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Security Target Lite
MultiApp V3.1S
IAS Classic V4.2 EN
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CONTENT
1. ST INTRODUCTION ..............................................................................................................................................4
1.1 ST IDENTIFICATION .............................................................................................................................................4
1.2 ST OVERVIEW......................................................................................................................................................4
1.3 REFERENCES........................................................................................................................................................5
1.3.1 External References ....................................................................................................................................5
Internal References.....................................................................................................................................................6
1.4 ACRONYMS..........................................................................................................................................................6
1.5 GLOSSARY ...........................................................................................................................................................7
1.6 TOE OVERVIEW ..................................................................................................................................................8
1.6.1 TOE description..........................................................................................................................................8
1.7 TOE BOUNDARIES ...............................................................................................................................................9
1.8 TOE LIFE-CYCLE..................................................................................................................................................9
1.8.1 Four phases.................................................................................................................................................9
1.8.2 Actors........................................................................................................................................................13
1.8.3 Involved sites.............................................................................................................................................13
1.8.4 Pre-personalization on module at Gemalto site........................................................................................14
2. CONFORMANCE CLAIMS.................................................................................................................................15
2.1 CC CONFORMANCE CLAIM................................................................................................................................15
2.2 PP CLAIM, .........................................................................................................................................................15
2.3 PACKAGE CLAIM ...............................................................................................................................................15
3. SECURITY PROBLEM DEFINITION................................................................................................................16
3.1 GENERAL...........................................................................................................................................................16
3.2 THREATS ...........................................................................................................................................................17
3.3 ORGANIZATIONAL SECURITY POLICIES .............................................................................................................17
3.4 ASSUMPTIONS....................................................................................................................................................18
3.5 COMPATIBILITY BETWEEN SECURITY ENVIRONMENTS OF [ST-IAS] AND [ST-PLTF]........................................19
3.5.1 Compatibility between threats of [ST-IAS] and [ST-PLTF] .....................................................................19
3.5.2 Compatibility between OSP of [ST-IAS] and [ST-PLTF].........................................................................19
3.5.3 Compatibility between assumptions of [ST-IAS] and [ST-PLTF].............................................................19
3.6 JUSTIFICATIONS FOR ADDING ASSUMPTIONS ON THE ENVIRONMENT .................................................................19
3.6.1.1 Additions to [PP-SSCD-KG] ..................................................................................................................................19
4. SECURITY OBJECTIVES ...................................................................................................................................20
4.1 GENERALS .........................................................................................................................................................20
4.2 SECURITY OBJECTIVES FOR THE TOE................................................................................................................20
4.2.1 Common to Part 2 and Part 3...................................................................................................................20
4.2.2 Part 2 specific...........................................................................................................................................21
4.2.3 Part 3 specific...........................................................................................................................................21
4.2.4 Extensions.................................................................................................................................................21
4.3 SECURITY OBJECTIVES FOR THE OPERATIONAL ENVIRONMENT ........................................................................22
4.3.1 Common to Part 2 and Part 3...................................................................................................................22
4.3.2 Part 3 specific...........................................................................................................................................23
4.4 SECURITY OBJECTIVE RATIONALE ....................................................................................................................24
4.4.1 Threats ......................................................................................................................................................25
4.4.2 Assumptions ..............................................................................................................................................26
4.4.3 Organisational security policies ...............................................................................................................27
4.4.4 Compatibility between objectives of [ST-IAS] and [ST-PLTF] ................................................................29
4.4.4.1 Compatibility between objectives for the TOE.......................................................................................................29
4.4.4.2 Compatibility between objectives for the environment...........................................................................................29
4.4.5 Justifications for adding objectives on the environment...........................................................................29
4.4.5.1 Additions to [PP-SSCD-KG] ..................................................................................................................................29
5. EXTENDED COMPONENTS DEFINITION......................................................................................................30
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5.1 DEFINITION OF THE FAMILY FPT_EMS............................................................................................................30
6. SECURITY REQUIREMENTS............................................................................................................................31
6.1 SECURITY FUNCTIONAL REQUIREMENTS FOR THE TOE ....................................................................................31
6.1.1 Class Cryptographic Support (FCS).........................................................................................................31
6.1.2 Class FDP User Data Protection .............................................................................................................34
6.1.3 Class FIA Identification and Authentication.............................................................................................38
6.1.4 Class FMT Security Management.............................................................................................................41
6.1.5 Class FPT Protection of the Security Functions.......................................................................................45
6.1.6 Class FTP Trusted Path/Channel .............................................................................................................46
6.2 SECURITY ASSURANCE REQUIREMENTS FOR THE TOE......................................................................................46
6.3 SECURITY REQUIREMENTS RATIONALE.............................................................................................................47
6.3.1 SFR and PP...............................................................................................................................................47
6.3.2 Security Functional Requirements Rationale............................................................................................48
6.3.2.1 Security objectives for the TOE..............................................................................................................................48
6.3.2.2 Dependency Rationale ............................................................................................................................................52
6.3.3 Security Assurance Requirements Rationale ............................................................................................53
6.3.4 Compatibility between SFR of [ST-IAS] and [ST-PLTF] .........................................................................54
7. TOE SUMMARY SPECIFICATION...................................................................................................................55
7.1 TOE SECURITY FUNCTIONS...............................................................................................................................55
7.1.1 SF provided by IAS Application................................................................................................................55
7.1.2 TSFs provided by the platform..................................................................................................................56
FIGURES
Figure 1: TOE Boundaries.......................................................................................................................................................................9
Figure 2: TOE Personalization ..............................................................................................................................................................10
Figure 3: TOE Operational Use.............................................................................................................................................................11
Figure 4: LC1: Pre-personalization on module at Gemalto site.............................................................................................................14
TABLES
Table 2: Identification of the actors.......................................................................................................................................................13
Table 3: Threats, Assumptions, Policies vs Security objectives ............................................................................................................24
Table 4: FCS_CKM.1/SCD refinement.................................................................................................................................................31
Table 5: FCS_CKM.1/Session refinement ............................................................................................................................................32
Table 7: FCS_CKM.4 refinement..........................................................................................................................................................32
Table 8: FCS_COP.1/DSC refinement ..................................................................................................................................................33
Table 10: Subjects and security attributes for access control.................................................................................................................34
Table 11: FIA_AFL.1/PERSO refinements...........................................................................................................................................40
Table 12: conditions triggering tests......................................................................................................................................................46
Table 13: Objective vs SFR rationale....................................................................................................................................................48
Table 14: Objective vs SFR rationale....................................................................................................................................................49
Table 15: Dependency rationale ............................................................................................................................................................53
Table 16: TOE security functions list....................................................................................................................................................55
Table 17: Security Functions provided by the MultiApp V31S Platform..............................................................................................56
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1. ST INTRODUCTION
1.1 ST IDENTIFICATION
Title: MultiApp V31S Delphes31S IAS EN Security Target
Version: 1.1
ST reference: D1336403
Origin: Gemalto
ITSEF: SERMA Technologies
Certification Body: ANSSI
Evaluation scheme FRENCH
Product identification: IAS Classic V4.2 on MultiApp V31S
Security Controllers: NXP P60D144
TOE identification: IAS Classic V4.2 on MultiApp V31S
TOE documentation: Guidance document [GUIDE]
The TOE identification is provided by the Card Production Life Cycle Data (CPLCD) of the TOE, located in
OTP and in EEPROM. These data are available by executing a dedicated command.
The TOE and the product differ, as further explained in §1.7 TOE boundaries:
 The TOE is the IAS application, with MOC Server on MultiApp V3.1S
 The MultiApp V31S product also includes 2 applications in ROM.
1.2 ST OVERVIEW
The Target of Evaluation (TOE) is composed of the MultiApp V31S platform and the electronic signature
application IAS with MOC server.
The platform includes the hardware and the operating system.
The IC is evaluated in conformance with [PP-IC-0035].
The Platform is evaluated in conformance with [PP-JCS-Open].
The IAS Classic V4 application is evaluated in conformance with [PP-SSCD-KG] and [PP-SSCD-KI],
The main objectives of this ST are:
 To introduce TOE and the IAS 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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1.3 REFERENCES
1.3.1 External References
[CC-1] Common Criteria for Information Technology Security Evaluation
Part 1: Introduction and general model,
CCMB-2012-09-001, version 3.1 rev 4, September 2012
[CC-2] Common Criteria for Information Technology Security Evaluation
Part 2: Security functional components,
CCMB-2012-09-002, version 3.1 rev 4, September 2012
[CC-3] Common Criteria for Information Technology Security Evaluation
Part 3: Security assurance components,
CCMB-2012-09-003, version 3.1 rev 4, September 2012
[CEM] Common Methodology for Information Technology Security Evaluation
Methodology
CCMB-2012-09-004, version 3.1 rev 4, September 2012
[ST-IC] [ST-IC-P60D144]
[CR-IC] [CR-IC-P60D144
[ST-IC-P60D144] ST of NXP Secure Smart Card Controller P60D144JVA BSI-DSZ-CC-0845-2012
[CR-IC-P60D144] Certification Report, BSI-DSZ-CC-0845-2012
[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
[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
[PKCS#3] PKCS #3: Diffie-Hellman Key-Agreement Standard,
An RSA Laboratories Technical Note,
Version 1.4, Revised November 1, 1993
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[PP-IC-0035] Smartcard IC Platform protection Profile
BSI-PP-0035
[PP-SSCD] [EN-14169]
[PP-SSCD-KG] [EN-14169-2]
[PP-SSCD-KI] [EN-14169-3]
[EN-14169] Protection profiles for secure signature creation device – EN version
[EN-14169-2] Protection profiles for secure signature creation device – Part2 : Device with key
generation
BSI-CC-PP-0059-2009-MA-01, Version 2.01, January 2012
[EN-14169-3] Protection profiles for secure signature creation device – Part3: Device with key import
BSI-CC-PP-0075-2012, Version 1.02, July 2012
[PP-JCS-Open] Java Card System Protection Profile – Open Configuration
ANSSI-PP-2010- 03, Version 2.6, April, 19
th
2010
[GP211] Global Platform Card Specification v 2.1.1 - March 2003
[DirectiveEC] DIRECTIVE 1999/93/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL
of 13 December 1999 on a Community framework for electronic signatures
Internal References
[ST-PLTF] D1334796 JCS Security Target - MultiApp V31S Delphes31S
[GUIDE] IAS Classic V4.2 user guidance & MultiApp V3 platform User Guidance
1.4 ACRONYMS
CC Common Criteria
CGA Certificate generation application
DTBS Data to be signed
DTBS/R Data to be signed or its unique representation
EAL Evaluation Assurance Level
IC Integrated Circuit
IT Information Technology
OS Operating System
PP Protection Profile
RAD Reference Authentication Data
SAR Security Assurance Requirements
SCA Signature-creation application
SCD Signature-creation data
SCS Signature-creation system
SDO Signed data object
SF Security Function
SFR Security functional requirements
SSCD Secure signature-creation device
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ST Security Target
SVD Signature-verification data
TOE Target Of Evaluation
TSF TOE Security Functionality
VAD Verification authentication data
1.5 GLOSSARY
Term Definition
Forgery Fraudulent alteration of any part of the genuine document, e.g. changes to the
biographical data or the portrait. [SS]
IC Dedicated Support
Software
That part of the IC Dedicated Software (refer to above) which provides
functions after TOE Delivery. The usage of parts of the IC Dedicated Software
might be restricted to certain phases.
IC Dedicated Test
Software
That part of the IC Dedicated Software (refer to above) which is used to test
the TOE before TOE Delivery but which does not provide any functionality
thereafter.
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. [SS]
Initialisation Data Any data defined by the TOE Manufacturer and injected into the non-volatile
memory by the Integrated Circuits manufacturer (Phase 2). These data are for
instance used for traceability and for IC identification l (IC identification data).
Integrated circuit Electronic component(s) designed to perform processing and/or
memory functions. The MultiApp’s chip is a integrated circuit.
Personalization The process by which the portrait, signature and biographical data are applied
to the document. [SS]
Personalization Agent The agent acting on the behalf of the issuing State or organization to
personalize the TOE for the holder.
Personalization Agent
Authentication
Information
TSF data used for authentication proof and verification of the Personalization
Agent.
Pre- personalization
Data
Any data that is injected into the non-volatile memory of the TOE by the TOE
Manufacturer (Phase 2) for traceability of non-personalized TOE’s and/or to
secure shipment within or between life cycle phases 2 and 3. It contains (but is
not limited to) the Personalization Agent Key Pair.
Pre –personalized
TOE’s chip
TOE’s chip equipped with pre-personalization data.
TSF data Data created by and for the TOE, that might affect the operation of the TOE
[CC-1].
User data Data created by and for the user, that does not affect the operation of the TSF
[CC-1].
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1.6 TOE OVERVIEW
1.6.1 TOE description
IAS is a Java Card application that provides a Secure Signature Creation Device [SSCD] as defined in the
DIRECTIVE 1999/93/EC of the European Parliament and of the Council of 13 December 1999 on a
Community Framework for electronic signatures.
[PP-SSCD] defines protection profiles for SSCD:
 [PP-SSCD-KG] is a protection profile for an SSCD with SCD/SVD key generation and signature
creation.
 [PP-SSCD-KI] is a protection profile for an SSCD with SCD key import and signature creation.
In this document the terminology of [EN-14169] is used. In particular, the Signatory's Reference
Authentication Data (RAD) is the PIN stored in the card and the Signatory's Verification Authentication Data
(VAD) is the PIN provided by the user.
The IAS application can be used in contact or contactless mode.
The IAS application supports:
 The import of the SCD via a trusted channel
 The (on-board) generation of SCD/SVD pairs
 The generation of electronic signatures
 The export of the SVD to the certification generation application (CGA)
IAS is aimed to create legal valid signatures and therefore provides mechanisms to ensure the secure
signature creation as:
 Authentication of the signatory by PIN or BioPIN,
 Authentication of the administrator (mutual authentication):
 Symmetric scheme with TDES or AES
 Asymmetric scheme with Diffie-Hellman based on RSA or elliptic curves
 Integrity of access conditions to protected data (SCD, RAD),
 Integrity of the data to be signed (DTBS),
 External communication protection against disclosure and corruption (secure messaging),
 Access control to commands and data by authorized users.
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1.7 TOE BOUNDARIES
The Target of Evaluation (TOE) is the Secure Signature Creation Device (SSCD) IAS defined by:
- The underlying Integrated Circuit
- The MultiApp V31S platform (JavaCard platform)
- The IAS Application.
Figure 1: TOE Boundaries gives a description of the TOE and its boundaries.
MOCA Server
IAS Classic V4
Application
eTravel SAC
Native
Application
eTravel EAC
Native
Application
Java
API
VM
Memory Manager Communication Cryptography
RESET MEM COM SEC CRY
Hardware
Drivers
JavaCard API
HAL API
Applications
ICAO NAX interface
JCRE
Logical
Channels
Object
Deletion
Exernal
Memory
OPEN
Installer
Applet
Deletion
Manager
Card
Factory
IC
TOE boundary
JKernel
Legend
TSF
Non-TSF
Figure 1: TOE Boundaries
1.8 TOE LIFE-CYCLE
1.8.1 Four phases
The TOE life cycle is described in terms of the four life cycle phases:
Phase 1 “Development”:
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.
The Embedded 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 SSCD application and the guidance documentation associated with these
TOE components.
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Phase 2 “Manufacturing”:
In a first step the TOE integrated circuit is produced containing the chip Dedicated Software and the parts of
the chip Embedded Software in the non-volatile non-programmable memories (ROM). The IC manufacturer
writes the IC Identification Data onto the chip to control the IC as SSCD material during the IC manufacturing
and the delivery process to the SSCD manufacturer. The IC is securely delivered from the IC manufacturer
to the SSCD manufacturer.
The SSCD manufacturer has the following tasks:
 Initialization: adding the parts of the IC Embedded Software (NVM ES) to the EEPROM,
 Pre-personalization: initialization of the SSCD application,
Phase 3 Personalization of the TOE:
SSCD
Import of SCD
 SCD import
 SVD import*
Personalisation for
the signatory
 RAD installation
 VAD definition
SCD/SVD GA
 SCD/SVD generation
 SCD/SVD export
CSP
CGA
 Certificate generation
 Directory service
SVD
Certificate
info*
Generation of SCD
 SCD/SVD
generation
 SVD export
 Import of certificate
info*
RAD/VAD management
 RAD generation
 RAD transfer to SSCD
 VAD transfer to end user
Personalization
application
RAD
SVD
SVD*
SCD
CSP
Personalizer
Authentication
Authentication
Authentication
data
Signatory
VAD
Figure 2: TOE Personalization
RAD Import in the Personalization phase,
 The Personalizator (Administrator) authenticates himself to the TOE.
 The Personalizator (Administrator) sends the RAD to the TOE.
 The RAD shall also be securely sent to the Signatory.
SCD Import in the Personalization phase,
 The Personalizator (Administrator) authenticates himself to the TOE.
 The Personalizator (Administrator) requests the generation of a SCD/SVD key pair on the CSP..
 The SCD / SVD pair is generated.
 The SCD is sent to the TOE.
 The SVD is sent to the CGA.
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 The CGA generates the certificate.
 The certificate info is imported into the TOE.
SCD/SVD generation in the Personalization phase,
 The Personalizator (Administrator) authenticates himself to the TOE.
 The Personalizator (Administrator) requests the generation of a SCD / SVD key pair on the SSCD.
 The SCD / SVD pair is generated in the TOE.
 The SVD is sent to the CGA.
 The CGA generates the certificate.
 The certificate info is imported into the TOE.
Phase 4 “Operational Use”
SSCD
Import of SCD
 SCD import
 SVD import*
SCD/SVD GA
 SCD/SVD generation
 SCD/SVD export
CSP
CGA
 Certificate generation
 Directory service
SVD
Certificate
info*
Generation of SCD
 SCD/SVD
generation
 SVD export
 Import of certificate
info*
Signature creation
application
SVD
Import of certificate
info*
SVD*
SCD
CSP
Signatory
Authentication
Signatory
VAD
Signature creation
 DTBS import
 Digital signature computation
 Digital signature export
Signature creation
process
DTBS
Digital
signature
Figure 3: TOE Operational Use
SCD/SVD generation in the usage phase,
 The signatory enters his PIN code (VAD) to authenticate himself to the TOE.
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 The signatory requests the generation of a SCD/SVD key pair on the SSCD.
 The SCD / SVD pair is generated in the TOE.
 The SVD is sent to the CGA.
 The CGA generates the certificate.
 The certificate info is imported into the TOE.
SCD Import in the usage phase,
 The signatory authenticates himself to the TOE.
 The signatory requests the generation of a SCD/SVD key pair on the SCP.
 The SCD / SVD pair is generated.
 The SCD is sent to the TOE.
 The SVD is sent to the CGA.
 The CGA generates the certificate.
 The certificate info is imported into the TOE.
Signature Creation in the usage phase,
 The signatory enters his PIN code (VAD) to authenticate himself to the TOE.
 The signatory sends the DTBS or DTBS representation to the TOE.
 The TOE computes the Signature.
 The TOE sends the Signature to the SCA.
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1.8.2 Actors
Actors Identification
Integrated Circuit (IC) Developer NPX
Embedded Software Developer Gemalto
Integrated Circuit (IC) Manufacturer NPX
Initializer Gemalto
Pre-personalizer Gemalto
Administrator or
Personalization Agent
The agent who personalizes the SSCD for the holder.
Signatory or SSCD Holder The rightful holder of the TOE for whom the
Administrator personalizes the SSCD.
Table 1: Identification of the actors
1.8.3 Involved sites
Life cycle phase Involved sites
Embedded software development
(Phase 1)
Gemalto Meudon site (R&D IAS Team)
Gemalto Meudon site (R&D OS Team)
Gemalto La Ciotat site (MKS servers)
Gemalto Gémenos site (Component team1)
IC development (Phase 2) NXP development site(s) mentioned in [CR-IC]
IC Manufacturing & Testing
(Phase 3)
NXP production site(s) mentioned in [CR-IC]
IC initialization, packaging & testing
(Phase 4)
Gemalto Gémenos site
Gemalto Singapore site
Prepersonalization & testing
(Phase 5)
Gemalto Gémenos site
Gemalto Singapore site
Gemalto Tczew site
1 The Component team is in charge of the delivery of the smartcard embedded software to NXP (Mask launch)
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1.8.4 Pre-personalization on module at Gemalto site
Phase 1
Development
Phase 2
Manufacturing
Phase 3
Personalization
Phase 4
Usage
Step 1
Embedded Software Development
Step 2 IC design
IC dedicated software development
Step 3 Integration and photomask fabrication
IC production and testing
Step 4
IC packaging and testing
Step 5
IC pre-personalization
Step 6 SCD import or generation
RAD initialization
Step 7
RAD update
DTBS import
Digital signature computation and export
SCD import or generation
End of life
TOE
under
construction
Secured
by
Environment
TOE
operational
Secured
by
TOE
IC manufacturer
SSCD manufacturer
Inlay manufacturing
Personalizer
Inlay manufacturer
Development sites
Sites
Holder = End User
Module manufacturer
TOE
protection
Figure 4: LC1: Pre-personalization on module at Gemalto site
Figure 4: LC1: Pre-personalization on module at Gemalto site describes the standard Life Cycle. The module
is manufactured at the founder site. It is then shipped, as wafers or modules, to Gemalto site where it is pre-
personalized and then shipped to the Personalizer directly or through an Inlay manufacturer.
During the shipment from Gemalto to the Personalizer, the module is protected by a diversified key.
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2. CONFORMANCE CLAIMS
2.1 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.
The evaluation of the TOE uses the result of the CC evaluation of the platform MultiApp V31S claiming
conformance to [PP-JCS-Open].
2.2 PP CLAIM,
This MultiApp V31S IAS security target claims strict conformance to the following Protection Profiles:
 [PP-SSCD-KG], which defines security requirements for an SSCD with SCD/SVD key generation
and signature creation.
 [PP-SSCD-KI], which defines security requirements for an SSCD with SCD key import and signature
creation.
The evaluation is a composite evaluation and uses the results of the CC evaluation of the MultiApp V31S
platform. The platform embedded software has been evaluated at level EAL 4+.
The security problem definition, the objectives, and the SFR of the platform are not described in this
document but in [ST-PLTF].
The MultiApp V31S JCS security target [ST-PLTF], claims demonstrable conformance to the Protection
Profile “JavaCard System – Open configuration”, ANSSI-PP-2010- 03, Version 2.6 ([PP-JCS-Open]).
2.3 PACKAGE CLAIM
This ST is conforming to assurance package EAL4 augmented with ALC_DVS.2 and AVA_VAN.5 defined in
CC part 3 [CC-3].
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3. SECURITY PROBLEM DEFINITION
3.1 GENERAL
The assets, threats, OSP, and assumptions of the TOE are those defined in [PP-SSCD-KG], [PP-SSCD-KI].
The present Security Target deals with the assets, threats, OSP, and assumptions of [PP-SSCD-KG] and
[PP-SSCD-KI.
The assets of [PP-JCS-Open] are studied in [ST-PLTF].
The Common Criteria define assets as entities that the owner of the TOE presumably places value upon.
The term “asset” is used to describe the threats in the TOE operational environment.
Assets and objects:
1. SCD: private key used to perform an electronic signature operation. The confidentiality, integrity and
signatory’s sole control over the use of the SCD must be maintained.
2. SVD: public key linked to the SCD and used to perform electronic signature verification. The integrity
of the SVD when it is exported must be maintained.
3. DTBS and DTBS/R: set of data, or its representation, which the signatory intends to sign. Their
integrity and the unforgeability of the link to the signatory provided by the electronic signature must
be maintained.
User and subjects acting for users:
1. User: End user of the TOE who can be identified as Administrator or Signatory. In the TOE the
subject S.User may act as S.Admin in the role R.Admin or as S.Sigy in the role R.Sigy.
2. Administrator: User who is in charge to perform the TOE initialisation, TOE personalisation or other
TOE administrative functions. In the TOE the subject S.Admin is acting in the role R.Admin for this
user after successful authentication as Administrator.
3. Signatory: User who holds the TOE and uses it on his own behalf or on behalf of the natural or legal
person or entity he represents. In the TOE the subject S.Sigy is acting in the role R.Sigy for this user
after successful authentication as Signatory.
Threat agents:
1. Attacker: human or process acting on his behalf located outside the TOE. The main goal of the
attacker is to access the SCD or to falsify the electronic signature. The attacker has got a high attack
potential and knows no secret.
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3.2 THREATS
T.SCD_Divulg Storing ,copying, and releasing of the signature-creation data
An attacker stores or copies the SCD outside the TOE. An attacker can obtain the SCD during generation,
storage and use for signature-creation in the TOE.
T.SCD_Derive Derive the signature-creation data
An attacker derives the SCD from publicly known data, such as SVD corresponding to the SCD or signatures
created by means of the SCD or any other data exported outside the TOE, which is a threat against the
secrecy of the SCD.
T.Hack_Phys Physical attacks through the TOE interfaces
An attacker interacts with the TOE to exploit vulnerabilities, resulting in arbitrary security compromises. This
threat is directed against SCD,SVD and DTBS.
T.SVD_Forgery Forgery of signature-verification data
An attacker forges the SVD presented by the CSP to the CGA. This results in loss of SVD integrity in the
certificate of the signatory.
T.SigF_Misuse Misuse of the signature creation function of the TOE
An attacker misuses the signature-creation function of the TOE to create SDO for data the signatory has not
decided to sign. The TOE is subject to deliberate attacks by experts possessing a high attack potential with
advanced knowledge of security principles and concepts employed by the TOE.
T.DTBS_Forgery Forgery of the DTBS-representation
An attacker modifies the DTBS/R sent by the SCA. Thus the DTBS/R used by the TOE for signing does not
match the DTBS the signatory intended to sign.
T.Sig_Forgery Forgery of the electronic signature
An attacker forges a signed data object maybe using an electronic signature which has been created by the
TOE and the violation of the integrity of the signed data object is not detectable by the signatory or by third
parties. The signature created by the TOE is subject to deliberate attacks by experts possessing a high
attack potential with advanced knowledge of security principles and concepts employed by the TOE.
3.3 ORGANIZATIONAL SECURITY POLICIES
The Secure Signature Creation Device usage is for advanced electronic signature. So it is mandatory to
follow the organisational security policy proposed by [PP-SSCD-KG] and [PP-SSCD-KI].
P.CSP_QCert Qualified certificate
The CSP uses a trustworthy CGA to generate a qualified certificate or non-qualified certificate (see
[DirectiveEC], article 2, clause 9, and Annex I) for the SVD generated by the SSCD. The certificates contain
at least the name of the signatory and the SVD matching the SCD implemented in the TOE under sole
control of the signatory. The CSP ensures that the use of the TOE as SSCD is evident with signatures
through the certificate or other publicly available information.
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P.Qsign Qualified electronic signatures
The signatory uses a signature-creation system to sign data with an advanced electronic signature (cf.
Directive, Article 1, clause 2), which is a qualified electronic signature if it is based on a valid qualified
certificate (according to the Directive Annex I)
2
.
The DTBS are presented to the signatory and sent by the SCA as DTBS/R to the SSCD. The SSCD creates
the electronic signature created with a SCD implemented in the SSCD that the signatory maintain under their
sole control and is linked to the DTBS/R in such a manner that any subsequent change of the data is
detectable.
P.Sigy_SSCD TOE as secure signature-creation device
The TOE meets the requirements for an SSCD laid down in Annex III of the Directive [0]. This implies the
SCD is used for signature creation under sole control of the signatory and the SCD can practically occur only
once.
P.Sig_Non-Repud Non-repudiation of signatures
The lifecycle of the SSCD, the SCD and the SVD shall be implemented in a way that the signatory is not able
to deny having signed data if the signature is successfully verified with the SVD contained in their unrevoked
certificate.
P.Pre-personalisation Strong authentication in pre-personalisation
During pre-personalisation, The TOE protects itself with strong authentication.
3.4 ASSUMPTIONS
The assumptions describe the security aspects of the environment in which the TOE will be used or is
intended to be used.
A.CGA Trustworthy certification-generation application
The CGA protects the authenticity of the signatory’s name or pseudonym and the SVD in the (qualified)
certificate by an advanced electronic signature of the CSP.
A.SCA Trustworthy signature-creation application
The signatory uses only a trustworthy SCA. The SCA generates and sends the DTBS/R of the data the
signatory wishes to sign in a form appropriate for signing by the TOE.
A.CSP Secure SCD/SVD management by CSP
The CSP uses only a trustworthy SCD/SVD generation device and ensures that this device can be used by
authorised user only. The CSP ensures that the SCD generated practically occurs only once, that generated
SCD and SVD actually correspond to each other and that SCD cannot be derived from the SVD. The CSP
ensures the confidentiality of the SCD during generation and export to the TOE, does not use the SCD for
creation of any signature and irreversibly deletes the SCD in the operational environment after export to the
TOE.
2 It is a non-qualified advanced electronic signature if it is based on a non-qualified certificate for the SVD
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3.5 COMPATIBILITY BETWEEN SECURITY ENVIRONMENTS OF [ST-IAS] AND [ST-PLTF]
3.5.1 Compatibility between threats of [ST-IAS] and [ST-PLTF]
T.Hack_Phys and T.SCD_Divulg are included in T.Physical
T.SCD_Derive, T.Sig_Forgery, T.DTBS_Forgery, T.SVD_Forgery, and T.SigF_Misuse are threats specific to
[ST-IAS] and they do not conflict with the threats of [ST-PLTF].
We can therefore conclude that the threats of [ST-IAS] and [ST-PLTF] are consistent.
3.5.2 Compatibility between OSP of [ST-IAS] and [ST-PLTF]
P.CSP_QCert, P.Qsign,P_Sig_Non-Repud and P.Sigy_SSCD and P.Pre-personalisation are OSP specific to
[ST-IAS] and they do not conflict with the OSP of [ST-PLTF].
We can therefore conclude that the OSP of [ST-IAS] and [ST-PLTF] are consistent.
3.5.3 Compatibility between assumptions of [ST-IAS] and [ST-PLTF]
A.CGA, A.SCA, and A.CSP are assumptions specific to [ST-IAS] and they do no conflict with the
assumptions of [ST-PLTF].
We can therefore conclude that the assumptions of [ST-IAS] and [ST-PLTF] are consistent.
3.6 JUSTIFICATIONS FOR ADDING ASSUMPTIONS ON THE ENVIRONMENT
3.6.1.1 Additions to [PP-SSCD-KG]
The only additional assumption on the environment is A.CSP. This assumption deals with the SCD
generation when the SCD is generated off-TOE and imported afterwards. These two operations are outside
the scope of [PP-SSCD-KG]. Therefore the added assumption does not weaken the TOE.
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4. SECURITY OBJECTIVES
4.1 GENERALS
This section identifies and defines the security objectives for the TOE and its environment. Security
objectives reflect the stated intent and counter the identified threats, as well as comply with the identified
organisational security policies and assumptions.
The security objectives of the TOE are those defined in [PP-SSCD-KG], [PP-SSCD-KI] ;
The security objectives stated in [PP-JCS-Open] can be found in [ST-PLTF].
4.2 SECURITY OBJECTIVES FOR THE TOE
4.2.1 Common to Part 2 and Part 3
OT.Lifecycle_Security Lifecycle security
The TOE shall detect flaws during the initialisation, personalisation and operational usage.
The TOE shall securely destroy the SCD on demand of the signatory.
OT.SCD_Secrecy Secrecy of signature-creation data
The secrecy of the SCD (used for signature generation) shall be reasonably assured against attacks with a
high attack potential.
OT.Sig_Secure Cryptographic security of the electronic signature
The TOE shall create digital signatures that cannot be forged without knowledge of the SCD through robust
encryption techniques. The SCD shall not be reconstructable using the digital signatures or any other data
exportable from the TOE. The digital signatures shall be resistant against these attacks, even when executed
with a high attack potential.
OT.Sigy_SigF Signature creation function for the legitimate signatory only
The TOE shall provide the digital signature creation function for the legitimate signatory only and protects the
SCD against the use of others. The TOE shall resist attacks with high attack potential.
OT.DTBS_Integrity_TOE DTBS/R integrity inside the TOE
The TOE must not alter the DTBS/R As by definition of the DTBS/R this may consist of the DTBS
themselves, this objective does not conflict with a signature creation process where the TOE hashes the
provided DTBS (in part or entirely) for signature creation.
OT.EMSEC_Design Provide physical emanations security
The TOE shall be designed and built in such a way as to control the production of intelligible emanations
within specified limits.
OT.Tamper_ID Tamper detection
The TOE shall provide system features that detect physical tampering of its components, and uses those
features to limit security breaches.
OT.Tamper_Resistance Tamper resistance
The TOE shall prevent or resist physical tampering with specified system devices and components.
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4.2.2 Part 2 specific
OT.SCD/SVD_Auth_Gen Authorized SCD/SVD generation
The TOE shall provide security features to ensure that authorised users only may invoke the generation of
the SCD and the SVD
OT.SCD_Unique Uniqueness of the signature-creation data
The TOE shall ensure the cryptographic quality of an SCD/SVD pair it creates as suitable for the advanced
or qualified electronic signature. The SCD used for signature creation can practically occur only once and
shall not be reconstructable from the SVD. In that context ‘practically occur once’ means that the probability
of equal SCDs is negligible.
OT.SCD_SVD_Corresp Correspondence between SVD and SCD
The TOE shall ensure the correspondence between the SVD and the SCD generated by the TOE. This
includes unambiguous reference of a created SVD/SCD pair for export of the SVD and in creating a digital
signature creation with the SCD.
4.2.3 Part 3 specific
OT.SCD_Auth_Imp Authorised SCD import
The TOE shall provide security features to ensure that authorised users only imay nvoke the import of the
SCD.
4.2.4 Extensions
OT.Pre-perso_authentication Strong authentication in pre-personalisation
During pre-personalisation, the TOE protects itself with strong authentication.
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4.3 SECURITY OBJECTIVES FOR THE OPERATIONAL ENVIRONMENT
This section describes the security objectives for the environment.
The IT environment of the TOE is composed of the Certification Generation Application (CGA) and the
Signature Creation Application (SCA).
4.3.1 Common to Part 2 and Part 3
OE.SVD_AUTH Authenticity of the SVD
The operational environment shall ensure the integrity of the SVD send to the CGA of the CSP. The CGA
verifies the correspondence between the SCD in the SSCD of the signatory and the SVD in the qualified
certificate.
OE.CGA_Qcert Generation of qualified certificates
The CGA shall generate a qualified certificate that includes(amongst others)
— (a) the name of the signatory controlling the TOE,
— (b) the SVD matching the SCD stored in the TOE and being under sole control of the signatory,
— (c) the advanced signature of the CSP.
The CGA shall confirm with the generated qualified certificate that the SCD corresponding to the SVD is
stored in a SSCD.
OE.SSCD_Prov_Service Authentic SSCD provided by SSCD Provisioning Service
The SSCD-provisioning service shall initialise and personalise for the signatory an authentic copy of the TOE
and deliver this copy as SSCD to the signatory.
OE.HID_VAD Protection of the VAD
If an external device provides the human interface for user authentication, this device will ensure
confidentiality and integrity of the VAD as needed by the authentication method employed from import
through its human interface until import through the TOE interface. In particular, if the TOE requires a trusted
channel for import of the VAD, the HID shall support usage of this trusted channel.
OE.DTBS_Intend SCA sends data intended to be signed
The signatory shall use a trustworthy SCA that
(a) generates the DTBS/R of the data that has been presented as DTBS and which the signatory
intends to sign in a form which is appropriate for signing by the TOE,
(b) sends the DTBS/R to the TOE and enables verification of the integrity of the DTBS/R by the TOE,
(c) attaches the signature produced by the TOE to the data or provides it separately.
OE.DTBS_Protect SCA protects the data intended to be signed
The operational environment shall ensure that the DTBS/R cannot be altered in transit between the SCA and
the TOE. In particular, if the TOE requires a trusted channel for import of the DTBS/R, the SCA shall support
usage of this trusted channel.
OE.Signatory Security obligation of the Signatory
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The Signatory shall check that the SCD stored in the SSCD received from SSCD provisioning service is in
non-operational state. The signatory shall keep their VAD confidential.
4.3.2 Part 3 specific
OE.SCD/SVD_Auth_Gen Authorized SCD/SVD generation
The CSP shall provide security features to ensure that authorised users only invoke the generation of the
SCD and the SVD.
OE.SCD_Secrecy SCD Secrecy
The CSP shall protect the confidentiality of the SCD during generation and export to the TOE. The CSP shall
not use the SCD for creation of any signature and shall irreversibly delete the SCD in the operational
environment after export to the TOE.
OE.SCD_Unique Uniqueness of the signature-creation data
The CSP shall ensure the cryptographic quality of the SCD/SVD pair,which is generated in the environment,
for the qualified or advanced electronic signature. The SCD used for signature generation shall practically
occur only once i.e. the probability of equal SCDs shall be negligible, and the SCD shall not be
reconstructable from the SVD
.
OE.SCD_SVD_Corresp Correspondence between SVD and SCD
The CSP shall ensure the correspondence between the SVD and the SCD generated by the CSP. This
includes the correspondence between the SVD send to the CGA and the SCD exported to the TOE of the
signatory identified in the SVD certificate.
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4.4 SECURITY OBJECTIVE RATIONALE
Threats - Assumptions –
Policies
/
Security objectives OT.Lifecycle_Security
OT.SCD_Secrecy
OT.Sig_Secure
OT.Sigy_SigF
OT.DTBS_Integrity_TOE
OT.EMSEC_Design
OT.Tamper_ID
OT.Tamper_Resistance
OT.SCD/SVD_Auth_Gen
OT.SCD_Unique
OT.SCD_SVD_Corresp
OT.SCD_Auth_Imp
OT_Pre_personalisation
OE.SVD_Auth
OE.CGA_QCert
OE.SSCD_Prov_Service
OE.HID_VAD
OE.DTBS_Intend
OE_DTBS_Protect
OE.Signatory
OE.SCD/SVD_Auth_Gen
OE.SCD_Secrecy
OE.SCD_Unique
OE.SCD_SVD_Corresp
T.SCD_Divulg X X X X
T.SCD_Derive X X X
T.Hack_Phys X X X X
T.SVD_Forgery X X X
T.SigF_Misuse X X X X X X X
T.DTBS_Forgery X X X
T.Sig_Forgery X X X X
P.CSP_QCert X X X X X X
P.QSign X X X X
P.Sigy_SSCD X X X X X X X X X X X X X X
P.Sig_Non-Repud X X X X X X X X X X X X X X X X X X X
P_Pre-personalisation X
A.SCA X
A.SCA X X
A.SCP X X X X
Table 2: Threats, Assumptions, Policies vs Security objectives
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4.4.1 Threats
T.Hack_Phys (Exploitation of physical vulnerabilities) deals with physical attacks exploiting physical
vulnerabilities of the TOE.
OT.SCD_Secrecy preserves the secrecy of the SCD.
OT.EMSEC_Design counters physical attacks through the TOE interfaces or observation of TOE
emanations.
OT.Tamper_ID and OT.Tamper_Resistance counter the threat T.Hack_Phys by detecting and by
resisting tamper attacks.
T.SCD_Divulg (Storing and copying and releasing of the signature-creation data) addresses the threat
against the legal validity of electronic signature due to storage and copying of SCD outside the TOE, as
expressed in recital (18) ofthe Directive [1],. This threat is countered by
OT.SCD_secrecy, which assures the secrecy of the SCD during use by the TOE for signature creation.
OE.SCD_Secrecy, which assures the secrecy of the SCD in the CSP environment (when SCD is
generated off the TOE).
Furthermore, generation and/or import of SCD known by an attacker is countered by
OE.SCD/SVD_Auth_Gen, which ensures that only authorized SCD generation in the environment is
possible(when SCD is generated off-TOE), and
OT.SCD_Auth_Imp, which ensures that only authorised SCD import is possible (when SCD is generated
off-TOE).
T.SCD_Derive (Derive the signature creation data) deals with attacks on the SCD via public known data
produced by the TOE, which are the SVD and the signatures created with the SCD.
OT.SCD/SVD_Auth_Gen counters this threat by implementing cryptographically secure generation of the
SCD/SVD pair (when SCD is generated on-TOE).
OE.SCD_Unique counters this threat by implementing cryptographically secure generation of the
SCD/SVD pair (when SCD is generated off-TOE).
OT.Sig_Secure ensures cryptographically secure electronic signatures.
T.Sig_Forgery (Forgery of the electronic signature) deals with non-detectable forgery of the electronic
signature.
OT.Sig_Secure, OT.SCD_Unique, OE.SCD_Unique and OE.CGA_QCert address this threat in general.
OT.Sig_Secure (Cryptographic security of the electronic signature) ensures by means of robust
cryptographic techniques that the signed data and the electronic signature are securely linked together.
OT.SCD_Unique and OE.SCD_Unique ensure that the same SCD cannot be generated more than once
and the corresponding SVD cannot be included in another certificate by chance. OE.CGA_QCert
prevents forgery of the certificate for the corresponding SVD, which would result in false verification
decision concerning a forged signature.
T.SVD_Forgery (Forgery of the signature verification data) deals with the forgery of the SVD exported by the
TOE to the CGA for certificate generation. T.SVD_Forgery is addressed by:
OT.SCD_SVD_Corresp, which ensures correspondence between SVD and SCD and unambiguous
reference of the SVD/SCD pair for the SVD export and signature creation with the SCD (when SCD is
generated on-TOE),
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OE.SCD_SVD_Corresp, which ensures correspondence between SVD and SCD and unambiguous
reference of the SVD/SCD pair for the SVD export and signature creation with the SCD (when SCD is
generated off-TOE), and
OE.SVD_Auth that ensures the integrity of the SVD exported by the TOE to the CGA.
T.DTBS_Forgery (Forgery of the DTBS/R) addresses the threat arising from modifications of the data sent
as input to the TOE's signature creation function that does not represent the DTBS as presented to the
signatory and for which the signature has expressed its intent to sign. The TOE IT environment
addresses T.DTBS_Forgery by the means of :
OE.DTBS_Intend, which ensures that the trustworthy SCA generates the DTBS/R of the data that has
been presented as DTBS and which the signatory intends to sign in a form appropriate for signing by the
TOE, and
OE.DTBS_Protect, which ensures that the DTBS/R cannot be altered in transit between the SCA and the
TOE, and
The TOE counters this threat by the means of OT.DTBS_Integrity_TOE by ensuring the integrity of the
DTBS/R inside the TOE..
T.SigF_Misuse (Misuse of the signature creation function of the TOE) addresses the threat of misuse of
the TOE signature creation function to create SDO by others than the signatory to create an electronic
signature on data for which the signatory has not expressed the intent to sign, as required by paragraph
1(c) of Annex III.
OT.Lifecycle_Security (Lifecycle security) requires the TOE to detect flaws during the initialisation,
personalisation and operational usage including secure destruction of the SCD, which may be initiated by
the signatory.
OT.Sigy_SigF (Signature creation function for the legitimate signatory only ) ensures that the TOE provides the
signature creation function for the legitimate signatory only.
OE.DTBS_Intend (Data intended to be signed) ensures that the SCA sends the DTBS/R only for data the
signatory intends to sign and
OE.DTBS_Protect counters manipulation of the DTBS during transmission over the channel between the
SCA and the TOE.
OT.DTBS_Integrity_TOE (DTBS/R integrity inside the TOE) prevents the DTBS/R from alteration inside the
TOE. If the SCA provides a human interface for user authentication, OE.HID_VAD (Protection of the VAD)
provides confidentiality and integrity of the VAD as needed by the authentication method employed.
OE.Signatory ensures that the signatory checks that an SCD stored in the SSCD when received from an
SSCD-provisioning service provider is in non-operational state, i.e. the SCD cannot be used before the
signatory becomes control over the SSCD.
OE.Signatory ensures also that the signatory keeps their VAD confidential.
4.4.2 Assumptions
A.CGA (Trustworthy certificate generation application) establishes the protection of the authenticity of
the signatory's name and the SVD in the qualified certificate by the advanced signature of the CSP by
means of the CGA. This is addressed by
OE.CGA_QCert (Generation of qualified certificates), which ensures the generation of qualified
certificates, and by
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OE.SVD_Auth (CGA proves the authenticity of the SVD), which ensures the verification of the authenticity
of the received SVD and the correspondence between the SVD and the SCD that is implemented by the
SSCD of the signatory.
A.SCA (Trustworthy signature creation application) establishes the trustworthiness of the SCA with
respect to generation of DTBS/R. This is addressed by
OE.DTBS_Intend (Data intended to be signed) which ensures that the SCA generates the DTBS/R of the
data that have been presented to the signatory as DTBS and which the signatory intends to sign in a form
which is appropriate for being signed by the TOE
A.CSP (Secure SCD/SVD management by CSP) establishes several security aspects concerning handling
of SCD and SVD by the CSP. That the SCD/SVD generation device can only be used by authorized users is
addressed by OE.SCD/SVD_Auth_Gen (Authorized SCD/SVD Generation), that the generated SCD is
unique and cannot be derived by the SVD is addressed by OE.SCD_Unique (Uniqueness of the signature
creation data), that SCD and SVD correspond to each other is addressed by OE.SCD_SVD_Corresp
(Correspondence between SVD and SCD), and that the SCD are kept confidential, are not used for signature
generation in the environment and are deleted in the environment once exported to the TOE is addressed by
OE.SCD_Secrecy (SCD Secrecy).
This assumption is only applicable when SCD is generated off-card.
4.4.3 Organisational security policies
P.CSP_QCert (CSP generates qualified certificates) establishes the CSP generating qualified certificate
or non-qualified certificate linking the signatory and the SVD implemented in the SSCD under sole control of
this signatory. P.CSP_QCert is addressed by
OT.Lifecycle_Security, which requires the TOE to detect flaws during the initialisation,personalisation and
operational usage,
OT.SCD_SVD_Corresp (when SCD is generated on-TOE) or OE.SCD_SVD_Corresp (when SCD is
generated off-TOE), which requires the CSP to ensure the correspondence between the SVD and the
SCD during their generation,
OE.CGA_QCert for generation of qualified certificates or non-qualified certificates, which requires the
CGA to certify the SVD matching the SCD implemented in the TOE under sole control of the signatory
OE.SCD/SVD_Auth_Gen, which ensures that the SCD/SVD generation can be invoked by authorized
users only (when SCD is generated off-TOE),
OT.SCD_Auth_Imp which ensures that authorised users only may invoke the import of the SCD (when
SCD is generated off-TOE).
P.QSign (Qualified electronic signatures) provides that the TOE and the SCA may be employed to sign
data with an advanced electronic signature, which is a qualified electronic signature if based on a valid
qualified certificate.
OT.Sigy_SigF ensures signatory's sole control of the SCD by requiring the TOE to provide the signature
creation function for the legitimate signatory only and to protect the SCD against the use of others.
OT.Sig_Secure ensures that the TOE creates electronic signatures, which cannot be forged without
knowledge of the SCD through robust encryption techniques.
OE.CGA_QCert addresses the requirement of qualified or non-qualified electronic certificates building a
base for the electronic signature.
OE.DTBS_Intend ensures that the SCA provides only those DTBS to the TOE, which the signatory
intends to sign.
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P.Sigy_SSCD (TOE as secure signature creation device) requires the TOE to meet the Annex II of the
directive [1]. This is ensured as follows
OT.SCD_Unique and OE.SCD_Unique meet the paragraph 1(a) of the directive [1], Annex III, by the
requirements that the SCD used for signature creation can practically occur only once.
OE.SCD_Unique, OT.SCD_Secrecy and OE.SCD_Secrecy meet the paragraph 1(a) of the directive [1],
Annex III, by the requirements to ensure the secrecy of the SCD.OT.EMSEC_Design and
OT.Tamper_Resistance address specific objectives to ensure secrecy of SCD against specific attacks.
OT.SCD_Secrecy and OT.Sig_Secure meet the paragraph 1(b) of the directive [1], Annex III, by the
requirements to ensure that the SCD cannot be derived from SVD, the digital signatures or any other data
exported outside the TOE.
OT.Sigy_SigF and OE.SCD_Secrecy meet the paragraph 1(c) of the directive [1], Annex III, by the
requirements to ensure that the TOE provides the signature creation function for the legitimate signatory
only and protects the SCD against the use of others.
OT.DTBS_Integrity_TOE meets the requirements the paragraph 2 of the directive [1], Annex III, The
TOE must not alter the DTBS/R.
Please take note, the requirements of the directive [1], Annex III, 2., that the SSCD does not prevent the
data to be signed from being presented to the signatory prior to the signature process is obviously fulfilled
by the method of TOE usage: the SCA will present the DTBS to the signatory and send them to the
SSCD for signing. The usage of SCD under sole control of the signatory sole control is ensured by :
OT.Lifecycle_Security requiring the TOE to detect flaws during the initialisation, personalization and
operational usage
OE.SCD/SVD_Auth_Gen and OE.SCD/SVD_Auth_Gen, which limit invocation of the generation of the
SCD and the SVD to authorised users only,
OT.SCD_Auth_Imp, which limits SCD import to authorised users only,
OE.SCD_Secrecy, which ensures the confidentiality of the SCD during generation and export to the TOE,
and deletes the SCD after export to the TOE. The CSP does not use the SCD for signature creation
OT.Sigy_SigF, which requires the TOE to provide the signature creation function for the legitimate
signatory only and to protect the SCD against the use of others.
OE.SSCD_Prov_Service ensures that the signatory obtains an authentic copy of the TOE, initialised and
personalised as SSCD from the SSCD-provisioning service.
P.Sig_Non-Repud (Non-repudiation of signatures) deals with the repudiation of signed data by the
signatory, although the electronic signature is successfully verified with the SVD contained in their
certificate valid at the time of signature creation. This policy is implemented by the combination of the
security objectives for the TOE and its operational environment, which ensures the aspects of signatory’s
sole control over and responsibility for the electronic signatures created with the TOE.
OE.SSCD_Prov_Service ensures that the signatory uses an authentic copy of the TOE, initialised and
personalised for the signatory.
OE.SCD_SVD_Corresp, OE.SCD_Secrecy and OE.SCD_Unique ensure the security of the SCD in the
CSP environment. OE.SCD_Secrecy ensures the confidentiality of the SCD during generation, during and
after export to the TOE. The CSP does not use the SCD for creation of any signature and deletes the
SCD irreversibly after export to the TOE. OE.SCD_Unique provides that the signatory’s SCD can
practically occur just once. OE.SCD_SVD_Corresp ensures that the SVD in the certificate of the signatory
corresponds to the SCD that is implemented in the copy of the TOE of the signatory.
OE.CGA_QCert ensures that the certificate allows to identify the signatory and thus to link the SVD of the
signatory. OE.SVD_Auth and OE.CGA_QCert require the environment to ensure the authenticity of the
SVD as being exported by the TOE under sole control of the signatory. OE.CGA_QCert ensures that the
certificate allows to identify the signatory and thus to link the SVD of the signatory. OE.SVD_Auth and
OE.CGA_QCert require the environment to ensure the authenticity of the SVD as being exported by the
TOE under sole control of the signatory.OT.SCD_SVD_Corresp ensures that the SVD exported by the
TOE corresponds to the SCD that is implemented in the TOE. OT.SCD_Unique provides that the
signatory’s SCD can practically occur just once.
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OE.Signatory ensures that the signatory checks that the SCD, stored in the SSCD received from an
SSCD-provisioning service is in non-operational state (i.e. the SCD cannot be used before the signatory
becomes into sole control over the SSCD). OT.Sigy_SigF provides that only the signatory may use the
TOE for signature creation. OE.DTBS_Intend, OE.DTBS_Protect and OT.DTBS_Integrity_TOE ensure
that the TOE creates electronic signatures only for those DTBS/R, which the signatory has decided to
sign as DTBS. The robust cryptographic techniques required by OT.Sig_Secure ensure that only this
SCD may create a valid electronic signature that can be successfully verified with the corresponding SVD
used for signature verification. The security objective for the TOE OT.Lifecycle_Security (Lifecycle
security), OT.SCD_Secrecy (Secrecy of the signature creation data), OT.EMSEC_Design (Provide
physical emanations security), OT.Tamper_ID (Tamper detection) and OT.Tamper_Resistance (Tamper
resistance) protect the SCD against any compromise.
P.Pre-personalisation (Strong authentication in pre-personalisation) requests a strong authentication
before accessing the SSCD. This is directly addressed by OT.Pre-personalisation.
4.4.4 Compatibility between objectives of [ST-IAS] and [ST-PLTF]
4.4.4.1 Compatibility between objectives for the TOE
OT.Lifecycle_Security, OT.SCD_Secrecy, OT.DTBS_Integrity_TOE, OT.EMSEC_Design, OT.Tamper_ID,
and OT.Tamper_Resistance deal with physical protection of the TOE. These are supported by O.Phys-
Manipulation, O.Phys-Probing, O.Malfunction, O.Leak-Inherent, and O.Leak-Forced.
OT.SCD_SVD_Corresp, OT.SCD/SVD_Auth_Gen,, OT.SCD_Auth_Imp OT.Sig_Secure, OT.Sigy_SigF,
OT.SCD_Unique, and OT.Pre-personalisation are objectives specific to [ST-IAS] and they do no conflict with
the objectives of [ST-PLTF].
We can therefore conclude that the objectives for the TOE of [ST-IAS] and [ST-PLTF] are consistent.
4.4.4.2 Compatibility between objectives for the environment
OE.CGA_QCert, OE.SVD_Auth, OE.HID_VAD, OE.SSCD_Prov_Service, OE_DTBS_Intend,
OE_DTBS_Protect, OE.SCD_SVD_Corresp, OE.SCD/SVD_Auth_Gen, OE.Signatory, OE.SCD_Secrecy
and OE.SCD_Unique are objectives specific to [ST-IAS] and they do no conflict with the objectives of [ST-
PLTF].
We can therefore conclude that the objectives for the environment of [ST-IAS] and [ST-PLTF] are consistent.
4.4.5 Justifications for adding objectives on the environment
4.4.5.1 Additions to [PP-SSCD-KG]
The only additional objectives on the environment are: OE.SCD_SVD_Corresp, OE.SCD_Secrecy,
OE_SCD_Unique and OE.SCD/SVD_Auth_G. These objectives request the environment to perform several
operations when the SCD is generated off-TOE and imported afterwards. These two operations are outside
the scope of [PP-SSCD-KG]. Therefore the added objectives on the environment do not weaken the TOE.
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5. EXTENDED COMPONENTS DEFINITION
This ST uses one component defined as extensions to CC part 2:
FPT_EMS.1 is defined in protection profile [PP-SSCD-KG] and [PP-SSCD-KI].
5.1 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_EMS TOE emanation 1
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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6. SECURITY REQUIREMENTS
6.1 SECURITY FUNCTIONAL REQUIREMENTS FOR THE TOE
This chapter defines the security functional requirements for the TOE using functional requirements
components as specified in [PP-SSCD-KI] and [PP-SSCD-KG].
[ST-PLTF] deals with the security functional requirements of [PP-JCS-Open].
Refinements in this section are underlined when they are PP refinements and in bold characters when they
are additional ones.
6.1.1 Class Cryptographic Support (FCS)
FCS_CKM.1/SCD Cryptographic key generation for SCD/SVD pair
Hierarchical to: No other components
Dependencies: [FCS_CKM.2 Cryptographic key distribution or
FCS_COP.1 Cryptographic operation]
FCS_CKM.4 Cryptographic key destruction
FCS_CKM.1.1
/SCD
The TSF shall generate SCD/SVD pair 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: [assignment: list of standards].
iteration algorithm Key size standards
/RSA RSA CRT key
generation
1024, 1536, 2048 none (generation of random numbers and
Miller- Rabin primality testing)
/ECC ECC key
generation
160, 224, 256, 384, 512,
521
None
Table 3: FCS_CKM.1/SCD refinement
Application note (part 2 only [PP-SSCD-KG]):
FCS_CKM.1/SCD is named FCS_CKM.1 in [PP-SSCD-KG]. The new naming clarifies the purpose of the
SFR and allows for the introduction of FCS_CKM.1/SCD.
FCS_CKM.1/Session Cryptographic key generation for session keys
Hierarchical to: No other components
Dependencies: [FCS_CKM.2 Cryptographic key distribution or
FCS_COP.1 Cryptographic operation]
FCS_CKM.4 Cryptographic key destruction
FCS_CKM.1.1
/Session
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: [assignment: list of standards].
iteration algorithm Key size standards
/TDES TDES session
key generation
112 [ISO7816], [PKCS#3] DH.
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iteration algorithm Key size standards
/AES AES session key
generation
128 [ISO7816], [PKCS#3] DH, [IEEE-P1363]
ECDH, [IEEE-P1363] ECDHC
Table 4: FCS_CKM.1/Session refinement
FCS_CKM.4/SCD 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]
FCS_CKM.4.1
/SCD
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.
iteration when
/RSA new SCD generation or import /signer’s will
/ECC new SCD generation or import /signer’s will
Table 5: FCS_CKM.4 refinement
FCS_CKM.4/Session 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]
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.
iteration when
/TDES End of session
/AES End of session
Table 6: FCS_CKM.4 refinement
FCS_COP.1/DSC Cryptographic operation – Digital Signature Creation
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]
FCS_CKM.4 Cryptographic key destruction
FCS_COP.1.1
/DSC
The TSF shall perform digital signature creation in accordance with a specified
cryptographic algorithm [assignment: cryptographic algorithm] and cryptographic key sizes
[assignment: cryptographic key sizes] that meet the following: [assignment: list of
standards].
iteration operation algorithm key size standards
/DSC-RSA signature &
verification
RSA CRT 1024,1536,2048,30
72 and 4096
[ISO9796-2]
RSA SHA PKCS#1 v1.5
RSA PSS SHA PKCS#1
/DSC-ECC signature & ECC 224, 256, 384, 512, [TR-03111] ECDSA SHA
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iteration operation algorithm key size standards
verification 521
Table 7: FCS_COP.1/DSC refinement
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FCS_COP.1/Session Cryptographic operation – Other operations
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]
FCS_CKM.4 Cryptographic key destruction
FCS_COP.1.1
/Other
The TSF shall perform [assignment: cryptographic operations] in accordance with a
specified cryptographic algorithm [assignment: cryptographic algorithm] and cryptographic
key sizes [assignment: cryptographic key sizes] that meet the following: [assignment: list of
standards].
iteration operation algorithm key size standards
/ENC-TDES Encryption & decryption TDES 112 [SP800-67]
/ENC-AES Encryption & decryption AES 128 [FIPS197] AES 128 NOPAD
/MAC-TDES MAC computation &
Verification
TDES 112 [SP800-67] [ISO9797-1]
DES MAC ISO9797-1 M2
/MAC-AES MAC computation &
Verification
AES 128 [FIPS197] AES 128 NOPAD
Table 8: FCS_COP.1/Other refinement
6.1.2 Class FDP User Data Protection
The security attributes and related status for the subjects and objects are:
Subject or object the security
attribute is associated with
Security attribute type Value of the security attribute
S.User Role R.Admin - S.User acts as S.Admin
R.Sigy - S.User acts as S.Sigy
S.User SCD / SVD Management Authorised, not authorised
SCD SCD Operational No, yes
SCD SCD identifier arbitrary value
SVD No security attribute NA
Table 9: Subjects and security attributes for access control
FDP_ACC.1/Signature_Creation Subset access control
Hierarchical to: No other components
Dependencies: FDP_ACF.1 Security attribute based access control
FDP_ACC.1.1
/Signature_Creation
The TSF shall enforce the Signature Creation SFP on:
1. Subjects: S.User,
2. Objects: DTBS/R, SCD
3. Operations: signature creation.
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FDP_ACF.1/Signature_Creation Security attribute based access control
Hierarchical to: No other components
Dependencies: FDP_ACC.1 Subset access control
FMT_MSA.3 Static attribute initialization
FDP_ACF.1.1
/Signature_Creation
The TSF shall enforce the Signature Creation SFP to objects based on the following:
1. the user S.User is associated with the security attribute “Role” and.
2. the SCD with the security attribute “SCD Operational”
FDP_ACF.1.2
/Signature_Creation
The TSF shall enforce the following rules to determine if an operation among
controlled subjects and controlled objects is allowed:
R.Sigy is allowed to create electronic signatures for DTBS/R with SCD which security
attribute “SCD operational” is set to “yes”,
FDP_ACF.1.3
/Signature_Creation
The TSF shall explicitly authorize access of subjects to objects based on the following
additional rules: none.
FDP_ACF.1.4
/Signature_Creation
The TSF shall explicitly deny access of subjects to objects based on the following
additional rules:
S.User is not allowed to create electronic signatures for DTBS/R with SCD which
security attribute “SCD operational” is set to “no”.
FDP_ACC.1/SCD/SVD_Generation Subset access control
Hierarchical to: No other components
Dependencies: FDP_ACF.1 Security attribute based access control
FDP_ACC.1.1
/SCD/SVD_Generation
The TSF shall enforce the SCD/SVD Generation SFP to objects based on:
1. Subjects: S.User,
2. Objects: SCD, SVD
3. Operations: generation of SCD/SVD pair.
Application note: part 2 only [PP-SSCD-KG].
FDP_ACF.1/SCD/SVD_Generation Security attribute based access control
Hierarchical to: No other components
Dependencies: FDP_ACC.1 Subset access control
FMT_MSA.3 Static attribute initialization
FDP_ACF.1.1
/SCD/SVD_Generation
The TSF shall enforce the SCD/SVD Generation SFP to objects based on the
following: the user S.User is associated with the security attribute “SCD/SVD
Management“.
FDP_ACF.1.2
/SCD/SVD_Generation
The TSF shall enforce the following rules to determine if an operation among
controlled subjects and controlled objects is allowed:
S.User with the security attribute “SCD/SVD Management” set to “authorized” is
allowed to generate SCD/SVD pair,
FDP_ACF.1.3
/SCD/SVD_Generation
The TSF shall explicitly authorize access of subjects to objects based on the
following additional rules: none.
FDP_ACF.1.4
/SCD/SVD_Generation
The TSF shall explicitly deny access of subjects to objects based on the following
additional rules:
S.User with the security attribute “SCD/SVD management” set to “not authorised” is
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not allowed to generate SCD/SVD pair.
Application note: part 2 only [PP-SSCD-KG].
FDP_ACC.1/SVD_Transfer Subset access control
Hierarchical to: No other components
Dependencies: FDP_ACF.1 Security attribute based access control
FDP_ACC.1.1
/SVD_Transfer
The TSF shall enforce the SVD Transfer SFP to objects based on the following:
1. Subjects: S.User,
2. Objects: SVD
3. Operations: export.
Application note: part 2 only [PP-SSCD-KG].
FDP_ACF.1/SVD_Transfer Security attribute based access control
Hierarchical to: No other components
Dependencies: FDP_ACC.1 Subset access control
FMT_MSA.3 Static attribute initialization
FDP_ACF.1.1
/SVD_Transfer
The TSF shall enforce the SVD Transfer SFP to objects based on the following:
1. the S.User is associated with the security attribute Role
2. the SVD .
FDP_ACF.1.2
/SVD_Transfer
The TSF shall enforce the following rules to determine if an operation among controlled
subjects and controlled objects is allowed:
[ R.Admin or R.Sigy is allowed to export SVD,
FDP_ACF.1.3
/SVD_Transfer
The TSF shall explicitly authorize access of subjects to objects based on the following
additional rules: none.
FDP_ACF.1.4
/SVD_Transfer
The TSF shall explicitly deny access of subjects to objects based on the following additional
rules: none
Application note: part 2 only [PP-SSCD-KG].
FDP_ACC.1/SCD_Import Subset access control
Hierarchical to: No other components
Dependencies: FDP_ACF.1 Security attribute based access control
FDP_ACC.1.1
/SCD_Import
The TSF shall enforce the SCD Import SFP to objects based on the following:
1. Subjects: S.User,
2. Objects: SCD
3. Operations: import of SCD.
Application note: part 3 only [PP-SSCD-KI].
FDP_ACF.1/SCD_Import Security attribute based access control
Hierarchical to: No other components
Dependencies: FDP_ACC.1 Subset access control
FMT_MSA.3 Static attribute initialization
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FDP_ACF.1.1
/SCD_Import
The TSF shall enforce the SCD Import SFP to objects based on the following:
the S.User is associated with the security attribute “SCD/SVD Management”.
FDP_ACF.1.2
/SCD_Import
The TSF shall enforce the following rules to determine if an operation among controlled
subjects and controlled objects is allowed:
S.User with the security attribute “SCD/SVD Management” set to “authorised” is allowed to
import SCD,
FDP_ACF.1.3
/SCD_Import
The TSF shall explicitly authorize access of subjects to objects based on the following
additional rules: none.
FDP_ACF.1.4
/SCD_Import
The TSF shall explicitly deny access of subjects to objects based on the following additional
rules:
S.User with the security attribute “SCD/SVD management” set to “not authorised” is not
allowed to import SCD.
Application note: part 3 only [PP-SSCD-KI].
FDP_ITC.1/SCD Import of user data without security attributes
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_MSA.3 Static attribute initialization
FDP_ITC.1.1
/SCD
The TSF shall enforce the SCD Import SFP when importing user data, controlled under the
SFP, from outside of the TOE.
FDP_ITC.1.2
/SCD
The TSF shall ignore any security attributes associated with the SCD when imported from
outside the TOE.
FDP_ITC.1.3
/SCD
The TSF shall enforce the following rules when importing user data controlled under the
SFP from outside the TOE: none.
Application note: part 3 only [PP-SSCD-KI].
FDP_RIP.1 Subset residual information protection
Hierarchical to: No other components
Dependencies: No dependency
FDP_RIP.1.1 The TSF shall ensure that any previous information content of a resource is made
unavailable upon the de-allocation of the resource from the following objects: SCD.
The following data persistently stored by TOE have the user data attribute "integrity checked persistent
stored data":
1. SCD
2. SVD (if persistent stored by TOE).
The DTBS/R temporarily stored by TOE has the user data attribute "integrity checked stored data":
FDP_SDI.2/Persistent Stored data integrity monitoring and action
Hierarchical to: FDP_SDI.1 Stored data integrity monitoring
Dependencies: No dependency
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FDP_SDI.2.1
/Persistent
The TSF shall monitor user data stored in containers controlled by the TSF for integrity error
on all objects, based on the following attributes: integrity checked persistent stored data.
FDP_SDI.2.2
/Persistent
Upon detection of a data integrity error, the TSF shall :
1. prohibit the use of the altered data
2. inform the S.Sigy about integrity error.
FDP_SDI.2/DTBS Stored data integrity monitoring and action
Hierarchical to: FDP_SDI.1 Stored data integrity monitoring
Dependencies: No dependency
FDP_SDI.2.1
/DTBS
The TSF shall monitor user data stored in containers controlled by the TSF for integrity error
on all objects, based on the following attributes: integrity checked stored DTBS.
FDP_SDI.2.2
/DTBS
Upon detection of a data integrity error, the TSF shall :
1. prohibit the use of the altered data
2. inform the S.Sigy about integrity error.
FDP_UCT.1 Basic data exchange confidentiality
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
[FTP_ITC.1 Inter-TSF trusted channel, or
FTP_TRP.1 Trusted path]
FDP_UCT.1.1
/SCD
The TSF shall enforce the SCD Import SFP to receive SCD in a manner protected from
unauthorized disclosure.
Application note: part 3 only [PP-SSCD-KI].
6.1.3 Class FIA Identification and Authentication
FIA_AFL.1/SIG Authentication failure handling
Hierarchical to: No other components
Dependencies: FIA_UAU.1 Timing of authentication
FIA_AFL.1.1 The TSF shall detect when [3] unsuccessful authentication attempts occur related to
consecutive failed authentication attempts.
FIA_AFL.1.2 When the defined number of unsuccessful authentication attempts has been met, the TSF
shall block RAD.
Note: PIN or BioPIN could be used for user authentication.
FIA_AFL.1/PERSO Authentication failure handling during pre-personalization and personalization
phases
Hierarchical to: No other components
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Dependencies: FIA_UAU.1 Timing of authentication
FIA_AFL.1.1
/PERSO
The TSF shall detect when [Number in Table 10] unsuccessful authentication attempts
occurs related to authentication attempts using ISK key.
FIA_AFL.1.2
/PERSO
When the defined number of unsuccessful authentication attempts has been met, the TSF
shall block key.
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Auth type Number Actions
GP 3 Block GP authentication.
ISK key 3 Block ISK Key.
Table 10: FIA_AFL.1/PERSO refinements
FIA_UAU.1/SIG Timing of authentication
Hierarchical to: No other components
Dependencies: FIA_UID.1 Timing of identification
FIA_UAU.1.1 The TSF shall allow
1. Self test according to FPT_TST.1.
2. Identification of the user by means of TSF required by FIA_UID.1.
3. No other Signature generation related action.
on behalf of the user to be performed before the user is authenticated.
FIA_UAU.1.2 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 TSF shall allow no Signature generation related action to be performed before user is authenticated.
That means that other actions, not specifically related to the Signature creation, may be performed before
user is authenticated.
FIA_UAU.1/PERSO Timing of authentication
Hierarchical to: No other components
Dependencies: FIA_UID.1 Timing of identification
FIA_UAU.1.1
/PERSO
The TSF shall allow
4. Identification of the user by means of TSF required by FIA_UID.1.
5. No other action.
on behalf of the user to be performed before the user is authenticated.
FIA_UAU.1.2
/PERSO
The TSF shall require each user to be successfully authenticated before allowing any other
TSF-mediated actions on behalf of that user.
FIA_UID.1/SIG Timing of identification
Hierarchical to: No other components
Dependencies: No dependencies
FIA_UID.1.1
/SIG
The TSF shall allow
1. Self test according to FPT_TST.1.
2. No other Signature generation related action.
on behalf of the user to be performed before the user is identified.
FIA_UID.1.2
/SIG
The TSF shall require each user to be successfully identified before allowing any other TSF-
mediated actions on behalf of that user.
FIA_UID.1/PERSO Timing of identification
Hierarchical to: No other components
Dependencies: No dependencies
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FIA_UID.1.1
/PERSO
The TSF shall allow
3. No action.
on behalf of the user to be performed before the user is identified.
FIA_UID.1.2
/PERSO
The TSF shall require each user to be successfully identified before allowing any other TSF-
mediated actions on behalf of that user.
6.1.4 Class FMT Security Management
FMT_MOF.1 Management of security functions behaviour
Hierarchical to: No other components
Dependencies: FMT_SMR.1 Security roles.
FMT_SMF.1 Specification of Management functions
FMT_MOF.1.1 The TSF shall restrict the ability to enable the signature-creation function to R.Sigy.
FMT_MSA.1/Signatory Management of security attributes
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_SMR.1 Security roles
FMT_SMF.1 Specification of Management functions
FMT_MSA.1.1
/Signatory
The TSF shall enforce the Signature-creation SFP to restrict the ability to modify the
security attributes SCD operational to R.Sigy.
FMT_MSA.1/AdminKG Management of security attributes
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_SMR.1 Security roles
FMT_SMF.1 Specification of Management functions
FMT_MSA.1.1
/AdminKG
The TSF shall enforce the SCD/SVD_Generation_SFP to restrict the ability to modify the
security attributes SCD / SVD management to R.Admin.
Application note: part 2 only [PP-SSCD-KG].
FMT_MSA.1/AdminKI Management of security attributes
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_SMR.1 Security roles
FMT_SMF.1 Specification of Management functions
FMT_MSA.1.1
/AdminKI
The TSF shall enforce the SCD_Import_SFP to restrict the ability to modify the security
attributes SCD / SVD management to R.Admin.
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Application note: part 3 only [PP-SSCD-KI].
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FMT_MSA.2 Secure security attributes
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_MSA.1 Management of security attributes
FMT_SMR.1 Security roles
FMT_MSA.2.1 The TSF shall ensure that only secure values are accepted for SCD / SVD Management
and SCD operational.
FMT_MSA.3/Keygen Static attribute initialization
Hierarchical to: No other components
Dependencies: FMT_MSA.1 Management of security attributes
FMT_SMR.1 Security roles
FMT_MSA.3.1
/Keygen
The TSF shall enforce the SCD/SVD_Generation_SFP, SVD_Transfer_SFP and Signature-
creation_SFP to provide restrictive default values for security attributes that are used to
enforce the SFP.
FMT_MSA.3.2
/Keygen
The TSF shall allow the R.Admin to specify alternative initial values to override the default
values when an object or information is created.
Application note: part 2 only [PP-SSCD-KG].
FMT_MSA.3/KeyImport Static attribute initialization
Hierarchical to: No other components
Dependencies: FMT_MSA.1 Management of security attributes
FMT_SMR.1 Security roles
FMT_MSA.3.1
/KeyImport
The TSF shall enforce the SCD_Import_SFP and Signature-creation_SFP to provide
restrictive default values for security attributes that are used to enforce the SFP.
FMT_MSA.3.2
/KeyImport
The TSF shall allow the R.Admin to specify alternative initial values to override the default
values when an object or information is created.
Application note: part 3 only [PP-SSCD-KI].
FMT_MSA.4/Keygen Static attribute value inheritance
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_MSA.4.1
/Keygen
The TSF shall use the following rules to set the value of security attributes:
1. If S.Admin successfully generates an SCD/SVD pair without S.Sigy being authenticated
the security attribute “SCD operational of the SCD” shall be set to “no” as a single
operation.
2. If S.Sigy successfully generates an SCD/SVD pair the security attribute “SCD
operational of the SCD” shall be set to “yes” as a single operation.
Application note: part 2 only [PP-SSCD-KG].
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FMT_MSA.4/KeyImport Static attribute value inheritance
Hierarchical to: No other components
Dependencies: [FDP_ACC.1 Subset access control, or
FDP_IFC.1 Subset information flow control]
FMT_MSA.4.1
/KeyImport
The TSF shall use the following rules to set the value of security attributes:
1. If S.Admin imports SCD while S.Sigy is not currently authenticated, the security attribute
“SCD operational” of the SCD shall be set to “no” after import of the SCD as a single
operation.
2. If S.Admin imports SCD while the S.Sigy is currently authenticated, the security attribute
“SCD operational” of the SCD shall be set to “yes” after import of the SCD as a single
operation.
Application note: part 3 only [PP-SSCD-KI].
FMT_MTD.1/Admin Management of TSF data
Hierarchical to: No other components
Dependencies: FMT_SMR.1 Security roles
FMT_SMF.1 Specification of management functions
FMT_MTD.1.1
/Admin
The TSF shall restrict the ability to create the RAD to R.Admin.
FMT_MTD.1/Signatory Management of TSF data
Hierarchical to: No other components
Dependencies: FMT_SMR.1 Security roles
FMT_SMF.1 Specification of management functions
FMT_MTD.1.1
/Signatory
The TSF shall restrict the ability to modify the RAD to R.Sigy.
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 security management functions:
1. Creation and modification of RAD.
2. Enabling the signature-creation function.
3. Modification of the security attribute SCD/SVD management, SCD operational.
4. Change the default value of the security attribute SCD Identifier.
5. No other security management function.
FMT_SMR.1 Security roles
Hierarchical to: No other components
Dependencies: FIA_UID.1 Timing of identification
FMT_SMR.1.1 The TSF shall maintain the roles R.Admin and R.Sigy
FMT_SMR.1.2 The TSF shall be able to associate users with roles.
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6.1.5 Class FPT Protection of the Security Functions
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 RAD and SCD.
FPT_EMS.1.2 The TSF shall ensure [unauthorized users] are unable to use the following interface:
smart card circuit contacts to gain access to RAD and SCD.
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. self-test according to FPT_TST fails.
2. [No other failure].
FPT_PHP.1 Passive detection of physical attack
Hierarchical to: No other components
Dependencies: No dependencies
FPT_PHP.1.1 The TSF shall provide unambiguous detection of physical tampering that might compromise
the TSF.
FPT_PHP.1.2 The TSF shall provide the capability to determine whether physical tampering with the
TSF's devices or TSF's elements has occurred.
FPT_PHP.3 Resistance to physical attack
Hierarchical to: No other components
Dependencies: No dependencies
FPT_PHP.3.1 The TSF shall resist [clock frequency, voltage tampering and penetration of protection
layer] to the [integrated circuit] by responding automatically such that the SFRs are
always enforced.
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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 [see Table 11: conditions triggering tests] to
demonstrate the correct operation of the TSF.
FPT_TST.1.2 The TSF shall provide authorized users with the capability to verify the integrity of TSF data.
FPT_TST.1.3 The TSF shall provide authorized users with the capability to verify the integrity of TSF.
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, sensor test, FA detection
After cryptographic computation FA detection
Before any use or update of TSF data FA detection, Integrity Check of related TSF data
Table 11: conditions triggering tests
6.1.6 Class FTP Trusted Path/Channel
FTP_ITC.1/SCD import Inter-TSF trusted Channel
Hierarchical to: No other components
Dependencies: No dependencies
FTP_ITC.1.1
/SCD import
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
/SCD import
The TSF shall permit another trusted IT product to initiate communication via the trusted
channel.
FTP_ITC.1.3
/SCD import
The TSF shall initiate communication via the trusted channel for
1. Data exchange integrity according to FDP_UCT.1/SCD.
2. [None].
Application note: part 3 only [PP-SSCD-KI].
6.2 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 4 (EAL4) and augmented by taking the following components: ALC_DVS.2,
and AVA_VAN.5.
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6.3 SECURITY REQUIREMENTS RATIONALE
6.3.1 SFR and PP
Requirements
PP-SSCD-KG]
[PP-SSCD-KI]
additions
FCS_CKM.1/SCD X
FCS_CKM.1/Session X
FCS_CKM.4/SCD X
FCS_CKM.4/Session X
FCS_COP.1/DSC X X
FCS_COP.1/Session X
FDP_ACC.1/Signature-creation X X
FDP_ACF.1/Signature-creation X X
FDP_ACC.1/SCD/SVD_Generation X
FDP_ACF.1/SCD/SVD_Generation X
FDP_ACC.1/SVD transfer X
FDP_ACF.1/SVD transfer X
FDP_ACC.1/SCD import X
FDP_ACF.1/SCD import X
FDP_ITC.1/SCD X
FDP_RIP.1 X X
FDP_SDI.2/Persistent X X
FDP_SDI.2/DTBS X X
FDP_UCT.1/SCD X
FIA_AFL.1/PERSO X
FIA_AFL.1/SIG X X
FIA_UAU.1/PERSO X
FIA_UAU.1/SIG X X
FIA_UID.1/PERSO X
FIA_UID.1/SIG X X
FMT_MOF.1 X X
FMT_MSA.1/Signatory X X
FMT_MSA.1/AdminKG X
FMT_MSA.1/AdminKI X
FMT_MSA.2 X X
FMT_MSA.3/Keygen X
FMT_MSA.3/KeyImport X
FMT_MSA.4/Keygen X
FMT_MSA.4/KeyImport X
FMT_MTD.1/Admin X X
FMT_MTD.1/Signatory X X
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Requirements
PP-SSCD-KG]
[PP-SSCD-KI]
additions
FMT_SMF.1 X X
FMT_SMR.1 X X
FPT_EMS.1 X X
FPT_FLS.1 X X
FPT_PHP.1 X X
FPT_PHP.3 X X
FPT_TST.1 X X
FTP_ITC.1/SCD Import X
Table 12: Objective vs SFR rationale
6.3.2 Security Functional Requirements Rationale
6.3.2.1 Security objectives for the TOE
Requirements
OT.Lifecycle_Security
OT.SCD_Secrecy
OT.Sig_Secure
OT.Sigy_SigF
OT.DTBS_Integrity_TOE
OT.EMSEC_Design
OT.Tamper_ID
OT.Tamper_Resistance
OT.SCD/SVD_Auth_Gen
(Part
2
only)
OT.SCD_Unique
(Part
2
only)
OT.SCD_SVD_Corresp
OT.SCD_Auth_Imp
(Part
3
only)
OT.Pre-personalisation
FCS_CKM.1/SCD X X X X
FCS_CKM.1/Session X X
FCS_CKM.4/SCD X X
FCS_CKM.4/Session X X
FCS_COP.1/DSC X X
FCS_COP.1/Session X X
FDP_ACC.1/Signature-creation X X
FDP_ACF.1/Signature-creation X X
FDP_ACC.1/SCD/SVD_Generation X X
FDP_ACF.1/SCD/SVD_Generation X X
FDP_ACC.1/SVD transfer X
FDP_ACF.1/SVD transfer X
FDP_ACC.1/SCD import X X
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Requirements
OT.Lifecycle_Security
OT.SCD_Secrecy
OT.Sig_Secure
OT.Sigy_SigF
OT.DTBS_Integrity_TOE
OT.EMSEC_Design
OT.Tamper_ID
OT.Tamper_Resistance
OT.SCD/SVD_Auth_Gen
(Part
2
only)
OT.SCD_Unique
(Part
2
only)
OT.SCD_SVD_Corresp
OT.SCD_Auth_Imp
(Part
3
only)
OT.Pre-personalisation
FDP_ACF.1/SCD import X X
FDP_ITC.1/SCD X
FDP_RIP.1 X X
FDP_SDI.2/Persistent X X X
FDP_SDI.2/DTBS X X
FDP_UCT.1/SCD X X
FIA_AFL.1/PERSO X
FIA_AFL.1/SIG X
FIA_UAU.1/PERSO X
FIA_UAU.1/SIG X X X
FIA_UID.1/PERSO X
FIA_UID.1/SIG X X X
FMT_MOF.1 X X
FMT_MSA.1/Signatory X X
FMT_MSA.1/AdminKG X X
FMT_MSA.1/AdminKI X
FMT_MSA.2 X X X
FMT_MSA.3/Keygen X X X
FMT_MSA.3/KeyImport X X
FMT_MSA.4/Keygen X X X X
FMT_MSA.4/KeyImport X X
FMT_MTD.1/Admin X X
FMT_MTD.1/Signatory X X
FMT_SMF.1 X X X
FMT_SMR.1 X X
FPT_EMS.1 X X
FPT_FLS.1 X
FPT_PHP.1 X
FPT_PHP.3 X X
FPT_TST.1 X X X
FTP_ITC.1/SCD Import X X
Table 13: Objective vs SFR rationale
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OT.Lifecycle_Security (Lifecycle security) is provided by the SFR for SCD/SVD generation
FCS_CKM.1/SCD, SCD usage FCS_COP.1/SCD and SCD destruction FCS_CKM.4/SCD which ensure
cryptographically secure lifecycle of the SCD.
The SCD/SVD generation is controlled by TSF according to FDP_ACC.1/SCD/SVD_Generation and
FDP_ACF.1/SCD/SVD_Generation.
The SVD transfer for certificate generation is controlled by TSF according to FDP_ACC.1/SVD_Transfer
and FDP_ACF.1/SVD_Transfer.
The SCD import is controlled by TSF according to FDP_ACC.1/SCD_Import, FDP_ACF.1/SCD_Import and
FDP_ITC.1/SCD. The confidentiality of the SCD is protected during import according to FDP_UCT.1/SCD in
the trusted channel FTP_ICT.1/SCD Import.
The SCD usage is ensured by access control FDP_ACC.1/Signature_Creation ,
FDP_ACF.1/Signature_Creation which is based on the security attribute secure TSF management
according to FMT_MOF.1, FMT_MSA.1/AdminKG FMT_MSA.1/AdminKI, FMT_MSA.1/Signatory,
FMT_MSA.2, FMT_MSA.3/KeyGen, FMT_MSA.3/KeyImport, FMT_MSA.4/Keygen,
FMT_MSA.4/KeyImport, FMT_MTD.1/Admin, FMT_MTD.1/Signatory, FMT_SMF.1 and FMT_SMR.1. The
test functions FPT_TST.1 provides failure detection throughout the lifecycle.
OT.EMSEC_Design (Provide physical emanations security) covers that no intelligible information is
emanated. This is provided by FPT_EMS.1.
OT.SCD_Secrecy (Secrecy of signature-creation data) is provided by the security functions specified by the
following SFR. FCS_CKM.1/SCD ensures the use of secure cryptographic algorithms for SCD/SVD
generation. Cryptographic quality of SCD/SVD pair shall prevent disclosure of SCD by cryptographic attacks
using the publicly known SVD. FDP_UCT.1/SCD and FTP_ITC.1/SCD ensures the confidentiality for SCD
import. The security functions specified by FDP_RIP.1, FCS_CKM.4/SCD ensure that residual information
on SCD is destroyed after the SCD has been use for signature creation and that destruction of SCD leaves
no residual information.
The security functions specified by FDP_SDI.2/Persistent ensure that no critical data is modified which
could alter the efficiency of the security functions or leak information of the SCD. FPT_TST.1 tests the
working conditions of the TOE and FPT_FLS.1 guarantees a secure state when integrity is violated and thus
assures that the specified security functions are operational. An example where compromising error
conditions are countered by FPT_FLS.1 is fault injection for differential fault analysis (DFA).
SFR FPT_EMS.1 and FPT_PHP.3 require additional security features of the TOE to ensure the
confidentiality of the SCD.
OT.Tamper_ID (Tamper detection) is provided by FPT_PHP.1 by the means of passive detection of physical
attacks.
OT.Tamper_Resistance (Tamper resistance) is provided by FPT_PHP.3 to resist physical attacks.
OT.DTBS_Integrity_TOE (DTBS/R integrity inside the TOE) ensures that the DTBS/R is not altered by the
TOE. The integrity functions specified by FDP_SDI.2/DTBS require that the DTBS/R has not been altered by
the TOE.
OT.Sigy_SigF (Signature creation function for the legitimate signatory only) is provided by an SFR for
identification authentication and access control.
FIA_UAU.1 and FIA_UID.1 ensure that no signature generation function can be invoked before the signatory
is identified and authenticated. The security functions specified by FMT_MTD.1/Admin and
FMT_MTD.1/Signatory manage the authentication function. SFR FIA_AFL.1 provides protection against a
number of attacks, such as cryptographic extraction of residual information, or brute force attacks against
authentication. The security function specified by FDP_SDI.2/DTBS ensures the integrity of stored DTBS
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and FDP_RIP.1 prevents misuse of any resources containing the SCD after de-allocation (e.g. after the
signature creation process).
The security functions specified by FDP_ACC.1/Signature-creation and FDP_ACF.1/Signature-creation
provide access control based on the security attributes managed according to the SFR
FMT_MTD.1/Signatory, FMT_MSA.2, FMT_MSA.3/Keygen, FMT_MSA.3/KeyImport and
FMT_MSA.4/Keygen and FMT_MSA.4/KeyImport. The SFR FMT_SMF.1 and FMT_SMR.1 list these
management functions and the roles. These ensure that the signature process is restricted to the signatory.
FMT_MOF.1 restricts the ability to enable the signature-creation function to the signatory.
FMT_MSA.1/Signatory restricts the ability to modify the security attributes SCD operational to the signatory.
OT.Sig_Secure (Cryptographic security of the digital signature) is provided by the cryptographic algorithms
specified by FCS_COP.1/DSC, which ensures the cryptographic robustness of the signature algorithms.
FDP_SDI.2/Persistent corresponds to the integrity of the SCD implemented by the TOE and FPT_TST.1
ensures self-tests ensuring correct signature-creation.
SSCD Part 3 only
OT.SCD_Auth_Imp (Authorized SCD import) is provided by the security functions specified by the
following SFR. FIA_UID.1/SIG and FIA_UAU.1/SIG ensure that the user is identified and authenticated
before SCD can be imported. FDP_ACC.1/SCD_Import and FDP_ACF.1/SCD_Import ensure that only
authorised users can import SCD.
SSCD Part 2 only
OT.SCD_Unique (Uniqueness of the signature-creation data) implements the requirement of practically
unique SCD as laid down in Annex III, paragraph 1(a), which is provided by the cryptographic algorithms
specified by FCS_CKM.1/SCD.
OT.SCD/SVD_Auth_Gen (SCD/SVD generation) addresses that generation of a SCD/SVD pair requires
proper user authentication. The TSF specified by FIA_UID.1/SIG and FIA_UAU.1/SIG provide user
identification and user authentication prior to enabling access to authorized functions. The SFR
FDP_ACC.1/SCD/SVD_Generation and FDP_ACF.1/SCD/SVD_Generation provide access control for the
SCD/SVD generation. The security attributes of the authenticated user are provided by
FMT_MSA.1/AdminKG, FMT_MSA.2, and FMT_MSA.3/Keygen for static attribute initialization. The SFR
FMT_MSA.4/Keygen defines rules for inheritance of the security attribute “SCD operational” of the SCD.
OT.SCD_SVD_Corresp (Correspondence between SVD and SCD) addresses that the SVD corresponds to
the SCD implemented by the TOE. This is provided by the algorithms specified by FCS_CKM.1/SCD to
generate corresponding SVD/SCD pairs. The security functions specified by FDP_SDI.2/Persistent ensure
that the keys are not modified, so to retain the correspondence. Moreover, the SCD Identifier allows the
environment to identify the SCD and to link it with the appropriate SVD. The management functions identified
by FMT_SMF.1 and by FMT_MSA.4/KeyGen allow R.Admin to modify the default value of the security
attribute SCD Identifier.
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6.3.2.2 Dependency Rationale
Requirements CC Dependencies Satisfied Dependencies
FCS_CKM.1/SCD (FCS_CKM.2 or FCS_COP.1) and
(FCS_CKM.4)
FCS_COP.1/DSC,
FCS_CKM.4/SDC
FCS_CKM.1/Session (FCS_CKM.2 or FCS_COP.1) and
(FCS_CKM.4)
FCS_COP.1/Session,
FCS_CKM.4/Session
FCS_CKM.4/SCD (FCS_CKM.1 or FDP_ITC.1 or
FDP_ITC.2)
FCS_CKM.1/SDC,
FDP_ITC.1/SCD,
FCS_CKM.4/Session (FCS_CKM.1 or FDP_ITC.1 or
FDP_ITC.2)
FCS_CKM.1/Session
FCS_COP.1/DSC (FCS_CKM.1 or FDP_ITC.1 or
FDP_ITC.2) and (FCS_CKM.4)
FCS_CKM.1/SCD,
FCS_CKM.4/SCD,
FDP_ITC.1/SCD,
FCS_COP.1/Session (FCS_CKM.1 or FDP_ITC.1 or
FDP_ITC.2) and (FCS_CKM.4)
FCS_CKM.1/Session,
FCS_CKM.4/Session
FDP_ACC.1/SCD/SVD_Generatio
n
(FDP_ACF.1) FDP_ACF.1/SCD/SVD_Generatio
n
FDP_ACC.1/SVD transfer (FDP_ACF.1) FDP_ACF.1/SVD transfer
FDP_ACC.1/SCD import (FDP_ACF.1) FDP_ACF.1/SCD import
FDP_ACC.1/Signature-creation (FDP_ACF.1) FDP_ACF.1/Signature-creation
FDP_ACF.1/SCD/SVD_Generatio
n
(FDP_ACC.1) and (FMT_MSA.3) FDP_ACC.1/SCD/SVD_Generatio
n, FMT_MSA.3/Keygen,
FMT_MSA.3/KeyImport
FDP_ACF.1/SVD transfer (FDP_ACC.1) and (FMT_MSA.3) FDP_ACC.1/SVD transfer,
FMT_MSA.3/Keygen
FDP_ACF.1/SCD import (FDP_ACC.1) and (FMT_MSA.3) FDP_ACC.1/SCD import,
FMT_MSA.3/KeyImport
FDP_ACF.1/Signature-creation
SFP
(FDP_ACC.1) and (FMT_MSA.3) FDP_ACC.1/Signature-creation
SFP, FMT_MSA.3/KeyImport,
FMT_MSA.3/Keygen
FDP_ITC.1/SCD (FDP_ACC.1 or FDP_IFC.1) and
(FMT_MSA.3)
FDP_ACC.1/SCD impor,
FMT_MSA.3/KeyImport
FDP_ITC.1/DTBS (FDP_ACC.1 or FDP_IFC.1) and
(FMT_MSA.3)
FDP_ACC.1/Signature-creation
SFP, FMT_MSA.3/Type2,
FMT_MSA.3/Type3
FDP_RIP.1 No dependencies
FDP_SDI.2/Persistent No dependencies
FDP_SDI.2/DTBS No dependencies
FDP_UCT.1/SCD (FTP_ITC.1 or FTP_TRP.1)
(FDP_ACC.1 or FDP_IFC.1)
FTP_ITC.1/SCD,
FDP_ACC.1/SCD import
FIA_AFL.1/PERSO (FIA_UAU.1) FIA_UAU.1/PERSO
FIA_AFL.1/SIG (FIA_UAU.1) FIA_UAU.1/SIG
FIA_UAU.1/PERSO (FIA_UID.1) FIA_UID.1/PERSO
FIA_UAU.1/SIG (FIA_UID.1) FIA_UID.1/SIG
FIA_UID.1/PERSO No dependencies
FIA_UID.1/SIG No dependencies
FMT_MOF.1 (FMT_SMF.1) and (FMT_SMR.1) FMT_SMR.1, FMT_SMF.1
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Requirements CC Dependencies Satisfied Dependencies
FMT_MSA.1/AdminKG (FDP_ACC.1 or FDP_IFC.1) and
(FMT_SMF.1) and (FMT_SMR.1)
FDP_ACC.1/SCD/SVD_Generatio
n, FMT_SMR.1, FMT_SMF.1
FMT_MSA.1/AdminKI (FDP_ACC.1 or FDP_IFC.1) and
(FMT_SMF.1) and (FMT_SMR.1)
FDP_ACC.1/SCD Import,
FMT_SMR.1, FMT_SMF.1
FMT_MSA.1/Signatory (FDP_ACC.1 or FDP_IFC.1) and
(FMT_SMF.1) and (FMT_SMR.1)
FDP_ACC.1/Signature-creation
SFP, FMT_SMR.1, FMT_SMF.1
FMT_MSA.2 (FDP_ACC.1 or FDP_IFC.1) and
(FMT_MSA.1) and (FMT_SMR.1)
FDP_ACC.1/SCD/SVD_Generatio
n,
FDP_ACC.1/Signature-Creation
SFP, FMT_MSA.1/AdminKG
FMT_MSA.1/AdminKI
FMT_MSA.1/Signatory,
FMT_SMR.1
FMT_MSA.3/KeyImport (FMT_MSA.1) and (FMT_SMR.1) FMT_MSA.1/Administrator,
FMT_MSA.1/Signatory,
FMT_SMR.1
FMT_MSA.3/Keygen (FMT_MSA.1) and (FMT_SMR.1) FMT_MSA.1/Administrator,
FMT_MSA.1/Signatory,
FMT_SMR.1
FMT_MSA.4/ KeyImport (FDP_ACC.1) or (FDP_IFC.1) FDP_ACC.1/SCD _Import
FDP_ACC.1/Signature_Creation
FMT_MSA.4/Keygen (FDP_ACC.1) or (FDP_IFC.1) FDP_ACC.1/SCD/SVD_Generatio
n
FDP_ACC.1/Signature_Creation
FMT_MTD.1/Admin (FMT_SMF.1) and (FMT_SMR.1) FMT_SMR.1, FMT_SMF.1
FMT_MTD.1/Signatory (FMT_SMF.1) and (FMT_SMR.1) FMT_SMR.1, FMT_SMF.1
FMT_SMF.1 No dependencies
FMT_SMR.1 (FIA_UID.1) FIA_UID.1
FPT_EMS.1 No dependencies
FPT_FLS.1 No dependencies
FPT_PHP.1 No dependencies
FPT_PHP.3 No dependencies
FPT_TST.1 No dependencies
FTP_ITC.1/SCD Import No dependencies
Table 14: Dependency rationale
6.3.3 Security Assurance Requirements Rationale
EAL4 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 SSCD’s
development and manufacturing especially for the secure handling of the SSCD’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.
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6.3.4 Compatibility between SFR of [ST-IAS] and [ST-PLTF]
FCS_CKM.1 and FCS_COP.1 of [ST-IAS] are supported by FCS_CKM.1and FCS_COP.1 of [ST-PLTF].
FDP_SDI.2 of [ST-IAS] is supported by FDP_SDI.2 of [ST-PLTF].
FPT_EMS.1, FPT_FLS.1, FPT_PHP.1 and FPT_PHP.3 of [ST-IAS] are supported by FPT_EMS.1,
FPT_FLS.1, FPT_PHP.1 and FPT_PHP.3 of [ST-PLTF].
FCS_CKM.4, FDP_ACC.1, FDP_ACF.1, , FDP_ITC.1, FDP_RIP.1, FDP_UCT.1, FDP_UIT.1, FIA_AFL.1, ,
FIA_UAU.1, FIA_UID.1, FMT_MOF.1, FMT_MSA.1, FMT_MSA.2, FMT_MSA.3, FMT_MSA.4 FMT_MTD.1,
FMT_SMF.1, FMT_SMR.1, FTP_ITC.1, and are SFR specific to the IAS application and they do no conflict
with the SFR of [ST-PLTF].
We can therefore conclude that the SFR of [ST-IAS] and [ST-PLTF] are consistent.
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7. TOE SUMMARY SPECIFICATION
7.1 TOE SECURITY FUNCTIONS
TOE Security Functions are provided by the IAS application with its OS and by the chip.
The security functions provided by the platform are described in [ST-PLTF].
7.1.1 SF provided by IAS Application
This section presents the security functions provided by the IAS applet.
Identification Name
SF.AUTHENTICATION Authentication management
SF.CRYPTO Cryptography management
SF.INTEGRITY Integrity monitoring
SF.MANAGEMENT Operation management and access control
SF.SECURE_MESSAGING Secure messaging management
SF.CSM Card Security Management
Table 15: TOE security functions list
SF.AUTHENTICATION provides the authentication management on the TOE. It encompasses:
 Signatory authentication failure as defined in FIA_AFL.1/SIG,
 Timing of signatory identification and authentication as defined in FIA_UID.1/SIG and
FIA_UAU.1/SIG,
 Pre-personaliser authentication failure as defined in FIA_AFL.1/PERSO,
 Timing of pre-personaliser identification and authentication as defined in FIA_UID.1/PERSO and
FIA_UAU.1/PERSO.
SF.CRYPTO provides the crypto management on the TOE. It encompasses:
 The generation of SCD/SVD and session keys as defined in FCS_CKM.1/SCD and
FCS_CKM.1/Session,
 The destruction of SCD and session keys as defined in FCS_CKM.4/SCD and
FCS_CKM.4/Session,
 The usage of SCD and session keys as defined in FCS_COP.1/DSC and FCS_COP.1/Session
SF.INTEGRITY provides the integrity monitoring on the TOE. It encompasses:
 The integrity of sensitive data as defined in FDP_SDI.2/Persistent and FDP_SDI.2/DTBS,
SF.MANAGEMENT provides operation management and access control. It encompasses:
 Access management as defined in FDP_ACC.1 and FDP_ACF.1 SFR,
 Data input and output as defined in FDP_ITC.1/SCD,
 Management of functions as defined in FMT_MOF.1 and FMT_SMF.1,
 Management of security attributes FMT_MSA.1/AdminKG, FMT_MSA.1/AdminKI,
FMT_MSA.1/Signatory, FMT_MSA.2, FMT_MSA.3/KeyImport, FMT_MSA.3/KeyGen,
FMT_MSA.4/KeyImport, FMT_MSA.4/KeyGen,
 Management of TSF data as defined in FMT_MTD.1/Admin and FMT_MTD.1/Signatory,
 Management of roles as defined in FMT_SMR.1,
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SF.SECURE_MESSAGING provides secure messaging for the TOE. It encompasses:
 Data exchange integrity and confidentiality as defined in FDP_UCT.1/SCD,
 Secure channel and secure path as defined in FTP_ITC.1/SCD Import,
SF.CSM provides cards security protection. It encompasses:
 Protection against physical attacks as defined in FPT_EMS.1, FPT_FLS.1, FPT_PHP.1, and
FPT_PHP.3,
 Testing of the card as defined in FPT_TST,
 Secure unavailability of sensitive data as defined in FDP_RIP.
7.1.2 TSFs provided by the platform
The evaluation is a composite evaluation and uses the results of the Platform CC .
SF Description
SF_FW Firewall
SF_API Protection against snooping
SF.CSM Card Security Management
SF.AID AID Management
SF.INST Installer
SF.ADEL Applet Deletion
SF.ODEL Object Deletion
SF.CAR Secure Carrier
SF.SCP Smart Card Platform
SF.CMG Card Manager
SF.APIS Specific API
SF.RND RNG
Table 16: Security Functions provided by the MultiApp V31S Platform
These SF are described in [ST-PLTF].