and Specification of Globally Interoperable Biometric
Standards for Machine Assisted Identity Confirmation using Machine Readable Travel
Documents,
Version 2.0, ICAO TAG MRTD/NTWG, 21 May 2004
[CC-2] Common Criteria for Information Technology Security Evaluation
Part 2: Security functional components,
CCMB-2017-04-002, version 3.1 rev 5, April 2017
[CC-3] Common Criteria for Information Technology Security Evaluation
Part 3: Security assurance components,
CCMB-2017-04-003, version 3.1 rev 5, April 2017
[CEM] Common Methodology for Information Technology Security Evaluation
Methodology
CCMB-2017-04-004, version 3.1 rev 5, April 2017
[CCDB] Common Criteria Supporting Document, Mandatory Technical Document – Composite product
evaluation for Smart Cards and similar devices
Ref: CCDB-2012-04-001, Version 1.2, April 2012
[RGS-B1] Référentiel général de sécurité version 2.0
Annexe B1 Mécanismes cryptographiques…version 2.03 du 21 Février 2014
[ST-IC] Security Target Common Criteria H13
IFX_CCI_000003h, IFX_CCI_000005h, IFX_CCI_000008h, IFX_CCI_00000Ch,
IFX_CCI_000013h, IFX_CCI_000014h, IFX_CCI_000015h, IFX_CCI_00001Ch, ,
IFX_CCI_00001Dh
Revision: 0.5 – 2017-05-22
[CR-IC] Certification Report, BSI-DSZ-CC-0945-2017
[FIPS180-2] Federal Information Processing Standards Publication 180-2 SECURE HASH STANDARD
(+Change Notice to include SHA-224),
U.S. DEPARTMENT OF COMMERCE/National Institute of Standards and Technology,
2002 August 1
[FIPS46-3] Federal Information Processing Standards Publication FIPS PUB 46-3, DATA ENCRYPTION
STANDARD (DES),
U.S. DEPARTMENT OF COMMERCE/National Institute of Standards and Technology,
Reaffirmed 1999 October 25
[ISO15946-1] ISO/IEC 15946: Information technology – Security techniques – Cryptographic techniques based
on elliptic curves – Part 1: General,
2002
[ISO15946-2] ISO/IEC 15946: Information technology – Security techniques – Cryptographic techniques based
on elliptic curves – Part 2: Digital Signatures,
2002
[ISO15946-3] ISO/IEC 15946: Information technology – Security techniques – Cryptographic techniques based
on elliptic curves – Part 3: Key establishment,
2002
[ISO7816] ISO 7816, Identification cards – Integrated circuit(s) cards with contacts, Part 4: Organization,
security and commands for interchange, FDIS2004
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[ISO9796-2] ISO/IEC 9797: Information technology – Security techniques – Digital Signature Schemes giving
message recovery – Part 2: Integer factorisation based mechanisms,
2002
[ISO9797-1] ISO/IEC 9797: Information technology – Security techniques – Message Authentication Codes
(MACs) – Part 1: Mechanisms using a block cipher,
1999
[ICAO-9303] 9303 Part 3 Vol 2 – ICAO Machine Readable Travel Document Third edition 2008
[PKCS#3] PKCS #3: Diffie-Hellman Key-Agreement Standard,
An RSA Laboratories Technical Note,
Version 1.4, Revised November 1, 1993
[PKI] MRTD Technical Report, PKI for Machine Readable Travel Documents Offering ICC Read-Only
Access
International Civil Aviation Organization
Version 1.1, October 01 2004
[PP-IC-0084] Security IC Platform Protection Profile with augmentation Packages– BSI-CC-PP-0084-2014
[PP-MRTD-
EACV2]
Machine Readable Travel Document with „ICAO Application”, Extended Access Control with
PACE (EAC PP)
BSI-CC-PP-0056-V2-2012 (Version 1.3.1, 22th March 2012)
[PP-MRTD-SAC] Machine Readable Travel Document using Standard Inspection Procedure with PACE (PACE
PP)
BSI-CC-PP-0068-V2-2011, Version 1.0, 2nd November 2011
[PP-MRTD-BAC] Common Criteria Protection Profile - Machine Readable Travel Document with ICAO
Application, Basic Access Control
Bundesamt für Sicherheit in der Informationstechnik
BSI-PP-0055, version 1.10, 25th March 2009
[SS] ANNEX to Section III SECURITY STANDARDS FOR MACHINE READABLE TRAVEL
DOCUMENTS,
Excerpts from ICAO Doc 9303, Part 1
Machine Readable Passports, Fifth Edition – 2003
[TR-ECC] Elliptic Curve Cryptography based on ISO 15946, Technical Guideline TR-03111, Version
1.11, BSI, 2009
[TR-EAC-1] Technical Guideline – TR-03110-1, Advanced Security Mechanisms for Machine Readable
Travel Documents –Part 1 – eMRTDs with BAC/PACEv2 and EACv1, Version 2.10, 20.03.2012
[ICAO-TR-SAC] ICAO TR – Supplemental Access Control for Machine Readable Travel Document, Version 1.1,
April 15, 2014.
[BIO] BIOMETRICS DEPLOYMENT OF MACHINE READABLE TRAVEL DOCUMENTS,
Technical Report, Development and Specification of Globally Interoperable Biometric Standards
for Machine Assisted Identity Confirmation using Machine Readable Travel Documents,
Version 2.0, ICAO TAG MRTD/NTWG, 21 May 2004
1.5.2 Internal References
[ST-EAC_SAC] D1430932 eTravel EAC on SAC Security Target on MULTOS platform
[ST-EAC_BAC] D1430931 eTravel EAC on BAC Security Target on MULTOS platform
[ST-BAC] D1430929 – IDMotion V2 ICAO - BAC Security Target on MULTOS platform
[ST-Platform] D1172991 - IDMotion V2 Platform Security Target
[AGD] Security Guidance for MULTOS Application Developers
MI-MA-0031 – v1.6 – 5 October 2017
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2. TOE OVERVIEW
2.1 TOE DESCRIPTION
The TOE is the module designed to be the core of an MRTD passport. The TOE is a contact/contactless
integrated circuit. The TOE is connected to an antenna and capacitors and is mounted on a plastic film.
This inlay is then embedded in the coversheet or datapage of the MRTD passport and provides a
contactless interface for the passport holder identification.
The Target of Evaluation (TOE) is the contact/contactless integrated circuit chip of machine readable
travel documents (MRTD’s chip) programmed according to the Logical Data Structure (LDS) [ICAO-
9303] and providing:
 The Basic Access Control (BAC) according to the ICAO document [PKI]
 The Active Authentication (AA) mechanism according to the ICAO document [ICAO-9303]
 The PACE V2 Access Control (SAC) according to the ICAO document [ICAO-TR-SAC]
 The Extended Access Control according to the BSI document [TR-EAC-1]
The TOE comprises of at least
 The circuitry of the MRTD’s chip (the integrated circuit, IC),
 The IC Dedicated Software with the parts IC Dedicated Test Software and IC Dedicated Support
Software,
 The IC Embedded Software (operating system),
 The eTravel 2.4 on MULTOS V4.5.2 Embedded Software
 The GMF Application
 The associated guidance documentation.
The TOE delivery:
The TOE will be delivered under 1 configuration:
The configuration on MULTOS Multi-applicative Open Platform as presented in the [ST-IC] chapter 2.2.
The TOE is delivered to the Personalization Agent with data and guidance documentation in order to
perform the personalization of the product. In addition the Personalization Key is delivered from the
MRTD Manufacturer to the Personalization Agent or from the Personalization Agent to the MRTD
Manufacturer.
ETravel is a sub-part of the GMF (Global Master File) application, which also provides support for PACE
as a global mechanism for the ID Motion platform
The GMF application was developed in order to provide a global privacy protocol (PACE) protecting the
access to all applications embedded on the ID Motion product.
The GMF Application is a Shell application: when it is loaded, all (non-MSM) commands will be
processed by GMF. When not loaded, the product acts like a standard MULTOS product.
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Figure 1 - GMF overview
The GMF (Global Master File) represents – as its name says – the card’s Master File and its sub-
structures, files and keys. From a terminal point of view, it is an application that processes all commands
performed under the Master File:
- Selection/read of transparent EF (e.g EF.CardAccess for PACE)
- Global Authentication commands for PACE
- Selection of an application and re-routing of the commands to the appropriate selected
application (this is transparent to the terminal)
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2.2 TOE BOUNDARIES
The figure below gives a description of the TOE and its boundaries (red dash line)
Figure 2: TOE Boundaries
Notes: The Crypto libraries modules used are our in-house crypto libraries.
2.3 TOE USAGE AND SECURITY FEATURES FOR OPERATIONAL USE
A State or Organization issues MRTDs to be used by the holder for international travel. The traveller
presents an MRTD to the inspection system to prove his or her identity. The MRTD in context of this
security target contains (i) visual (eye readable) biographical data and portrait of the holder, (ii) a
separate data summary (MRZ data) for visual and machine reading using OCR methods in the
Machine readable zone (MRZ) and (iii) data elements on the MRTD’s chip according to LDS for
contactless machine reading. The authentication of the traveller is based on (i) the possession of a
valid MRTD personalized for a holder with the claimed identity as given on the biographical data page
and (ii) biometrics using the reference data stored in the MRTD.
Drivers
CRYPTO
Libraries SECURITY MEMORY
HAL- Hardware Abstract Layer
RF
NVM
endurance
Applications
MEL
C asm
IAS
Standard primitives Proprietary primitives
GMF
Shell
MULTOS
APIs
MOCC PSA
TLV
eTravel
GMF
(PACE)
Biometry
Secure
Messaging
FileSystem
NEL - Native Environment Layer
MULTOS
VM MM
MSM
HW IO CF
IFX_CCI_000014 Integrated Circuit
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The issuing State or Organization ensures the authenticity of the data of genuine MRTD’s. Receiving
State trusts a genuine MRTD of an issuing State or Organization.
For this security target the MRTD is viewed as unit of
(a) the physical MRTD as travel document in form of paper, plastic and chip. It presents visual
readable data including (but not limited to) personal data of the MRTD holder
(1) the biographical data on the biographical data page of the passport book,
(2) the printed data in the Machine Readable Zone (MRZ) and
(3) the printed portrait.
(b) the logical MRTD as data of the MRTD holder stored according to the Logical Data Structure
[ICAO-9303] as specified by ICAO on the contactless integrated circuit. It presents contactless
readable data including (but not limited to) personal data of the MRTD holder
(1) the digital Machine Readable Zone Data (digital MRZ data, EF.DG1),
(2) the digitized portraits (EF.DG2),
(3) the biometric reference data of finger(s) (EF.DG3) or iris image(s) (EF.DG4) or both,
(4) the other data according to LDS (EF.DG5 to EF.DG16) and
(5) the Document security object.
The issuing State or Organization implements security features of the MRTD to maintain the
authenticity and integrity of the MRTD and their data. The MRTD as the passport book and the
MRTD’s chip is uniquely identified by the Document Number.
The physical MRTD is protected by physical security measures (e.g. watermark on paper, security
printing), logical (e.g. authentication keys of the MRTD’s chip) and organizational security measures
(e.g. control of materials, personalization procedures) [ICAO-9303]. These security measures include
the binding of the MRTD’s chip to the passport book.
The logical MRTD is protected in authenticity and integrity by a digital signature created by the
document signer acting for the issuing State or Organization and the security features of the MRTD’s
chip.
The ICAO defines the baseline security methods Passive Authentication and the optional advanced
security methods Basic Access Control to the logical MRTD, Active Authentication of the MRTD’s chip,
Extended Access Control to and the Data Encryption of sensitive biometrics as optional security
measure in the ICAO Doc 9303 [ICAO-9303]. The Passive Authentication Mechanism and the Data
Encryption are performed completely and independently of the TOE by the TOE environment.
This security target addresses the protection of the logical MRTD (i) in integrity by write-only-once
access control and by physical means, and (ii) in confidentiality by the Extended Access Control
Mechanism. This security target addresses the Chip Authentication described in [TR-EAC-1] as an
alternative to the Active Authentication stated in [ICAO-9303].
The confidentiality by Basic Access Control is a mandatory security feature that shall be implemented
by the TOE, too. Nevertheless this is not explicitly covered by this ST as there are known weaknesses
in the quality (i.e. entropy) of the BAC keys generated by the environment. Therefore, the MRTD has
additionally to fulfil the ‘Common Criteria Protection Profile Machine Readable Travel Document with
„ICAO Application", Basic Access Control’ [PP-BAC-MRTD]. Due to the fact that [PP-BAC-MRTD]
does only consider extended basic attack potential to the Basic Access Control Mechanism (i.e.
AVA_VAN.3) the MRTD has been evaluated and certified separately according to [ST-BAC], claiming
[PP-BAC-MRTD].
For BAC, the inspection system (i) reads optically the MRTD, (ii) authenticates itself as inspection
system by means of Document Basic Access Keys. After successful authentication of the inspection
system the MRTD’s chip provides read access to the logical MRTD by means of private
communication (secure messaging) with this inspection system [ICAO-9303], normative appendix 5.
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The security target requires the TOE to implement the Chip Authentication defined in [TR-EAC-1].
The Chip Authentication prevents data traces described in [ICAO-9303], informative appendix 7,
A7.3.3. The Chip Authentication is provided by the following steps: (i) the inspection system
communicates by means of secure messaging established by Basic Access Control, (ii) the inspection
system reads and verifies by means of the Passive Authentication the authenticity of the MRTD’s Chip
Authentication Public Key using the Document Security Object, (iii) the inspection system generates
an ephemeral key pair, (iv) the TOE and the inspection system agree on two session keys for secure
messaging in ENC_MAC mode according to the Diffie-Hellman Primitive and (v) the inspection system
verifies by means of received message authentication codes whether the MRTD’s chip was able or not
to run this protocol properly (i.e. the TOE proves to be in possession of the Chip Authentication Private
Key corresponding to the Chip Authentication Public Key used for derivation of the session keys). The
Chip Authentication requires collaboration of the TOE and the TOE environment.
The security target requires the TOE to implement the Extended Access Control as defined in [TR-
EAC-1]. The Extended Access Control consists of two parts (i) the Chip Authentication Protocol and
(ii) the Terminal Authentication Protocol. The Chip Authentication Protocol (i) authenticates the
MRTD’s chip to the inspection system and (ii) establishes secure messaging which is used by
Terminal Authentication to protect the confidentiality and integrity of the sensitive biometric reference
data during their transmission from the TOE to the inspection system. Therefore Terminal
Authentication can only be performed if Chip Authentication has been successfully executed. The
Terminal Authentication Protocol consists of (i) the authentication of the inspection system as entity
authorized by the receiving State or Organization through the issuing State, and (ii) an access control
by the TOE to allow reading the sensitive biometric reference data only to successfully authenticated
authorized inspection systems. The issuing State or Organization authorizes the receiving State by
means of certification the authentication public keys of Document Verifiers who create Inspection
System Certificates.
The security target also requires the TOE to implement Active Authentication as defined in [ICAO-
9303].
Keys for Chip authentication and Active Authentication are imported on card during the personalization
phase.
2.4 TOE LIFE-CYCLE
2.4.1 Actors
Actors Identification
Integrated Circuit (IC) Developer Infineon
Embedded Software Developer Gemalto
Integrated Circuit (IC) Manufacturer Infineon
Module manufacturer Gemalto or Infineon
Initialization/Pre-personalizer Gemalto
Inlay manufacturer Gemalto or another Inlay manufacturer
Book manufacturer Gemalto or another printer
Personalization Agent The agent who is acting on the behalf of the issuing State
or Organization and personalize the MRTD for the holder
by activities establishing the identity of the holder with
biographic data.
MRTD Holder The rightful holder of the MRTD for whom the issuing
State or Organization personalizes the MRTD.
Table 1: Identification of the actors
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2.4.2 TOE Life Cycle
The IDMotion V2 product life-cycle is described in the table hereunder based on the 7 phases.
Phase Description / comments Who Where
1
IDMotion V2
platform
development
Platform development,
Primitives integration &
tests
Gemalto
MULTOS R&D team
- secure environment -
Gemalto Sydney
Gemalto
SL Crypto team
- secure environment -
Gemalto Meudon
Gemalto
GBU R&D team
- secure environment -
Gemalto Meudon
Gemalto Singapore
eTravel
application
development
- Application development
- Primitives development
- Application & primitives
tests
Gemalto
GBU R&D team
- secure environment -
Gemalto Meudon
Gemalto Singapore
2 IC development
IC development IC developer
- Secure environment -
IC development
site(s)
Refer to [CR-IC]
3 IC manufacturing
Manufacturing of virgin
integrated circuits
embedding a flash loader
protected by a dedicated
transport key.
IC manufacturer
- Secure environment -
IC manufacturing
site(s)
Refer to [CR-IC]
4
SC manufacturing:
IC packaging, also
called “assembly”
IC packaging & testing
Gemalto or IFX (for
contactless only)
Production teams
- Secure environment -
Gemalto Gémenos
Gemalto Singapore
Gemalto Vantaa
5
SC manufacturing
&
pre-
personalization
 Module embedding
(ICC, smartcard,
inlays/booklets,
modules, or chips)

 Loading of the
Gemalto software
(platform and
applications)
 SC initialization
(profile building,
loading of data
needed for card pre-
personalization…)
Gemalto
Production teams
- Secure environment -
Gemalto Gémenos
Gemalto Singapore
Gemalto Vantaa
Gemalto Tczew
Gemalto Curitiba
Gemalto
Montgomery
6
SC
Personalization
Creation of files and
loading of end-user data
SC Personalizer:
Gemalto or another
accredited company
- Secure environment -
SC Personalizer site
7 End-usage
End-usage for SC issuer SC Issuer Field
End-usage for cardholder Cardholder Field
Table 2: Product and TOE life-cycle phases
Evaluation scope: life-cycle boundary
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Remarks:
1. Initialization & pre-personalization operation could be done on module or on other form factor.
The form factor does not affect the TOE security.
2. Alternative life cycle: wafers are shipped by Infineon to form factor manufacturer (no module
manufacturing required) and initialization /pre-personalization is done in Gemalto site.
3. For initialization/pre-personalization IC flash loader could be used based on the IC manufacturer
recommendation.
4. Embedding (module inserted in the final form factor) will be done on an audited site.
5. TOE delivery is done after Step 5 – The Red Dash Line represents the TOE development
The TOE life cycle is described in terms of the four life cycle phases (Development-Manufacturing-
Personalization-Usage).
(With respect to the [PP-IC-0084], the TOE life-cycle is additionally subdivided into 7 steps.)
Phase 1 “Development”:
(Step1) The TOE is developed in phase 1. The IC developer develops the integrated circuit, the IC
Dedicated Software and the guidance documentation associated with these TOE components.
(Step2) The software developer uses the guidance documentation for the integrated circuit and the
guidance documentation for relevant parts of the IC Dedicated Software and develops the IC Embedded
Software (operating system), the MRTD application and the guidance documentation associated with
these TOE components.
As a result a flash mask is generated (HEX file) with initialisation and pre-personalisation scripts.
Phase 2 “Manufacturing”:
(Step3) In a first step the IC manufacturer produce virgin chip with IC Identification Data and the flash
loader software. The IC is securely delivered from the IC manufacturer to the MRTD manufacturer.
(Step4) The MRTD manufacturer combines the IC with hardware for the contactless interface in the
passport book
(Step5) The MRTD manufacturer (i) creates the MRTD application and (ii) equips MRTD’s chips with
pre-personalization Data.
The pre-personalized MRTD together with the IC Identifier is securely delivered from the MRTD
manufacturer to the Personalization Agent. The MRTD manufacturer also provides the relevant parts of
the guidance documentation to the Personalization Agent.
Phase 3 “Personalization of the MRTD”:
(Step6) The personalization of the MRTD includes (i) the survey of the MRTD holder’s biographical
data, (ii) the enrolment of the MRTD holder biometric reference data (i.e. the digitized portraits and the
optional biometric reference data), (iii) the printing of the visual readable data onto the physical MRTD,
(iv) the writing of the TOE User Data and TSF Data into the logical MRTD and (v) configuration of the
TSF if necessary. The step (iv) is performed by the Personalization Agent and includes but is not
limited to the creation of (i) the digital MRZ data (EF.DG1), (ii) the digitized portrait (EF.DG2), and (iii)
the Document security object.
The signing of the Document security object by the Document signer [5] finalizes the personalization of
the genuine MRTD for the MRTD holder. The personalized MRTD (together with appropriate guidance
for TOE use if necessary) is handed over to the MRTD holder for operational use.
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Phase 4 “Operational Use”
(Step7) The TOE is used as MRTD chip by the traveller and the inspection systems in the “Operational
Use” phase. The user data can be read according to the security policy of the issuing State or
Organization and can be used according to the security policy of the issuing State but they can never
be modified.
Application note: In this ST, the role of the Personalization Agents is strictly limited to the phase 3
Personalization. In the phase 4 Operational Use updating and addition of the data groups of the MRTD
application is forbidden.
2.4.3 Non-TOE hardware/software/firmware required by the TOE
There is no explicit non-TOE hardware, software or firmware required by the TOE to perform its
claimed security features. The TOE is defined to comprise the chip and the complete operating system
and application. Note, the inlay holding the chip as well as the antenna and the booklet or card
(holding the printed MRZ) are needed to represent a complete MRTD, nevertheless these parts are
not inevitable for the secure operation of the TOE.
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3. CONFORMANCE CLAIMS
3.1 CC CONFORMANCE CLAIM
This security target claims conformance to
 [CC-1]
 [CC-2]
 [CC-3]
As follows
 Part 2 extended,
 Part 3 conformant.
The
 [CEM] has to be taken into account.
3.2 PP CLAIM,
The eTravel EAC-SAC v2.4 IDMotion V2 EAC-SAC security target claims strict conformance to the
Protection Profile [PP-MRTD-EACV2].
[PP-MRTD-EACV2] claims strict conformance to [PP-MRTD-SAC].
The eTravel EAC-SAC v2.4 IDMotion V2 EAC-SAC security target is a composite security target,
including the IC security target [ST-IC]. However the security problem definition, the objectives, and
the SFR of the IC are not described in this document.
3.3 PACKAGE CLAIM
This ST is conforming to assurance package EAL5 augmented with ALC_DVS.2 and AVA_VAN.5
defined in CC part 3 [CC-3].
3.4 CONFORMANCE STATEMENT
This ST strictly conforms to [PP-MRTD-EACV2].
3.1 EVALUATION TYPE
This is a composite evaluation, which relies on the IFX_CCI_000014 chip certificate and evaluation
results.
IFX_CCI_000014 chip certificate:
 Certification done under the BSI scheme
 Certification report [CR-IC]
 Security Target [ST_IC] strictly conformant to Security IC Protection Profile PP-
0084 “Security IC Platform Protection Profile with Augmentation Packages”, BSI-
CC-PP-0084-2014
 Common criteria version: 3.1
 Assurance level: EAL6+ includes already the highest assurance families
AVA_VAN.5 and ALC_DVS.2
Consequently, the composite product evaluation (i.e. the present evaluation) includes the additional
composition tasks defined in the CC supporting document “Composite product evaluation for smart
cards and similar devices” [CCDB].
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3.2 ADDITIONS FROM PP CLAIM
3.2.1 TOE Type
This composite TOE meets the TOE type of the [PP-MRTD-EAC].
3.2.2 The security problem
The security problem definition, i.e threats, assets, assumptions and OSP are taken from the PP.
In addition to the PP we have defined 1 more thread:
 T.Counterfeit (MRTD’s chip)
This addition from the [PP-MRTD-EAC] is compatible and do not alter the conformance claim of the
§3.2
3.2.3 Security objectives and Security Requirements
The security objectives, security requirements are taken from the PP and the operations done for the
SFR are clearly indicated.
In addition to the PP we have defined 3 more security objectives for TOE & Operational Environment
linked to the Active Authentication:
- OT.Activ_Auth_Proof (Proof of MRTD’s chip authenticity through AA)
- OE.Active_Auth_Sign (Active Authentication of logical MRTD by Signature)
- OE.Passive_Auth_Verif (Verification by Passive Authentication)
These additions from the [PP-MRTD-EAC] are compatible and do not alter the conformance claim of
the §3.2
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4. SECURITY PROBLEM DEFINITION
4.1 INTRODUCTION
Assets
The primary assets to be protected by the TOE as long as they are in scope of the TOE are (please
refer to the glossary in §10 Glossary and acronyms for the term definitions)
Object
No.
Asset Definition Generic security
property to be
maintained by the
current security policy
travel document
1 user data stored on
the TOE
All data (being not authentication data) stored in
the context of the ePassport application of the
travel document as defined in [ICAO-TR-SAC]
and being allowed to be read out solely by an
authenticated terminal acting as Basic
Inspection System with PACE (in the sense of
[ICAO-TR-SAC]).
This asset covers ‘User Data on the MRTD’s
chip’, ‘Logical MRTD Data’ and ‘Sensitive User
Data’ in [PP-MRTD-BAC].
Confidentiality5
Integrity
Authenticity
2 user data
transferred between
the TOE and the
terminal connected
(i.e. an authority
represented by
Basic Inspection
System with PACE)
All data (being not authentication data) being
transferred in the context of the ePassport
application of the travel document as defined in
[ICAO-TR-SAC] between the TOE and an
authenticated terminal acting as Basic
Inspection System with PACE (in the sense of
[ICAO-TR-SAC]).
User data can be received and sent (exchange
Û {receive, send}).
Confidentiality6
Integrity
Authenticity
3 travel document
tracing data
Technical information about the current and
previous locations of the travel document
gathered unnoticeable by the travel document
holder recognising the TOE not knowing any
PACE password.
TOE tracing data can be provided / gathered.
unavailability7
Table 3: Primary assets
Application note: Sensitive biometric reference data (EF.DG3, EF.DG4) are included in Object 1.
All these primary assets represent User Data in the sense of the CC.
5
Though not each data element stored on the TOE represents a secret, the specification [ICAO-TR-SAC] anyway requires
securing their confidentiality: only terminals authenticated according to [ICAO-TR-SAC] can get access to the user data stored.
They have to be operated according to P.Terminal.
6
Though not each data element being transferred represents a secret, the specification [ICAO-TR-SAC] anyway requires securing
their confidentiality: the secure messaging in encrypt-then-authenticate mode is required for all messages according to [ICAO-
TR-SAC].
7
represents a prerequisite for anonymity of the travel document holder
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The secondary assets also having to be protected by the TOE in order to achieve a sufficient protection
of the primary assets are:
Object
No.
Asset Definition Property to be
maintained by the
current security policy
travel document
4 Accessibility to the
TOE functions and
data only for
authorised subjects
Property of the TOE to restrict access to TSF
and TSF-data stored in the TOE to authorised
subjects only.
Availability
5 Genuineness of the
TOE
Property of the TOE to be authentic in order to
provide claimed security functionality in a
proper way.
This asset also covers ‘Authenticity of the
MRTD’s chip’ in [PP-MRTD-BAC].
Availability
6 TOE internal secret
cryptographic keys
Permanently or temporarily stored secret
cryptographic material used by the TOE in
order to enforce its security functionality.
Confidentiality
Integrity
7 TOE internal non-
secret
cryptographic
material
Permanently or temporarily stored non-secret
cryptographic (public) keys and other non-
secret material (Document Security Object
SOD containing digital signature) used by the
TOE in order to enforce its security
functionality.
Integrity
Authenticity
8 travel document
communication
establishment
authorisation data
Restricted-revealable8 authorisation
information for a human user being used for
verification of the authorisation attempts as
authorised user (PACE password). These
data are stored in the TOE and are not to be
send to it.
Confidentiality
Integrity
Table 4: Secondary assets
The secondary assets represent TSF and TSF-data in the sense of the CC.
Application note: Due to interoperability reasons the ‘ICAO Doc 9303’ [ICAO-9303] requires that Basic
Inspection Systems may have access to logical travel document data DG1, DG2, DG5 to DG16. The
TOE is not in certified mode, if it is accessed using BAC [ICAO-9303]. Note that the BAC mechanism
cannot resist attacks with high attack potential (cf. [PP-MRTD-BAC]). If supported, it is therefore
recommended to use PACE instead of BAC. If nevertheless BAC has to be used, it is recommended to
perform Chip Authentication v.1 before getting access to data (except DG14), as this mechanism is
resistant to high potential attacks
A sensitive asset is the following more general one.
Authenticity of the travel document’s chip
The authenticity of the travel document’s chip personalised by the issuing State or Organisation for the
travel document holder is used by the traveller to prove his possession of a genuine travel document.
8
The travel document holder may reveal, if necessary, his or her verification values of CAN and MRZ to an authorized person or
device who definitely act according to respective regulations and are trustworthy.
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Subjects
This security target considers the following external entities and subjects, defined in [PP-MRTD-SAC]:
External
Entity
No.
Subject
No.
Role Definition
1 1 travel
document
holder
A person for whom the travel document Issuer has personalised
the travel document9.
This entity is commensurate with ‘MRTD Holder’ in [ST-BAC].
Please note that a travel document holder can also be an attacker
(s. below).
2 - travel
document
presenter
(traveller)
A person presenting the travel document to a terminal10 and
claiming the identity of the travel document holder.
This external entity is commensurate with ‘Traveller’ in [ST-BAC].
Please note that a travel document presenter can also be an
attacker (s. below).
3 2 Terminal A terminal is any technical system communicating with the TOE
through the contactless/contact interface.
The role ‘Terminal’ is the default role for any terminal being
recognised by the TOE as not being PACE authenticated
(‘Terminal’ is used by the travel document presenter).
This entity is commensurate with ‘Terminal’ in [ST-BAC].
- - Inspection
System (IS)
A technical system used by the border control officer of the
receiving State (i) examining an travel document presented by the
traveller and verifying its authenticity and (ii) verifying the traveller
as travel document holder.
4 3 Basic
Inspection
System with
PACE (BIS-
PACE)
A technical system being used by an inspecting authority11 and
verifying the travel document presenter as the travel document
holder (for ePassport: by comparing the real biometric data (face)
of the travel document presenter with the stored biometric data
(DG2) of the travel document holder).
BIS-PACE implements the terminal’s part of the PACE protocol
and authenticates itself to the travel document using a shared
password (PACE password) and supports Passive Authentication.
See also §2.4.3 above.
- - Extended
Inspection
System (EIS)
The Extended Inspection System (EIS) performs the Advanced
Inspection Procedure (Figure 3) and therefore (i) contains a
terminal for the communication with the travel document’s chip, (ii)
implements the terminals part of PACE and/or BAC; (iii) gets the
authorization to read the logical travel document either under
PACE or BAC by optical reading the travel document providing this
information. (iv) implements the Terminal Authentication and Chip
Authentication Protocols both Version 1 according to [TR-EAC]
and (v) is authorized by the issuing State or Organisation through
the Document Verifier of the receiving State to read the sensitive
biometric reference data. Security attributes of the EIS are defined
by means of the Inspection System Certificates. BAC may only be
used if supported by the TOE. If both PACE and BAC are
supported by the TOE and the BIS, PACE must be used.
9
i.e. this person is uniquely associated with a concrete electronic Passport
10
in the sense of [4]
11
concretely, by a control officer
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External
Entity
No.
Subject
No.
Role Definition
5 - Document
Signer (DS)
An organisation enforcing the policy of the CSCA and signing the
Document Security Object stored on the travel document for
passive authentication.
A Document Signer is authorised by the national CSCA issuing the
Document Signer Certificate (CDS), see [PKI].
This role is usually delegated to a Personalisation Agent.
6 - Country
Signing
Certification
Authority
(CSCA)
An organisation enforcing the policy of the travel document Issuer
with respect to confirming correctness of user and TSF data stored
in the travel document. The CSCA represents the country specific
root of the PKI for the travel document and creates the Document
Signer Certificates within this PKI.
The CSCA also issues the self-signed CSCA Certificate (CCSCA)
having to be distributed by strictly secure diplomatic means, see.
[PKI], 5.5.1.
7 4 Personalisation
Agent
An organisation acting on behalf of the travel document Issuer to
personalise the travel document for the travel document holder by
some or all of the following activities: (i) establishing the identity of
the travel document holder for the biographic data in the travel
document, (ii) enrolling the biometric reference data of the travel
document holder, (iii) writing a subset of these data on the physical
travel document (optical personalisation) and storing them in the
travel document (electronic personalisation) for the travel
document holder as defined in [PKI], (iv) writing the document
details data, (v) writing the initial TSF data, (vi) signing the
Document Security Object defined in [PKI] (in the role of DS).
Please note that the role ‘Personalisation Agent’ may be distributed
among several institutions according to the operational policy of
the travel document Issuer.
This entity is commensurate with ‘Personalisation agent’ in [ST-
BAC].
8 5 Manufacturer Generic term for the IC Manufacturer producing integrated circuit
and the travel document Manufacturer completing the IC to the
travel document. The Manufacturer is the default user of the TOE
during the manufacturing life cycle phase12. The TOE itself does
not distinguish between the IC Manufacturer and travel document
Manufacturer using this role Manufacturer.
This entity is commensurate with ‘Manufacturer’ in [ST-BAC].
9 - Attacker A threat agent (a person or a process acting on his behalf) trying
(i) to undermine the security policy defined by the current ST,
especially to change properties of the assets having to be
maintained, (ii) to manipulate the logical travel document without
authorization, (iii) to read sensitive biometric reference data (i.e.
EF.DG3, EF.DG4), (iv) to forge a genuine travel document, or (iv)
to trace a travel document. The attacker is assumed to possess an
at most high attack potential.
Please note that the attacker might ‘capture’ any subject role
recognised by the TOE.
This external entity is commensurate with ‘Attacker’ in [ST-BAC].
12
cf. also par. 1.2.3 in sec. 1.2.3 above
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10 - Country
Verifying
Certification
Authority
(CVCA)
The Country Verifying Certification Authority (CVCA) enforces the
privacy policy of the issuing State or Organisation with respect to
the protection of sensitive biometric reference data stored in the
travel document. The CVCA represents the country specific root of
the PKI of Inspection Systems and creates the Document Verifier
Certificates within this PKI. The updates of the public key of the
CVCA are distributed in the form of Country Verifying CA Link-
Certificates.
11 - Document
Verifier (DV)
The Document Verifier (DV) enforces the privacy policy of the
receiving State with respect to the protection of sensitive biometric
reference data to be handled by the Extended Inspection Systems.
The Document Verifier manages the authorization of the Extended
Inspection Systems for the sensitive data of the travel document in
the limits provided by the issuing States or Organisations in the
form of the Document Verifier Certificates.
Table 5: Subjects and external entities13
PACE (MRZ/CAN)
(CONDITIONAL)
ePassport Application
Selection
Basic Access Control
(CONDITIONAL)
Advanced Inspection
Procedure
Chip Authentication
Terminal Authentication
Passive Authentication
with SOD
Figure 3: Advanced Inspection Procedure
Application note: An impostor is attacking the inspection system as TOE IT environment independent
on using a genuine, counterfeit or forged travel document. Therefore the impostor may use results of
successful attacks against the TOE but the attack itself is not relevant for the TOE.
13
This table defines external entities and subjects in the sense of [CC-1] . Subjects can be recognised by the TOE independent
of their nature (human or technical user). As result of an appropriate identification and authentication process, the TOE creates –
for each of the respective external entity – an ‘image’ inside and ‘works’ then with this TOE internal image (also called subject in
[CC-1] ). From this point of view, the TOE itself perceives only ‘subjects’ and, for them, does not differ between ‘subjects’ and
‘external entities’. There is no dedicated subject with the role ‘attacker’ within the current security policy, whereby an attacker
might ‘capture’ any subject role recognised by the TOE.
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4.2 ASSUMPTIONS
The assumptions describe the security aspects of the environment in which the TOE will be used or is
intended to be used.
A.Passive_Auth PKI for Passive Authentication
The issuing and receiving States or Organisations establish a public key infrastructure for passive
authentication i.e. digital signature creation and verification for the logical travel document. The issuing
State or Organisation runs a Certification Authority (CA) which securely generates, stores and uses the
Country Signing CA Key pair. The CA keeps the Country Signing CA Private Key secret and is
recommended to distribute the Country Signing CA Public Key to ICAO, all receiving States maintaining
its integrity. The Document Signer (i) generates the Document Signer Key Pair, (ii) hands over the
Document Signer Public Key to the CA for certification, (iii) keeps the Document Signer Private Key
secret and (iv) uses securely the Document Signer Private Key for signing the Document Security
Objects of the travel documents. The CA creates the Document Signer Certificates for the Document
Signer Public Keys that are distributed to the receiving States and Organisations. It is assumed that the
Personalisation Agent ensures that the Document Security Object contains only the hash values of
genuine user data according to [PKI].
A.Insp_Sys Inspection Systems for global interoperability
The Extended Inspection System (EIS) for global interoperability (i) includes the Country Signing CA
Public Key and (ii) implements the terminal part of PACE [ICAO-TR-SAC] and/or BAC [ST-BAC]. BAC
may only be used if supported by the TOE. If both PACE and BAC are supported by the TOE and the
IS, PACE must be used. The EIS reads the logical travel document under PACE or BAC and performs
the Chip Authentication v.1 to verify the logical travel document and establishes secure messaging. EIS
supports the Terminal Authentication Protocol v.1 in order to ensure access control and is authorized
by the issuing State or Organisation through the Document Verifier of the receiving State to read the
sensitive biometric reference data.
Justification:
The assumption A.Insp_Sys does not confine the security objectives of [[PP-MRTD-SAC] as it repeats
the requirements of P.Terminal and adds only assumptions for the Inspection Systems for handling the
EAC functionality of the TOE.
A.Auth_PKI PKI for Inspection Systems
The issuing and receiving States or Organisations establish a public key infrastructure for card verifiable
certificates of the Extended Access Control. The Country Verifying Certification Authorities, the
Document Verifier and Extended Inspection Systems hold authentication key pairs and certificates for
their public keys encoding the access control rights. The Country Verifying Certification Authorities of
the issuing States or Organisations are signing the certificates of the Document Verifier and the
Document Verifiers are signing the certificates of the Extended Inspection Systems of the receiving
States or Organisations. The issuing States or Organisations distribute the public keys of their Country
Verifying Certification Authority to their travel document’s chip.
Justification:
This assumption only concerns the EAC part of the TOE. The issuing and use of card verifiable
certificates of the Extended Access Control is neither relevant for the PACE part of the TOE nor will the
security objectives of [PP-MRTD-SAC] be restricted by this assumption. For the EAC functionality of the
TOE the assumption is necessary because it covers the pre-requisite for performing the Terminal
Authentication Protocol Version 1.
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4.3 THREATS
This section describes the threats to be averted by the TOE independently or in collaboration with its IT
environment. These threats result from the TOE method of use in the operational environment and the
assets stored in or protected by the TOE.
The TOE in collaboration with its IT environment shall avert the threats as specified below.
T.Skimming Skimming travel document / Capturing Card-Terminal Communication
Adverse action: An attacker imitates an inspection system in order to get access to the user data
stored on or transferred between the TOE and the inspecting authority
connected via the contactless/contact interface of the TOE.
Threat agent: having high attack potential, cannot read and does not know the correct value of
the shared password (PACE password) in advance
Asset: confidentiality of logical travel document data
Application Note: When using BIS-BAC MULTOS V4.5.2 cannot avert this threat in the context of the
security policy defined in this ST.
Application Note: MRZ is printed and CAN is printed or stuck on the travel document. Please note that
neither CAN nor MRZ effectively represent secrets, but are restricted-revealable, cf.
OE.Travel_Document_Holder.
T.Eavesdropping Eavesdropping on the communication between the TOE and the PACE terminal
Adverse action: An attacker is listening to the communication between the travel document and
the PACE authenticated BIS-PACE in order to gain the user data transferred
between the TOE and the terminal connected.
Threat agent: having high attack potential, cannot read and does not know the correct value of
the shared password (PACE password) in advance.
Asset: confidentiality of logical travel document data
Application Note: When using BIS-BAC MULTOS V4.5.2 cannot avert this threat in the context of the
security policy defined in this PP.
T.Tracing Tracing travel document
Adverse action: An attacker tries to gather TOE tracing data (i.e. to trace the movement of the
travel document) unambiguously identifying it remotely by establishing or
listening to a communication via the contactless/contact interface of the TOE.
Threat agent: having high attack potential, cannot read and does not know the correct value of
the shared password (PACE password) in advance.
Asset: privacy of the travel document holder
Application Note: This Threat completely covers and extends “T.Chip-ID” from [ST--BAC].
Application Note: When using BIS-BAC MULTOS V4.5.2 cannot avert this threat in the context of the
security policy defined in this PP, see also §2.4.3 above.
Application Note: Since the Standard Inspection Procedure does not support any unique-secret-based
authentication of the travel document’s chip (no Chip Authentication or Active Authentication), a threat
like T.Counterfeit (counterfeiting travel document)14 cannot be averted by the current TOE.
14
Such a threat might be formulated like: ‘An attacker produces an unauthorised copy or reproduction of a genuine travel document
to be used as part of a counterfeit Passport: he or she may generate a new data set or extract completely or partially the data
from a genuine travel document and copy them on another functionally appropriate chip to imitate this genuine travel document.
This violates the authenticity of the travel document being used for authentication of a travel document presenter as the travel
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T.Forgery Forgery of Data
Adverse action: An attacker fraudulently alters the User Data or/and TSF-data stored on the
travel document or/and exchanged between the TOE and the terminal
connected in order to outsmart the PACE (or EAC) authenticated BIS-PACE (or
EIS) by means of changed travel document holder’s related reference data (like
biographic or biometric data). The attacker does it in such a way that the terminal
connected perceives these modified data as authentic one.
Threat agent: having high attack potential
Asset: integrity of the travel document
T.Abuse-Func Abuse of Functionality
Adverse action: An attacker may use functions of the TOE which shall not be used in TOE
operational phase in order (i) to manipulate or to disclose the User Data stored
in the TOE, (ii) to manipulate or to disclose the TSF-data stored in the TOE or
(iii) to manipulate (bypass, deactivate or modify) soft-coded security functionality
of the TOE. This threat addresses the misuse of the functions for the initialisation
and personalisation in the operational phase after delivery to the travel document
holder.
Threat agent: having high attack potential, being in possession of one or more legitimate travel
documents
Asset: integrity and authenticity of the travel document, availability of the functionality
of the travel document
Application Note: Details of the relevant attack scenarios depend, for instance, on the capabilities of the
test features provided by the IC Dedicated Test Software being not specified here.
T.Information_Leakage Information Leakage from travel document
Adverse action: An attacker may exploit information leaking from the TOE during its usage in
order to disclose confidential User Data or/and TSF-data stored on the travel
document or/and exchanged between the TOE and the terminal connected. The
information leakage may be inherent in the normal operation or caused by the
attacker.
Threat agent: having high attack potential
Asset: confidentiality of User Data and TSF-data of the travel document
Application Note: Leakage may occur through emanations, variations in power consumption, I/O
characteristics, clock frequency, or by changes in processing time requirements. This leakage may be
interpreted as a covert channel transmission, but is more closely related to measurement of operating
parameters which may be derived either from measurements of the contactless interface (emanation)
or direct measurements (by contact to the chip still available even for a contactless chip) and can then
be related to the specific operation being performed. Examples are Differential Electromagnetic Analysis
(DEMA) and Differential Power Analysis (DPA). Moreover the attacker may try actively to enforce
information leakage by fault injection (e.g. Differential Fault Analysis).
document holder’.
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T.Phys-Tamper Physical Tampering
Adverse action: An attacker may perform physical probing of the travel document in order (i) to
disclose the TSF-data, or (ii) to disclose/reconstruct the TOE’s Embedded
Software. An attacker may physically modify the travel document in order to alter
(I) its security functionality (hardware and software part, as well), (ii) the User
Data or the TSF-data stored on the travel document.
Threat agent: high attack potential, being in possession of one or more legitimate travel
documents
Asset: integrity and authenticity of the travel document, availability of the functionality
of the travel document, confidentiality of User Data and TSF-data of the travel
document
Application Note: Physical tampering may be focused directly on the disclosure or manipulation of the
user data (e.g. the biometric reference data for the inspection system) or the TSF data (e.g.
authentication key of the travel document) or indirectly by preparation of the TOE to following attack
methods by modification of security features (e.g. to enable information leakage through power
analysis). Physical tampering requires a direct interaction with the travel document’s internals.
Techniques commonly employed in IC failure analysis and IC reverse engineering efforts may be used.
Before that, hardware security mechanisms and layout characteristics need to be identified.
Determination of software design including treatment of the user data and the TSF data may also be a
pre-requisite. The modification may result in the deactivation of a security function. Changes of circuitry
or data can be permanent or temporary.
T.Malfunction Malfunction due to Environmental Stress
Adverse action: An attacker may cause a malfunction the travel document’s hardware and
Embedded Software by applying environmental stress in order to (i) deactivate
or modify security features or functionality of the TOE’ hardware or to (ii)
circumvent, deactivate or modify security functions of the TOE’s Embedded
Software. This may be achieved e.g. by operating the travel document outside
the normal operating conditions, exploiting errors in the travel document’s
Embedded Software or misusing administrative functions. To exploit these
vulnerabilities an attacker needs information about the functional operation.
Threat agent: having high attack potential, being in possession of one or more legitimate travel
documents, having information about the functional operation
Asset: integrity and authenticity of the travel document, availability of the functionality
of the travel document, confidentiality of User Data and TSF-data of the travel
document
Application note: A malfunction of the TOE may also be caused using a direct interaction with elements
on the chip surface. This is considered as being a manipulation (refer to the threat T.Phys-Tamper)
assuming a detailed knowledge about TOE’s internals.
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T.Read_Sensitive_Data Read the sensitive biometric reference data
Adverse action: An attacker tries to gain the sensitive biometric reference data through the
communication interface of the travel document’s chip.
The attack T.Read_Sensitive_Data is similar to the threat T.Skimming (cf. [ST-
BAC]) in respect of the attack path (communication interface) and the motivation
(to get data stored on the travel document’s chip) but differs from those in the
asset under the attack (sensitive biometric reference data vs. digital MRZ,
digitized portrait and other data), the opportunity (i.e. knowing the PACE
Password) and therefore the possible attack methods. Note, that the sensitive
biometric reference data are stored only on the travel document’s chip as private
sensitive personal data whereas the MRZ data and the portrait are visually
readable on the physical part of the travel document as well.
Threat agent: having high attack potential, knowing the PACE Password, being in possession
of a legitimate travel document.
Asset: confidentiality of logical travel document sensitive user data (i.e. biometric
reference)
T.Counterfeit Counterfeit of travel document chip data
Adverse action: An attacker with high attack potential produces an unauthorized copy or
reproduction of a genuine travel document’s chip to be used as part of a
counterfeit travel document. This violates the authenticity of the travel
document’s chip used for authentication of a traveller by possession of a travel
document.
The attacker may generate a new data set or extract completely or partially the
data from a genuine travel document’s chip and copy them to another
appropriate chip to imitate this genuine travel document’s chip.
Threat agent: having high attack potential, being in possession of one or more legitimate travel
documents.
Asset: authenticity of user data stored on the TOE
4.4 ORGANIZATIONAL SECURITY POLICIES
The TOE shall comply with the following Organisational Security Policies (OSP) as security rules,
procedures, practices, or guidelines imposed by an organisation upon its operations (see CC part 1,
sec. 3.2).
P.Manufact Manufacturing of the travel document’s chip
The Initialization Data are written by the IC Manufacturer to identify the IC uniquely. The travel document
Manufacturer writes the Pre-personalisation Data which contains at least the Personalisation Agent Key.
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P.Pre-Operational Pre-operational handling of the travel document
1.) The travel document Issuer issues the travel document and approves it using the terminals
complying with all applicable laws and regulations.
2.) The travel document Issuer guarantees correctness of the user data (amongst other of those,
concerning the travel document holder) and of the TSF-data permanently stored in the TOE15.
3.) The travel document Issuer uses only such TOE’s technical components (IC) which enable
traceability of the travel documents in their manufacturing and issuing life cycle phases, i.e.
before they are in the operational phase, cf. sec. 1.2.3 above.
4.) If the travel document Issuer authorises a Personalisation Agent to personalise the travel
document for travel document holders, the travel document Issuer has to ensure that the
Personalisation Agent acts in accordance with the travel document Issuer’s policy.
P.Card_PKI PKI for Passive Authentication (issuing branch)
Application Note 20: The description below states the responsibilities of involved parties and represents
the logical, but not the physical structure of the PKI. Physical distribution ways shall be implemented by
the involved parties in such a way that all certificates belonging to the PKI are securely distributed /
made available to their final destination, e.g. by using directory services.
1.) The travel document Issuer shall establish a public key infrastructure for the passive
authentication, i.e. for digital signature creation and verification for the travel document. For this
aim, he runs a Country Signing Certification Authority (CSCA). The travel document Issuer shall
publish the CSCA Certificate (CCSCA).
2.) The CSCA shall securely generate, store and use the CSCA key pair. The CSCA shall keep the
CSCA Private Key secret and issue a self-signed CSCA Certificate (CCSCA) having to be made
available to the travel document Issuer by strictly secure means, see [PKI] , 5.5.1. The CSCA
shall create the Document Signer Certificates for the Document Signer Public Keys (CDS) and
make them available to the travel document Issuer, see [PKI], 5.5.1.
3.) A Document Signer shall (i) generate the Document Signer Key Pair, (ii) hand over the
Document Signer Public Key to the CSCA for certification, (iii) keep the Document Signer
Private Key secret and (iv) securely use the Document Signer Private Key for signing the
Document Security Objects of travel documents.
P.Trustworthy_PKI Trustworthiness of PKI
The CSCA shall ensure that it issues its certificates exclusively to the rightful organisations (DS) and
DSs shall ensure that they sign exclusively correct Document Security Objects to be stored on the travel
document.
15
cf. Table 3 and Table 4 above
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P.Terminal Abilities and trustworthiness of terminals
The Basic Inspection Systems with PACE (BIS-PACE) shall operate their terminals as follows:
1.) The related terminals (basic inspection system, cf. above) shall be used by terminal operators
and by travel document holders as defined in [PKI].
2.) They shall implement the terminal parts of the PACE protocol [ICAO-TR-SAC], of the Passive
Authentication [PKI] and use them in this order16. The PACE terminal shall use randomly and
(almost) uniformly selected nonces, if required by the protocols (for generating ephemeral keys
for Diffie-Hellmann).
3.) The related terminals need not to use any own credentials.
4.) They shall also store the Country Signing Public Key and the Document Signer Public Key (in
form of CCSCA and CDS) in order to enable and to perform Passive Authentication (determination
of the authenticity of data groups stored in the travel document, [PKI]).
5.) The related terminals and their environment shall ensure confidentiality and integrity of
respective data handled by them (e.g. confidentiality of PACE passwords, integrity of PKI
certificates, etc.), where it is necessary for a secure operation of the TOE according to the
current PP.
P.Sensitive_Data Privacy of sensitive biometric reference data
The biometric reference data of finger(s) (EF.DG3) and iris image(s) (EF.DG4) are sensitive private
personal data of the travel document holder. The sensitive biometric reference data can be used only
by inspection systems which are authorized for this access at the time the travel document is presented
to the inspection system (Extended Inspection Systems). The issuing State or Organisation authorizes
the Document Verifiers of the receiving States to manage the authorization of inspection systems within
the limits defined by the Document Verifier Certificate. The travel document’s chip shall protect the
confidentiality and integrity of the sensitive private personal data even during transmission to the
Extended Inspection System after Chip Authentication Version 1.
P.Personalisation Personalisation of the travel document by issuing State or Organisation
only
The issuing State or Organisation guarantees the correctness of the biographical data, the printed
portrait and the digitized portrait, the biometric reference data and other data of the logical travel
document with respect to the travel document holder. The personalisation of the travel document for the
holder is performed by an agent authorized by the issuing State or Organisation only.
P.Activ_Auth Active Authentication
The TOE implements the active authentication protocol as described in [ICAO-9303].
16
This order is commensurate with [ICAO-TR-SAC].
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5. SECURITY OBJECTIVES
This chapter describes the security objectives for the TOE and the security objectives for the TOE
environment. The security objectives for the TOE environment are separated into security objectives for
the development and production environment and security objectives for the operational environment.
5.1 SECURITY OBJECTIVES FOR THE TOE
This section describes the security objectives for the TOE addressing the aspects of identified threats
to be countered by the TOE and organisational security policies to be met by the TOE.
OT.Data_Integrity Integrity of Data
The TOE must ensure integrity of the User Data and the TSF-data17 stored on it by protecting these data
against unauthorised modification (physical manipulation and unauthorised modifying).The TOE must
ensure integrity of the User Data and the TSF-data during their exchange between the TOE and the
terminal connected (and represented by PACE authenticated BIS-PACE) after the PACE Authentication.
OT.Data_Authenticity Authenticity of Data
The TOE must ensure authenticity of the User Data and the TSF-data18 stored on it by enabling
verification of their authenticity at the terminal-side19.The TOE must ensure authenticity of the User Data
and the TSF-data during their exchange between the TOE and the terminal connected (and represented
by PACE authenticated BIS-PACE) after the PACE Authentication. It shall happen by enabling such a
verification at the terminal-side (at receiving by the terminal) and by an active verification by the TOE
itself (at receiving by the TOE)20.
OT.Data_Confidentiality Confidentiality of Data
The TOE must ensure confidentiality of the User Data and the TSF-data21 by granting read access only
to the PACE authenticated BIS-PACE connected. The TOE must ensure confidentiality of the User Data
and the TSF-data during their exchange between the TOE and the terminal connected (and represented
by PACE authenticated BIS-PACE) after the PACE Authentication.
OT.Tracing Tracing travel document
The TOE must prevent gathering TOE tracing data by means of unambiguous identifying the travel
document remotely through establishing or listening to a communication via the contactless/contact
interface of the TOE without knowledge of the correct values of shared passwords (PACE passwords)
in advance.
Application note: Since the Standard Inspection Procedure does not support any unique-secret-based
authentication of the travel document’s chip (no Chip Authentication), a security objective like
OT.Chip_Auth_Proof (proof of travel document authenticity)22 cannot be achieved by the current TOE.
OT.Prot_Abuse_Func Protection against Abuse of Functionality
The TOE must prevent that functions of the TOE, which may not be used in TOE operational phase,
can be abused in order (i) to manipulate or to disclose the User Data stored in the TOE, (ii) to manipulate
or to disclose the TSF-data stored in the TOE, (iii) to manipulate (bypass, deactivate or modify) soft-
coded security functionality of the TOE.
17 where appropriate, see Table 4 above
18 where appropriate, see Table 4 above
19 verification of SOD
20 secure messaging after the PACE authentication, see also [ICAO-TR-SAC]
21 where appropriate, see Table 4 above
22
Such a security objective might be formulated like: ‘The TOE must enable the terminal connected to verify the authenticity of
the travel document as a whole device as issued by the travel document Issuer (issuing PKI branch of the travel document Issuer)
by means of the Passive and Chip Authentication as defined in [PKI] ’.
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OT.Prot_Inf_Leak Protection against Information Leakage
The TOE must provide protection against disclosure of confidential User Data or/and TSF-data stored
and/or processed by the travel document
 by measurement and analysis of the shape and amplitude of signals or the time between events
found by measuring signals on the electromagnetic field, power consumption, clock, or I/O lines,
 by forcing a malfunction of the TOE and/or
 by a physical manipulation of the TOE.
Application note: This objective pertains to measurements with subsequent complex signal processing
due to normal operation of the TOE or operations enforced by an attacker.
OT.Prot_Phys_Tamper Protection against Physical Tampering
The TOE must provide protection of confidentiality and integrity of the User Data, the TSF-data and the
travel document’s Embedded Software by means of
 measuring through galvanic contacts representing a direct physical probing on the chip’s
surface except on pads being bonded (using standard tools for measuring voltage and current)
or
 measuring not using galvanic contacts, but other types of physical interaction between electrical
charges (using tools used in solid-state physics research and IC failure analysis),
 manipulation of the hardware and its security functionality, as well as
 controlled manipulation of memory contents (User Data, TSF-data)
with a prior
 reverse-engineering to understand the design and its properties and functionality.
OT.Prot_Malfunction Protection against Malfunctions
The TOE must ensure its correct operation. The TOE must prevent its operation outside the normal
operating conditions where reliability and secure operation have not been proven or tested. This is to
prevent functional errors in the TOE. The environmental conditions may include external energy (esp.
electromagnetic) fields, voltage (on any contacts), clock frequency or temperature.
The following TOE security objectives address the aspects of identified threats to be countered involving
TOE’s environment.
OT.Identification Identification of the TOE
The TOE must provide means to store Initialisation23 and Pre-Personalisation Data in its non-volatile
memory. The Initialisation Data must provide a unique identification of the IC during the manufacturing
and the card issuing life cycle phases of the travel document. The storage of the Pre-Personalisation
data includes writing of the Personalisation Agent Key(s)
23
amongst other, IC Identification data
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OT.AC_Pers Access Control for Personalisation of logical MRTD
The TOE must ensure that the logical travel document data in EF.DG1 to EF.DG16, the Document
Security Object according to LDS [PKI] and the TSF data can be written by authorized Personalisation
Agents only. The logical travel document data in EF.DG1 to EF.DG16 and the TSF data may be written
only during and cannot be changed after personalisation of the document.
Application note: The OT.AC_Pers implies that the data of the LDS groups written during personalisation
for travel document holder (at least EF.DG1 and EF.DG2) can not be changed using write access after
personalisation.
OT.Sens_Data_Conf Confidentiality of sensitive biometric reference data
The TOE must ensure the confidentiality of the sensitive biometric reference data (EF.DG3 and EF.DG4)
by granting read access only to authorized Extended Inspection Systems. The authorization of the
inspection system is drawn from the Inspection System Certificate used for the successful authentication
and shall be a non-strict subset of the authorization defined in the Document Verifier Certificate in the
certificate chain to the Country Verifier Certification Authority of the issuing State or Organisation. The
TOE must ensure the confidentiality of the logical travel document data during their transmission to the
Extended Inspection System. The confidentiality of the sensitive biometric reference data shall be
protected against attacks with high attack potential.
OT.Chip_Auth_Proof Proof of the travel document’s chip authenticity
The TOE must support the Inspection Systems to verify the identity and authenticity of the travel
document’s chip as issued by the identified issuing State or Organisation by means of the Chip
Authentication Version 1 as defined in [TR-EAC]. The authenticity proof provided by travel document’s
chip shall be protected against attacks with high attack potential.
Application note: The OT.Chip_Auth_Proof implies the travel document’s chip to have (i) a unique
identity as given by the travel document’s Document Number, (ii) a secret to prove its identity by
knowledge i.e. a private authentication key as TSF data. The TOE shall protect this TSF data to prevent
their misuse. The terminal shall have the reference data to verify the authentication attempt of travel
document’s chip i.e. a certificate for the Chip Authentication Public Key that matches the Chip
Authentication Private Key of the travel document’s chip. This certificate is provided by (i) the Chip
Authentication Public Key (EF.DG14) in the LDS defined in [ICAO-9303] and (ii) the hash value of DG14
in the Document Security Object signed by the Document Signer.
OT.Activ_Auth_Proof Proof of MRTD’s chip authenticity through AA
The TOE must support the General Inspection Systems to verify the identity and authenticity of the
MRTD’s chip as issued by the identified issuing State or Organization by means of the Active
Authentication as defined in [ICAO-9303]. The authenticity proof through AA provided by MRTD’s chip
shall be protected against attacks with high attack potential.
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5.2 SECURITY OBJECTIVES FOR THE OPERATIONAL ENVIRONMENT
Travel document Issuer as the general responsible
The travel document Issuer as the general responsible for the global security policy related will
implement the following security objectives for the TOE environment:
OE.Legislative_Compliance Issuing of the travel document
The travel document Issuer must issue the travel document and approve it using the terminals complying
with all applicable laws and regulations.
Travel document Issuer and CSCA: travel document’s PKI (issuing) branch
The travel document Issuer and the related CSCA will implement the following security objectives for
the TOE environment:
OE.Passive_Auth_Sign Authentication of travel document by Signature
The travel document Issuer has to establish the necessary public key infrastructure as follows: the CSCA
acting on behalf and according to the policy of the travel document Issuer must (i) generate a
cryptographically secure CSCA Key Pair, (ii) ensure the secrecy of the CSCA Private Key and sign
Document Signer Certificates in a secure operational environment, and (iii) publish the Certificate of the
CSCA Public Key (CCSCA). Hereby authenticity and integrity of these certificates are being maintained.A
Document Signer acting in accordance with the CSCA policy must (i) generate a cryptographically
secure Document Signing Key Pair, (ii) ensure the secrecy of the Document Signer Private Key, (iii)
hand over the Document Signer Public Key to the CSCA for certification, (iv) sign Document Security
Objects of genuine travel documents in a secure operational environment only. The digital signature in
the Document Security Object relates to all hash values for each data group in use according to [PKI].
The Personalisation Agent has to ensure that the Document Security Object contains only the hash
values of genuine user data according to [PKI]. The CSCA must issue its certificates exclusively to the
rightful organisations (DS) and DSs must sign exclusively correct Document Security Objects to be
stored on travel document.
OE.Personalisation Personalisation of travel document
The travel document Issuer must ensure that the Personalisation Agents acting on his behalf (i) establish
the correct identity of the travel document holder and create the biographical data for the travel
document, (ii) enrol the biometric reference data of the travel document holder, (iii) write a subset of
these data on the physical Passport (optical personalisation) and store them in the travel document
(electronic personalisation) for the travel document holder as defined in [PKI]24, (iv) write the document
details data, (v) write the initial TSF data, (vi) sign the Document Security Object defined in [PKI] (in
the role of a DS).
Terminal operator: Terminal’s receiving branch
24
see also [PKI] , sec. 10
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OE.Terminal Terminal operating
The terminal operators must operate their terminals as follows:
1.) The related terminals (basic inspection systems, cf. above) are used by terminal operators and
by travel document holders as defined in [PKI].
2.) The related terminals implement the terminal parts of the PACE protocol [ICAO-TR-SAC], of the
Passive Authentication [ICAO-TR-SAC] (by verification of the signature of the Document
Security Object) and use them in this order25. The PACE terminal uses randomly and (almost)
uniformly selected nonces, if required by the protocols (for generating ephemeral keys for Diffie-
Hellmann).
3.) The related terminals need not to use any own credentials.
4.) The related terminals securely store the Country Signing Public Key and the Document Signer
Public Key (in form of CCSCA and CDS) in order to enable and to perform Passive Authentication
of the travel document (determination of the authenticity of data groups stored in the travel
document, [PKI]).
5.) The related terminals and their environment must ensure confidentiality and integrity of
respective data handled by them (e.g. confidentiality of the PACE passwords, integrity of PKI
certificates, etc.), where it is necessary for a secure operation of the TOE according to the
current PP.
Travel document holder Obligations
OE.Travel_Document_Holder Travel document holder Obligations
The travel document holder may reveal, if necessary, his or her verification values of the PACE
password to an authorized person or device who definitely act according to respective regulations and
are trustworthy.
OE.Active_Auth_Sign Active Authentication of logical MRTD by Signature
The issuing State or Organization has to establish the necessary public key infrastructure in order to (i)
generate the MRTD’s Active Authentication Key Pair, (ii) ensure the secrecy of the MRTD’s Active
Authentication Private Key, sign and store the Active Authentication Public Key in the Active
Authentication Public Key data in EF.DG15 and (iii) support inspection systems of receiving States or
organizations to verify the authenticity of the MRTD’s chip used for genuine MRTD by certification of
the Active Authentication Public Key by means of the Document Security Object.
OE.Active_Auth_Verif Verification by Active Authentication
In addition to the verification by passive authentication, the inspection systems may use the verification
by active authentication, which offers a stronger guaranty of the authenticity of the MRTD.
The following security objectives for the operational environment are additions to [PP-MRTD-SAC]:
Issuing State or Organisation
The issuing State or Organisation will implement the following security objectives of the TOE
environment.
25
This order is commensurate with [ICAO-TR-SAC].
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OE.Auth_Key_Travel_Document Travel document Authentication Key
The issuing State or Organisation has to establish the necessary public key infrastructure in order to (i)
generate the travel document’s Chip Authentication Key Pair, (ii) sign and store the Chip Authentication
Public Key in the Chip Authentication Public Key data in EF.DG14 and (iii) support inspection systems
of receiving States or Organisations to verify the authenticity of the travel document’s chip used for
genuine travel document by certification of the Chip Authentication Public Key by means of the
Document Security Object.
Justification: This security objective for the operational environment is needed additionally to those
from [PP-MRTD-SAC] in order to counter the Threat T.Counterfeit as it specifies the pre-requisite for
the Chip Authentication Protocol Version 1 which is one of the additional features of the TOE described
only in this security target and not in [PP-MRTD-SAC].
OE.Authoriz_Sens_Data Authorization for Use of Sensitive Biometric Reference Data
The issuing State or Organisation has to establish the necessary public key infrastructure in order to
limit the access to sensitive biometric reference data of travel document holders to authorized receiving
States or Organisations. The Country Verifying Certification Authority of the issuing State or
Organisation generates card verifiable Document Verifier Certificates for the authorized Document
Verifier only.
Justification: This security objective for the operational environment is needed additionally to those
from [PP-MRTD-SAC] in order to handle the Threat T.Read_Sensitive_Data, the Organisational Security
Policy P.Sensitive_Data and the Assumption A.Auth_PKI as it specifies the pre-requisite for the Terminal
Authentication Protocol v.1 as it concerns the need of an PKI for this protocol and the responsibilities of
its root instance. The Terminal Authentication Protocol v.1 is one of the additional features of the TOE
described only in this security target and not in [PP-MRTD-SAC].
Receiving State or Organisation
The receiving State or Organisation will implement the following security objectives of the TOE
environment.
OE.Exam_Travel_Document Examination of the physical part of the travel document
The inspection system of the receiving State or Organisation must examine the travel document
presented by the traveller to verify its authenticity by means of the physical security measures and to
detect any manipulation of the physical part of the travel document. The Basic Inspection System for
global interoperability (i) includes the Country Signing CA Public Key and the Document Signer Public
Key of each issuing State or Organisation, and (ii) implements the terminal part of PACE [4] and/or the
Basic Access Control [6]. Extended Inspection Systems perform additionally to these points the Chip
Authentication Protocol Version 1 to verify the Authenticity of the presented travel document’s chip.
Justification: This security objective for the operational environment is needed additionally to those
from [PP-MRTD-SAC] in order to handle the Threat T.Counterfeit and the Assumption A.Insp_Sys by
demanding the Inspection System to perform the Chip Authentication protocol v.1.
OE.Exam_Travel_Document also repeats partly the requirements from OE.Terminal in [PP-MRTD-SAC]
and therefore also counters T.Forgery and A.Passive_Auth from [PP-MRTD-SAC]. This is done because
a new type of Inspection System is introduced in this PP as the Extended Inspection System is needed
to handle the additional features of a travel document with Extended Access Control.
OE.Prot_Logical_Travel_Document Protection of data from the logical travel document
The inspection system of the receiving State or Organisation ensures the confidentiality and integrity of
the data read from the logical travel document. The inspection system will prevent eavesdropping to
their communication with the TOE before secure messaging is successfully established based on the
Chip Authentication Protocol Version 1.
Justification: This security objective for the operational environment is needed additionally to those
from [PP-MRTD-SAC] in order to handle the Assumption A.Insp_Sys by requiring the Inspection System
to perform secure messaging based on the Chip Authentication Protocol v.1.
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OE.Ext_Insp_Systems Authorization of Extended Inspection Systems
The Document Verifier of receiving States or Organisations authorizes Extended Inspection Systems by
creation of Inspection System Certificates for access to sensitive biometric reference data of the logical
travel document. The Extended Inspection System authenticates themselves to the travel document’s
chip for access to the sensitive biometric reference data with its private Terminal Authentication Key and
its Inspection System Certificate.
Justification: This security objective for the operational environment is needed additionally to those
from [PP-MRTD-SAC] in order to handle the Threat T.Read_Sensitive_Data, the Organisational Security
Policy P.Sensitive_Data and the Assumption A.Auth_PKI as it specifies the pre-requisite for the Terminal
Authentication Protocol v.1 as it concerns the responsibilities of the Document Verifier instance and the
Inspection Systems.
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5.3 SECURITY OBJECTIVE RATIONALE
5.3.1 Rationale between objectives and threats, assumptions, OSP
The following table provides an overview for security objectives coverage.
Table and following explanations are copied from [PP-MRTD-EACV2]. Only the shaded parts are added.
Threats and assumptions included from the claimed PACE-PP [PP-MRTD-SAC] are marked in italic
letters. OT.Sens_Data_Conf
OT.Chip_Auth_Proof
OT.AC_Pers
26
OT.Data_Integrity
OT.Data_Authenticity
OT.Data_Confidentiality
OT.Tracing
OT.Prot_Abuse-Func
OT.Prot_Inf_Leak
OT.Identification
OT.Prot_Phys-Tamper
OT.Prot_Malfuntion
OT.Activ_Auth_Proof
OE.Auth_Key_Travel_Document
OE.Authoriz_Sens_Data
OE.Exam_Travel_Document
OE.Prot_Logical_Travel_Document
OE.Ext_Insp_Systems
OE.Personalisation
OE.Passive_Auth_Sign
OE.Terminal
OE.Travel_Document_Holder
OE.Legislative_Compliance
OE.Active_Auth_Sign
OE.Active_Auth_Verif
T.Read_Sensitive_Data X X X
T.Counterfeit X X X X X X X X
T.Skimming27
X X X X
T.Eavesdropping X
T.Tracing X X
T.Abuse-Func X
T.Information_Leakage X
T.Phys-Tamper X
T.Malfunction X
T.Forgery X X X X X X X X X
P.Sensitive_Data X X X
P.Personalisation X X X
P.Manufact X
P.Pre-Operational X X X X
P.Terminal X X
P.Card_PKI X
P.Trustworthy_PKI X
P.Active_Auth X X X
A.Insp_Sys X X
A.Auth_PKI X X
A.Passive_Auth X X
Table 6: Security Objective Rationale
26
The Objectives marked in italic letters are included from the claimed PACE-PP [7]. They are listed for the
complete overview of the security objectives.
27
Threats and assumptions included from the claimed PACE-PP [7] are marked in italic letters. They are listed for
the complete overview of threats and assumptions.
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The OSP P.Personalisation “Personalisation of the travel document by issuing State or Organisation
only” addresses the (i) the enrolment of the logical travel document by the Personalisation Agent as
described in the security objective for the TOE environment OE.Personalisation “Personalisation of
logical travel document”, and (ii) the access control for the user data and TSF data as described by the
security objective OT.AC_Pers “Access Control for Personalisation of logical travel document”. Note
the manufacturer equips the TOE with the Personalisation Agent Key(s) according to OT.Identification
“Identification and Authentication of the TOE”. The security objective OT.AC_Pers limits the
management of TSF data and the management of TSF to the Personalisation Agent.
The OSP P.Sensitive_Data “Privacy of sensitive biometric reference data” is fulfilled and the threat
T.Read_Sensitive_Data “Read the sensitive biometric reference data” is countered by the TOE-
objective OT.Sens_Data_Conf “Confidentiality of sensitive biometric reference data” requiring that read
access to EF.DG3 and EF.DG4 (containing the sensitive biometric reference data) is only granted to
authorized inspection systems. Furthermore it is required that the transmission of these data ensures
the data’s confidentiality. The authorization bases on Document Verifier certificates issued by the issuing
State or Organisation as required by OE.Authoriz_Sens_Data “Authorization for use of sensitive
biometric reference data”. The Document Verifier of the receiving State has to authorize Extended
Inspection Systems by creating appropriate Inspection System certificates for access to the sensitive
biometric reference data as demanded by OE.Ext_Insp_Systems “Authorization of Extended
Inspection Systems”.
The OSP P.Terminal “Abilities and trustworthiness of terminals” is countered by the security objective
OE.Exam_Travel_Document additionally to the security objectives from PACE PP [7].
OE.Exam_Travel_Document enforces the terminals to perform the terminal part of the PACE protocol.
The OSP P.Activ_Auth “Active Authentication” addresses the active authentication protocol as
described in [ICAO-9303]. The TOE environment will detect partly forged logical MRTD data by means
of digital signature which will be created according to OE.Active_Auth_Sign “Active Authentication of
logical MRTD by Signature” and verified by the inspection system according to OE.Active_Auth_Verif
“Verification by Active Authentication”. This is possible only because genuine TOE enforce AA as
specified in OT.Activ_Auth_Proof.
The threat T.Counterfeit “Counterfeit of travel document chip data” addresses the attack of
unauthorized copy or reproduction of the genuine travel document's chip. This attack is thwarted by chip
an identification and authenticity proof required by OT.Chip_Auth_Proof “Proof of travel document’s
chip authentication” and OE.Active_Auth_Verif “Verification by Active Authentication” using an
authentication key pair to be generated by the issuing State or Organisation. The Public Chip
Authentication Key has to be written into EF.DG14 and signed by means of Documents Security Objects
as demanded by OE.Auth_Key_Travel_Document “Travel document Authentication Key”. According
to OE.Exam_Travel_Document “Examination of the physical part of the travel document” the General
Inspection system has to perform the Chip Authentication Protocol Version 1 to verify the authenticity of
the travel document’s chip. According to OT.Prot_Abuse_Func ” Protection against Abuse of
Functionality”, OT.Prot_Inf_Leak “Protection against Information Leakage”, OT.Prot_Phys_Tamper
“Protection against Physical Tampering” protect the manipulation or the disclosure of the User Data
stored to avoid any reproduction.
The threat T.Forgery “Forgery of data” addresses the fraudulent, complete or partial alteration of the
User Data or/and TSF-data stored on the TOE or/and exchanged between the TOE and the terminal.
Additionally to the security objectives from PACE PP [7] which counter this threat, the examination of
the presented MRTD passport book according to OE.Exam_Travel_Document “Examination of the
physical part of the travel document” shall ensure its authenticity by means of the physical security
measures and detect any manipulation of the physical part of the travel document.
The examination of the travel document addressed by the assumption A.Insp_Sys “Inspection Systems
for global interoperability” is covered by the security objectives for the TOE environment
OE.Exam_Travel_Document “Examination of the physical part of the travel document” which requires
the inspection system to examine physically the travel document, the Basic Inspection System to
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implement the Basic Access Control, and the Extended Inspection Systems to implement and to perform
the Chip Authentication Protocol Version 1 to verify the Authenticity of the presented travel document’s
chip. The security objectives for the TOE environment OE.Prot_Logical_Travel_Document “Protection
of data from the logical travel document” require the Inspection System to protect the logical travel
document data during the transmission and the internal handling.
The assumption A.Passive_Auth “PKI for Passive Authentication” is directly covered by the security
objective for the TOE environment OE.Passive_Auth_Sign “Authentication of travel document by
Signature” from PACE PP [7] covering the necessary procedures for the Country Signing CA Key Pair
and the Document Signer Key Pairs. The implementation of the signature verification procedures is
covered by OE.Exam_Travel_Document “Examination of the physical part of the travel document”.
The assumption A.Auth_PKI “PKI for Inspection Systems” is covered by the security objective for the
TOE environment OE.Authoriz_Sens_Data “Authorization for use of sensitive biometric reference data”
requires the CVCA to limit the read access to sensitive biometrics by issuing Document Verifier
certificates for authorized receiving States or Organisations only. The Document Verifier of the receiving
State is required by OE.Ext_Insp_Systems “Authorization of Extended Inspection Systems” to
authorize Extended Inspection Systems by creating Inspection System Certificates. Therefore, the
receiving issuing State or Organisation has to establish the necessary public key infrastructure.
5.3.1.1 Compatibility between objectives for the environment
The following table lists the relevant security objectives for the development and operational
Environment of the IFX_CCI_000014 and derivates Security Target-lite relating to the IC product
certified by the BSI under BSI-DSZ-CC-0813-2012 and provides the link to the security objectives for
the development and operational Environment related to the composite product, showing that there is
no contradiction between the two.
IC OSP Label IC OSP Content Link to the composite-product
OE.Lim_Block_Loader Limitation of capability and blocking the
Loader
The Composite Product Manufacturer will
protect the Loader functionality against
misuse, limit the capability of the Loader and
terminate irreversibly the Loader after
intended usage of the Loader.
Handle by the platform objectives
[ST_PLATFORM]
OE.TOE_Auth Authentication to external entities
The operational environment shall support the
authentication verification mechanism and
know authentication reference data of the
TOE.
OE.Passive_Auth_Sign
OE.Active_Auth_Sign
OE.Active_Auth_Verif
OE.Prot_Logical_Travel_Document
OE.Loader_Usage Secure communication and usage of the
Loader
The authorized user must support the trusted
communication with the TOE by
confidentiality protection and authenticity
proof of the data to be loaded and fulfilling
the access conditions required by the Loader.
Handle by the platform objectives
[ST_PLATFORM]
OE.Resp-Appl Treatment of User Data
By definition cipher or plain text data and
cryptographic keys are user data of the
Composite TOE. The Smartcard Embedded
Software shall treat these data appropriately,
use only proper secret keys (chosen from a large
key space) as input for the cryptographic
OE.Legislative_Compliance
OE.Terminal
OE.Auth_Key_Travel_Document
OE.Authoriz_Sens_Data
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function of the TOE and use keys and functions
appropriately in order to ensure the strength of
cryptographic operation
OE.Process-Sec-IC Protection during Composite product
manufacturing
The protection during packaging, finishing and
personalization includes also the personalization
process (Flash Loader) and the personalization
data (TOE software components) during Phase
4, Phase 5 and Phase 6.
OE.Personalisation
5.3.2 Justifications for adding objectives on the environment
5.3.2.1 Additions to [PP-MRTD-EACV2]
The only additional objectives on the environment are OE.Active_Auth_Sign and OE.Active_Auth_Verif.
These objectives request the environment to support Active Authentication. AA is an operation outside
[PP-MRTD-EACV2]. Therefore the added objectives on the environment do not weaken the TOE.
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6. EXTENDED COMPONENTS DEFINITION
This security target uses components defined as extensions to CC part 2. Some of these components
are defined in protection profile [PP-IC-0002]; others are defined in the protection profile [PP-MRTD-
EACV2].
6.1 DEFINITION OF THE FAMILY FAU_SAS
To define the security functional requirements of the TOE a sensitive family (FAU_SAS) of the Class
FAU (Security Audit) is defined here. This family describes the functional requirements for the storage
of audit data. It has a more general approach than FAU_GEN, because it does not necessarily require
the data to be generated by the TOE itself and because it does not give specific details of the content
of the audit records.
The family “Audit data storage (FAU_SAS)” is specified as follows.
FAU_SAS Audit data storage
Family behaviour
This family defines functional requirements for the storage of audit data.
Component levelling
FAU_SAS Audit data storage 1
FAU_SAS.1 Requires the TOE to provide the possibility to store audit data.
Management: FAU_SAS.1
There are no management activities foreseen.
Audit: FAU_SAS.1
There are no actions defined to be auditable.
FAU_SAS.1 Audit storage
Hierarchical to: No other components
Dependencies: No dependencies
FAU_SAS.1.1 The TSF shall provide [assignment: authorized users] with the capability to store
[assignment: list of audit information] in the audit records.
6.2 DEFINITION OF THE FAMILY FCS_RND
To define the IT security functional requirements of the TOE a sensitive family (FCS_RND) of the
Class FCS (cryptographic support) is defined here. This family describes the functional requirements
for random number generation used for cryptographic purposes. The component FCS_RND is not
limited to generation of cryptographic keys unlike the component FCS_CKM.1. The similar
component FIA_SOS.2 is intended for non-cryptographic use.
The family “Generation of random numbers (FCS_RND)” is specified as follows.
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FCS_RND Generation of random numbers
Family behaviour
This family defines quality requirements for the generation of random numbers which are intended to
be used for cryptographic purposes.
Component levelling:
FCS_RND Generation of random numbers 1
FCS_RND.1 Generation of random numbers requires that random numbers meet a defined
quality metric.
Management: FCS_RND.1
There are no management activities foreseen.
Audit: FCS_RND.1
There are no actions defined to be auditable.
FCS_RND.1 Quality metric for random numbers
Hierarchical to: No other components
Dependencies: No dependencies
FCS_RND.1.1 The TSF shall provide a mechanism to generate random numbers that meet [assignment: a
defined quality metric].
6.3 DEFINITION OF THE FAMILY FIA_API
To describe the IT security functional requirements of the TOE a sensitive family (FIA_API) of the Class
FIA (Identification and authentication) is defined here. This family describes the functional requirements
for the proof of the claimed identity for the authentication verification by an external entity where the
other families of the class FIA address the verification of the identity of an external entity.
FIA_API Authentication Proof of Identity
Family behaviour
This family defines functions provided by the TOE to prove their identity and to be verified by an external
entity in the TOE IT environment.
Component levelling:
FIA_API Authentication Proof of Identity 1
FIA_API.1 Authentication Proof of Identity.
Management: FIA_API.1
The following actions could be considered for the management functions in
FMT: Management of authentication information used to prove the claimed
identity.
Audit: There are no actions defined to be auditable.
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FIA_API.1 Authentication Proof of Identity
Hierarchical to: No other components
Dependencies: No dependencies
FIA_API.1.1 The TSF shall provide a [assignment: authentication mechanism] to prove the identity of the
[assignment: authorized user or role].
6.4 DEFINITION OF THE FAMILY FMT_LIM
The family FMT_LIM describes the functional requirements for the Test Features of the TOE. The new
functional requirements were defined in the class FMT because this class addresses the management
of functions of the TSF. The examples of the technical mechanism used in the TOE show that no other
class is appropriate to address the specific issues of preventing the abuse of functions by limiting the
capabilities of the functions and by limiting their availability.
The family “Limited capabilities and availability (FMT_LIM)” is specified as follows.
FMT_LIM Limited capabilities and availability
Family behavior
This family defines requirements that limit the capabilities and availability of functions in a combined
manner. Note that FDP_ACF restricts the access to functions whereas the Limited capability of this
family requires the functions themselves to be designed in a specific manner.
Component leveling:
FMT_LIM Limited capabilities and availability
1
2
FMT_LIM.1 Limited capabilities requires that the TSF is built to provide only the
capabilities (perform action, gather information) necessary for its genuine
purpose.
FMT_LIM.2 Limited availability requires that the TSF restrict the use of functions (refer to
Limited capabilities (FMT_LIM.1)). This can be achieved, for instance, by
removing or by disabling functions in a specific phase of the TOE’s life-cycle.
Management: FMT_LIM.1, FMT_LIM.2
There are no management activities foreseen.
Audit: FMT_LIM.1, FMT_LIM.2
There are no actions defined to be auditable.
To define the IT security functional requirements of the TOE a sensitive family (FMT_LIM) of the Class
FMT (Security Management) is defined here. This family describes the functional requirements for the
Test Features of the TOE. The new functional requirements were defined in the class FMT because this
class addresses the management of functions of the TSF. The examples of the technical mechanism
used in the TOE show that no other class is appropriate to address the specific issues of preventing the
abuse of functions by limiting the capabilities of the functions and by limiting their availability.
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The TOE Functional Requirement “Limited capabilities (FMT_LIM.1)” is specified as follows.
FMT_LIM.1 Limited capabilities
Hierarchical to: No other components
Dependencies: FMT_LIM.2 Limited availability.
FMT_LIM.1.1 The TSF shall be designed in a manner that limits their capabilities so that in conjunction
with “Limited availability (FMT_LIM.2)” the following policy is enforced [assignment: Limited
capability and availability policy].
The TOE Functional Requirement “Limited availability (FMT_LIM.2)” is specified as follows.
FMT_LIM.2 Limited availability
Hierarchical to: No other components
Dependencies: FMT_LIM.1 Limited capabilities.
FMT_LIM.2.1 The TSF shall be designed in a manner that limits their availability so that in conjunction
with “Limited capabilities (FMT_LIM.1)” the following policy is enforced [assignment: Limited
capability and availability policy].
Application note: The functional requirements FMT_LIM.1 and FMT_LIM.2 assume that there are
two types of mechanisms (limited capabilities and limited availability) which together shall provide
protection in order to enforce the policy. This also allows that
(i) the TSF is provided without restrictions in the product in its user environment but its
capabilities are so limited that the policy is enforced
or conversely
(ii) the TSF is designed with test and support functionality that is removed from, or disabled in,
the product prior to the Operational Use Phase.
The combination of both requirements shall enforce the policy.
6.5 DEFINITION OF THE FAMILY FPT_EMS
The sensitive family FPT_EMS (TOE Emanation) of the Class FPT (Protection of the TSF) is defined
here to describe the IT security functional requirements of the TOE. The TOE shall prevent attacks
against the TOE and other secret data where the attack is based on external observable physical
phenomena of the TOE. Examples of such attacks are evaluation of TOE’s electromagnetic radiation,
simple power analysis (SPA), differential power analysis (DPA), timing attacks, etc. This family describes
the functional requirements for the limitation of intelligible emanations which are not directly addressed
by any other component of CC part 2 [CC-2].
The family “TOE Emanation (FPT_EMS)” is specified as follows.
Family behaviour
This family defines requirements to mitigate intelligible emanations.
Component levelling:
FPT_EMSEC TOE emanation 1
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FPT_EMS.1 TOE emanation has two constituents:
FPT_EMS.1.1 Limit of Emissions requires to not emit intelligible emissions enabling access to TSF data
or user data.
FPT_EMS.1.2 Interface Emanation requires to not emit interface emanation enabling access to TSF
data or user data.
Management: FPT_EMS.1
There are no management activities foreseen.
Audit: FPT_EMS.1
There are no actions defined to be auditable.
FPT_EMS.1 TOE Emanation
Hierarchical to: No other components
Dependencies: No dependencies.
FPT_EMS.1.1 The TOE shall not emit [assignment: types of emissions] in excess of [assignment: specified
limits] enabling access to [assignment: list of types of TSF data] and [assignment: list of
types of user data].
FPT_EMS.1.2 The TSF shall ensure [assignment: type of users] are unable to use the following interface
[assignment: type of connection] to gain access to [assignment: list of types of TSF data]
and [assignment: list of types of user data].
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7. SECURITY REQUIREMENTS
The definition of the subjects “Pre-personalization Agent”, “Personalization Agent”, “Extended
Inspection System”, “Country Verifying Certification Authority”, and “Document Verifier” used in the
following chapter is given in section 10: Glossary and acronyms. Note, that all these subjects are acting
for homonymous external entities. All used objects are defined either in section 7 or in the following
table. The operations “write”, “modify”, “read” and “disable read access” are used in accordance with
the general linguistic usage. The operations “store”, “create”, “transmit”, “receive”, “establish
communication channel”, “authenticate” and “re-authenticate” are originally taken from [CC-2]. The
operation “load” is synonymous to “import” used in [CC-2].
Definition of security attributes:
security attribute values meaning
terminal
authentication status
none (any
Terminal)
default role (i.e. without authorisation after start-up)
CVCA roles defined in the certificate used for authentication (cf.
[TR-EAC-1], A.5.1); Terminal is authenticated as Country
Verifying Certification Authority after successful CA and TA
DV (domestic) roles defined in the certificate used for authentication (cf.
[TR-EAC-1], A.5.1); Terminal is authenticated as domestic
Document Verifier after successful CA and TA
DV (foreign) roles defined in the certificate used for authentication (cf.
[TR-EAC-1], A.5.1); Terminal is authenticated as foreign
Document Verifier after successful CA and TA
IS roles defined in the certificate used for authentication (cf.
[TR-EAC-1], A.5.1); Terminal is authenticated as Extended
Inspection System after successful CA and TA
Terminal
Authorization
none
DG4 (Iris) Read access to DG4: (cf. [TR-EAC-1], A.5.1)
DG3
(Fingerprint)
Read access to DG3: (cf. [TR-EAC-1], A.5.1)
DG3 (Iris) / DG4
(Fingerprint)
Read access to DG3 and DG4: (cf. [TR-EAC-1], A.5.1)
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The following table provides an overview of the keys and certificates used:
Name Data
Country Verifying
Certification Authority
Private Key (SKCVCA)
The Country Verifying Certification Authority (CVCA) holds a private key
(SKCVCA) used for signing the Document Verifier Certificates.
Country Verifying
Certification Authority
Public Key (PKCVCA)
The TOE stores the Country Verifying Certification Authority Public Key
(PKCVCA) as part of the TSF data to verify the Document Verifier
Certificates. The PKCVCA has the security attribute Current Date as the
most recent valid effective date of the Country Verifying Certification
Authority Certificate or of a domestic Document Verifier Certificate.
Country Verifying
Certification Authority
Certificate (CCVCA)
The Country Verifying Certification Authority Certificate may be a self-
signed certificate or a link certificate (cf. [TR-EAC-1] and Glossary). It
contains (i) the Country Verifying Certification Authority Public Key
(PKCVCA) as authentication reference data, (ii) the coded access
control rights of the Country Verifying Certification Authority, (iii) the
Certificate Effective Date and the Certificate Expiration Date as security
attributes.
Document Verifier
Certificate (CDV)
The Document Verifier Certificate CDV is issued by the Country
Verifying Certification Authority. It contains (i) the Document Verifier
Public Key (PKDV) as authentication reference data (ii) identification as
domestic or foreign Document Verifier, the coded access control rights of
the Document Verifier, the Certificate
Effective Date and the Certificate Expiration Date as security attributes.
Inspection System
Certificate (CIS)
The Inspection System Certificate (CIS) is issued by the Document
Verifier. It contains (i) as authentication reference data the Inspection
System Public Key (PKIS), (ii) the coded access control rights of the
Extended Inspection System, the Certificate Effective Date and the
Certificate Expiration Date as security attributes.
Chip Authentication
Public Key Pair
The Chip Authentication Public Key Pair (SKICC, PKICC) are used for
Key Agreement Protocol: Diffie-Hellman (DH) according to RFC 2631 or
Elliptic Curve Diffie-Hellman according to ISO 15946.
Chip Authentication
Public Key (PKICC)
The Chip Authentication Public Key (PKICC) is stored in the EF.DG14
Chip Authentication Public Key of the TOE’s logical MRTD and used by
the inspection system for Chip Authentication of the MRTD’s chip. It is
part of the user data provided by the TOE for the IT environment.
Chip Authentication
Private Key (SKICC)
The Chip Authentication Private Key (SKICC) is used by the TOE to
authenticate itself as authentic MRTD’s chip. It is part of the TSF data.
Country Signing
Certification Authority
Key Pair
Country Signing Certification Authority of the issuing State or
Organization signs the Document Signer Public Key Certificate with the
Country Signing Certification Authority Private Key and the signature will
be verified by receiving State or Organization (e.g. a Basic Inspection
System) with the Country Signing Certification Authority Public Key.
Document Signer Key
Pairs
Document Signer of the issuing State or Organization signs the
Document Security Object of the logical MRTD with the Document
Signer Private Key and the signature will be verified by a Basic
Inspection Systems of the receiving State or Organization with the
Document Signer Public Key.
Document Basic Access
Keys
The Document Basic Access Key is created by the Personalization
Agent, loaded to the TOE, and used for mutual authentication and key
agreement for secure messaging between the Basic Inspection System
and the MRTD’s chip.
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Name Data
BAC Session Keys Secure messaging Triple-DES key and Retail-MAC key agreed between
the TOE and a BIS in result of the Basic Access Control Authentication
Protocol.
SAC Session Keys Secure messaging Triple-DES/AES key and Retail-MAC key agreed
between the TOE and a BIS in result of the Supplementary Access
Control Authentication Protocol.
Chip Session Key Secure messaging Triple-DES/AES key and Retail-MAC key agreed
between the TOE and a GIS in result of the Chip Authentication
Protocol.
Application note 20: The Country Verifying Certification Authority identifies a Document Verifier as
“domestic” in the Document Verifier Certificate if it belongs to the same State as the Country Verifying
Certification Authority. The Country Verifying Certification Authority identifies a Document Verifier as
“foreign” in the Document Verifier Certificate if it does not belong to the same State as the Country
Verifying Certification Authority. From MRTD’s point of view the domestic Document Verifier belongs to
the issuing State or Organization.
7.1 SECURITY FUNCTIONAL REQUIREMENTS FOR THE TOE
This section on security functional requirements for the TOE is divided into sub-section following the
main security functionality.
Refinements in this section are in underline font when the SFR’s refinement is already present in [PP-
MRTD-EACV2], and in bold font when the refinement is done in this ST. When the SFR is refined in the
[PP-MRTD-EACV2] and additionally refined in this ST then the font is bold and underline.
7.1.1 Class FAU Security Audit
The TOE shall meet the requirement “Audit storage (FAU_SAS.1)” as specified below (Common Criteria
Part 2 extended).
FAU_SAS.1 Audit storage
Hierarchical to: No other components
Dependencies: No dependencies
FAU_SAS.1.1 The TSF shall provide the Manufacturer with the capability to store the IC Identification Data
in the audit records.
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7.1.2 Class Cryptographic Support (FCS)
The TOE shall meet the requirement “Cryptographic key generation (FCS_CKM.1)” as specified below
(Common Criteria Part 2). The iterations are caused by different cryptographic key generation algorithms
to be implemented and key to be generated by the TOE.
FCS_CKM.1/DH_PACE Cryptographic key generation – RSA Diffie-Hellman for PACE session
keys
Hierarchical to: No other components.
Dependencies: [FCS_CKM.2 Cryptographic key distribution or
FCS_COP.1 Cryptographic operation]: fulfilled by FCS_COP.1/PACE_ENC
and FCS_COP.1/PACE_MAC
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4.
FCS_CKM.1.1
/DH_PACE
The TSF shall generate cryptographic keys in accordance with a specified
cryptographic key generation algorithm [selection: Diffie- Hellman-Protocol]
and specified cryptographic key sizes (Table 7, column Key size) bit that
meet the following: [ICAO-TR-SAC].
iteration algorithm Key size
/SKPICC - RSADH RSA DH Key Agreement Algorithm 1024, 1536,
2048 bits
/TDESsession -RSADH RSA DH Key Agreement Algorithm – 1024,
1536, 2048
112 bits
/AESsession -RSADH RSA DH Key Agreement Algorithm – 1024,
1536, 2048
128, 192, 256
/SKPICC - ECDH ECDH Key Agreement Algorithm – [IEEE-
P1363]
160, 192, 224,
256, 320, 384,
512, and 521
bits
/TDESsession -ECDH ECDH Key Agreement Algorithm – 160, 192,
224, 256, 320, 384, 512, and 521 bits
112 bits
/AESsession -ECDH ECDH Key Agreement Algorithm – 160, 192,
224, 256, 320, 384, 512, and 521 bits
128, 192, 256
Table 7: FCS_CKM.1/DH_PACE refinements
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FCS_CKM.1/CA Cryptographic key generation – Diffie-Hellman for Chip Authentication session
keys
Hierarchical to: No other components
Dependencies: [FCS_CKM.2 Cryptographic key distribution or
FCS_COP.1 Cryptographic operation] ]: fulfilled by FCS_COP.1/CA_ENC,
FCS_COP.1/CA_MAC and FCS_COP.1/PACE_CAM
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4
FCS_CKM.1.1
/CA
The TSF shall generate cryptographic keys in accordance with a specified cryptographic key
generation algorithm [assignment: cryptographic key generation algorithm] and specified
cryptographic key sizes [assignment: cryptographic key sizes] that meet the following:
[selection: based on the Diffie-Hellman key derivation protocol compliant to [PKCS#3] and
[TR-EAC] , based on an ECDH protocol compliant to [TR-ECC] ].
iteration algorithm Key size
/TDESsession-DH DH Key Agreement Algorithm -
PKCS#3 – 1024, 1280, 1536 and
2048 bits
112 bits
/AESsession-DH DH Key Agreement Algorithm -
PKCS#3 – 1024, 1280, 1536 and
2048 bits
128, 192, and 256
bits
/TDESsession-ECDH ECDH Key Agreement Algorithm -
ISO 15946 – 160, 192, 224, 256, 320,
384, 512 and 521 bits
112 bits
/AESsession-ECDH ECDH Key Agreement Algorithm -
ISO 15946 – 160, 192, 224, 256, 320,
384, 512 and 521 bits
128, 192, and 256
bits
Table 8: FCS_CKM.1/Session refinement
The TOE shall meet the requirement “Cryptographic key destruction (FCS_CKM.4)” as specified below
(Common Criteria Part 2).
FCS_CKM.4 Cryptographic key destruction
Hierarchical to: No other components
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/DH_PACE ,
FCS_CKM.1/CA.
FCS_CKM.4.1 The TSF shall destroy cryptographic keys in accordance with a specified cryptographic key
destruction method Secure erasing of the value that meets the following: None.
Application note: Secure erasing of data is performed by overwriting the data with random numbers.
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FCS_COP.1/PACE_ENC Cryptographic operation – Encryption / Decryption AES / 3DES
Hierarchical to: No other components.
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/DH_PACE
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4.
FCS_COP.1.1
/PACE_ENC
The TSF shall perform secure messaging – encryption and decryption in
accordance with a specified cryptographic algorithm Table 9 algorithm and
cryptographic key sizes Table 9 Key size that meet the following: Table 9 list of
standards.
iteration algorithm Key size List of standards
/ENC_TDES TDES in CBC mode 112 bits ISO 10116
/ENC_AES AES in CBC mode 128, 192, 256 ISO 10116
Table 9: FCS_COP.1/PACE_ENC refinements
FCS_COP.1/PACE_MAC Cryptographic operation – MAC
Hierarchical to: No other components.
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/DH_PACE
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4.
FCS_COP.1.1
/PACE_MAC
The TSF shall perform secure messaging – message authentication code in
accordance with a specified cryptographic algorithm Table 10 algorithm and
cryptographic key sizes Table 10 Key size that meet the following: compliant to
[ICAO-TR-SAC].
iteration algorithm Key size List of standards
/MAC_TDES TDES Retail MAC 112 bits ISO 9797-1
/MAC_AES AES CMAC 128, 192, 256 [NIST-800-38B]
Table 10: FCS_COP.1/PACE_MAC refinements
FCS_COP.1/PACE_CAM Cryptographic operation – Modular Multiplication
Hierarchical to: No other components.
Dependencies: [FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/DH_PACE
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4
FCS_COP.1.1
/PACE_MAC
The TSF shall perform modular multiplication with specify cryptography algorithm
and cryptographic key sizes as in Table 11 Key size that meet the following:
compliant to [ICAO-TR-SAC].
iteration algorithm Key size List of standards
/CAM_ECDH ECC 160, 192, 224,
256, 320, 384,
512, 521
[TR-ECC] ECDSA SHA
Table 11: FCS_COP.1/PACE_CAM refinements
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FCS_COP.1/CA_ENC Cryptographic operation – Encryption / Decryption AES / 3DES
Hierarchical to: No other components.
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/CA
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4.
FCS_COP.1.1
/CA_ENC
The TSF shall perform secure messaging – encryption and decryption in
accordance with a specified cryptographic algorithm Table 12 algorithm and
cryptographic key sizes Table 12 Key size that meet the following: Table 12 list
of standards.
iteration algorithm Key size List of standards
/ENC_TDES TDES in CBC mode 112 bits ISO 10116
/ENC_AES AES in CBC mode 128, 192, 256 ISO 10116
Table 12: FCS_COP.1/CA_ENC refinements
FCS_COP.1/SIG_VER Cryptographic operation – Signature verification by travel document
Hierarchical to: No other components.
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/CA
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4.
FCS_COP.1.1
/SIG_VER
The TSF shall perform digital signature verification in accordance with a specified
cryptographic algorithm Table 13 algorithm and cryptographic key sizes Table
13 Key size that meet the following: Table 13 list of standards.
iteration algorithm Key size List of standards
/RSA_VER RSA (STD ) 1024, 1280, 1536, 2048, 3072, and 4096 RSA SHA PKCS#1
RSA SHA PKCS#1 PSS
/ECC_VER ECC 160, 192, 224, 256, 320, 384, 512, 521 [TR-ECC] ECDSA SHA
Table 13: FCS_COP.1/SIG_VER refinements
FCS_COP.1/CA_MAC Cryptographic operation – MAC
Hierarchical to: No other components.
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.1 Cryptographic key generation]: fulfilled by FCS_CKM.1/CA
FCS_CKM.4 Cryptographic key destruction: fulfilled by FCS_CKM.4.
FCS_COP.1.1
/CA_MAC
The TSF shall perform secure messaging – message authentication code in
accordance with a specified cryptographic algorithm Table 14 algorithm and
cryptographic key sizes Table 14 Key size that meet the following: Table 14 list
of standards.
iteration algorithm Key size List of standards
/MAC_TDES TDES Retail MAC 112 bits ISO 9797-1
/MAC_AES AES CMAC 128, 192, 256 [NIST-800-38B]
Table 14: FCS_COP.1/CA_MAC refinements
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FCS_COP.1/AA Cryptographic operation – Active Authentication
Hierarchical to: No other components.
Dependencies: [FDP_ITC.1 Import of user data without security attributes, or
FDP_ITC.2 Import of user data with security attributes, or
FCS_CKM.4 Cryptographic key destruction: not fulfilled, see application note.
FCS_COP.1.1
/AA
The TSF shall perform digital signature creation in accordance with a specified
cryptographic algorithm Table 15 algorithm and cryptographic key sizes Table
15 Key size that meet the following: Table 15 List of standards.
iteration algorithm Key size List of standards
/AA_RSA RSA CRT 1024, 1280, 1536, 2048, 3072,
and 4096 bits
ISO9796-2
/AA_ECDSA ECDSA 160, 192, 224, 256, 320, 384, 512
and 521
[TR-ECC]
Table 15: FCS_COP.1/AA refinements
Application note:
 The dependency of FCS_COP.1/AA on FCS_CKM.4 is not fulfilled as these are permanent keys
used on the card during its life-time.
FCS_RND.1 Quality metric for random numbers
Hierarchical to: No other components
Dependencies: No dependencies
FCS_RND.1.1 The TSF shall provide a mechanism to generate random numbers that meet RGS [RGS-B1],
and X931 with seed entropy at least 128 bits.
Application note: This SFR requires the TOE to generate random numbers used for the authentication
protocols as required by FIA_UAU.4.
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7.1.3 Class FIA Identification and Authentication
Table 16 provides an overview on the authentication mechanisms used.
Name SFR for the TOE
Authentication Mechanism for Personalisation Agents FIA_UAU.4/PACE
Chip Authentication Protocol v.1 FIA_API.1/CA,
FIA_UAU.5/PACE ,
FIA_UAU.6/EAC
Terminal Authentication Protocol v.1 FIA_UAU.5/PACE
PACE protocol FIA_UAU.1/PACE
FIA_UAU.5/PACE
FIA_AFL.1/PACE
Passive Authentication FIA_UAU.5/PACE
Table 16: Overview on authentication SFR
Note the Chip Authentication Protocol Version 1 as defined in this protection profile includes
o the asymmetric key agreement to establish symmetric secure messaging keys between the
TOE and the terminal based on the Chip Authentication Public Key and the Terminal Public Key
used later in the Terminal Authentication Protocol Version 1,
o the check whether the TOE is able to generate the correct message authentication code with
the expected key for any message received by the terminal.
The Chip Authentication Protocol v.1 may be used independent of the Terminal Authentication Protocol
v.1. But if the Terminal Authentication Protocol v.1 is used the terminal shall use the same public key as
presented during the Chip Authentication Protocol v.1.
FIA_AFL.1/PACE Authentication failure handling – PACE authentication using non-blocking
authorisation data
Hierarchical to: No other components.
Dependencies: FIA_UAU.1 Timing of authentication: fulfilled by FIA_UAU.1/PACE
FIA_AFL.1.1
/PACE
The TSF shall detect when [Number in Table 17] unsuccessful authentication
attempt occurs related to authentication attempts using the PACE password as
shared password.
FIA_AFL.1.2
/PACE
When the defined number of unsuccessful authentication attempts has been met,
the TSF shall [Actions in Table 17].
Password Number Actions
MRZ, CAN 1 Exponentially increase time delay before new
authentication attempt is possible.
PIN MULTOS Global PIN Try
Counter - 1
PIN is suspended. PACE with MRZ/CAN must be
performed prior to any new attempt using the PIN
PIN MULTOS Global PIN Try
Counter
PIN is blocked. It may not be used for PACE anymore
until it is unblocked
Table 17: FIA_AFL.1/PACE refinements
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FIA_UID.1/PACE Timing of identification
Hierarchical to: No other components
Dependencies: No dependencies
FIA_UID.1.1
/PACE
The TSF shall allow
1. to establish the communication channel,
2. carrying out the PACE Protocol according to [ICAO-TR-SAC],
3. to read the Initialization Data if it is not disabled by TSF according to
FMT_MTD.1/INI_DIS
4. to identify themselves by selection of the authentication key
5. to carry out the Chip Authentication Protocol v.1 according to [TR-EAC]
6. to carry out the Terminal Authentication Protocol v.1 according to [TR-EAC]
on behalf of the user to be performed before the user is identified.
FIA_UID.1.2
/PACE
The TSF shall require each user to be successfully identified before allowing any other TSF-
mediated actions on behalf of that user.
Application note: The SFR FIA_UID.1/PACE in the current ST covers the definition in [PP-MRTD-SAC]
and extends it by EAC aspects 4 & 5. This extension does not conflict with the strict conformance to
PACE PP.
FIA_UAU.1/PACE Timing of authentication
Hierarchical to: No other components
Dependencies: FIA_UID.1 Timing of identification: fulfilled byFIA_UID.1/PACE.
FIA_UAU.1.1
/PACE
The TSF shall allow
1. to establish the communication channel,
2. carrying out the PACE Protocol according to [ICAO-TR-SAC],
3. to read the Initialization Data if it is not disabled by TSF according to
FMT_MTD.1/INI_DIS
4. to identify themselves by selection of the authentication key
5. to carry out the Chip Authentication Protocol v.1 according to [TR-EAC]
6. to carry out the Terminal Authentication Protocol v.1 according to [TR-EAC]
on behalf of the user to be performed before the user is authenticated.
FIA_UAU.1.2
/PACE
The TSF shall require each user to be successfully authenticated before allowing any other
TSF-mediated actions on behalf of that user.
Application note: The SFR FIA_UAU.1/PACE in the current ST covers the definition in [PP-MRTD-
SAC] and extends it by EAC aspects 4 & 5. This extension does not conflict with the strict conformance
to PACE PP.
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FIA_UAU.4/PACE Single-use authentication mechanisms - Single-use authentication of the
Terminal by the TOE
Hierarchical to: No other components
Dependencies: No dependencies
FIA_UAU.4.1
/PACE
The TSF shall prevent reuse of authentication data related to
1. PACE Protocol according to [ICAO-TR-SAC],
2. Authentication Mechanism based on Triple-DES, AES
3. Terminal Authentication Protocol v.1 according to [TR-EAC]
Application note: The authentication mechanisms use a challenge freshly and randomly generated by
the TOE to prevent reuse of a response generated by a terminal in a successful authentication attempt.
Application note: The SFR FIA_UAU.4/PACE in the current ST covers the definition in [PP-MRTD-
SAC] and extends it by EAC aspect 3. This extension does not conflict with the strict conformance to
PACE PP.
FIA_UAU.5/PACE Multiple authentication mechanisms
Hierarchical to: No other components
Dependencies: No dependencies
FIA_UAU.5.1
/PACE
The TSF shall provide
1. PACE Protocol according to [ICAO-TR-SAC],
2. Passive Authentication according to [ICAO-9303]
3. Secure messaging in MAC-ENC according to [ICAO-TR-SAC],
4. Symmetric Authentication Mechanism based on Triple-DES, AES
5. Terminal Authentication Protocol v.1 according to [TR-EAC]
to support user authentication.
FIA_UAU.5.2
/PACE
The TSF shall authenticate any user’s claimed identity according to the following rules:
1. TOE accepts the authentication attempt as Pre-personalization Agent by the
Symmetric Authentication Mechanism with the Pre-personalization Agent Key.
2. Having successfully run the PACE protocol the TOE accepts only received commands
with correct message authentication code sent by means of secure messaging with the
key agreed with the terminal by means of the PACE protocol.
3. The TOE accepts the authentication attempt as Personalization Agent by the
Symmetric Authentication Mechanism with Personalization Agent Key.
4. After run of the Chip Authentication Protocol v.1 the TOE accepts only received
commands with correct message authentication code sent by means of secure
messaging with key agreed with the terminal by means of the Chip Authentication
Mechanism v.1.
5. The TOE accepts the authentication attempt by means of the Terminal Authentication
Protocol v.1 only if the terminal uses the public key presented during the Chip
Authentication Protocol v.1 and the secure messaging established by the Chip
Authentication Mechanism.
Application note: The SFR FIA_UAU.5.1/PACE in the current ST covers the definition in [ST-
EAC_SAC] and extends it by EAC aspect 5. The SFR FIA_UAU.5.2/PACE in the current ST covers
the definition in [ST-EAC_SAC] and extends it by EAC aspects 4 and 5. These extensions do not
conflict with the strict conformance to PACE PP.
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FIA_UAU.6/PACE Re-authenticating – Re-authenticating of Terminal by the TOE
Hierarchical to: No other components
Dependencies: No dependencies
FIA_UAU.6.1
/PACE
The TSF shall re-authenticate the user under the conditions each command sent to the
TOE after successful run of the PACE Protocol shall be verified as being sent by the PACE
terminal.
FIA_UAU.6/EAC Re-authenticating – Re-authenticating of Terminal by the TOE
Hierarchical to: No other components
Dependencies: No dependencies
FIA_UAU.6.1
/EAC
The TSF shall re-authenticate the user under the conditions each command sent to the
TOE after successful run of the Chip Authentication Protocol shall be verified as being sent
by the GIS.
FIA_API.1/CA Authentication Proof of Identity – Chip Authentication
Hierarchical to: No other components
Dependencies: No dependencies
FIA_API.1.1/CA The TSF shall provide a Chip Authentication Protocol v.1 according to [TR-EAC] to prove
the identity of the TOE.
Application note: This SFR requires the TOE to implement the Chip Authentication Mechanism
specified in [TR-EAC-1]. The TOE and the terminal generate a shared secret using the Diffie-Hellman
Protocol (DH or EC-DH) and two session keys for secure messaging in ENC_MAC mode according to
[ICAO-9303], normative appendix 5, A5.1. The terminal verifies by means of secure messaging
whether the MRTD’s chip was able or not to run his protocol properly using its Chip Authentication
Private Key corresponding to the Chip Authentication Key (EF.DG14).
FIA_API.1/AA Authentication Proof of Identity – Active Authentication
Hierarchical to: No other components
Dependencies: No dependencies
FIA_API.1.1/AA The TSF shall provide an Active Authentication Protocol according to [ICAO-9303] to
prove the identity of the TOE.
Application note: This SFR requires the TOE to implement the Active Authentication Mechanism
specified in [ICAO-9303]. The terminal generates a challenge then verifies whether the MRTD’s chip
was able or not to sign it properly using its Active Authentication private key corresponding to the
Active Authentication public key (EF.DG15).
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7.1.4 Class FDP User Data Protection
The TOE shall meet the requirement “Subset access control (FDP_ACC.1)” as specified below
(Common Criteria Part 2).
FDP_ACC.1/TRM Subset access control
Hierarchical to: No other components
Dependencies: FDP_ACF.1 Security attribute based access control: fulfilled by
FDP_ACF.1/TRM
FDP_ACC.1.1
/TRM
The TSF shall enforce the Access Control SFP on terminals gaining write, read and
modification access to data in the EF.COM, EF.SOD, EF.DG1 to EF.DG16 of the logical
MRTD.
The TOE shall meet the requirement “Security attribute based access control (FDP_ACF.1)” as
specified below (Common Criteria Part 2).
FDP_ACF.1/TRM Security attribute based access control
Hierarchical to: No other components
Dependencies: FDP_ACC.1 Subset access control; fulfilled by FDP_ACC.1/TRM
FMT_MSA.3 Static attribute initialization
FDP_ACF.1.1
/TRM
The TSF shall enforce the Access Control SFP to objects based on the following:
1. Subjects:
a. Terminal,
b. BIS-PACE
c. Extended Inspection System ,
2. Objects:
a. data in EF.DG1, EF.DG2 and EF.DG5 to EF.DG16,
EF.COM and EF.SOD of the logical travel document
b. data in EF.DG3 of the logical travel document
c. data in EF.DG4 of the logical travel document
d. All TOE intrinsic secret cryptographic keys stored in the travel document
3. Security attributes:
a. PACE authentication ,
b. Terminal Authentication v.1
c. Authorization of the Terminal.
FDP_ACF.1.2
/TRM
The TSF shall enforce the following rules to determine if an operation among controlled
subjects and controlled objects is allowed: A BIS-PACE is allowed to read data objects from
FDP_ACF.1.1/TRM according to [ICAO-TR-SAC] after a successful PACE authentication as
required by FIA_UAU.1/PACE.
FDP_ACF.1.3
/TRM
The TSF shall explicitly authorize access of subjects to objects based on the following
additional rules: none.
FDP_ACF.1.4
/TRM
The TSF shall explicitly deny access of subjects to objects based on the following additional
rules:
1. Any terminal being not authenticated as PACE authenticated BIS-PACE is not allowed
to read, to write, to modify, to use any User Data stored on the travel document.
2. Terminals not using secure messaging are not allowed to read, to write, to modify, to
use any data stored on the travel document.
3. Any terminal being not successfully authenticated as Extended Inspection System with
the Read access to DG 3 (Fingerprint) granted by the relative certificate holder
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authorization encoding is not allowed to read the data objects 2b) of
FDP_ACF.1.1/TRM.
4. Any terminal being not successfully authenticated as Extended Inspection System with
the Read access to DG 4 (Iris) granted by the relative certificate holder authorization
encoding is not allowed to read the data objects 2c) of FDP_ACF.1.1/TRM.
5. Nobody is allowed to read the data objects 2d) of FDP_ACF.1.1/TRM.
6. Terminals authenticated as CVCA or as DV are not allowed to read data in the EF.DG3
and EF.DG4
FDP_RIP.1 Subset residual information protection
Hierarchical to: No other components.
Dependencies: No dependencies.
FDP_RIP.1.1 The TSF shall ensure that any previous information content of a resource is
made unavailable upon the deallocation of the resource from the following
objects:
1. Session Keys (immediately after closing related communication
session).
2. ephemeral private key ephem - SKPICC- PACE (by having generated a
DH shared secret K).
The TOE shall meet the requirement “Basic data exchange confidentiality (FDP_UCT.1)” as specified
below (Common Criteria Part 2).
FDP_UCT.1/TRM Basic data exchange confidentiality
Hierarchical to: No other components
Dependencies: [FTP_ITC.1 Inter-TSF trusted channel, or
FTP_TRP.1 Trusted path]: fulfilled by FTP_ITC.1/PACE
[FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]: fulfilled by FDP_ACC.1/TRM
FDP_UCT.1.1
/TRM
The TSF shall enforce the Access Control SFP to be able to transmit and receive user data
in a manner protected from unauthorised disclosure.
The TOE shall meet the requirement “Data exchange integrity (FDP_UIT.1)” as specified below
(Common Criteria Part 2).
FDP_UIT.1/TRM Data exchange integrity
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]: fulfilled by FDP_ACC.1/TRM
[FTP_ITC.1 Inter-TSF trusted channel, or
FTP_TRP.1 Trusted path]: fulfilled by FTP_ITC.1/PACE
FDP_UIT.1.1
/TRM
The TSF shall enforce the Access Control SFP to be able to transmit and receive user data
in a manner protected from modification, deletion, insertion and replay errors.
FDP_UIT.1.2
/TRM
The TSF shall be able to determine on receipt of user data, whether modification, deletion,
insertion and replay has occurred.
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Rationale for Refinement: Note that the Access Control SFP (cf. FDP_ACF.1.2) allows the Extended
Inspection System (as of [ICAO-9303] and [PP-MRTD-BAC]) to access the data EF.COM, EF.SOD,
EF.DG1, EF.DG2 and EF.DG5 to EF.DG16 of the logical MRTD. Nevertheless there is explicitly no
rule for preventing access to these data. More over their data integrity (cf. FDP_UIT.1) and
confidentiality (cf. FDP_UCT.1) is ensured by the BAC mechanism being addressed and covered by
[PP-MRTD-BAC]. The fact that the BAC mechanism is not part of the ST in hand is addressed by the
refinement “after Chip Authentication”.
7.1.5 Class FTP Trusted Path/Channels
FTP_ITC.1/PACE Inter-TSF trusted channel after PACE
Hierarchical to: No other components.
Dependencies: No dependencies.
FTP_ITC.1.1 /PACE The TSF shall provide a communication channel between itself and another trusted
IT product that is logically distinct from other communication channels and provides
assured identification of its end points and protection of the channel data from
modification or disclosure.
FTP_ITC.1.2 /PACE The TSF shall permit another trusted IT product to initiate communication via the
trusted channel.
FTP_ITC.1.3 /PACE The TSF shall initiate enforce communication via the trusted channel for any data
exchange between the TOE and the Terminal.
7.1.6 Class FMT Security Management
Application note: The SFR FMT_SMF.1 and FMT_SMR.1 provide basic requirements to the
management of the TSF data.
The TOE shall meet the requirement “Specification of Management Functions (FMT_SMF.1)” as
specified below (Common Criteria Part 2).
FMT_SMF.1 Specification of Management Functions
Hierarchical to: No other components
Dependencies: No dependencies
FMT_SMF.1.1 The TSF shall be capable of performing the following management functions:
1. Initialization ,
2. Pre-personalization,
3. Personalization.
4. Configuration.
The TOE shall meet the requirement “Security roles (FMT_SMR.1)” as specified below (Common Criteria Part 2).
FMT_SMR.1/PACE Security roles
Hierarchical to: No other components
Dependencies: FIA_UID.1 Timing of identification fulfilled by FIA_UID.1/PACE.
FMT_SMR.1.1 /PACE The TSF shall maintain the roles
1. Manufacturer ,
2. Terminal,
3. PACE authenticated BIS-PACE
FMT_SMR.1.2 /PACE The TSF shall be able to associate users with roles.
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Application note: The MRTD also maintains the role Basic Inspection System due to a direct
consequence of P.BAC-PP resp. OE.BAC-PP. Nevertheless this role is not explicitly listed in
FMT_SMR.1.1, above since the TSF cannot maintain the role with respect to the assumed high attack
potential due to the known weaknesses of the Document Basic Access Keys.
The TOE shall meet the requirement “Limited capabilities (FMT_LIM.1)” as specified below (Common
Criteria Part 2 extended).
FMT_LIM.1 Limited capabilities
Hierarchical to: No other components
Dependencies: FMT_LIM.2 Limited capabilities: fulfilled by FMT_LIM.2.
FMT_LIM.1.1 The TSF shall be designed in a manner that limits their capabilities so that in conjunction
with “Limited availability (FMT_LIM.2)” the following policy is enforced:
Deploying test features after TOE delivery do not allow
1.User Data to be manipulated and disclosed,
2.TSF data to be manipulated or disclosed,
3.software to be reconstructed,
4.substantial information about construction of TSF to be gathered which may enable other
attacks.
The TOE shall meet the requirement “Limited availability (FMT_LIM.2)” as specified below (Common
Criteria Part 2 extended).
FMT_LIM.2 Limited availability
Hierarchical to: No other components
Dependencies: FMT_LIM.1 Limited capabilities: fulfilled by FMT_LIM.1.
FMT_LIM.2.1 The TSF shall be designed in a manner that limits their availability so that in conjunction
with “Limited capabilities (FMT_LIM.1)” the following policy is enforced:
Deploying Test Features after TOE Delivery does not allow
1.User Data to be manipulated and disclosed,
2.TSF data to be manipulated or disclosed,
3.software to be reconstructed,
4.substantial information about construction of TSF to be gathered which may enable other
attacks
Application note: The term “software” in item 4 of FMT_LIM.1.1 and FMT_LIM.2.1 refers to both IC
Dedicated and IC Embedded Software.
The TOE shall meet the requirement “Management of TSF data (FMT_MTD.1)” as specified below
(Common Criteria Part 2). The iterations address different management functions and different TSF
data.
FMT_MTD.1/INI_ENA Management of TSF data – Writing of Initialization Data and Pre-
personalization data
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_MTD.1.1/
INI_ENA
The TSF shall restrict the ability to write the Initialization Data and Pre-personalization Data
to the Manufacturer.
Application note: The pre-personalization Data includes but is not limited to the authentication
reference data for the Personalization Agent which is the symmetric cryptographic Personalization
Agent Key.
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FMT_MTD.1/INI_DIS Management of TSF data – Disabling of Read Access to Initialization Data
and Pre-personalization Data
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_MTD.1.1/
INI_DIS
The TSF shall restrict the ability to read out the Initialisation Data and the Pre-
personalisation Data to the Personalisation Agent
FMT_MTD.1/CVCA_INI Management of TSF data – Initialization of CVCA Certificate and Current
Date
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1/
CVCA_INI
The TSF shall restrict the ability to write the
1. initial Country Verifying Certification Authority Public Key,
2. initial Country Verifying Certification Authority Certificate,
3. initial Current Date
to the Personalization Agent.
FMT_MTD.1/CVCA_UPD Management of TSF data – Country Verifying Certification
Authority
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1/
CVCA_UPD
The TSF shall restrict the ability to update the
1. Country Verifying Certification Authority Public Key,
2. Country Verifying Certification Authority Certificate
to Country Verifying Certification Authority.
FMT_MTD.1/DATE Management of TSF data – Current date
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1/
DATE
The TSF shall restrict the ability to modify the Current date to
1. Country Verifying Certification Authority,
2. Document Verifier,
3. domestic Extended Inspection System.
FMT_MTD.1/CAPK Management of TSF data – Chip Authentication Private Key
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1/
CAPK
The TSF shall restrict the ability to create and load the Chip Authentication Private Key to
the Personalization Agent.
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FMT_MTD.1/AAK Management of TSF data – Active Authentication Private Key
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1/
AAK
The TSF shall restrict the ability to create and load the Active Authentication Private Key to
the Personalization Agent.
FMT_MTD.1/PA Management of TSF data – Personalisation Agent
Hierarchical to: No other components.
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1
/PA
The TSF shall restrict the ability to write the Document Security Object (SOD) to
the Personalisation Agent.
FMT_MTD.1/KEY_READ Management of TSF data – Key Read
Hierarchical to: No other components
Dependencies: FMT_SMF.1 Specification of management functions: fulfilled by FMT_SMF.1
FMT_SMR.1 Security roles: fulfilled by FMT_SMR.1/PACE
FMT_MTD.1.1/
KEY_READ
The TSF shall restrict the ability to read the
1. PACE passwords
2. Document Basic Access Keys,
3. Chip Authentication Private Key,
4. Active Authentication Private Key
5. Personalization Agent Keys
to none.
The TOE shall meet the requirement “Secure TSF data (FMT_MTD.3)” as specified below (Common
Criteria Part 2):
FMT_MTD.3 Secure TSF data
Hierarchical to: No other components
Dependencies: FMT_MTD.1 Management of TSF data: fulfilled by : fulfilled by
FMT_MTD.1/CVCA_INI, FMT_MTD.1/CVCA_UPD,
FMT_MTD.3.1 The TSF shall ensure that only secure values of the certificate chain are accepted for TSF
data of the Terminal Authentication Protocol and the Access Control.
Refinement: The certificate chain is valid if and only if
(1) the digital signature of the Inspection System Certificate can be verified as correct with
the public key of the Document Verifier Certificate and the expiration date of the
Inspection System Certificate is not before the Current Date of the TOE,
(2) the digital signature of the Document Verifier Certificate can be verified as correct with
the public key in the Certificate of the Country Verifying Certification Authority and the
expiration date of the Document Verifier Certificate is not before the Current Date of the
TOE,
(3) the digital signature of the Certificate of the Country Verifying Certification Authority
can be verified as correct with the public key of the Country Verifying Certification
Authority known to the TOE and the expiration date of the Certificate of the Country
Verifying Certification Authority is not before the Current Date of the TOE.
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The Inspection System Public Key contained in the Inspection System Certificate in a valid
certificate chain is a secure value for the authentication reference data of the Extended
Inspection System.
The intersection of the Certificate Holder Authorizations contained in the certificates of a valid
certificate chain is a secure value for Terminal Authorization of a successful authenticated
Extended Inspection System.
Application note: The Terminal Authentication is used for Extended Inspection System as required
by FIA_UAU.4 and FIA_UAU.5. The Terminal Authorization is used as TSF data for access control
required by FDP_ACF.1.
7.1.7 Class FPT Protection of the Security Functions
The TOE shall prevent inherent and forced illicit information leakage for User Data and TSF Data. The
security functional requirement FPT_EMS.1 addresses the inherent leakage. With respect to the
forced leakage they have to be considered in combination with the security functional requirements
“Failure with preservation of secure state (FPT_FLS.1)” and “TSF testing (FPT_TST.1)” on the one
hand and “Resistance to physical attack (FPT_PHP.3)” on the other. The SFRs “Limited capabilities
(FMT_LIM.1)”, “Limited availability (FMT_LIM.2)” and “Resistance to physical attack (FPT_PHP.3)”
together with the SAR “Security architecture description” (ADV_ARC.1) prevent bypassing,
deactivation and manipulation of the security features or misuse of TOE functions.
The TOE shall meet the requirement “TOE Emanation (FPT_EMS.1)” as specified below (Common
Criteria Part 2 extended):
FPT_EMS.1 TOE Emanation
Hierarchical to: No other components
Dependencies: No dependencies.
FPT_EMS.1.1 The TOE shall not emit electromagnetic and current emissions in excess of intelligible
threshold enabling access to
Personalization Agent Key(s) and Chip Authentication Private Key and Active
Authentication Key, EF.DG3 and EF.DG4.
FPT_EMS.1.2 The TSF shall ensure any users are unable to use the following interface smart card circuit
contacts to gain access to Personalization Agent Key(s) and Chip Authentication Private
Key and Active Authentication Key, EF.DG3 and EF.DG4.
The following security functional requirements address the protection against forced illicit information
leakage including physical manipulation.
The TOE shall meet the requirement “Failure with preservation of secure state (FPT_FLS.1)” as
specified below (Common Criteria Part 2).
FPT_FLS.1 Failure with preservation of secure state
Hierarchical to: No other components
Dependencies: No dependencies.
FPT_FLS.1.1 The TSF shall preserve a secure state when the following types of failures occur:
1. Exposure to operating conditions causing a TOE malfunction,
2. failure detected by TSF according to FPT_TST.1.
The TOE shall meet the requirement “TSF testing (FPT_TST.1)” as specified below (Common Criteria
Part 2).
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FPT_TST.1 TSF testing
Hierarchical to: No other components
Dependencies: No dependencies.
FPT_TST.1.1 The TSF shall run a suite of self-tests Conditions under which self-test should occur to
demonstrate the correct operation of the TSF.
FPT_TST.1.2 The TSF shall provide authorised users with the capability to verify the integrity of TSF data.
FPT_TST.1.3 The TSF shall provide authorised users with the capability to verify the integrity of stored
TSF executable code.
Conditions under which self-test should occur Description of the self-test
During initial start-up RNG live test, sensor test, FA detection, Integrity
Check of NVM ES
Periodically RNG monitoring, FA detection
Prior and after cryptographic computation FA detection
Before any use or update of TSF data FA detection, Integrity Check of related TSF data
Table 18: FPT_TST refinements
The TOE shall meet the requirement “Resistance to physical attack (FPT_PHP.3)” as specified below
(Common Criteria Part 2).
FPT_PHP.3 Resistance to physical attack
Hierarchical to: No other components
Dependencies: No dependencies.
FPT_PHP.3.1 The TSF shall resist physical manipulation and physical probing to the TSF by responding
automatically such that the SFRs are always enforced.
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7.2 SECURITY ASSURANCE REQUIREMENTS FOR THE TOE
The SAR for the evaluation of the TOE and its development and operating environment are those
taken from the Evaluation Assurance Level 5 (EAL5) and augmented by taking the following
components: ALC_DVS.2 and AVA_VAN.5.
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7.3 SECURITY REQUIREMENTS RATIONALE
7.3.1 Security Functional Requirements Rationale
The rationale in this paragraph comes from [PP-MRTD-EACV2] §6.3.1. Additions due to Active
Authentication and secure messaging in personalisation are shaded.
OT.Sens_Data_Conf
OT.Chip_Auth_Proof
OT.AC_Pers
OT.Data_Integrity
OT.Data_Authenticity
OT.Data_Confidentiality
OT.Identification
OT.Prot_Abuse_Func
OT.Prot_Inf_Leak
OT.Tracing
OT.Prot_Phys_Tamper
OT.Prot_Malfunction
OT.Activ_Auth_Proof
FAU_SAS.1 X X
FCS_CKM.1/DH_PACE X X X
FCS_CKM.1/CA X X X X X
FCS_CKM.4 X X X X
FCS_COP.1/PACE_ENC X
FCS_COP.1/PACE_MAC X X
FCS_COP.1/PACE_CAM X X X
FCS_COP.1/CA_ENC X X X X
FCS_COP.1/SIG_VER X
FCS_COP.1/CA_MAC X X X
FCS_COP.1/AA X
FCS_RND.1 X X X X
FIA_AFL.1/PACE X
FIA_UID.1/PACE X X X X
FIA_UAU.1/PACE X X X X
FIA_UAU.4/PACE X X X X
FIA_UAU.5/PACE X X X X
FIA_UAU.6/PACE X X X
FIA_UAU.6/EAC X X X X
FIA_API.1/CA X
FIA_API.1/AA X
FDP_ACC.1/TRM X X X
FDP_ACF.1/TRM X X X
FDP_RIP.1 X X X
FDP_UCT.1/TRM X X X
FDP_UIT.1/TRM X X
FTP_ITC.1/PACE X X X X
FMT_SMF.1 X X X X X X
FMT_SMR.1/PACE X X X X X X
FMT_LIM.1 X
FMT_LIM.2 X
FMT_MTD.1/INI_ENA X X
FMT_MTD.1/INI_DIS X X
FMT_MTD.1/CVCA_INI X
FMT_MTD.1/CVCA_UPD X
FMT_MTD.1/DATE X
FMT_MTD.1/CAPK X X X
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OT.Sens_Data_Conf
OT.Chip_Auth_Proof
OT.AC_Pers
OT.Data_Integrity
OT.Data_Authenticity
OT.Data_Confidentiality
OT.Identification
OT.Prot_Abuse_Func
OT.Prot_Inf_Leak
OT.Tracing
OT.Prot_Phys_Tamper
OT.Prot_Malfunction
OT.Activ_Auth_Proof
FMT_MTD.1/AAK X
FMT_MTD.1/PA X X X X
FMT_MTD.1/KEY_READ X X X X X X X
FMT_MTD.3 X
FPT_EMS.1 X
FPT_FLS.1 X X
FPT_TST.1
X X
FPT_PHP.3 X X X
Table 19: Security functional requirement rationale
The security objective OT.Identification “Identification of the TOE” addresses the storage of
Initialisation and Pre-Personalisation Data in its non-volatile memory, whereby they also include the IC
Identification Data uniquely identifying the TOE’s chip. This will be ensured by TSF according to SFR
FAU_SAS.1. The SFR FMT_MTD.1/INI_ENA allows only the Manufacturer to write Initialisation and Pre-
personalisation Data (including the Personalisation Agent key). The SFR FMT_MTD.1/INI_DIS requires
the Personalisation Agent to disable access to Initialisation and Pre-personalisation Data in the life cycle
phase ‘operational use’. The SFRs FMT_SMF.1 and FMT_SMR.1/PACE support the functions and roles
related.
The security objective OT.AC_Pers “Access Control for Personalisation of logical travel document” aims
that only Personalisation Agent can write the User- and the TSF-data into the TOE.The justification for
the SFRs FAU_SAS.1, FMT_MTD.1/INI_ENA and FMT_MTD.1/INI_DIS arises from the justification for
OT.Identification above with respect to the Pre-personalisation Data.FMT_MTD.1/PA covers the related
property of OT.AC_Pers (writing SOD and, in generally, personalisation data).The SFRs FMT_SMF.1
and FMT_SMR.1/PACE support the functions and roles related. The SFR FMT_MTD.1./KEY_READ
restricts the access to the Personalisation Agent Keys.
The security objective OT.Data_Integrity “Integrity of personal data” requires the TOE to protect the
integrity of the logical travel document stored on the travel document’s chip against physical
manipulation and unauthorized writing. Physical manipulation is addressed by FPT_PHP.3. Logical
manipulation of stored user data is addressed by (FDP_ACC.1/TRM, FDP_ACF.1/TRM): only the
Personalisation Agent is allowed to write the data in EF.DG1 to EF.DG16 of the logical travel document
(FDP_ACF.1.2/TRM, rule 1) and terminals are not allowed to modify any of the data in EF.DG1 to
EF.DG16 of the logical travel document (cf. FDP_ACF.1.4/TRM). FMT_MTD.1/PA requires that SOD
containing signature over the User Data stored on the TOE and used for the Passive Authentication is
allowed to be written by the Personalisation Agent only and, hence, is to be considered as trustworthy.
The Personalisation Agent must identify and authenticate themselves according to FIA_UID.1/PACE
and FIA_UAU.1/PACE before accessing these data. FIA_UAU.4/PACE, FIA_UAU.5/PACE and
FCS_CKM.4 represent some required specific properties of the protocols used. The SFR
FMT_SMR.1/PACE lists the roles and the SFR FMT_SMF.1 lists the TSF management functions.
Unauthorised modifying of the exchanged data is addressed, in the first line, by FTP_ITC.1/PACE using
FCS_COP.1/PACE_MAC. For PACE secured data exchange, a prerequisite for establishing this trusted
channel is a successful PACE Authentication (FIA_UID.1/PACE, FIA_UAU.1/PACE) using
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FCS_CKM.1/DH_PACE and possessing the special properties FIA_UAU.5/PACE, FIA_UAU.6/PACE
resp. FIA_UAU.6/EAC. The trusted channel is established using PACE, Chip Authentication v.1, and
Terminal Authentication v.1. FDP_RIP.1 requires erasing the values of session keys (here: for KMAC).
The TOE supports the inspection system detect any modification of the transmitted logical travel
document data after Chip Authentication v.1. The SFR FIA_UAU.6/EAC and FDP_UIT.1/TRM requires
the integrity protection of the transmitted data after Chip Authentication v.1 by means of secure
messaging implemented by the cryptographic functions according to FCS_CKM.1/CA (for the
generation of shared secret and for the derivation of the new session keys), and FCS_COP.1/CA_ENC
and FCS_COP.1/CA_MAC for the ENC_MAC_Mode secure messaging. The session keys are
destroyed according to FCS_CKM.4 after use.
The SFR FMT_MTD.1/CAPK and FMT_MTD.1/KEY_READ requires that the Chip Authentication Key
cannot be written unauthorized or read afterwards.
The SFR FCS_RND.1 represents a general support for cryptographic operations needed.
The security objective OT.Data_Authenticity aims ensuring authenticity of the User- and TSF data
(after the PACE Authentication) by enabling its verification at the terminal-side and by an active
verification by the TOE itself. This objective is mainly achieved by FTP_ITC.1/PACE using
FCS_COP.1/PACE_MAC. A prerequisite for establishing this trusted channel is a successful PACE or
Chip and Terminal Authentication v.1 (FIA_UID.1/PACE, FIA_UAU.1/PACE) using
FCS_CKM.1/DH_PACE resp. FCS_CKM.1/CA and possessing the special properties
FIA_UAU.5/PACE, FIA_UAU.6/PACE resp. FIA_UAU.6/EAC. FDP_RIP.1 requires erasing the values
of session keys (here: for KMAC). FIA_UAU.4/PACE, FIA_UAU.5/PACE and FCS_CKM.4 represent
some required specific properties of the protocols used. The SFR FMT_MTD.1./KEY_READ restricts
the access to the PACE passwords and the Chip Authentication Private Key. FMT_MTD.1/PA requires
that SOD containing signature over the User Data stored on the TOE and used for the Passive
Authentication is allowed to be written by the Personalisation Agent only and, hence, is to be considered
as trustworthy.The SFR FCS_RND.1 represents a general support for cryptographic operations needed.
The SFRs FMT_SMF.1 and FMT_SMR.1/PACE support the functions and roles related.
The security objective OT.Data_Confidentiality aims that the TOE always ensures confidentiality of the
User- and TSF-data stored and, after the PACE Authentication resp. Chip Authentication, of these data
exchanged.This objective for the data stored is mainly achieved by (FDP_ACC.1/TRM,
FDP_ACF.1/TRM). FIA_UAU.4/PACE, FIA_UAU.5/PACE and FCS_CKM.4 represent some required
specific properties of the protocols used.This objective for the data exchanged is mainly achieved by
FDP_UCT.1/TRM, FDP_UIT.1/TRM and FTP_ITC.1/PACE using FCS_COP.1/PACE_ENC resp.
FCS_COP.1/CA_ENC. A prerequisite for establishing this trusted channel is a successful PACE or Chip
and Terminal Authentication v.1 (FIA_UID.1/PACE, FIA_UAU.1/PACE) using FCS_CKM.1/DH_PACE
resp. FCS_CKM.1/CA and possessing the special properties FIA_UAU.5/PACE, FIA_UAU.6/PACE
resp. FIA_UAU.6/EAC. FDP_RIP.1 requires erasing the values of session keys (here: for KENC). The
SFR FMT_MTD.1./KEY_READ restricts the access to the PACE passwords and the Chip Authentication
Private Key. FMT_MTD.1/PA requires that SOD containing signature over the User Data stored on the
TOE and used for the Passive Authentication is allowed to be written by the Personalisation Agent only
and, hence, is to be considered trustworthy .The SFR FCS_RND.1 represents the general support for
cryptographic operations needed. The SFRs FMT_SMF.1 and FMT_SMR.1/PACE support the functions
and roles related.
The security objective OT.Sens_Data_Conf “Confidentiality of sensitive biometric reference data” is
enforced by the Access Control SFP defined in FDP_ACC.1/TRM and FDP_ACF.1/TRM allowing the
data of EF.DG3 and EF.DG4 only to be read by successfully authenticated Extended Inspection System
being authorized by a valid certificate according FCS_COP.1/SIG_VER.
The SFRs FIA_UID.1/PACE and FIA_UAU.1/PACE require the identification and authentication of the
inspection systems. The SFR FIA_UAU.5/PACE requires the successful Chip Authentication (CA) v.1
before any authentication attempt as Extended Inspection System. During the protected communication
following the CA v.1 the reuse of authentication data is prevented by FIA_UAU.4/PACE. The SFR
FIA_UAU.6/EAC and FDP_UCT.1/TRM requires the confidentiality protection of the transmitted data
after Chip Authentication v.1 by means of secure messaging implemented by the cryptographic functions
according to FCS_RND.1 (for the generation of the terminal authentication challenge), FCS_CKM.1/CA
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(for the generation of shared secret and for the derivation of the new session keys), and
FCS_COP.1/CA_ENC and FCS_COP.1/CA_MAC for the ENC_MAC_Mode secure messaging. The
session keys are destroyed according to FCS_CKM.4 after use. The SFR FMT_MTD.1/CAPK and
FMT_MTD.1/KEY_READ requires that the Chip Authentication Key cannot be written unauthorized or
read afterwards.
To allow a verification of the certificate chain as in FMT_MTD.3 the CVCA’s public key and certificate
as well as the current date are written or update by authorized identified role as of
FMT_MTD.1/CVCA_INI, FMT_MTD.1/CVCA_UPD and FMT_MTD.1/DATE.
The security objective OT.Chip_Auth_Proof “Proof of travel document’s chip authenticity” is ensured
by the Chip Authentication Protocol v.1 provided by FIA_API.1 proving the identity of the TOE. The Chip
Authentication Protocol v.1 defined by FCS_CKM.1/CA is performed using a TOE internally stored
confidential private key as required by FMT_MTD.1/CAPK and FMT_MTD.1/KEY_READ. The Chip
Authentication Protocol v.1 [5] requires additional TSF according to FCS_CKM.1/CA (for the derivation
of the session keys), FCS_COP.1/CA_ENC and FCS_COP.1/CA_MAC (for the ENC_MAC_Mode
secure messaging).The SFRs FMT_SMF.1 and FMT_SMR.1/PACE support the functions and roles
related.
The security objective OT.Prot_Abuse_Func “Protection against Abuse of Functionality” is ensured by
the SFR FMT_LIM.1 and FMT_LIM.2 which prevent misuse of test functionality of the TOE or other
features which may not be used after TOE Delivery.
The security objective
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OT.Prot_Inf_Leak “Protection against Information Leakage” requires the TOE to protect confidential
TSF data stored and/or processed in the travel document’s chip against disclosure
- by measurement and analysis of the shape and amplitude of signals or the time between events
found by measuring signals on the electromagnetic field, power consumption, clock, or I/O lines
which is addressed by the SFR FPT_EMS.1,
- by forcing a malfunction of the TOE which is addressed by the SFR FPT_FLS.1 and FPT_TST.1,
and/or
- by a physical manipulation of the TOE which is addressed by the SFR FPT_PHP.3.
The security objective OT.Tracing aims that the TOE prevents gathering TOE tracing data by means of
unambiguous identifying the travel document remotely through establishing or listening to a
communication via the contactless interface of the TOE without a priori knowledge of the correct values
of shared passwords (CAN, MRZ).This objective is achieved as follows:(i) while establishing PACE
communication with CAN or MRZ (non-blocking authorisation data) – by FIA_AFL.1/PACE;(ii) for
listening to PACE communication (is of importance for the current PP, since SOD is card-individual) –
FTP_ITC.1/PACE.
The security objective OT.Prot_Phys_Tamper “Protection against Physical Tampering” is covered by
the SFR FPT_PHP.3.
The security objective OT.Prot_Malfunction “Protection against Malfunctions” is covered by (i) the SFR
FPT_TST.1 which requires self-tests to demonstrate the correct operation and tests of authorized users
to verify the integrity of TSF data and TSF code, and (ii) the SFR FPT_FLS.1 which requires a secure
state in case of detected failure or operating conditions possibly causing a malfunction.
The security objective OT.Activ_Auth_Proof “Proof of MRTD’s chip authenticity through AA” is
covered by FIA_API.1/AA that proves the identity of the TOE. FCS_COP.1/AA provides the signature.
FMT_MTD.1/AAK and FMT_MTD.1/KEY_READ participate to confidentiality of AA private key.
7.3.2 Dependency Rationale
The rationale in this paragraph comes from [PP-MRTD-EACV2] §6.3.2. Additions due to Active
Authentication are shaded.
SFR Dependencies Support of the dependencies
FAU_SAS.1 No dependencies
FCS_CKM.1/DH_PACE [FCS_CKM.2 or FCS_COP.1],
FCS_CKM.4
FCS_COP.1/PACE_ENC,
FCS_COP.1/PACE_MAC,
FCS_COP.1/PACE_MAC,
FCS_CKM.4
FCS_CKM.1/CA [FCS_CKM.2 or FCS_COP.1],
FCS_CKM.4
FCS_COP.1/CA_ENC,
FCS_COP.1/CA_MAC,
FCS_CKM.4
FCS_CKM.4 [FDP_ITC.1, FDP_ITC.2, or
FCS_CKM.1]
FCS_CKM.1/DH_PACE ,
FCS_CKM.1/CA
FCS_COP.1/PACE_ENC [FDP_ITC.1, FDP_ITC.2, or
FCS_CKM.1],
FCS_CKM.4
FCS_CKM.1/DH_PACE
FCS_CKM.4
FCS_COP.1/PACE_MAC [FDP_ITC.1, FDP_ITC.2, or
FCS_CKM.1],
FCS_CKM.4
FCS_CKM.1/DH_PACE
FCS_CKM.4
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SFR Dependencies Support of the dependencies
FCS_COP.1/CA_ENC [FDP_ITC.1, FDP_ITC.2, or
FCS_CKM.1],
FCS_CKM.4
FCS_CKM.1/CA
FCS_CKM.4
FCS_COP.1/SIG_VER [FDP_ITC.1, FDP_ITC.2, or
FCS_CKM.1],
FCS_CKM.4
FCS_CKM.1/CA
FCS_CKM.4
FCS_COP.1/CA_MAC [FDP_ITC.1, FDP_ITC.2, or
FCS_CKM.1],
FCS_CKM.4
FCS_CKM.1/CA
FCS_CKM.4
FCS_COP.1/PACE_CAM
FCS_CKM.1
FCS_CKM.4
FCS_CKM.1/DH_PACE
FCS_CKM.4
FCS_COP.1/AA [FDP_ITC.1, FDP_ITC.2],
FCS_CKM.4
FCS_CKM.4 Not fulfilled: see note 1
FCS_RND.1 No dependencies
FIA_AFL.1/PACE FIA_UAU.1 FIA_UAU.1/PACE
FIA_UID.1/PACE No dependencies
FIA_UAU.1/PACE FIA_UID.1 FIA_UID.1/PACE
FIA_UAU.4/PACE No dependencies
FIA_UAU.5/PACE No dependencies
FIA_UAU.6/PACE No dependencies
FIA_UAU.6/EAC No dependencies
FIA_API.1/CA No dependencies
FIA_API.1/AA No dependencies
FDP_ACC.1/TRM FDP_ACF.1 FDP_ACF.1/TRM
FDP_ACF.1/TRM FDP_ACC.1,
FMT_MSA.3
FDP_ACC.1/TRM,
Not fulfilled: see note 2
FDP_RIP.1 No dependencies
FDP_UCT.1/TRM [FDP_ACC.1 or FDP_IFC.1],
[FTP_ITC.1, or FTP_TRP.1]
FDP_ACC.1/TRM,
FTP_ITC.1/PACE
FDP_UIT.1/TRM [FDP_ACC.1 or FDP_IFC.1],
[FTP_ITC.1, or FTP_TRP.1]
FDP_ACC.1/TRM,
FTP_ITC.1/PACE
FTP_ITC.1/PACE No dependencies
FMT_SMF.1 No dependencies
FMT_SMR.1/PACE FIA_UID.1 FIA_UID.1/PACE
FMT_LIM.1 FMT_LIM.2 FMT_LIM.2
FMT_LIM.2 FMT_LIM.1 FMT_LIM.1
FMT_MTD.1/INI_ENA FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/INI_DIS FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/CVCA_INI FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/CVCA_UPD FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/DATE FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/CAPK FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
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SFR Dependencies Support of the dependencies
FMT_MTD.1/AAK FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/PA FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.1/KEY_READ FMT_SMF.1
FMT_SMR.1
FMT_SMF.1,
FMT_SMR.1/PACE
FMT_MTD.3 FMT_MTD.1 FMT_MTD.1/CVCA_INI,
FMT_MTD.1/CVCA_UPD
FPT_EMS.1 No dependencies
FPT_TST.1
No dependencies
FPT_FLS.1 No dependencies
FPT_PHP.3 No dependencies
Table 20: Security functional requirement dependencies
Notes:
1. The dependency between FCS_COP.1/AA and FCS_CKM.4 is not fulfilled because the key is
permanently stored on the card.
2. The access control TSF according to FDP_ACF.1/TRM uses security attributes having been defined
during the personalisation and fixed over the whole life time of the TOE. No management of these
security attributes (i.e. SFR FMT_MSA.1 and FMT_MSA.3) is necessary here.
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7.3.3 Security Assurance Requirements Rationale
EAL5 was chosen because it provides a high level of independently assured security in a planned
development. It requires a rigorous development approach without incurring unreasonable costs
attributable to specialist security engineering techniques.
The selection of the component ALC_DVS.2 provides a higher assurance of the security of the MRTD’s
development and manufacturing especially for the secure handling of the MRTD’s material.
The selection of the component AVA_VAN.5 provides a higher assurance of the security by vulnerability
analysis to assess the resistance to penetration attacks performed by an attacker possessing a high
attack potential. This vulnerability analysis is necessary to fulfil the security objectives
OT.Sens_Data_Conf and OT.Chip_Auth_Proof.
For these additional assurance components, all dependencies are met or exceeded in the EAL5
assurance package:
Component Dependencies required by
CC Part 3 or ASE_ECD
Dependency fulfilled by
TOE security assurance requirements (only additional to EAL5)
ALC_DVS.2 no dependencies -
AVA_VAN.5 ADV_ARC.1 ADV_ARC.1
ADV_FSP.4 ADV_FSP.5
ADV_TDS.3 ADV_TDS.4
ADV_IMP.1 ADV_IMP.1
AGD_OPE.1 AGD_OPE.1
AGD_PRE.1 AGD_PRE.1
ATE_DPT.1 ATE_DPT.3
Table 21: SAR Dependencies
7.3.4 Security Requirements – Mutual support and internal consistency
Cf [PP-MRTD-EACV2] §6.3.4
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8. TOE SUMMARY SPECIFICATION
8.1 TOE SECURITY FUNCTIONS
TOE Security Functions are provided by the MULTOS V4.5.2 embedded software (including the optional
NVM ES) and by the chip.
8.1.1 TSFs provided by the eTravel Software
SF Description
SF.REL Protection of data
SF.AC Access control
SF.SYM_AUTH Symmetric authentication
SF.SM Secure messaging
SF.CA Chip Authentication
SF.TA_CER Validity of the Certificate Chain
SF.TA_AUT Terminal Authentication Mechanism
SF.AA Active Authentication
Table 22: Security Functions provided by the MULTOS V4.5.2 Software
The SF.REL function provides the protection of data on the TOE. It encompasses:
 physical protection of the TOE as defined in FPT_PHP.3, FPT_EMS.1, FPT_FLS.1,
the test mechanisms as defined in
 FPT_TST.1,
 protection against misuse of tests as defined in FMT_LIM.1 and FMT_LIM.2,
The SF.AC function provides the access control of the TOE. It encompasses:
 the access control by the terminal as defined in FDP_ACC.1/TRM and FDP_ACF.1/TRM,
 the access control to specific data as defined in FAU_SAS.1, FMT_MTD.1/INI_ENA,
FMT_MTD.1/INI_DIS , FMT_MTD.1/CVCA_INI, FMT_MTD.1/CVCA_UPD,
FMT_MTD.1/DATE, FMT_MTD.1/CAPK, FMT_MTD.1/AAK, FMT_MTD.1/PA, and
FMT_MTD.1/KEY_READ,
 the role management as defined in FMT_SMR.1/PACE ,
 the management functions linked to the different states of the TOE as defined in FMT_SMF.1.
The SF. AUTH function provides authentication functions to the TOE. It encompasses:
 the PACE identification and authentication as defined in FIA_AFL.1/PACE, FIA_UID.1/PACE,
FIA_UAU.1/PACE, FIA_UAU.4/PACE, FIA_UAU.5/PACE , and FIA_UAU.6/PACE,
 The role authentication as requested by FMT_SMR.1/PACE .
The SF.SM function provides the secure messaging of the TOE. It encompasses:
 the establishment of SM as defined in FTP_ITC.1/PACE,
 the secure transfer of data through SM as defined in FDP_UCT.1/TRM and FDP_UIT.1/TRM
 the cryptographic mechanisms used for the authentication and the SM, as defined in
FCS_CKM.1/DH_PACE , FCS_COP.1/PACE_ENC, FCS_COP.1/PACE_MAC, and
FCS_RND.1. Some cryptographic mechanisms are used for both authentication and secure
messaging. For convenience, they are grouped in this function.
 the erasure of session keys as defined in FCS_CKM.4 and FDP_RIP.1.
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The SF.CA function provides the chip Authentication. It encompasses:
 the CA authentication as defined in FIA_API.1/CA, FIA_UAU.6/EAC
 the generation and input of CA keys, as defined in FMT_MTD.1/CAPK,
 The role authentication as requested by FMT_SMR.1/PACE .
 the cryptographic mechanisms used for the chip authentication as defined in
FCS_COP.1/PACE_MAC
The SF.TA_CER function provides the validity of the Certificate Chain. It encompasses:
 the initialisation and update of data used for the validation, as defined in
FMT_MTD.1/CVCA_INI, FMT_MTD.1/CVCA_UPD, FMT_MTD.1/DATE, and FMT_MTD.3.
The SF.TA_AUT function provides the TA Mechanism. It encompasses:
 the cryptographic mechanisms used for the authentication, as defined in
FCS_COP.1/SIG_VER,
 The role authentication as requested by FMT_SMR.1/PACE .
The SF.AA function provides the active authentication. It encompasses:
 the AA protocol itself as defined in FIA_API.1/AA,
 the AA cryptographic algorithm as defined in FCS_COP.1/AA,the generation and input of AA
keys, as defined in FMT_MTD.1/AAK
8.1.2 TSFs provided by the IFX_CCI_000014
The evaluation is a composite evaluation and uses the results of the CC evaluation provided by [CR-
IC]. The IC and its primary embedded software have been evaluated at level EAL 6+.
SF Description
SF_DPM Device Phase Management
SF_PS Protection against Snooping
SF_PMA Protection against Modification Attacks
SF_PLA Protection against Logical Attacks
SF_CS Cryptographic Support
Table 23: Security Functions provided by the Infineon IFX_CCI_000014
These SF are described in [ST-IC].
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9. SFR RATIONALE
SF.REL
SF.AC
SF.SYM_AUT
SF.SM
SF.CA
SF.TA_CER
SF.TA_AUT
SF.AA
SF_DPM
SF_PS
SF_PMA
SF_PLA
SF_CS
FAU_SAS.1 X X
FCS_CKM.1/DH_PACE X X
FCS_CKM.1/CA X X
FCS_CKM.4 X
FCS_COP.1/PACE_ENC X X
FCS_COP.1/PACE_MAC X X
FCS_COP.1/PACE_MAC X
FCS_COP.1/CA_ENC X X
FCS_COP.1/SIG_VER X X
FCS_COP.1/CA_MAC X X
FCS_COP.1/AA X X
FCS_RND.1 X X
FIA_AFL.1/PACE X
FIA_UID.1/PACE X
FIA_UAU.1/PACE X
FIA_UAU.4/PACE X
FIA_UAU.5/PACE X
FIA_UAU.6/PACE X
FIA_UAU.6/EAC X
FIA_API.1/CA X
FIA_API.1/AA X
FDP_ACC.1/TRM X
FDP_ACF.1/TRM X
FDP_RIP.1 X
FDP_UCT.1/TRM X
FDP_UIT.1/TRM X
FTP_ITC.1/PACE X
FMT_SMF.1 X
FMT_SMR.1/PACE X X X X
FMT_LIM.1 X X
FMT_LIM.2 X X
FMT_MTD.1/INI_ENA X
FMT_MTD.1/INI_DIS X
FMT_MTD.1/CVCA_INI X X
FMT_MTD.1/CVCA_UPD X X
FMT_MTD.1/DATE X X
FMT_MTD.1/CAPK X X
FMT_MTD.1/AAK X X
FMT_MTD.1/PA X
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SF.REL
SF.AC
SF.SYM_AUT
SF.SM
SF.CA
SF.TA_CER
SF.TA_AUT
SF.AA
SF_DPM
SF_PS
SF_PMA
SF_PLA
SF_CS
FMT_MTD.1/KEY_READ X
FMT_MTD.3 X
FPT_EMS.1 X X
FPT_TST.1
X X
FPT_FLS.1 X X X X
FPT_PHP.3 X X X X
Table 24: Rationale table of functional requirements and security functions
The security functional requirement FAU_SAS.1 is fulfilled by the TOE security functions SF.AC “Access
Control” and IC security function SF_DPM “Device Phase Management” which provide initialization data
accessible for reading and writing action to the pre-personaliser and the personaliser.
The security functional requirement FCS_CKM.1/DH_PACE is fulfilled by TOE security function SF.SM
“Secure Messaging” which enforces PACE SM cryptographic mechanisms. It is also enforced by the IC
security function SF_CS “Cryptographic support” which provides IC cryptographic algorithms.
The security functional requirement
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FCS_CKM.1/CA is fulfilled by TOE security function SF.CA “Chip Authentication” which enforces CA
SM cryptographic mechanisms. It is also enforced by the IC security function SF_CS “Cryptographic
support” which provides IC cryptographic algorithms.
The security functional requirement Error! Reference source not found. is fulfilled by TOE security
unctions SF.CA “Chip Authentication” which enforces CA SM cryptographic mechanisms and SF.AA
“Active Authentication” which enforces AA mechanisms. It is also enforced by the IC security function
SF_CS “Cryptographic support” which provides IC cryptographic algorithms.
The security functional requirement FCS_CKM.4 is fulfilled by TOE security function SF.SM “Secure
Messaging” which enforces the erasure of session keys.
The security functional requirement FCS_COP.1/PACE_ENC, FCS_COP.1/PACE_MAC, and
FCS_RND.1 are fulfilled by the TOE security function SF.SM “Secure Messaging” which enforces PACE
SM cryptographic mechanisms. It is also enforced by the IC security function SF_CS “Cryptographic
support” which provides IC cryptographic algorithms.
The security functional requirements FCS_COP.1/CA_ENC and FCS_COP.1/CA_MAC are fulfilled by
TOE security function SF.CA “Chip Authentication” which enforces CA SM cryptographic mechanisms.
They are also enforced by the IC security function SF_CS “Cryptographic support” which provides IC
cryptographic algorithms.
The security functional requirement FCS_COP.1/SIG_VER is fulfilled by TOE security function
SF.TA_AUT “Terminal Authentication” which enforces Terminal Authentication mechanisms. It is also
enforced by the IC security function SF_CS “Cryptographic support” which provides IC cryptographic
algorithms.
The security functional requirement FCS_COP.1/AA is fulfilled by TOE security function SF.AA “Active
Authentication” which enforces AA mechanisms. It is also enforced by the IC security function SF_CS
“Cryptographic support” which provides IC cryptographic algorithms.
The security functional requirements FIA_AFL.1/PACE, FIA_UID.1/PACE, FIA_UAU.1/PACE,
FIA_UAU.4/PACE, FIA_UAU.5/PACE , and FIA_UAU.6/PACE are fulfilled by the TOE security function
SF.SYM_AUTH “Symmetric authentication” which manages symmetric authentication functions.
The security functional requirement FIA_API.1/CA is fulfilled by TOE security function SF.CA “Chip
Authentication” which enforces CA mechanism.
The security functional requirement FIA_API.1/AA is fulfilled by TOE security function SF.AA “Active
Authentication” which enforces AA mechanisms.
The security functional requirements FDP_ACC.1/TRM and FDP_ACF.1/TRM are fulfilled by TOE
security function SF.AC “Access Control”.
The security functional requirement FDP_RIP.1 is fulfilled by TOE security function SF.SM “Secure
Messaging” which ensures the erasure of the session keys.
The security functional requirements FDP_UCT.1/TRM and FDP_UIT.1/TRM are fulfilled by TOE
security function SF.SM “Secure Messaging” which ensures the confidentiality and integrity of data
transfers.
The security functional requirement FTP_ITC.1/PACE is fulfilled by TOE security function SF.SM
“Secure Messaging” which ensures the establishment of the secure messaging.
The security functional requirement FMT_SMF.1 is fulfilled by the TOE security function SF.AC “Access
Control” which ensures the management functions in the different life cycle status.
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The security functional requirement FMT_SMR.1/PACE is fulfilled by the TOE security function SF.AC
“Access Control” which maintains the different roles according to the life cycle status. It is also fulfilled
by SF.SYM_AUTH “Symmetric authentication”, SF.CA “Chip Authentication”, and SF.TA_AUT
“Terminal Authentication Mechanism” which authenticate roles.
The security functional requirements FMT_LIM.1 and FMT_LIM.2 are fulfilled by TOE security function
SF.AC “Access Control” and IC security function SF_DPM “Device Phase Management” which limit the
capabilities and availability of the TSF after TOE delivery.
The security functional requirements FMT_MTD.1/AAK, FMT_MTD.1/INI_DIS , FMT_MTD.1/INI_ENA,
FMT_MTD.1/KEY_READ, FMT_MTD.1/PA are fulfilled by the TOE security function SF.AC “Access
Control” which manages the access control.
The security functional requirements FMT_MTD.1/CVCA_INI, FMT_MTD.1/CVCA_UPD,
FMT_MTD.1/DATE are fulfilled by the TOE security functions SF.AC “Access Control” which
manages the access control and SF.TA_CER “Validity of the Certificate Chain” which initialises and
updates data used for the validation,.
The security functional requirement FPT_EMS.1 is fulfilled by the TOE security function SF.REL
”Reliability” and IC security function SF.PS “Protection against snooping” which implement measures to
limit information contained in electromagnetic and current emissions.
The security functional requirement
FPT_TST.1 is fulfilled by the TOE security function SF.REL ”Reliability” and IC security function SF.PMA
“Protection against modifying attacks” which implement tests to protect the TOE.
The security functional requirement FPT_FLS.1 is fulfilled by the TOE security function SF.REL
“Reliability” and the IC security functions SF.PS “Protection against snooping”, SF.PMA “Protection
against modifying attacks”, and SF.PLA “Protection against logical attacks”, which preserve secure
states.
The security functional requirement FPT_PHP.3 is fulfilled by the TOE security function SF.REL
“Reliability” and the IC security functions SF.PS “Protection against snooping”, SF.PMA “Protection
against modifying attacks”, and SF.PLA “Protection against logical attacks”, which protect the TOE
against physical attacks.
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10. GLOSSARY AND ACRONYMS
Glossary
Term Definition
Active Authentication Security mechanism defined in [PKI] option by which means the MTRD’s chip
proves and the inspection system verifies the identity and authenticity of the
MTRD’s chip as part of a genuine MRTD issued by a known State of
organization.
Agreement This term is used in the current PP in order to reflect an appropriate relationship
between the parties involved, but not as a legal notion.
ALC Application Load Certificate: a certificate provided by a personalization agent
along with a personalized ALU to be loaded on the chip. This certificate is verified
using the issuer public key provisioned in the chip during the pre-personalization
phase. This public key is the root for the chain of trust verified on card.
Authenticating a personalization agent means being able to verify the ALC’s
signature.
ALU Application Load Unit: the load format used on MULTOS cards to download an
application’s code and associated personalization data. The ALU comes along
with an ALC that must be verified on-card for MULTOS to allow the application
loading.
Application note Optional informative part of the ST containing sensitive supporting information
that is considered relevant or useful for the evaluation or use of the TOE.
Audit records Write-only-once non-volatile memory area of the travel document’s chip to store
the Initialisation Data and Pre-personalisation Data.
Authenticity Ability to confirm that the travel document itself and the data elements stored in
were issued by the travel document Issuer
Basic Access Control
(BAC)
Security mechanism defined in [PKI] by which means the travel document’s chip
proves and the basic inspection system (with BAC) protects their communication
by means of secure messaging with Document Basic Access Keys (see there)
based on MRZ information as key seed and access condition to data stored on
travel document’s chip according to LDS.
Basic Inspection System
with Basic Access
Control protocol (BIS-
BAC)
A technical system being used by an official organisation28 and operated by a
governmental organisation and verifying correspondence between the stored
and printed MRZ.
BIS-BAC implements the terminal’s part of the Basic Access Control protocol
and authenticates itself to the travel document using the Document Basic Access
Keys drawn form printed MRZ data for reading the less-sensitive data (travel
document details data and biographical data) stored on the travel document.
See also par. 1.2.5; also [PKI].
Basic Inspection System
with PACE protocol
(BIS-PACE)
A technical system being used by an inspecting authority29 and verifying the
travel document presenter as the travel document holder (for ePassport: by
comparing the real biometric data (face) of the travel document presenter with
the stored biometric data (DG2) of the travel document holder).
BIS-PACE implements the terminal’s part of the PACE protocol and
authenticates itself to the travel document using a shared password (PACE
password) and supports Passive Authentication. A technical system being used
by an inspecting authority and verifying the ePass presenter as the ePass holder
(for ePassport: by comparing the real biometrical data (face) of the ePass
presenter with the stored biometrical data (DG2) of the ePass holder).
28
an inspecting authority; concretely, by a control officer
29
concretely, by a control officer
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Term Definition
The Basic Inspection System with PACE is a PCT additionally
supporting/applying the Passive Authentication protocol.
Biographical data
(biodata)
The personalised details of the travel document holder appearing as text in the
visual and machine readable zones of and electronically stored in the travel
document. The biographical data are less-sensitive data.
Biometric reference data Data stored for biometric authentication of the travel document holder in the
travel document as (i) digital portrait and (ii) optional biometric reference data
(e.g. finger and iris).
Card Access Number
(CAN)
A short password that is printed or displayed on the document. The CAN is a
non-blocking password. The CAN may be static (printed on the Passport), semi-
static (e.g. printed on a label on the Passport) or dynamic (randomly chosen by
the electronic travel document and displayed by it using e.g. ePaper, OLED or
similar technologies), see [ICAO-TR-SAC]
Counterfeit An unauthorised copy or reproduction of a genuine security document made by
whatever means [PKI].
Country Signing CertA
Certificate (CCSCA)
Certificate of the Country Signing Certification Authority Public Key (KPuCSCA)
issued by Country Signing Certification Authority and stored in the rightful
terminals.
Country Signing
Certification Authority
(CSCA)
An organisation enforcing the policy of the ePass Issuer with respect to
confirming correctness of user and TSF data stored in the ePass. The CSCA
represents the country specific root of the PKI for the ePasss and creates the
Document Signer Certificates within this PKI.
The CSCA also issues the self-signed CSCA Certificate (CCSCA) having to be
distributed by strictly secure diplomatic means, see. [PKI], 5.5.1.
Document Basic Access
Keys
Pair of symmetric (two-key) Triple-DES keys used for secure messaging with
encryption (key KBENC) and message authentication (key KBMAC) of data
transmitted between the TOE and an inspection system using BAC [PKI]. They
are derived from the MRZ and used within BAC to authenticate an entity able to
read the printed MRZ of the passport book; see [PKI].
Document Details Data Data printed on and electronically stored in the travel document representing the
document details like document type, issuing state, document number, date of
issue, date of expiry, issuing authority. The document details data are less-
sensitive data.
Document Security
Object (SOD)
A RFC 3369 CMS Signed Data Structure, signed by the Document Signer (DS).
Carries the hash values of the LDS Data Groups: A hash for each Data Group
in use shall be stored in the Security Data. It is stored in the ePassport
application (EF.SOD) of the travel document. It may carry the Document Signer
Certificate (CDS); see [PKI], sec. A.10.4.
Document Signer (DS) An organisation enforcing the policy of the CSCA and signing the Document
Security Object stored on the ePass for passive authentication.
A Document Signer is authorised by the national CSCA issuing the Document
Signer Certificate (CDS)(CDS), see [PKI]. This role is usually delegated to a
Personalisation Agent.
Eavesdropper A threat agent reading the communication between the travel document and the
terminal to gain the data on the travel document.
Enrolment The process of collecting biometric samples from a person and the subsequent
preparation and storage of biometric reference templates representing that
person's identity; see [PKI].
ePassport application A part of the TOE containing the non-executable, related user data (incl.
biometric) as well as the data needed for authentication (incl. MRZ); this
application is intended to be used by authorities, amongst other as a machine
readable travel document (MRTD). See [ICAO-TR-SAC].
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Term Definition
Forgery Fraudulent alteration of any part of the genuine document, e.g. changes to the
biographical data or portrait; see [PKI].
Global Interoperability The capability of inspection systems (either manual or automated) in different
States throughout the world to exchange data, to process data received from
systems in other States, and to utilise that data in inspection operations in their
respective States. Global interoperability is a major objective of the standardised
specifications for placement of both eye-readable and machine readable data in
all travel documents; see [PKI].
IC Dedicated Software Software developed and injected into the chip hardware by the IC manufacturer.
Such software might support special functionality of the IC hardware and be
used, amongst other, for implementing delivery procedures between different
players. The usage of parts of the IC Dedicated Software might be restricted to
certain life cycle phases.
IC Embedded Software Software embedded in an IC and not being designed by the IC developer. The
IC Embedded Software is designed in the design life cycle phase and embedded
into the IC in the manufacturing life cycle phase of the TOE.
Impostor A person who applies for and obtains a document by assuming a false name
and identity, or a person who alters his or her physical appearance to represent
himself or herself as another person for the purpose of using that person’s
document; see [PKI].
Improperly documented
person
A person who travels, or attempts to travel with: (a) an expired travel document
or an invalid visa; (b) a counterfeit, forged or altered travel document or visa; (c)
someone else’s travel document or visa; or (d) no travel document or visa, if
required; see [PKI].
Initialisation Data Any data defined by the travel document manufacturer and injected into the non-
volatile memory by the Integrated Circuits manufacturer. These data are, for
instance, used for traceability and for IC identification as travel document
material (IC identification data).
Inspection The act of an official organisation (inspection authority) examining an travel
document presented to it by an travel document presenter and verifying its
authenticity as the travel document holder. See also [PKI].
Inspection system see BIS-PACE for this PP.
see also BIS-BAC for general information
Integrated circuit (IC) Electronic component(s) designed to perform processing and/or memory
functions. The travel document’s chip is an integrated circuit.
Integrity Ability to confirm the travel document and its data elements stored upon have
not been altered from that created by the travel document Issuer.
Issuing Organisation Organisation authorised to issue an official travel document (e.g. the United
Nations Organisation, issuer of the Laissez-passer); see [PKI].
Issuing State The country issuing the travel document; see [PKI].
Logical Data Structure
(LDS)
The collection of groupings of Data Elements stored in the optional capacity
expansion technology [PKI]. The capacity expansion technology used is the
travel document’s chip.
Machine readable zone
(MRZ)
Fixed dimensional area located on the front of the travel document or MRP Data
Page or, in the case of the TD1, the back of the travel document, containing
mandatory and optional data for machine reading using OCR methods; see
[PKI].
The MRZ-Password is a restricted-revealable secret that is derived from the
machine readable zone and may be used for both PACE and BAC.
Machine-verifiable
biometrics feature
A unique physical personal identification feature (e.g. an iris pattern, fingerprint
or facial characteristics) stored on a travel document in a form that can be read
and verified by machine; see [PKI].
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Term Definition
Manufacturer Generic term for the IC Manufacturer producing integrated circuit and the travel
document Manufacturer completing the IC to the travel document. The
Manufacturer is the default user of the TOE during the manufacturing life-cycle
phase. The TOE itself does not distinguish between the IC Manufacturer and
travel document Manufacturer using this role Manufacturer.
PACE password A password needed for PACE authentication, e.g. CAN or MRZ.
PACE Terminal (PCT) A technical system verifying correspondence between the password stored in
the travel document and the related value presented to the terminal by the travel
document presenter.
PCT implements the terminal’s part of the PACE protocol and authenticates itself
to the ePass using a shared password (CAN or MRZ).
Passive authentication Security mechanism implementing (i) verification of the digital signature of the
Card/Chip or Document Security Object and (ii) comparing the hash values of
the read data fields with the hash values contained in the Card/Chip or Document
Security Object. See [PKI].
Passport (physical and
electronic)
An optically and electronically readable document in form of a paper/plastic
cover and an integrated smart card. The Passport is used in order to verify that
identity claimed by the Passport presenter is commensurate with the identity of
the Passport holder stored on/in the card.
Password Authenticated
Connection
Establishment (PACE)
A communication establishment protocol defined in [ICAO-TR-SAC]. The PACE
Protocol is a password authenticated Diffie-Hellman key agreement protocol
providing implicit password-based authentication of the communication partners
(e.g. smart card and the terminal connected): i.e. PACE provides a verification,
whether the communication partners share the same value of a password π).
Based on this authentication, PACE also provides a secure communication,
whereby confidentiality and authenticity of data transferred within this
communication channel are maintained.
Personalisation The process by which the Personalisation Data are stored in and
unambiguously, inseparably associated with the travel document.
Personalisation Agent An organisation acting on behalf of the travel document Issuer to personalise the
travel document for the travel document holder by some or all of the following
activities:
(i)establishing the identity of the travel document holder for the biographic data
in the travel document,
(ii)enrolling the biometric reference data of the travel document holder,
(iii)writing a subset of these data on the physical travel document (optical
personalisation) and storing them in the travel document (electronic
personalisation) for the travel document holder as defined in [PKI],
(iv) writing the document details data,
(v) writing the initial TSF data,
(vi) signing the Document Security Object defined in [PKI] (in the role of DS).
Please note that the role ‘Personalisation Agent’ may be distributed among
several institutions according to the operational policy of the travel document
Issuer.
Generating signature key pair(s) is not in the scope of the tasks of this role.
Extended Inspection
System (EIS)
The EIS in addition to the General Inspection System (GIS) (i) implements the
Terminal Authentication Protocol and (ii) is authorized by the issuing State or
Organization through the Document Verifier of the receiving State to read the
sensitive biometric reference data.
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Country Verifying
Certification Authority
(CVCA)
The Country Verifying Certification Authority enforces the privacy policy of the
issuing Country or Organization with respect to the protection of sensitive
biometric reference data stored in the MRTD. The CVCA represents the
country specific root of the PKI of Inspection Systems.
Document Verifier The Document Verifier enforces the privacy policy of the receiving Country with
respect to the protection of sensitive biometric reference data to be handled by
the Extended Inspection Systems. The DV manages the authorization of the
Extended Inspection Systems for the sensitive data of the MRTD in the limits
provided by the Issuing State or Organization in form of the Document Verifier
Certificates.
Personalisation Data A set of data incl. (i) individual-related data (biographic and biometric data,) of
the travel document holder, (ii) dedicated document details data and (iii)
dedicated initial TSF data (incl. the Card/Chip Security Object, if installed, and
the Document Security Object). Personalisation data are gathered and then
written into the non-volatile memory of the TOE by the Personalisation Agent in
the life cycle phase card issuing.
Pre-personalisation
Data
Any data that is injected into the non-volatile memory of the TOE by the
Manufacturer for traceability of the non-personalised travel document and/or to
secure shipment within or between the life cycle phases manufacturing and card
issuing.
Pre-personalised travel
document’s chip
travel document’s chip equipped with a unique identifier and a unique
Authentication Key Pair of the chip.
Receiving State The Country to which the travel document holder is applying for entry; see [PKI].
Reference data Data enrolled for a known identity and used by the verifier to check the
verification data provided by an entity to prove this identity in an authentication
attempt.
RF-terminal A device being able to establish communication with an RF-chip according to
ISO/IEC 14443 [ISO14443]
Rightful equipment
(rightful terminal or
rightful Card)
A technical device being expected and possessing a valid, certified key pair for
its authentication, whereby the validity of the related certificate is verifiable up to
the respective root CertA. A rightful terminal can be either BIS-PACE (see
Inspection System).
Secondary image A repeat image of the holder’s portrait reproduced elsewhere in the document
by whatever means; see [PKI].
Secure messaging in
combined mode
Secure messaging using encryption and message authentication code
according to ISO/IEC 7816-4 [ISO7816]
Skimming Imitation of a rightful terminal to read the travel document or parts of it via the
contactless/contact communication channel of the TOE without knowledge of
the printed MRZ and CAN dataPACE password.
Standard Inspection
Procedure
A specific order of authentication steps between an travel document and a
terminal as required by [ICAO-TR-SAC], namely (i) PACE and (ii) Passive
Authentication with SOD. SIP can generally be used by BIS-PACE and BIS-
BAC.
Supplemental Access
Control
A Technical Report which specifies PACE v2 as an access control mechanism
that is supplemental to Basic Access Control.
Terminal A Terminal is any technical system communicating with the TOE through a
contactless / contact interface.
TOE tracing data Technical information about the current and previous locations of the travel
document gathered by inconspicuous (for the travel document holder)
recognising the travel document
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Travel document Official document issued by a state or organisation which is used by the holder
for international travel (e.g. passport, visa, official document of identity) and
which contains mandatory visual (eye readable) data and a separate mandatory
data summary, intended for global use, reflecting essential data elements
capable of being machine read; see [PKI] (there “Machine readable travel
document”).
Travel document
(electronic)
The contactless/contact smart card integrated into the plastic or paper, optical
readable cover and providing the following application: ePassport.
Travel document holder A person for whom the ePass Issuer has personalised the travel document.
Travel document Issuer
(issuing authority)
Organisation authorised to issue an electronic Passport to the travel document
holder
Travel document
presenter
A person presenting the travel document to a terminal and claiming the identity
of the travel document holder.
TSF data Data created by and for the TOE that might affect the operation of the TOE (CC
part 1 [CC-1]).
Unpersonalised travel
document
travel document material prepared to produce a personalised travel document
containing an initialised and pre-personalised travel document’s chip.
User Data All data (being not authentication data)
(i)stored in the context of the ePassport application of the travel document as
defined in [PKI]and
(ii)being allowed to be read out solely by an authenticated terminal acting as
Basic Inspection System with PACE (in the sense of [ICAO-TR-SAC]).
CC give the following generic definitions for user data:
Data created by and for the user that does not affect the operation of the TSF
(CC part 1 [CC-1]). Information stored in TOE resources that can be operated
upon by users in accordance with the SFRs and upon which the TSF places no
special meaning (CC part 2 [CC-2]).
Verification data Data provided by an entity in an authentication attempt to prove their identity to
the verifier. The verifier checks whether the verification data match the reference
data known for the claimed identity.
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Acronyms
Acronym Term
AA Active Authentication
BAC Basic Access Control
BIS-BAC Basic Inspection System with BAC (equivalent to Basic Inspection System as used in [9])
BIS-PACE Basic Inspection System with PACE
CAN Card Access Number
CC Common Criteria
CertA Certification Authority
MRZ Machine readable zone
n.a. Not applicable
OSP Organisational security policy
PACE Password Authenticated Connection Establishment
PCD Proximity Coupling Device
PICC Proximity Integrated Circuit Chip
PP Protection Profile
RF Radio Frequency
SAC Supplemental Access Control
SAR Security assurance requirements
SFR Security functional requirement
SIP Standard Inspection Procedure, see [ICAO-TR-SAC]
TOE Target of Evaluation
TSF TOE security functionality
TSP TOE Security Policy (defined by the current document)